NXP Semiconductors MKV10Z1287 2024.06.02 MKV10Z1287 Freescale Microcontroller CM0PLUS r0p0 little 2 false 8 32 ADC0 Analog-to-Digital Converter ADC 0x0 0x0 0x70 registers n ADC0 15 CFG1 ADC Configuration Register 1 0x8 32 read-write n 0x0 0x0 ADICLK Input Clock Select 0 2 read-write 00 Bus clock #00 01 Bus clock divided by 2(BUSCLK/2) #01 10 Alternate clock (ALTCLK) #10 11 Asynchronous clock (ADACK) #11 ADIV Clock Divide Select 5 2 read-write 00 The divide ratio is 1 and the clock rate is input clock. #00 01 The divide ratio is 2 and the clock rate is (input clock)/2. #01 10 The divide ratio is 4 and the clock rate is (input clock)/4. #10 11 The divide ratio is 8 and the clock rate is (input clock)/8. #11 ADLPC Low-Power Configuration 7 1 read-write 0 Normal power configuration. #0 1 Low-power configuration. The power is reduced at the expense of maximum clock speed. #1 ADLSMP Sample Time Configuration 4 1 read-write 0 Short sample time. #0 1 Long sample time. #1 MODE Conversion mode selection 2 2 read-write 00 When DIFF=0:It is single-ended 8-bit conversion; when DIFF=1, it is differential 9-bit conversion with 2's complement output. #00 01 When DIFF=0:It is single-ended 12-bit conversion ; when DIFF=1, it is differential 13-bit conversion with 2's complement output. #01 10 When DIFF=0:It is single-ended 10-bit conversion. ; when DIFF=1, it is differential 11-bit conversion with 2's complement output #10 11 When DIFF=0:It is single-ended 16-bit conversion..; when DIFF=1, it is differential 16-bit conversion with 2's complement output #11 CFG2 ADC Configuration Register 2 0xC 32 read-write n 0x0 0x0 ADACKEN Asynchronous Clock Output Enable 3 1 read-write 0 Asynchronous clock output disabled; Asynchronous clock is enabled only if selected by ADICLK and a conversion is active. #0 1 Asynchronous clock and clock output is enabled regardless of the state of the ADC. #1 ADHSC High-Speed Configuration 2 1 read-write 0 Normal conversion sequence selected. #0 1 High-speed conversion sequence selected with 2 additional ADCK cycles to total conversion time. #1 ADLSTS Long Sample Time Select 0 2 read-write 00 Default longest sample time; 20 extra ADCK cycles; 24 ADCK cycles total. #00 01 12 extra ADCK cycles; 16 ADCK cycles total sample time. #01 10 6 extra ADCK cycles; 10 ADCK cycles total sample time. #10 11 2 extra ADCK cycles; 6 ADCK cycles total sample time. #11 CLM0 ADC Minus-Side General Calibration Value Register 0x6C 32 read-write n 0x0 0x0 CLM0 Calibration Value 0 6 read-write CLM1 ADC Minus-Side General Calibration Value Register 0x68 32 read-write n 0x0 0x0 CLM1 Calibration Value 0 7 read-write CLM2 ADC Minus-Side General Calibration Value Register 0x64 32 read-write n 0x0 0x0 CLM2 Calibration Value 0 8 read-write CLM3 ADC Minus-Side General Calibration Value Register 0x60 32 read-write n 0x0 0x0 CLM3 Calibration Value 0 9 read-write CLM4 ADC Minus-Side General Calibration Value Register 0x5C 32 read-write n 0x0 0x0 CLM4 Calibration Value 0 10 read-write CLMD ADC Minus-Side General Calibration Value Register 0x54 32 read-write n 0x0 0x0 CLMD Calibration Value 0 6 read-write CLMS ADC Minus-Side General Calibration Value Register 0x58 32 read-write n 0x0 0x0 CLMS Calibration Value 0 6 read-write CLP0 ADC Plus-Side General Calibration Value Register 0x4C 32 read-write n 0x0 0x0 CLP0 Calibration Value 0 6 read-write CLP1 ADC Plus-Side General Calibration Value Register 0x48 32 read-write n 0x0 0x0 CLP1 Calibration Value 0 7 read-write CLP2 ADC Plus-Side General Calibration Value Register 0x44 32 read-write n 0x0 0x0 CLP2 Calibration Value 0 8 read-write CLP3 ADC Plus-Side General Calibration Value Register 0x40 32 read-write n 0x0 0x0 CLP3 Calibration Value 0 9 read-write CLP4 ADC Plus-Side General Calibration Value Register 0x3C 32 read-write n 0x0 0x0 CLP4 Calibration Value 0 10 read-write CLPD ADC Plus-Side General Calibration Value Register 0x34 32 read-write n 0x0 0x0 CLPD Calibration Value 0 6 read-write CLPS ADC Plus-Side General Calibration Value Register 0x38 32 read-write n 0x0 0x0 CLPS Calibration Value 0 6 read-write CV1 Compare Value Registers 0x30 32 read-write n 0x0 0x0 CV Compare Value. 0 16 read-write CV2 Compare Value Registers 0x4C 32 read-write n 0x0 0x0 CV Compare Value. 0 16 read-write MG ADC Minus-Side Gain Register 0x30 32 read-write n 0x0 0x0 MG Minus-Side Gain 0 16 read-write OFS ADC Offset Correction Register 0x28 32 read-write n 0x0 0x0 OFS Offset Error Correction Value 0 16 read-write PG ADC Plus-Side Gain Register 0x2C 32 read-write n 0x0 0x0 PG Plus-Side Gain 0 16 read-write RA ADC Data Result Register 0x20 32 read-only n 0x0 0x0 D Data result 0 16 read-only RB ADC Data Result Register 0x34 32 read-only n 0x0 0x0 D Data result 0 16 read-only SC1A ADC Status and Control Registers 1 0x0 32 read-write n 0x0 0x0 ADCH Input channel select 0 5 read-write 00000 When DIFF=0, DADP0 is selected as input; when DIFF=1, DAD0 is selected as input. #00000 00001 When DIFF=0, DADP1 is selected as input; when DIFF=1, DAD1 is selected as input. #00001 00010 When DIFF=0, DADP2 is selected as input; when DIFF=1, DAD2 is selected as input. #00010 00011 When DIFF=0, DADP3 is selected as input; when DIFF=1, DAD3 is selected as input. #00011 00100 When DIFF=0, AD4 is selected as input; when DIFF=1, it is reserved. #00100 00101 When DIFF=0, AD5 is selected as input; when DIFF=1, it is reserved. #00101 00110 When DIFF=0, AD6 is selected as input; when DIFF=1, it is reserved. #00110 00111 When DIFF=0, AD7 is selected as input; when DIFF=1, it is reserved. #00111 01000 When DIFF=0, AD8 is selected as input; when DIFF=1, it is reserved. #01000 01001 When DIFF=0, AD9 is selected as input; when DIFF=1, it is reserved. #01001 01010 When DIFF=0, AD10 is selected as input; when DIFF=1, it is reserved. #01010 01011 When DIFF=0, AD11 is selected as input; when DIFF=1, it is reserved. #01011 01100 When DIFF=0, AD12 is selected as input; when DIFF=1, it is reserved. #01100 01101 When DIFF=0, AD13 is selected as input; when DIFF=1, it is reserved. #01101 01110 When DIFF=0, AD14 is selected as input; when DIFF=1, it is reserved. #01110 01111 When DIFF=0, AD15 is selected as input; when DIFF=1, it is reserved. #01111 10000 When DIFF=0, AD16 is selected as input; when DIFF=1, it is reserved. #10000 10001 When DIFF=0, AD17 is selected as input; when DIFF=1, it is reserved. #10001 10010 When DIFF=0, AD18 is selected as input; when DIFF=1, it is reserved. #10010 10011 When DIFF=0, AD19 is selected as input; when DIFF=1, it is reserved. #10011 10100 When DIFF=0, AD20 is selected as input; when DIFF=1, it is reserved. #10100 10101 When DIFF=0, AD21 is selected as input; when DIFF=1, it is reserved. #10101 10110 When DIFF=0, AD22 is selected as input; when DIFF=1, it is reserved. #10110 10111 When DIFF=0, AD23 is selected as input; when DIFF=1, it is reserved. #10111 11010 When DIFF=0, Temp Sensor (single-ended) is selected as input; when DIFF=1, Temp Sensor (differential) is selected as input. #11010 11011 When DIFF=0, Bandgap (single-ended) is selected as input; when DIFF=1, Bandgap (differential) is selected as input. #11011 11101 When DIFF=0,VREFSH is selected as input; when DIFF=1, -VREFSH (differential) is selected as input. Voltage reference selected is determined by SC2[REFSEL]. #11101 11110 When DIFF=0,VREFSL is selected as input; when DIFF=1, it is reserved. Voltage reference selected is determined by SC2[REFSEL]. #11110 11111 Module is disabled. #11111 AIEN Interrupt Enable 6 1 read-write 0 Conversion complete interrupt is disabled. #0 1 Conversion complete interrupt is enabled. #1 COCO Conversion Complete Flag 7 1 read-only 0 Conversion is not completed. #0 1 Conversion is completed. #1 DIFF Differential Mode Enable 5 1 read-write 0 Single-ended conversions and input channels are selected. #0 1 Differential conversions and input channels are selected. #1 SC1B ADC Status and Control Registers 1 0x4 32 read-write n 0x0 0x0 ADCH Input channel select 0 5 read-write 00000 When DIFF=0, DADP0 is selected as input; when DIFF=1, DAD0 is selected as input. #00000 00001 When DIFF=0, DADP1 is selected as input; when DIFF=1, DAD1 is selected as input. #00001 00010 When DIFF=0, DADP2 is selected as input; when DIFF=1, DAD2 is selected as input. #00010 00011 When DIFF=0, DADP3 is selected as input; when DIFF=1, DAD3 is selected as input. #00011 00100 When DIFF=0, AD4 is selected as input; when DIFF=1, it is reserved. #00100 00101 When DIFF=0, AD5 is selected as input; when DIFF=1, it is reserved. #00101 00110 When DIFF=0, AD6 is selected as input; when DIFF=1, it is reserved. #00110 00111 When DIFF=0, AD7 is selected as input; when DIFF=1, it is reserved. #00111 01000 When DIFF=0, AD8 is selected as input; when DIFF=1, it is reserved. #01000 01001 When DIFF=0, AD9 is selected as input; when DIFF=1, it is reserved. #01001 01010 When DIFF=0, AD10 is selected as input; when DIFF=1, it is reserved. #01010 01011 When DIFF=0, AD11 is selected as input; when DIFF=1, it is reserved. #01011 01100 When DIFF=0, AD12 is selected as input; when DIFF=1, it is reserved. #01100 01101 When DIFF=0, AD13 is selected as input; when DIFF=1, it is reserved. #01101 01110 When DIFF=0, AD14 is selected as input; when DIFF=1, it is reserved. #01110 01111 When DIFF=0, AD15 is selected as input; when DIFF=1, it is reserved. #01111 10000 When DIFF=0, AD16 is selected as input; when DIFF=1, it is reserved. #10000 10001 When DIFF=0, AD17 is selected as input; when DIFF=1, it is reserved. #10001 10010 When DIFF=0, AD18 is selected as input; when DIFF=1, it is reserved. #10010 10011 When DIFF=0, AD19 is selected as input; when DIFF=1, it is reserved. #10011 10100 When DIFF=0, AD20 is selected as input; when DIFF=1, it is reserved. #10100 10101 When DIFF=0, AD21 is selected as input; when DIFF=1, it is reserved. #10101 10110 When DIFF=0, AD22 is selected as input; when DIFF=1, it is reserved. #10110 10111 When DIFF=0, AD23 is selected as input; when DIFF=1, it is reserved. #10111 11010 When DIFF=0, Temp Sensor (single-ended) is selected as input; when DIFF=1, Temp Sensor (differential) is selected as input. #11010 11011 When DIFF=0, Bandgap (single-ended) is selected as input; when DIFF=1, Bandgap (differential) is selected as input. #11011 11101 When DIFF=0,VREFSH is selected as input; when DIFF=1, -VREFSH (differential) is selected as input. Voltage reference selected is determined by SC2[REFSEL]. #11101 11110 When DIFF=0,VREFSL is selected as input; when DIFF=1, it is reserved. Voltage reference selected is determined by SC2[REFSEL]. #11110 11111 Module is disabled. #11111 AIEN Interrupt Enable 6 1 read-write 0 Conversion complete interrupt is disabled. #0 1 Conversion complete interrupt is enabled. #1 COCO Conversion Complete Flag 7 1 read-only 0 Conversion is not completed. #0 1 Conversion is completed. #1 DIFF Differential Mode Enable 5 1 read-write 0 Single-ended conversions and input channels are selected. #0 1 Differential conversions and input channels are selected. #1 SC2 Status and Control Register 2 0x20 32 read-write n 0x0 0x0 ACFE Compare Function Enable 5 1 read-write 0 Compare function disabled. #0 1 Compare function enabled. #1 ACFGT Compare Function Greater Than Enable 4 1 read-write 0 Configures less than threshold, outside range not inclusive and inside range not inclusive; functionality based on the values placed in CV1 and CV2. #0 1 Configures greater than or equal to threshold, outside and inside ranges inclusive; functionality based on the values placed in CV1 and CV2. #1 ACREN Compare Function Range Enable 3 1 read-write 0 Range function disabled. Only CV1 is compared. #0 1 Range function enabled. Both CV1 and CV2 are compared. #1 ADACT Conversion Active 7 1 read-only 0 Conversion not in progress. #0 1 Conversion in progress. #1 ADTRG Conversion Trigger Select 6 1 read-write 0 Software trigger selected. #0 1 Hardware trigger selected. #1 DMAEN DMA Enable 2 1 read-write 0 DMA is disabled. #0 1 DMA is enabled and will assert the ADC DMA request during an ADC conversion complete event noted when any of the SC1n[COCO] flags is asserted. #1 REFSEL Voltage Reference Selection 0 2 read-write 00 Default voltage reference pin pair, that is, external pins VREFH and VREFL #00 01 Alternate reference pair, that is, VALTH and VALTL . This pair may be additional external pins or internal sources depending on the MCU configuration. See the chip configuration information for details specific to this MCU #01 SC3 Status and Control Register 3 0x24 32 read-write n 0x0 0x0 ADCO Continuous Conversion Enable 3 1 read-write 0 One conversion or one set of conversions if the hardware average function is enabled, that is, AVGE=1, after initiating a conversion. #0 1 Continuous conversions or sets of conversions if the hardware average function is enabled, that is, AVGE=1, after initiating a conversion. #1 AVGE Hardware Average Enable 2 1 read-write 0 Hardware average function disabled. #0 1 Hardware average function enabled. #1 AVGS Hardware Average Select 0 2 read-write 00 4 samples averaged. #00 01 8 samples averaged. #01 10 16 samples averaged. #10 11 32 samples averaged. #11 CAL Calibration 7 1 read-write CALF Calibration Failed Flag 6 1 read-write 0 Calibration completed normally. #0 1 Calibration failed. ADC accuracy specifications are not guaranteed. #1 ADC1 Analog-to-Digital Converter ADC 0x0 0x0 0x70 registers n ADC1 16 CFG1 ADC Configuration Register 1 0x8 32 read-write n 0x0 0x0 ADICLK Input Clock Select 0 2 read-write 00 Bus clock #00 01 Bus clock divided by 2(BUSCLK/2) #01 10 Alternate clock (ALTCLK) #10 11 Asynchronous clock (ADACK) #11 ADIV Clock Divide Select 5 2 read-write 00 The divide ratio is 1 and the clock rate is input clock. #00 01 The divide ratio is 2 and the clock rate is (input clock)/2. #01 10 The divide ratio is 4 and the clock rate is (input clock)/4. #10 11 The divide ratio is 8 and the clock rate is (input clock)/8. #11 ADLPC Low-Power Configuration 7 1 read-write 0 Normal power configuration. #0 1 Low-power configuration. The power is reduced at the expense of maximum clock speed. #1 ADLSMP Sample Time Configuration 4 1 read-write 0 Short sample time. #0 1 Long sample time. #1 MODE Conversion mode selection 2 2 read-write 00 When DIFF=0:It is single-ended 8-bit conversion; when DIFF=1, it is differential 9-bit conversion with 2's complement output. #00 01 When DIFF=0:It is single-ended 12-bit conversion ; when DIFF=1, it is differential 13-bit conversion with 2's complement output. #01 10 When DIFF=0:It is single-ended 10-bit conversion. ; when DIFF=1, it is differential 11-bit conversion with 2's complement output #10 11 When DIFF=0:It is single-ended 16-bit conversion..; when DIFF=1, it is differential 16-bit conversion with 2's complement output #11 CFG2 ADC Configuration Register 2 0xC 32 read-write n 0x0 0x0 ADACKEN Asynchronous Clock Output Enable 3 1 read-write 0 Asynchronous clock output disabled; Asynchronous clock is enabled only if selected by ADICLK and a conversion is active. #0 1 Asynchronous clock and clock output is enabled regardless of the state of the ADC. #1 ADHSC High-Speed Configuration 2 1 read-write 0 Normal conversion sequence selected. #0 1 High-speed conversion sequence selected with 2 additional ADCK cycles to total conversion time. #1 ADLSTS Long Sample Time Select 0 2 read-write 00 Default longest sample time; 20 extra ADCK cycles; 24 ADCK cycles total. #00 01 12 extra ADCK cycles; 16 ADCK cycles total sample time. #01 10 6 extra ADCK cycles; 10 ADCK cycles total sample time. #10 11 2 extra ADCK cycles; 6 ADCK cycles total sample time. #11 CLM0 ADC Minus-Side General Calibration Value Register 0x6C 32 read-write n 0x0 0x0 CLM0 Calibration Value 0 6 read-write CLM1 ADC Minus-Side General Calibration Value Register 0x68 32 read-write n 0x0 0x0 CLM1 Calibration Value 0 7 read-write CLM2 ADC Minus-Side General Calibration Value Register 0x64 32 read-write n 0x0 0x0 CLM2 Calibration Value 0 8 read-write CLM3 ADC Minus-Side General Calibration Value Register 0x60 32 read-write n 0x0 0x0 CLM3 Calibration Value 0 9 read-write CLM4 ADC Minus-Side General Calibration Value Register 0x5C 32 read-write n 0x0 0x0 CLM4 Calibration Value 0 10 read-write CLMD ADC Minus-Side General Calibration Value Register 0x54 32 read-write n 0x0 0x0 CLMD Calibration Value 0 6 read-write CLMS ADC Minus-Side General Calibration Value Register 0x58 32 read-write n 0x0 0x0 CLMS Calibration Value 0 6 read-write CLP0 ADC Plus-Side General Calibration Value Register 0x4C 32 read-write n 0x0 0x0 CLP0 Calibration Value 0 6 read-write CLP1 ADC Plus-Side General Calibration Value Register 0x48 32 read-write n 0x0 0x0 CLP1 Calibration Value 0 7 read-write CLP2 ADC Plus-Side General Calibration Value Register 0x44 32 read-write n 0x0 0x0 CLP2 Calibration Value 0 8 read-write CLP3 ADC Plus-Side General Calibration Value Register 0x40 32 read-write n 0x0 0x0 CLP3 Calibration Value 0 9 read-write CLP4 ADC Plus-Side General Calibration Value Register 0x3C 32 read-write n 0x0 0x0 CLP4 Calibration Value 0 10 read-write CLPD ADC Plus-Side General Calibration Value Register 0x34 32 read-write n 0x0 0x0 CLPD Calibration Value 0 6 read-write CLPS ADC Plus-Side General Calibration Value Register 0x38 32 read-write n 0x0 0x0 CLPS Calibration Value 0 6 read-write CV1 Compare Value Registers 0x30 32 read-write n 0x0 0x0 CV Compare Value. 0 16 read-write CV2 Compare Value Registers 0x4C 32 read-write n 0x0 0x0 CV Compare Value. 0 16 read-write MG ADC Minus-Side Gain Register 0x30 32 read-write n 0x0 0x0 MG Minus-Side Gain 0 16 read-write OFS ADC Offset Correction Register 0x28 32 read-write n 0x0 0x0 OFS Offset Error Correction Value 0 16 read-write PG ADC Plus-Side Gain Register 0x2C 32 read-write n 0x0 0x0 PG Plus-Side Gain 0 16 read-write RA ADC Data Result Register 0x20 32 read-only n 0x0 0x0 D Data result 0 16 read-only RB ADC Data Result Register 0x34 32 read-only n 0x0 0x0 D Data result 0 16 read-only SC1A ADC Status and Control Registers 1 0x0 32 read-write n 0x0 0x0 ADCH Input channel select 0 5 read-write 00000 When DIFF=0, DADP0 is selected as input; when DIFF=1, DAD0 is selected as input. #00000 00001 When DIFF=0, DADP1 is selected as input; when DIFF=1, DAD1 is selected as input. #00001 00010 When DIFF=0, DADP2 is selected as input; when DIFF=1, DAD2 is selected as input. #00010 00011 When DIFF=0, DADP3 is selected as input; when DIFF=1, DAD3 is selected as input. #00011 00100 When DIFF=0, AD4 is selected as input; when DIFF=1, it is reserved. #00100 00101 When DIFF=0, AD5 is selected as input; when DIFF=1, it is reserved. #00101 00110 When DIFF=0, AD6 is selected as input; when DIFF=1, it is reserved. #00110 00111 When DIFF=0, AD7 is selected as input; when DIFF=1, it is reserved. #00111 01000 When DIFF=0, AD8 is selected as input; when DIFF=1, it is reserved. #01000 01001 When DIFF=0, AD9 is selected as input; when DIFF=1, it is reserved. #01001 01010 When DIFF=0, AD10 is selected as input; when DIFF=1, it is reserved. #01010 01011 When DIFF=0, AD11 is selected as input; when DIFF=1, it is reserved. #01011 01100 When DIFF=0, AD12 is selected as input; when DIFF=1, it is reserved. #01100 01101 When DIFF=0, AD13 is selected as input; when DIFF=1, it is reserved. #01101 01110 When DIFF=0, AD14 is selected as input; when DIFF=1, it is reserved. #01110 01111 When DIFF=0, AD15 is selected as input; when DIFF=1, it is reserved. #01111 10000 When DIFF=0, AD16 is selected as input; when DIFF=1, it is reserved. #10000 10001 When DIFF=0, AD17 is selected as input; when DIFF=1, it is reserved. #10001 10010 When DIFF=0, AD18 is selected as input; when DIFF=1, it is reserved. #10010 10011 When DIFF=0, AD19 is selected as input; when DIFF=1, it is reserved. #10011 10100 When DIFF=0, AD20 is selected as input; when DIFF=1, it is reserved. #10100 10101 When DIFF=0, AD21 is selected as input; when DIFF=1, it is reserved. #10101 10110 When DIFF=0, AD22 is selected as input; when DIFF=1, it is reserved. #10110 10111 When DIFF=0, AD23 is selected as input; when DIFF=1, it is reserved. #10111 11010 When DIFF=0, Temp Sensor (single-ended) is selected as input; when DIFF=1, Temp Sensor (differential) is selected as input. #11010 11011 When DIFF=0, Bandgap (single-ended) is selected as input; when DIFF=1, Bandgap (differential) is selected as input. #11011 11101 When DIFF=0,VREFSH is selected as input; when DIFF=1, -VREFSH (differential) is selected as input. Voltage reference selected is determined by SC2[REFSEL]. #11101 11110 When DIFF=0,VREFSL is selected as input; when DIFF=1, it is reserved. Voltage reference selected is determined by SC2[REFSEL]. #11110 11111 Module is disabled. #11111 AIEN Interrupt Enable 6 1 read-write 0 Conversion complete interrupt is disabled. #0 1 Conversion complete interrupt is enabled. #1 COCO Conversion Complete Flag 7 1 read-only 0 Conversion is not completed. #0 1 Conversion is completed. #1 DIFF Differential Mode Enable 5 1 read-write 0 Single-ended conversions and input channels are selected. #0 1 Differential conversions and input channels are selected. #1 SC1B ADC Status and Control Registers 1 0x4 32 read-write n 0x0 0x0 ADCH Input channel select 0 5 read-write 00000 When DIFF=0, DADP0 is selected as input; when DIFF=1, DAD0 is selected as input. #00000 00001 When DIFF=0, DADP1 is selected as input; when DIFF=1, DAD1 is selected as input. #00001 00010 When DIFF=0, DADP2 is selected as input; when DIFF=1, DAD2 is selected as input. #00010 00011 When DIFF=0, DADP3 is selected as input; when DIFF=1, DAD3 is selected as input. #00011 00100 When DIFF=0, AD4 is selected as input; when DIFF=1, it is reserved. #00100 00101 When DIFF=0, AD5 is selected as input; when DIFF=1, it is reserved. #00101 00110 When DIFF=0, AD6 is selected as input; when DIFF=1, it is reserved. #00110 00111 When DIFF=0, AD7 is selected as input; when DIFF=1, it is reserved. #00111 01000 When DIFF=0, AD8 is selected as input; when DIFF=1, it is reserved. #01000 01001 When DIFF=0, AD9 is selected as input; when DIFF=1, it is reserved. #01001 01010 When DIFF=0, AD10 is selected as input; when DIFF=1, it is reserved. #01010 01011 When DIFF=0, AD11 is selected as input; when DIFF=1, it is reserved. #01011 01100 When DIFF=0, AD12 is selected as input; when DIFF=1, it is reserved. #01100 01101 When DIFF=0, AD13 is selected as input; when DIFF=1, it is reserved. #01101 01110 When DIFF=0, AD14 is selected as input; when DIFF=1, it is reserved. #01110 01111 When DIFF=0, AD15 is selected as input; when DIFF=1, it is reserved. #01111 10000 When DIFF=0, AD16 is selected as input; when DIFF=1, it is reserved. #10000 10001 When DIFF=0, AD17 is selected as input; when DIFF=1, it is reserved. #10001 10010 When DIFF=0, AD18 is selected as input; when DIFF=1, it is reserved. #10010 10011 When DIFF=0, AD19 is selected as input; when DIFF=1, it is reserved. #10011 10100 When DIFF=0, AD20 is selected as input; when DIFF=1, it is reserved. #10100 10101 When DIFF=0, AD21 is selected as input; when DIFF=1, it is reserved. #10101 10110 When DIFF=0, AD22 is selected as input; when DIFF=1, it is reserved. #10110 10111 When DIFF=0, AD23 is selected as input; when DIFF=1, it is reserved. #10111 11010 When DIFF=0, Temp Sensor (single-ended) is selected as input; when DIFF=1, Temp Sensor (differential) is selected as input. #11010 11011 When DIFF=0, Bandgap (single-ended) is selected as input; when DIFF=1, Bandgap (differential) is selected as input. #11011 11101 When DIFF=0,VREFSH is selected as input; when DIFF=1, -VREFSH (differential) is selected as input. Voltage reference selected is determined by SC2[REFSEL]. #11101 11110 When DIFF=0,VREFSL is selected as input; when DIFF=1, it is reserved. Voltage reference selected is determined by SC2[REFSEL]. #11110 11111 Module is disabled. #11111 AIEN Interrupt Enable 6 1 read-write 0 Conversion complete interrupt is disabled. #0 1 Conversion complete interrupt is enabled. #1 COCO Conversion Complete Flag 7 1 read-only 0 Conversion is not completed. #0 1 Conversion is completed. #1 DIFF Differential Mode Enable 5 1 read-write 0 Single-ended conversions and input channels are selected. #0 1 Differential conversions and input channels are selected. #1 SC2 Status and Control Register 2 0x20 32 read-write n 0x0 0x0 ACFE Compare Function Enable 5 1 read-write 0 Compare function disabled. #0 1 Compare function enabled. #1 ACFGT Compare Function Greater Than Enable 4 1 read-write 0 Configures less than threshold, outside range not inclusive and inside range not inclusive; functionality based on the values placed in CV1 and CV2. #0 1 Configures greater than or equal to threshold, outside and inside ranges inclusive; functionality based on the values placed in CV1 and CV2. #1 ACREN Compare Function Range Enable 3 1 read-write 0 Range function disabled. Only CV1 is compared. #0 1 Range function enabled. Both CV1 and CV2 are compared. #1 ADACT Conversion Active 7 1 read-only 0 Conversion not in progress. #0 1 Conversion in progress. #1 ADTRG Conversion Trigger Select 6 1 read-write 0 Software trigger selected. #0 1 Hardware trigger selected. #1 DMAEN DMA Enable 2 1 read-write 0 DMA is disabled. #0 1 DMA is enabled and will assert the ADC DMA request during an ADC conversion complete event noted when any of the SC1n[COCO] flags is asserted. #1 REFSEL Voltage Reference Selection 0 2 read-write 00 Default voltage reference pin pair, that is, external pins VREFH and VREFL #00 01 Alternate reference pair, that is, VALTH and VALTL . This pair may be additional external pins or internal sources depending on the MCU configuration. See the chip configuration information for details specific to this MCU #01 SC3 Status and Control Register 3 0x24 32 read-write n 0x0 0x0 ADCO Continuous Conversion Enable 3 1 read-write 0 One conversion or one set of conversions if the hardware average function is enabled, that is, AVGE=1, after initiating a conversion. #0 1 Continuous conversions or sets of conversions if the hardware average function is enabled, that is, AVGE=1, after initiating a conversion. #1 AVGE Hardware Average Enable 2 1 read-write 0 Hardware average function disabled. #0 1 Hardware average function enabled. #1 AVGS Hardware Average Select 0 2 read-write 00 4 samples averaged. #00 01 8 samples averaged. #01 10 16 samples averaged. #10 11 32 samples averaged. #11 CAL Calibration 7 1 read-write CALF Calibration Failed Flag 6 1 read-write 0 Calibration completed normally. #0 1 Calibration failed. ADC accuracy specifications are not guaranteed. #1 CMP0 High-Speed Comparator (CMP), Voltage Reference (VREF) Digital-to-Analog Converter (DAC), and Analog Mux (ANMUX) CMP 0x0 0x0 0x6 registers n CMP0 20 CR0 CMP Control Register 0 0x0 8 read-write n 0x0 0x0 FILTER_CNT Filter Sample Count 4 3 read-write 000 Filter is disabled. If SE = 1, then COUT is a logic 0. This is not a legal state, and is not recommended. If SE = 0, COUT = COUTA. #000 001 One sample must agree. The comparator output is simply sampled. #001 010 2 consecutive samples must agree. #010 011 3 consecutive samples must agree. #011 100 4 consecutive samples must agree. #100 101 5 consecutive samples must agree. #101 110 6 consecutive samples must agree. #110 111 7 consecutive samples must agree. #111 HYSTCTR Comparator hard block hysteresis control 0 2 read-write 00 Level 0 #00 01 Level 1 #01 10 Level 2 #10 11 Level 3 #11 CR1 CMP Control Register 1 0x1 8 read-write n 0x0 0x0 COS Comparator Output Select 2 1 read-write 0 Set the filtered comparator output (CMPO) to equal COUT. #0 1 Set the unfiltered comparator output (CMPO) to equal COUTA. #1 EN Comparator Module Enable 0 1 read-write 0 Analog Comparator is disabled. #0 1 Analog Comparator is enabled. #1 INV Comparator INVERT 3 1 read-write 0 Does not invert the comparator output. #0 1 Inverts the comparator output. #1 OPE Comparator Output Pin Enable 1 1 read-write 0 CMPO is not available on the associated CMPO output pin. If the comparator does not own the pin, this field has no effect. #0 1 CMPO is available on the associated CMPO output pin. The comparator output (CMPO) is driven out on the associated CMPO output pin if the comparator owns the pin. If the comparator does not own the field, this bit has no effect. #1 PMODE Power Mode Select 4 1 read-write 0 Low-Speed (LS) Comparison mode selected. In this mode, CMP has slower output propagation delay and lower current consumption. #0 1 High-Speed (HS) Comparison mode selected. In this mode, CMP has faster output propagation delay and higher current consumption. #1 SE Sample Enable 7 1 read-write 0 Sampling mode is not selected. #0 1 Sampling mode is selected. #1 TRIGM Trigger Mode Enable 5 1 read-write 0 Trigger mode is disabled. #0 1 Trigger mode is enabled. #1 WE Windowing Enable 6 1 read-write 0 Windowing mode is not selected. #0 1 Windowing mode is selected. #1 DACCR DAC Control Register 0x4 8 read-write n 0x0 0x0 DACEN DAC Enable 7 1 read-write 0 DAC is disabled. #0 1 DAC is enabled. #1 VOSEL DAC Output Voltage Select 0 6 read-write VRSEL Supply Voltage Reference Source Select 6 1 read-write 0 Vin1 is selected as resistor ladder network supply reference. #0 1 Vin2 is selected as resistor ladder network supply reference. #1 FPR CMP Filter Period Register 0x2 8 read-write n 0x0 0x0 FILT_PER Filter Sample Period 0 8 read-write MUXCR MUX Control Register 0x5 8 read-write n 0x0 0x0 MSEL Minus Input Mux Control 0 3 read-write 000 IN0 #000 001 IN1 #001 010 IN2 #010 011 IN3 #011 100 IN4 #100 101 IN5 #101 110 IN6 #110 111 IN7 #111 PSEL Plus Input Mux Control 3 3 read-write 000 IN0 #000 001 IN1 #001 010 IN2 #010 011 IN3 #011 100 IN4 #100 101 IN5 #101 110 IN6 #110 111 IN7 #111 SCR CMP Status and Control Register 0x3 8 read-write n 0x0 0x0 CFF Analog Comparator Flag Falling 1 1 read-write 0 Falling-edge on COUT has not been detected. #0 1 Falling-edge on COUT has occurred. #1 CFR Analog Comparator Flag Rising 2 1 read-write 0 Rising-edge on COUT has not been detected. #0 1 Rising-edge on COUT has occurred. #1 COUT Analog Comparator Output 0 1 read-only DMAEN DMA Enable Control 6 1 read-write 0 DMA is disabled. #0 1 DMA is enabled. #1 IEF Comparator Interrupt Enable Falling 3 1 read-write 0 Interrupt is disabled. #0 1 Interrupt is enabled. #1 IER Comparator Interrupt Enable Rising 4 1 read-write 0 Interrupt is disabled. #0 1 Interrupt is enabled. #1 CMP1 High-Speed Comparator (CMP), Voltage Reference (VREF) Digital-to-Analog Converter (DAC), and Analog Mux (ANMUX) CMP 0x0 0x0 0x6 registers n CMP1 21 CR0 CMP Control Register 0 0x0 8 read-write n 0x0 0x0 FILTER_CNT Filter Sample Count 4 3 read-write 000 Filter is disabled. If SE = 1, then COUT is a logic 0. This is not a legal state, and is not recommended. If SE = 0, COUT = COUTA. #000 001 One sample must agree. The comparator output is simply sampled. #001 010 2 consecutive samples must agree. #010 011 3 consecutive samples must agree. #011 100 4 consecutive samples must agree. #100 101 5 consecutive samples must agree. #101 110 6 consecutive samples must agree. #110 111 7 consecutive samples must agree. #111 HYSTCTR Comparator hard block hysteresis control 0 2 read-write 00 Level 0 #00 01 Level 1 #01 10 Level 2 #10 11 Level 3 #11 CR1 CMP Control Register 1 0x1 8 read-write n 0x0 0x0 COS Comparator Output Select 2 1 read-write 0 Set the filtered comparator output (CMPO) to equal COUT. #0 1 Set the unfiltered comparator output (CMPO) to equal COUTA. #1 EN Comparator Module Enable 0 1 read-write 0 Analog Comparator is disabled. #0 1 Analog Comparator is enabled. #1 INV Comparator INVERT 3 1 read-write 0 Does not invert the comparator output. #0 1 Inverts the comparator output. #1 OPE Comparator Output Pin Enable 1 1 read-write 0 CMPO is not available on the associated CMPO output pin. If the comparator does not own the pin, this field has no effect. #0 1 CMPO is available on the associated CMPO output pin. The comparator output (CMPO) is driven out on the associated CMPO output pin if the comparator owns the pin. If the comparator does not own the field, this bit has no effect. #1 PMODE Power Mode Select 4 1 read-write 0 Low-Speed (LS) Comparison mode selected. In this mode, CMP has slower output propagation delay and lower current consumption. #0 1 High-Speed (HS) Comparison mode selected. In this mode, CMP has faster output propagation delay and higher current consumption. #1 SE Sample Enable 7 1 read-write 0 Sampling mode is not selected. #0 1 Sampling mode is selected. #1 TRIGM Trigger Mode Enable 5 1 read-write 0 Trigger mode is disabled. #0 1 Trigger mode is enabled. #1 WE Windowing Enable 6 1 read-write 0 Windowing mode is not selected. #0 1 Windowing mode is selected. #1 DACCR DAC Control Register 0x4 8 read-write n 0x0 0x0 DACEN DAC Enable 7 1 read-write 0 DAC is disabled. #0 1 DAC is enabled. #1 VOSEL DAC Output Voltage Select 0 6 read-write VRSEL Supply Voltage Reference Source Select 6 1 read-write 0 Vin1 is selected as resistor ladder network supply reference. #0 1 Vin2 is selected as resistor ladder network supply reference. #1 FPR CMP Filter Period Register 0x2 8 read-write n 0x0 0x0 FILT_PER Filter Sample Period 0 8 read-write MUXCR MUX Control Register 0x5 8 read-write n 0x0 0x0 MSEL Minus Input Mux Control 0 3 read-write 000 IN0 #000 001 IN1 #001 010 IN2 #010 011 IN3 #011 100 IN4 #100 101 IN5 #101 110 IN6 #110 111 IN7 #111 PSEL Plus Input Mux Control 3 3 read-write 000 IN0 #000 001 IN1 #001 010 IN2 #010 011 IN3 #011 100 IN4 #100 101 IN5 #101 110 IN6 #110 111 IN7 #111 SCR CMP Status and Control Register 0x3 8 read-write n 0x0 0x0 CFF Analog Comparator Flag Falling 1 1 read-write 0 Falling-edge on COUT has not been detected. #0 1 Falling-edge on COUT has occurred. #1 CFR Analog Comparator Flag Rising 2 1 read-write 0 Rising-edge on COUT has not been detected. #0 1 Rising-edge on COUT has occurred. #1 COUT Analog Comparator Output 0 1 read-only DMAEN DMA Enable Control 6 1 read-write 0 DMA is disabled. #0 1 DMA is enabled. #1 IEF Comparator Interrupt Enable Falling 3 1 read-write 0 Interrupt is disabled. #0 1 Interrupt is enabled. #1 IER Comparator Interrupt Enable Rising 4 1 read-write 0 Interrupt is disabled. #0 1 Interrupt is enabled. #1 CRC Cyclic Redundancy Check CRC 0x0 0x0 0xC registers n CRCH CRC_CRCH register. 0x2 16 read-write n 0x0 0x0 CRCH CRCH stores the high 16 bits of the 16/32 bit CRC 0 16 read-write CRCHL CRC_CRCHL register. 0x2 8 read-write n 0x0 0x0 CRCHL CRCHL stores the third 8 bits of the 32 bit CRC 0 8 read-write CRCHU CRC_CRCHU register. 0x3 8 read-write n 0x0 0x0 CRCHU CRCHU stores the fourth 8 bits of the 32 bit CRC 0 8 read-write CRCL CRC_CRCL register. 0x0 16 read-write n 0x0 0x0 CRCL CRCL stores the lower 16 bits of the 16/32 bit CRC 0 16 read-write CRCLL CRC_CRCLL register. 0x0 8 read-write n 0x0 0x0 CRCLL CRCLL stores the first 8 bits of the 32 bit CRC 0 8 read-write CRCLU CRC_CRCLU register. 0x1 8 read-write n 0x0 0x0 CRCLU CRCLL stores the second 8 bits of the 32 bit CRC 0 8 read-write CTRL CRC Control register 0x8 32 read-write n 0x0 0x0 FXOR Complement Read Of CRC Data Register 26 1 read-write 0 No XOR on reading. #0 1 Invert or complement the read value of the CRC Data register. #1 TCRC Width of CRC protocol. 24 1 read-write 0 16-bit CRC protocol. #0 1 32-bit CRC protocol. #1 TOT Type Of Transpose For Writes 30 2 read-write 00 No transposition. #00 01 Bits in bytes are transposed; bytes are not transposed. #01 10 Both bits in bytes and bytes are transposed. #10 11 Only bytes are transposed; no bits in a byte are transposed. #11 TOTR Type Of Transpose For Read 28 2 read-write 00 No transposition. #00 01 Bits in bytes are transposed; bytes are not transposed. #01 10 Both bits in bytes and bytes are transposed. #10 11 Only bytes are transposed; no bits in a byte are transposed. #11 WAS Write CRC Data Register As Seed 25 1 read-write 0 Writes to the CRC data register are data values. #0 1 Writes to the CRC data register are seed values. #1 CTRLHU CRC_CTRLHU register. 0xB 8 read-write n 0x0 0x0 FXOR no description available 2 1 read-write 0 No XOR on reading. #0 1 Invert or complement the read value of CRC data register. #1 TCRC no description available 0 1 read-write 0 16-bit CRC protocol. #0 1 32-bit CRC protocol. #1 TOT no description available 6 2 read-write 00 No Transposition. #00 01 Bits in bytes are transposed, bytes are not transposed. #01 10 Both bits in bytes and bytes are transposed. #10 11 Only bytes are transposed; no bits in a byte are transposed. #11 TOTR no description available 4 2 read-write 00 No Transposition. #00 01 Bits in bytes are transposed, bytes are not transposed. #01 10 Both bits in bytes and bytes are transposed. #10 11 Only bytes are transposed; no bits in a byte are transposed. #11 WAS no description available 1 1 read-write 0 Writes to CRC data register are data values. #0 1 Writes to CRC data reguster are seed values. #1 DATA CRC Data register CRC 0x0 32 read-write n 0x0 0x0 HL CRC High Lower Byte 16 8 read-write HU CRC High Upper Byte 24 8 read-write LL CRC Low Lower Byte 0 8 read-write LU CRC Low Upper Byte 8 8 read-write DATAH CRC_DATAH register. CRC 0x2 16 read-write n 0x0 0x0 DATAH DATAH stores the high 16 bits of the 16/32 bit CRC 0 16 read-write DATAHL CRC_DATAHL register. CRC 0x2 8 read-write n 0x0 0x0 DATAHL DATAHL stores the third 8 bits of the 32 bit CRC 0 8 read-write DATAHU CRC_DATAHU register. 0x3 8 read-write n 0x0 0x0 DATAHU DATAHU stores the fourth 8 bits of the 32 bit CRC 0 8 read-write DATAL CRC_DATAL register. CRC 0x0 16 read-write n 0x0 0x0 DATAL DATAL stores the lower 16 bits of the 16/32 bit CRC 0 16 read-write DATALL CRC_DATALL register. CRC 0x0 8 read-write n 0x0 0x0 DATALL CRCLL stores the first 8 bits of the 32 bit DATA 0 8 read-write DATALU CRC_DATALU register. 0x1 8 read-write n 0x0 0x0 DATALU DATALL stores the second 8 bits of the 32 bit CRC 0 8 read-write GPOLY CRC Polynomial register CRC 0x4 32 read-write n 0x0 0x0 HIGH High Polynominal Half-word 16 16 read-write LOW Low Polynominal Half-word 0 16 read-write GPOLYH CRC_GPOLYH register. CRC 0x6 16 read-write n 0x0 0x0 GPOLYH POLYH stores the high 16 bits of the 16/32 bit CRC polynomial value 0 16 read-write GPOLYHL CRC_GPOLYHL register. CRC 0x6 8 read-write n 0x0 0x0 GPOLYHL POLYHL stores the third 8 bits of the 32 bit CRC 0 8 read-write GPOLYHU CRC_GPOLYHU register. 0x7 8 read-write n 0x0 0x0 GPOLYHU POLYHU stores the fourth 8 bits of the 32 bit CRC 0 8 read-write GPOLYL CRC_GPOLYL register. CRC 0x4 16 read-write n 0x0 0x0 GPOLYL POLYL stores the lower 16 bits of the 16/32 bit CRC polynomial value 0 16 read-write GPOLYLL CRC_GPOLYLL register. CRC 0x4 8 read-write n 0x0 0x0 GPOLYLL POLYLL stores the first 8 bits of the 32 bit CRC 0 8 read-write GPOLYLU CRC_GPOLYLU register. 0x5 8 read-write n 0x0 0x0 GPOLYLU POLYLL stores the second 8 bits of the 32 bit CRC 0 8 read-write DAC0 12-Bit Digital-to-Analog Converter DAC0 0x0 0x0 0x24 registers n DAC0 25 C0 DAC Control Register 0x21 8 read-write n 0x0 0x0 DACBBIEN DAC Buffer Read Pointer Bottom Flag Interrupt Enable 0 1 read-write 0 The DAC buffer read pointer bottom flag interrupt is disabled. #0 1 The DAC buffer read pointer bottom flag interrupt is enabled. #1 DACBTIEN DAC Buffer Read Pointer Top Flag Interrupt Enable 1 1 read-write 0 The DAC buffer read pointer top flag interrupt is disabled. #0 1 The DAC buffer read pointer top flag interrupt is enabled. #1 DACBWIEN DAC Buffer Watermark Interrupt Enable 2 1 read-write 0 The DAC buffer watermark interrupt is disabled. #0 1 The DAC buffer watermark interrupt is enabled. #1 DACEN DAC Enable 7 1 read-write 0 The DAC system is disabled. #0 1 The DAC system is enabled. #1 DACRFS DAC Reference Select 6 1 read-write 0 The DAC selects DACREF_1 as the reference voltage. #0 1 The DAC selects DACREF_2 as the reference voltage. #1 DACSWTRG DAC Software Trigger 4 1 write-only 0 The DAC soft trigger is not valid. #0 1 The DAC soft trigger is valid. #1 DACTRGSEL DAC Trigger Select 5 1 read-write 0 The DAC hardware trigger is selected. #0 1 The DAC software trigger is selected. #1 LPEN DAC Low Power Control 3 1 read-write 0 High-Power mode #0 1 Low-Power mode #1 C1 DAC Control Register 1 0x22 8 read-write n 0x0 0x0 DACBFEN DAC Buffer Enable 0 1 read-write 0 Buffer read pointer is disabled. The converted data is always the first word of the buffer. #0 1 Buffer read pointer is enabled. The converted data is the word that the read pointer points to. It means converted data can be from any word of the buffer. #1 DACBFMD DAC Buffer Work Mode Select 2 1 read-write 0 Normal mode #0 1 One-Time Scan mode #1 DMAEN DMA Enable Select 7 1 read-write 0 DMA is disabled. #0 1 DMA is enabled. When DMA is enabled, the DMA request will be generated by original interrupts. The interrupts will not be presented on this module at the same time. #1 C2 DAC Control Register 2 0x23 8 read-write n 0x0 0x0 DACBFRP DAC Buffer Read Pointer 4 1 read-write DACBFUP DAC Buffer Upper Limit 0 1 read-write DAT0H DAC Data High Register 0x2 8 read-write n 0x0 0x0 DATA1 DATA1 0 4 read-write DAT0L DAC Data Low Register 0x0 8 read-write n 0x0 0x0 DATA0 DATA0 0 8 read-write DAT1H DAC Data High Register 0x5 8 read-write n 0x0 0x0 DATA1 DATA1 0 4 read-write DAT1L DAC Data Low Register 0x2 8 read-write n 0x0 0x0 DATA0 DATA0 0 8 read-write SR DAC Status Register 0x20 8 read-write n 0x0 0x0 DACBFRPBF DAC Buffer Read Pointer Bottom Position Flag 0 1 read-write 0 The DAC buffer read pointer is not equal to C2[DACBFUP]. #0 1 The DAC buffer read pointer is equal to C2[DACBFUP]. #1 DACBFRPTF DAC Buffer Read Pointer Top Position Flag 1 1 read-write 0 The DAC buffer read pointer is not zero. #0 1 The DAC buffer read pointer is zero. #1 DACBFWMF DAC Buffer Watermark Flag 2 1 read-write 0 The DAC buffer read pointer has not reached the watermark level. #0 1 The DAC buffer read pointer has reached the watermark level. #1 DMA Enhanced direct memory access controller DMA 0x0 0x0 0x1100 registers n DMA0_DMA4 0 DMA1_DMA5 1 DMA2_DMA6 2 DMA3_DMA7 3 DMA_Error 4 CDNE Clear DONE Status Bit Register 0x1C 8 write-only n 0x0 0x0 CADN Clears All DONE Bits 6 1 write-only 0 Clears only the TCDn_CSR[DONE] bit specified in the CDNE field #0 1 Clears all bits in TCDn_CSR[DONE] #1 CDNE Clear DONE Bit 0 3 write-only NOP No Op enable 7 1 write-only 0 Normal operation #0 1 No operation, ignore the other bits in this register #1 CEEI Clear Enable Error Interrupt Register 0x18 8 write-only n 0x0 0x0 CAEE Clear All Enable Error Interrupts 6 1 write-only 0 Clear only the EEI bit specified in the CEEI field #0 1 Clear all bits in EEI #1 CEEI Clear Enable Error Interrupt 0 3 write-only NOP No Op enable 7 1 write-only 0 Normal operation #0 1 No operation, ignore the other bits in this register #1 CERQ Clear Enable Request Register 0x1A 8 write-only n 0x0 0x0 CAER Clear All Enable Requests 6 1 write-only 0 Clear only the ERQ bit specified in the CERQ field #0 1 Clear all bits in ERQ #1 CERQ Clear Enable Request 0 3 write-only NOP No Op enable 7 1 write-only 0 Normal operation #0 1 No operation, ignore the other bits in this register #1 CERR Clear Error Register 0x1E 8 write-only n 0x0 0x0 CAEI Clear All Error Indicators 6 1 write-only 0 Clear only the ERR bit specified in the CERR field #0 1 Clear all bits in ERR #1 CERR Clear Error Indicator 0 3 write-only NOP No Op enable 7 1 write-only 0 Normal operation #0 1 No operation, ignore the other bits in this register #1 CINT Clear Interrupt Request Register 0x1F 8 write-only n 0x0 0x0 CAIR Clear All Interrupt Requests 6 1 write-only 0 Clear only the INT bit specified in the CINT field #0 1 Clear all bits in INT #1 CINT Clear Interrupt Request 0 3 write-only NOP No Op enable 7 1 write-only 0 Normal operation #0 1 No operation, ignore the other bits in this register #1 CR Control Register 0x0 32 read-write n 0x0 0x0 ACTIVE DMA Active Status 31 1 read-only 0 eDMA is idle. #0 1 eDMA is executing a channel. #1 CLM Continuous Link Mode 6 1 read-write 0 A minor loop channel link made to itself goes through channel arbitration before being activated again. #0 1 A minor loop channel link made to itself does not go through channel arbitration before being activated again. Upon minor loop completion, the channel activates again if that channel has a minor loop channel link enabled and the link channel is itself. This effectively applies the minor loop offsets and restarts the next minor loop. #1 CX Cancel Transfer 17 1 read-write 0 Normal operation #0 1 Cancel the remaining data transfer. Stop the executing channel and force the minor loop to finish. The cancel takes effect after the last write of the current read/write sequence. The CX bit clears itself after the cancel has been honored. This cancel retires the channel normally as if the minor loop was completed. #1 ECX Error Cancel Transfer 16 1 read-write 0 Normal operation #0 1 Cancel the remaining data transfer in the same fashion as the CX bit. Stop the executing channel and force the minor loop to finish. The cancel takes effect after the last write of the current read/write sequence. The ECX bit clears itself after the cancel is honored. In addition to cancelling the transfer, ECX treats the cancel as an error condition, thus updating the Error Status register (DMAx_ES) and generating an optional error interrupt. #1 EDBG Enable Debug 1 1 read-write 0 When in debug mode, the DMA continues to operate. #0 1 When in debug mode, the DMA stalls the start of a new channel. Executing channels are allowed to complete. Channel execution resumes when the system exits debug mode or the EDBG bit is cleared. #1 EMLM Enable Minor Loop Mapping 7 1 read-write 0 Disabled. TCDn.word2 is defined as a 32-bit NBYTES field. #0 1 Enabled. TCDn.word2 is redefined to include individual enable fields, an offset field, and the NBYTES field. The individual enable fields allow the minor loop offset to be applied to the source address, the destination address, or both. The NBYTES field is reduced when either offset is enabled. #1 ERCA Enable Round Robin Channel Arbitration 2 1 read-write 0 Fixed priority arbitration is used for channel selection . #0 1 Round robin arbitration is used for channel selection . #1 HALT Halt DMA Operations 5 1 read-write 0 Normal operation #0 1 Stall the start of any new channels. Executing channels are allowed to complete. Channel execution resumes when this bit is cleared. #1 HOE Halt On Error 4 1 read-write 0 Normal operation #0 1 Any error causes the HALT bit to set. Subsequently, all service requests are ignored until the HALT bit is cleared. #1 DCHPRI0 Channel n Priority Register 0x506 8 read-write n 0x0 0x0 CHPRI Channel n Arbitration Priority 0 3 read-write DPA Disable Preempt Ability. 6 1 read-write 0 Channel n can suspend a lower priority channel. #0 1 Channel n cannot suspend any channel, regardless of channel priority. #1 ECP Enable Channel Preemption. 7 1 read-write 0 Channel n cannot be suspended by a higher priority channel's service request. #0 1 Channel n can be temporarily suspended by the service request of a higher priority channel. #1 DCHPRI1 Channel n Priority Register 0x403 8 read-write n 0x0 0x0 CHPRI Channel n Arbitration Priority 0 3 read-write DPA Disable Preempt Ability. 6 1 read-write 0 Channel n can suspend a lower priority channel. #0 1 Channel n cannot suspend any channel, regardless of channel priority. #1 ECP Enable Channel Preemption. 7 1 read-write 0 Channel n cannot be suspended by a higher priority channel's service request. #0 1 Channel n can be temporarily suspended by the service request of a higher priority channel. #1 DCHPRI2 Channel n Priority Register 0x301 8 read-write n 0x0 0x0 CHPRI Channel n Arbitration Priority 0 3 read-write DPA Disable Preempt Ability. 6 1 read-write 0 Channel n can suspend a lower priority channel. #0 1 Channel n cannot suspend any channel, regardless of channel priority. #1 ECP Enable Channel Preemption. 7 1 read-write 0 Channel n cannot be suspended by a higher priority channel's service request. #0 1 Channel n can be temporarily suspended by the service request of a higher priority channel. #1 DCHPRI3 Channel n Priority Register 0x200 8 read-write n 0x0 0x0 CHPRI Channel n Arbitration Priority 0 3 read-write DPA Disable Preempt Ability. 6 1 read-write 0 Channel n can suspend a lower priority channel. #0 1 Channel n cannot suspend any channel, regardless of channel priority. #1 ECP Enable Channel Preemption. 7 1 read-write 0 Channel n cannot be suspended by a higher priority channel's service request. #0 1 Channel n can be temporarily suspended by the service request of a higher priority channel. #1 DCHPRI4 Channel n Priority Register 0x91C 8 read-write n 0x0 0x0 CHPRI Channel n Arbitration Priority 0 3 read-write DPA Disable Preempt Ability. 6 1 read-write 0 Channel n can suspend a lower priority channel. #0 1 Channel n cannot suspend any channel, regardless of channel priority. #1 ECP Enable Channel Preemption. 7 1 read-write 0 Channel n cannot be suspended by a higher priority channel's service request. #0 1 Channel n can be temporarily suspended by the service request of a higher priority channel. #1 DCHPRI5 Channel n Priority Register 0x815 8 read-write n 0x0 0x0 CHPRI Channel n Arbitration Priority 0 3 read-write DPA Disable Preempt Ability. 6 1 read-write 0 Channel n can suspend a lower priority channel. #0 1 Channel n cannot suspend any channel, regardless of channel priority. #1 ECP Enable Channel Preemption. 7 1 read-write 0 Channel n cannot be suspended by a higher priority channel's service request. #0 1 Channel n can be temporarily suspended by the service request of a higher priority channel. #1 DCHPRI6 Channel n Priority Register 0x70F 8 read-write n 0x0 0x0 CHPRI Channel n Arbitration Priority 0 3 read-write DPA Disable Preempt Ability. 6 1 read-write 0 Channel n can suspend a lower priority channel. #0 1 Channel n cannot suspend any channel, regardless of channel priority. #1 ECP Enable Channel Preemption. 7 1 read-write 0 Channel n cannot be suspended by a higher priority channel's service request. #0 1 Channel n can be temporarily suspended by the service request of a higher priority channel. #1 DCHPRI7 Channel n Priority Register 0x60A 8 read-write n 0x0 0x0 CHPRI Channel n Arbitration Priority 0 3 read-write DPA Disable Preempt Ability. 6 1 read-write 0 Channel n can suspend a lower priority channel. #0 1 Channel n cannot suspend any channel, regardless of channel priority. #1 ECP Enable Channel Preemption. 7 1 read-write 0 Channel n cannot be suspended by a higher priority channel's service request. #0 1 Channel n can be temporarily suspended by the service request of a higher priority channel. #1 EARS Enable Asynchronous Request in Stop Register 0x44 32 read-write n 0x0 0x0 EDREQ_0 Enable asynchronous DMA request in stop mode for channel 0. 0 1 read-write 0 Disable asynchronous DMA request for channel 0. #0 1 Enable asynchronous DMA request for channel 0. #1 EDREQ_1 Enable asynchronous DMA request in stop mode for channel 1. 1 1 read-write 0 Disable asynchronous DMA request for channel 1 #0 1 Enable asynchronous DMA request for channel 1. #1 EDREQ_2 Enable asynchronous DMA request in stop mode for channel 2. 2 1 read-write 0 Disable asynchronous DMA request for channel 2. #0 1 Enable asynchronous DMA request for channel 2. #1 EDREQ_3 Enable asynchronous DMA request in stop mode for channel 3. 3 1 read-write 0 Disable asynchronous DMA request for channel 3. #0 1 Enable asynchronous DMA request for channel 3. #1 EDREQ_4 Enable asynchronous DMA request in stop mode for channel 4 4 1 read-write 0 Disable asynchronous DMA request for channel 4. #0 1 Enable asynchronous DMA request for channel 4. #1 EDREQ_5 Enable asynchronous DMA request in stop mode for channel 5 5 1 read-write 0 Disable asynchronous DMA request for channel 5. #0 1 Enable asynchronous DMA request for channel 5. #1 EDREQ_6 Enable asynchronous DMA request in stop mode for channel 6 6 1 read-write 0 Disable asynchronous DMA request for channel 6. #0 1 Enable asynchronous DMA request for channel 6. #1 EDREQ_7 Enable asynchronous DMA request in stop mode for channel 7 7 1 read-write 0 Disable asynchronous DMA request for channel 7. #0 1 Enable asynchronous DMA request for channel 7. #1 EEI Enable Error Interrupt Register 0x14 32 read-write n 0x0 0x0 EEI0 Enable Error Interrupt 0 0 1 read-write 0 The error signal for corresponding channel does not generate an error interrupt #0 1 The assertion of the error signal for corresponding channel generates an error interrupt request #1 EEI1 Enable Error Interrupt 1 1 1 read-write 0 The error signal for corresponding channel does not generate an error interrupt #0 1 The assertion of the error signal for corresponding channel generates an error interrupt request #1 EEI2 Enable Error Interrupt 2 2 1 read-write 0 The error signal for corresponding channel does not generate an error interrupt #0 1 The assertion of the error signal for corresponding channel generates an error interrupt request #1 EEI3 Enable Error Interrupt 3 3 1 read-write 0 The error signal for corresponding channel does not generate an error interrupt #0 1 The assertion of the error signal for corresponding channel generates an error interrupt request #1 EEI4 Enable Error Interrupt 4 4 1 read-write 0 The error signal for corresponding channel does not generate an error interrupt #0 1 The assertion of the error signal for corresponding channel generates an error interrupt request #1 EEI5 Enable Error Interrupt 5 5 1 read-write 0 The error signal for corresponding channel does not generate an error interrupt #0 1 The assertion of the error signal for corresponding channel generates an error interrupt request #1 EEI6 Enable Error Interrupt 6 6 1 read-write 0 The error signal for corresponding channel does not generate an error interrupt #0 1 The assertion of the error signal for corresponding channel generates an error interrupt request #1 EEI7 Enable Error Interrupt 7 7 1 read-write 0 The error signal for corresponding channel does not generate an error interrupt #0 1 The assertion of the error signal for corresponding channel generates an error interrupt request #1 ERQ Enable Request Register 0xC 32 read-write n 0x0 0x0 ERQ0 Enable DMA Request 0 0 1 read-write 0 The DMA request signal for the corresponding channel is disabled #0 1 The DMA request signal for the corresponding channel is enabled #1 ERQ1 Enable DMA Request 1 1 1 read-write 0 The DMA request signal for the corresponding channel is disabled #0 1 The DMA request signal for the corresponding channel is enabled #1 ERQ2 Enable DMA Request 2 2 1 read-write 0 The DMA request signal for the corresponding channel is disabled #0 1 The DMA request signal for the corresponding channel is enabled #1 ERQ3 Enable DMA Request 3 3 1 read-write 0 The DMA request signal for the corresponding channel is disabled #0 1 The DMA request signal for the corresponding channel is enabled #1 ERQ4 Enable DMA Request 4 4 1 read-write 0 The DMA request signal for the corresponding channel is disabled #0 1 The DMA request signal for the corresponding channel is enabled #1 ERQ5 Enable DMA Request 5 5 1 read-write 0 The DMA request signal for the corresponding channel is disabled #0 1 The DMA request signal for the corresponding channel is enabled #1 ERQ6 Enable DMA Request 6 6 1 read-write 0 The DMA request signal for the corresponding channel is disabled #0 1 The DMA request signal for the corresponding channel is enabled #1 ERQ7 Enable DMA Request 7 7 1 read-write 0 The DMA request signal for the corresponding channel is disabled #0 1 The DMA request signal for the corresponding channel is enabled #1 ERR Error Register 0x2C 32 read-write n 0x0 0x0 ERR0 Error In Channel 0 0 1 read-write 0 An error in this channel has not occurred #0 1 An error in this channel has occurred #1 ERR1 Error In Channel 1 1 1 read-write 0 An error in this channel has not occurred #0 1 An error in this channel has occurred #1 ERR2 Error In Channel 2 2 1 read-write 0 An error in this channel has not occurred #0 1 An error in this channel has occurred #1 ERR3 Error In Channel 3 3 1 read-write 0 An error in this channel has not occurred #0 1 An error in this channel has occurred #1 ERR4 Error In Channel 4 4 1 read-write 0 An error in this channel has not occurred #0 1 An error in this channel has occurred #1 ERR5 Error In Channel 5 5 1 read-write 0 An error in this channel has not occurred #0 1 An error in this channel has occurred #1 ERR6 Error In Channel 6 6 1 read-write 0 An error in this channel has not occurred #0 1 An error in this channel has occurred #1 ERR7 Error In Channel 7 7 1 read-write 0 An error in this channel has not occurred #0 1 An error in this channel has occurred #1 ES Error Status Register 0x4 32 read-only n 0x0 0x0 CPE Channel Priority Error 14 1 read-only 0 No channel priority error #0 1 The last recorded error was a configuration error in the channel priorities . Channel priorities are not unique. #1 DAE Destination Address Error 5 1 read-only 0 No destination address configuration error #0 1 The last recorded error was a configuration error detected in the TCDn_DADDR field. TCDn_DADDR is inconsistent with TCDn_ATTR[DSIZE]. #1 DBE Destination Bus Error 0 1 read-only 0 No destination bus error #0 1 The last recorded error was a bus error on a destination write #1 DOE Destination Offset Error 4 1 read-only 0 No destination offset configuration error #0 1 The last recorded error was a configuration error detected in the TCDn_DOFF field. TCDn_DOFF is inconsistent with TCDn_ATTR[DSIZE]. #1 ECX Transfer Canceled 16 1 read-only 0 No canceled transfers #0 1 The last recorded entry was a canceled transfer by the error cancel transfer input #1 ERRCHN Error Channel Number or Canceled Channel Number 8 3 read-only NCE NBYTES/CITER Configuration Error 3 1 read-only 0 No NBYTES/CITER configuration error #0 1 The last recorded error was a configuration error detected in the TCDn_NBYTES or TCDn_CITER fields. TCDn_NBYTES is not a multiple of TCDn_ATTR[SSIZE] and TCDn_ATTR[DSIZE], or TCDn_CITER[CITER] is equal to zero, or TCDn_CITER[ELINK] is not equal to TCDn_BITER[ELINK] #1 SAE Source Address Error 7 1 read-only 0 No source address configuration error. #0 1 The last recorded error was a configuration error detected in the TCDn_SADDR field. TCDn_SADDR is inconsistent with TCDn_ATTR[SSIZE]. #1 SBE Source Bus Error 1 1 read-only 0 No source bus error #0 1 The last recorded error was a bus error on a source read #1 SGE Scatter/Gather Configuration Error 2 1 read-only 0 No scatter/gather configuration error #0 1 The last recorded error was a configuration error detected in the TCDn_DLASTSGA field. This field is checked at the beginning of a scatter/gather operation after major loop completion if TCDn_CSR[ESG] is enabled. TCDn_DLASTSGA is not on a 32 byte boundary. #1 SOE Source Offset Error 6 1 read-only 0 No source offset configuration error #0 1 The last recorded error was a configuration error detected in the TCDn_SOFF field. TCDn_SOFF is inconsistent with TCDn_ATTR[SSIZE]. #1 VLD Logical OR of all ERR status bits 31 1 read-only 0 No ERR bits are set. #0 1 At least one ERR bit is set indicating a valid error exists that has not been cleared. #1 HRS Hardware Request Status Register 0x34 32 read-only n 0x0 0x0 HRS0 Hardware Request Status Channel 0 0 1 read-only 0 A hardware service request for channel 0 is not present #0 1 A hardware service request for channel 0 is present #1 HRS1 Hardware Request Status Channel 1 1 1 read-only 0 A hardware service request for channel 1 is not present #0 1 A hardware service request for channel 1 is present #1 HRS2 Hardware Request Status Channel 2 2 1 read-only 0 A hardware service request for channel 2 is not present #0 1 A hardware service request for channel 2 is present #1 HRS3 Hardware Request Status Channel 3 3 1 read-only 0 A hardware service request for channel 3 is not present #0 1 A hardware service request for channel 3 is present #1 HRS4 Hardware Request Status Channel 4 4 1 read-only 0 A hardware service request for channel 4 is not present #0 1 A hardware service request for channel 4 is present #1 HRS5 Hardware Request Status Channel 5 5 1 read-only 0 A hardware service request for channel 5 is not present #0 1 A hardware service request for channel 5 is present #1 HRS6 Hardware Request Status Channel 6 6 1 read-only 0 A hardware service request for channel 6 is not present #0 1 A hardware service request for channel 6 is present #1 HRS7 Hardware Request Status Channel 7 7 1 read-only 0 A hardware service request for channel 7 is not present #0 1 A hardware service request for channel 7 is present #1 INT Interrupt Request Register 0x24 32 read-write n 0x0 0x0 INT0 Interrupt Request 0 0 1 read-write 0 The interrupt request for corresponding channel is cleared #0 1 The interrupt request for corresponding channel is active #1 INT1 Interrupt Request 1 1 1 read-write 0 The interrupt request for corresponding channel is cleared #0 1 The interrupt request for corresponding channel is active #1 INT2 Interrupt Request 2 2 1 read-write 0 The interrupt request for corresponding channel is cleared #0 1 The interrupt request for corresponding channel is active #1 INT3 Interrupt Request 3 3 1 read-write 0 The interrupt request for corresponding channel is cleared #0 1 The interrupt request for corresponding channel is active #1 INT4 Interrupt Request 4 4 1 read-write 0 The interrupt request for corresponding channel is cleared #0 1 The interrupt request for corresponding channel is active #1 INT5 Interrupt Request 5 5 1 read-write 0 The interrupt request for corresponding channel is cleared #0 1 The interrupt request for corresponding channel is active #1 INT6 Interrupt Request 6 6 1 read-write 0 The interrupt request for corresponding channel is cleared #0 1 The interrupt request for corresponding channel is active #1 INT7 Interrupt Request 7 7 1 read-write 0 The interrupt request for corresponding channel is cleared #0 1 The interrupt request for corresponding channel is active #1 SEEI Set Enable Error Interrupt Register 0x19 8 write-only n 0x0 0x0 NOP No Op enable 7 1 write-only 0 Normal operation #0 1 No operation, ignore the other bits in this register #1 SAEE Sets All Enable Error Interrupts 6 1 write-only 0 Set only the EEI bit specified in the SEEI field. #0 1 Sets all bits in EEI #1 SEEI Set Enable Error Interrupt 0 3 write-only SERQ Set Enable Request Register 0x1B 8 write-only n 0x0 0x0 NOP No Op enable 7 1 write-only 0 Normal operation #0 1 No operation, ignore the other bits in this register #1 SAER Set All Enable Requests 6 1 write-only 0 Set only the ERQ bit specified in the SERQ field #0 1 Set all bits in ERQ #1 SERQ Set Enable Request 0 3 write-only SSRT Set START Bit Register 0x1D 8 write-only n 0x0 0x0 NOP No Op enable 7 1 write-only 0 Normal operation #0 1 No operation, ignore the other bits in this register #1 SAST Set All START Bits (activates all channels) 6 1 write-only 0 Set only the TCDn_CSR[START] bit specified in the SSRT field #0 1 Set all bits in TCDn_CSR[START] #1 SSRT Set START Bit 0 3 write-only TCD0_ATTR TCD Transfer Attributes 0x200C 16 read-write n 0x0 0x0 DMOD Destination Address Modulo 3 5 read-write DSIZE Destination data transfer size 0 3 read-write SMOD Source Address Modulo 11 5 read-write 0 Source address modulo feature is disabled #00000 SSIZE Source data transfer size 8 3 read-write 000 8-bit #000 001 16-bit #001 010 32-bit #010 100 16-byte #100 101 32-byte #101 TCD0_BITER_ELINKNO TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x203C 16 read-write n 0x0 0x0 BITER Starting Major Iteration Count 0 15 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD0_BITER_ELINKYES TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x203C 16 read-write n 0x0 0x0 BITER Starting major iteration count 0 9 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Link Channel Number 9 3 read-write TCD0_CITER_ELINKNO TCD Current Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x202C 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 15 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD0_CITER_ELINKYES TCD Current Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x202C 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 9 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Minor Loop Link Channel Number 9 3 read-write TCD0_CSR TCD Control and Status 0x2038 16 read-write n 0x0 0x0 ACTIVE Channel Active 6 1 read-write BWC Bandwidth Control 14 2 read-write 00 No eDMA engine stalls. #00 10 eDMA engine stalls for 4 cycles after each R/W. #10 11 eDMA engine stalls for 8 cycles after each R/W. #11 DONE Channel Done 7 1 read-write DREQ Disable Request 3 1 read-write 0 The channel's ERQ bit is not affected. #0 1 The channel's ERQ bit is cleared when the major loop is complete. #1 ESG Enable Scatter/Gather Processing 4 1 read-write 0 The current channel's TCD is normal format. #0 1 The current channel's TCD specifies a scatter gather format. The DLASTSGA field provides a memory pointer to the next TCD to be loaded into this channel after the major loop completes its execution. #1 INTHALF Enable an interrupt when major counter is half complete. 2 1 read-write 0 The half-point interrupt is disabled. #0 1 The half-point interrupt is enabled. #1 INTMAJOR Enable an interrupt when major iteration count completes. 1 1 read-write 0 The end-of-major loop interrupt is disabled. #0 1 The end-of-major loop interrupt is enabled. #1 MAJORELINK Enable channel-to-channel linking on major loop complete 5 1 read-write 0 The channel-to-channel linking is disabled. #0 1 The channel-to-channel linking is enabled. #1 MAJORLINKCH Major Loop Link Channel Number 8 3 read-write START Channel Start 0 1 read-write 0 The channel is not explicitly started. #0 1 The channel is explicitly started via a software initiated service request. #1 TCD0_DADDR TCD Destination Address 0x2020 32 read-write n 0x0 0x0 DADDR Destination Address 0 32 read-write TCD0_DLASTSGA TCD Last Destination Address Adjustment/Scatter Gather Address 0x2030 32 read-write n 0x0 0x0 DLASTSGA Destination last address adjustment or the memory address for the next transfer control descriptor to be loaded into this channel (scatter/gather) 0 32 read-write TCD0_DOFF TCD Signed Destination Address Offset 0x2028 16 read-write n 0x0 0x0 DOFF Destination Address Signed Offset 0 16 read-write TCD0_NBYTES_MLNO TCD Minor Byte Count (Minor Loop Mapping Disabled) DMA 0x2010 32 read-write n 0x0 0x0 NBYTES Minor Byte Transfer Count 0 32 read-write TCD0_NBYTES_MLOFFNO TCD Signed Minor Loop Offset (Minor Loop Mapping Enabled and Offset Disabled) DMA 0x2010 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 NBYTES Minor Byte Transfer Count 0 30 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD0_NBYTES_MLOFFYES TCD Signed Minor Loop Offset (Minor Loop Mapping and Offset Enabled) DMA 0x2010 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 MLOFF If SMLOE or DMLOE is set, this field represents a sign-extended offset applied to the source or destination address to form the next-state value after the minor loop completes. 10 20 read-write NBYTES Minor Byte Transfer Count 0 10 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD0_SADDR TCD Source Address 0x2000 32 read-write n 0x0 0x0 SADDR Source Address 0 32 read-write TCD0_SLAST TCD Last Source Address Adjustment 0x2018 32 read-write n 0x0 0x0 SLAST Last Source Address Adjustment 0 32 read-write TCD0_SOFF TCD Signed Source Address Offset 0x2008 16 read-write n 0x0 0x0 SOFF Source address signed offset 0 16 read-write TCD1_ATTR TCD Transfer Attributes 0x3032 16 read-write n 0x0 0x0 DMOD Destination Address Modulo 3 5 read-write DSIZE Destination data transfer size 0 3 read-write SMOD Source Address Modulo 11 5 read-write 0 Source address modulo feature is disabled #00000 SSIZE Source data transfer size 8 3 read-write 000 8-bit #000 001 16-bit #001 010 32-bit #010 100 16-byte #100 101 32-byte #101 TCD1_BITER_ELINKNO TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x307A 16 read-write n 0x0 0x0 BITER Starting Major Iteration Count 0 15 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD1_BITER_ELINKYES TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x307A 16 read-write n 0x0 0x0 BITER Starting major iteration count 0 9 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Link Channel Number 9 3 read-write TCD1_CITER_ELINKNO TCD Current Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x3062 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 15 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD1_CITER_ELINKYES TCD Current Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x3062 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 9 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Minor Loop Link Channel Number 9 3 read-write TCD1_CSR TCD Control and Status 0x3074 16 read-write n 0x0 0x0 ACTIVE Channel Active 6 1 read-write BWC Bandwidth Control 14 2 read-write 00 No eDMA engine stalls. #00 10 eDMA engine stalls for 4 cycles after each R/W. #10 11 eDMA engine stalls for 8 cycles after each R/W. #11 DONE Channel Done 7 1 read-write DREQ Disable Request 3 1 read-write 0 The channel's ERQ bit is not affected. #0 1 The channel's ERQ bit is cleared when the major loop is complete. #1 ESG Enable Scatter/Gather Processing 4 1 read-write 0 The current channel's TCD is normal format. #0 1 The current channel's TCD specifies a scatter gather format. The DLASTSGA field provides a memory pointer to the next TCD to be loaded into this channel after the major loop completes its execution. #1 INTHALF Enable an interrupt when major counter is half complete. 2 1 read-write 0 The half-point interrupt is disabled. #0 1 The half-point interrupt is enabled. #1 INTMAJOR Enable an interrupt when major iteration count completes. 1 1 read-write 0 The end-of-major loop interrupt is disabled. #0 1 The end-of-major loop interrupt is enabled. #1 MAJORELINK Enable channel-to-channel linking on major loop complete 5 1 read-write 0 The channel-to-channel linking is disabled. #0 1 The channel-to-channel linking is enabled. #1 MAJORLINKCH Major Loop Link Channel Number 8 3 read-write START Channel Start 0 1 read-write 0 The channel is not explicitly started. #0 1 The channel is explicitly started via a software initiated service request. #1 TCD1_DADDR TCD Destination Address 0x3050 32 read-write n 0x0 0x0 DADDR Destination Address 0 32 read-write TCD1_DLASTSGA TCD Last Destination Address Adjustment/Scatter Gather Address 0x3068 32 read-write n 0x0 0x0 DLASTSGA Destination last address adjustment or the memory address for the next transfer control descriptor to be loaded into this channel (scatter/gather) 0 32 read-write TCD1_DOFF TCD Signed Destination Address Offset 0x305C 16 read-write n 0x0 0x0 DOFF Destination Address Signed Offset 0 16 read-write TCD1_NBYTES_MLNO TCD Minor Byte Count (Minor Loop Mapping Disabled) DMA 0x3038 32 read-write n 0x0 0x0 NBYTES Minor Byte Transfer Count 0 32 read-write TCD1_NBYTES_MLOFFNO TCD Signed Minor Loop Offset (Minor Loop Mapping Enabled and Offset Disabled) DMA 0x3038 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 NBYTES Minor Byte Transfer Count 0 30 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD1_NBYTES_MLOFFYES TCD Signed Minor Loop Offset (Minor Loop Mapping and Offset Enabled) DMA 0x3038 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 MLOFF If SMLOE or DMLOE is set, this field represents a sign-extended offset applied to the source or destination address to form the next-state value after the minor loop completes. 10 20 read-write NBYTES Minor Byte Transfer Count 0 10 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD1_SADDR TCD Source Address 0x3020 32 read-write n 0x0 0x0 SADDR Source Address 0 32 read-write TCD1_SLAST TCD Last Source Address Adjustment 0x3044 32 read-write n 0x0 0x0 SLAST Last Source Address Adjustment 0 32 read-write TCD1_SOFF TCD Signed Source Address Offset 0x302C 16 read-write n 0x0 0x0 SOFF Source address signed offset 0 16 read-write TCD2_ATTR TCD Transfer Attributes 0x4078 16 read-write n 0x0 0x0 DMOD Destination Address Modulo 3 5 read-write DSIZE Destination data transfer size 0 3 read-write SMOD Source Address Modulo 11 5 read-write 0 Source address modulo feature is disabled #00000 SSIZE Source data transfer size 8 3 read-write 000 8-bit #000 001 16-bit #001 010 32-bit #010 100 16-byte #100 101 32-byte #101 TCD2_BITER_ELINKNO TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x40D8 16 read-write n 0x0 0x0 BITER Starting Major Iteration Count 0 15 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD2_BITER_ELINKYES TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x40D8 16 read-write n 0x0 0x0 BITER Starting major iteration count 0 9 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Link Channel Number 9 3 read-write TCD2_CITER_ELINKNO TCD Current Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x40B8 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 15 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD2_CITER_ELINKYES TCD Current Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x40B8 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 9 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Minor Loop Link Channel Number 9 3 read-write TCD2_CSR TCD Control and Status 0x40D0 16 read-write n 0x0 0x0 ACTIVE Channel Active 6 1 read-write BWC Bandwidth Control 14 2 read-write 00 No eDMA engine stalls. #00 10 eDMA engine stalls for 4 cycles after each R/W. #10 11 eDMA engine stalls for 8 cycles after each R/W. #11 DONE Channel Done 7 1 read-write DREQ Disable Request 3 1 read-write 0 The channel's ERQ bit is not affected. #0 1 The channel's ERQ bit is cleared when the major loop is complete. #1 ESG Enable Scatter/Gather Processing 4 1 read-write 0 The current channel's TCD is normal format. #0 1 The current channel's TCD specifies a scatter gather format. The DLASTSGA field provides a memory pointer to the next TCD to be loaded into this channel after the major loop completes its execution. #1 INTHALF Enable an interrupt when major counter is half complete. 2 1 read-write 0 The half-point interrupt is disabled. #0 1 The half-point interrupt is enabled. #1 INTMAJOR Enable an interrupt when major iteration count completes. 1 1 read-write 0 The end-of-major loop interrupt is disabled. #0 1 The end-of-major loop interrupt is enabled. #1 MAJORELINK Enable channel-to-channel linking on major loop complete 5 1 read-write 0 The channel-to-channel linking is disabled. #0 1 The channel-to-channel linking is enabled. #1 MAJORLINKCH Major Loop Link Channel Number 8 3 read-write START Channel Start 0 1 read-write 0 The channel is not explicitly started. #0 1 The channel is explicitly started via a software initiated service request. #1 TCD2_DADDR TCD Destination Address 0x40A0 32 read-write n 0x0 0x0 DADDR Destination Address 0 32 read-write TCD2_DLASTSGA TCD Last Destination Address Adjustment/Scatter Gather Address 0x40C0 32 read-write n 0x0 0x0 DLASTSGA Destination last address adjustment or the memory address for the next transfer control descriptor to be loaded into this channel (scatter/gather) 0 32 read-write TCD2_DOFF TCD Signed Destination Address Offset 0x40B0 16 read-write n 0x0 0x0 DOFF Destination Address Signed Offset 0 16 read-write TCD2_NBYTES_MLNO TCD Minor Byte Count (Minor Loop Mapping Disabled) DMA 0x4080 32 read-write n 0x0 0x0 NBYTES Minor Byte Transfer Count 0 32 read-write TCD2_NBYTES_MLOFFNO TCD Signed Minor Loop Offset (Minor Loop Mapping Enabled and Offset Disabled) DMA 0x4080 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 NBYTES Minor Byte Transfer Count 0 30 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD2_NBYTES_MLOFFYES TCD Signed Minor Loop Offset (Minor Loop Mapping and Offset Enabled) DMA 0x4080 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 MLOFF If SMLOE or DMLOE is set, this field represents a sign-extended offset applied to the source or destination address to form the next-state value after the minor loop completes. 10 20 read-write NBYTES Minor Byte Transfer Count 0 10 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD2_SADDR TCD Source Address 0x4060 32 read-write n 0x0 0x0 SADDR Source Address 0 32 read-write TCD2_SLAST TCD Last Source Address Adjustment 0x4090 32 read-write n 0x0 0x0 SLAST Last Source Address Adjustment 0 32 read-write TCD2_SOFF TCD Signed Source Address Offset 0x4070 16 read-write n 0x0 0x0 SOFF Source address signed offset 0 16 read-write TCD3_ATTR TCD Transfer Attributes 0x50DE 16 read-write n 0x0 0x0 DMOD Destination Address Modulo 3 5 read-write DSIZE Destination data transfer size 0 3 read-write SMOD Source Address Modulo 11 5 read-write 0 Source address modulo feature is disabled #00000 SSIZE Source data transfer size 8 3 read-write 000 8-bit #000 001 16-bit #001 010 32-bit #010 100 16-byte #100 101 32-byte #101 TCD3_BITER_ELINKNO TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x5156 16 read-write n 0x0 0x0 BITER Starting Major Iteration Count 0 15 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD3_BITER_ELINKYES TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x5156 16 read-write n 0x0 0x0 BITER Starting major iteration count 0 9 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Link Channel Number 9 3 read-write TCD3_CITER_ELINKNO TCD Current Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x512E 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 15 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD3_CITER_ELINKYES TCD Current Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x512E 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 9 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Minor Loop Link Channel Number 9 3 read-write TCD3_CSR TCD Control and Status 0x514C 16 read-write n 0x0 0x0 ACTIVE Channel Active 6 1 read-write BWC Bandwidth Control 14 2 read-write 00 No eDMA engine stalls. #00 10 eDMA engine stalls for 4 cycles after each R/W. #10 11 eDMA engine stalls for 8 cycles after each R/W. #11 DONE Channel Done 7 1 read-write DREQ Disable Request 3 1 read-write 0 The channel's ERQ bit is not affected. #0 1 The channel's ERQ bit is cleared when the major loop is complete. #1 ESG Enable Scatter/Gather Processing 4 1 read-write 0 The current channel's TCD is normal format. #0 1 The current channel's TCD specifies a scatter gather format. The DLASTSGA field provides a memory pointer to the next TCD to be loaded into this channel after the major loop completes its execution. #1 INTHALF Enable an interrupt when major counter is half complete. 2 1 read-write 0 The half-point interrupt is disabled. #0 1 The half-point interrupt is enabled. #1 INTMAJOR Enable an interrupt when major iteration count completes. 1 1 read-write 0 The end-of-major loop interrupt is disabled. #0 1 The end-of-major loop interrupt is enabled. #1 MAJORELINK Enable channel-to-channel linking on major loop complete 5 1 read-write 0 The channel-to-channel linking is disabled. #0 1 The channel-to-channel linking is enabled. #1 MAJORLINKCH Major Loop Link Channel Number 8 3 read-write START Channel Start 0 1 read-write 0 The channel is not explicitly started. #0 1 The channel is explicitly started via a software initiated service request. #1 TCD3_DADDR TCD Destination Address 0x5110 32 read-write n 0x0 0x0 DADDR Destination Address 0 32 read-write TCD3_DLASTSGA TCD Last Destination Address Adjustment/Scatter Gather Address 0x5138 32 read-write n 0x0 0x0 DLASTSGA Destination last address adjustment or the memory address for the next transfer control descriptor to be loaded into this channel (scatter/gather) 0 32 read-write TCD3_DOFF TCD Signed Destination Address Offset 0x5124 16 read-write n 0x0 0x0 DOFF Destination Address Signed Offset 0 16 read-write TCD3_NBYTES_MLNO TCD Minor Byte Count (Minor Loop Mapping Disabled) DMA 0x50E8 32 read-write n 0x0 0x0 NBYTES Minor Byte Transfer Count 0 32 read-write TCD3_NBYTES_MLOFFNO TCD Signed Minor Loop Offset (Minor Loop Mapping Enabled and Offset Disabled) DMA 0x50E8 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 NBYTES Minor Byte Transfer Count 0 30 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD3_NBYTES_MLOFFYES TCD Signed Minor Loop Offset (Minor Loop Mapping and Offset Enabled) DMA 0x50E8 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 MLOFF If SMLOE or DMLOE is set, this field represents a sign-extended offset applied to the source or destination address to form the next-state value after the minor loop completes. 10 20 read-write NBYTES Minor Byte Transfer Count 0 10 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD3_SADDR TCD Source Address 0x50C0 32 read-write n 0x0 0x0 SADDR Source Address 0 32 read-write TCD3_SLAST TCD Last Source Address Adjustment 0x50FC 32 read-write n 0x0 0x0 SLAST Last Source Address Adjustment 0 32 read-write TCD3_SOFF TCD Signed Source Address Offset 0x50D4 16 read-write n 0x0 0x0 SOFF Source address signed offset 0 16 read-write TCD4_ATTR TCD Transfer Attributes 0x6164 16 read-write n 0x0 0x0 DMOD Destination Address Modulo 3 5 read-write DSIZE Destination data transfer size 0 3 read-write SMOD Source Address Modulo 11 5 read-write 0 Source address modulo feature is disabled #00000 SSIZE Source data transfer size 8 3 read-write 000 8-bit #000 001 16-bit #001 010 32-bit #010 100 16-byte #100 101 32-byte #101 TCD4_BITER_ELINKNO TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x61F4 16 read-write n 0x0 0x0 BITER Starting Major Iteration Count 0 15 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD4_BITER_ELINKYES TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x61F4 16 read-write n 0x0 0x0 BITER Starting major iteration count 0 9 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Link Channel Number 9 3 read-write TCD4_CITER_ELINKNO TCD Current Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x61C4 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 15 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD4_CITER_ELINKYES TCD Current Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x61C4 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 9 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Minor Loop Link Channel Number 9 3 read-write TCD4_CSR TCD Control and Status 0x61E8 16 read-write n 0x0 0x0 ACTIVE Channel Active 6 1 read-write BWC Bandwidth Control 14 2 read-write 00 No eDMA engine stalls. #00 10 eDMA engine stalls for 4 cycles after each R/W. #10 11 eDMA engine stalls for 8 cycles after each R/W. #11 DONE Channel Done 7 1 read-write DREQ Disable Request 3 1 read-write 0 The channel's ERQ bit is not affected. #0 1 The channel's ERQ bit is cleared when the major loop is complete. #1 ESG Enable Scatter/Gather Processing 4 1 read-write 0 The current channel's TCD is normal format. #0 1 The current channel's TCD specifies a scatter gather format. The DLASTSGA field provides a memory pointer to the next TCD to be loaded into this channel after the major loop completes its execution. #1 INTHALF Enable an interrupt when major counter is half complete. 2 1 read-write 0 The half-point interrupt is disabled. #0 1 The half-point interrupt is enabled. #1 INTMAJOR Enable an interrupt when major iteration count completes. 1 1 read-write 0 The end-of-major loop interrupt is disabled. #0 1 The end-of-major loop interrupt is enabled. #1 MAJORELINK Enable channel-to-channel linking on major loop complete 5 1 read-write 0 The channel-to-channel linking is disabled. #0 1 The channel-to-channel linking is enabled. #1 MAJORLINKCH Major Loop Link Channel Number 8 3 read-write START Channel Start 0 1 read-write 0 The channel is not explicitly started. #0 1 The channel is explicitly started via a software initiated service request. #1 TCD4_DADDR TCD Destination Address 0x61A0 32 read-write n 0x0 0x0 DADDR Destination Address 0 32 read-write TCD4_DLASTSGA TCD Last Destination Address Adjustment/Scatter Gather Address 0x61D0 32 read-write n 0x0 0x0 DLASTSGA Destination last address adjustment or the memory address for the next transfer control descriptor to be loaded into this channel (scatter/gather) 0 32 read-write TCD4_DOFF TCD Signed Destination Address Offset 0x61B8 16 read-write n 0x0 0x0 DOFF Destination Address Signed Offset 0 16 read-write TCD4_NBYTES_MLNO TCD Minor Byte Count (Minor Loop Mapping Disabled) DMA 0x6170 32 read-write n 0x0 0x0 NBYTES Minor Byte Transfer Count 0 32 read-write TCD4_NBYTES_MLOFFNO TCD Signed Minor Loop Offset (Minor Loop Mapping Enabled and Offset Disabled) DMA 0x6170 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 NBYTES Minor Byte Transfer Count 0 30 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD4_NBYTES_MLOFFYES TCD Signed Minor Loop Offset (Minor Loop Mapping and Offset Enabled) DMA 0x6170 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 MLOFF If SMLOE or DMLOE is set, this field represents a sign-extended offset applied to the source or destination address to form the next-state value after the minor loop completes. 10 20 read-write NBYTES Minor Byte Transfer Count 0 10 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD4_SADDR TCD Source Address 0x6140 32 read-write n 0x0 0x0 SADDR Source Address 0 32 read-write TCD4_SLAST TCD Last Source Address Adjustment 0x6188 32 read-write n 0x0 0x0 SLAST Last Source Address Adjustment 0 32 read-write TCD4_SOFF TCD Signed Source Address Offset 0x6158 16 read-write n 0x0 0x0 SOFF Source address signed offset 0 16 read-write TCD5_ATTR TCD Transfer Attributes 0x720A 16 read-write n 0x0 0x0 DMOD Destination Address Modulo 3 5 read-write DSIZE Destination data transfer size 0 3 read-write SMOD Source Address Modulo 11 5 read-write 0 Source address modulo feature is disabled #00000 SSIZE Source data transfer size 8 3 read-write 000 8-bit #000 001 16-bit #001 010 32-bit #010 100 16-byte #100 101 32-byte #101 TCD5_BITER_ELINKNO TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x72B2 16 read-write n 0x0 0x0 BITER Starting Major Iteration Count 0 15 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD5_BITER_ELINKYES TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x72B2 16 read-write n 0x0 0x0 BITER Starting major iteration count 0 9 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Link Channel Number 9 3 read-write TCD5_CITER_ELINKNO TCD Current Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x727A 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 15 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD5_CITER_ELINKYES TCD Current Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x727A 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 9 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Minor Loop Link Channel Number 9 3 read-write TCD5_CSR TCD Control and Status 0x72A4 16 read-write n 0x0 0x0 ACTIVE Channel Active 6 1 read-write BWC Bandwidth Control 14 2 read-write 00 No eDMA engine stalls. #00 10 eDMA engine stalls for 4 cycles after each R/W. #10 11 eDMA engine stalls for 8 cycles after each R/W. #11 DONE Channel Done 7 1 read-write DREQ Disable Request 3 1 read-write 0 The channel's ERQ bit is not affected. #0 1 The channel's ERQ bit is cleared when the major loop is complete. #1 ESG Enable Scatter/Gather Processing 4 1 read-write 0 The current channel's TCD is normal format. #0 1 The current channel's TCD specifies a scatter gather format. The DLASTSGA field provides a memory pointer to the next TCD to be loaded into this channel after the major loop completes its execution. #1 INTHALF Enable an interrupt when major counter is half complete. 2 1 read-write 0 The half-point interrupt is disabled. #0 1 The half-point interrupt is enabled. #1 INTMAJOR Enable an interrupt when major iteration count completes. 1 1 read-write 0 The end-of-major loop interrupt is disabled. #0 1 The end-of-major loop interrupt is enabled. #1 MAJORELINK Enable channel-to-channel linking on major loop complete 5 1 read-write 0 The channel-to-channel linking is disabled. #0 1 The channel-to-channel linking is enabled. #1 MAJORLINKCH Major Loop Link Channel Number 8 3 read-write START Channel Start 0 1 read-write 0 The channel is not explicitly started. #0 1 The channel is explicitly started via a software initiated service request. #1 TCD5_DADDR TCD Destination Address 0x7250 32 read-write n 0x0 0x0 DADDR Destination Address 0 32 read-write TCD5_DLASTSGA TCD Last Destination Address Adjustment/Scatter Gather Address 0x7288 32 read-write n 0x0 0x0 DLASTSGA Destination last address adjustment or the memory address for the next transfer control descriptor to be loaded into this channel (scatter/gather) 0 32 read-write TCD5_DOFF TCD Signed Destination Address Offset 0x726C 16 read-write n 0x0 0x0 DOFF Destination Address Signed Offset 0 16 read-write TCD5_NBYTES_MLNO TCD Minor Byte Count (Minor Loop Mapping Disabled) DMA 0x7218 32 read-write n 0x0 0x0 NBYTES Minor Byte Transfer Count 0 32 read-write TCD5_NBYTES_MLOFFNO TCD Signed Minor Loop Offset (Minor Loop Mapping Enabled and Offset Disabled) DMA 0x7218 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 NBYTES Minor Byte Transfer Count 0 30 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD5_NBYTES_MLOFFYES TCD Signed Minor Loop Offset (Minor Loop Mapping and Offset Enabled) DMA 0x7218 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 MLOFF If SMLOE or DMLOE is set, this field represents a sign-extended offset applied to the source or destination address to form the next-state value after the minor loop completes. 10 20 read-write NBYTES Minor Byte Transfer Count 0 10 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD5_SADDR TCD Source Address 0x71E0 32 read-write n 0x0 0x0 SADDR Source Address 0 32 read-write TCD5_SLAST TCD Last Source Address Adjustment 0x7234 32 read-write n 0x0 0x0 SLAST Last Source Address Adjustment 0 32 read-write TCD5_SOFF TCD Signed Source Address Offset 0x71FC 16 read-write n 0x0 0x0 SOFF Source address signed offset 0 16 read-write TCD6_ATTR TCD Transfer Attributes 0x82D0 16 read-write n 0x0 0x0 DMOD Destination Address Modulo 3 5 read-write DSIZE Destination data transfer size 0 3 read-write SMOD Source Address Modulo 11 5 read-write 0 Source address modulo feature is disabled #00000 SSIZE Source data transfer size 8 3 read-write 000 8-bit #000 001 16-bit #001 010 32-bit #010 100 16-byte #100 101 32-byte #101 TCD6_BITER_ELINKNO TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x8390 16 read-write n 0x0 0x0 BITER Starting Major Iteration Count 0 15 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD6_BITER_ELINKYES TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x8390 16 read-write n 0x0 0x0 BITER Starting major iteration count 0 9 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Link Channel Number 9 3 read-write TCD6_CITER_ELINKNO TCD Current Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x8350 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 15 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD6_CITER_ELINKYES TCD Current Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x8350 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 9 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Minor Loop Link Channel Number 9 3 read-write TCD6_CSR TCD Control and Status 0x8380 16 read-write n 0x0 0x0 ACTIVE Channel Active 6 1 read-write BWC Bandwidth Control 14 2 read-write 00 No eDMA engine stalls. #00 10 eDMA engine stalls for 4 cycles after each R/W. #10 11 eDMA engine stalls for 8 cycles after each R/W. #11 DONE Channel Done 7 1 read-write DREQ Disable Request 3 1 read-write 0 The channel's ERQ bit is not affected. #0 1 The channel's ERQ bit is cleared when the major loop is complete. #1 ESG Enable Scatter/Gather Processing 4 1 read-write 0 The current channel's TCD is normal format. #0 1 The current channel's TCD specifies a scatter gather format. The DLASTSGA field provides a memory pointer to the next TCD to be loaded into this channel after the major loop completes its execution. #1 INTHALF Enable an interrupt when major counter is half complete. 2 1 read-write 0 The half-point interrupt is disabled. #0 1 The half-point interrupt is enabled. #1 INTMAJOR Enable an interrupt when major iteration count completes. 1 1 read-write 0 The end-of-major loop interrupt is disabled. #0 1 The end-of-major loop interrupt is enabled. #1 MAJORELINK Enable channel-to-channel linking on major loop complete 5 1 read-write 0 The channel-to-channel linking is disabled. #0 1 The channel-to-channel linking is enabled. #1 MAJORLINKCH Major Loop Link Channel Number 8 3 read-write START Channel Start 0 1 read-write 0 The channel is not explicitly started. #0 1 The channel is explicitly started via a software initiated service request. #1 TCD6_DADDR TCD Destination Address 0x8320 32 read-write n 0x0 0x0 DADDR Destination Address 0 32 read-write TCD6_DLASTSGA TCD Last Destination Address Adjustment/Scatter Gather Address 0x8360 32 read-write n 0x0 0x0 DLASTSGA Destination last address adjustment or the memory address for the next transfer control descriptor to be loaded into this channel (scatter/gather) 0 32 read-write TCD6_DOFF TCD Signed Destination Address Offset 0x8340 16 read-write n 0x0 0x0 DOFF Destination Address Signed Offset 0 16 read-write TCD6_NBYTES_MLNO TCD Minor Byte Count (Minor Loop Mapping Disabled) DMA 0x82E0 32 read-write n 0x0 0x0 NBYTES Minor Byte Transfer Count 0 32 read-write TCD6_NBYTES_MLOFFNO TCD Signed Minor Loop Offset (Minor Loop Mapping Enabled and Offset Disabled) DMA 0x82E0 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 NBYTES Minor Byte Transfer Count 0 30 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD6_NBYTES_MLOFFYES TCD Signed Minor Loop Offset (Minor Loop Mapping and Offset Enabled) DMA 0x82E0 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 MLOFF If SMLOE or DMLOE is set, this field represents a sign-extended offset applied to the source or destination address to form the next-state value after the minor loop completes. 10 20 read-write NBYTES Minor Byte Transfer Count 0 10 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD6_SADDR TCD Source Address 0x82A0 32 read-write n 0x0 0x0 SADDR Source Address 0 32 read-write TCD6_SLAST TCD Last Source Address Adjustment 0x8300 32 read-write n 0x0 0x0 SLAST Last Source Address Adjustment 0 32 read-write TCD6_SOFF TCD Signed Source Address Offset 0x82C0 16 read-write n 0x0 0x0 SOFF Source address signed offset 0 16 read-write TCD7_ATTR TCD Transfer Attributes 0x93B6 16 read-write n 0x0 0x0 DMOD Destination Address Modulo 3 5 read-write DSIZE Destination data transfer size 0 3 read-write SMOD Source Address Modulo 11 5 read-write 0 Source address modulo feature is disabled #00000 SSIZE Source data transfer size 8 3 read-write 000 8-bit #000 001 16-bit #001 010 32-bit #010 100 16-byte #100 101 32-byte #101 TCD7_BITER_ELINKNO TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x948E 16 read-write n 0x0 0x0 BITER Starting Major Iteration Count 0 15 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD7_BITER_ELINKYES TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x948E 16 read-write n 0x0 0x0 BITER Starting major iteration count 0 9 read-write ELINK Enables channel-to-channel linking on minor loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Link Channel Number 9 3 read-write TCD7_CITER_ELINKNO TCD Current Minor Loop Link, Major Loop Count (Channel Linking Disabled) DMA 0x9446 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 15 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 TCD7_CITER_ELINKYES TCD Current Minor Loop Link, Major Loop Count (Channel Linking Enabled) DMA 0x9446 16 read-write n 0x0 0x0 CITER Current Major Iteration Count 0 9 read-write ELINK Enable channel-to-channel linking on minor-loop complete 15 1 read-write 0 The channel-to-channel linking is disabled #0 1 The channel-to-channel linking is enabled #1 LINKCH Minor Loop Link Channel Number 9 3 read-write TCD7_CSR TCD Control and Status 0x947C 16 read-write n 0x0 0x0 ACTIVE Channel Active 6 1 read-write BWC Bandwidth Control 14 2 read-write 00 No eDMA engine stalls. #00 10 eDMA engine stalls for 4 cycles after each R/W. #10 11 eDMA engine stalls for 8 cycles after each R/W. #11 DONE Channel Done 7 1 read-write DREQ Disable Request 3 1 read-write 0 The channel's ERQ bit is not affected. #0 1 The channel's ERQ bit is cleared when the major loop is complete. #1 ESG Enable Scatter/Gather Processing 4 1 read-write 0 The current channel's TCD is normal format. #0 1 The current channel's TCD specifies a scatter gather format. The DLASTSGA field provides a memory pointer to the next TCD to be loaded into this channel after the major loop completes its execution. #1 INTHALF Enable an interrupt when major counter is half complete. 2 1 read-write 0 The half-point interrupt is disabled. #0 1 The half-point interrupt is enabled. #1 INTMAJOR Enable an interrupt when major iteration count completes. 1 1 read-write 0 The end-of-major loop interrupt is disabled. #0 1 The end-of-major loop interrupt is enabled. #1 MAJORELINK Enable channel-to-channel linking on major loop complete 5 1 read-write 0 The channel-to-channel linking is disabled. #0 1 The channel-to-channel linking is enabled. #1 MAJORLINKCH Major Loop Link Channel Number 8 3 read-write START Channel Start 0 1 read-write 0 The channel is not explicitly started. #0 1 The channel is explicitly started via a software initiated service request. #1 TCD7_DADDR TCD Destination Address 0x9410 32 read-write n 0x0 0x0 DADDR Destination Address 0 32 read-write TCD7_DLASTSGA TCD Last Destination Address Adjustment/Scatter Gather Address 0x9458 32 read-write n 0x0 0x0 DLASTSGA Destination last address adjustment or the memory address for the next transfer control descriptor to be loaded into this channel (scatter/gather) 0 32 read-write TCD7_DOFF TCD Signed Destination Address Offset 0x9434 16 read-write n 0x0 0x0 DOFF Destination Address Signed Offset 0 16 read-write TCD7_NBYTES_MLNO TCD Minor Byte Count (Minor Loop Mapping Disabled) DMA 0x93C8 32 read-write n 0x0 0x0 NBYTES Minor Byte Transfer Count 0 32 read-write TCD7_NBYTES_MLOFFNO TCD Signed Minor Loop Offset (Minor Loop Mapping Enabled and Offset Disabled) DMA 0x93C8 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 NBYTES Minor Byte Transfer Count 0 30 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD7_NBYTES_MLOFFYES TCD Signed Minor Loop Offset (Minor Loop Mapping and Offset Enabled) DMA 0x93C8 32 read-write n 0x0 0x0 DMLOE Destination Minor Loop Offset enable 30 1 read-write 0 The minor loop offset is not applied to the DADDR #0 1 The minor loop offset is applied to the DADDR #1 MLOFF If SMLOE or DMLOE is set, this field represents a sign-extended offset applied to the source or destination address to form the next-state value after the minor loop completes. 10 20 read-write NBYTES Minor Byte Transfer Count 0 10 read-write SMLOE Source Minor Loop Offset Enable 31 1 read-write 0 The minor loop offset is not applied to the SADDR #0 1 The minor loop offset is applied to the SADDR #1 TCD7_SADDR TCD Source Address 0x9380 32 read-write n 0x0 0x0 SADDR Source Address 0 32 read-write TCD7_SLAST TCD Last Source Address Adjustment 0x93EC 32 read-write n 0x0 0x0 SLAST Last Source Address Adjustment 0 32 read-write TCD7_SOFF TCD Signed Source Address Offset 0x93A4 16 read-write n 0x0 0x0 SOFF Source address signed offset 0 16 read-write DMAMUX DMA channel multiplexor DMAMUX 0x0 0x0 0x8 registers n CHCFG0 Channel Configuration register 0x0 8 read-write n 0x0 0x0 ENBL DMA Channel Enable 7 1 read-write 0 DMA channel is disabled. This mode is primarily used during configuration of the DMAMux. The DMA has separate channel enables/disables, which should be used to disable or reconfigure a DMA channel. #0 1 DMA channel is enabled #1 SOURCE DMA Channel Source (Slot) 0 6 read-write 0 Disable #0 2 UART0_Receive_Complete #10 4 UART1_Receive_Complete #100 16 SPI0_Receive_Complete #10000 32 FTM1_CH0_Event #100000 33 FTM1_CH1_Event #100001 17 SPI0_Transmit_Complete #10001 34 FTM2_CH0_Event #100010 35 FTM2_CH1_Event #100011 36 FTM3_CH0_Event #100100 37 FTM3_CH1_Event #100101 38 FTM3_CH2_Event #100110 39 FTM3_CH3_Event #100111 5 UART1_Transmit_Complete #101 40 ADC0_COCO #101000 41 ADC1_COCO #101001 42 CMP0_Output #101010 43 CMP1_Output #101011 22 I2C0_Transmission_Complete #10110 45 DAC0_Buffer_Limit #101101 47 PDB1_Programmable_Interrupt #101111 3 UART0_Transmit_Complete #11 24 FTM0_CH0_Event #11000 48 PDB0_Programmable_Interrupt #110000 49 PORTA_Rising_Falling_Edge #110001 25 FTM0_CH1_Event #11001 50 PORTB_Rising_Falling_Edge #110010 51 PORTC_Rising_Falling_Edge #110011 26 FTM0_CH2_Event #11010 52 PORTD_Rising_Falling_Edge #110100 53 PORTE_Rising_Falling_Edge #110101 27 FTM0_CH3_Event #11011 54 FTM3_CH4_Event #110110 55 FTM3_CH5_Event #110111 28 FTM0_CH4_Event #11100 56 FTM5_CH0_Event #111000 57 FTM5_CH1_Event #111001 29 FTM0_CH5_Event #11101 58 DMAMUX_Always_Enabled58 #111010 59 DMAMUX_Always_Enabled59 #111011 30 FTM4_CH0_Event #11110 60 DMAMUX_Always_Enabled60 #111100 61 DMAMUX_Always_Enabled61 #111101 31 FTM4_CH1_Event #11111 62 DMAMUX_Always_Enabled62 #111110 63 DMAMUX_Always_Enabled63 #111111 CHCFG1 Channel Configuration register 0x1 8 read-write n 0x0 0x0 ENBL DMA Channel Enable 7 1 read-write 0 DMA channel is disabled. This mode is primarily used during configuration of the DMAMux. The DMA has separate channel enables/disables, which should be used to disable or reconfigure a DMA channel. #0 1 DMA channel is enabled #1 SOURCE DMA Channel Source (Slot) 0 6 read-write 0 Disable #0 2 UART0_Receive_Complete #10 4 UART1_Receive_Complete #100 16 SPI0_Receive_Complete #10000 32 FTM1_CH0_Event #100000 33 FTM1_CH1_Event #100001 17 SPI0_Transmit_Complete #10001 34 FTM2_CH0_Event #100010 35 FTM2_CH1_Event #100011 36 FTM3_CH0_Event #100100 37 FTM3_CH1_Event #100101 38 FTM3_CH2_Event #100110 39 FTM3_CH3_Event #100111 5 UART1_Transmit_Complete #101 40 ADC0_COCO #101000 41 ADC1_COCO #101001 42 CMP0_Output #101010 43 CMP1_Output #101011 22 I2C0_Transmission_Complete #10110 45 DAC0_Buffer_Limit #101101 47 PDB1_Programmable_Interrupt #101111 3 UART0_Transmit_Complete #11 24 FTM0_CH0_Event #11000 48 PDB0_Programmable_Interrupt #110000 49 PORTA_Rising_Falling_Edge #110001 25 FTM0_CH1_Event #11001 50 PORTB_Rising_Falling_Edge #110010 51 PORTC_Rising_Falling_Edge #110011 26 FTM0_CH2_Event #11010 52 PORTD_Rising_Falling_Edge #110100 53 PORTE_Rising_Falling_Edge #110101 27 FTM0_CH3_Event #11011 54 FTM3_CH4_Event #110110 55 FTM3_CH5_Event #110111 28 FTM0_CH4_Event #11100 56 FTM5_CH0_Event #111000 57 FTM5_CH1_Event #111001 29 FTM0_CH5_Event #11101 58 DMAMUX_Always_Enabled58 #111010 59 DMAMUX_Always_Enabled59 #111011 30 FTM4_CH0_Event #11110 60 DMAMUX_Always_Enabled60 #111100 61 DMAMUX_Always_Enabled61 #111101 31 FTM4_CH1_Event #11111 62 DMAMUX_Always_Enabled62 #111110 63 DMAMUX_Always_Enabled63 #111111 CHCFG2 Channel Configuration register 0x3 8 read-write n 0x0 0x0 ENBL DMA Channel Enable 7 1 read-write 0 DMA channel is disabled. This mode is primarily used during configuration of the DMAMux. The DMA has separate channel enables/disables, which should be used to disable or reconfigure a DMA channel. #0 1 DMA channel is enabled #1 SOURCE DMA Channel Source (Slot) 0 6 read-write 0 Disable #0 2 UART0_Receive_Complete #10 4 UART1_Receive_Complete #100 16 SPI0_Receive_Complete #10000 32 FTM1_CH0_Event #100000 33 FTM1_CH1_Event #100001 17 SPI0_Transmit_Complete #10001 34 FTM2_CH0_Event #100010 35 FTM2_CH1_Event #100011 36 FTM3_CH0_Event #100100 37 FTM3_CH1_Event #100101 38 FTM3_CH2_Event #100110 39 FTM3_CH3_Event #100111 5 UART1_Transmit_Complete #101 40 ADC0_COCO #101000 41 ADC1_COCO #101001 42 CMP0_Output #101010 43 CMP1_Output #101011 22 I2C0_Transmission_Complete #10110 45 DAC0_Buffer_Limit #101101 47 PDB1_Programmable_Interrupt #101111 3 UART0_Transmit_Complete #11 24 FTM0_CH0_Event #11000 48 PDB0_Programmable_Interrupt #110000 49 PORTA_Rising_Falling_Edge #110001 25 FTM0_CH1_Event #11001 50 PORTB_Rising_Falling_Edge #110010 51 PORTC_Rising_Falling_Edge #110011 26 FTM0_CH2_Event #11010 52 PORTD_Rising_Falling_Edge #110100 53 PORTE_Rising_Falling_Edge #110101 27 FTM0_CH3_Event #11011 54 FTM3_CH4_Event #110110 55 FTM3_CH5_Event #110111 28 FTM0_CH4_Event #11100 56 FTM5_CH0_Event #111000 57 FTM5_CH1_Event #111001 29 FTM0_CH5_Event #11101 58 DMAMUX_Always_Enabled58 #111010 59 DMAMUX_Always_Enabled59 #111011 30 FTM4_CH0_Event #11110 60 DMAMUX_Always_Enabled60 #111100 61 DMAMUX_Always_Enabled61 #111101 31 FTM4_CH1_Event #11111 62 DMAMUX_Always_Enabled62 #111110 63 DMAMUX_Always_Enabled63 #111111 CHCFG3 Channel Configuration register 0x6 8 read-write n 0x0 0x0 ENBL DMA Channel Enable 7 1 read-write 0 DMA channel is disabled. This mode is primarily used during configuration of the DMAMux. The DMA has separate channel enables/disables, which should be used to disable or reconfigure a DMA channel. #0 1 DMA channel is enabled #1 SOURCE DMA Channel Source (Slot) 0 6 read-write 0 Disable #0 2 UART0_Receive_Complete #10 4 UART1_Receive_Complete #100 16 SPI0_Receive_Complete #10000 32 FTM1_CH0_Event #100000 33 FTM1_CH1_Event #100001 17 SPI0_Transmit_Complete #10001 34 FTM2_CH0_Event #100010 35 FTM2_CH1_Event #100011 36 FTM3_CH0_Event #100100 37 FTM3_CH1_Event #100101 38 FTM3_CH2_Event #100110 39 FTM3_CH3_Event #100111 5 UART1_Transmit_Complete #101 40 ADC0_COCO #101000 41 ADC1_COCO #101001 42 CMP0_Output #101010 43 CMP1_Output #101011 22 I2C0_Transmission_Complete #10110 45 DAC0_Buffer_Limit #101101 47 PDB1_Programmable_Interrupt #101111 3 UART0_Transmit_Complete #11 24 FTM0_CH0_Event #11000 48 PDB0_Programmable_Interrupt #110000 49 PORTA_Rising_Falling_Edge #110001 25 FTM0_CH1_Event #11001 50 PORTB_Rising_Falling_Edge #110010 51 PORTC_Rising_Falling_Edge #110011 26 FTM0_CH2_Event #11010 52 PORTD_Rising_Falling_Edge #110100 53 PORTE_Rising_Falling_Edge #110101 27 FTM0_CH3_Event #11011 54 FTM3_CH4_Event #110110 55 FTM3_CH5_Event #110111 28 FTM0_CH4_Event #11100 56 FTM5_CH0_Event #111000 57 FTM5_CH1_Event #111001 29 FTM0_CH5_Event #11101 58 DMAMUX_Always_Enabled58 #111010 59 DMAMUX_Always_Enabled59 #111011 30 FTM4_CH0_Event #11110 60 DMAMUX_Always_Enabled60 #111100 61 DMAMUX_Always_Enabled61 #111101 31 FTM4_CH1_Event #11111 62 DMAMUX_Always_Enabled62 #111110 63 DMAMUX_Always_Enabled63 #111111 CHCFG4 Channel Configuration register 0xA 8 read-write n 0x0 0x0 ENBL DMA Channel Enable 7 1 read-write 0 DMA channel is disabled. This mode is primarily used during configuration of the DMAMux. The DMA has separate channel enables/disables, which should be used to disable or reconfigure a DMA channel. #0 1 DMA channel is enabled #1 SOURCE DMA Channel Source (Slot) 0 6 read-write 0 Disable #0 2 UART0_Receive_Complete #10 4 UART1_Receive_Complete #100 16 SPI0_Receive_Complete #10000 32 FTM1_CH0_Event #100000 33 FTM1_CH1_Event #100001 17 SPI0_Transmit_Complete #10001 34 FTM2_CH0_Event #100010 35 FTM2_CH1_Event #100011 36 FTM3_CH0_Event #100100 37 FTM3_CH1_Event #100101 38 FTM3_CH2_Event #100110 39 FTM3_CH3_Event #100111 5 UART1_Transmit_Complete #101 40 ADC0_COCO #101000 41 ADC1_COCO #101001 42 CMP0_Output #101010 43 CMP1_Output #101011 22 I2C0_Transmission_Complete #10110 45 DAC0_Buffer_Limit #101101 47 PDB1_Programmable_Interrupt #101111 3 UART0_Transmit_Complete #11 24 FTM0_CH0_Event #11000 48 PDB0_Programmable_Interrupt #110000 49 PORTA_Rising_Falling_Edge #110001 25 FTM0_CH1_Event #11001 50 PORTB_Rising_Falling_Edge #110010 51 PORTC_Rising_Falling_Edge #110011 26 FTM0_CH2_Event #11010 52 PORTD_Rising_Falling_Edge #110100 53 PORTE_Rising_Falling_Edge #110101 27 FTM0_CH3_Event #11011 54 FTM3_CH4_Event #110110 55 FTM3_CH5_Event #110111 28 FTM0_CH4_Event #11100 56 FTM5_CH0_Event #111000 57 FTM5_CH1_Event #111001 29 FTM0_CH5_Event #11101 58 DMAMUX_Always_Enabled58 #111010 59 DMAMUX_Always_Enabled59 #111011 30 FTM4_CH0_Event #11110 60 DMAMUX_Always_Enabled60 #111100 61 DMAMUX_Always_Enabled61 #111101 31 FTM4_CH1_Event #11111 62 DMAMUX_Always_Enabled62 #111110 63 DMAMUX_Always_Enabled63 #111111 CHCFG5 Channel Configuration register 0xF 8 read-write n 0x0 0x0 ENBL DMA Channel Enable 7 1 read-write 0 DMA channel is disabled. This mode is primarily used during configuration of the DMAMux. The DMA has separate channel enables/disables, which should be used to disable or reconfigure a DMA channel. #0 1 DMA channel is enabled #1 SOURCE DMA Channel Source (Slot) 0 6 read-write 0 Disable #0 2 UART0_Receive_Complete #10 4 UART1_Receive_Complete #100 16 SPI0_Receive_Complete #10000 32 FTM1_CH0_Event #100000 33 FTM1_CH1_Event #100001 17 SPI0_Transmit_Complete #10001 34 FTM2_CH0_Event #100010 35 FTM2_CH1_Event #100011 36 FTM3_CH0_Event #100100 37 FTM3_CH1_Event #100101 38 FTM3_CH2_Event #100110 39 FTM3_CH3_Event #100111 5 UART1_Transmit_Complete #101 40 ADC0_COCO #101000 41 ADC1_COCO #101001 42 CMP0_Output #101010 43 CMP1_Output #101011 22 I2C0_Transmission_Complete #10110 45 DAC0_Buffer_Limit #101101 47 PDB1_Programmable_Interrupt #101111 3 UART0_Transmit_Complete #11 24 FTM0_CH0_Event #11000 48 PDB0_Programmable_Interrupt #110000 49 PORTA_Rising_Falling_Edge #110001 25 FTM0_CH1_Event #11001 50 PORTB_Rising_Falling_Edge #110010 51 PORTC_Rising_Falling_Edge #110011 26 FTM0_CH2_Event #11010 52 PORTD_Rising_Falling_Edge #110100 53 PORTE_Rising_Falling_Edge #110101 27 FTM0_CH3_Event #11011 54 FTM3_CH4_Event #110110 55 FTM3_CH5_Event #110111 28 FTM0_CH4_Event #11100 56 FTM5_CH0_Event #111000 57 FTM5_CH1_Event #111001 29 FTM0_CH5_Event #11101 58 DMAMUX_Always_Enabled58 #111010 59 DMAMUX_Always_Enabled59 #111011 30 FTM4_CH0_Event #11110 60 DMAMUX_Always_Enabled60 #111100 61 DMAMUX_Always_Enabled61 #111101 31 FTM4_CH1_Event #11111 62 DMAMUX_Always_Enabled62 #111110 63 DMAMUX_Always_Enabled63 #111111 CHCFG6 Channel Configuration register 0x15 8 read-write n 0x0 0x0 ENBL DMA Channel Enable 7 1 read-write 0 DMA channel is disabled. This mode is primarily used during configuration of the DMAMux. The DMA has separate channel enables/disables, which should be used to disable or reconfigure a DMA channel. #0 1 DMA channel is enabled #1 SOURCE DMA Channel Source (Slot) 0 6 read-write 0 Disable #0 2 UART0_Receive_Complete #10 4 UART1_Receive_Complete #100 16 SPI0_Receive_Complete #10000 32 FTM1_CH0_Event #100000 33 FTM1_CH1_Event #100001 17 SPI0_Transmit_Complete #10001 34 FTM2_CH0_Event #100010 35 FTM2_CH1_Event #100011 36 FTM3_CH0_Event #100100 37 FTM3_CH1_Event #100101 38 FTM3_CH2_Event #100110 39 FTM3_CH3_Event #100111 5 UART1_Transmit_Complete #101 40 ADC0_COCO #101000 41 ADC1_COCO #101001 42 CMP0_Output #101010 43 CMP1_Output #101011 22 I2C0_Transmission_Complete #10110 45 DAC0_Buffer_Limit #101101 47 PDB1_Programmable_Interrupt #101111 3 UART0_Transmit_Complete #11 24 FTM0_CH0_Event #11000 48 PDB0_Programmable_Interrupt #110000 49 PORTA_Rising_Falling_Edge #110001 25 FTM0_CH1_Event #11001 50 PORTB_Rising_Falling_Edge #110010 51 PORTC_Rising_Falling_Edge #110011 26 FTM0_CH2_Event #11010 52 PORTD_Rising_Falling_Edge #110100 53 PORTE_Rising_Falling_Edge #110101 27 FTM0_CH3_Event #11011 54 FTM3_CH4_Event #110110 55 FTM3_CH5_Event #110111 28 FTM0_CH4_Event #11100 56 FTM5_CH0_Event #111000 57 FTM5_CH1_Event #111001 29 FTM0_CH5_Event #11101 58 DMAMUX_Always_Enabled58 #111010 59 DMAMUX_Always_Enabled59 #111011 30 FTM4_CH0_Event #11110 60 DMAMUX_Always_Enabled60 #111100 61 DMAMUX_Always_Enabled61 #111101 31 FTM4_CH1_Event #11111 62 DMAMUX_Always_Enabled62 #111110 63 DMAMUX_Always_Enabled63 #111111 CHCFG7 Channel Configuration register 0x1C 8 read-write n 0x0 0x0 ENBL DMA Channel Enable 7 1 read-write 0 DMA channel is disabled. This mode is primarily used during configuration of the DMAMux. The DMA has separate channel enables/disables, which should be used to disable or reconfigure a DMA channel. #0 1 DMA channel is enabled #1 SOURCE DMA Channel Source (Slot) 0 6 read-write 0 Disable #0 2 UART0_Receive_Complete #10 4 UART1_Receive_Complete #100 16 SPI0_Receive_Complete #10000 32 FTM1_CH0_Event #100000 33 FTM1_CH1_Event #100001 17 SPI0_Transmit_Complete #10001 34 FTM2_CH0_Event #100010 35 FTM2_CH1_Event #100011 36 FTM3_CH0_Event #100100 37 FTM3_CH1_Event #100101 38 FTM3_CH2_Event #100110 39 FTM3_CH3_Event #100111 5 UART1_Transmit_Complete #101 40 ADC0_COCO #101000 41 ADC1_COCO #101001 42 CMP0_Output #101010 43 CMP1_Output #101011 22 I2C0_Transmission_Complete #10110 45 DAC0_Buffer_Limit #101101 47 PDB1_Programmable_Interrupt #101111 3 UART0_Transmit_Complete #11 24 FTM0_CH0_Event #11000 48 PDB0_Programmable_Interrupt #110000 49 PORTA_Rising_Falling_Edge #110001 25 FTM0_CH1_Event #11001 50 PORTB_Rising_Falling_Edge #110010 51 PORTC_Rising_Falling_Edge #110011 26 FTM0_CH2_Event #11010 52 PORTD_Rising_Falling_Edge #110100 53 PORTE_Rising_Falling_Edge #110101 27 FTM0_CH3_Event #11011 54 FTM3_CH4_Event #110110 55 FTM3_CH5_Event #110111 28 FTM0_CH4_Event #11100 56 FTM5_CH0_Event #111000 57 FTM5_CH1_Event #111001 29 FTM0_CH5_Event #11101 58 DMAMUX_Always_Enabled58 #111010 59 DMAMUX_Always_Enabled59 #111011 30 FTM4_CH0_Event #11110 60 DMAMUX_Always_Enabled60 #111100 61 DMAMUX_Always_Enabled61 #111101 31 FTM4_CH1_Event #11111 62 DMAMUX_Always_Enabled62 #111110 63 DMAMUX_Always_Enabled63 #111111 EWM External Watchdog Monitor EWM 0x0 0x0 0x6 registers n WDOG_EWM 23 CLKCTRL Clock Control Register 0x4 8 read-write n 0x0 0x0 CLKSEL EWM has 4 possible low power clock sources for running EWM counter 0 2 read-write CLKPRESCALER Clock Prescaler Register 0x5 8 read-write n 0x0 0x0 CLK_DIV Selected low power clock source for running the EWM counter can be prescaled as below 0 8 read-write CMPH Compare High Register 0x3 8 read-write n 0x0 0x0 COMPAREH To prevent runaway code from changing this field, software should write to this field after a CPU reset even if the (default) maximum service time is required 0 8 read-write CMPL Compare Low Register 0x2 8 read-write n 0x0 0x0 COMPAREL To prevent runaway code from changing this field, software should write to this field after a CPU reset even if the (default) minimum service time is required 0 8 read-write CTRL Control Register 0x0 8 read-write n 0x0 0x0 ASSIN EWM_in's Assertion State Select. 1 1 read-write EWMEN EWM enable. 0 1 read-write INEN Input Enable. 2 1 read-write INTEN Interrupt Enable. 3 1 read-write SERV Service Register 0x1 8 write-only n 0x0 0x0 SERVICE The EWM service mechanism requires the CPU to write two values to the SERV register: a first data byte of 0xB4, followed by a second data byte of 0x2C 0 8 write-only FGPIOA General Purpose Input/Output FGPIO 0x0 0x0 0x18 registers n PCOR Port Clear Output Register 0x8 32 write-only n 0x0 0x0 PTCO Port Clear Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PDDR Port Data Direction Register 0x14 32 read-write n 0x0 0x0 PDD Port Data Direction 0 32 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDIR Port Data Input Register 0x10 32 read-only n 0x0 0x0 PDI Port Data Input 0 32 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDOR Port Data Output Register 0x0 32 read-write n 0x0 0x0 PDO Port Data Output 0 32 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PSOR Port Set Output Register 0x4 32 write-only n 0x0 0x0 PTSO Port Set Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTOR Port Toggle Output Register 0xC 32 write-only n 0x0 0x0 PTTO Port Toggle Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 FGPIOB General Purpose Input/Output FGPIO 0x0 0x0 0x18 registers n PCOR Port Clear Output Register 0x8 32 write-only n 0x0 0x0 PTCO Port Clear Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PDDR Port Data Direction Register 0x14 32 read-write n 0x0 0x0 PDD Port Data Direction 0 32 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDIR Port Data Input Register 0x10 32 read-only n 0x0 0x0 PDI Port Data Input 0 32 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDOR Port Data Output Register 0x0 32 read-write n 0x0 0x0 PDO Port Data Output 0 32 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PSOR Port Set Output Register 0x4 32 write-only n 0x0 0x0 PTSO Port Set Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTOR Port Toggle Output Register 0xC 32 write-only n 0x0 0x0 PTTO Port Toggle Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 FGPIOC General Purpose Input/Output FGPIO 0x0 0x0 0x18 registers n PCOR Port Clear Output Register 0x8 32 write-only n 0x0 0x0 PTCO Port Clear Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PDDR Port Data Direction Register 0x14 32 read-write n 0x0 0x0 PDD Port Data Direction 0 32 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDIR Port Data Input Register 0x10 32 read-only n 0x0 0x0 PDI Port Data Input 0 32 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDOR Port Data Output Register 0x0 32 read-write n 0x0 0x0 PDO Port Data Output 0 32 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PSOR Port Set Output Register 0x4 32 write-only n 0x0 0x0 PTSO Port Set Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTOR Port Toggle Output Register 0xC 32 write-only n 0x0 0x0 PTTO Port Toggle Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 FGPIOD General Purpose Input/Output FGPIO 0x0 0x0 0x18 registers n PCOR Port Clear Output Register 0x8 32 write-only n 0x0 0x0 PTCO Port Clear Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PDDR Port Data Direction Register 0x14 32 read-write n 0x0 0x0 PDD Port Data Direction 0 32 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDIR Port Data Input Register 0x10 32 read-only n 0x0 0x0 PDI Port Data Input 0 32 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDOR Port Data Output Register 0x0 32 read-write n 0x0 0x0 PDO Port Data Output 0 32 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PSOR Port Set Output Register 0x4 32 write-only n 0x0 0x0 PTSO Port Set Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTOR Port Toggle Output Register 0xC 32 write-only n 0x0 0x0 PTTO Port Toggle Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 FGPIOE General Purpose Input/Output FGPIO 0x0 0x0 0x18 registers n PCOR Port Clear Output Register 0x8 32 write-only n 0x0 0x0 PTCO Port Clear Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PDDR Port Data Direction Register 0x14 32 read-write n 0x0 0x0 PDD Port Data Direction 0 32 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDIR Port Data Input Register 0x10 32 read-only n 0x0 0x0 PDI Port Data Input 0 32 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDOR Port Data Output Register 0x0 32 read-write n 0x0 0x0 PDO Port Data Output 0 32 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PSOR Port Set Output Register 0x4 32 write-only n 0x0 0x0 PTSO Port Set Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTOR Port Toggle Output Register 0xC 32 write-only n 0x0 0x0 PTTO Port Toggle Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 FTFA Flash Memory Interface FTFA 0x0 0x0 0x2C registers n FTFA 5 FACSN Flash Access Segment Number Register 0x2B 8 read-only n 0x0 0x0 NUMSG Number of Segments Indicator 0 8 read-only 100000 Program flash memory is divided into 32 segments (64 Kbytes, 128 Kbytes) #100000 1000000 Program flash memory is divided into 64 segments (256 Kbytes, 512 Kbytes) #1000000 101000 Program flash memory is divided into 40 segments (160 Kbytes) #101000 FACSS Flash Access Segment Size Register 0x28 8 read-only n 0x0 0x0 SGSIZE Segment Size 0 8 read-only FCCOB0 Flash Common Command Object Registers 0x1A 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCCOB1 Flash Common Command Object Registers 0x13 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCCOB2 Flash Common Command Object Registers 0xD 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCCOB3 Flash Common Command Object Registers 0x8 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCCOB4 Flash Common Command Object Registers 0x40 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCCOB5 Flash Common Command Object Registers 0x35 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCCOB6 Flash Common Command Object Registers 0x2B 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCCOB7 Flash Common Command Object Registers 0x22 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCCOB8 Flash Common Command Object Registers 0x76 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCCOB9 Flash Common Command Object Registers 0x67 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCCOBA Flash Common Command Object Registers 0x59 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCCOBB Flash Common Command Object Registers 0x4C 8 read-write n 0x0 0x0 CCOBn The FCCOB register provides a command code and relevant parameters to the memory controller 0 8 read-write FCNFG Flash Configuration Register 0x1 8 read-write n 0x0 0x0 CCIE Command Complete Interrupt Enable 7 1 read-write 0 Command complete interrupt disabled #0 1 Command complete interrupt enabled. An interrupt request is generated whenever the FSTAT[CCIF] flag is set. #1 ERSAREQ Erase All Request 5 1 read-only 0 No request or request complete #0 1 Request to: run the Erase All Blocks command, verify the erased state, program the security byte in the Flash Configuration Field to the unsecure state, and release MCU security by setting the FSEC[SEC] field to the unsecure state. #1 ERSSUSP Erase Suspend 4 1 read-write 0 No suspend requested #0 1 Suspend the current Erase Flash Sector command execution. #1 RDCOLLIE Read Collision Error Interrupt Enable 6 1 read-write 0 Read collision error interrupt disabled #0 1 Read collision error interrupt enabled. An interrupt request is generated whenever a flash memory read collision error is detected (see the description of FSTAT[RDCOLERR]). #1 FOPT Flash Option Register 0x3 8 read-only n 0x0 0x0 OPT Nonvolatile Option 0 8 read-only FPROT0 Program Flash Protection Registers 0x56 8 read-write n 0x0 0x0 PROT Program Flash Region Protect 0 8 read-write 0 Program flash region is protected. #0 1 Program flash region is not protected #1 FPROT1 Program Flash Protection Registers 0x43 8 read-write n 0x0 0x0 PROT Program Flash Region Protect 0 8 read-write 0 Program flash region is protected. #0 1 Program flash region is not protected #1 FPROT2 Program Flash Protection Registers 0x31 8 read-write n 0x0 0x0 PROT Program Flash Region Protect 0 8 read-write 0 Program flash region is protected. #0 1 Program flash region is not protected #1 FPROT3 Program Flash Protection Registers 0x20 8 read-write n 0x0 0x0 PROT Program Flash Region Protect 0 8 read-write 0 Program flash region is protected. #0 1 Program flash region is not protected #1 FSEC Flash Security Register 0x2 8 read-only n 0x0 0x0 FSLACC Freescale Failure Analysis Access Code 2 2 read-only 00 Freescale factory access granted #00 01 Freescale factory access denied #01 10 Freescale factory access denied #10 11 Freescale factory access granted #11 KEYEN Backdoor Key Security Enable 6 2 read-only 00 Backdoor key access disabled #00 01 Backdoor key access disabled (preferred KEYEN state to disable backdoor key access) #01 10 Backdoor key access enabled #10 11 Backdoor key access disabled #11 MEEN Mass Erase Enable 4 2 read-only 00 Mass erase is enabled #00 01 Mass erase is enabled #01 10 Mass erase is disabled #10 11 Mass erase is enabled #11 SEC Flash Security 0 2 read-only 00 MCU security status is secure. #00 01 MCU security status is secure. #01 10 MCU security status is unsecure. (The standard shipping condition of the flash memory module is unsecure.) #10 11 MCU security status is secure. #11 FSTAT Flash Status Register 0x0 8 read-write n 0x0 0x0 ACCERR Flash Access Error Flag 5 1 read-write 0 No access error detected #0 1 Access error detected #1 CCIF Command Complete Interrupt Flag 7 1 read-write 0 Flash command in progress #0 1 Flash command has completed #1 FPVIOL Flash Protection Violation Flag 4 1 read-write 0 No protection violation detected #0 1 Protection violation detected #1 MGSTAT0 Memory Controller Command Completion Status Flag 0 1 read-only RDCOLERR Flash Read Collision Error Flag 6 1 read-write 0 No collision error detected #0 1 Collision error detected #1 SACCH0 Supervisor-only Access Registers 0xA6 8 read-only n 0x0 0x0 SA Supervisor-only access control 0 8 read-only 0 Associated segment is accessible in supervisor mode only #0 1 Associated segment is accessible in user or supervisor mode #1 SACCH1 Supervisor-only Access Registers 0x83 8 read-only n 0x0 0x0 SA Supervisor-only access control 0 8 read-only 0 Associated segment is accessible in supervisor mode only #0 1 Associated segment is accessible in user or supervisor mode #1 SACCH2 Supervisor-only Access Registers 0x61 8 read-only n 0x0 0x0 SA Supervisor-only access control 0 8 read-only 0 Associated segment is accessible in supervisor mode only #0 1 Associated segment is accessible in user or supervisor mode #1 SACCH3 Supervisor-only Access Registers 0x40 8 read-only n 0x0 0x0 SA Supervisor-only access control 0 8 read-only 0 Associated segment is accessible in supervisor mode only #0 1 Associated segment is accessible in user or supervisor mode #1 SACCL0 Supervisor-only Access Registers 0x13C 8 read-only n 0x0 0x0 SA Supervisor-only access control 0 8 read-only 0 Associated segment is accessible in supervisor mode only #0 1 Associated segment is accessible in user or supervisor mode #1 SACCL1 Supervisor-only Access Registers 0x115 8 read-only n 0x0 0x0 SA Supervisor-only access control 0 8 read-only 0 Associated segment is accessible in supervisor mode only #0 1 Associated segment is accessible in user or supervisor mode #1 SACCL2 Supervisor-only Access Registers 0xEF 8 read-only n 0x0 0x0 SA Supervisor-only access control 0 8 read-only 0 Associated segment is accessible in supervisor mode only #0 1 Associated segment is accessible in user or supervisor mode #1 SACCL3 Supervisor-only Access Registers 0xCA 8 read-only n 0x0 0x0 SA Supervisor-only access control 0 8 read-only 0 Associated segment is accessible in supervisor mode only #0 1 Associated segment is accessible in user or supervisor mode #1 XACCH0 Execute-only Access Registers 0x7E 8 read-only n 0x0 0x0 XA Execute-only access control 0 8 read-only 0 Associated segment is accessible in execute mode only (as an instruction fetch) #0 1 Associated segment is accessible as data or in execute mode #1 XACCH1 Execute-only Access Registers 0x63 8 read-only n 0x0 0x0 XA Execute-only access control 0 8 read-only 0 Associated segment is accessible in execute mode only (as an instruction fetch) #0 1 Associated segment is accessible as data or in execute mode #1 XACCH2 Execute-only Access Registers 0x49 8 read-only n 0x0 0x0 XA Execute-only access control 0 8 read-only 0 Associated segment is accessible in execute mode only (as an instruction fetch) #0 1 Associated segment is accessible as data or in execute mode #1 XACCH3 Execute-only Access Registers 0x30 8 read-only n 0x0 0x0 XA Execute-only access control 0 8 read-only 0 Associated segment is accessible in execute mode only (as an instruction fetch) #0 1 Associated segment is accessible as data or in execute mode #1 XACCL0 Execute-only Access Registers 0xF4 8 read-only n 0x0 0x0 XA Execute-only access control 0 8 read-only 0 Associated segment is accessible in execute mode only (as an instruction fetch) #0 1 Associated segment is accessible as data or in execute mode #1 XACCL1 Execute-only Access Registers 0xD5 8 read-only n 0x0 0x0 XA Execute-only access control 0 8 read-only 0 Associated segment is accessible in execute mode only (as an instruction fetch) #0 1 Associated segment is accessible as data or in execute mode #1 XACCL2 Execute-only Access Registers 0xB7 8 read-only n 0x0 0x0 XA Execute-only access control 0 8 read-only 0 Associated segment is accessible in execute mode only (as an instruction fetch) #0 1 Associated segment is accessible as data or in execute mode #1 XACCL3 Execute-only Access Registers 0x9A 8 read-only n 0x0 0x0 XA Execute-only access control 0 8 read-only 0 Associated segment is accessible in execute mode only (as an instruction fetch) #0 1 Associated segment is accessible as data or in execute mode #1 FTFA_FlashConfig Flash configuration field FTFA_FlashConfig 0x0 0x0 0xE registers n BACKKEY0 Backdoor Comparison Key 0. 0x3 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only BACKKEY1 Backdoor Comparison Key 1. 0x2 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only BACKKEY2 Backdoor Comparison Key 2. 0x1 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only BACKKEY3 Backdoor Comparison Key 3. 0x0 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only BACKKEY4 Backdoor Comparison Key 4. 0x7 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only BACKKEY5 Backdoor Comparison Key 5. 0x6 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only BACKKEY6 Backdoor Comparison Key 6. 0x5 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only BACKKEY7 Backdoor Comparison Key 7. 0x4 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only FOPT Non-volatile Flash Option Register 0xD 8 read-only n 0x0 0x0 FAST_INIT no description available 5 1 read-only 00 Slower initialization #0 01 Fast Initialization #1 LPBOOT0 no description available 0 1 read-only 00 Core and system clock divider (OUTDIV1) is 0x7 (divide by 8) when LPBOOT1=0 or 0x1 (divide by 2) when LPBOOT1=1. #0 01 Core and system clock divider (OUTDIV1) is 0x3 (divide by 4) when LPBOOT1=0 or 0x0 (divide by 1) when LPBOOT1=1. #1 LPBOOT1 no description available 4 1 read-only 00 Core and system clock divider (OUTDIV1) is 0x7 (divide by 8) when LPBOOT0=0 or 0x3 (divide by 4) when LPBOOT0=1. #0 01 Core and system clock divider (OUTDIV1) is 0x1 (divide by 2) when LPBOOT0=0 or 0x0 (divide by 1) when LPBOOT0=1. #1 NMI_DIS no description available 2 1 read-only 00 NMI interrupts are always blocked #0 01 NMI_b pin/interrupts reset default to enabled #1 RESET_PIN_CFG no description available 3 1 read-only 00 RESET pin is disabled following a POR and cannot be enabled as reset function #0 01 RESET_b pin is dedicated #1 FPROT0 Non-volatile P-Flash Protection 0 - High Register 0xB 8 read-only n 0x0 0x0 PROT P-Flash Region Protect 0 8 read-only FPROT1 Non-volatile P-Flash Protection 0 - Low Register 0xA 8 read-only n 0x0 0x0 PROT P-Flash Region Protect 0 8 read-only FPROT2 Non-volatile P-Flash Protection 1 - High Register 0x9 8 read-only n 0x0 0x0 PROT P-Flash Region Protect 0 8 read-only FPROT3 Non-volatile P-Flash Protection 1 - Low Register 0x8 8 read-only n 0x0 0x0 PROT P-Flash Region Protect 0 8 read-only FSEC Non-volatile Flash Security Register 0xC 8 read-only n 0x0 0x0 FSLACC Freescale Failure Analysis Access Code 2 2 read-only 10 Freescale factory access denied #10 11 Freescale factory access granted #11 KEYEN Backdoor Key Security Enable 6 2 read-only 10 Backdoor key access enabled #10 11 Backdoor key access disabled #11 MEEN no description available 4 2 read-only 10 Mass erase is disabled #10 11 Mass erase is enabled #11 SEC Flash Security 0 2 read-only 10 MCU security status is unsecure #10 11 MCU security status is secure #11 NV_BACKKEY0 Backdoor Comparison Key 0. 0x3 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only NV_BACKKEY1 Backdoor Comparison Key 1. 0x2 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only NV_BACKKEY2 Backdoor Comparison Key 2. 0x1 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only NV_BACKKEY3 Backdoor Comparison Key 3. 0x0 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only NV_BACKKEY4 Backdoor Comparison Key 4. 0x7 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only NV_BACKKEY5 Backdoor Comparison Key 5. 0x6 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only NV_BACKKEY6 Backdoor Comparison Key 6. 0x5 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only NV_BACKKEY7 Backdoor Comparison Key 7. 0x4 8 read-only n 0x0 0x0 KEY Backdoor Comparison Key. 0 8 read-only NV_FOPT Non-volatile Flash Option Register 0xD 8 read-only n 0x0 0x0 FAST_INIT no description available 5 1 read-only 00 Slower initialization #0 01 Fast Initialization #1 LPBOOT0 no description available 0 1 read-only 00 Core and system clock divider (OUTDIV1) is 0x7 (divide by 8) when LPBOOT1=0 or 0x1 (divide by 2) when LPBOOT1=1. #0 01 Core and system clock divider (OUTDIV1) is 0x3 (divide by 4) when LPBOOT1=0 or 0x0 (divide by 1) when LPBOOT1=1. #1 LPBOOT1 no description available 4 1 read-only 00 Core and system clock divider (OUTDIV1) is 0x7 (divide by 8) when LPBOOT0=0 or 0x3 (divide by 4) when LPBOOT0=1. #0 01 Core and system clock divider (OUTDIV1) is 0x1 (divide by 2) when LPBOOT0=0 or 0x0 (divide by 1) when LPBOOT0=1. #1 NMI_DIS no description available 2 1 read-only 00 NMI interrupts are always blocked #0 01 NMI_b pin/interrupts reset default to enabled #1 RESET_PIN_CFG no description available 3 1 read-only 00 RESET pin is disabled following a POR and cannot be enabled as reset function #0 01 RESET_b pin is dedicated #1 NV_FPROT0 Non-volatile P-Flash Protection 0 - High Register 0xB 8 read-only n 0x0 0x0 PROT P-Flash Region Protect 0 8 read-only NV_FPROT1 Non-volatile P-Flash Protection 0 - Low Register 0xA 8 read-only n 0x0 0x0 PROT P-Flash Region Protect 0 8 read-only NV_FPROT2 Non-volatile P-Flash Protection 1 - High Register 0x9 8 read-only n 0x0 0x0 PROT P-Flash Region Protect 0 8 read-only NV_FPROT3 Non-volatile P-Flash Protection 1 - Low Register 0x8 8 read-only n 0x0 0x0 PROT P-Flash Region Protect 0 8 read-only NV_FSEC Non-volatile Flash Security Register 0xC 8 read-only n 0x0 0x0 FSLACC Freescale Failure Analysis Access Code 2 2 read-only 10 Freescale factory access denied #10 11 Freescale factory access granted #11 KEYEN Backdoor Key Security Enable 6 2 read-only 10 Backdoor key access enabled #10 11 Backdoor key access disabled #11 MEEN no description available 4 2 read-only 10 Mass erase is disabled #10 11 Mass erase is enabled #11 SEC Flash Security 0 2 read-only 10 MCU security status is unsecure #10 11 MCU security status is secure #11 FTM0 FlexTimer Module FTM 0x0 0x0 0x9C registers n FTM0 17 C0SC Channel (n) Status And Control 0x18 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C0V Channel (n) Value 0x20 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C1SC Channel (n) Status And Control 0x2C 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C1V Channel (n) Value 0x38 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C2SC Channel (n) Status And Control 0x48 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C2V Channel (n) Value 0x58 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C3SC Channel (n) Status And Control 0x6C 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C3V Channel (n) Value 0x80 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C4SC Channel (n) Status And Control 0x98 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C4V Channel (n) Value 0xB0 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C5SC Channel (n) Status And Control 0xCC 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C5V Channel (n) Value 0xE8 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write CNT Counter 0x4 32 read-write n 0x0 0x0 COUNT Counter Value 0 16 read-write CNTIN Counter Initial Value 0x4C 32 read-write n 0x0 0x0 INIT Initial Value Of The FTM Counter 0 16 read-write COMBINE Function For Linked Channels 0x64 32 read-write n 0x0 0x0 COMBINE0 Combine Channels For n = 0 0 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE1 Combine Channels For n = 2 8 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE2 Combine Channels For n = 4 16 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE3 Combine Channels For n = 6 24 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMP0 Complement Of Channel (n) For n = 0 1 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP1 Complement Of Channel (n) For n = 2 9 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP2 Complement Of Channel (n) For n = 4 17 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP3 Complement Of Channel (n) for n = 6 25 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 DECAP0 Dual Edge Capture Mode Captures For n = 0 3 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP1 Dual Edge Capture Mode Captures For n = 2 11 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP2 Dual Edge Capture Mode Captures For n = 4 19 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP3 Dual Edge Capture Mode Captures For n = 6 27 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAPEN0 Dual Edge Capture Mode Enable For n = 0 2 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN1 Dual Edge Capture Mode Enable For n = 2 10 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN2 Dual Edge Capture Mode Enable For n = 4 18 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN3 Dual Edge Capture Mode Enable For n = 6 26 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DTEN0 Deadtime Enable For n = 0 4 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN1 Deadtime Enable For n = 2 12 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN2 Deadtime Enable For n = 4 20 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN3 Deadtime Enable For n = 6 28 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 FAULTEN0 Fault Control Enable For n = 0 6 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN1 Fault Control Enable For n = 2 14 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN2 Fault Control Enable For n = 4 22 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN3 Fault Control Enable For n = 6 30 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 SYNCEN0 Synchronization Enable For n = 0 5 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN1 Synchronization Enable For n = 2 13 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN2 Synchronization Enable For n = 4 21 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN3 Synchronization Enable For n = 6 29 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 CONF Configuration 0x84 32 read-write n 0x0 0x0 BDMMODE BDM Mode 6 2 read-write GTBEEN Global Time Base Enable 9 1 read-write 0 Use of an external global time base is disabled. #0 1 Use of an external global time base is enabled. #1 GTBEOUT Global Time Base Output 10 1 read-write 0 A global time base signal generation is disabled. #0 1 A global time base signal generation is enabled. #1 NUMTOF TOF Frequency 0 5 read-write DEADTIME Deadtime Insertion Control 0x68 32 read-write n 0x0 0x0 DTPS Deadtime Prescaler Value 6 2 read-write 0x Divide the system clock by 1. #0x 10 Divide the system clock by 4. #10 11 Divide the system clock by 16. #11 DTVAL Deadtime Value 0 6 read-write EXTTRIG FTM External Trigger 0x6C 32 read-write n 0x0 0x0 CH0TRIG Channel 0 Trigger Enable 4 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH1TRIG Channel 1 Trigger Enable 5 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH2TRIG Channel 2 Trigger Enable 0 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH3TRIG Channel 3 Trigger Enable 1 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH4TRIG Channel 4 Trigger Enable 2 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH5TRIG Channel 5 Trigger Enable 3 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 INITTRIGEN Initialization Trigger Enable 6 1 read-write 0 The generation of initialization trigger is disabled. #0 1 The generation of initialization trigger is enabled. #1 TRIGF Channel Trigger Flag 7 1 read-write 0 No channel trigger was generated. #0 1 A channel trigger was generated. #1 FILTER Input Capture Filter Control 0x78 32 read-write n 0x0 0x0 CH0FVAL Channel 0 Input Filter 0 4 read-write CH1FVAL Channel 1 Input Filter 4 4 read-write CH2FVAL Channel 2 Input Filter 8 4 read-write CH3FVAL Channel 3 Input Filter 12 4 read-write FLTCTRL Fault Control 0x7C 32 read-write n 0x0 0x0 FAULT0EN Fault Input 0 Enable 0 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT1EN Fault Input 1 Enable 1 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT2EN Fault Input 2 Enable 2 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT3EN Fault Input 3 Enable 3 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FFLTR0EN Fault Input 0 Filter Enable 4 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR1EN Fault Input 1 Filter Enable 5 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR2EN Fault Input 2 Filter Enable 6 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR3EN Fault Input 3 Filter Enable 7 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFVAL Fault Input Filter 8 4 read-write FLTPOL FTM Fault Input Polarity 0x88 32 read-write n 0x0 0x0 FLT0POL Fault Input 0 Polarity 0 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT1POL Fault Input 1 Polarity 1 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT2POL Fault Input 2 Polarity 2 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT3POL Fault Input 3 Polarity 3 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FMS Fault Mode Status 0x74 32 read-write n 0x0 0x0 FAULTF Fault Detection Flag 7 1 read-write 0 No fault condition was detected. #0 1 A fault condition was detected. #1 FAULTF0 Fault Detection Flag 0 0 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF1 Fault Detection Flag 1 1 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF2 Fault Detection Flag 2 2 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF3 Fault Detection Flag 3 3 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTIN Fault Inputs 5 1 read-only 0 The logic OR of the enabled fault inputs is 0. #0 1 The logic OR of the enabled fault inputs is 1. #1 WPEN Write Protection Enable 6 1 read-write 0 Write protection is disabled. Write protected bits can be written. #0 1 Write protection is enabled. Write protected bits cannot be written. #1 INVCTRL FTM Inverting Control 0x90 32 read-write n 0x0 0x0 INV0EN Pair Channels 0 Inverting Enable 0 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV1EN Pair Channels 1 Inverting Enable 1 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV2EN Pair Channels 2 Inverting Enable 2 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV3EN Pair Channels 3 Inverting Enable 3 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 MOD Modulo 0x8 32 read-write n 0x0 0x0 MOD Modulo Value 0 16 read-write MODE Features Mode Selection 0x54 32 read-write n 0x0 0x0 CAPTEST Capture Test Mode Enable 4 1 read-write 0 Capture test mode is disabled. #0 1 Capture test mode is enabled. #1 FAULTIE Fault Interrupt Enable 7 1 read-write 0 Fault control interrupt is disabled. #0 1 Fault control interrupt is enabled. #1 FAULTM Fault Control Mode 5 2 read-write 00 Fault control is disabled for all channels. #00 01 Fault control is enabled for even channels only (channels 0, 2, 4, and 6), and the selected mode is the manual fault clearing. #01 10 Fault control is enabled for all channels, and the selected mode is the manual fault clearing. #10 11 Fault control is enabled for all channels, and the selected mode is the automatic fault clearing. #11 FTMEN FTM Enable 0 1 read-write 0 TPM compatibility. Free running counter and synchronization compatible with TPM. #0 1 Free running counter and synchronization are different from TPM behavior. #1 INIT Initialize The Channels Output 1 1 read-write PWMSYNC PWM Synchronization Mode 3 1 read-write 0 No restrictions. Software and hardware triggers can be used by MOD, CnV, OUTMASK, and FTM counter synchronization. #0 1 Software trigger can only be used by MOD and CnV synchronization, and hardware triggers can only be used by OUTMASK and FTM counter synchronization. #1 WPDIS Write Protection Disable 2 1 read-write 0 Write protection is enabled. #0 1 Write protection is disabled. #1 OUTINIT Initial State For Channels Output 0x5C 32 read-write n 0x0 0x0 CH0OI Channel 0 Output Initialization Value 0 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH1OI Channel 1 Output Initialization Value 1 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH2OI Channel 2 Output Initialization Value 2 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH3OI Channel 3 Output Initialization Value 3 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH4OI Channel 4 Output Initialization Value 4 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH5OI Channel 5 Output Initialization Value 5 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH6OI Channel 6 Output Initialization Value 6 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH7OI Channel 7 Output Initialization Value 7 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 OUTMASK Output Mask 0x60 32 read-write n 0x0 0x0 CH0OM Channel 0 Output Mask 0 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH1OM Channel 1 Output Mask 1 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH2OM Channel 2 Output Mask 2 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH3OM Channel 3 Output Mask 3 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH4OM Channel 4 Output Mask 4 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH5OM Channel 5 Output Mask 5 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH6OM Channel 6 Output Mask 6 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH7OM Channel 7 Output Mask 7 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 POL Channels Polarity 0x70 32 read-write n 0x0 0x0 POL0 Channel 0 Polarity 0 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL1 Channel 1 Polarity 1 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL2 Channel 2 Polarity 2 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL3 Channel 3 Polarity 3 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL4 Channel 4 Polarity 4 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL5 Channel 5 Polarity 5 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL6 Channel 6 Polarity 6 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL7 Channel 7 Polarity 7 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 PWMLOAD FTM PWM Load 0x98 32 read-write n 0x0 0x0 CH0SEL Channel 0 Select 0 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH1SEL Channel 1 Select 1 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH2SEL Channel 2 Select 2 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH3SEL Channel 3 Select 3 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH4SEL Channel 4 Select 4 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH5SEL Channel 5 Select 5 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH6SEL Channel 6 Select 6 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH7SEL Channel 7 Select 7 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 LDOK Load Enable 9 1 read-write 0 Loading updated values is disabled. #0 1 Loading updated values is enabled. #1 QDCTRL Quadrature Decoder Control And Status 0x80 32 read-write n 0x0 0x0 PHAFLTREN Phase A Input Filter Enable 7 1 read-write 0 Phase A input filter is disabled. #0 1 Phase A input filter is enabled. #1 PHAPOL Phase A Input Polarity 5 1 read-write 0 Normal polarity. Phase A input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase A input signal is inverted before identifying the rising and falling edges of this signal. #1 PHBFLTREN Phase B Input Filter Enable 6 1 read-write 0 Phase B input filter is disabled. #0 1 Phase B input filter is enabled. #1 PHBPOL Phase B Input Polarity 4 1 read-write 0 Normal polarity. Phase B input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase B input signal is inverted before identifying the rising and falling edges of this signal. #1 QUADEN Quadrature Decoder Mode Enable 0 1 read-write 0 Quadrature Decoder mode is disabled. #0 1 Quadrature Decoder mode is enabled. #1 QUADIR FTM Counter Direction In Quadrature Decoder Mode 2 1 read-only 0 Counting direction is decreasing (FTM counter decrement). #0 1 Counting direction is increasing (FTM counter increment). #1 QUADMODE Quadrature Decoder Mode 3 1 read-write 0 Phase A and phase B encoding mode. #0 1 Count and direction encoding mode. #1 TOFDIR Timer Overflow Direction In Quadrature Decoder Mode 1 1 read-only 0 TOF bit was set on the bottom of counting. There was an FTM counter decrement and FTM counter changes from its minimum value (CNTIN register) to its maximum value (MOD register). #0 1 TOF bit was set on the top of counting. There was an FTM counter increment and FTM counter changes from its maximum value (MOD register) to its minimum value (CNTIN register). #1 SC Status And Control 0x0 32 read-write n 0x0 0x0 CLKS Clock Source Selection 3 2 read-write 00 No clock selected. This in effect disables the FTM counter. #00 01 System clock #01 10 Fixed frequency clock #10 11 External clock #11 CPWMS Center-Aligned PWM Select 5 1 read-write 0 FTM counter operates in Up Counting mode. #0 1 FTM counter operates in Up-Down Counting mode. #1 PS Prescale Factor Selection 0 3 read-write 000 Divide by 1 #000 001 Divide by 2 #001 010 Divide by 4 #010 011 Divide by 8 #011 100 Divide by 16 #100 101 Divide by 32 #101 110 Divide by 64 #110 111 Divide by 128 #111 TOF Timer Overflow Flag 7 1 read-write 0 FTM counter has not overflowed. #0 1 FTM counter has overflowed. #1 TOIE Timer Overflow Interrupt Enable 6 1 read-write 0 Disable TOF interrupts. Use software polling. #0 1 Enable TOF interrupts. An interrupt is generated when TOF equals one. #1 STATUS Capture And Compare Status 0x50 32 read-write n 0x0 0x0 CH0F Channel 0 Flag 0 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH1F Channel 1 Flag 1 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH2F Channel 2 Flag 2 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH3F Channel 3 Flag 3 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH4F Channel 4 Flag 4 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH5F Channel 5 Flag 5 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH6F Channel 6 Flag 6 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH7F Channel 7 Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 SWOCTRL FTM Software Output Control 0x94 32 read-write n 0x0 0x0 CH0OC Channel 0 Software Output Control Enable 0 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH0OCV Channel 0 Software Output Control Value 8 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH1OC Channel 1 Software Output Control Enable 1 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH1OCV Channel 1 Software Output Control Value 9 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH2OC Channel 2 Software Output Control Enable 2 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH2OCV Channel 2 Software Output Control Value 10 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH3OC Channel 3 Software Output Control Enable 3 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH3OCV Channel 3 Software Output Control Value 11 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH4OC Channel 4 Software Output Control Enable 4 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH4OCV Channel 4 Software Output Control Value 12 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH5OC Channel 5 Software Output Control Enable 5 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH5OCV Channel 5 Software Output Control Value 13 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH6OC Channel 6 Software Output Control Enable 6 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH6OCV Channel 6 Software Output Control Value 14 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH7OC Channel 7 Software Output Control Enable 7 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH7OCV Channel 7 Software Output Control Value 15 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 SYNC Synchronization 0x58 32 read-write n 0x0 0x0 CNTMAX Maximum Loading Point Enable 1 1 read-write 0 The maximum loading point is disabled. #0 1 The maximum loading point is enabled. #1 CNTMIN Minimum Loading Point Enable 0 1 read-write 0 The minimum loading point is disabled. #0 1 The minimum loading point is enabled. #1 REINIT FTM Counter Reinitialization By Synchronization (FTM counter synchronization) 2 1 read-write 0 FTM counter continues to count normally. #0 1 FTM counter is updated with its initial value when the selected trigger is detected. #1 SWSYNC PWM Synchronization Software Trigger 7 1 read-write 0 Software trigger is not selected. #0 1 Software trigger is selected. #1 SYNCHOM Output Mask Synchronization 3 1 read-write 0 OUTMASK register is updated with the value of its buffer in all rising edges of the system clock. #0 1 OUTMASK register is updated with the value of its buffer only by the PWM synchronization. #1 TRIG0 PWM Synchronization Hardware Trigger 0 4 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG1 PWM Synchronization Hardware Trigger 1 5 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG2 PWM Synchronization Hardware Trigger 2 6 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 SYNCONF Synchronization Configuration 0x8C 32 read-write n 0x0 0x0 CNTINC CNTIN Register Synchronization 2 1 read-write 0 CNTIN register is updated with its buffer value at all rising edges of system clock. #0 1 CNTIN register is updated with its buffer value by the PWM synchronization. #1 HWINVC Inverting control synchronization is activated by a hardware trigger. 19 1 read-write 0 A hardware trigger does not activate the INVCTRL register synchronization. #0 1 A hardware trigger activates the INVCTRL register synchronization. #1 HWOM Output mask synchronization is activated by a hardware trigger. 18 1 read-write 0 A hardware trigger does not activate the OUTMASK register synchronization. #0 1 A hardware trigger activates the OUTMASK register synchronization. #1 HWRSTCNT FTM counter synchronization is activated by a hardware trigger. 16 1 read-write 0 A hardware trigger does not activate the FTM counter synchronization. #0 1 A hardware trigger activates the FTM counter synchronization. #1 HWSOC Software output control synchronization is activated by a hardware trigger. 20 1 read-write 0 A hardware trigger does not activate the SWOCTRL register synchronization. #0 1 A hardware trigger activates the SWOCTRL register synchronization. #1 HWTRIGMODE Hardware Trigger Mode 0 1 read-write 0 FTM clears the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #0 1 FTM does not clear the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #1 HWWRBUF MOD, CNTIN, and CV registers synchronization is activated by a hardware trigger. 17 1 read-write 0 A hardware trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 A hardware trigger activates MOD, CNTIN, and CV registers synchronization. #1 INVC INVCTRL Register Synchronization 4 1 read-write 0 INVCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 INVCTRL register is updated with its buffer value by the PWM synchronization. #1 SWINVC Inverting control synchronization is activated by the software trigger. 11 1 read-write 0 The software trigger does not activate the INVCTRL register synchronization. #0 1 The software trigger activates the INVCTRL register synchronization. #1 SWOC SWOCTRL Register Synchronization 5 1 read-write 0 SWOCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 SWOCTRL register is updated with its buffer value by the PWM synchronization. #1 SWOM Output mask synchronization is activated by the software trigger. 10 1 read-write 0 The software trigger does not activate the OUTMASK register synchronization. #0 1 The software trigger activates the OUTMASK register synchronization. #1 SWRSTCNT FTM counter synchronization is activated by the software trigger. 8 1 read-write 0 The software trigger does not activate the FTM counter synchronization. #0 1 The software trigger activates the FTM counter synchronization. #1 SWSOC Software output control synchronization is activated by the software trigger. 12 1 read-write 0 The software trigger does not activate the SWOCTRL register synchronization. #0 1 The software trigger activates the SWOCTRL register synchronization. #1 SWWRBUF MOD, CNTIN, and CV registers synchronization is activated by the software trigger. 9 1 read-write 0 The software trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 The software trigger activates MOD, CNTIN, and CV registers synchronization. #1 SYNCMODE Synchronization Mode 7 1 read-write 0 Legacy PWM synchronization is selected. #0 1 Enhanced PWM synchronization is selected. #1 FTM1 FlexTimer Module FTM 0x0 0x0 0x9C registers n FTM1 18 C0SC Channel (n) Status And Control 0x18 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C0V Channel (n) Value 0x20 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C1SC Channel (n) Status And Control 0x2C 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C1V Channel (n) Value 0x38 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write CNT Counter 0x4 32 read-write n 0x0 0x0 COUNT Counter Value 0 16 read-write CNTIN Counter Initial Value 0x4C 32 read-write n 0x0 0x0 INIT Initial Value Of The FTM Counter 0 16 read-write COMBINE Function For Linked Channels 0x64 32 read-write n 0x0 0x0 COMBINE0 Combine Channels For n = 0 0 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE1 Combine Channels For n = 2 8 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE2 Combine Channels For n = 4 16 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE3 Combine Channels For n = 6 24 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMP0 Complement Of Channel (n) For n = 0 1 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP1 Complement Of Channel (n) For n = 2 9 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP2 Complement Of Channel (n) For n = 4 17 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP3 Complement Of Channel (n) for n = 6 25 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 DECAP0 Dual Edge Capture Mode Captures For n = 0 3 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP1 Dual Edge Capture Mode Captures For n = 2 11 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP2 Dual Edge Capture Mode Captures For n = 4 19 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP3 Dual Edge Capture Mode Captures For n = 6 27 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAPEN0 Dual Edge Capture Mode Enable For n = 0 2 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN1 Dual Edge Capture Mode Enable For n = 2 10 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN2 Dual Edge Capture Mode Enable For n = 4 18 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN3 Dual Edge Capture Mode Enable For n = 6 26 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DTEN0 Deadtime Enable For n = 0 4 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN1 Deadtime Enable For n = 2 12 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN2 Deadtime Enable For n = 4 20 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN3 Deadtime Enable For n = 6 28 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 FAULTEN0 Fault Control Enable For n = 0 6 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN1 Fault Control Enable For n = 2 14 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN2 Fault Control Enable For n = 4 22 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN3 Fault Control Enable For n = 6 30 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 SYNCEN0 Synchronization Enable For n = 0 5 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN1 Synchronization Enable For n = 2 13 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN2 Synchronization Enable For n = 4 21 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN3 Synchronization Enable For n = 6 29 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 CONF Configuration 0x84 32 read-write n 0x0 0x0 BDMMODE BDM Mode 6 2 read-write GTBEEN Global Time Base Enable 9 1 read-write 0 Use of an external global time base is disabled. #0 1 Use of an external global time base is enabled. #1 GTBEOUT Global Time Base Output 10 1 read-write 0 A global time base signal generation is disabled. #0 1 A global time base signal generation is enabled. #1 NUMTOF TOF Frequency 0 5 read-write DEADTIME Deadtime Insertion Control 0x68 32 read-write n 0x0 0x0 DTPS Deadtime Prescaler Value 6 2 read-write 0x Divide the system clock by 1. #0x 10 Divide the system clock by 4. #10 11 Divide the system clock by 16. #11 DTVAL Deadtime Value 0 6 read-write EXTTRIG FTM External Trigger 0x6C 32 read-write n 0x0 0x0 CH0TRIG Channel 0 Trigger Enable 4 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH1TRIG Channel 1 Trigger Enable 5 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH2TRIG Channel 2 Trigger Enable 0 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH3TRIG Channel 3 Trigger Enable 1 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH4TRIG Channel 4 Trigger Enable 2 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH5TRIG Channel 5 Trigger Enable 3 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 INITTRIGEN Initialization Trigger Enable 6 1 read-write 0 The generation of initialization trigger is disabled. #0 1 The generation of initialization trigger is enabled. #1 TRIGF Channel Trigger Flag 7 1 read-write 0 No channel trigger was generated. #0 1 A channel trigger was generated. #1 FILTER Input Capture Filter Control 0x78 32 read-write n 0x0 0x0 CH0FVAL Channel 0 Input Filter 0 4 read-write CH1FVAL Channel 1 Input Filter 4 4 read-write CH2FVAL Channel 2 Input Filter 8 4 read-write CH3FVAL Channel 3 Input Filter 12 4 read-write FLTCTRL Fault Control 0x7C 32 read-write n 0x0 0x0 FAULT0EN Fault Input 0 Enable 0 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT1EN Fault Input 1 Enable 1 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT2EN Fault Input 2 Enable 2 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT3EN Fault Input 3 Enable 3 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FFLTR0EN Fault Input 0 Filter Enable 4 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR1EN Fault Input 1 Filter Enable 5 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR2EN Fault Input 2 Filter Enable 6 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR3EN Fault Input 3 Filter Enable 7 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFVAL Fault Input Filter 8 4 read-write FLTPOL FTM Fault Input Polarity 0x88 32 read-write n 0x0 0x0 FLT0POL Fault Input 0 Polarity 0 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT1POL Fault Input 1 Polarity 1 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT2POL Fault Input 2 Polarity 2 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT3POL Fault Input 3 Polarity 3 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FMS Fault Mode Status 0x74 32 read-write n 0x0 0x0 FAULTF Fault Detection Flag 7 1 read-write 0 No fault condition was detected. #0 1 A fault condition was detected. #1 FAULTF0 Fault Detection Flag 0 0 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF1 Fault Detection Flag 1 1 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF2 Fault Detection Flag 2 2 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF3 Fault Detection Flag 3 3 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTIN Fault Inputs 5 1 read-only 0 The logic OR of the enabled fault inputs is 0. #0 1 The logic OR of the enabled fault inputs is 1. #1 WPEN Write Protection Enable 6 1 read-write 0 Write protection is disabled. Write protected bits can be written. #0 1 Write protection is enabled. Write protected bits cannot be written. #1 INVCTRL FTM Inverting Control 0x90 32 read-write n 0x0 0x0 INV0EN Pair Channels 0 Inverting Enable 0 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV1EN Pair Channels 1 Inverting Enable 1 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV2EN Pair Channels 2 Inverting Enable 2 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV3EN Pair Channels 3 Inverting Enable 3 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 MOD Modulo 0x8 32 read-write n 0x0 0x0 MOD Modulo Value 0 16 read-write MODE Features Mode Selection 0x54 32 read-write n 0x0 0x0 CAPTEST Capture Test Mode Enable 4 1 read-write 0 Capture test mode is disabled. #0 1 Capture test mode is enabled. #1 FAULTIE Fault Interrupt Enable 7 1 read-write 0 Fault control interrupt is disabled. #0 1 Fault control interrupt is enabled. #1 FAULTM Fault Control Mode 5 2 read-write 00 Fault control is disabled for all channels. #00 01 Fault control is enabled for even channels only (channels 0, 2, 4, and 6), and the selected mode is the manual fault clearing. #01 10 Fault control is enabled for all channels, and the selected mode is the manual fault clearing. #10 11 Fault control is enabled for all channels, and the selected mode is the automatic fault clearing. #11 FTMEN FTM Enable 0 1 read-write 0 TPM compatibility. Free running counter and synchronization compatible with TPM. #0 1 Free running counter and synchronization are different from TPM behavior. #1 INIT Initialize The Channels Output 1 1 read-write PWMSYNC PWM Synchronization Mode 3 1 read-write 0 No restrictions. Software and hardware triggers can be used by MOD, CnV, OUTMASK, and FTM counter synchronization. #0 1 Software trigger can only be used by MOD and CnV synchronization, and hardware triggers can only be used by OUTMASK and FTM counter synchronization. #1 WPDIS Write Protection Disable 2 1 read-write 0 Write protection is enabled. #0 1 Write protection is disabled. #1 OUTINIT Initial State For Channels Output 0x5C 32 read-write n 0x0 0x0 CH0OI Channel 0 Output Initialization Value 0 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH1OI Channel 1 Output Initialization Value 1 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH2OI Channel 2 Output Initialization Value 2 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH3OI Channel 3 Output Initialization Value 3 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH4OI Channel 4 Output Initialization Value 4 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH5OI Channel 5 Output Initialization Value 5 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH6OI Channel 6 Output Initialization Value 6 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH7OI Channel 7 Output Initialization Value 7 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 OUTMASK Output Mask 0x60 32 read-write n 0x0 0x0 CH0OM Channel 0 Output Mask 0 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH1OM Channel 1 Output Mask 1 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH2OM Channel 2 Output Mask 2 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH3OM Channel 3 Output Mask 3 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH4OM Channel 4 Output Mask 4 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH5OM Channel 5 Output Mask 5 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH6OM Channel 6 Output Mask 6 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH7OM Channel 7 Output Mask 7 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 POL Channels Polarity 0x70 32 read-write n 0x0 0x0 POL0 Channel 0 Polarity 0 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL1 Channel 1 Polarity 1 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL2 Channel 2 Polarity 2 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL3 Channel 3 Polarity 3 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL4 Channel 4 Polarity 4 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL5 Channel 5 Polarity 5 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL6 Channel 6 Polarity 6 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL7 Channel 7 Polarity 7 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 PWMLOAD FTM PWM Load 0x98 32 read-write n 0x0 0x0 CH0SEL Channel 0 Select 0 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH1SEL Channel 1 Select 1 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH2SEL Channel 2 Select 2 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH3SEL Channel 3 Select 3 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH4SEL Channel 4 Select 4 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH5SEL Channel 5 Select 5 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH6SEL Channel 6 Select 6 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH7SEL Channel 7 Select 7 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 LDOK Load Enable 9 1 read-write 0 Loading updated values is disabled. #0 1 Loading updated values is enabled. #1 QDCTRL Quadrature Decoder Control And Status 0x80 32 read-write n 0x0 0x0 PHAFLTREN Phase A Input Filter Enable 7 1 read-write 0 Phase A input filter is disabled. #0 1 Phase A input filter is enabled. #1 PHAPOL Phase A Input Polarity 5 1 read-write 0 Normal polarity. Phase A input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase A input signal is inverted before identifying the rising and falling edges of this signal. #1 PHBFLTREN Phase B Input Filter Enable 6 1 read-write 0 Phase B input filter is disabled. #0 1 Phase B input filter is enabled. #1 PHBPOL Phase B Input Polarity 4 1 read-write 0 Normal polarity. Phase B input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase B input signal is inverted before identifying the rising and falling edges of this signal. #1 QUADEN Quadrature Decoder Mode Enable 0 1 read-write 0 Quadrature Decoder mode is disabled. #0 1 Quadrature Decoder mode is enabled. #1 QUADIR FTM Counter Direction In Quadrature Decoder Mode 2 1 read-only 0 Counting direction is decreasing (FTM counter decrement). #0 1 Counting direction is increasing (FTM counter increment). #1 QUADMODE Quadrature Decoder Mode 3 1 read-write 0 Phase A and phase B encoding mode. #0 1 Count and direction encoding mode. #1 TOFDIR Timer Overflow Direction In Quadrature Decoder Mode 1 1 read-only 0 TOF bit was set on the bottom of counting. There was an FTM counter decrement and FTM counter changes from its minimum value (CNTIN register) to its maximum value (MOD register). #0 1 TOF bit was set on the top of counting. There was an FTM counter increment and FTM counter changes from its maximum value (MOD register) to its minimum value (CNTIN register). #1 SC Status And Control 0x0 32 read-write n 0x0 0x0 CLKS Clock Source Selection 3 2 read-write 00 No clock selected. This in effect disables the FTM counter. #00 01 System clock #01 10 Fixed frequency clock #10 11 External clock #11 CPWMS Center-Aligned PWM Select 5 1 read-write 0 FTM counter operates in Up Counting mode. #0 1 FTM counter operates in Up-Down Counting mode. #1 PS Prescale Factor Selection 0 3 read-write 000 Divide by 1 #000 001 Divide by 2 #001 010 Divide by 4 #010 011 Divide by 8 #011 100 Divide by 16 #100 101 Divide by 32 #101 110 Divide by 64 #110 111 Divide by 128 #111 TOF Timer Overflow Flag 7 1 read-write 0 FTM counter has not overflowed. #0 1 FTM counter has overflowed. #1 TOIE Timer Overflow Interrupt Enable 6 1 read-write 0 Disable TOF interrupts. Use software polling. #0 1 Enable TOF interrupts. An interrupt is generated when TOF equals one. #1 STATUS Capture And Compare Status 0x50 32 read-write n 0x0 0x0 CH0F Channel 0 Flag 0 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH1F Channel 1 Flag 1 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH2F Channel 2 Flag 2 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH3F Channel 3 Flag 3 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH4F Channel 4 Flag 4 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH5F Channel 5 Flag 5 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH6F Channel 6 Flag 6 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH7F Channel 7 Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 SWOCTRL FTM Software Output Control 0x94 32 read-write n 0x0 0x0 CH0OC Channel 0 Software Output Control Enable 0 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH0OCV Channel 0 Software Output Control Value 8 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH1OC Channel 1 Software Output Control Enable 1 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH1OCV Channel 1 Software Output Control Value 9 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH2OC Channel 2 Software Output Control Enable 2 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH2OCV Channel 2 Software Output Control Value 10 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH3OC Channel 3 Software Output Control Enable 3 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH3OCV Channel 3 Software Output Control Value 11 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH4OC Channel 4 Software Output Control Enable 4 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH4OCV Channel 4 Software Output Control Value 12 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH5OC Channel 5 Software Output Control Enable 5 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH5OCV Channel 5 Software Output Control Value 13 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH6OC Channel 6 Software Output Control Enable 6 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH6OCV Channel 6 Software Output Control Value 14 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH7OC Channel 7 Software Output Control Enable 7 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH7OCV Channel 7 Software Output Control Value 15 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 SYNC Synchronization 0x58 32 read-write n 0x0 0x0 CNTMAX Maximum Loading Point Enable 1 1 read-write 0 The maximum loading point is disabled. #0 1 The maximum loading point is enabled. #1 CNTMIN Minimum Loading Point Enable 0 1 read-write 0 The minimum loading point is disabled. #0 1 The minimum loading point is enabled. #1 REINIT FTM Counter Reinitialization By Synchronization (FTM counter synchronization) 2 1 read-write 0 FTM counter continues to count normally. #0 1 FTM counter is updated with its initial value when the selected trigger is detected. #1 SWSYNC PWM Synchronization Software Trigger 7 1 read-write 0 Software trigger is not selected. #0 1 Software trigger is selected. #1 SYNCHOM Output Mask Synchronization 3 1 read-write 0 OUTMASK register is updated with the value of its buffer in all rising edges of the system clock. #0 1 OUTMASK register is updated with the value of its buffer only by the PWM synchronization. #1 TRIG0 PWM Synchronization Hardware Trigger 0 4 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG1 PWM Synchronization Hardware Trigger 1 5 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG2 PWM Synchronization Hardware Trigger 2 6 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 SYNCONF Synchronization Configuration 0x8C 32 read-write n 0x0 0x0 CNTINC CNTIN Register Synchronization 2 1 read-write 0 CNTIN register is updated with its buffer value at all rising edges of system clock. #0 1 CNTIN register is updated with its buffer value by the PWM synchronization. #1 HWINVC Inverting control synchronization is activated by a hardware trigger. 19 1 read-write 0 A hardware trigger does not activate the INVCTRL register synchronization. #0 1 A hardware trigger activates the INVCTRL register synchronization. #1 HWOM Output mask synchronization is activated by a hardware trigger. 18 1 read-write 0 A hardware trigger does not activate the OUTMASK register synchronization. #0 1 A hardware trigger activates the OUTMASK register synchronization. #1 HWRSTCNT FTM counter synchronization is activated by a hardware trigger. 16 1 read-write 0 A hardware trigger does not activate the FTM counter synchronization. #0 1 A hardware trigger activates the FTM counter synchronization. #1 HWSOC Software output control synchronization is activated by a hardware trigger. 20 1 read-write 0 A hardware trigger does not activate the SWOCTRL register synchronization. #0 1 A hardware trigger activates the SWOCTRL register synchronization. #1 HWTRIGMODE Hardware Trigger Mode 0 1 read-write 0 FTM clears the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #0 1 FTM does not clear the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #1 HWWRBUF MOD, CNTIN, and CV registers synchronization is activated by a hardware trigger. 17 1 read-write 0 A hardware trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 A hardware trigger activates MOD, CNTIN, and CV registers synchronization. #1 INVC INVCTRL Register Synchronization 4 1 read-write 0 INVCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 INVCTRL register is updated with its buffer value by the PWM synchronization. #1 SWINVC Inverting control synchronization is activated by the software trigger. 11 1 read-write 0 The software trigger does not activate the INVCTRL register synchronization. #0 1 The software trigger activates the INVCTRL register synchronization. #1 SWOC SWOCTRL Register Synchronization 5 1 read-write 0 SWOCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 SWOCTRL register is updated with its buffer value by the PWM synchronization. #1 SWOM Output mask synchronization is activated by the software trigger. 10 1 read-write 0 The software trigger does not activate the OUTMASK register synchronization. #0 1 The software trigger activates the OUTMASK register synchronization. #1 SWRSTCNT FTM counter synchronization is activated by the software trigger. 8 1 read-write 0 The software trigger does not activate the FTM counter synchronization. #0 1 The software trigger activates the FTM counter synchronization. #1 SWSOC Software output control synchronization is activated by the software trigger. 12 1 read-write 0 The software trigger does not activate the SWOCTRL register synchronization. #0 1 The software trigger activates the SWOCTRL register synchronization. #1 SWWRBUF MOD, CNTIN, and CV registers synchronization is activated by the software trigger. 9 1 read-write 0 The software trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 The software trigger activates MOD, CNTIN, and CV registers synchronization. #1 SYNCMODE Synchronization Mode 7 1 read-write 0 Legacy PWM synchronization is selected. #0 1 Enhanced PWM synchronization is selected. #1 FTM2 FlexTimer Module FTM 0x0 0x0 0x9C registers n FTM2 19 C0SC Channel (n) Status And Control 0x18 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C0V Channel (n) Value 0x20 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C1SC Channel (n) Status And Control 0x2C 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C1V Channel (n) Value 0x38 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write CNT Counter 0x4 32 read-write n 0x0 0x0 COUNT Counter Value 0 16 read-write CNTIN Counter Initial Value 0x4C 32 read-write n 0x0 0x0 INIT Initial Value Of The FTM Counter 0 16 read-write COMBINE Function For Linked Channels 0x64 32 read-write n 0x0 0x0 COMBINE0 Combine Channels For n = 0 0 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE1 Combine Channels For n = 2 8 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE2 Combine Channels For n = 4 16 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE3 Combine Channels For n = 6 24 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMP0 Complement Of Channel (n) For n = 0 1 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP1 Complement Of Channel (n) For n = 2 9 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP2 Complement Of Channel (n) For n = 4 17 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP3 Complement Of Channel (n) for n = 6 25 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 DECAP0 Dual Edge Capture Mode Captures For n = 0 3 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP1 Dual Edge Capture Mode Captures For n = 2 11 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP2 Dual Edge Capture Mode Captures For n = 4 19 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP3 Dual Edge Capture Mode Captures For n = 6 27 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAPEN0 Dual Edge Capture Mode Enable For n = 0 2 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN1 Dual Edge Capture Mode Enable For n = 2 10 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN2 Dual Edge Capture Mode Enable For n = 4 18 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN3 Dual Edge Capture Mode Enable For n = 6 26 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DTEN0 Deadtime Enable For n = 0 4 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN1 Deadtime Enable For n = 2 12 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN2 Deadtime Enable For n = 4 20 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN3 Deadtime Enable For n = 6 28 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 FAULTEN0 Fault Control Enable For n = 0 6 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN1 Fault Control Enable For n = 2 14 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN2 Fault Control Enable For n = 4 22 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN3 Fault Control Enable For n = 6 30 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 SYNCEN0 Synchronization Enable For n = 0 5 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN1 Synchronization Enable For n = 2 13 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN2 Synchronization Enable For n = 4 21 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN3 Synchronization Enable For n = 6 29 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 CONF Configuration 0x84 32 read-write n 0x0 0x0 BDMMODE BDM Mode 6 2 read-write GTBEEN Global Time Base Enable 9 1 read-write 0 Use of an external global time base is disabled. #0 1 Use of an external global time base is enabled. #1 GTBEOUT Global Time Base Output 10 1 read-write 0 A global time base signal generation is disabled. #0 1 A global time base signal generation is enabled. #1 NUMTOF TOF Frequency 0 5 read-write DEADTIME Deadtime Insertion Control 0x68 32 read-write n 0x0 0x0 DTPS Deadtime Prescaler Value 6 2 read-write 0x Divide the system clock by 1. #0x 10 Divide the system clock by 4. #10 11 Divide the system clock by 16. #11 DTVAL Deadtime Value 0 6 read-write EXTTRIG FTM External Trigger 0x6C 32 read-write n 0x0 0x0 CH0TRIG Channel 0 Trigger Enable 4 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH1TRIG Channel 1 Trigger Enable 5 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH2TRIG Channel 2 Trigger Enable 0 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH3TRIG Channel 3 Trigger Enable 1 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH4TRIG Channel 4 Trigger Enable 2 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH5TRIG Channel 5 Trigger Enable 3 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 INITTRIGEN Initialization Trigger Enable 6 1 read-write 0 The generation of initialization trigger is disabled. #0 1 The generation of initialization trigger is enabled. #1 TRIGF Channel Trigger Flag 7 1 read-write 0 No channel trigger was generated. #0 1 A channel trigger was generated. #1 FILTER Input Capture Filter Control 0x78 32 read-write n 0x0 0x0 CH0FVAL Channel 0 Input Filter 0 4 read-write CH1FVAL Channel 1 Input Filter 4 4 read-write CH2FVAL Channel 2 Input Filter 8 4 read-write CH3FVAL Channel 3 Input Filter 12 4 read-write FLTCTRL Fault Control 0x7C 32 read-write n 0x0 0x0 FAULT0EN Fault Input 0 Enable 0 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT1EN Fault Input 1 Enable 1 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT2EN Fault Input 2 Enable 2 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT3EN Fault Input 3 Enable 3 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FFLTR0EN Fault Input 0 Filter Enable 4 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR1EN Fault Input 1 Filter Enable 5 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR2EN Fault Input 2 Filter Enable 6 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR3EN Fault Input 3 Filter Enable 7 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFVAL Fault Input Filter 8 4 read-write FLTPOL FTM Fault Input Polarity 0x88 32 read-write n 0x0 0x0 FLT0POL Fault Input 0 Polarity 0 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT1POL Fault Input 1 Polarity 1 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT2POL Fault Input 2 Polarity 2 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT3POL Fault Input 3 Polarity 3 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FMS Fault Mode Status 0x74 32 read-write n 0x0 0x0 FAULTF Fault Detection Flag 7 1 read-write 0 No fault condition was detected. #0 1 A fault condition was detected. #1 FAULTF0 Fault Detection Flag 0 0 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF1 Fault Detection Flag 1 1 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF2 Fault Detection Flag 2 2 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF3 Fault Detection Flag 3 3 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTIN Fault Inputs 5 1 read-only 0 The logic OR of the enabled fault inputs is 0. #0 1 The logic OR of the enabled fault inputs is 1. #1 WPEN Write Protection Enable 6 1 read-write 0 Write protection is disabled. Write protected bits can be written. #0 1 Write protection is enabled. Write protected bits cannot be written. #1 INVCTRL FTM Inverting Control 0x90 32 read-write n 0x0 0x0 INV0EN Pair Channels 0 Inverting Enable 0 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV1EN Pair Channels 1 Inverting Enable 1 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV2EN Pair Channels 2 Inverting Enable 2 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV3EN Pair Channels 3 Inverting Enable 3 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 MOD Modulo 0x8 32 read-write n 0x0 0x0 MOD Modulo Value 0 16 read-write MODE Features Mode Selection 0x54 32 read-write n 0x0 0x0 CAPTEST Capture Test Mode Enable 4 1 read-write 0 Capture test mode is disabled. #0 1 Capture test mode is enabled. #1 FAULTIE Fault Interrupt Enable 7 1 read-write 0 Fault control interrupt is disabled. #0 1 Fault control interrupt is enabled. #1 FAULTM Fault Control Mode 5 2 read-write 00 Fault control is disabled for all channels. #00 01 Fault control is enabled for even channels only (channels 0, 2, 4, and 6), and the selected mode is the manual fault clearing. #01 10 Fault control is enabled for all channels, and the selected mode is the manual fault clearing. #10 11 Fault control is enabled for all channels, and the selected mode is the automatic fault clearing. #11 FTMEN FTM Enable 0 1 read-write 0 TPM compatibility. Free running counter and synchronization compatible with TPM. #0 1 Free running counter and synchronization are different from TPM behavior. #1 INIT Initialize The Channels Output 1 1 read-write PWMSYNC PWM Synchronization Mode 3 1 read-write 0 No restrictions. Software and hardware triggers can be used by MOD, CnV, OUTMASK, and FTM counter synchronization. #0 1 Software trigger can only be used by MOD and CnV synchronization, and hardware triggers can only be used by OUTMASK and FTM counter synchronization. #1 WPDIS Write Protection Disable 2 1 read-write 0 Write protection is enabled. #0 1 Write protection is disabled. #1 OUTINIT Initial State For Channels Output 0x5C 32 read-write n 0x0 0x0 CH0OI Channel 0 Output Initialization Value 0 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH1OI Channel 1 Output Initialization Value 1 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH2OI Channel 2 Output Initialization Value 2 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH3OI Channel 3 Output Initialization Value 3 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH4OI Channel 4 Output Initialization Value 4 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH5OI Channel 5 Output Initialization Value 5 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH6OI Channel 6 Output Initialization Value 6 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH7OI Channel 7 Output Initialization Value 7 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 OUTMASK Output Mask 0x60 32 read-write n 0x0 0x0 CH0OM Channel 0 Output Mask 0 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH1OM Channel 1 Output Mask 1 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH2OM Channel 2 Output Mask 2 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH3OM Channel 3 Output Mask 3 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH4OM Channel 4 Output Mask 4 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH5OM Channel 5 Output Mask 5 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH6OM Channel 6 Output Mask 6 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH7OM Channel 7 Output Mask 7 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 POL Channels Polarity 0x70 32 read-write n 0x0 0x0 POL0 Channel 0 Polarity 0 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL1 Channel 1 Polarity 1 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL2 Channel 2 Polarity 2 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL3 Channel 3 Polarity 3 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL4 Channel 4 Polarity 4 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL5 Channel 5 Polarity 5 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL6 Channel 6 Polarity 6 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL7 Channel 7 Polarity 7 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 PWMLOAD FTM PWM Load 0x98 32 read-write n 0x0 0x0 CH0SEL Channel 0 Select 0 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH1SEL Channel 1 Select 1 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH2SEL Channel 2 Select 2 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH3SEL Channel 3 Select 3 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH4SEL Channel 4 Select 4 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH5SEL Channel 5 Select 5 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH6SEL Channel 6 Select 6 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH7SEL Channel 7 Select 7 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 LDOK Load Enable 9 1 read-write 0 Loading updated values is disabled. #0 1 Loading updated values is enabled. #1 QDCTRL Quadrature Decoder Control And Status 0x80 32 read-write n 0x0 0x0 PHAFLTREN Phase A Input Filter Enable 7 1 read-write 0 Phase A input filter is disabled. #0 1 Phase A input filter is enabled. #1 PHAPOL Phase A Input Polarity 5 1 read-write 0 Normal polarity. Phase A input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase A input signal is inverted before identifying the rising and falling edges of this signal. #1 PHBFLTREN Phase B Input Filter Enable 6 1 read-write 0 Phase B input filter is disabled. #0 1 Phase B input filter is enabled. #1 PHBPOL Phase B Input Polarity 4 1 read-write 0 Normal polarity. Phase B input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase B input signal is inverted before identifying the rising and falling edges of this signal. #1 QUADEN Quadrature Decoder Mode Enable 0 1 read-write 0 Quadrature Decoder mode is disabled. #0 1 Quadrature Decoder mode is enabled. #1 QUADIR FTM Counter Direction In Quadrature Decoder Mode 2 1 read-only 0 Counting direction is decreasing (FTM counter decrement). #0 1 Counting direction is increasing (FTM counter increment). #1 QUADMODE Quadrature Decoder Mode 3 1 read-write 0 Phase A and phase B encoding mode. #0 1 Count and direction encoding mode. #1 TOFDIR Timer Overflow Direction In Quadrature Decoder Mode 1 1 read-only 0 TOF bit was set on the bottom of counting. There was an FTM counter decrement and FTM counter changes from its minimum value (CNTIN register) to its maximum value (MOD register). #0 1 TOF bit was set on the top of counting. There was an FTM counter increment and FTM counter changes from its maximum value (MOD register) to its minimum value (CNTIN register). #1 SC Status And Control 0x0 32 read-write n 0x0 0x0 CLKS Clock Source Selection 3 2 read-write 00 No clock selected. This in effect disables the FTM counter. #00 01 System clock #01 10 Fixed frequency clock #10 11 External clock #11 CPWMS Center-Aligned PWM Select 5 1 read-write 0 FTM counter operates in Up Counting mode. #0 1 FTM counter operates in Up-Down Counting mode. #1 PS Prescale Factor Selection 0 3 read-write 000 Divide by 1 #000 001 Divide by 2 #001 010 Divide by 4 #010 011 Divide by 8 #011 100 Divide by 16 #100 101 Divide by 32 #101 110 Divide by 64 #110 111 Divide by 128 #111 TOF Timer Overflow Flag 7 1 read-write 0 FTM counter has not overflowed. #0 1 FTM counter has overflowed. #1 TOIE Timer Overflow Interrupt Enable 6 1 read-write 0 Disable TOF interrupts. Use software polling. #0 1 Enable TOF interrupts. An interrupt is generated when TOF equals one. #1 STATUS Capture And Compare Status 0x50 32 read-write n 0x0 0x0 CH0F Channel 0 Flag 0 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH1F Channel 1 Flag 1 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH2F Channel 2 Flag 2 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH3F Channel 3 Flag 3 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH4F Channel 4 Flag 4 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH5F Channel 5 Flag 5 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH6F Channel 6 Flag 6 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH7F Channel 7 Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 SWOCTRL FTM Software Output Control 0x94 32 read-write n 0x0 0x0 CH0OC Channel 0 Software Output Control Enable 0 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH0OCV Channel 0 Software Output Control Value 8 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH1OC Channel 1 Software Output Control Enable 1 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH1OCV Channel 1 Software Output Control Value 9 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH2OC Channel 2 Software Output Control Enable 2 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH2OCV Channel 2 Software Output Control Value 10 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH3OC Channel 3 Software Output Control Enable 3 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH3OCV Channel 3 Software Output Control Value 11 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH4OC Channel 4 Software Output Control Enable 4 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH4OCV Channel 4 Software Output Control Value 12 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH5OC Channel 5 Software Output Control Enable 5 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH5OCV Channel 5 Software Output Control Value 13 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH6OC Channel 6 Software Output Control Enable 6 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH6OCV Channel 6 Software Output Control Value 14 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH7OC Channel 7 Software Output Control Enable 7 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH7OCV Channel 7 Software Output Control Value 15 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 SYNC Synchronization 0x58 32 read-write n 0x0 0x0 CNTMAX Maximum Loading Point Enable 1 1 read-write 0 The maximum loading point is disabled. #0 1 The maximum loading point is enabled. #1 CNTMIN Minimum Loading Point Enable 0 1 read-write 0 The minimum loading point is disabled. #0 1 The minimum loading point is enabled. #1 REINIT FTM Counter Reinitialization By Synchronization (FTM counter synchronization) 2 1 read-write 0 FTM counter continues to count normally. #0 1 FTM counter is updated with its initial value when the selected trigger is detected. #1 SWSYNC PWM Synchronization Software Trigger 7 1 read-write 0 Software trigger is not selected. #0 1 Software trigger is selected. #1 SYNCHOM Output Mask Synchronization 3 1 read-write 0 OUTMASK register is updated with the value of its buffer in all rising edges of the system clock. #0 1 OUTMASK register is updated with the value of its buffer only by the PWM synchronization. #1 TRIG0 PWM Synchronization Hardware Trigger 0 4 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG1 PWM Synchronization Hardware Trigger 1 5 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG2 PWM Synchronization Hardware Trigger 2 6 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 SYNCONF Synchronization Configuration 0x8C 32 read-write n 0x0 0x0 CNTINC CNTIN Register Synchronization 2 1 read-write 0 CNTIN register is updated with its buffer value at all rising edges of system clock. #0 1 CNTIN register is updated with its buffer value by the PWM synchronization. #1 HWINVC Inverting control synchronization is activated by a hardware trigger. 19 1 read-write 0 A hardware trigger does not activate the INVCTRL register synchronization. #0 1 A hardware trigger activates the INVCTRL register synchronization. #1 HWOM Output mask synchronization is activated by a hardware trigger. 18 1 read-write 0 A hardware trigger does not activate the OUTMASK register synchronization. #0 1 A hardware trigger activates the OUTMASK register synchronization. #1 HWRSTCNT FTM counter synchronization is activated by a hardware trigger. 16 1 read-write 0 A hardware trigger does not activate the FTM counter synchronization. #0 1 A hardware trigger activates the FTM counter synchronization. #1 HWSOC Software output control synchronization is activated by a hardware trigger. 20 1 read-write 0 A hardware trigger does not activate the SWOCTRL register synchronization. #0 1 A hardware trigger activates the SWOCTRL register synchronization. #1 HWTRIGMODE Hardware Trigger Mode 0 1 read-write 0 FTM clears the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #0 1 FTM does not clear the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #1 HWWRBUF MOD, CNTIN, and CV registers synchronization is activated by a hardware trigger. 17 1 read-write 0 A hardware trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 A hardware trigger activates MOD, CNTIN, and CV registers synchronization. #1 INVC INVCTRL Register Synchronization 4 1 read-write 0 INVCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 INVCTRL register is updated with its buffer value by the PWM synchronization. #1 SWINVC Inverting control synchronization is activated by the software trigger. 11 1 read-write 0 The software trigger does not activate the INVCTRL register synchronization. #0 1 The software trigger activates the INVCTRL register synchronization. #1 SWOC SWOCTRL Register Synchronization 5 1 read-write 0 SWOCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 SWOCTRL register is updated with its buffer value by the PWM synchronization. #1 SWOM Output mask synchronization is activated by the software trigger. 10 1 read-write 0 The software trigger does not activate the OUTMASK register synchronization. #0 1 The software trigger activates the OUTMASK register synchronization. #1 SWRSTCNT FTM counter synchronization is activated by the software trigger. 8 1 read-write 0 The software trigger does not activate the FTM counter synchronization. #0 1 The software trigger activates the FTM counter synchronization. #1 SWSOC Software output control synchronization is activated by the software trigger. 12 1 read-write 0 The software trigger does not activate the SWOCTRL register synchronization. #0 1 The software trigger activates the SWOCTRL register synchronization. #1 SWWRBUF MOD, CNTIN, and CV registers synchronization is activated by the software trigger. 9 1 read-write 0 The software trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 The software trigger activates MOD, CNTIN, and CV registers synchronization. #1 SYNCMODE Synchronization Mode 7 1 read-write 0 Legacy PWM synchronization is selected. #0 1 Enhanced PWM synchronization is selected. #1 FTM3 FlexTimer Module FTM 0x0 0x0 0x9C registers n FTM3 22 C0SC Channel (n) Status And Control 0x18 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C0V Channel (n) Value 0x20 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C1SC Channel (n) Status And Control 0x2C 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C1V Channel (n) Value 0x38 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C2SC Channel (n) Status And Control 0x48 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C2V Channel (n) Value 0x58 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C3SC Channel (n) Status And Control 0x6C 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C3V Channel (n) Value 0x80 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C4SC Channel (n) Status And Control 0x98 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C4V Channel (n) Value 0xB0 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C5SC Channel (n) Status And Control 0xCC 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C5V Channel (n) Value 0xE8 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write CNT Counter 0x4 32 read-write n 0x0 0x0 COUNT Counter Value 0 16 read-write CNTIN Counter Initial Value 0x4C 32 read-write n 0x0 0x0 INIT Initial Value Of The FTM Counter 0 16 read-write COMBINE Function For Linked Channels 0x64 32 read-write n 0x0 0x0 COMBINE0 Combine Channels For n = 0 0 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE1 Combine Channels For n = 2 8 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE2 Combine Channels For n = 4 16 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE3 Combine Channels For n = 6 24 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMP0 Complement Of Channel (n) For n = 0 1 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP1 Complement Of Channel (n) For n = 2 9 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP2 Complement Of Channel (n) For n = 4 17 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP3 Complement Of Channel (n) for n = 6 25 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 DECAP0 Dual Edge Capture Mode Captures For n = 0 3 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP1 Dual Edge Capture Mode Captures For n = 2 11 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP2 Dual Edge Capture Mode Captures For n = 4 19 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP3 Dual Edge Capture Mode Captures For n = 6 27 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAPEN0 Dual Edge Capture Mode Enable For n = 0 2 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN1 Dual Edge Capture Mode Enable For n = 2 10 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN2 Dual Edge Capture Mode Enable For n = 4 18 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN3 Dual Edge Capture Mode Enable For n = 6 26 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DTEN0 Deadtime Enable For n = 0 4 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN1 Deadtime Enable For n = 2 12 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN2 Deadtime Enable For n = 4 20 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN3 Deadtime Enable For n = 6 28 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 FAULTEN0 Fault Control Enable For n = 0 6 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN1 Fault Control Enable For n = 2 14 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN2 Fault Control Enable For n = 4 22 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN3 Fault Control Enable For n = 6 30 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 SYNCEN0 Synchronization Enable For n = 0 5 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN1 Synchronization Enable For n = 2 13 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN2 Synchronization Enable For n = 4 21 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN3 Synchronization Enable For n = 6 29 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 CONF Configuration 0x84 32 read-write n 0x0 0x0 BDMMODE BDM Mode 6 2 read-write GTBEEN Global Time Base Enable 9 1 read-write 0 Use of an external global time base is disabled. #0 1 Use of an external global time base is enabled. #1 GTBEOUT Global Time Base Output 10 1 read-write 0 A global time base signal generation is disabled. #0 1 A global time base signal generation is enabled. #1 NUMTOF TOF Frequency 0 5 read-write DEADTIME Deadtime Insertion Control 0x68 32 read-write n 0x0 0x0 DTPS Deadtime Prescaler Value 6 2 read-write 0x Divide the system clock by 1. #0x 10 Divide the system clock by 4. #10 11 Divide the system clock by 16. #11 DTVAL Deadtime Value 0 6 read-write EXTTRIG FTM External Trigger 0x6C 32 read-write n 0x0 0x0 CH0TRIG Channel 0 Trigger Enable 4 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH1TRIG Channel 1 Trigger Enable 5 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH2TRIG Channel 2 Trigger Enable 0 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH3TRIG Channel 3 Trigger Enable 1 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH4TRIG Channel 4 Trigger Enable 2 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH5TRIG Channel 5 Trigger Enable 3 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 INITTRIGEN Initialization Trigger Enable 6 1 read-write 0 The generation of initialization trigger is disabled. #0 1 The generation of initialization trigger is enabled. #1 TRIGF Channel Trigger Flag 7 1 read-write 0 No channel trigger was generated. #0 1 A channel trigger was generated. #1 FILTER Input Capture Filter Control 0x78 32 read-write n 0x0 0x0 CH0FVAL Channel 0 Input Filter 0 4 read-write CH1FVAL Channel 1 Input Filter 4 4 read-write CH2FVAL Channel 2 Input Filter 8 4 read-write CH3FVAL Channel 3 Input Filter 12 4 read-write FLTCTRL Fault Control 0x7C 32 read-write n 0x0 0x0 FAULT0EN Fault Input 0 Enable 0 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT1EN Fault Input 1 Enable 1 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT2EN Fault Input 2 Enable 2 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT3EN Fault Input 3 Enable 3 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FFLTR0EN Fault Input 0 Filter Enable 4 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR1EN Fault Input 1 Filter Enable 5 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR2EN Fault Input 2 Filter Enable 6 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR3EN Fault Input 3 Filter Enable 7 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFVAL Fault Input Filter 8 4 read-write FLTPOL FTM Fault Input Polarity 0x88 32 read-write n 0x0 0x0 FLT0POL Fault Input 0 Polarity 0 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT1POL Fault Input 1 Polarity 1 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT2POL Fault Input 2 Polarity 2 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT3POL Fault Input 3 Polarity 3 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FMS Fault Mode Status 0x74 32 read-write n 0x0 0x0 FAULTF Fault Detection Flag 7 1 read-write 0 No fault condition was detected. #0 1 A fault condition was detected. #1 FAULTF0 Fault Detection Flag 0 0 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF1 Fault Detection Flag 1 1 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF2 Fault Detection Flag 2 2 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF3 Fault Detection Flag 3 3 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTIN Fault Inputs 5 1 read-only 0 The logic OR of the enabled fault inputs is 0. #0 1 The logic OR of the enabled fault inputs is 1. #1 WPEN Write Protection Enable 6 1 read-write 0 Write protection is disabled. Write protected bits can be written. #0 1 Write protection is enabled. Write protected bits cannot be written. #1 INVCTRL FTM Inverting Control 0x90 32 read-write n 0x0 0x0 INV0EN Pair Channels 0 Inverting Enable 0 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV1EN Pair Channels 1 Inverting Enable 1 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV2EN Pair Channels 2 Inverting Enable 2 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV3EN Pair Channels 3 Inverting Enable 3 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 MOD Modulo 0x8 32 read-write n 0x0 0x0 MOD Modulo Value 0 16 read-write MODE Features Mode Selection 0x54 32 read-write n 0x0 0x0 CAPTEST Capture Test Mode Enable 4 1 read-write 0 Capture test mode is disabled. #0 1 Capture test mode is enabled. #1 FAULTIE Fault Interrupt Enable 7 1 read-write 0 Fault control interrupt is disabled. #0 1 Fault control interrupt is enabled. #1 FAULTM Fault Control Mode 5 2 read-write 00 Fault control is disabled for all channels. #00 01 Fault control is enabled for even channels only (channels 0, 2, 4, and 6), and the selected mode is the manual fault clearing. #01 10 Fault control is enabled for all channels, and the selected mode is the manual fault clearing. #10 11 Fault control is enabled for all channels, and the selected mode is the automatic fault clearing. #11 FTMEN FTM Enable 0 1 read-write 0 TPM compatibility. Free running counter and synchronization compatible with TPM. #0 1 Free running counter and synchronization are different from TPM behavior. #1 INIT Initialize The Channels Output 1 1 read-write PWMSYNC PWM Synchronization Mode 3 1 read-write 0 No restrictions. Software and hardware triggers can be used by MOD, CnV, OUTMASK, and FTM counter synchronization. #0 1 Software trigger can only be used by MOD and CnV synchronization, and hardware triggers can only be used by OUTMASK and FTM counter synchronization. #1 WPDIS Write Protection Disable 2 1 read-write 0 Write protection is enabled. #0 1 Write protection is disabled. #1 OUTINIT Initial State For Channels Output 0x5C 32 read-write n 0x0 0x0 CH0OI Channel 0 Output Initialization Value 0 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH1OI Channel 1 Output Initialization Value 1 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH2OI Channel 2 Output Initialization Value 2 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH3OI Channel 3 Output Initialization Value 3 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH4OI Channel 4 Output Initialization Value 4 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH5OI Channel 5 Output Initialization Value 5 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH6OI Channel 6 Output Initialization Value 6 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH7OI Channel 7 Output Initialization Value 7 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 OUTMASK Output Mask 0x60 32 read-write n 0x0 0x0 CH0OM Channel 0 Output Mask 0 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH1OM Channel 1 Output Mask 1 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH2OM Channel 2 Output Mask 2 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH3OM Channel 3 Output Mask 3 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH4OM Channel 4 Output Mask 4 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH5OM Channel 5 Output Mask 5 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH6OM Channel 6 Output Mask 6 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH7OM Channel 7 Output Mask 7 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 POL Channels Polarity 0x70 32 read-write n 0x0 0x0 POL0 Channel 0 Polarity 0 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL1 Channel 1 Polarity 1 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL2 Channel 2 Polarity 2 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL3 Channel 3 Polarity 3 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL4 Channel 4 Polarity 4 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL5 Channel 5 Polarity 5 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL6 Channel 6 Polarity 6 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL7 Channel 7 Polarity 7 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 PWMLOAD FTM PWM Load 0x98 32 read-write n 0x0 0x0 CH0SEL Channel 0 Select 0 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH1SEL Channel 1 Select 1 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH2SEL Channel 2 Select 2 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH3SEL Channel 3 Select 3 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH4SEL Channel 4 Select 4 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH5SEL Channel 5 Select 5 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH6SEL Channel 6 Select 6 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH7SEL Channel 7 Select 7 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 LDOK Load Enable 9 1 read-write 0 Loading updated values is disabled. #0 1 Loading updated values is enabled. #1 QDCTRL Quadrature Decoder Control And Status 0x80 32 read-write n 0x0 0x0 PHAFLTREN Phase A Input Filter Enable 7 1 read-write 0 Phase A input filter is disabled. #0 1 Phase A input filter is enabled. #1 PHAPOL Phase A Input Polarity 5 1 read-write 0 Normal polarity. Phase A input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase A input signal is inverted before identifying the rising and falling edges of this signal. #1 PHBFLTREN Phase B Input Filter Enable 6 1 read-write 0 Phase B input filter is disabled. #0 1 Phase B input filter is enabled. #1 PHBPOL Phase B Input Polarity 4 1 read-write 0 Normal polarity. Phase B input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase B input signal is inverted before identifying the rising and falling edges of this signal. #1 QUADEN Quadrature Decoder Mode Enable 0 1 read-write 0 Quadrature Decoder mode is disabled. #0 1 Quadrature Decoder mode is enabled. #1 QUADIR FTM Counter Direction In Quadrature Decoder Mode 2 1 read-only 0 Counting direction is decreasing (FTM counter decrement). #0 1 Counting direction is increasing (FTM counter increment). #1 QUADMODE Quadrature Decoder Mode 3 1 read-write 0 Phase A and phase B encoding mode. #0 1 Count and direction encoding mode. #1 TOFDIR Timer Overflow Direction In Quadrature Decoder Mode 1 1 read-only 0 TOF bit was set on the bottom of counting. There was an FTM counter decrement and FTM counter changes from its minimum value (CNTIN register) to its maximum value (MOD register). #0 1 TOF bit was set on the top of counting. There was an FTM counter increment and FTM counter changes from its maximum value (MOD register) to its minimum value (CNTIN register). #1 SC Status And Control 0x0 32 read-write n 0x0 0x0 CLKS Clock Source Selection 3 2 read-write 00 No clock selected. This in effect disables the FTM counter. #00 01 System clock #01 10 Fixed frequency clock #10 11 External clock #11 CPWMS Center-Aligned PWM Select 5 1 read-write 0 FTM counter operates in Up Counting mode. #0 1 FTM counter operates in Up-Down Counting mode. #1 PS Prescale Factor Selection 0 3 read-write 000 Divide by 1 #000 001 Divide by 2 #001 010 Divide by 4 #010 011 Divide by 8 #011 100 Divide by 16 #100 101 Divide by 32 #101 110 Divide by 64 #110 111 Divide by 128 #111 TOF Timer Overflow Flag 7 1 read-write 0 FTM counter has not overflowed. #0 1 FTM counter has overflowed. #1 TOIE Timer Overflow Interrupt Enable 6 1 read-write 0 Disable TOF interrupts. Use software polling. #0 1 Enable TOF interrupts. An interrupt is generated when TOF equals one. #1 STATUS Capture And Compare Status 0x50 32 read-write n 0x0 0x0 CH0F Channel 0 Flag 0 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH1F Channel 1 Flag 1 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH2F Channel 2 Flag 2 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH3F Channel 3 Flag 3 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH4F Channel 4 Flag 4 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH5F Channel 5 Flag 5 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH6F Channel 6 Flag 6 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH7F Channel 7 Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 SWOCTRL FTM Software Output Control 0x94 32 read-write n 0x0 0x0 CH0OC Channel 0 Software Output Control Enable 0 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH0OCV Channel 0 Software Output Control Value 8 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH1OC Channel 1 Software Output Control Enable 1 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH1OCV Channel 1 Software Output Control Value 9 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH2OC Channel 2 Software Output Control Enable 2 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH2OCV Channel 2 Software Output Control Value 10 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH3OC Channel 3 Software Output Control Enable 3 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH3OCV Channel 3 Software Output Control Value 11 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH4OC Channel 4 Software Output Control Enable 4 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH4OCV Channel 4 Software Output Control Value 12 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH5OC Channel 5 Software Output Control Enable 5 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH5OCV Channel 5 Software Output Control Value 13 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH6OC Channel 6 Software Output Control Enable 6 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH6OCV Channel 6 Software Output Control Value 14 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH7OC Channel 7 Software Output Control Enable 7 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH7OCV Channel 7 Software Output Control Value 15 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 SYNC Synchronization 0x58 32 read-write n 0x0 0x0 CNTMAX Maximum Loading Point Enable 1 1 read-write 0 The maximum loading point is disabled. #0 1 The maximum loading point is enabled. #1 CNTMIN Minimum Loading Point Enable 0 1 read-write 0 The minimum loading point is disabled. #0 1 The minimum loading point is enabled. #1 REINIT FTM Counter Reinitialization By Synchronization (FTM counter synchronization) 2 1 read-write 0 FTM counter continues to count normally. #0 1 FTM counter is updated with its initial value when the selected trigger is detected. #1 SWSYNC PWM Synchronization Software Trigger 7 1 read-write 0 Software trigger is not selected. #0 1 Software trigger is selected. #1 SYNCHOM Output Mask Synchronization 3 1 read-write 0 OUTMASK register is updated with the value of its buffer in all rising edges of the system clock. #0 1 OUTMASK register is updated with the value of its buffer only by the PWM synchronization. #1 TRIG0 PWM Synchronization Hardware Trigger 0 4 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG1 PWM Synchronization Hardware Trigger 1 5 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG2 PWM Synchronization Hardware Trigger 2 6 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 SYNCONF Synchronization Configuration 0x8C 32 read-write n 0x0 0x0 CNTINC CNTIN Register Synchronization 2 1 read-write 0 CNTIN register is updated with its buffer value at all rising edges of system clock. #0 1 CNTIN register is updated with its buffer value by the PWM synchronization. #1 HWINVC Inverting control synchronization is activated by a hardware trigger. 19 1 read-write 0 A hardware trigger does not activate the INVCTRL register synchronization. #0 1 A hardware trigger activates the INVCTRL register synchronization. #1 HWOM Output mask synchronization is activated by a hardware trigger. 18 1 read-write 0 A hardware trigger does not activate the OUTMASK register synchronization. #0 1 A hardware trigger activates the OUTMASK register synchronization. #1 HWRSTCNT FTM counter synchronization is activated by a hardware trigger. 16 1 read-write 0 A hardware trigger does not activate the FTM counter synchronization. #0 1 A hardware trigger activates the FTM counter synchronization. #1 HWSOC Software output control synchronization is activated by a hardware trigger. 20 1 read-write 0 A hardware trigger does not activate the SWOCTRL register synchronization. #0 1 A hardware trigger activates the SWOCTRL register synchronization. #1 HWTRIGMODE Hardware Trigger Mode 0 1 read-write 0 FTM clears the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #0 1 FTM does not clear the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #1 HWWRBUF MOD, CNTIN, and CV registers synchronization is activated by a hardware trigger. 17 1 read-write 0 A hardware trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 A hardware trigger activates MOD, CNTIN, and CV registers synchronization. #1 INVC INVCTRL Register Synchronization 4 1 read-write 0 INVCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 INVCTRL register is updated with its buffer value by the PWM synchronization. #1 SWINVC Inverting control synchronization is activated by the software trigger. 11 1 read-write 0 The software trigger does not activate the INVCTRL register synchronization. #0 1 The software trigger activates the INVCTRL register synchronization. #1 SWOC SWOCTRL Register Synchronization 5 1 read-write 0 SWOCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 SWOCTRL register is updated with its buffer value by the PWM synchronization. #1 SWOM Output mask synchronization is activated by the software trigger. 10 1 read-write 0 The software trigger does not activate the OUTMASK register synchronization. #0 1 The software trigger activates the OUTMASK register synchronization. #1 SWRSTCNT FTM counter synchronization is activated by the software trigger. 8 1 read-write 0 The software trigger does not activate the FTM counter synchronization. #0 1 The software trigger activates the FTM counter synchronization. #1 SWSOC Software output control synchronization is activated by the software trigger. 12 1 read-write 0 The software trigger does not activate the SWOCTRL register synchronization. #0 1 The software trigger activates the SWOCTRL register synchronization. #1 SWWRBUF MOD, CNTIN, and CV registers synchronization is activated by the software trigger. 9 1 read-write 0 The software trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 The software trigger activates MOD, CNTIN, and CV registers synchronization. #1 SYNCMODE Synchronization Mode 7 1 read-write 0 Legacy PWM synchronization is selected. #0 1 Enhanced PWM synchronization is selected. #1 FTM4 FlexTimer Module FTM 0x0 0x0 0x9C registers n FTM4 24 C0SC Channel (n) Status And Control 0x18 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C0V Channel (n) Value 0x20 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C1SC Channel (n) Status And Control 0x2C 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C1V Channel (n) Value 0x38 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write CNT Counter 0x4 32 read-write n 0x0 0x0 COUNT Counter Value 0 16 read-write CNTIN Counter Initial Value 0x4C 32 read-write n 0x0 0x0 INIT Initial Value Of The FTM Counter 0 16 read-write COMBINE Function For Linked Channels 0x64 32 read-write n 0x0 0x0 COMBINE0 Combine Channels For n = 0 0 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE1 Combine Channels For n = 2 8 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE2 Combine Channels For n = 4 16 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE3 Combine Channels For n = 6 24 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMP0 Complement Of Channel (n) For n = 0 1 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP1 Complement Of Channel (n) For n = 2 9 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP2 Complement Of Channel (n) For n = 4 17 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP3 Complement Of Channel (n) for n = 6 25 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 DECAP0 Dual Edge Capture Mode Captures For n = 0 3 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP1 Dual Edge Capture Mode Captures For n = 2 11 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP2 Dual Edge Capture Mode Captures For n = 4 19 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP3 Dual Edge Capture Mode Captures For n = 6 27 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAPEN0 Dual Edge Capture Mode Enable For n = 0 2 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN1 Dual Edge Capture Mode Enable For n = 2 10 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN2 Dual Edge Capture Mode Enable For n = 4 18 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN3 Dual Edge Capture Mode Enable For n = 6 26 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DTEN0 Deadtime Enable For n = 0 4 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN1 Deadtime Enable For n = 2 12 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN2 Deadtime Enable For n = 4 20 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN3 Deadtime Enable For n = 6 28 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 FAULTEN0 Fault Control Enable For n = 0 6 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN1 Fault Control Enable For n = 2 14 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN2 Fault Control Enable For n = 4 22 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN3 Fault Control Enable For n = 6 30 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 SYNCEN0 Synchronization Enable For n = 0 5 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN1 Synchronization Enable For n = 2 13 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN2 Synchronization Enable For n = 4 21 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN3 Synchronization Enable For n = 6 29 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 CONF Configuration 0x84 32 read-write n 0x0 0x0 BDMMODE BDM Mode 6 2 read-write GTBEEN Global Time Base Enable 9 1 read-write 0 Use of an external global time base is disabled. #0 1 Use of an external global time base is enabled. #1 GTBEOUT Global Time Base Output 10 1 read-write 0 A global time base signal generation is disabled. #0 1 A global time base signal generation is enabled. #1 NUMTOF TOF Frequency 0 5 read-write DEADTIME Deadtime Insertion Control 0x68 32 read-write n 0x0 0x0 DTPS Deadtime Prescaler Value 6 2 read-write 0x Divide the system clock by 1. #0x 10 Divide the system clock by 4. #10 11 Divide the system clock by 16. #11 DTVAL Deadtime Value 0 6 read-write EXTTRIG FTM External Trigger 0x6C 32 read-write n 0x0 0x0 CH0TRIG Channel 0 Trigger Enable 4 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH1TRIG Channel 1 Trigger Enable 5 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH2TRIG Channel 2 Trigger Enable 0 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH3TRIG Channel 3 Trigger Enable 1 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH4TRIG Channel 4 Trigger Enable 2 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH5TRIG Channel 5 Trigger Enable 3 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 INITTRIGEN Initialization Trigger Enable 6 1 read-write 0 The generation of initialization trigger is disabled. #0 1 The generation of initialization trigger is enabled. #1 TRIGF Channel Trigger Flag 7 1 read-write 0 No channel trigger was generated. #0 1 A channel trigger was generated. #1 FILTER Input Capture Filter Control 0x78 32 read-write n 0x0 0x0 CH0FVAL Channel 0 Input Filter 0 4 read-write CH1FVAL Channel 1 Input Filter 4 4 read-write CH2FVAL Channel 2 Input Filter 8 4 read-write CH3FVAL Channel 3 Input Filter 12 4 read-write FLTCTRL Fault Control 0x7C 32 read-write n 0x0 0x0 FAULT0EN Fault Input 0 Enable 0 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT1EN Fault Input 1 Enable 1 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT2EN Fault Input 2 Enable 2 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT3EN Fault Input 3 Enable 3 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FFLTR0EN Fault Input 0 Filter Enable 4 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR1EN Fault Input 1 Filter Enable 5 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR2EN Fault Input 2 Filter Enable 6 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR3EN Fault Input 3 Filter Enable 7 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFVAL Fault Input Filter 8 4 read-write FLTPOL FTM Fault Input Polarity 0x88 32 read-write n 0x0 0x0 FLT0POL Fault Input 0 Polarity 0 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT1POL Fault Input 1 Polarity 1 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT2POL Fault Input 2 Polarity 2 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT3POL Fault Input 3 Polarity 3 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FMS Fault Mode Status 0x74 32 read-write n 0x0 0x0 FAULTF Fault Detection Flag 7 1 read-write 0 No fault condition was detected. #0 1 A fault condition was detected. #1 FAULTF0 Fault Detection Flag 0 0 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF1 Fault Detection Flag 1 1 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF2 Fault Detection Flag 2 2 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF3 Fault Detection Flag 3 3 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTIN Fault Inputs 5 1 read-only 0 The logic OR of the enabled fault inputs is 0. #0 1 The logic OR of the enabled fault inputs is 1. #1 WPEN Write Protection Enable 6 1 read-write 0 Write protection is disabled. Write protected bits can be written. #0 1 Write protection is enabled. Write protected bits cannot be written. #1 INVCTRL FTM Inverting Control 0x90 32 read-write n 0x0 0x0 INV0EN Pair Channels 0 Inverting Enable 0 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV1EN Pair Channels 1 Inverting Enable 1 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV2EN Pair Channels 2 Inverting Enable 2 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV3EN Pair Channels 3 Inverting Enable 3 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 MOD Modulo 0x8 32 read-write n 0x0 0x0 MOD Modulo Value 0 16 read-write MODE Features Mode Selection 0x54 32 read-write n 0x0 0x0 CAPTEST Capture Test Mode Enable 4 1 read-write 0 Capture test mode is disabled. #0 1 Capture test mode is enabled. #1 FAULTIE Fault Interrupt Enable 7 1 read-write 0 Fault control interrupt is disabled. #0 1 Fault control interrupt is enabled. #1 FAULTM Fault Control Mode 5 2 read-write 00 Fault control is disabled for all channels. #00 01 Fault control is enabled for even channels only (channels 0, 2, 4, and 6), and the selected mode is the manual fault clearing. #01 10 Fault control is enabled for all channels, and the selected mode is the manual fault clearing. #10 11 Fault control is enabled for all channels, and the selected mode is the automatic fault clearing. #11 FTMEN FTM Enable 0 1 read-write 0 TPM compatibility. Free running counter and synchronization compatible with TPM. #0 1 Free running counter and synchronization are different from TPM behavior. #1 INIT Initialize The Channels Output 1 1 read-write PWMSYNC PWM Synchronization Mode 3 1 read-write 0 No restrictions. Software and hardware triggers can be used by MOD, CnV, OUTMASK, and FTM counter synchronization. #0 1 Software trigger can only be used by MOD and CnV synchronization, and hardware triggers can only be used by OUTMASK and FTM counter synchronization. #1 WPDIS Write Protection Disable 2 1 read-write 0 Write protection is enabled. #0 1 Write protection is disabled. #1 OUTINIT Initial State For Channels Output 0x5C 32 read-write n 0x0 0x0 CH0OI Channel 0 Output Initialization Value 0 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH1OI Channel 1 Output Initialization Value 1 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH2OI Channel 2 Output Initialization Value 2 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH3OI Channel 3 Output Initialization Value 3 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH4OI Channel 4 Output Initialization Value 4 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH5OI Channel 5 Output Initialization Value 5 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH6OI Channel 6 Output Initialization Value 6 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH7OI Channel 7 Output Initialization Value 7 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 OUTMASK Output Mask 0x60 32 read-write n 0x0 0x0 CH0OM Channel 0 Output Mask 0 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH1OM Channel 1 Output Mask 1 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH2OM Channel 2 Output Mask 2 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH3OM Channel 3 Output Mask 3 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH4OM Channel 4 Output Mask 4 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH5OM Channel 5 Output Mask 5 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH6OM Channel 6 Output Mask 6 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH7OM Channel 7 Output Mask 7 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 POL Channels Polarity 0x70 32 read-write n 0x0 0x0 POL0 Channel 0 Polarity 0 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL1 Channel 1 Polarity 1 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL2 Channel 2 Polarity 2 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL3 Channel 3 Polarity 3 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL4 Channel 4 Polarity 4 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL5 Channel 5 Polarity 5 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL6 Channel 6 Polarity 6 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL7 Channel 7 Polarity 7 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 PWMLOAD FTM PWM Load 0x98 32 read-write n 0x0 0x0 CH0SEL Channel 0 Select 0 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH1SEL Channel 1 Select 1 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH2SEL Channel 2 Select 2 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH3SEL Channel 3 Select 3 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH4SEL Channel 4 Select 4 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH5SEL Channel 5 Select 5 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH6SEL Channel 6 Select 6 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH7SEL Channel 7 Select 7 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 LDOK Load Enable 9 1 read-write 0 Loading updated values is disabled. #0 1 Loading updated values is enabled. #1 QDCTRL Quadrature Decoder Control And Status 0x80 32 read-write n 0x0 0x0 PHAFLTREN Phase A Input Filter Enable 7 1 read-write 0 Phase A input filter is disabled. #0 1 Phase A input filter is enabled. #1 PHAPOL Phase A Input Polarity 5 1 read-write 0 Normal polarity. Phase A input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase A input signal is inverted before identifying the rising and falling edges of this signal. #1 PHBFLTREN Phase B Input Filter Enable 6 1 read-write 0 Phase B input filter is disabled. #0 1 Phase B input filter is enabled. #1 PHBPOL Phase B Input Polarity 4 1 read-write 0 Normal polarity. Phase B input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase B input signal is inverted before identifying the rising and falling edges of this signal. #1 QUADEN Quadrature Decoder Mode Enable 0 1 read-write 0 Quadrature Decoder mode is disabled. #0 1 Quadrature Decoder mode is enabled. #1 QUADIR FTM Counter Direction In Quadrature Decoder Mode 2 1 read-only 0 Counting direction is decreasing (FTM counter decrement). #0 1 Counting direction is increasing (FTM counter increment). #1 QUADMODE Quadrature Decoder Mode 3 1 read-write 0 Phase A and phase B encoding mode. #0 1 Count and direction encoding mode. #1 TOFDIR Timer Overflow Direction In Quadrature Decoder Mode 1 1 read-only 0 TOF bit was set on the bottom of counting. There was an FTM counter decrement and FTM counter changes from its minimum value (CNTIN register) to its maximum value (MOD register). #0 1 TOF bit was set on the top of counting. There was an FTM counter increment and FTM counter changes from its maximum value (MOD register) to its minimum value (CNTIN register). #1 SC Status And Control 0x0 32 read-write n 0x0 0x0 CLKS Clock Source Selection 3 2 read-write 00 No clock selected. This in effect disables the FTM counter. #00 01 System clock #01 10 Fixed frequency clock #10 11 External clock #11 CPWMS Center-Aligned PWM Select 5 1 read-write 0 FTM counter operates in Up Counting mode. #0 1 FTM counter operates in Up-Down Counting mode. #1 PS Prescale Factor Selection 0 3 read-write 000 Divide by 1 #000 001 Divide by 2 #001 010 Divide by 4 #010 011 Divide by 8 #011 100 Divide by 16 #100 101 Divide by 32 #101 110 Divide by 64 #110 111 Divide by 128 #111 TOF Timer Overflow Flag 7 1 read-write 0 FTM counter has not overflowed. #0 1 FTM counter has overflowed. #1 TOIE Timer Overflow Interrupt Enable 6 1 read-write 0 Disable TOF interrupts. Use software polling. #0 1 Enable TOF interrupts. An interrupt is generated when TOF equals one. #1 STATUS Capture And Compare Status 0x50 32 read-write n 0x0 0x0 CH0F Channel 0 Flag 0 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH1F Channel 1 Flag 1 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH2F Channel 2 Flag 2 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH3F Channel 3 Flag 3 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH4F Channel 4 Flag 4 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH5F Channel 5 Flag 5 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH6F Channel 6 Flag 6 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH7F Channel 7 Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 SWOCTRL FTM Software Output Control 0x94 32 read-write n 0x0 0x0 CH0OC Channel 0 Software Output Control Enable 0 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH0OCV Channel 0 Software Output Control Value 8 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH1OC Channel 1 Software Output Control Enable 1 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH1OCV Channel 1 Software Output Control Value 9 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH2OC Channel 2 Software Output Control Enable 2 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH2OCV Channel 2 Software Output Control Value 10 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH3OC Channel 3 Software Output Control Enable 3 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH3OCV Channel 3 Software Output Control Value 11 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH4OC Channel 4 Software Output Control Enable 4 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH4OCV Channel 4 Software Output Control Value 12 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH5OC Channel 5 Software Output Control Enable 5 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH5OCV Channel 5 Software Output Control Value 13 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH6OC Channel 6 Software Output Control Enable 6 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH6OCV Channel 6 Software Output Control Value 14 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH7OC Channel 7 Software Output Control Enable 7 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH7OCV Channel 7 Software Output Control Value 15 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 SYNC Synchronization 0x58 32 read-write n 0x0 0x0 CNTMAX Maximum Loading Point Enable 1 1 read-write 0 The maximum loading point is disabled. #0 1 The maximum loading point is enabled. #1 CNTMIN Minimum Loading Point Enable 0 1 read-write 0 The minimum loading point is disabled. #0 1 The minimum loading point is enabled. #1 REINIT FTM Counter Reinitialization By Synchronization (FTM counter synchronization) 2 1 read-write 0 FTM counter continues to count normally. #0 1 FTM counter is updated with its initial value when the selected trigger is detected. #1 SWSYNC PWM Synchronization Software Trigger 7 1 read-write 0 Software trigger is not selected. #0 1 Software trigger is selected. #1 SYNCHOM Output Mask Synchronization 3 1 read-write 0 OUTMASK register is updated with the value of its buffer in all rising edges of the system clock. #0 1 OUTMASK register is updated with the value of its buffer only by the PWM synchronization. #1 TRIG0 PWM Synchronization Hardware Trigger 0 4 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG1 PWM Synchronization Hardware Trigger 1 5 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG2 PWM Synchronization Hardware Trigger 2 6 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 SYNCONF Synchronization Configuration 0x8C 32 read-write n 0x0 0x0 CNTINC CNTIN Register Synchronization 2 1 read-write 0 CNTIN register is updated with its buffer value at all rising edges of system clock. #0 1 CNTIN register is updated with its buffer value by the PWM synchronization. #1 HWINVC Inverting control synchronization is activated by a hardware trigger. 19 1 read-write 0 A hardware trigger does not activate the INVCTRL register synchronization. #0 1 A hardware trigger activates the INVCTRL register synchronization. #1 HWOM Output mask synchronization is activated by a hardware trigger. 18 1 read-write 0 A hardware trigger does not activate the OUTMASK register synchronization. #0 1 A hardware trigger activates the OUTMASK register synchronization. #1 HWRSTCNT FTM counter synchronization is activated by a hardware trigger. 16 1 read-write 0 A hardware trigger does not activate the FTM counter synchronization. #0 1 A hardware trigger activates the FTM counter synchronization. #1 HWSOC Software output control synchronization is activated by a hardware trigger. 20 1 read-write 0 A hardware trigger does not activate the SWOCTRL register synchronization. #0 1 A hardware trigger activates the SWOCTRL register synchronization. #1 HWTRIGMODE Hardware Trigger Mode 0 1 read-write 0 FTM clears the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #0 1 FTM does not clear the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #1 HWWRBUF MOD, CNTIN, and CV registers synchronization is activated by a hardware trigger. 17 1 read-write 0 A hardware trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 A hardware trigger activates MOD, CNTIN, and CV registers synchronization. #1 INVC INVCTRL Register Synchronization 4 1 read-write 0 INVCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 INVCTRL register is updated with its buffer value by the PWM synchronization. #1 SWINVC Inverting control synchronization is activated by the software trigger. 11 1 read-write 0 The software trigger does not activate the INVCTRL register synchronization. #0 1 The software trigger activates the INVCTRL register synchronization. #1 SWOC SWOCTRL Register Synchronization 5 1 read-write 0 SWOCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 SWOCTRL register is updated with its buffer value by the PWM synchronization. #1 SWOM Output mask synchronization is activated by the software trigger. 10 1 read-write 0 The software trigger does not activate the OUTMASK register synchronization. #0 1 The software trigger activates the OUTMASK register synchronization. #1 SWRSTCNT FTM counter synchronization is activated by the software trigger. 8 1 read-write 0 The software trigger does not activate the FTM counter synchronization. #0 1 The software trigger activates the FTM counter synchronization. #1 SWSOC Software output control synchronization is activated by the software trigger. 12 1 read-write 0 The software trigger does not activate the SWOCTRL register synchronization. #0 1 The software trigger activates the SWOCTRL register synchronization. #1 SWWRBUF MOD, CNTIN, and CV registers synchronization is activated by the software trigger. 9 1 read-write 0 The software trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 The software trigger activates MOD, CNTIN, and CV registers synchronization. #1 SYNCMODE Synchronization Mode 7 1 read-write 0 Legacy PWM synchronization is selected. #0 1 Enhanced PWM synchronization is selected. #1 FTM5 FlexTimer Module FTM 0x0 0x0 0x9C registers n FTM5 26 C0SC Channel (n) Status And Control 0x18 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C0V Channel (n) Value 0x20 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write C1SC Channel (n) Status And Control 0x2C 32 read-write n 0x0 0x0 CHF Channel Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CHIE Channel Interrupt Enable 6 1 read-write 0 Disable channel interrupts. Use software polling. #0 1 Enable channel interrupts. #1 DMA DMA Enable 0 1 read-write 0 Disable DMA transfers. #0 1 Enable DMA transfers. #1 ELSA Edge or Level Select 2 1 read-write ELSB Edge or Level Select 3 1 read-write ICRST FTM counter reset by the selected input capture event. 1 1 read-write 0 FTM counter is not reset when the selected channel (n) input event is detected. #0 1 FTM counter is reset when the selected channel (n) input event is detected. #1 MSA Channel Mode Select 4 1 read-write MSB Channel Mode Select 5 1 read-write C1V Channel (n) Value 0x38 32 read-write n 0x0 0x0 VAL Channel Value 0 16 read-write CNT Counter 0x4 32 read-write n 0x0 0x0 COUNT Counter Value 0 16 read-write CNTIN Counter Initial Value 0x4C 32 read-write n 0x0 0x0 INIT Initial Value Of The FTM Counter 0 16 read-write COMBINE Function For Linked Channels 0x64 32 read-write n 0x0 0x0 COMBINE0 Combine Channels For n = 0 0 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE1 Combine Channels For n = 2 8 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE2 Combine Channels For n = 4 16 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMBINE3 Combine Channels For n = 6 24 1 read-write 0 Channels (n) and (n+1) are independent. #0 1 Channels (n) and (n+1) are combined. #1 COMP0 Complement Of Channel (n) For n = 0 1 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP1 Complement Of Channel (n) For n = 2 9 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP2 Complement Of Channel (n) For n = 4 17 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 COMP3 Complement Of Channel (n) for n = 6 25 1 read-write 0 The channel (n+1) output is the same as the channel (n) output. #0 1 The channel (n+1) output is the complement of the channel (n) output. #1 DECAP0 Dual Edge Capture Mode Captures For n = 0 3 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP1 Dual Edge Capture Mode Captures For n = 2 11 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP2 Dual Edge Capture Mode Captures For n = 4 19 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAP3 Dual Edge Capture Mode Captures For n = 6 27 1 read-write 0 The dual edge captures are inactive. #0 1 The dual edge captures are active. #1 DECAPEN0 Dual Edge Capture Mode Enable For n = 0 2 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN1 Dual Edge Capture Mode Enable For n = 2 10 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN2 Dual Edge Capture Mode Enable For n = 4 18 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DECAPEN3 Dual Edge Capture Mode Enable For n = 6 26 1 read-write 0 The Dual Edge Capture mode in this pair of channels is disabled. #0 1 The Dual Edge Capture mode in this pair of channels is enabled. #1 DTEN0 Deadtime Enable For n = 0 4 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN1 Deadtime Enable For n = 2 12 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN2 Deadtime Enable For n = 4 20 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 DTEN3 Deadtime Enable For n = 6 28 1 read-write 0 The deadtime insertion in this pair of channels is disabled. #0 1 The deadtime insertion in this pair of channels is enabled. #1 FAULTEN0 Fault Control Enable For n = 0 6 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN1 Fault Control Enable For n = 2 14 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN2 Fault Control Enable For n = 4 22 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 FAULTEN3 Fault Control Enable For n = 6 30 1 read-write 0 The fault control in this pair of channels is disabled. #0 1 The fault control in this pair of channels is enabled. #1 SYNCEN0 Synchronization Enable For n = 0 5 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN1 Synchronization Enable For n = 2 13 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN2 Synchronization Enable For n = 4 21 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 SYNCEN3 Synchronization Enable For n = 6 29 1 read-write 0 The PWM synchronization in this pair of channels is disabled. #0 1 The PWM synchronization in this pair of channels is enabled. #1 CONF Configuration 0x84 32 read-write n 0x0 0x0 BDMMODE BDM Mode 6 2 read-write GTBEEN Global Time Base Enable 9 1 read-write 0 Use of an external global time base is disabled. #0 1 Use of an external global time base is enabled. #1 GTBEOUT Global Time Base Output 10 1 read-write 0 A global time base signal generation is disabled. #0 1 A global time base signal generation is enabled. #1 NUMTOF TOF Frequency 0 5 read-write DEADTIME Deadtime Insertion Control 0x68 32 read-write n 0x0 0x0 DTPS Deadtime Prescaler Value 6 2 read-write 0x Divide the system clock by 1. #0x 10 Divide the system clock by 4. #10 11 Divide the system clock by 16. #11 DTVAL Deadtime Value 0 6 read-write EXTTRIG FTM External Trigger 0x6C 32 read-write n 0x0 0x0 CH0TRIG Channel 0 Trigger Enable 4 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH1TRIG Channel 1 Trigger Enable 5 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH2TRIG Channel 2 Trigger Enable 0 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH3TRIG Channel 3 Trigger Enable 1 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH4TRIG Channel 4 Trigger Enable 2 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 CH5TRIG Channel 5 Trigger Enable 3 1 read-write 0 The generation of the channel trigger is disabled. #0 1 The generation of the channel trigger is enabled. #1 INITTRIGEN Initialization Trigger Enable 6 1 read-write 0 The generation of initialization trigger is disabled. #0 1 The generation of initialization trigger is enabled. #1 TRIGF Channel Trigger Flag 7 1 read-write 0 No channel trigger was generated. #0 1 A channel trigger was generated. #1 FILTER Input Capture Filter Control 0x78 32 read-write n 0x0 0x0 CH0FVAL Channel 0 Input Filter 0 4 read-write CH1FVAL Channel 1 Input Filter 4 4 read-write CH2FVAL Channel 2 Input Filter 8 4 read-write CH3FVAL Channel 3 Input Filter 12 4 read-write FLTCTRL Fault Control 0x7C 32 read-write n 0x0 0x0 FAULT0EN Fault Input 0 Enable 0 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT1EN Fault Input 1 Enable 1 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT2EN Fault Input 2 Enable 2 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FAULT3EN Fault Input 3 Enable 3 1 read-write 0 Fault input is disabled. #0 1 Fault input is enabled. #1 FFLTR0EN Fault Input 0 Filter Enable 4 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR1EN Fault Input 1 Filter Enable 5 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR2EN Fault Input 2 Filter Enable 6 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFLTR3EN Fault Input 3 Filter Enable 7 1 read-write 0 Fault input filter is disabled. #0 1 Fault input filter is enabled. #1 FFVAL Fault Input Filter 8 4 read-write FLTPOL FTM Fault Input Polarity 0x88 32 read-write n 0x0 0x0 FLT0POL Fault Input 0 Polarity 0 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT1POL Fault Input 1 Polarity 1 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT2POL Fault Input 2 Polarity 2 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FLT3POL Fault Input 3 Polarity 3 1 read-write 0 The fault input polarity is active high. A 1 at the fault input indicates a fault. #0 1 The fault input polarity is active low. A 0 at the fault input indicates a fault. #1 FMS Fault Mode Status 0x74 32 read-write n 0x0 0x0 FAULTF Fault Detection Flag 7 1 read-write 0 No fault condition was detected. #0 1 A fault condition was detected. #1 FAULTF0 Fault Detection Flag 0 0 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF1 Fault Detection Flag 1 1 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF2 Fault Detection Flag 2 2 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTF3 Fault Detection Flag 3 3 1 read-write 0 No fault condition was detected at the fault input. #0 1 A fault condition was detected at the fault input. #1 FAULTIN Fault Inputs 5 1 read-only 0 The logic OR of the enabled fault inputs is 0. #0 1 The logic OR of the enabled fault inputs is 1. #1 WPEN Write Protection Enable 6 1 read-write 0 Write protection is disabled. Write protected bits can be written. #0 1 Write protection is enabled. Write protected bits cannot be written. #1 INVCTRL FTM Inverting Control 0x90 32 read-write n 0x0 0x0 INV0EN Pair Channels 0 Inverting Enable 0 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV1EN Pair Channels 1 Inverting Enable 1 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV2EN Pair Channels 2 Inverting Enable 2 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 INV3EN Pair Channels 3 Inverting Enable 3 1 read-write 0 Inverting is disabled. #0 1 Inverting is enabled. #1 MOD Modulo 0x8 32 read-write n 0x0 0x0 MOD Modulo Value 0 16 read-write MODE Features Mode Selection 0x54 32 read-write n 0x0 0x0 CAPTEST Capture Test Mode Enable 4 1 read-write 0 Capture test mode is disabled. #0 1 Capture test mode is enabled. #1 FAULTIE Fault Interrupt Enable 7 1 read-write 0 Fault control interrupt is disabled. #0 1 Fault control interrupt is enabled. #1 FAULTM Fault Control Mode 5 2 read-write 00 Fault control is disabled for all channels. #00 01 Fault control is enabled for even channels only (channels 0, 2, 4, and 6), and the selected mode is the manual fault clearing. #01 10 Fault control is enabled for all channels, and the selected mode is the manual fault clearing. #10 11 Fault control is enabled for all channels, and the selected mode is the automatic fault clearing. #11 FTMEN FTM Enable 0 1 read-write 0 TPM compatibility. Free running counter and synchronization compatible with TPM. #0 1 Free running counter and synchronization are different from TPM behavior. #1 INIT Initialize The Channels Output 1 1 read-write PWMSYNC PWM Synchronization Mode 3 1 read-write 0 No restrictions. Software and hardware triggers can be used by MOD, CnV, OUTMASK, and FTM counter synchronization. #0 1 Software trigger can only be used by MOD and CnV synchronization, and hardware triggers can only be used by OUTMASK and FTM counter synchronization. #1 WPDIS Write Protection Disable 2 1 read-write 0 Write protection is enabled. #0 1 Write protection is disabled. #1 OUTINIT Initial State For Channels Output 0x5C 32 read-write n 0x0 0x0 CH0OI Channel 0 Output Initialization Value 0 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH1OI Channel 1 Output Initialization Value 1 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH2OI Channel 2 Output Initialization Value 2 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH3OI Channel 3 Output Initialization Value 3 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH4OI Channel 4 Output Initialization Value 4 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH5OI Channel 5 Output Initialization Value 5 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH6OI Channel 6 Output Initialization Value 6 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 CH7OI Channel 7 Output Initialization Value 7 1 read-write 0 The initialization value is 0. #0 1 The initialization value is 1. #1 OUTMASK Output Mask 0x60 32 read-write n 0x0 0x0 CH0OM Channel 0 Output Mask 0 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH1OM Channel 1 Output Mask 1 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH2OM Channel 2 Output Mask 2 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH3OM Channel 3 Output Mask 3 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH4OM Channel 4 Output Mask 4 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH5OM Channel 5 Output Mask 5 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH6OM Channel 6 Output Mask 6 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 CH7OM Channel 7 Output Mask 7 1 read-write 0 Channel output is not masked. It continues to operate normally. #0 1 Channel output is masked. It is forced to its inactive state. #1 POL Channels Polarity 0x70 32 read-write n 0x0 0x0 POL0 Channel 0 Polarity 0 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL1 Channel 1 Polarity 1 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL2 Channel 2 Polarity 2 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL3 Channel 3 Polarity 3 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL4 Channel 4 Polarity 4 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL5 Channel 5 Polarity 5 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL6 Channel 6 Polarity 6 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 POL7 Channel 7 Polarity 7 1 read-write 0 The channel polarity is active high. #0 1 The channel polarity is active low. #1 PWMLOAD FTM PWM Load 0x98 32 read-write n 0x0 0x0 CH0SEL Channel 0 Select 0 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH1SEL Channel 1 Select 1 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH2SEL Channel 2 Select 2 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH3SEL Channel 3 Select 3 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH4SEL Channel 4 Select 4 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH5SEL Channel 5 Select 5 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH6SEL Channel 6 Select 6 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 CH7SEL Channel 7 Select 7 1 read-write 0 Do not include the channel in the matching process. #0 1 Include the channel in the matching process. #1 LDOK Load Enable 9 1 read-write 0 Loading updated values is disabled. #0 1 Loading updated values is enabled. #1 QDCTRL Quadrature Decoder Control And Status 0x80 32 read-write n 0x0 0x0 PHAFLTREN Phase A Input Filter Enable 7 1 read-write 0 Phase A input filter is disabled. #0 1 Phase A input filter is enabled. #1 PHAPOL Phase A Input Polarity 5 1 read-write 0 Normal polarity. Phase A input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase A input signal is inverted before identifying the rising and falling edges of this signal. #1 PHBFLTREN Phase B Input Filter Enable 6 1 read-write 0 Phase B input filter is disabled. #0 1 Phase B input filter is enabled. #1 PHBPOL Phase B Input Polarity 4 1 read-write 0 Normal polarity. Phase B input signal is not inverted before identifying the rising and falling edges of this signal. #0 1 Inverted polarity. Phase B input signal is inverted before identifying the rising and falling edges of this signal. #1 QUADEN Quadrature Decoder Mode Enable 0 1 read-write 0 Quadrature Decoder mode is disabled. #0 1 Quadrature Decoder mode is enabled. #1 QUADIR FTM Counter Direction In Quadrature Decoder Mode 2 1 read-only 0 Counting direction is decreasing (FTM counter decrement). #0 1 Counting direction is increasing (FTM counter increment). #1 QUADMODE Quadrature Decoder Mode 3 1 read-write 0 Phase A and phase B encoding mode. #0 1 Count and direction encoding mode. #1 TOFDIR Timer Overflow Direction In Quadrature Decoder Mode 1 1 read-only 0 TOF bit was set on the bottom of counting. There was an FTM counter decrement and FTM counter changes from its minimum value (CNTIN register) to its maximum value (MOD register). #0 1 TOF bit was set on the top of counting. There was an FTM counter increment and FTM counter changes from its maximum value (MOD register) to its minimum value (CNTIN register). #1 SC Status And Control 0x0 32 read-write n 0x0 0x0 CLKS Clock Source Selection 3 2 read-write 00 No clock selected. This in effect disables the FTM counter. #00 01 System clock #01 10 Fixed frequency clock #10 11 External clock #11 CPWMS Center-Aligned PWM Select 5 1 read-write 0 FTM counter operates in Up Counting mode. #0 1 FTM counter operates in Up-Down Counting mode. #1 PS Prescale Factor Selection 0 3 read-write 000 Divide by 1 #000 001 Divide by 2 #001 010 Divide by 4 #010 011 Divide by 8 #011 100 Divide by 16 #100 101 Divide by 32 #101 110 Divide by 64 #110 111 Divide by 128 #111 TOF Timer Overflow Flag 7 1 read-write 0 FTM counter has not overflowed. #0 1 FTM counter has overflowed. #1 TOIE Timer Overflow Interrupt Enable 6 1 read-write 0 Disable TOF interrupts. Use software polling. #0 1 Enable TOF interrupts. An interrupt is generated when TOF equals one. #1 STATUS Capture And Compare Status 0x50 32 read-write n 0x0 0x0 CH0F Channel 0 Flag 0 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH1F Channel 1 Flag 1 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH2F Channel 2 Flag 2 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH3F Channel 3 Flag 3 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH4F Channel 4 Flag 4 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH5F Channel 5 Flag 5 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH6F Channel 6 Flag 6 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 CH7F Channel 7 Flag 7 1 read-write 0 No channel event has occurred. #0 1 A channel event has occurred. #1 SWOCTRL FTM Software Output Control 0x94 32 read-write n 0x0 0x0 CH0OC Channel 0 Software Output Control Enable 0 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH0OCV Channel 0 Software Output Control Value 8 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH1OC Channel 1 Software Output Control Enable 1 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH1OCV Channel 1 Software Output Control Value 9 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH2OC Channel 2 Software Output Control Enable 2 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH2OCV Channel 2 Software Output Control Value 10 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH3OC Channel 3 Software Output Control Enable 3 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH3OCV Channel 3 Software Output Control Value 11 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH4OC Channel 4 Software Output Control Enable 4 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH4OCV Channel 4 Software Output Control Value 12 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH5OC Channel 5 Software Output Control Enable 5 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH5OCV Channel 5 Software Output Control Value 13 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH6OC Channel 6 Software Output Control Enable 6 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH6OCV Channel 6 Software Output Control Value 14 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 CH7OC Channel 7 Software Output Control Enable 7 1 read-write 0 The channel output is not affected by software output control. #0 1 The channel output is affected by software output control. #1 CH7OCV Channel 7 Software Output Control Value 15 1 read-write 0 The software output control forces 0 to the channel output. #0 1 The software output control forces 1 to the channel output. #1 SYNC Synchronization 0x58 32 read-write n 0x0 0x0 CNTMAX Maximum Loading Point Enable 1 1 read-write 0 The maximum loading point is disabled. #0 1 The maximum loading point is enabled. #1 CNTMIN Minimum Loading Point Enable 0 1 read-write 0 The minimum loading point is disabled. #0 1 The minimum loading point is enabled. #1 REINIT FTM Counter Reinitialization By Synchronization (FTM counter synchronization) 2 1 read-write 0 FTM counter continues to count normally. #0 1 FTM counter is updated with its initial value when the selected trigger is detected. #1 SWSYNC PWM Synchronization Software Trigger 7 1 read-write 0 Software trigger is not selected. #0 1 Software trigger is selected. #1 SYNCHOM Output Mask Synchronization 3 1 read-write 0 OUTMASK register is updated with the value of its buffer in all rising edges of the system clock. #0 1 OUTMASK register is updated with the value of its buffer only by the PWM synchronization. #1 TRIG0 PWM Synchronization Hardware Trigger 0 4 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG1 PWM Synchronization Hardware Trigger 1 5 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 TRIG2 PWM Synchronization Hardware Trigger 2 6 1 read-write 0 Trigger is disabled. #0 1 Trigger is enabled. #1 SYNCONF Synchronization Configuration 0x8C 32 read-write n 0x0 0x0 CNTINC CNTIN Register Synchronization 2 1 read-write 0 CNTIN register is updated with its buffer value at all rising edges of system clock. #0 1 CNTIN register is updated with its buffer value by the PWM synchronization. #1 HWINVC Inverting control synchronization is activated by a hardware trigger. 19 1 read-write 0 A hardware trigger does not activate the INVCTRL register synchronization. #0 1 A hardware trigger activates the INVCTRL register synchronization. #1 HWOM Output mask synchronization is activated by a hardware trigger. 18 1 read-write 0 A hardware trigger does not activate the OUTMASK register synchronization. #0 1 A hardware trigger activates the OUTMASK register synchronization. #1 HWRSTCNT FTM counter synchronization is activated by a hardware trigger. 16 1 read-write 0 A hardware trigger does not activate the FTM counter synchronization. #0 1 A hardware trigger activates the FTM counter synchronization. #1 HWSOC Software output control synchronization is activated by a hardware trigger. 20 1 read-write 0 A hardware trigger does not activate the SWOCTRL register synchronization. #0 1 A hardware trigger activates the SWOCTRL register synchronization. #1 HWTRIGMODE Hardware Trigger Mode 0 1 read-write 0 FTM clears the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #0 1 FTM does not clear the TRIGj bit when the hardware trigger j is detected, where j = 0, 1,2. #1 HWWRBUF MOD, CNTIN, and CV registers synchronization is activated by a hardware trigger. 17 1 read-write 0 A hardware trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 A hardware trigger activates MOD, CNTIN, and CV registers synchronization. #1 INVC INVCTRL Register Synchronization 4 1 read-write 0 INVCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 INVCTRL register is updated with its buffer value by the PWM synchronization. #1 SWINVC Inverting control synchronization is activated by the software trigger. 11 1 read-write 0 The software trigger does not activate the INVCTRL register synchronization. #0 1 The software trigger activates the INVCTRL register synchronization. #1 SWOC SWOCTRL Register Synchronization 5 1 read-write 0 SWOCTRL register is updated with its buffer value at all rising edges of system clock. #0 1 SWOCTRL register is updated with its buffer value by the PWM synchronization. #1 SWOM Output mask synchronization is activated by the software trigger. 10 1 read-write 0 The software trigger does not activate the OUTMASK register synchronization. #0 1 The software trigger activates the OUTMASK register synchronization. #1 SWRSTCNT FTM counter synchronization is activated by the software trigger. 8 1 read-write 0 The software trigger does not activate the FTM counter synchronization. #0 1 The software trigger activates the FTM counter synchronization. #1 SWSOC Software output control synchronization is activated by the software trigger. 12 1 read-write 0 The software trigger does not activate the SWOCTRL register synchronization. #0 1 The software trigger activates the SWOCTRL register synchronization. #1 SWWRBUF MOD, CNTIN, and CV registers synchronization is activated by the software trigger. 9 1 read-write 0 The software trigger does not activate MOD, CNTIN, and CV registers synchronization. #0 1 The software trigger activates MOD, CNTIN, and CV registers synchronization. #1 SYNCMODE Synchronization Mode 7 1 read-write 0 Legacy PWM synchronization is selected. #0 1 Enhanced PWM synchronization is selected. #1 GPIOA General Purpose Input/Output GPIO 0x0 0x0 0x18 registers n PORTA 30 PCOR Port Clear Output Register 0x8 32 write-only n 0x0 0x0 PTCO Port Clear Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO0 Port Clear Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO1 Port Clear Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO10 Port Clear Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO11 Port Clear Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO12 Port Clear Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO13 Port Clear Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO14 Port Clear Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO15 Port Clear Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO16 Port Clear Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO17 Port Clear Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO18 Port Clear Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO19 Port Clear Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO2 Port Clear Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO20 Port Clear Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO21 Port Clear Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO22 Port Clear Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO23 Port Clear Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO24 Port Clear Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO25 Port Clear Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO26 Port Clear Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO27 Port Clear Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO28 Port Clear Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO29 Port Clear Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO3 Port Clear Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO30 Port Clear Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO31 Port Clear Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO4 Port Clear Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO5 Port Clear Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO6 Port Clear Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO7 Port Clear Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO8 Port Clear Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO9 Port Clear Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PDDR Port Data Direction Register 0x14 32 read-write n 0x0 0x0 PDD Port Data Direction 0 32 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD0 Port Data Direction 0 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD1 Port Data Direction 1 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD10 Port Data Direction 10 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD11 Port Data Direction 11 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD12 Port Data Direction 12 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD13 Port Data Direction 13 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD14 Port Data Direction 14 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD15 Port Data Direction 15 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD16 Port Data Direction 16 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD17 Port Data Direction 17 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD18 Port Data Direction 18 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD19 Port Data Direction 19 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD2 Port Data Direction 2 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD20 Port Data Direction 20 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD21 Port Data Direction 21 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD22 Port Data Direction 22 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD23 Port Data Direction 23 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD24 Port Data Direction 24 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD25 Port Data Direction 25 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD26 Port Data Direction 26 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD27 Port Data Direction 27 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD28 Port Data Direction 28 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD29 Port Data Direction 29 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD3 Port Data Direction 3 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD30 Port Data Direction 30 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD31 Port Data Direction 31 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD4 Port Data Direction 4 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD5 Port Data Direction 5 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD6 Port Data Direction 6 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD7 Port Data Direction 7 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD8 Port Data Direction 8 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD9 Port Data Direction 9 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDIR Port Data Input Register 0x10 32 read-only n 0x0 0x0 PDI Port Data Input 0 32 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI0 Port Data Input 0 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI1 Port Data Input 1 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI10 Port Data Input 10 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI11 Port Data Input 11 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI12 Port Data Input 12 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI13 Port Data Input 13 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI14 Port Data Input 14 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI15 Port Data Input 15 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI16 Port Data Input 16 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI17 Port Data Input 17 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI18 Port Data Input 18 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI19 Port Data Input 19 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI2 Port Data Input 2 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI20 Port Data Input 20 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI21 Port Data Input 21 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI22 Port Data Input 22 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI23 Port Data Input 23 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI24 Port Data Input 24 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI25 Port Data Input 25 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI26 Port Data Input 26 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI27 Port Data Input 27 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI28 Port Data Input 28 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI29 Port Data Input 29 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI3 Port Data Input 3 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI30 Port Data Input 30 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI31 Port Data Input 31 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI4 Port Data Input 4 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI5 Port Data Input 5 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI6 Port Data Input 6 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI7 Port Data Input 7 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI8 Port Data Input 8 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI9 Port Data Input 9 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDOR Port Data Output Register 0x0 32 read-write n 0x0 0x0 PDO Port Data Output 0 32 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO0 Port Data Output 0 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO1 Port Data Output 1 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO10 Port Data Output 10 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO11 Port Data Output 11 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO12 Port Data Output 12 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO13 Port Data Output 13 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO14 Port Data Output 14 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO15 Port Data Output 15 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO16 Port Data Output 16 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO17 Port Data Output 17 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO18 Port Data Output 18 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO19 Port Data Output 19 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO2 Port Data Output 2 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO20 Port Data Output 20 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO21 Port Data Output 21 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO22 Port Data Output 22 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO23 Port Data Output 23 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO24 Port Data Output 24 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO25 Port Data Output 25 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO26 Port Data Output 26 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO27 Port Data Output 27 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO28 Port Data Output 28 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO29 Port Data Output 29 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO3 Port Data Output 3 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO30 Port Data Output 30 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO31 Port Data Output 31 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO4 Port Data Output 4 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO5 Port Data Output 5 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO6 Port Data Output 6 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO7 Port Data Output 7 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO8 Port Data Output 8 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO9 Port Data Output 9 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PSOR Port Set Output Register 0x4 32 write-only n 0x0 0x0 PTSO Port Set Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO0 Port Set Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO1 Port Set Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO10 Port Set Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO11 Port Set Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO12 Port Set Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO13 Port Set Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO14 Port Set Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO15 Port Set Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO16 Port Set Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO17 Port Set Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO18 Port Set Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO19 Port Set Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO2 Port Set Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO20 Port Set Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO21 Port Set Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO22 Port Set Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO23 Port Set Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO24 Port Set Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO25 Port Set Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO26 Port Set Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO27 Port Set Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO28 Port Set Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO29 Port Set Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO3 Port Set Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO30 Port Set Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO31 Port Set Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO4 Port Set Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO5 Port Set Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO6 Port Set Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO7 Port Set Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO8 Port Set Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO9 Port Set Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTOR Port Toggle Output Register 0xC 32 write-only n 0x0 0x0 PTTO Port Toggle Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO0 Port Toggle Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO1 Port Toggle Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO10 Port Toggle Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO11 Port Toggle Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO12 Port Toggle Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO13 Port Toggle Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO14 Port Toggle Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO15 Port Toggle Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO16 Port Toggle Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO17 Port Toggle Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO18 Port Toggle Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO19 Port Toggle Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO2 Port Toggle Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO20 Port Toggle Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO21 Port Toggle Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO22 Port Toggle Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO23 Port Toggle Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO24 Port Toggle Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO25 Port Toggle Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO26 Port Toggle Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO27 Port Toggle Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO28 Port Toggle Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO29 Port Toggle Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO3 Port Toggle Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO30 Port Toggle Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO31 Port Toggle Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO4 Port Toggle Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO5 Port Toggle Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO6 Port Toggle Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO7 Port Toggle Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO8 Port Toggle Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO9 Port Toggle Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 GPIOB General Purpose Input/Output GPIO 0x0 0x0 0x18 registers n PORTB_PORTC_PORTD_PORTE 31 PCOR Port Clear Output Register 0x8 32 write-only n 0x0 0x0 PTCO Port Clear Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO0 Port Clear Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO1 Port Clear Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO10 Port Clear Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO11 Port Clear Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO12 Port Clear Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO13 Port Clear Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO14 Port Clear Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO15 Port Clear Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO16 Port Clear Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO17 Port Clear Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO18 Port Clear Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO19 Port Clear Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO2 Port Clear Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO20 Port Clear Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO21 Port Clear Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO22 Port Clear Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO23 Port Clear Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO24 Port Clear Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO25 Port Clear Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO26 Port Clear Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO27 Port Clear Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO28 Port Clear Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO29 Port Clear Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO3 Port Clear Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO30 Port Clear Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO31 Port Clear Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO4 Port Clear Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO5 Port Clear Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO6 Port Clear Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO7 Port Clear Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO8 Port Clear Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO9 Port Clear Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PDDR Port Data Direction Register 0x14 32 read-write n 0x0 0x0 PDD Port Data Direction 0 32 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD0 Port Data Direction 0 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD1 Port Data Direction 1 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD10 Port Data Direction 10 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD11 Port Data Direction 11 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD12 Port Data Direction 12 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD13 Port Data Direction 13 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD14 Port Data Direction 14 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD15 Port Data Direction 15 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD16 Port Data Direction 16 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD17 Port Data Direction 17 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD18 Port Data Direction 18 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD19 Port Data Direction 19 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD2 Port Data Direction 2 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD20 Port Data Direction 20 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD21 Port Data Direction 21 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD22 Port Data Direction 22 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD23 Port Data Direction 23 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD24 Port Data Direction 24 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD25 Port Data Direction 25 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD26 Port Data Direction 26 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD27 Port Data Direction 27 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD28 Port Data Direction 28 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD29 Port Data Direction 29 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD3 Port Data Direction 3 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD30 Port Data Direction 30 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD31 Port Data Direction 31 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD4 Port Data Direction 4 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD5 Port Data Direction 5 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD6 Port Data Direction 6 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD7 Port Data Direction 7 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD8 Port Data Direction 8 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD9 Port Data Direction 9 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDIR Port Data Input Register 0x10 32 read-only n 0x0 0x0 PDI Port Data Input 0 32 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI0 Port Data Input 0 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI1 Port Data Input 1 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI10 Port Data Input 10 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI11 Port Data Input 11 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI12 Port Data Input 12 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI13 Port Data Input 13 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI14 Port Data Input 14 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI15 Port Data Input 15 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI16 Port Data Input 16 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI17 Port Data Input 17 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI18 Port Data Input 18 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI19 Port Data Input 19 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI2 Port Data Input 2 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI20 Port Data Input 20 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI21 Port Data Input 21 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI22 Port Data Input 22 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI23 Port Data Input 23 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI24 Port Data Input 24 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI25 Port Data Input 25 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI26 Port Data Input 26 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI27 Port Data Input 27 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI28 Port Data Input 28 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI29 Port Data Input 29 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI3 Port Data Input 3 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI30 Port Data Input 30 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI31 Port Data Input 31 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI4 Port Data Input 4 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI5 Port Data Input 5 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI6 Port Data Input 6 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI7 Port Data Input 7 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI8 Port Data Input 8 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI9 Port Data Input 9 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDOR Port Data Output Register 0x0 32 read-write n 0x0 0x0 PDO Port Data Output 0 32 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO0 Port Data Output 0 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO1 Port Data Output 1 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO10 Port Data Output 10 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO11 Port Data Output 11 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO12 Port Data Output 12 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO13 Port Data Output 13 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO14 Port Data Output 14 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO15 Port Data Output 15 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO16 Port Data Output 16 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO17 Port Data Output 17 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO18 Port Data Output 18 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO19 Port Data Output 19 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO2 Port Data Output 2 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO20 Port Data Output 20 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO21 Port Data Output 21 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO22 Port Data Output 22 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO23 Port Data Output 23 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO24 Port Data Output 24 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO25 Port Data Output 25 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO26 Port Data Output 26 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO27 Port Data Output 27 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO28 Port Data Output 28 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO29 Port Data Output 29 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO3 Port Data Output 3 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO30 Port Data Output 30 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO31 Port Data Output 31 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO4 Port Data Output 4 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO5 Port Data Output 5 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO6 Port Data Output 6 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO7 Port Data Output 7 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO8 Port Data Output 8 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO9 Port Data Output 9 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PSOR Port Set Output Register 0x4 32 write-only n 0x0 0x0 PTSO Port Set Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO0 Port Set Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO1 Port Set Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO10 Port Set Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO11 Port Set Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO12 Port Set Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO13 Port Set Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO14 Port Set Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO15 Port Set Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO16 Port Set Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO17 Port Set Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO18 Port Set Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO19 Port Set Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO2 Port Set Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO20 Port Set Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO21 Port Set Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO22 Port Set Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO23 Port Set Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO24 Port Set Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO25 Port Set Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO26 Port Set Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO27 Port Set Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO28 Port Set Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO29 Port Set Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO3 Port Set Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO30 Port Set Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO31 Port Set Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO4 Port Set Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO5 Port Set Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO6 Port Set Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO7 Port Set Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO8 Port Set Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO9 Port Set Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTOR Port Toggle Output Register 0xC 32 write-only n 0x0 0x0 PTTO Port Toggle Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO0 Port Toggle Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO1 Port Toggle Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO10 Port Toggle Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO11 Port Toggle Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO12 Port Toggle Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO13 Port Toggle Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO14 Port Toggle Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO15 Port Toggle Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO16 Port Toggle Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO17 Port Toggle Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO18 Port Toggle Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO19 Port Toggle Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO2 Port Toggle Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO20 Port Toggle Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO21 Port Toggle Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO22 Port Toggle Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO23 Port Toggle Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO24 Port Toggle Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO25 Port Toggle Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO26 Port Toggle Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO27 Port Toggle Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO28 Port Toggle Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO29 Port Toggle Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO3 Port Toggle Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO30 Port Toggle Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO31 Port Toggle Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO4 Port Toggle Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO5 Port Toggle Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO6 Port Toggle Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO7 Port Toggle Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO8 Port Toggle Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO9 Port Toggle Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 GPIOC General Purpose Input/Output GPIO 0x0 0x0 0x18 registers n PORTB_PORTC_PORTD_PORTE 31 PCOR Port Clear Output Register 0x8 32 write-only n 0x0 0x0 PTCO Port Clear Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO0 Port Clear Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO1 Port Clear Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO10 Port Clear Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO11 Port Clear Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO12 Port Clear Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO13 Port Clear Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO14 Port Clear Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO15 Port Clear Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO16 Port Clear Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO17 Port Clear Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO18 Port Clear Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO19 Port Clear Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO2 Port Clear Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO20 Port Clear Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO21 Port Clear Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO22 Port Clear Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO23 Port Clear Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO24 Port Clear Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO25 Port Clear Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO26 Port Clear Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO27 Port Clear Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO28 Port Clear Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO29 Port Clear Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO3 Port Clear Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO30 Port Clear Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO31 Port Clear Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO4 Port Clear Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO5 Port Clear Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO6 Port Clear Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO7 Port Clear Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO8 Port Clear Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO9 Port Clear Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PDDR Port Data Direction Register 0x14 32 read-write n 0x0 0x0 PDD Port Data Direction 0 32 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD0 Port Data Direction 0 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD1 Port Data Direction 1 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD10 Port Data Direction 10 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD11 Port Data Direction 11 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD12 Port Data Direction 12 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD13 Port Data Direction 13 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD14 Port Data Direction 14 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD15 Port Data Direction 15 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD16 Port Data Direction 16 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD17 Port Data Direction 17 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD18 Port Data Direction 18 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD19 Port Data Direction 19 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD2 Port Data Direction 2 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD20 Port Data Direction 20 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD21 Port Data Direction 21 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD22 Port Data Direction 22 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD23 Port Data Direction 23 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD24 Port Data Direction 24 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD25 Port Data Direction 25 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD26 Port Data Direction 26 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD27 Port Data Direction 27 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD28 Port Data Direction 28 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD29 Port Data Direction 29 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD3 Port Data Direction 3 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD30 Port Data Direction 30 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD31 Port Data Direction 31 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD4 Port Data Direction 4 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD5 Port Data Direction 5 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD6 Port Data Direction 6 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD7 Port Data Direction 7 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD8 Port Data Direction 8 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD9 Port Data Direction 9 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDIR Port Data Input Register 0x10 32 read-only n 0x0 0x0 PDI Port Data Input 0 32 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI0 Port Data Input 0 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI1 Port Data Input 1 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI10 Port Data Input 10 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI11 Port Data Input 11 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI12 Port Data Input 12 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI13 Port Data Input 13 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI14 Port Data Input 14 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI15 Port Data Input 15 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI16 Port Data Input 16 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI17 Port Data Input 17 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI18 Port Data Input 18 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI19 Port Data Input 19 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI2 Port Data Input 2 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI20 Port Data Input 20 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI21 Port Data Input 21 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI22 Port Data Input 22 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI23 Port Data Input 23 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI24 Port Data Input 24 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI25 Port Data Input 25 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI26 Port Data Input 26 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI27 Port Data Input 27 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI28 Port Data Input 28 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI29 Port Data Input 29 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI3 Port Data Input 3 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI30 Port Data Input 30 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI31 Port Data Input 31 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI4 Port Data Input 4 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI5 Port Data Input 5 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI6 Port Data Input 6 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI7 Port Data Input 7 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI8 Port Data Input 8 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI9 Port Data Input 9 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDOR Port Data Output Register 0x0 32 read-write n 0x0 0x0 PDO Port Data Output 0 32 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO0 Port Data Output 0 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO1 Port Data Output 1 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO10 Port Data Output 10 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO11 Port Data Output 11 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO12 Port Data Output 12 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO13 Port Data Output 13 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO14 Port Data Output 14 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO15 Port Data Output 15 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO16 Port Data Output 16 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO17 Port Data Output 17 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO18 Port Data Output 18 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO19 Port Data Output 19 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO2 Port Data Output 2 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO20 Port Data Output 20 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO21 Port Data Output 21 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO22 Port Data Output 22 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO23 Port Data Output 23 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO24 Port Data Output 24 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO25 Port Data Output 25 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO26 Port Data Output 26 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO27 Port Data Output 27 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO28 Port Data Output 28 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO29 Port Data Output 29 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO3 Port Data Output 3 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO30 Port Data Output 30 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO31 Port Data Output 31 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO4 Port Data Output 4 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO5 Port Data Output 5 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO6 Port Data Output 6 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO7 Port Data Output 7 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO8 Port Data Output 8 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO9 Port Data Output 9 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PSOR Port Set Output Register 0x4 32 write-only n 0x0 0x0 PTSO Port Set Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO0 Port Set Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO1 Port Set Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO10 Port Set Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO11 Port Set Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO12 Port Set Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO13 Port Set Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO14 Port Set Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO15 Port Set Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO16 Port Set Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO17 Port Set Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO18 Port Set Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO19 Port Set Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO2 Port Set Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO20 Port Set Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO21 Port Set Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO22 Port Set Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO23 Port Set Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO24 Port Set Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO25 Port Set Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO26 Port Set Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO27 Port Set Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO28 Port Set Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO29 Port Set Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO3 Port Set Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO30 Port Set Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO31 Port Set Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO4 Port Set Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO5 Port Set Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO6 Port Set Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO7 Port Set Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO8 Port Set Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO9 Port Set Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTOR Port Toggle Output Register 0xC 32 write-only n 0x0 0x0 PTTO Port Toggle Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO0 Port Toggle Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO1 Port Toggle Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO10 Port Toggle Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO11 Port Toggle Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO12 Port Toggle Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO13 Port Toggle Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO14 Port Toggle Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO15 Port Toggle Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO16 Port Toggle Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO17 Port Toggle Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO18 Port Toggle Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO19 Port Toggle Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO2 Port Toggle Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO20 Port Toggle Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO21 Port Toggle Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO22 Port Toggle Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO23 Port Toggle Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO24 Port Toggle Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO25 Port Toggle Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO26 Port Toggle Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO27 Port Toggle Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO28 Port Toggle Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO29 Port Toggle Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO3 Port Toggle Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO30 Port Toggle Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO31 Port Toggle Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO4 Port Toggle Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO5 Port Toggle Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO6 Port Toggle Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO7 Port Toggle Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO8 Port Toggle Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO9 Port Toggle Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 GPIOD General Purpose Input/Output GPIO 0x0 0x0 0x18 registers n PORTB_PORTC_PORTD_PORTE 31 PCOR Port Clear Output Register 0x8 32 write-only n 0x0 0x0 PTCO Port Clear Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO0 Port Clear Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO1 Port Clear Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO10 Port Clear Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO11 Port Clear Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO12 Port Clear Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO13 Port Clear Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO14 Port Clear Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO15 Port Clear Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO16 Port Clear Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO17 Port Clear Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO18 Port Clear Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO19 Port Clear Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO2 Port Clear Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO20 Port Clear Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO21 Port Clear Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO22 Port Clear Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO23 Port Clear Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO24 Port Clear Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO25 Port Clear Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO26 Port Clear Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO27 Port Clear Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO28 Port Clear Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO29 Port Clear Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO3 Port Clear Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO30 Port Clear Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO31 Port Clear Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO4 Port Clear Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO5 Port Clear Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO6 Port Clear Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO7 Port Clear Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO8 Port Clear Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO9 Port Clear Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PDDR Port Data Direction Register 0x14 32 read-write n 0x0 0x0 PDD Port Data Direction 0 32 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD0 Port Data Direction 0 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD1 Port Data Direction 1 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD10 Port Data Direction 10 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD11 Port Data Direction 11 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD12 Port Data Direction 12 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD13 Port Data Direction 13 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD14 Port Data Direction 14 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD15 Port Data Direction 15 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD16 Port Data Direction 16 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD17 Port Data Direction 17 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD18 Port Data Direction 18 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD19 Port Data Direction 19 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD2 Port Data Direction 2 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD20 Port Data Direction 20 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD21 Port Data Direction 21 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD22 Port Data Direction 22 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD23 Port Data Direction 23 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD24 Port Data Direction 24 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD25 Port Data Direction 25 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD26 Port Data Direction 26 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD27 Port Data Direction 27 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD28 Port Data Direction 28 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD29 Port Data Direction 29 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD3 Port Data Direction 3 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD30 Port Data Direction 30 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD31 Port Data Direction 31 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD4 Port Data Direction 4 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD5 Port Data Direction 5 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD6 Port Data Direction 6 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD7 Port Data Direction 7 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD8 Port Data Direction 8 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD9 Port Data Direction 9 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDIR Port Data Input Register 0x10 32 read-only n 0x0 0x0 PDI Port Data Input 0 32 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI0 Port Data Input 0 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI1 Port Data Input 1 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI10 Port Data Input 10 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI11 Port Data Input 11 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI12 Port Data Input 12 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI13 Port Data Input 13 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI14 Port Data Input 14 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI15 Port Data Input 15 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI16 Port Data Input 16 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI17 Port Data Input 17 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI18 Port Data Input 18 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI19 Port Data Input 19 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI2 Port Data Input 2 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI20 Port Data Input 20 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI21 Port Data Input 21 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI22 Port Data Input 22 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI23 Port Data Input 23 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI24 Port Data Input 24 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI25 Port Data Input 25 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI26 Port Data Input 26 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI27 Port Data Input 27 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI28 Port Data Input 28 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI29 Port Data Input 29 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI3 Port Data Input 3 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI30 Port Data Input 30 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI31 Port Data Input 31 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI4 Port Data Input 4 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI5 Port Data Input 5 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI6 Port Data Input 6 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI7 Port Data Input 7 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI8 Port Data Input 8 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI9 Port Data Input 9 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDOR Port Data Output Register 0x0 32 read-write n 0x0 0x0 PDO Port Data Output 0 32 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO0 Port Data Output 0 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO1 Port Data Output 1 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO10 Port Data Output 10 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO11 Port Data Output 11 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO12 Port Data Output 12 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO13 Port Data Output 13 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO14 Port Data Output 14 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO15 Port Data Output 15 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO16 Port Data Output 16 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO17 Port Data Output 17 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO18 Port Data Output 18 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO19 Port Data Output 19 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO2 Port Data Output 2 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO20 Port Data Output 20 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO21 Port Data Output 21 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO22 Port Data Output 22 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO23 Port Data Output 23 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO24 Port Data Output 24 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO25 Port Data Output 25 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO26 Port Data Output 26 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO27 Port Data Output 27 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO28 Port Data Output 28 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO29 Port Data Output 29 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO3 Port Data Output 3 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO30 Port Data Output 30 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO31 Port Data Output 31 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO4 Port Data Output 4 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO5 Port Data Output 5 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO6 Port Data Output 6 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO7 Port Data Output 7 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO8 Port Data Output 8 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO9 Port Data Output 9 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PSOR Port Set Output Register 0x4 32 write-only n 0x0 0x0 PTSO Port Set Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO0 Port Set Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO1 Port Set Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO10 Port Set Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO11 Port Set Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO12 Port Set Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO13 Port Set Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO14 Port Set Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO15 Port Set Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO16 Port Set Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO17 Port Set Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO18 Port Set Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO19 Port Set Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO2 Port Set Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO20 Port Set Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO21 Port Set Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO22 Port Set Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO23 Port Set Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO24 Port Set Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO25 Port Set Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO26 Port Set Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO27 Port Set Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO28 Port Set Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO29 Port Set Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO3 Port Set Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO30 Port Set Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO31 Port Set Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO4 Port Set Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO5 Port Set Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO6 Port Set Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO7 Port Set Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO8 Port Set Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO9 Port Set Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTOR Port Toggle Output Register 0xC 32 write-only n 0x0 0x0 PTTO Port Toggle Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO0 Port Toggle Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO1 Port Toggle Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO10 Port Toggle Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO11 Port Toggle Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO12 Port Toggle Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO13 Port Toggle Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO14 Port Toggle Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO15 Port Toggle Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO16 Port Toggle Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO17 Port Toggle Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO18 Port Toggle Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO19 Port Toggle Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO2 Port Toggle Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO20 Port Toggle Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO21 Port Toggle Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO22 Port Toggle Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO23 Port Toggle Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO24 Port Toggle Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO25 Port Toggle Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO26 Port Toggle Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO27 Port Toggle Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO28 Port Toggle Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO29 Port Toggle Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO3 Port Toggle Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO30 Port Toggle Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO31 Port Toggle Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO4 Port Toggle Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO5 Port Toggle Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO6 Port Toggle Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO7 Port Toggle Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO8 Port Toggle Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO9 Port Toggle Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 GPIOE General Purpose Input/Output GPIO 0x0 0x0 0x18 registers n PORTB_PORTC_PORTD_PORTE 31 PCOR Port Clear Output Register 0x8 32 write-only n 0x0 0x0 PTCO Port Clear Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO0 Port Clear Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO1 Port Clear Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO10 Port Clear Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO11 Port Clear Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO12 Port Clear Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO13 Port Clear Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO14 Port Clear Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO15 Port Clear Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO16 Port Clear Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO17 Port Clear Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO18 Port Clear Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO19 Port Clear Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO2 Port Clear Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO20 Port Clear Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO21 Port Clear Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO22 Port Clear Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO23 Port Clear Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO24 Port Clear Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO25 Port Clear Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO26 Port Clear Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO27 Port Clear Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO28 Port Clear Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO29 Port Clear Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO3 Port Clear Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO30 Port Clear Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO31 Port Clear Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO4 Port Clear Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO5 Port Clear Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO6 Port Clear Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO7 Port Clear Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO8 Port Clear Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PTCO9 Port Clear Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is cleared to logic 0. #1 PDDR Port Data Direction Register 0x14 32 read-write n 0x0 0x0 PDD Port Data Direction 0 32 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD0 Port Data Direction 0 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD1 Port Data Direction 1 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD10 Port Data Direction 10 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD11 Port Data Direction 11 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD12 Port Data Direction 12 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD13 Port Data Direction 13 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD14 Port Data Direction 14 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD15 Port Data Direction 15 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD16 Port Data Direction 16 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD17 Port Data Direction 17 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD18 Port Data Direction 18 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD19 Port Data Direction 19 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD2 Port Data Direction 2 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD20 Port Data Direction 20 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD21 Port Data Direction 21 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD22 Port Data Direction 22 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD23 Port Data Direction 23 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD24 Port Data Direction 24 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD25 Port Data Direction 25 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD26 Port Data Direction 26 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD27 Port Data Direction 27 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD28 Port Data Direction 28 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD29 Port Data Direction 29 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD3 Port Data Direction 3 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD30 Port Data Direction 30 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD31 Port Data Direction 31 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD4 Port Data Direction 4 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD5 Port Data Direction 5 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD6 Port Data Direction 6 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD7 Port Data Direction 7 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD8 Port Data Direction 8 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDD9 Port Data Direction 9 1 read-write 0 Pin is configured as general-purpose input, for the GPIO function. #0 1 Pin is configured as general-purpose output, for the GPIO function. #1 PDIR Port Data Input Register 0x10 32 read-only n 0x0 0x0 PDI Port Data Input 0 32 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI0 Port Data Input 0 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI1 Port Data Input 1 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI10 Port Data Input 10 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI11 Port Data Input 11 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI12 Port Data Input 12 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI13 Port Data Input 13 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI14 Port Data Input 14 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI15 Port Data Input 15 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI16 Port Data Input 16 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI17 Port Data Input 17 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI18 Port Data Input 18 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI19 Port Data Input 19 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI2 Port Data Input 2 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI20 Port Data Input 20 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI21 Port Data Input 21 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI22 Port Data Input 22 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI23 Port Data Input 23 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI24 Port Data Input 24 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI25 Port Data Input 25 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI26 Port Data Input 26 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI27 Port Data Input 27 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI28 Port Data Input 28 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI29 Port Data Input 29 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI3 Port Data Input 3 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI30 Port Data Input 30 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI31 Port Data Input 31 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI4 Port Data Input 4 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI5 Port Data Input 5 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI6 Port Data Input 6 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI7 Port Data Input 7 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI8 Port Data Input 8 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDI9 Port Data Input 9 1 read-only 0 Pin logic level is logic 0, or is not configured for use by digital function. #0 1 Pin logic level is logic 1. #1 PDOR Port Data Output Register 0x0 32 read-write n 0x0 0x0 PDO Port Data Output 0 32 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO0 Port Data Output 0 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO1 Port Data Output 1 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO10 Port Data Output 10 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO11 Port Data Output 11 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO12 Port Data Output 12 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO13 Port Data Output 13 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO14 Port Data Output 14 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO15 Port Data Output 15 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO16 Port Data Output 16 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO17 Port Data Output 17 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO18 Port Data Output 18 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO19 Port Data Output 19 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO2 Port Data Output 2 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO20 Port Data Output 20 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO21 Port Data Output 21 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO22 Port Data Output 22 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO23 Port Data Output 23 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO24 Port Data Output 24 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO25 Port Data Output 25 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO26 Port Data Output 26 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO27 Port Data Output 27 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO28 Port Data Output 28 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO29 Port Data Output 29 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO3 Port Data Output 3 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO30 Port Data Output 30 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO31 Port Data Output 31 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO4 Port Data Output 4 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO5 Port Data Output 5 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO6 Port Data Output 6 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO7 Port Data Output 7 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO8 Port Data Output 8 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PDO9 Port Data Output 9 1 read-write 0 Logic level 0 is driven on pin, provided pin is configured for general-purpose output. #0 1 Logic level 1 is driven on pin, provided pin is configured for general-purpose output. #1 PSOR Port Set Output Register 0x4 32 write-only n 0x0 0x0 PTSO Port Set Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO0 Port Set Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO1 Port Set Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO10 Port Set Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO11 Port Set Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO12 Port Set Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO13 Port Set Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO14 Port Set Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO15 Port Set Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO16 Port Set Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO17 Port Set Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO18 Port Set Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO19 Port Set Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO2 Port Set Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO20 Port Set Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO21 Port Set Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO22 Port Set Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO23 Port Set Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO24 Port Set Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO25 Port Set Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO26 Port Set Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO27 Port Set Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO28 Port Set Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO29 Port Set Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO3 Port Set Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO30 Port Set Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO31 Port Set Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO4 Port Set Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO5 Port Set Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO6 Port Set Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO7 Port Set Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO8 Port Set Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTSO9 Port Set Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to logic 1. #1 PTOR Port Toggle Output Register 0xC 32 write-only n 0x0 0x0 PTTO Port Toggle Output 0 32 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO0 Port Toggle Output 0 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO1 Port Toggle Output 1 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO10 Port Toggle Output 10 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO11 Port Toggle Output 11 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO12 Port Toggle Output 12 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO13 Port Toggle Output 13 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO14 Port Toggle Output 14 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO15 Port Toggle Output 15 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO16 Port Toggle Output 16 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO17 Port Toggle Output 17 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO18 Port Toggle Output 18 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO19 Port Toggle Output 19 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO2 Port Toggle Output 2 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO20 Port Toggle Output 20 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO21 Port Toggle Output 21 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO22 Port Toggle Output 22 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO23 Port Toggle Output 23 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO24 Port Toggle Output 24 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO25 Port Toggle Output 25 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO26 Port Toggle Output 26 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO27 Port Toggle Output 27 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO28 Port Toggle Output 28 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO29 Port Toggle Output 29 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO3 Port Toggle Output 3 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO30 Port Toggle Output 30 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO31 Port Toggle Output 31 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO4 Port Toggle Output 4 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO5 Port Toggle Output 5 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO6 Port Toggle Output 6 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO7 Port Toggle Output 7 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO8 Port Toggle Output 8 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 PTTO9 Port Toggle Output 9 1 write-only 0 Corresponding bit in PDORn does not change. #0 1 Corresponding bit in PDORn is set to the inverse of its existing logic state. #1 I2C0 Inter-Integrated Circuit I2C0 0x0 0x0 0xC registers n I2C0 8 A1 I2C Address Register 1 0x0 8 read-write n 0x0 0x0 AD Address 1 7 read-write A2 I2C Address Register 2 0x9 8 read-write n 0x0 0x0 SAD SMBus Address 1 7 read-write C1 I2C Control Register 1 0x2 8 read-write n 0x0 0x0 DMAEN DMA Enable 0 1 read-write 0 All DMA signalling disabled. #0 1 DMA transfer is enabled. While SMB[FACK] = 0, the following conditions trigger the DMA request: a data byte is received, and either address or data is transmitted. (ACK/NACK is automatic) the first byte received matches the A1 register or is a general call address. If any address matching occurs, S[IAAS] and S[TCF] are set. If the direction of transfer is known from master to slave, then it is not required to check S[SRW]. With this assumption, DMA can also be used in this case. In other cases, if the master reads data from the slave, then it is required to rewrite the C1 register operation. With this assumption, DMA cannot be used. When FACK = 1, an address or a data byte is transmitted. #1 IICEN I2C Enable 7 1 read-write 0 Disabled #0 1 Enabled #1 IICIE I2C Interrupt Enable 6 1 read-write 0 Disabled #0 1 Enabled #1 MST Master Mode Select 5 1 read-write 0 Slave mode #0 1 Master mode #1 RSTA Repeat START 2 1 write-only TX Transmit Mode Select 4 1 read-write 0 Receive #0 1 Transmit #1 TXAK Transmit Acknowledge Enable 3 1 read-write 0 An acknowledge signal is sent to the bus on the following receiving byte (if FACK is cleared) or the current receiving byte (if FACK is set). #0 1 No acknowledge signal is sent to the bus on the following receiving data byte (if FACK is cleared) or the current receiving data byte (if FACK is set). #1 WUEN Wakeup Enable 1 1 read-write 0 Normal operation. No interrupt generated when address matching in low power mode. #0 1 Enables the wakeup function in low power mode. #1 C2 I2C Control Register 2 0x5 8 read-write n 0x0 0x0 AD Slave Address 0 3 read-write ADEXT Address Extension 6 1 read-write 0 7-bit address scheme #0 1 10-bit address scheme #1 GCAEN General Call Address Enable 7 1 read-write 0 Disabled #0 1 Enabled #1 HDRS High Drive Select 5 1 read-write 0 Normal drive mode #0 1 High drive mode #1 RMEN Range Address Matching Enable 3 1 read-write 0 Range mode disabled. No address matching occurs for an address within the range of values of the A1 and RA registers. #0 1 Range mode enabled. Address matching occurs when a slave receives an address within the range of values of the A1 and RA registers. #1 SBRC Slave Baud Rate Control 4 1 read-write 0 The slave baud rate follows the master baud rate and clock stretching may occur #0 1 Slave baud rate is independent of the master baud rate #1 D I2C Data I/O register 0x4 8 read-write n 0x0 0x0 DATA Data 0 8 read-write F I2C Frequency Divider register 0x1 8 read-write n 0x0 0x0 ICR ClockRate 0 6 read-write MULT Multiplier Factor 6 2 read-write 00 mul = 1 #00 01 mul = 2 #01 10 mul = 4 #10 FLT I2C Programmable Input Glitch Filter Register 0x6 8 read-write n 0x0 0x0 FLT I2C Programmable Filter Factor 0 4 read-write 0 No filter/bypass #0000 SHEN Stop Hold Enable 7 1 read-write 0 Stop holdoff is disabled. The MCU's entry to stop mode is not gated. #0 1 Stop holdoff is enabled. #1 SSIE I2C Bus Stop or Start Interrupt Enable 5 1 read-write 0 Stop or start detection interrupt is disabled #0 1 Stop or start detection interrupt is enabled #1 STARTF I2C Bus Start Detect Flag 4 1 read-write 0 No start happens on I2C bus #0 1 Start detected on I2C bus #1 STOPF I2C Bus Stop Detect Flag 6 1 read-write 0 No stop happens on I2C bus #0 1 Stop detected on I2C bus #1 RA I2C Range Address register 0x7 8 read-write n 0x0 0x0 RAD Range Slave Address 1 7 read-write S I2C Status register 0x3 8 read-write n 0x0 0x0 ARBL Arbitration Lost 4 1 read-write 0 Standard bus operation. #0 1 Loss of arbitration. #1 BUSY Bus Busy 5 1 read-only 0 Bus is idle #0 1 Bus is busy #1 IAAS Addressed As A Slave 6 1 read-write 0 Not addressed #0 1 Addressed as a slave #1 IICIF Interrupt Flag 1 1 read-write 0 No interrupt pending #0 1 Interrupt pending #1 RAM Range Address Match 3 1 read-write 0 Not addressed #0 1 Addressed as a slave #1 RXAK Receive Acknowledge 0 1 read-only 0 Acknowledge signal was received after the completion of one byte of data transmission on the bus #0 1 No acknowledge signal detected #1 SRW Slave Read/Write 2 1 read-only 0 Slave receive, master writing to slave #0 1 Slave transmit, master reading from slave #1 TCF Transfer Complete Flag 7 1 read-only 0 Transfer in progress #0 1 Transfer complete #1 SLTH I2C SCL Low Timeout Register High 0xA 8 read-write n 0x0 0x0 SSLT SSLT[15:8] 0 8 read-write SLTL I2C SCL Low Timeout Register Low 0xB 8 read-write n 0x0 0x0 SSLT SSLT[7:0] 0 8 read-write SMB I2C SMBus Control and Status register 0x8 8 read-write n 0x0 0x0 ALERTEN SMBus Alert Response Address Enable 6 1 read-write 0 SMBus alert response address matching is disabled #0 1 SMBus alert response address matching is enabled #1 FACK Fast NACK/ACK Enable 7 1 read-write 0 An ACK or NACK is sent on the following receiving data byte #0 1 Writing 0 to TXAK after receiving a data byte generates an ACK. Writing 1 to TXAK after receiving a data byte generates a NACK. #1 SHTF1 SCL High Timeout Flag 1 2 1 read-only 0 No SCL high and SDA high timeout occurs #0 1 SCL high and SDA high timeout occurs #1 SHTF2 SCL High Timeout Flag 2 1 1 read-write 0 No SCL high and SDA low timeout occurs #0 1 SCL high and SDA low timeout occurs #1 SHTF2IE SHTF2 Interrupt Enable 0 1 read-write 0 SHTF2 interrupt is disabled #0 1 SHTF2 interrupt is enabled #1 SIICAEN Second I2C Address Enable 5 1 read-write 0 I2C address register 2 matching is disabled #0 1 I2C address register 2 matching is enabled #1 SLTF SCL Low Timeout Flag 3 1 read-write 0 No low timeout occurs #0 1 Low timeout occurs #1 TCKSEL Timeout Counter Clock Select 4 1 read-write 0 Timeout counter counts at the frequency of the I2C module clock / 64 #0 1 Timeout counter counts at the frequency of the I2C module clock #1 LLWU Low leakage wakeup unit LLWU 0x0 0x0 0x10 registers n LLWU 7 FILT1 LLWU Pin Filter 1 register 0xE 8 read-write n 0x0 0x0 FILTE Digital Filter On External Pin 5 2 read-write 00 Filter disabled #00 01 Filter posedge detect enabled #01 10 Filter negedge detect enabled #10 11 Filter any edge detect enabled #11 FILTF Filter Detect Flag 7 1 read-write 0 Pin Filter 1 was not a wakeup source #0 1 Pin Filter 1 was a wakeup source #1 FILTSEL Filter Pin Select 0 5 read-write 00000 Select LLWU_P0 for filter #00000 11111 Select LLWU_P31 for filter #11111 FILT2 LLWU Pin Filter 2 register 0xF 8 read-write n 0x0 0x0 FILTE Digital Filter On External Pin 5 2 read-write 00 Filter disabled #00 01 Filter posedge detect enabled #01 10 Filter negedge detect enabled #10 11 Filter any edge detect enabled #11 FILTF Filter Detect Flag 7 1 read-write 0 Pin Filter 2 was not a wakeup source #0 1 Pin Filter 2 was a wakeup source #1 FILTSEL Filter Pin Select 0 5 read-write 00000 Select LLWU_P0 for filter #00000 11111 Select LLWU_P31 for filter #11111 ME LLWU Module Enable register 0x8 8 read-write n 0x0 0x0 WUME0 Wakeup Module Enable For Module 0 0 1 read-write 0 Internal module flag not used as wakeup source #0 1 Internal module flag used as wakeup source #1 WUME1 Wakeup Module Enable for Module 1 1 1 read-write 0 Internal module flag not used as wakeup source #0 1 Internal module flag used as wakeup source #1 WUME2 Wakeup Module Enable For Module 2 2 1 read-write 0 Internal module flag not used as wakeup source #0 1 Internal module flag used as wakeup source #1 WUME3 Wakeup Module Enable For Module 3 3 1 read-write 0 Internal module flag not used as wakeup source #0 1 Internal module flag used as wakeup source #1 WUME4 Wakeup Module Enable For Module 4 4 1 read-write 0 Internal module flag not used as wakeup source #0 1 Internal module flag used as wakeup source #1 WUME5 Wakeup Module Enable For Module 5 5 1 read-write 0 Internal module flag not used as wakeup source #0 1 Internal module flag used as wakeup source #1 WUME6 Wakeup Module Enable For Module 6 6 1 read-write 0 Internal module flag not used as wakeup source #0 1 Internal module flag used as wakeup source #1 WUME7 Wakeup Module Enable For Module 7 7 1 read-write 0 Internal module flag not used as wakeup source #0 1 Internal module flag used as wakeup source #1 MF5 LLWU Module Flag 5 register 0xD 8 read-only n 0x0 0x0 MWUF0 Wakeup flag For module 0 0 1 read-only 0 Module 0 input was not a wakeup source #0 1 Module 0 input was a wakeup source #1 MWUF1 Wakeup flag For module 1 1 1 read-only 0 Module 1 input was not a wakeup source #0 1 Module 1 input was a wakeup source #1 MWUF2 Wakeup flag For module 2 2 1 read-only 0 Module 2 input was not a wakeup source #0 1 Module 2 input was a wakeup source #1 MWUF3 Wakeup flag For module 3 3 1 read-only 0 Module 3 input was not a wakeup source #0 1 Module 3 input was a wakeup source #1 MWUF4 Wakeup flag For module 4 4 1 read-only 0 Module 4 input was not a wakeup source #0 1 Module 4 input was a wakeup source #1 MWUF5 Wakeup flag For module 5 5 1 read-only 0 Module 5 input was not a wakeup source #0 1 Module 5 input was a wakeup source #1 MWUF6 Wakeup flag For module 6 6 1 read-only 0 Module 6 input was not a wakeup source #0 1 Module 6 input was a wakeup source #1 MWUF7 Wakeup flag For module 7 7 1 read-only 0 Module 7 input was not a wakeup source #0 1 Module 7 input was a wakeup source #1 PE1 LLWU Pin Enable 1 register 0x0 8 read-write n 0x0 0x0 WUPE0 Wakeup Pin Enable For LLWU_P0 0 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE1 Wakeup Pin Enable For LLWU_P1 2 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE2 Wakeup Pin Enable For LLWU_P2 4 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE3 Wakeup Pin Enable For LLWU_P3 6 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 PE2 LLWU Pin Enable 2 register 0x1 8 read-write n 0x0 0x0 WUPE4 Wakeup Pin Enable For LLWU_P4 0 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE5 Wakeup Pin Enable For LLWU_P5 2 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE6 Wakeup Pin Enable For LLWU_P6 4 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE7 Wakeup Pin Enable For LLWU_P7 6 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 PE3 LLWU Pin Enable 3 register 0x2 8 read-write n 0x0 0x0 WUPE10 Wakeup Pin Enable For LLWU_P10 4 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE11 Wakeup Pin Enable For LLWU_P11 6 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE8 Wakeup Pin Enable For LLWU_P8 0 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE9 Wakeup Pin Enable For LLWU_P9 2 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 PE4 LLWU Pin Enable 4 register 0x3 8 read-write n 0x0 0x0 WUPE12 Wakeup Pin Enable For LLWU_P12 0 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE13 Wakeup Pin Enable For LLWU_P13 2 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE14 Wakeup Pin Enable For LLWU_P14 4 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE15 Wakeup Pin Enable For LLWU_P15 6 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 PE5 LLWU Pin Enable 5 register 0x4 8 read-write n 0x0 0x0 WUPE16 Wakeup Pin Enable For LLWU_P16 0 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE17 Wakeup Pin Enable For LLWU_P17 2 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE18 Wakeup Pin Enable For LLWU_P18 4 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE19 Wakeup Pin Enable For LLWU_P19 6 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 PE6 LLWU Pin Enable 6 register 0x5 8 read-write n 0x0 0x0 WUPE20 Wakeup Pin Enable For LLWU_P20 0 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE21 Wakeup Pin Enable For LLWU_P21 2 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE22 Wakeup Pin Enable For LLWU_P22 4 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE23 Wakeup Pin Enable For LLWU_P23 6 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 PE7 LLWU Pin Enable 7 register 0x6 8 read-write n 0x0 0x0 WUPE24 Wakeup Pin Enable For LLWU_P24 0 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE25 Wakeup Pin Enable For LLWU_P25 2 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE26 Wakeup Pin Enable For LLWU_P26 4 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE27 Wakeup Pin Enable For LLWU_P27 6 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 PE8 LLWU Pin Enable 8 register 0x7 8 read-write n 0x0 0x0 WUPE28 Wakeup Pin Enable For LLWU_P28 0 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE29 Wakeup Pin Enable For LLWU_P29 2 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE30 Wakeup Pin Enable For LLWU_P30 4 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 WUPE31 Wakeup Pin Enable For LLWU_P31 6 2 read-write 00 External input pin disabled as wakeup input #00 01 External input pin enabled with rising edge detection #01 10 External input pin enabled with falling edge detection #10 11 External input pin enabled with any change detection #11 PF1 LLWU Pin Flag 1 register 0x9 8 read-write n 0x0 0x0 WUF0 Wakeup Flag For LLWU_P0 0 1 read-write 0 LLWU_P0 input was not a wakeup source #0 1 LLWU_P0 input was a wakeup source #1 WUF1 Wakeup Flag For LLWU_P1 1 1 read-write 0 LLWU_P1 input was not a wakeup source #0 1 LLWU_P1 input was a wakeup source #1 WUF2 Wakeup Flag For LLWU_P2 2 1 read-write 0 LLWU_P2 input was not a wakeup source #0 1 LLWU_P2 input was a wakeup source #1 WUF3 Wakeup Flag For LLWU_P3 3 1 read-write 0 LLWU_P3 input was not a wakeup source #0 1 LLWU_P3 input was a wakeup source #1 WUF4 Wakeup Flag For LLWU_P4 4 1 read-write 0 LLWU_P4 input was not a wakeup source #0 1 LLWU_P4 input was a wakeup source #1 WUF5 Wakeup Flag For LLWU_P5 5 1 read-write 0 LLWU_P5 input was not a wakeup source #0 1 LLWU_P5 input was a wakeup source #1 WUF6 Wakeup Flag For LLWU_P6 6 1 read-write 0 LLWU_P6 input was not a wakeup source #0 1 LLWU_P6 input was a wakeup source #1 WUF7 Wakeup Flag For LLWU_P7 7 1 read-write 0 LLWU_P7 input was not a wakeup source #0 1 LLWU_P7 input was a wakeup source #1 PF2 LLWU Pin Flag 2 register 0xA 8 read-write n 0x0 0x0 WUF10 Wakeup Flag For LLWU_P10 2 1 read-write 0 LLWU_P10 input was not a wakeup source #0 1 LLWU_P10 input was a wakeup source #1 WUF11 Wakeup Flag For LLWU_P11 3 1 read-write 0 LLWU_P11 input was not a wakeup source #0 1 LLWU_P11 input was a wakeup source #1 WUF12 Wakeup Flag For LLWU_P12 4 1 read-write 0 LLWU_P12 input was not a wakeup source #0 1 LLWU_P12 input was a wakeup source #1 WUF13 Wakeup Flag For LLWU_P13 5 1 read-write 0 LLWU_P13 input was not a wakeup source #0 1 LLWU_P13 input was a wakeup source #1 WUF14 Wakeup Flag For LLWU_P14 6 1 read-write 0 LLWU_P14 input was not a wakeup source #0 1 LLWU_P14 input was a wakeup source #1 WUF15 Wakeup Flag For LLWU_P15 7 1 read-write 0 LLWU_P15 input was not a wakeup source #0 1 LLWU_P15 input was a wakeup source #1 WUF8 Wakeup Flag For LLWU_P8 0 1 read-write 0 LLWU_P8 input was not a wakeup source #0 1 LLWU_P8 input was a wakeup source #1 WUF9 Wakeup Flag For LLWU_P9 1 1 read-write 0 LLWU_P9 input was not a wakeup source #0 1 LLWU_P9 input was a wakeup source #1 PF3 LLWU Pin Flag 3 register 0xB 8 read-write n 0x0 0x0 WUF16 Wakeup Flag For LLWU_P16 0 1 read-write 0 LLWU_P16 input was not a wakeup source #0 1 LLWU_P16 input was a wakeup source #1 WUF17 Wakeup Flag For LLWU_P17 1 1 read-write 0 LLWU_P17 input was not a wakeup source #0 1 LLWU_P17 input was a wakeup source #1 WUF18 Wakeup Flag For LLWU_P18 2 1 read-write 0 LLWU_P18 input was not a wakeup source #0 1 LLWU_P18 input was a wakeup source #1 WUF19 Wakeup Flag For LLWU_P19 3 1 read-write 0 LLWU_P19 input was not a wakeup source #0 1 LLWU_P19 input was a wakeup source #1 WUF20 Wakeup Flag For LLWU_P20 4 1 read-write 0 LLWU_P20 input was not a wakeup source #0 1 LLWU_P20 input was a wakeup source #1 WUF21 Wakeup Flag For LLWU_P21 5 1 read-write 0 LLWU_P21 input was not a wakeup source #0 1 LLWU_P21 input was a wakeup source #1 WUF22 Wakeup Flag For LLWU_P22 6 1 read-write 0 LLWU_P22 input was not a wakeup source #0 1 LLWU_P22 input was a wakeup source #1 WUF23 Wakeup Flag For LLWU_P23 7 1 read-write 0 LLWU_P23 input was not a wakeup source #0 1 LLWU_P23 input was a wakeup source #1 PF4 LLWU Pin Flag 4 register 0xC 8 read-write n 0x0 0x0 WUF24 Wakeup Flag For LLWU_P24 0 1 read-write 0 LLWU_P24 input was not a wakeup source #0 1 LLWU_P24 input was a wakeup source #1 WUF25 Wakeup Flag For LLWU_P25 1 1 read-write 0 LLWU_P25 input was not a wakeup source #0 1 LLWU_P25 input was a wakeup source #1 WUF26 Wakeup Flag For LLWU_P26 2 1 read-write 0 LLWU_P26 input was not a wakeup source #0 1 LLWU_P26 input was a wakeup source #1 WUF27 Wakeup Flag For LLWU_P27 3 1 read-write 0 LLWU_P27 input was not a wakeup source #0 1 LLWU_P27 input was a wakeup source #1 WUF28 Wakeup Flag For LLWU_P28 4 1 read-write 0 LLWU_P28 input was not a wakeup source #0 1 LLWU_P28 input was a wakeup source #1 WUF29 Wakeup Flag For LLWU_P29 5 1 read-write 0 LLWU_P29 input was not a wakeup source #0 1 LLWU_P29 input was a wakeup source #1 WUF30 Wakeup Flag For LLWU_P30 6 1 read-write 0 LLWU_P30 input was not a wakeup source #0 1 LLWU_P30 input was a wakeup source #1 WUF31 Wakeup Flag For LLWU_P31 7 1 read-write 0 LLWU_P31 input was not a wakeup source #0 1 LLWU_P31 input was a wakeup source #1 LPTMR0 Low Power Timer LPTMR0 0x0 0x0 0x10 registers n LPTMR0 28 CMR Low Power Timer Compare Register 0x8 32 read-write n 0x0 0x0 COMPARE Compare Value 0 16 read-write CNR Low Power Timer Counter Register 0xC 32 read-write n 0x0 0x0 COUNTER Counter Value 0 16 read-write CSR Low Power Timer Control Status Register 0x0 32 read-write n 0x0 0x0 TCF Timer Compare Flag 7 1 read-write 0 The value of CNR is not equal to CMR and increments. #0 1 The value of CNR is equal to CMR and increments. #1 TEN Timer Enable 0 1 read-write 0 LPTMR is disabled and internal logic is reset. #0 1 LPTMR is enabled. #1 TFC Timer Free-Running Counter 2 1 read-write 0 CNR is reset whenever TCF is set. #0 1 CNR is reset on overflow. #1 TIE Timer Interrupt Enable 6 1 read-write 0 Timer interrupt disabled. #0 1 Timer interrupt enabled. #1 TMS Timer Mode Select 1 1 read-write 0 Time Counter mode. #0 1 Pulse Counter mode. #1 TPP Timer Pin Polarity 3 1 read-write 0 Pulse Counter input source is active-high, and the CNR will increment on the rising-edge. #0 1 Pulse Counter input source is active-low, and the CNR will increment on the falling-edge. #1 TPS Timer Pin Select 4 2 read-write 00 Pulse counter input 0 is selected. #00 01 Pulse counter input 1 is selected. #01 10 Pulse counter input 2 is selected. #10 11 Pulse counter input 3 is selected. #11 PSR Low Power Timer Prescale Register 0x4 32 read-write n 0x0 0x0 PBYP Prescaler Bypass 2 1 read-write 0 Prescaler/glitch filter is enabled. #0 1 Prescaler/glitch filter is bypassed. #1 PCS Prescaler Clock Select 0 2 read-write 00 Prescaler/glitch filter clock 0 selected. #00 01 Prescaler/glitch filter clock 1 selected. #01 10 Prescaler/glitch filter clock 2 selected. #10 11 Prescaler/glitch filter clock 3 selected. #11 PRESCALE Prescale Value 3 4 read-write 0000 Prescaler divides the prescaler clock by 2; glitch filter does not support this configuration. #0000 0001 Prescaler divides the prescaler clock by 4; glitch filter recognizes change on input pin after 2 rising clock edges. #0001 0010 Prescaler divides the prescaler clock by 8; glitch filter recognizes change on input pin after 4 rising clock edges. #0010 0011 Prescaler divides the prescaler clock by 16; glitch filter recognizes change on input pin after 8 rising clock edges. #0011 0100 Prescaler divides the prescaler clock by 32; glitch filter recognizes change on input pin after 16 rising clock edges. #0100 0101 Prescaler divides the prescaler clock by 64; glitch filter recognizes change on input pin after 32 rising clock edges. #0101 0110 Prescaler divides the prescaler clock by 128; glitch filter recognizes change on input pin after 64 rising clock edges. #0110 0111 Prescaler divides the prescaler clock by 256; glitch filter recognizes change on input pin after 128 rising clock edges. #0111 1000 Prescaler divides the prescaler clock by 512; glitch filter recognizes change on input pin after 256 rising clock edges. #1000 1001 Prescaler divides the prescaler clock by 1024; glitch filter recognizes change on input pin after 512 rising clock edges. #1001 1010 Prescaler divides the prescaler clock by 2048; glitch filter recognizes change on input pin after 1024 rising clock edges. #1010 1011 Prescaler divides the prescaler clock by 4096; glitch filter recognizes change on input pin after 2048 rising clock edges. #1011 1100 Prescaler divides the prescaler clock by 8192; glitch filter recognizes change on input pin after 4096 rising clock edges. #1100 1101 Prescaler divides the prescaler clock by 16,384; glitch filter recognizes change on input pin after 8192 rising clock edges. #1101 1110 Prescaler divides the prescaler clock by 32,768; glitch filter recognizes change on input pin after 16,384 rising clock edges. #1110 1111 Prescaler divides the prescaler clock by 65,536; glitch filter recognizes change on input pin after 32,768 rising clock edges. #1111 MCG Multipurpose Clock Generator module MCG 0x0 0x0 0xC registers n MCG 27 ATCVH MCG Auto Trim Compare Value High Register 0xA 8 read-write n 0x0 0x0 ATCVH ATM Compare Value High 0 8 read-write ATCVL MCG Auto Trim Compare Value Low Register 0xB 8 read-write n 0x0 0x0 ATCVL ATM Compare Value Low 0 8 read-write C1 MCG Control 1 Register 0x0 8 read-write n 0x0 0x0 CLKS Clock Source Select 6 2 read-write 00 Encoding 0 - Output of FLL is selected. #00 01 Encoding 1 - Internal reference clock is selected. #01 10 Encoding 2 - External reference clock is selected. #10 11 Encoding 3 - Reserved. #11 FRDIV FLL External Reference Divider 3 3 read-write 000 If RANGE = 0 , Divide Factor is 1; for all other RANGE values, Divide Factor is 32. #000 001 If RANGE = 0 , Divide Factor is 2; for all other RANGE values, Divide Factor is 64. #001 010 If RANGE = 0 , Divide Factor is 4; for all other RANGE values, Divide Factor is 128. #010 011 If RANGE = 0 , Divide Factor is 8; for all other RANGE values, Divide Factor is 256. #011 100 If RANGE = 0 , Divide Factor is 16; for all other RANGE values, Divide Factor is 512. #100 101 If RANGE = 0 , Divide Factor is 32; for all other RANGE values, Divide Factor is 1024. #101 110 If RANGE = 0 , Divide Factor is 64; for all other RANGE values, Divide Factor is 1280 . #110 111 If RANGE = 0 , Divide Factor is 128; for all other RANGE values, Divide Factor is 1536 . #111 IRCLKEN Internal Reference Clock Enable 1 1 read-write 0 MCGIRCLK inactive. #0 1 MCGIRCLK active. #1 IREFS Internal Reference Select 2 1 read-write 0 External reference clock is selected. #0 1 The slow internal reference clock is selected. #1 IREFSTEN Internal Reference Stop Enable 0 1 read-write 0 Internal reference clock is disabled in Stop mode. #0 1 Internal reference clock is enabled in Stop mode if IRCLKEN is set or if MCG is in FEI, FBI, or BLPI modes before entering Stop mode. #1 C2 MCG Control 2 Register 0x1 8 read-write n 0x0 0x0 EREFS External Reference Select 2 1 read-write 0 External reference clock requested. #0 1 Oscillator requested. #1 FCFTRIM Fast Internal Reference Clock Fine Trim 6 1 read-write HGO High Gain Oscillator Select 3 1 read-write 0 Configure crystal oscillator for low-power operation. #0 1 Configure crystal oscillator for high-gain operation. #1 IRCS Internal Reference Clock Select 0 1 read-write 0 Slow internal reference clock selected. #0 1 Fast internal reference clock selected. #1 LOCRE0 Loss of Clock Reset Enable 7 1 read-write 0 Interrupt request is generated on a loss of OSC0 external reference clock. #0 1 Generate a reset request on a loss of OSC0 external reference clock. #1 LP Low Power Select 1 1 read-write 0 FLL is not disabled in bypass modes. #0 1 FLL is disabled in bypass modes (lower power) #1 RANGE Frequency Range Select 4 2 read-write 00 Encoding 0 - Low frequency range selected for the crystal oscillator . #00 01 Encoding 1 - High frequency range selected for the crystal oscillator . #01 C3 MCG Control 3 Register 0x2 8 read-write n 0x0 0x0 SCTRIM Slow Internal Reference Clock Trim Setting 0 8 read-write C4 MCG Control 4 Register 0x3 8 read-write n 0x0 0x0 DMX32 DCO Maximum Frequency with 32.768 kHz Reference 7 1 read-write 0 DCO has a default range of 25%. #0 1 DCO is fine-tuned for maximum frequency with 32.768 kHz reference. #1 DRST_DRS DCO Range Select 5 2 read-write 00 Encoding 0 - Low range (reset default). #00 01 Encoding 1 - Mid range. #01 10 Encoding 2 - Mid-high range. #10 11 Encoding 3 - High range. #11 FCTRIM Fast Internal Reference Clock Trim Setting 1 4 read-write SCFTRIM Slow Internal Reference Clock Fine Trim 0 1 read-write C6 MCG Control 6 Register 0x5 8 read-write n 0x0 0x0 CME Clock Monitor Enable 5 1 read-write 0 External clock monitor is disabled. #0 1 Generate a reset request on loss of external clock. #1 S MCG Status Register 0x6 8 read-only n 0x0 0x0 CLKST Clock Mode Status 2 2 read-only 00 Encoding 0 - Output of the FLL is selected (reset default). #00 01 Encoding 1 - Internal reference clock is selected. #01 10 Encoding 2 - External reference clock is selected. #10 IRCST Internal Reference Clock Status 0 1 read-only 0 Source of internal reference clock is the slow clock (32 kHz IRC). #0 1 Source of internal reference clock is the fast clock (4 MHz IRC). #1 IREFST Internal Reference Status 4 1 read-only 0 Source of FLL reference clock is the external reference clock. #0 1 Source of FLL reference clock is the internal reference clock. #1 OSCINIT0 OSC Initialization 1 1 read-only SC MCG Status and Control Register 0x8 8 read-write n 0x0 0x0 ATME Automatic Trim Machine Enable 7 1 read-write 0 Auto Trim Machine disabled. #0 1 Auto Trim Machine enabled. #1 ATMF Automatic Trim Machine Fail Flag 5 1 read-write 0 Automatic Trim Machine completed normally. #0 1 Automatic Trim Machine failed. #1 ATMS Automatic Trim Machine Select 6 1 read-write 0 32 kHz Internal Reference Clock selected. #0 1 4 MHz Internal Reference Clock selected. #1 FCRDIV Fast Clock Internal Reference Divider 1 3 read-write 000 Divide Factor is 1 #000 001 Divide Factor is 2. #001 010 Divide Factor is 4. #010 011 Divide Factor is 8. #011 100 Divide Factor is 16 #100 101 Divide Factor is 32 #101 110 Divide Factor is 64 #110 111 Divide Factor is 128. #111 FLTPRSRV FLL Filter Preserve Enable 4 1 read-write 0 FLL filter and FLL frequency will reset on changes to currect clock mode. #0 1 Fll filter and FLL frequency retain their previous values during new clock mode change. #1 LOCS0 OSC0 Loss of Clock Status 0 1 read-write 0 Loss of OSC0 has not occurred. #0 1 Loss of OSC0 has occurred. #1 MCM Core Platform Miscellaneous Control Module MCM 0x0 0x8 0x3C registers n CPO Compute Operation Control Register 0x40 32 read-write n 0x0 0x0 CPOACK Compute Operation Acknowledge 1 1 read-only 0 Compute operation entry has not completed or compute operation exit has completed. #0 1 Compute operation entry has completed or compute operation exit has not completed. #1 CPOREQ Compute Operation Request 0 1 read-write 0 Request is cleared. #0 1 Request Compute Operation. #1 CPOWOI Compute Operation Wake-up on Interrupt 2 1 read-write 0 No effect. #0 1 When set, the CPOREQ is cleared on any interrupt or exception vector fetch. #1 PLACR Platform Control Register 0xC 32 read-write n 0x0 0x0 ARB Arbitration select 9 1 read-write 0 Fixed-priority arbitration for the crossbar masters #0 1 Round-robin arbitration for the crossbar masters #1 CFCC Clear Flash Controller Cache 10 1 write-only DFCC Disable Flash Controller Cache 13 1 read-write 0 Enable flash controller cache. #0 1 Disable flash controller cache. #1 DFCDA Disable Flash Controller Data Caching 11 1 read-write 0 Enable flash controller data caching #0 1 Disable flash controller data caching. #1 DFCIC Disable Flash Controller Instruction Caching 12 1 read-write 0 Enable flash controller instruction caching. #0 1 Disable flash controller instruction caching. #1 DFCS Disable Flash Controller Speculation 15 1 read-write 0 Enable flash controller speculation. #0 1 Disable flash controller speculation. #1 EFDS Enable Flash Data Speculation 14 1 read-write 0 Disable flash data speculation. #0 1 Enable flash data speculation. #1 ESFC Enable Stalling Flash Controller 16 1 read-write 0 Disable stalling flash controller when flash is busy. #0 1 Enable stalling flash controller when flash is busy. #1 PLAMC Crossbar Switch (AXBS) Master Configuration 0xA 16 read-only n 0x0 0x0 AMC Each bit in the AMC field indicates whether there is a corresponding connection to the AXBS master input port. 0 8 read-only 0 A bus master connection to AXBS input port n is absent #0 1 A bus master connection to AXBS input port n is present #1 PLASC Crossbar Switch (AXBS) Slave Configuration 0x8 16 read-only n 0x0 0x0 ASC Each bit in the ASC field indicates whether there is a corresponding connection to the crossbar switch's slave input port. 0 8 read-only 0 A bus slave connection to AXBS input port n is absent. #0 1 A bus slave connection to AXBS input port n is present. #1 MMDVSQ Divide and Square Root MMDVSQ 0x0 0x0 0x14 registers n CSR Control/Status Register 0x8 32 read-write n 0x0 0x0 BUSY BUSY 31 1 read-only 0 MMDVSQ is idle #0 1 MMDVSQ is busy performing a divide or square root calculation #1 DFS Disable Fast Start 5 1 read-write 0 A divide operation is initiated by a write to the DSOR register #0 1 A divide operation is initiated by a write to the CSR register with CSR[SRT] = 1 #1 DIV DIVIDE 30 1 read-only 0 Current or last MMDVSQ operation was not a divide #0 1 Current or last MMDVSQ operation was a divide #1 DZ Divide-by-Zero 4 1 read-only 0 The last divide operation had a non-zero divisor, that is, DSOR != 0 #0 1 The last divide operation had a zero divisor, that is, DSOR = 0 #1 DZE Divide-by-Zero-Enable 3 1 read-write 0 Reads of the RES register return the register contents #0 1 If CSR[DZ] = 1, an attempted read of RES register is error terminated to signal a divide-by-zero, else the register contents are returned #1 REM REMainder calculation 2 1 read-write 0 Return the quotient in the RES for the divide calculation #0 1 Return the remainder in the RES for the divide calculation #1 SQRT SQUARE ROOT 29 1 read-only 0 Current or last MMDVSQ operation was not a square root #0 1 Current or last MMDVSQ operation was a square root #1 SRT Start 0 1 write-only 0 No operation initiated #0 1 If CSR[DFS] = 1, then initiate a divide calculation, else ignore #1 USGN Unsigned calculation 1 1 read-write 0 Perform a signed divide #0 1 Perform an unsigned divide #1 DEND Dividend Register 0x0 32 read-write n 0x0 0x0 DIVIDEND Dividend 0 32 read-write DSOR Divisor Register 0x4 32 read-write n 0x0 0x0 DIVISOR Divisor 0 32 read-write RCND Radicand Register 0x10 32 read-write n 0x0 0x0 RADICAND Radicand 0 32 read-write RES Result Register 0xC 32 read-write n 0x0 0x0 RESULT Result 0 32 read-write MTB Micro Trace Buffer MTB 0x0 0x0 0x1000 registers n AUTHSTAT Authentication Status Register 0xFB8 32 read-only n 0x0 0x0 BIT0 Connected to DBGEN. 0 1 read-only BIT1 BIT1 1 1 read-only BIT2 BIT2 2 1 read-only BIT3 BIT3 3 1 read-only BASE MTB Base Register 0xC 32 read-only n 0x0 0x0 BASEADDR BASEADDR 0 32 read-only COMPID0 Component ID Register 0x1FE0 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only COMPID1 Component ID Register 0x2FD4 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only COMPID2 Component ID Register 0x3FCC 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only COMPID3 Component ID Register 0x4FC8 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only DEVICEARCH Device Architecture Register 0xFBC 32 read-only n 0x0 0x0 DEVICEARCH DEVICEARCH 0 32 read-only DEVICECFG Device Configuration Register 0xFC8 32 read-only n 0x0 0x0 DEVICECFG DEVICECFG 0 32 read-only DEVICETYPID Device Type Identifier Register 0xFCC 32 read-only n 0x0 0x0 DEVICETYPID DEVICETYPID 0 32 read-only FLOW MTB Flow Register 0x8 32 read-write n 0x0 0x0 AUTOHALT AUTOHALT 1 1 read-write AUTOSTOP AUTOSTOP 0 1 read-write WATERMARK WATERMARK[28:0] 3 29 read-write LOCKACCESS Lock Access Register 0xFB0 32 read-only n 0x0 0x0 LOCKACCESS Hardwired to 0x0000_0000 0 32 read-only LOCKSTAT Lock Status Register 0xFB4 32 read-only n 0x0 0x0 LOCKSTAT LOCKSTAT 0 32 read-only MASTER MTB Master Register 0x4 32 read-write n 0x0 0x0 EN Main Trace Enable 31 1 read-write HALTREQ Halt Request 9 1 read-write MASK Mask 0 5 read-write RAMPRIV RAM Privilege 8 1 read-write SFRWPRIV Special Function Register Write Privilege 7 1 read-write TSTARTEN Trace Start Input Enable 5 1 read-write TSTOPEN Trace Stop Input Enable 6 1 read-write MODECTRL Integration Mode Control Register 0xF00 32 read-only n 0x0 0x0 MODECTRL MODECTRL 0 32 read-only PERIPHID0 Peripheral ID Register 0x5F08 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID1 Peripheral ID Register 0x6EEC 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID2 Peripheral ID Register 0x7ED4 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID3 Peripheral ID Register 0x8EC0 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID4 Peripheral ID Register 0x1FA0 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID5 Peripheral ID Register 0x2F74 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID6 Peripheral ID Register 0x3F4C 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID7 Peripheral ID Register 0x4F28 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only POSITION MTB Position Register 0x0 32 read-write n 0x0 0x0 POINTER Trace Packet Address Pointer[28:0] 3 29 read-write WRAP WRAP 2 1 read-write TAGCLEAR Claim TAG Clear Register 0xFA4 32 read-only n 0x0 0x0 TAGCLEAR TAGCLEAR 0 32 read-only TAGSET Claim TAG Set Register 0xFA0 32 read-only n 0x0 0x0 TAGSET TAGSET 0 32 read-only MTBDWT MTB data watchpoint and trace MTBDWT 0x0 0x0 0x1000 registers n COMP0 MTB_DWT Comparator Register 0x40 32 read-write n 0x0 0x0 COMP Reference value for comparison 0 32 read-write COMP1 MTB_DWT Comparator Register 0x70 32 read-write n 0x0 0x0 COMP Reference value for comparison 0 32 read-write COMPID0 Component ID Register 0x1FE0 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only COMPID1 Component ID Register 0x2FD4 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only COMPID2 Component ID Register 0x3FCC 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only COMPID3 Component ID Register 0x4FC8 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only CTRL MTB DWT Control Register 0x0 32 read-only n 0x0 0x0 DWTCFGCTRL DWT configuration controls 0 28 read-only NUMCMP Number of comparators 28 4 read-only DEVICECFG Device Configuration Register 0xFC8 32 read-only n 0x0 0x0 DEVICECFG DEVICECFG 0 32 read-only DEVICETYPID Device Type Identifier Register 0xFCC 32 read-only n 0x0 0x0 DEVICETYPID DEVICETYPID 0 32 read-only FCT0 MTB_DWT Comparator Function Register 0 0x28 32 read-write n 0x0 0x0 DATAVADDR0 Data Value Address 0 12 4 read-write DATAVMATCH Data Value Match 8 1 read-write 0 Perform address comparison. #0 1 Perform data value comparison. #1 DATAVSIZE Data Value Size 10 2 read-write 00 Byte. #00 01 Halfword. #01 10 Word. #10 11 Reserved. Any attempts to use this value results in UNPREDICTABLE behavior. #11 FUNCTION Function 0 4 read-write 0000 Disabled. #0000 0100 Instruction fetch. #0100 0101 Data operand read. #0101 0110 Data operand write. #0110 0111 Data operand (read + write). #0111 MATCHED Comparator match 24 1 read-only 0 No match. #0 1 Match occurred. #1 FCT1 MTB_DWT Comparator Function Register 1 0x38 32 read-write n 0x0 0x0 FUNCTION Function 0 4 read-write 0000 Disabled. #0000 0100 Instruction fetch. #0100 0101 Data operand read. #0101 0110 Data operand write. #0110 0111 Data operand (read + write). #0111 MATCHED Comparator match 24 1 read-only 0 No match. #0 1 Match occurred. #1 MASK0 MTB_DWT Comparator Mask Register 0x48 32 read-write n 0x0 0x0 MASK MASK 0 5 read-write MASK1 MTB_DWT Comparator Mask Register 0x7C 32 read-write n 0x0 0x0 MASK MASK 0 5 read-write PERIPHID0 Peripheral ID Register 0x5F08 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID1 Peripheral ID Register 0x6EEC 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID2 Peripheral ID Register 0x7ED4 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID3 Peripheral ID Register 0x8EC0 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID4 Peripheral ID Register 0x1FA0 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID5 Peripheral ID Register 0x2F74 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID6 Peripheral ID Register 0x3F4C 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID7 Peripheral ID Register 0x4F28 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only TBCTRL MTB_DWT Trace Buffer Control Register 0x200 32 read-write n 0x0 0x0 ACOMP0 Action based on Comparator 0 match 0 1 read-write 0 Trigger TSTOP based on the assertion of MTBDWT_FCT0[MATCHED]. #0 1 Trigger TSTART based on the assertion of MTBDWT_FCT0[MATCHED]. #1 ACOMP1 Action based on Comparator 1 match 1 1 read-write 0 Trigger TSTOP based on the assertion of MTBDWT_FCT1[MATCHED]. #0 1 Trigger TSTART based on the assertion of MTBDWT_FCT1[MATCHED]. #1 NUMCOMP Number of Comparators 28 4 read-only NVIC Nested Vectored Interrupt Controller NVIC 0x0 0x0 0x320 registers n ICER Interrupt Clear Enable Register 0x80 32 read-write n 0x0 0x0 CLRENA0 DMA channel 0 and 4 transfer complete interrupt clear-enable bit 0 1 read-write 0 write: no effect; read: DMA channel 0 and 4 transfer complete interrupt disabled #0 1 write: disable DMA channel 0 and 4 transfer complete interrupt; read: DMA channel 0 and 4 transfer complete interrupt enabled #1 CLRENA1 DMA channel 1 and 5 transfer complete interrupt clear-enable bit 1 1 read-write 0 write: no effect; read: DMA channel 1 and 5 transfer complete interrupt disabled #0 1 write: disable DMA channel 1 and 5 transfer complete interrupt; read: DMA channel 1 and 5 transfer complete interrupt enabled #1 CLRENA10 serial peripheral interface 0 interrupt clear-enable bit 10 1 read-write 0 write: no effect; read: serial peripheral interface 0 interrupt disabled #0 1 write: disable serial peripheral interface 0 interrupt; read: serial peripheral interface 0 interrupt enabled #1 CLRENA11 Reserved iv 27 interrupt clear-enable bit 11 1 read-write 0 write: no effect; read: Reserved iv 27 interrupt disabled #0 1 write: disable Reserved iv 27 interrupt; read: Reserved iv 27 interrupt enabled #1 CLRENA12 UART0 status and error interrupt clear-enable bit 12 1 read-write 0 write: no effect; read: UART0 status and error interrupt disabled #0 1 write: disable UART0 status and error interrupt; read: UART0 status and error interrupt enabled #1 CLRENA13 UART1 status and error interrupt clear-enable bit 13 1 read-write 0 write: no effect; read: UART1 status and error interrupt disabled #0 1 write: disable UART1 status and error interrupt; read: UART1 status and error interrupt enabled #1 CLRENA14 Reserved iv 30 interrupt clear-enable bit 14 1 read-write 0 write: no effect; read: Reserved iv 30 interrupt disabled #0 1 write: disable Reserved iv 30 interrupt; read: Reserved iv 30 interrupt enabled #1 CLRENA15 Analog-to-digital converter 0 interrupt clear-enable bit 15 1 read-write 0 write: no effect; read: Analog-to-digital converter 0 interrupt disabled #0 1 write: disable Analog-to-digital converter 0 interrupt; read: Analog-to-digital converter 0 interrupt enabled #1 CLRENA16 Analog-to-digital converter 1 interrupt clear-enable bit 16 1 read-write 0 write: no effect; read: Analog-to-digital converter 1 interrupt disabled #0 1 write: disable Analog-to-digital converter 1 interrupt; read: Analog-to-digital converter 1 interrupt enabled #1 CLRENA17 FlexTimer module 0 fault, overflow and channels interrupt clear-enable bit 17 1 read-write 0 write: no effect; read: FlexTimer module 0 fault, overflow and channels interrupt disabled #0 1 write: disable FlexTimer module 0 fault, overflow and channels interrupt; read: FlexTimer module 0 fault, overflow and channels interrupt enabled #1 CLRENA18 FlexTimer module 1 fault, overflow and channels interrupt clear-enable bit 18 1 read-write 0 write: no effect; read: FlexTimer module 1 fault, overflow and channels interrupt disabled #0 1 write: disable FlexTimer module 1 fault, overflow and channels interrupt; read: FlexTimer module 1 fault, overflow and channels interrupt enabled #1 CLRENA19 FlexTimer module 2 fault, overflow and channels interrupt clear-enable bit 19 1 read-write 0 write: no effect; read: FlexTimer module 2 fault, overflow and channels interrupt disabled #0 1 write: disable FlexTimer module 2 fault, overflow and channels interrupt; read: FlexTimer module 2 fault, overflow and channels interrupt enabled #1 CLRENA2 DMA channel 2 and 6 transfer complete interrupt clear-enable bit 2 1 read-write 0 write: no effect; read: DMA channel 2 and 6 transfer complete interrupt disabled #0 1 write: disable DMA channel 2 and 6 transfer complete interrupt; read: DMA channel 2 and 6 transfer complete interrupt enabled #1 CLRENA20 Comparator 0 interrupt clear-enable bit 20 1 read-write 0 write: no effect; read: Comparator 0 interrupt disabled #0 1 write: disable Comparator 0 interrupt; read: Comparator 0 interrupt enabled #1 CLRENA21 Comparator 1 interrupt clear-enable bit 21 1 read-write 0 write: no effect; read: Comparator 1 interrupt disabled #0 1 write: disable Comparator 1 interrupt; read: Comparator 1 interrupt enabled #1 CLRENA22 FlexTimer module 3 fault, overflow and channels interrupt clear-enable bit 22 1 read-write 0 write: no effect; read: FlexTimer module 3 fault, overflow and channels interrupt disabled #0 1 write: disable FlexTimer module 3 fault, overflow and channels interrupt; read: FlexTimer module 3 fault, overflow and channels interrupt enabled #1 CLRENA23 single interrupt vector for WDOG and EWM interrupt clear-enable bit 23 1 read-write 0 write: no effect; read: single interrupt vector for WDOG and EWM interrupt disabled #0 1 write: disable single interrupt vector for WDOG and EWM interrupt; read: single interrupt vector for WDOG and EWM interrupt enabled #1 CLRENA24 FlexTimer module 4 fault, overflow and channels interrupt clear-enable bit 24 1 read-write 0 write: no effect; read: FlexTimer module 4 fault, overflow and channels interrupt disabled #0 1 write: disable FlexTimer module 4 fault, overflow and channels interrupt; read: FlexTimer module 4 fault, overflow and channels interrupt enabled #1 CLRENA25 digital-to-analog converter 0 interrupt clear-enable bit 25 1 read-write 0 write: no effect; read: digital-to-analog converter 0 interrupt disabled #0 1 write: disable digital-to-analog converter 0 interrupt; read: digital-to-analog converter 0 interrupt enabled #1 CLRENA26 FlexTimer module 5 fault, overflow and channels interrupt clear-enable bit 26 1 read-write 0 write: no effect; read: FlexTimer module 5 fault, overflow and channels interrupt disabled #0 1 write: disable FlexTimer module 5 fault, overflow and channels interrupt; read: FlexTimer module 5 fault, overflow and channels interrupt enabled #1 CLRENA27 multipurpose clock generator interrupt clear-enable bit 27 1 read-write 0 write: no effect; read: multipurpose clock generator interrupt disabled #0 1 write: disable multipurpose clock generator interrupt; read: multipurpose clock generator interrupt enabled #1 CLRENA28 Low-Power Timer interrupt clear-enable bit 28 1 read-write 0 write: no effect; read: Low-Power Timer interrupt disabled #0 1 write: disable Low-Power Timer interrupt; read: Low-Power Timer interrupt enabled #1 CLRENA29 single interrupt vector for programmable delay block 0 and 1 interrupt clear-enable bit 29 1 read-write 0 write: no effect; read: single interrupt vector for programmable delay block 0 and 1 interrupt disabled #0 1 write: disable single interrupt vector for programmable delay block 0 and 1 interrupt; read: single interrupt vector for programmable delay block 0 and 1 interrupt enabled #1 CLRENA3 DMA channel 2 and 7 transfer complete interrupt clear-enable bit 3 1 read-write 0 write: no effect; read: DMA channel 2 and 7 transfer complete interrupt disabled #0 1 write: disable DMA channel 2 and 7 transfer complete interrupt; read: DMA channel 2 and 7 transfer complete interrupt enabled #1 CLRENA30 PORTA pin detect interrupt clear-enable bit 30 1 read-write 0 write: no effect; read: PORTA pin detect interrupt disabled #0 1 write: disable PORTA pin detect interrupt; read: PORTA pin detect interrupt enabled #1 CLRENA31 PORTB, PORTC, PORTD and PORTE pin detect interrupt clear-enable bit 31 1 read-write 0 write: no effect; read: PORTB, PORTC, PORTD and PORTE pin detect interrupt disabled #0 1 write: disable PORTB, PORTC, PORTD and PORTE pin detect interrupt; read: PORTB, PORTC, PORTD and PORTE pin detect interrupt enabled #1 CLRENA4 DMA error interrupt channels 0-7 interrupt clear-enable bit 4 1 read-write 0 write: no effect; read: DMA error interrupt channels 0-7 interrupt disabled #0 1 write: disable DMA error interrupt channels 0-7 interrupt; read: DMA error interrupt channels 0-7 interrupt enabled #1 CLRENA5 FTFA command complete and read collision interrupt clear-enable bit 5 1 read-write 0 write: no effect; read: FTFA command complete and read collision interrupt disabled #0 1 write: disable FTFA command complete and read collision interrupt; read: FTFA command complete and read collision interrupt enabled #1 CLRENA6 low-voltage detect and low-voltage warning interrupt clear-enable bit 6 1 read-write 0 write: no effect; read: low-voltage detect and low-voltage warning interrupt disabled #0 1 write: disable low-voltage detect and low-voltage warning interrupt; read: low-voltage detect and low-voltage warning interrupt enabled #1 CLRENA7 low leakage wakeup interrupt clear-enable bit 7 1 read-write 0 write: no effect; read: low leakage wakeup interrupt disabled #0 1 write: disable low leakage wakeup interrupt; read: low leakage wakeup interrupt enabled #1 CLRENA8 inter-integrated circuit 0 interrupt clear-enable bit 8 1 read-write 0 write: no effect; read: inter-integrated circuit 0 interrupt disabled #0 1 write: disable inter-integrated circuit 0 interrupt; read: inter-integrated circuit 0 interrupt enabled #1 CLRENA9 Reserved iv 25 interrupt clear-enable bit 9 1 read-write 0 write: no effect; read: Reserved iv 25 interrupt disabled #0 1 write: disable Reserved iv 25 interrupt; read: Reserved iv 25 interrupt enabled #1 ICPR Interrupt Clear Pending Register 0x180 32 read-write n 0x0 0x0 CLRPEND0 DMA channel 0 and 4 transfer complete interrupt clear-pending bit 0 1 read-write 0 write: no effect; read: DMA channel 0 and 4 transfer complete interrupt is not pending #0 1 write: removes pending state from the DMA channel 0 and 4 transfer complete interrupt; read: DMA channel 0 and 4 transfer complete interrupt is pending #1 CLRPEND1 DMA channel 1 and 5 transfer complete interrupt clear-pending bit 1 1 read-write 0 write: no effect; read: DMA channel 1 and 5 transfer complete interrupt is not pending #0 1 write: removes pending state from the DMA channel 1 and 5 transfer complete interrupt; read: DMA channel 1 and 5 transfer complete interrupt is pending #1 CLRPEND10 serial peripheral interface 0 interrupt clear-pending bit 10 1 read-write 0 write: no effect; read: serial peripheral interface 0 interrupt is not pending #0 1 write: removes pending state from the serial peripheral interface 0 interrupt; read: serial peripheral interface 0 interrupt is pending #1 CLRPEND11 Reserved iv 27 interrupt clear-pending bit 11 1 read-write 0 write: no effect; read: Reserved iv 27 interrupt is not pending #0 1 write: removes pending state from the Reserved iv 27 interrupt; read: Reserved iv 27 interrupt is pending #1 CLRPEND12 UART0 status and error interrupt clear-pending bit 12 1 read-write 0 write: no effect; read: UART0 status and error interrupt is not pending #0 1 write: removes pending state from the UART0 status and error interrupt; read: UART0 status and error interrupt is pending #1 CLRPEND13 UART1 status and error interrupt clear-pending bit 13 1 read-write 0 write: no effect; read: UART1 status and error interrupt is not pending #0 1 write: removes pending state from the UART1 status and error interrupt; read: UART1 status and error interrupt is pending #1 CLRPEND14 Reserved iv 30 interrupt clear-pending bit 14 1 read-write 0 write: no effect; read: Reserved iv 30 interrupt is not pending #0 1 write: removes pending state from the Reserved iv 30 interrupt; read: Reserved iv 30 interrupt is pending #1 CLRPEND15 Analog-to-digital converter 0 interrupt clear-pending bit 15 1 read-write 0 write: no effect; read: Analog-to-digital converter 0 interrupt is not pending #0 1 write: removes pending state from the Analog-to-digital converter 0 interrupt; read: Analog-to-digital converter 0 interrupt is pending #1 CLRPEND16 Analog-to-digital converter 1 interrupt clear-pending bit 16 1 read-write 0 write: no effect; read: Analog-to-digital converter 1 interrupt is not pending #0 1 write: removes pending state from the Analog-to-digital converter 1 interrupt; read: Analog-to-digital converter 1 interrupt is pending #1 CLRPEND17 FlexTimer module 0 fault, overflow and channels interrupt clear-pending bit 17 1 read-write 0 write: no effect; read: FlexTimer module 0 fault, overflow and channels interrupt is not pending #0 1 write: removes pending state from the FlexTimer module 0 fault, overflow and channels interrupt; read: FlexTimer module 0 fault, overflow and channels interrupt is pending #1 CLRPEND18 FlexTimer module 1 fault, overflow and channels interrupt clear-pending bit 18 1 read-write 0 write: no effect; read: FlexTimer module 1 fault, overflow and channels interrupt is not pending #0 1 write: removes pending state from the FlexTimer module 1 fault, overflow and channels interrupt; read: FlexTimer module 1 fault, overflow and channels interrupt is pending #1 CLRPEND19 FlexTimer module 2 fault, overflow and channels interrupt clear-pending bit 19 1 read-write 0 write: no effect; read: FlexTimer module 2 fault, overflow and channels interrupt is not pending #0 1 write: removes pending state from the FlexTimer module 2 fault, overflow and channels interrupt; read: FlexTimer module 2 fault, overflow and channels interrupt is pending #1 CLRPEND2 DMA channel 2 and 6 transfer complete interrupt clear-pending bit 2 1 read-write 0 write: no effect; read: DMA channel 2 and 6 transfer complete interrupt is not pending #0 1 write: removes pending state from the DMA channel 2 and 6 transfer complete interrupt; read: DMA channel 2 and 6 transfer complete interrupt is pending #1 CLRPEND20 Comparator 0 interrupt clear-pending bit 20 1 read-write 0 write: no effect; read: Comparator 0 interrupt is not pending #0 1 write: removes pending state from the Comparator 0 interrupt; read: Comparator 0 interrupt is pending #1 CLRPEND21 Comparator 1 interrupt clear-pending bit 21 1 read-write 0 write: no effect; read: Comparator 1 interrupt is not pending #0 1 write: removes pending state from the Comparator 1 interrupt; read: Comparator 1 interrupt is pending #1 CLRPEND22 FlexTimer module 3 fault, overflow and channels interrupt clear-pending bit 22 1 read-write 0 write: no effect; read: FlexTimer module 3 fault, overflow and channels interrupt is not pending #0 1 write: removes pending state from the FlexTimer module 3 fault, overflow and channels interrupt; read: FlexTimer module 3 fault, overflow and channels interrupt is pending #1 CLRPEND23 single interrupt vector for WDOG and EWM interrupt clear-pending bit 23 1 read-write 0 write: no effect; read: single interrupt vector for WDOG and EWM interrupt is not pending #0 1 write: removes pending state from the single interrupt vector for WDOG and EWM interrupt; read: single interrupt vector for WDOG and EWM interrupt is pending #1 CLRPEND24 FlexTimer module 4 fault, overflow and channels interrupt clear-pending bit 24 1 read-write 0 write: no effect; read: FlexTimer module 4 fault, overflow and channels interrupt is not pending #0 1 write: removes pending state from the FlexTimer module 4 fault, overflow and channels interrupt; read: FlexTimer module 4 fault, overflow and channels interrupt is pending #1 CLRPEND25 digital-to-analog converter 0 interrupt clear-pending bit 25 1 read-write 0 write: no effect; read: digital-to-analog converter 0 interrupt is not pending #0 1 write: removes pending state from the digital-to-analog converter 0 interrupt; read: digital-to-analog converter 0 interrupt is pending #1 CLRPEND26 FlexTimer module 5 fault, overflow and channels interrupt clear-pending bit 26 1 read-write 0 write: no effect; read: FlexTimer module 5 fault, overflow and channels interrupt is not pending #0 1 write: removes pending state from the FlexTimer module 5 fault, overflow and channels interrupt; read: FlexTimer module 5 fault, overflow and channels interrupt is pending #1 CLRPEND27 multipurpose clock generator interrupt clear-pending bit 27 1 read-write 0 write: no effect; read: multipurpose clock generator interrupt is not pending #0 1 write: removes pending state from the multipurpose clock generator interrupt; read: multipurpose clock generator interrupt is pending #1 CLRPEND28 Low-Power Timer interrupt clear-pending bit 28 1 read-write 0 write: no effect; read: Low-Power Timer interrupt is not pending #0 1 write: removes pending state from the Low-Power Timer interrupt; read: Low-Power Timer interrupt is pending #1 CLRPEND29 single interrupt vector for programmable delay block 0 and 1 interrupt clear-pending bit 29 1 read-write 0 write: no effect; read: single interrupt vector for programmable delay block 0 and 1 interrupt is not pending #0 1 write: removes pending state from the single interrupt vector for programmable delay block 0 and 1 interrupt; read: single interrupt vector for programmable delay block 0 and 1 interrupt is pending #1 CLRPEND3 DMA channel 2 and 7 transfer complete interrupt clear-pending bit 3 1 read-write 0 write: no effect; read: DMA channel 2 and 7 transfer complete interrupt is not pending #0 1 write: removes pending state from the DMA channel 2 and 7 transfer complete interrupt; read: DMA channel 2 and 7 transfer complete interrupt is pending #1 CLRPEND30 PORTA pin detect interrupt clear-pending bit 30 1 read-write 0 write: no effect; read: PORTA pin detect interrupt is not pending #0 1 write: removes pending state from the PORTA pin detect interrupt; read: PORTA pin detect interrupt is pending #1 CLRPEND31 PORTB, PORTC, PORTD and PORTE pin detect interrupt clear-pending bit 31 1 read-write 0 write: no effect; read: PORTB, PORTC, PORTD and PORTE pin detect interrupt is not pending #0 1 write: removes pending state from the PORTB, PORTC, PORTD and PORTE pin detect interrupt; read: PORTB, PORTC, PORTD and PORTE pin detect interrupt is pending #1 CLRPEND4 DMA error interrupt channels 0-7 interrupt clear-pending bit 4 1 read-write 0 write: no effect; read: DMA error interrupt channels 0-7 interrupt is not pending #0 1 write: removes pending state from the DMA error interrupt channels 0-7 interrupt; read: DMA error interrupt channels 0-7 interrupt is pending #1 CLRPEND5 FTFA command complete and read collision interrupt clear-pending bit 5 1 read-write 0 write: no effect; read: FTFA command complete and read collision interrupt is not pending #0 1 write: removes pending state from the FTFA command complete and read collision interrupt; read: FTFA command complete and read collision interrupt is pending #1 CLRPEND6 low-voltage detect and low-voltage warning interrupt clear-pending bit 6 1 read-write 0 write: no effect; read: low-voltage detect and low-voltage warning interrupt is not pending #0 1 write: removes pending state from the low-voltage detect and low-voltage warning interrupt; read: low-voltage detect and low-voltage warning interrupt is pending #1 CLRPEND7 low leakage wakeup interrupt clear-pending bit 7 1 read-write 0 write: no effect; read: low leakage wakeup interrupt is not pending #0 1 write: removes pending state from the low leakage wakeup interrupt; read: low leakage wakeup interrupt is pending #1 CLRPEND8 inter-integrated circuit 0 interrupt clear-pending bit 8 1 read-write 0 write: no effect; read: inter-integrated circuit 0 interrupt is not pending #0 1 write: removes pending state from the inter-integrated circuit 0 interrupt; read: inter-integrated circuit 0 interrupt is pending #1 CLRPEND9 Reserved iv 25 interrupt clear-pending bit 9 1 read-write 0 write: no effect; read: Reserved iv 25 interrupt is not pending #0 1 write: removes pending state from the Reserved iv 25 interrupt; read: Reserved iv 25 interrupt is pending #1 IPR0 Interrupt Priority Register 0 0x300 32 read-write n 0x0 0x0 PRI_0 Priority of the DMA channel 0 and 4 transfer complete interrupt 6 2 read-write PRI_1 Priority of the DMA channel 1 and 5 transfer complete interrupt 14 2 read-write PRI_2 Priority of the DMA channel 2 and 6 transfer complete interrupt 22 2 read-write PRI_3 Priority of the DMA channel 2 and 7 transfer complete interrupt 30 2 read-write IPR1 Interrupt Priority Register 1 0x304 32 read-write n 0x0 0x0 PRI_4 Priority of the DMA error interrupt channels 0-7 interrupt 6 2 read-write PRI_5 Priority of the FTFA command complete and read collision interrupt 14 2 read-write PRI_6 Priority of the low-voltage detect and low-voltage warning interrupt 22 2 read-write PRI_7 Priority of the low leakage wakeup interrupt 30 2 read-write IPR2 Interrupt Priority Register 2 0x308 32 read-write n 0x0 0x0 PRI_10 Priority of the serial peripheral interface 0 interrupt 22 2 read-write PRI_11 Priority of the Reserved iv 27 interrupt 30 2 read-write PRI_8 Priority of the inter-integrated circuit 0 interrupt 6 2 read-write PRI_9 Priority of the Reserved iv 25 interrupt 14 2 read-write IPR3 Interrupt Priority Register 3 0x30C 32 read-write n 0x0 0x0 PRI_12 Priority of the UART0 status and error interrupt 6 2 read-write PRI_13 Priority of the UART1 status and error interrupt 14 2 read-write PRI_14 Priority of the Reserved iv 30 interrupt 22 2 read-write PRI_15 Priority of the Analog-to-digital converter 0 interrupt 30 2 read-write IPR4 Interrupt Priority Register 4 0x310 32 read-write n 0x0 0x0 PRI_16 Priority of the Analog-to-digital converter 1 interrupt 6 2 read-write PRI_17 Priority of the FlexTimer module 0 fault, overflow and channels interrupt 14 2 read-write PRI_18 Priority of the FlexTimer module 1 fault, overflow and channels interrupt 22 2 read-write PRI_19 Priority of the FlexTimer module 2 fault, overflow and channels interrupt 30 2 read-write IPR5 Interrupt Priority Register 5 0x314 32 read-write n 0x0 0x0 PRI_20 Priority of the Comparator 0 interrupt 6 2 read-write PRI_21 Priority of the Comparator 1 interrupt 14 2 read-write PRI_22 Priority of the FlexTimer module 3 fault, overflow and channels interrupt 22 2 read-write PRI_23 Priority of the single interrupt vector for WDOG and EWM interrupt 30 2 read-write IPR6 Interrupt Priority Register 6 0x318 32 read-write n 0x0 0x0 PRI_24 Priority of the FlexTimer module 4 fault, overflow and channels interrupt 6 2 read-write PRI_25 Priority of the digital-to-analog converter 0 interrupt 14 2 read-write PRI_26 Priority of the FlexTimer module 5 fault, overflow and channels interrupt 22 2 read-write PRI_27 Priority of the multipurpose clock generator interrupt 30 2 read-write IPR7 Interrupt Priority Register 7 0x31C 32 read-write n 0x0 0x0 PRI_28 Priority of the Low-Power Timer interrupt 6 2 read-write PRI_29 Priority of the single interrupt vector for programmable delay block 0 and 1 interrupt 14 2 read-write PRI_30 Priority of the PORTA pin detect interrupt 22 2 read-write PRI_31 Priority of the PORTB, PORTC, PORTD and PORTE pin detect interrupt 30 2 read-write ISER Interrupt Set Enable Register 0x0 32 read-write n 0x0 0x0 SETENA0 DMA channel 0 and 4 transfer complete interrupt set-enable bit 0 1 read-write 0 write: no effect; read: DMA channel 0 and 4 transfer complete interrupt disabled #0 1 write: enable DMA channel 0 and 4 transfer complete interrupt; read: DMA channel 0 and 4 transfer complete interrupt enabled #1 SETENA1 DMA channel 1 and 5 transfer complete interrupt set-enable bit 1 1 read-write 0 write: no effect; read: DMA channel 1 and 5 transfer complete interrupt disabled #0 1 write: enable DMA channel 1 and 5 transfer complete interrupt; read: DMA channel 1 and 5 transfer complete interrupt enabled #1 SETENA10 serial peripheral interface 0 interrupt set-enable bit 10 1 read-write 0 write: no effect; read: serial peripheral interface 0 interrupt disabled #0 1 write: enable serial peripheral interface 0 interrupt; read: serial peripheral interface 0 interrupt enabled #1 SETENA11 Reserved iv 27 interrupt set-enable bit 11 1 read-write 0 write: no effect; read: Reserved iv 27 interrupt disabled #0 1 write: enable Reserved iv 27 interrupt; read: Reserved iv 27 interrupt enabled #1 SETENA12 UART0 status and error interrupt set-enable bit 12 1 read-write 0 write: no effect; read: UART0 status and error interrupt disabled #0 1 write: enable UART0 status and error interrupt; read: UART0 status and error interrupt enabled #1 SETENA13 UART1 status and error interrupt set-enable bit 13 1 read-write 0 write: no effect; read: UART1 status and error interrupt disabled #0 1 write: enable UART1 status and error interrupt; read: UART1 status and error interrupt enabled #1 SETENA14 Reserved iv 30 interrupt set-enable bit 14 1 read-write 0 write: no effect; read: Reserved iv 30 interrupt disabled #0 1 write: enable Reserved iv 30 interrupt; read: Reserved iv 30 interrupt enabled #1 SETENA15 Analog-to-digital converter 0 interrupt set-enable bit 15 1 read-write 0 write: no effect; read: Analog-to-digital converter 0 interrupt disabled #0 1 write: enable Analog-to-digital converter 0 interrupt; read: Analog-to-digital converter 0 interrupt enabled #1 SETENA16 Analog-to-digital converter 1 interrupt set-enable bit 16 1 read-write 0 write: no effect; read: Analog-to-digital converter 1 interrupt disabled #0 1 write: enable Analog-to-digital converter 1 interrupt; read: Analog-to-digital converter 1 interrupt enabled #1 SETENA17 FlexTimer module 0 fault, overflow and channels interrupt set-enable bit 17 1 read-write 0 write: no effect; read: FlexTimer module 0 fault, overflow and channels interrupt disabled #0 1 write: enable FlexTimer module 0 fault, overflow and channels interrupt; read: FlexTimer module 0 fault, overflow and channels interrupt enabled #1 SETENA18 FlexTimer module 1 fault, overflow and channels interrupt set-enable bit 18 1 read-write 0 write: no effect; read: FlexTimer module 1 fault, overflow and channels interrupt disabled #0 1 write: enable FlexTimer module 1 fault, overflow and channels interrupt; read: FlexTimer module 1 fault, overflow and channels interrupt enabled #1 SETENA19 FlexTimer module 2 fault, overflow and channels interrupt set-enable bit 19 1 read-write 0 write: no effect; read: FlexTimer module 2 fault, overflow and channels interrupt disabled #0 1 write: enable FlexTimer module 2 fault, overflow and channels interrupt; read: FlexTimer module 2 fault, overflow and channels interrupt enabled #1 SETENA2 DMA channel 2 and 6 transfer complete interrupt set-enable bit 2 1 read-write 0 write: no effect; read: DMA channel 2 and 6 transfer complete interrupt disabled #0 1 write: enable DMA channel 2 and 6 transfer complete interrupt; read: DMA channel 2 and 6 transfer complete interrupt enabled #1 SETENA20 Comparator 0 interrupt set-enable bit 20 1 read-write 0 write: no effect; read: Comparator 0 interrupt disabled #0 1 write: enable Comparator 0 interrupt; read: Comparator 0 interrupt enabled #1 SETENA21 Comparator 1 interrupt set-enable bit 21 1 read-write 0 write: no effect; read: Comparator 1 interrupt disabled #0 1 write: enable Comparator 1 interrupt; read: Comparator 1 interrupt enabled #1 SETENA22 FlexTimer module 3 fault, overflow and channels interrupt set-enable bit 22 1 read-write 0 write: no effect; read: FlexTimer module 3 fault, overflow and channels interrupt disabled #0 1 write: enable FlexTimer module 3 fault, overflow and channels interrupt; read: FlexTimer module 3 fault, overflow and channels interrupt enabled #1 SETENA23 single interrupt vector for WDOG and EWM interrupt set-enable bit 23 1 read-write 0 write: no effect; read: single interrupt vector for WDOG and EWM interrupt disabled #0 1 write: enable single interrupt vector for WDOG and EWM interrupt; read: single interrupt vector for WDOG and EWM interrupt enabled #1 SETENA24 FlexTimer module 4 fault, overflow and channels interrupt set-enable bit 24 1 read-write 0 write: no effect; read: FlexTimer module 4 fault, overflow and channels interrupt disabled #0 1 write: enable FlexTimer module 4 fault, overflow and channels interrupt; read: FlexTimer module 4 fault, overflow and channels interrupt enabled #1 SETENA25 digital-to-analog converter 0 interrupt set-enable bit 25 1 read-write 0 write: no effect; read: digital-to-analog converter 0 interrupt disabled #0 1 write: enable digital-to-analog converter 0 interrupt; read: digital-to-analog converter 0 interrupt enabled #1 SETENA26 FlexTimer module 5 fault, overflow and channels interrupt set-enable bit 26 1 read-write 0 write: no effect; read: FlexTimer module 5 fault, overflow and channels interrupt disabled #0 1 write: enable FlexTimer module 5 fault, overflow and channels interrupt; read: FlexTimer module 5 fault, overflow and channels interrupt enabled #1 SETENA27 multipurpose clock generator interrupt set-enable bit 27 1 read-write 0 write: no effect; read: multipurpose clock generator interrupt disabled #0 1 write: enable multipurpose clock generator interrupt; read: multipurpose clock generator interrupt enabled #1 SETENA28 Low-Power Timer interrupt set-enable bit 28 1 read-write 0 write: no effect; read: Low-Power Timer interrupt disabled #0 1 write: enable Low-Power Timer interrupt; read: Low-Power Timer interrupt enabled #1 SETENA29 single interrupt vector for programmable delay block 0 and 1 interrupt set-enable bit 29 1 read-write 0 write: no effect; read: single interrupt vector for programmable delay block 0 and 1 interrupt disabled #0 1 write: enable single interrupt vector for programmable delay block 0 and 1 interrupt; read: single interrupt vector for programmable delay block 0 and 1 interrupt enabled #1 SETENA3 DMA channel 2 and 7 transfer complete interrupt set-enable bit 3 1 read-write 0 write: no effect; read: DMA channel 2 and 7 transfer complete interrupt disabled #0 1 write: enable DMA channel 2 and 7 transfer complete interrupt; read: DMA channel 2 and 7 transfer complete interrupt enabled #1 SETENA30 PORTA pin detect interrupt set-enable bit 30 1 read-write 0 write: no effect; read: PORTA pin detect interrupt disabled #0 1 write: enable PORTA pin detect interrupt; read: PORTA pin detect interrupt enabled #1 SETENA31 PORTB, PORTC, PORTD and PORTE pin detect interrupt set-enable bit 31 1 read-write 0 write: no effect; read: PORTB, PORTC, PORTD and PORTE pin detect interrupt disabled #0 1 write: enable PORTB, PORTC, PORTD and PORTE pin detect interrupt; read: PORTB, PORTC, PORTD and PORTE pin detect interrupt enabled #1 SETENA4 DMA error interrupt channels 0-7 interrupt set-enable bit 4 1 read-write 0 write: no effect; read: DMA error interrupt channels 0-7 interrupt disabled #0 1 write: enable DMA error interrupt channels 0-7 interrupt; read: DMA error interrupt channels 0-7 interrupt enabled #1 SETENA5 FTFA command complete and read collision interrupt set-enable bit 5 1 read-write 0 write: no effect; read: FTFA command complete and read collision interrupt disabled #0 1 write: enable FTFA command complete and read collision interrupt; read: FTFA command complete and read collision interrupt enabled #1 SETENA6 low-voltage detect and low-voltage warning interrupt set-enable bit 6 1 read-write 0 write: no effect; read: low-voltage detect and low-voltage warning interrupt disabled #0 1 write: enable low-voltage detect and low-voltage warning interrupt; read: low-voltage detect and low-voltage warning interrupt enabled #1 SETENA7 low leakage wakeup interrupt set-enable bit 7 1 read-write 0 write: no effect; read: low leakage wakeup interrupt disabled #0 1 write: enable low leakage wakeup interrupt; read: low leakage wakeup interrupt enabled #1 SETENA8 inter-integrated circuit 0 interrupt set-enable bit 8 1 read-write 0 write: no effect; read: inter-integrated circuit 0 interrupt disabled #0 1 write: enable inter-integrated circuit 0 interrupt; read: inter-integrated circuit 0 interrupt enabled #1 SETENA9 Reserved iv 25 interrupt set-enable bit 9 1 read-write 0 write: no effect; read: Reserved iv 25 interrupt disabled #0 1 write: enable Reserved iv 25 interrupt; read: Reserved iv 25 interrupt enabled #1 ISPR Interrupt Set Pending Register 0x100 32 read-write n 0x0 0x0 SETPEND0 DMA channel 0 and 4 transfer complete interrupt set-pending bit 0 1 read-write 0 write: no effect; read: DMA channel 0 and 4 transfer complete interrupt is not pending #0 1 write: changes the DMA channel 0 and 4 transfer complete interrupt state to pending; read: DMA channel 0 and 4 transfer complete interrupt is pending #1 SETPEND1 DMA channel 1 and 5 transfer complete interrupt set-pending bit 1 1 read-write 0 write: no effect; read: DMA channel 1 and 5 transfer complete interrupt is not pending #0 1 write: changes the DMA channel 1 and 5 transfer complete interrupt state to pending; read: DMA channel 1 and 5 transfer complete interrupt is pending #1 SETPEND10 serial peripheral interface 0 interrupt set-pending bit 10 1 read-write 0 write: no effect; read: serial peripheral interface 0 interrupt is not pending #0 1 write: changes the serial peripheral interface 0 interrupt state to pending; read: serial peripheral interface 0 interrupt is pending #1 SETPEND11 Reserved iv 27 interrupt set-pending bit 11 1 read-write 0 write: no effect; read: Reserved iv 27 interrupt is not pending #0 1 write: changes the Reserved iv 27 interrupt state to pending; read: Reserved iv 27 interrupt is pending #1 SETPEND12 UART0 status and error interrupt set-pending bit 12 1 read-write 0 write: no effect; read: UART0 status and error interrupt is not pending #0 1 write: changes the UART0 status and error interrupt state to pending; read: UART0 status and error interrupt is pending #1 SETPEND13 UART1 status and error interrupt set-pending bit 13 1 read-write 0 write: no effect; read: UART1 status and error interrupt is not pending #0 1 write: changes the UART1 status and error interrupt state to pending; read: UART1 status and error interrupt is pending #1 SETPEND14 Reserved iv 30 interrupt set-pending bit 14 1 read-write 0 write: no effect; read: Reserved iv 30 interrupt is not pending #0 1 write: changes the Reserved iv 30 interrupt state to pending; read: Reserved iv 30 interrupt is pending #1 SETPEND15 Analog-to-digital converter 0 interrupt set-pending bit 15 1 read-write 0 write: no effect; read: Analog-to-digital converter 0 interrupt is not pending #0 1 write: changes the Analog-to-digital converter 0 interrupt state to pending; read: Analog-to-digital converter 0 interrupt is pending #1 SETPEND16 Analog-to-digital converter 1 interrupt set-pending bit 16 1 read-write 0 write: no effect; read: Analog-to-digital converter 1 interrupt is not pending #0 1 write: changes the Analog-to-digital converter 1 interrupt state to pending; read: Analog-to-digital converter 1 interrupt is pending #1 SETPEND17 FlexTimer module 0 fault, overflow and channels interrupt set-pending bit 17 1 read-write 0 write: no effect; read: FlexTimer module 0 fault, overflow and channels interrupt is not pending #0 1 write: changes the FlexTimer module 0 fault, overflow and channels interrupt state to pending; read: FlexTimer module 0 fault, overflow and channels interrupt is pending #1 SETPEND18 FlexTimer module 1 fault, overflow and channels interrupt set-pending bit 18 1 read-write 0 write: no effect; read: FlexTimer module 1 fault, overflow and channels interrupt is not pending #0 1 write: changes the FlexTimer module 1 fault, overflow and channels interrupt state to pending; read: FlexTimer module 1 fault, overflow and channels interrupt is pending #1 SETPEND19 FlexTimer module 2 fault, overflow and channels interrupt set-pending bit 19 1 read-write 0 write: no effect; read: FlexTimer module 2 fault, overflow and channels interrupt is not pending #0 1 write: changes the FlexTimer module 2 fault, overflow and channels interrupt state to pending; read: FlexTimer module 2 fault, overflow and channels interrupt is pending #1 SETPEND2 DMA channel 2 and 6 transfer complete interrupt set-pending bit 2 1 read-write 0 write: no effect; read: DMA channel 2 and 6 transfer complete interrupt is not pending #0 1 write: changes the DMA channel 2 and 6 transfer complete interrupt state to pending; read: DMA channel 2 and 6 transfer complete interrupt is pending #1 SETPEND20 Comparator 0 interrupt set-pending bit 20 1 read-write 0 write: no effect; read: Comparator 0 interrupt is not pending #0 1 write: changes the Comparator 0 interrupt state to pending; read: Comparator 0 interrupt is pending #1 SETPEND21 Comparator 1 interrupt set-pending bit 21 1 read-write 0 write: no effect; read: Comparator 1 interrupt is not pending #0 1 write: changes the Comparator 1 interrupt state to pending; read: Comparator 1 interrupt is pending #1 SETPEND22 FlexTimer module 3 fault, overflow and channels interrupt set-pending bit 22 1 read-write 0 write: no effect; read: FlexTimer module 3 fault, overflow and channels interrupt is not pending #0 1 write: changes the FlexTimer module 3 fault, overflow and channels interrupt state to pending; read: FlexTimer module 3 fault, overflow and channels interrupt is pending #1 SETPEND23 single interrupt vector for WDOG and EWM interrupt set-pending bit 23 1 read-write 0 write: no effect; read: single interrupt vector for WDOG and EWM interrupt is not pending #0 1 write: changes the single interrupt vector for WDOG and EWM interrupt state to pending; read: single interrupt vector for WDOG and EWM interrupt is pending #1 SETPEND24 FlexTimer module 4 fault, overflow and channels interrupt set-pending bit 24 1 read-write 0 write: no effect; read: FlexTimer module 4 fault, overflow and channels interrupt is not pending #0 1 write: changes the FlexTimer module 4 fault, overflow and channels interrupt state to pending; read: FlexTimer module 4 fault, overflow and channels interrupt is pending #1 SETPEND25 digital-to-analog converter 0 interrupt set-pending bit 25 1 read-write 0 write: no effect; read: digital-to-analog converter 0 interrupt is not pending #0 1 write: changes the digital-to-analog converter 0 interrupt state to pending; read: digital-to-analog converter 0 interrupt is pending #1 SETPEND26 FlexTimer module 5 fault, overflow and channels interrupt set-pending bit 26 1 read-write 0 write: no effect; read: FlexTimer module 5 fault, overflow and channels interrupt is not pending #0 1 write: changes the FlexTimer module 5 fault, overflow and channels interrupt state to pending; read: FlexTimer module 5 fault, overflow and channels interrupt is pending #1 SETPEND27 multipurpose clock generator interrupt set-pending bit 27 1 read-write 0 write: no effect; read: multipurpose clock generator interrupt is not pending #0 1 write: changes the multipurpose clock generator interrupt state to pending; read: multipurpose clock generator interrupt is pending #1 SETPEND28 Low-Power Timer interrupt set-pending bit 28 1 read-write 0 write: no effect; read: Low-Power Timer interrupt is not pending #0 1 write: changes the Low-Power Timer interrupt state to pending; read: Low-Power Timer interrupt is pending #1 SETPEND29 single interrupt vector for programmable delay block 0 and 1 interrupt set-pending bit 29 1 read-write 0 write: no effect; read: single interrupt vector for programmable delay block 0 and 1 interrupt is not pending #0 1 write: changes the single interrupt vector for programmable delay block 0 and 1 interrupt state to pending; read: single interrupt vector for programmable delay block 0 and 1 interrupt is pending #1 SETPEND3 DMA channel 2 and 7 transfer complete interrupt set-pending bit 3 1 read-write 0 write: no effect; read: DMA channel 2 and 7 transfer complete interrupt is not pending #0 1 write: changes the DMA channel 2 and 7 transfer complete interrupt state to pending; read: DMA channel 2 and 7 transfer complete interrupt is pending #1 SETPEND30 PORTA pin detect interrupt set-pending bit 30 1 read-write 0 write: no effect; read: PORTA pin detect interrupt is not pending #0 1 write: changes the PORTA pin detect interrupt state to pending; read: PORTA pin detect interrupt is pending #1 SETPEND31 PORTB, PORTC, PORTD and PORTE pin detect interrupt set-pending bit 31 1 read-write 0 write: no effect; read: PORTB, PORTC, PORTD and PORTE pin detect interrupt is not pending #0 1 write: changes the PORTB, PORTC, PORTD and PORTE pin detect interrupt state to pending; read: PORTB, PORTC, PORTD and PORTE pin detect interrupt is pending #1 SETPEND4 DMA error interrupt channels 0-7 interrupt set-pending bit 4 1 read-write 0 write: no effect; read: DMA error interrupt channels 0-7 interrupt is not pending #0 1 write: changes the DMA error interrupt channels 0-7 interrupt state to pending; read: DMA error interrupt channels 0-7 interrupt is pending #1 SETPEND5 FTFA command complete and read collision interrupt set-pending bit 5 1 read-write 0 write: no effect; read: FTFA command complete and read collision interrupt is not pending #0 1 write: changes the FTFA command complete and read collision interrupt state to pending; read: FTFA command complete and read collision interrupt is pending #1 SETPEND6 low-voltage detect and low-voltage warning interrupt set-pending bit 6 1 read-write 0 write: no effect; read: low-voltage detect and low-voltage warning interrupt is not pending #0 1 write: changes the low-voltage detect and low-voltage warning interrupt state to pending; read: low-voltage detect and low-voltage warning interrupt is pending #1 SETPEND7 low leakage wakeup interrupt set-pending bit 7 1 read-write 0 write: no effect; read: low leakage wakeup interrupt is not pending #0 1 write: changes the low leakage wakeup interrupt state to pending; read: low leakage wakeup interrupt is pending #1 SETPEND8 inter-integrated circuit 0 interrupt set-pending bit 8 1 read-write 0 write: no effect; read: inter-integrated circuit 0 interrupt is not pending #0 1 write: changes the inter-integrated circuit 0 interrupt state to pending; read: inter-integrated circuit 0 interrupt is pending #1 SETPEND9 Reserved iv 25 interrupt set-pending bit 9 1 read-write 0 write: no effect; read: Reserved iv 25 interrupt is not pending #0 1 write: changes the Reserved iv 25 interrupt state to pending; read: Reserved iv 25 interrupt is pending #1 OSC0 Oscillator OSC0 0x0 0x0 0x1 registers n CR OSC Control Register 0x0 8 read-write n 0x0 0x0 ERCLKEN External Reference Enable 7 1 read-write 0 External reference clock is inactive. #0 1 External reference clock is enabled. #1 EREFSTEN External Reference Stop Enable 5 1 read-write 0 External reference clock is disabled in Stop mode. #0 1 External reference clock stays enabled in Stop mode if ERCLKEN is set before entering Stop mode. #1 SC16P Oscillator 16 pF Capacitor Load Configure 0 1 read-write 0 Disable the selection. #0 1 Add 16 pF capacitor to the oscillator load. #1 SC2P Oscillator 2 pF Capacitor Load Configure 3 1 read-write 0 Disable the selection. #0 1 Add 2 pF capacitor to the oscillator load. #1 SC4P Oscillator 4 pF Capacitor Load Configure 2 1 read-write 0 Disable the selection. #0 1 Add 4 pF capacitor to the oscillator load. #1 SC8P Oscillator 8 pF Capacitor Load Configure 1 1 read-write 0 Disable the selection. #0 1 Add 8 pF capacitor to the oscillator load. #1 PDB0 Programmable Delay Block PDB 0x0 0x0 0x19C registers n PDB0_PDB1 29 CH0C1 Channel n Control register 1 0x20 32 read-write n 0x0 0x0 BB PDB Channel Pre-Trigger Back-to-Back Operation Enable 16 8 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB0 PDB Channel Pre-Trigger Back-to-Back Operation Enable 16 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB1 PDB Channel Pre-Trigger Back-to-Back Operation Enable 17 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB2 PDB Channel Pre-Trigger Back-to-Back Operation Enable 18 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB3 PDB Channel Pre-Trigger Back-to-Back Operation Enable 19 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB4 PDB Channel Pre-Trigger Back-to-Back Operation Enable 20 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB5 PDB Channel Pre-Trigger Back-to-Back Operation Enable 21 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB6 PDB Channel Pre-Trigger Back-to-Back Operation Enable 22 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB7 PDB Channel Pre-Trigger Back-to-Back Operation Enable 23 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 EN PDB Channel Pre-Trigger Enable 0 8 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN0 PDB Channel Pre-Trigger Enable 0 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN1 PDB Channel Pre-Trigger Enable 1 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN2 PDB Channel Pre-Trigger Enable 2 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN3 PDB Channel Pre-Trigger Enable 3 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN4 PDB Channel Pre-Trigger Enable 4 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN5 PDB Channel Pre-Trigger Enable 5 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN6 PDB Channel Pre-Trigger Enable 6 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN7 PDB Channel Pre-Trigger Enable 7 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 TOS PDB Channel Pre-Trigger Output Select 8 8 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS0 PDB Channel Pre-Trigger Output Select 8 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS1 PDB Channel Pre-Trigger Output Select 9 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS2 PDB Channel Pre-Trigger Output Select 10 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS3 PDB Channel Pre-Trigger Output Select 11 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS4 PDB Channel Pre-Trigger Output Select 12 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS5 PDB Channel Pre-Trigger Output Select 13 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS6 PDB Channel Pre-Trigger Output Select 14 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS7 PDB Channel Pre-Trigger Output Select 15 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 CH0DLY0 Channel n Delay 0 register 0x30 32 read-write n 0x0 0x0 DLY PDB Channel Delay 0 16 read-write CH0DLY1 Channel n Delay 1 register 0x38 32 read-write n 0x0 0x0 DLY PDB Channel Delay 0 16 read-write CH0S Channel n Status register 0x28 32 read-write n 0x0 0x0 CF PDB Channel Flags 16 8 read-write ERR PDB Channel Sequence Error Flags 0 8 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR0 PDB Channel Sequence Error Flags 0 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR1 PDB Channel Sequence Error Flags 1 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR2 PDB Channel Sequence Error Flags 2 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR3 PDB Channel Sequence Error Flags 3 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR4 PDB Channel Sequence Error Flags 4 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR5 PDB Channel Sequence Error Flags 5 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR6 PDB Channel Sequence Error Flags 6 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR7 PDB Channel Sequence Error Flags 7 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 CH1C1 Channel n Control register 1 0x58 32 read-write n 0x0 0x0 BB PDB Channel Pre-Trigger Back-to-Back Operation Enable 16 8 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB0 PDB Channel Pre-Trigger Back-to-Back Operation Enable 16 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB1 PDB Channel Pre-Trigger Back-to-Back Operation Enable 17 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB2 PDB Channel Pre-Trigger Back-to-Back Operation Enable 18 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB3 PDB Channel Pre-Trigger Back-to-Back Operation Enable 19 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB4 PDB Channel Pre-Trigger Back-to-Back Operation Enable 20 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB5 PDB Channel Pre-Trigger Back-to-Back Operation Enable 21 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB6 PDB Channel Pre-Trigger Back-to-Back Operation Enable 22 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB7 PDB Channel Pre-Trigger Back-to-Back Operation Enable 23 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 EN PDB Channel Pre-Trigger Enable 0 8 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN0 PDB Channel Pre-Trigger Enable 0 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN1 PDB Channel Pre-Trigger Enable 1 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN2 PDB Channel Pre-Trigger Enable 2 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN3 PDB Channel Pre-Trigger Enable 3 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN4 PDB Channel Pre-Trigger Enable 4 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN5 PDB Channel Pre-Trigger Enable 5 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN6 PDB Channel Pre-Trigger Enable 6 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN7 PDB Channel Pre-Trigger Enable 7 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 TOS PDB Channel Pre-Trigger Output Select 8 8 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS0 PDB Channel Pre-Trigger Output Select 8 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS1 PDB Channel Pre-Trigger Output Select 9 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS2 PDB Channel Pre-Trigger Output Select 10 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS3 PDB Channel Pre-Trigger Output Select 11 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS4 PDB Channel Pre-Trigger Output Select 12 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS5 PDB Channel Pre-Trigger Output Select 13 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS6 PDB Channel Pre-Trigger Output Select 14 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS7 PDB Channel Pre-Trigger Output Select 15 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 CH1DLY0 Channel n Delay 0 register 0x70 32 read-write n 0x0 0x0 DLY PDB Channel Delay 0 16 read-write CH1DLY1 Channel n Delay 1 register 0x7C 32 read-write n 0x0 0x0 DLY PDB Channel Delay 0 16 read-write CH1S Channel n Status register 0x64 32 read-write n 0x0 0x0 CF PDB Channel Flags 16 8 read-write ERR PDB Channel Sequence Error Flags 0 8 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR0 PDB Channel Sequence Error Flags 0 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR1 PDB Channel Sequence Error Flags 1 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR2 PDB Channel Sequence Error Flags 2 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR3 PDB Channel Sequence Error Flags 3 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR4 PDB Channel Sequence Error Flags 4 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR5 PDB Channel Sequence Error Flags 5 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR6 PDB Channel Sequence Error Flags 6 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR7 PDB Channel Sequence Error Flags 7 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 CNT Counter register 0x8 32 read-only n 0x0 0x0 CNT PDB Counter 0 16 read-only DACINT DAC Interval n register 0x154 32 read-write n 0x0 0x0 INT DAC Interval 0 16 read-write DACINTC DAC Interval Trigger n Control register 0x150 32 read-write n 0x0 0x0 EXT DAC External Trigger Input Enable 1 1 read-write 0 DAC external trigger input disabled. DAC interval counter is reset and started counting when a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 DAC external trigger input enabled. DAC interval counter is bypassed and DAC external trigger input triggers the DAC interval trigger. #1 TOE DAC Interval Trigger Enable 0 1 read-write 0 DAC interval trigger disabled. #0 1 DAC interval trigger enabled. #1 IDLY Interrupt Delay register 0xC 32 read-write n 0x0 0x0 IDLY PDB Interrupt Delay 0 16 read-write MOD Modulus register 0x4 32 read-write n 0x0 0x0 MOD PDB Modulus 0 16 read-write PO0DLY Pulse-Out n Delay register 0x328 32 read-write n 0x0 0x0 DLY1 PDB Pulse-Out Delay 1 16 16 read-write DLY2 PDB Pulse-Out Delay 2 0 16 read-write PO1DLY Pulse-Out n Delay register 0x4C0 32 read-write n 0x0 0x0 DLY1 PDB Pulse-Out Delay 1 16 16 read-write DLY2 PDB Pulse-Out Delay 2 0 16 read-write POEN Pulse-Out n Enable register 0x190 32 read-write n 0x0 0x0 POEN PDB Pulse-Out Enable 0 8 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN0 PDB Pulse-Out Enable 0 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN1 PDB Pulse-Out Enable 1 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN2 PDB Pulse-Out Enable 2 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN3 PDB Pulse-Out Enable 3 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN4 PDB Pulse-Out Enable 4 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN5 PDB Pulse-Out Enable 5 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN6 PDB Pulse-Out Enable 6 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN7 PDB Pulse-Out Enable 7 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 SC Status and Control register 0x0 32 read-write n 0x0 0x0 CONT Continuous Mode Enable 1 1 read-write 0 PDB operation in One-Shot mode #0 1 PDB operation in Continuous mode #1 DMAEN DMA Enable 15 1 read-write 0 DMA disabled. #0 1 DMA enabled. #1 LDMOD Load Mode Select 18 2 read-write 00 The internal registers are loaded with the values from their buffers immediately after 1 is written to LDOK. #00 01 The internal registers are loaded with the values from their buffers when the PDB counter reaches the MOD register value after 1 is written to LDOK. #01 10 The internal registers are loaded with the values from their buffers when a trigger input event is detected after 1 is written to LDOK. #10 11 The internal registers are loaded with the values from their buffers when either the PDB counter reaches the MOD register value or a trigger input event is detected, after 1 is written to LDOK. #11 LDOK Load OK 0 1 read-write MULT Multiplication Factor Select for Prescaler 2 2 read-write 00 Multiplication factor is 1. #00 01 Multiplication factor is 10. #01 10 Multiplication factor is 20. #10 11 Multiplication factor is 40. #11 PDBEIE PDB Sequence Error Interrupt Enable 17 1 read-write 0 PDB sequence error interrupt disabled. #0 1 PDB sequence error interrupt enabled. #1 PDBEN PDB Enable 7 1 read-write 0 PDB disabled. Counter is off. #0 1 PDB enabled. #1 PDBIE PDB Interrupt Enable 5 1 read-write 0 PDB interrupt disabled. #0 1 PDB interrupt enabled. #1 PDBIF PDB Interrupt Flag 6 1 read-write PRESCALER Prescaler Divider Select 12 3 read-write 000 Counting uses the peripheral clock divided by multiplication factor selected by MULT. #000 001 Counting uses the peripheral clock divided by twice of the multiplication factor selected by MULT. #001 010 Counting uses the peripheral clock divided by four times of the multiplication factor selected by MULT. #010 011 Counting uses the peripheral clock divided by eight times of the multiplication factor selected by MULT. #011 100 Counting uses the peripheral clock divided by 16 times of the multiplication factor selected by MULT. #100 101 Counting uses the peripheral clock divided by 32 times of the multiplication factor selected by MULT. #101 110 Counting uses the peripheral clock divided by 64 times of the multiplication factor selected by MULT. #110 111 Counting uses the peripheral clock divided by 128 times of the multiplication factor selected by MULT. #111 SWTRIG Software Trigger 16 1 write-only TRGSEL Trigger Input Source Select 8 4 read-write 0000 Trigger-In 0 is selected. #0000 0001 Trigger-In 1 is selected. #0001 0010 Trigger-In 2 is selected. #0010 0011 Trigger-In 3 is selected. #0011 0100 Trigger-In 4 is selected. #0100 0101 Trigger-In 5 is selected. #0101 0110 Trigger-In 6 is selected. #0110 0111 Trigger-In 7 is selected. #0111 1000 Trigger-In 8 is selected. #1000 1001 Trigger-In 9 is selected. #1001 1010 Trigger-In 10 is selected. #1010 1011 Trigger-In 11 is selected. #1011 1100 Trigger-In 12 is selected. #1100 1101 Trigger-In 13 is selected. #1101 1110 Trigger-In 14 is selected. #1110 1111 Software trigger is selected. #1111 PDB1 Programmable Delay Block PDB 0x0 0x0 0x19C registers n PDB0_PDB1 29 CH0C1 Channel n Control register 1 0x20 32 read-write n 0x0 0x0 BB PDB Channel Pre-Trigger Back-to-Back Operation Enable 16 8 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB0 PDB Channel Pre-Trigger Back-to-Back Operation Enable 16 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB1 PDB Channel Pre-Trigger Back-to-Back Operation Enable 17 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB2 PDB Channel Pre-Trigger Back-to-Back Operation Enable 18 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB3 PDB Channel Pre-Trigger Back-to-Back Operation Enable 19 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB4 PDB Channel Pre-Trigger Back-to-Back Operation Enable 20 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB5 PDB Channel Pre-Trigger Back-to-Back Operation Enable 21 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB6 PDB Channel Pre-Trigger Back-to-Back Operation Enable 22 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB7 PDB Channel Pre-Trigger Back-to-Back Operation Enable 23 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 EN PDB Channel Pre-Trigger Enable 0 8 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN0 PDB Channel Pre-Trigger Enable 0 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN1 PDB Channel Pre-Trigger Enable 1 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN2 PDB Channel Pre-Trigger Enable 2 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN3 PDB Channel Pre-Trigger Enable 3 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN4 PDB Channel Pre-Trigger Enable 4 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN5 PDB Channel Pre-Trigger Enable 5 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN6 PDB Channel Pre-Trigger Enable 6 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN7 PDB Channel Pre-Trigger Enable 7 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 TOS PDB Channel Pre-Trigger Output Select 8 8 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS0 PDB Channel Pre-Trigger Output Select 8 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS1 PDB Channel Pre-Trigger Output Select 9 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS2 PDB Channel Pre-Trigger Output Select 10 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS3 PDB Channel Pre-Trigger Output Select 11 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS4 PDB Channel Pre-Trigger Output Select 12 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS5 PDB Channel Pre-Trigger Output Select 13 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS6 PDB Channel Pre-Trigger Output Select 14 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS7 PDB Channel Pre-Trigger Output Select 15 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 CH0DLY0 Channel n Delay 0 register 0x30 32 read-write n 0x0 0x0 DLY PDB Channel Delay 0 16 read-write CH0DLY1 Channel n Delay 1 register 0x38 32 read-write n 0x0 0x0 DLY PDB Channel Delay 0 16 read-write CH0S Channel n Status register 0x28 32 read-write n 0x0 0x0 CF PDB Channel Flags 16 8 read-write ERR PDB Channel Sequence Error Flags 0 8 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR0 PDB Channel Sequence Error Flags 0 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR1 PDB Channel Sequence Error Flags 1 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR2 PDB Channel Sequence Error Flags 2 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR3 PDB Channel Sequence Error Flags 3 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR4 PDB Channel Sequence Error Flags 4 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR5 PDB Channel Sequence Error Flags 5 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR6 PDB Channel Sequence Error Flags 6 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR7 PDB Channel Sequence Error Flags 7 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 CH1C1 Channel n Control register 1 0x58 32 read-write n 0x0 0x0 BB PDB Channel Pre-Trigger Back-to-Back Operation Enable 16 8 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB0 PDB Channel Pre-Trigger Back-to-Back Operation Enable 16 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB1 PDB Channel Pre-Trigger Back-to-Back Operation Enable 17 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB2 PDB Channel Pre-Trigger Back-to-Back Operation Enable 18 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB3 PDB Channel Pre-Trigger Back-to-Back Operation Enable 19 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB4 PDB Channel Pre-Trigger Back-to-Back Operation Enable 20 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB5 PDB Channel Pre-Trigger Back-to-Back Operation Enable 21 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB6 PDB Channel Pre-Trigger Back-to-Back Operation Enable 22 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 BB7 PDB Channel Pre-Trigger Back-to-Back Operation Enable 23 1 read-write 0 PDB channel's corresponding pre-trigger back-to-back operation disabled. #0 1 PDB channel's corresponding pre-trigger back-to-back operation enabled. #1 EN PDB Channel Pre-Trigger Enable 0 8 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN0 PDB Channel Pre-Trigger Enable 0 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN1 PDB Channel Pre-Trigger Enable 1 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN2 PDB Channel Pre-Trigger Enable 2 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN3 PDB Channel Pre-Trigger Enable 3 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN4 PDB Channel Pre-Trigger Enable 4 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN5 PDB Channel Pre-Trigger Enable 5 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN6 PDB Channel Pre-Trigger Enable 6 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 EN7 PDB Channel Pre-Trigger Enable 7 1 read-write 0 PDB channel's corresponding pre-trigger disabled. #0 1 PDB channel's corresponding pre-trigger enabled. #1 TOS PDB Channel Pre-Trigger Output Select 8 8 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS0 PDB Channel Pre-Trigger Output Select 8 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS1 PDB Channel Pre-Trigger Output Select 9 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS2 PDB Channel Pre-Trigger Output Select 10 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS3 PDB Channel Pre-Trigger Output Select 11 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS4 PDB Channel Pre-Trigger Output Select 12 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS5 PDB Channel Pre-Trigger Output Select 13 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS6 PDB Channel Pre-Trigger Output Select 14 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 TOS7 PDB Channel Pre-Trigger Output Select 15 1 read-write 0 PDB channel's corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 PDB channel's corresponding pre-trigger asserts when the counter reaches the channel delay register and one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1. #1 CH1DLY0 Channel n Delay 0 register 0x70 32 read-write n 0x0 0x0 DLY PDB Channel Delay 0 16 read-write CH1DLY1 Channel n Delay 1 register 0x7C 32 read-write n 0x0 0x0 DLY PDB Channel Delay 0 16 read-write CH1S Channel n Status register 0x64 32 read-write n 0x0 0x0 CF PDB Channel Flags 16 8 read-write ERR PDB Channel Sequence Error Flags 0 8 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR0 PDB Channel Sequence Error Flags 0 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR1 PDB Channel Sequence Error Flags 1 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR2 PDB Channel Sequence Error Flags 2 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR3 PDB Channel Sequence Error Flags 3 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR4 PDB Channel Sequence Error Flags 4 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR5 PDB Channel Sequence Error Flags 5 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR6 PDB Channel Sequence Error Flags 6 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 ERR7 PDB Channel Sequence Error Flags 7 1 read-write 0 Sequence error not detected on PDB channel's corresponding pre-trigger. #0 1 Sequence error detected on PDB channel's corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel's corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0's to clear the sequence error flags. #1 CNT Counter register 0x8 32 read-only n 0x0 0x0 CNT PDB Counter 0 16 read-only DACINT DAC Interval n register 0x154 32 read-write n 0x0 0x0 INT DAC Interval 0 16 read-write DACINTC DAC Interval Trigger n Control register 0x150 32 read-write n 0x0 0x0 EXT DAC External Trigger Input Enable 1 1 read-write 0 DAC external trigger input disabled. DAC interval counter is reset and started counting when a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1. #0 1 DAC external trigger input enabled. DAC interval counter is bypassed and DAC external trigger input triggers the DAC interval trigger. #1 TOE DAC Interval Trigger Enable 0 1 read-write 0 DAC interval trigger disabled. #0 1 DAC interval trigger enabled. #1 IDLY Interrupt Delay register 0xC 32 read-write n 0x0 0x0 IDLY PDB Interrupt Delay 0 16 read-write MOD Modulus register 0x4 32 read-write n 0x0 0x0 MOD PDB Modulus 0 16 read-write PO0DLY Pulse-Out n Delay register 0x328 32 read-write n 0x0 0x0 DLY1 PDB Pulse-Out Delay 1 16 16 read-write DLY2 PDB Pulse-Out Delay 2 0 16 read-write PO1DLY Pulse-Out n Delay register 0x4C0 32 read-write n 0x0 0x0 DLY1 PDB Pulse-Out Delay 1 16 16 read-write DLY2 PDB Pulse-Out Delay 2 0 16 read-write POEN Pulse-Out n Enable register 0x190 32 read-write n 0x0 0x0 POEN PDB Pulse-Out Enable 0 8 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN0 PDB Pulse-Out Enable 0 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN1 PDB Pulse-Out Enable 1 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN2 PDB Pulse-Out Enable 2 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN3 PDB Pulse-Out Enable 3 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN4 PDB Pulse-Out Enable 4 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN5 PDB Pulse-Out Enable 5 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN6 PDB Pulse-Out Enable 6 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 POEN7 PDB Pulse-Out Enable 7 1 read-write 0 PDB Pulse-Out disabled #0 1 PDB Pulse-Out enabled #1 SC Status and Control register 0x0 32 read-write n 0x0 0x0 CONT Continuous Mode Enable 1 1 read-write 0 PDB operation in One-Shot mode #0 1 PDB operation in Continuous mode #1 DMAEN DMA Enable 15 1 read-write 0 DMA disabled. #0 1 DMA enabled. #1 LDMOD Load Mode Select 18 2 read-write 00 The internal registers are loaded with the values from their buffers immediately after 1 is written to LDOK. #00 01 The internal registers are loaded with the values from their buffers when the PDB counter reaches the MOD register value after 1 is written to LDOK. #01 10 The internal registers are loaded with the values from their buffers when a trigger input event is detected after 1 is written to LDOK. #10 11 The internal registers are loaded with the values from their buffers when either the PDB counter reaches the MOD register value or a trigger input event is detected, after 1 is written to LDOK. #11 LDOK Load OK 0 1 read-write MULT Multiplication Factor Select for Prescaler 2 2 read-write 00 Multiplication factor is 1. #00 01 Multiplication factor is 10. #01 10 Multiplication factor is 20. #10 11 Multiplication factor is 40. #11 PDBEIE PDB Sequence Error Interrupt Enable 17 1 read-write 0 PDB sequence error interrupt disabled. #0 1 PDB sequence error interrupt enabled. #1 PDBEN PDB Enable 7 1 read-write 0 PDB disabled. Counter is off. #0 1 PDB enabled. #1 PDBIE PDB Interrupt Enable 5 1 read-write 0 PDB interrupt disabled. #0 1 PDB interrupt enabled. #1 PDBIF PDB Interrupt Flag 6 1 read-write PRESCALER Prescaler Divider Select 12 3 read-write 000 Counting uses the peripheral clock divided by multiplication factor selected by MULT. #000 001 Counting uses the peripheral clock divided by twice of the multiplication factor selected by MULT. #001 010 Counting uses the peripheral clock divided by four times of the multiplication factor selected by MULT. #010 011 Counting uses the peripheral clock divided by eight times of the multiplication factor selected by MULT. #011 100 Counting uses the peripheral clock divided by 16 times of the multiplication factor selected by MULT. #100 101 Counting uses the peripheral clock divided by 32 times of the multiplication factor selected by MULT. #101 110 Counting uses the peripheral clock divided by 64 times of the multiplication factor selected by MULT. #110 111 Counting uses the peripheral clock divided by 128 times of the multiplication factor selected by MULT. #111 SWTRIG Software Trigger 16 1 write-only TRGSEL Trigger Input Source Select 8 4 read-write 0000 Trigger-In 0 is selected. #0000 0001 Trigger-In 1 is selected. #0001 0010 Trigger-In 2 is selected. #0010 0011 Trigger-In 3 is selected. #0011 0100 Trigger-In 4 is selected. #0100 0101 Trigger-In 5 is selected. #0101 0110 Trigger-In 6 is selected. #0110 0111 Trigger-In 7 is selected. #0111 1000 Trigger-In 8 is selected. #1000 1001 Trigger-In 9 is selected. #1001 1010 Trigger-In 10 is selected. #1010 1011 Trigger-In 11 is selected. #1011 1100 Trigger-In 12 is selected. #1100 1101 Trigger-In 13 is selected. #1101 1110 Trigger-In 14 is selected. #1110 1111 Software trigger is selected. #1111 PMC Power Management Controller PMC 0x0 0x0 0x3 registers n LVD_LVW 6 LVDSC1 Low Voltage Detect Status And Control 1 register 0x0 8 read-write n 0x0 0x0 LVDACK Low-Voltage Detect Acknowledge 6 1 write-only LVDF Low-Voltage Detect Flag 7 1 read-only 0 Low-voltage event not detected #0 1 Low-voltage event detected #1 LVDIE Low-Voltage Detect Interrupt Enable 5 1 read-write 0 Hardware interrupt disabled (use polling) #0 1 Request a hardware interrupt when LVDF = 1 #1 LVDRE Low-Voltage Detect Reset Enable 4 1 read-write 0 LVDF does not generate hardware resets #0 1 Force an MCU reset when LVDF = 1 #1 LVDV Low-Voltage Detect Voltage Select 0 2 read-write 00 Low trip point selected (V LVD = V LVDL ) #00 01 High trip point selected (V LVD = V LVDH ) #01 LVDSC2 Low Voltage Detect Status And Control 2 register 0x1 8 read-write n 0x0 0x0 LVWACK Low-Voltage Warning Acknowledge 6 1 write-only LVWF Low-Voltage Warning Flag 7 1 read-only 0 Low-voltage warning event not detected #0 1 Low-voltage warning event detected #1 LVWIE Low-Voltage Warning Interrupt Enable 5 1 read-write 0 Hardware interrupt disabled (use polling) #0 1 Request a hardware interrupt when LVWF = 1 #1 LVWV Low-Voltage Warning Voltage Select 0 2 read-write 00 Low trip point selected (VLVW = VLVW1) #00 01 Mid 1 trip point selected (VLVW = VLVW2) #01 10 Mid 2 trip point selected (VLVW = VLVW3) #10 11 High trip point selected (VLVW = VLVW4) #11 REGSC Regulator Status And Control register 0x2 8 read-write n 0x0 0x0 ACKISO Acknowledge Isolation 3 1 read-write 0 Peripherals and I/O pads are in normal run state. #0 1 Certain peripherals and I/O pads are in an isolated and latched state. #1 BGBE Bandgap Buffer Enable 0 1 read-write 0 Bandgap buffer not enabled #0 1 Bandgap buffer enabled #1 BGEN Bandgap Enable In VLPx Operation 4 1 read-write 0 Bandgap voltage reference is disabled in VLPx , and VLLSx modes. #0 1 Bandgap voltage reference is enabled in VLPx , and VLLSx modes. #1 REGONS Regulator In Run Regulation Status 2 1 read-only 0 Regulator is in stop regulation or in transition to/from it #0 1 Regulator is in run regulation #1 PORTA Pin Control and Interrupts PORT 0x0 0x0 0xA4 registers n PORTA 30 GPCHR Global Pin Control High Register 0x84 32 write-only n 0x0 0x0 GPWD Global Pin Write Data 0 16 write-only GPWE Global Pin Write Enable 16 16 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE0 Global Pin Write Enable 16 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE1 Global Pin Write Enable 17 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE10 Global Pin Write Enable 26 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE11 Global Pin Write Enable 27 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE12 Global Pin Write Enable 28 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE13 Global Pin Write Enable 29 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE14 Global Pin Write Enable 30 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE15 Global Pin Write Enable 31 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE2 Global Pin Write Enable 18 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE3 Global Pin Write Enable 19 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE4 Global Pin Write Enable 20 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE5 Global Pin Write Enable 21 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE6 Global Pin Write Enable 22 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE7 Global Pin Write Enable 23 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE8 Global Pin Write Enable 24 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE9 Global Pin Write Enable 25 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPCLR Global Pin Control Low Register 0x80 32 write-only n 0x0 0x0 GPWD Global Pin Write Data 0 16 write-only GPWE Global Pin Write Enable 16 16 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE0 Global Pin Write Enable 16 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE1 Global Pin Write Enable 17 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE10 Global Pin Write Enable 26 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE11 Global Pin Write Enable 27 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE12 Global Pin Write Enable 28 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE13 Global Pin Write Enable 29 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE14 Global Pin Write Enable 30 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE15 Global Pin Write Enable 31 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE2 Global Pin Write Enable 18 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE3 Global Pin Write Enable 19 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE4 Global Pin Write Enable 20 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE5 Global Pin Write Enable 21 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE6 Global Pin Write Enable 22 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE7 Global Pin Write Enable 23 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE8 Global Pin Write Enable 24 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE9 Global Pin Write Enable 25 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 ISFR Interrupt Status Flag Register 0xA0 32 read-write n 0x0 0x0 ISF Interrupt Status Flag 0 32 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF0 Interrupt Status Flag 0 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF1 Interrupt Status Flag 1 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF10 Interrupt Status Flag 10 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF11 Interrupt Status Flag 11 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF12 Interrupt Status Flag 12 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF13 Interrupt Status Flag 13 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF14 Interrupt Status Flag 14 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF15 Interrupt Status Flag 15 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF16 Interrupt Status Flag 16 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF17 Interrupt Status Flag 17 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF18 Interrupt Status Flag 18 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF19 Interrupt Status Flag 19 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF2 Interrupt Status Flag 2 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF20 Interrupt Status Flag 20 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF21 Interrupt Status Flag 21 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF22 Interrupt Status Flag 22 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF23 Interrupt Status Flag 23 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF24 Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF25 Interrupt Status Flag 25 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF26 Interrupt Status Flag 26 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF27 Interrupt Status Flag 27 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF28 Interrupt Status Flag 28 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF29 Interrupt Status Flag 29 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF3 Interrupt Status Flag 3 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF30 Interrupt Status Flag 30 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF31 Interrupt Status Flag 31 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF4 Interrupt Status Flag 4 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF5 Interrupt Status Flag 5 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF6 Interrupt Status Flag 6 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF7 Interrupt Status Flag 7 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF8 Interrupt Status Flag 8 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF9 Interrupt Status Flag 9 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 PCR0 Pin Control Register n 0x0 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR1 Pin Control Register n 0x4 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR10 Pin Control Register n 0x28 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR11 Pin Control Register n 0x2C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR12 Pin Control Register n 0x30 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR13 Pin Control Register n 0x34 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR14 Pin Control Register n 0x38 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR15 Pin Control Register n 0x3C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR16 Pin Control Register n 0x40 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR17 Pin Control Register n 0x44 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR18 Pin Control Register n 0x48 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR19 Pin Control Register n 0x4C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR2 Pin Control Register n 0x8 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR20 Pin Control Register n 0x50 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR21 Pin Control Register n 0x54 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR22 Pin Control Register n 0x58 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR23 Pin Control Register n 0x5C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR24 Pin Control Register n 0x60 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR25 Pin Control Register n 0x64 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR26 Pin Control Register n 0x68 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR27 Pin Control Register n 0x6C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR28 Pin Control Register n 0x70 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR29 Pin Control Register n 0x74 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR3 Pin Control Register n 0xC 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR30 Pin Control Register n 0x78 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR31 Pin Control Register n 0x7C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR4 Pin Control Register n 0x10 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-write 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR5 Pin Control Register n 0x14 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR6 Pin Control Register n 0x18 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR7 Pin Control Register n 0x1C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR8 Pin Control Register n 0x20 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR9 Pin Control Register n 0x24 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PORTB Pin Control and Interrupts PORT 0x0 0x0 0xA4 registers n PORTB_PORTC_PORTD_PORTE 31 GPCHR Global Pin Control High Register 0x84 32 write-only n 0x0 0x0 GPWD Global Pin Write Data 0 16 write-only GPWE Global Pin Write Enable 16 16 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE0 Global Pin Write Enable 16 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE1 Global Pin Write Enable 17 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE10 Global Pin Write Enable 26 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE11 Global Pin Write Enable 27 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE12 Global Pin Write Enable 28 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE13 Global Pin Write Enable 29 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE14 Global Pin Write Enable 30 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE15 Global Pin Write Enable 31 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE2 Global Pin Write Enable 18 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE3 Global Pin Write Enable 19 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE4 Global Pin Write Enable 20 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE5 Global Pin Write Enable 21 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE6 Global Pin Write Enable 22 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE7 Global Pin Write Enable 23 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE8 Global Pin Write Enable 24 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE9 Global Pin Write Enable 25 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPCLR Global Pin Control Low Register 0x80 32 write-only n 0x0 0x0 GPWD Global Pin Write Data 0 16 write-only GPWE Global Pin Write Enable 16 16 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE0 Global Pin Write Enable 16 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE1 Global Pin Write Enable 17 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE10 Global Pin Write Enable 26 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE11 Global Pin Write Enable 27 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE12 Global Pin Write Enable 28 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE13 Global Pin Write Enable 29 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE14 Global Pin Write Enable 30 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE15 Global Pin Write Enable 31 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE2 Global Pin Write Enable 18 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE3 Global Pin Write Enable 19 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE4 Global Pin Write Enable 20 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE5 Global Pin Write Enable 21 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE6 Global Pin Write Enable 22 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE7 Global Pin Write Enable 23 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE8 Global Pin Write Enable 24 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE9 Global Pin Write Enable 25 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 ISFR Interrupt Status Flag Register 0xA0 32 read-write n 0x0 0x0 ISF Interrupt Status Flag 0 32 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF0 Interrupt Status Flag 0 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF1 Interrupt Status Flag 1 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF10 Interrupt Status Flag 10 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF11 Interrupt Status Flag 11 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF12 Interrupt Status Flag 12 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF13 Interrupt Status Flag 13 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF14 Interrupt Status Flag 14 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF15 Interrupt Status Flag 15 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF16 Interrupt Status Flag 16 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF17 Interrupt Status Flag 17 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF18 Interrupt Status Flag 18 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF19 Interrupt Status Flag 19 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF2 Interrupt Status Flag 2 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF20 Interrupt Status Flag 20 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF21 Interrupt Status Flag 21 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF22 Interrupt Status Flag 22 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF23 Interrupt Status Flag 23 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF24 Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF25 Interrupt Status Flag 25 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF26 Interrupt Status Flag 26 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF27 Interrupt Status Flag 27 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF28 Interrupt Status Flag 28 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF29 Interrupt Status Flag 29 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF3 Interrupt Status Flag 3 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF30 Interrupt Status Flag 30 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF31 Interrupt Status Flag 31 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF4 Interrupt Status Flag 4 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF5 Interrupt Status Flag 5 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF6 Interrupt Status Flag 6 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF7 Interrupt Status Flag 7 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF8 Interrupt Status Flag 8 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF9 Interrupt Status Flag 9 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 PCR0 Pin Control Register n 0x0 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-write 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR1 Pin Control Register n 0x4 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-write 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR10 Pin Control Register n 0x28 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR11 Pin Control Register n 0x2C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR12 Pin Control Register n 0x30 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR13 Pin Control Register n 0x34 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR14 Pin Control Register n 0x38 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR15 Pin Control Register n 0x3C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR16 Pin Control Register n 0x40 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR17 Pin Control Register n 0x44 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR18 Pin Control Register n 0x48 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR19 Pin Control Register n 0x4C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR2 Pin Control Register n 0x8 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR20 Pin Control Register n 0x50 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR21 Pin Control Register n 0x54 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR22 Pin Control Register n 0x58 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR23 Pin Control Register n 0x5C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR24 Pin Control Register n 0x60 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR25 Pin Control Register n 0x64 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR26 Pin Control Register n 0x68 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR27 Pin Control Register n 0x6C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR28 Pin Control Register n 0x70 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR29 Pin Control Register n 0x74 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR3 Pin Control Register n 0xC 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR30 Pin Control Register n 0x78 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR31 Pin Control Register n 0x7C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR4 Pin Control Register n 0x10 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR5 Pin Control Register n 0x14 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR6 Pin Control Register n 0x18 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR7 Pin Control Register n 0x1C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR8 Pin Control Register n 0x20 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR9 Pin Control Register n 0x24 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PORTC Pin Control and Interrupts PORT 0x0 0x0 0xA4 registers n PORTB_PORTC_PORTD_PORTE 31 GPCHR Global Pin Control High Register 0x84 32 write-only n 0x0 0x0 GPWD Global Pin Write Data 0 16 write-only GPWE Global Pin Write Enable 16 16 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE0 Global Pin Write Enable 16 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE1 Global Pin Write Enable 17 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE10 Global Pin Write Enable 26 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE11 Global Pin Write Enable 27 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE12 Global Pin Write Enable 28 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE13 Global Pin Write Enable 29 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE14 Global Pin Write Enable 30 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE15 Global Pin Write Enable 31 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE2 Global Pin Write Enable 18 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE3 Global Pin Write Enable 19 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE4 Global Pin Write Enable 20 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE5 Global Pin Write Enable 21 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE6 Global Pin Write Enable 22 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE7 Global Pin Write Enable 23 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE8 Global Pin Write Enable 24 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE9 Global Pin Write Enable 25 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPCLR Global Pin Control Low Register 0x80 32 write-only n 0x0 0x0 GPWD Global Pin Write Data 0 16 write-only GPWE Global Pin Write Enable 16 16 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE0 Global Pin Write Enable 16 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE1 Global Pin Write Enable 17 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE10 Global Pin Write Enable 26 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE11 Global Pin Write Enable 27 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE12 Global Pin Write Enable 28 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE13 Global Pin Write Enable 29 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE14 Global Pin Write Enable 30 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE15 Global Pin Write Enable 31 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE2 Global Pin Write Enable 18 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE3 Global Pin Write Enable 19 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE4 Global Pin Write Enable 20 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE5 Global Pin Write Enable 21 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE6 Global Pin Write Enable 22 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE7 Global Pin Write Enable 23 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE8 Global Pin Write Enable 24 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE9 Global Pin Write Enable 25 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 ISFR Interrupt Status Flag Register 0xA0 32 read-write n 0x0 0x0 ISF Interrupt Status Flag 0 32 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF0 Interrupt Status Flag 0 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF1 Interrupt Status Flag 1 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF10 Interrupt Status Flag 10 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF11 Interrupt Status Flag 11 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF12 Interrupt Status Flag 12 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF13 Interrupt Status Flag 13 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF14 Interrupt Status Flag 14 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF15 Interrupt Status Flag 15 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF16 Interrupt Status Flag 16 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF17 Interrupt Status Flag 17 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF18 Interrupt Status Flag 18 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF19 Interrupt Status Flag 19 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF2 Interrupt Status Flag 2 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF20 Interrupt Status Flag 20 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF21 Interrupt Status Flag 21 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF22 Interrupt Status Flag 22 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF23 Interrupt Status Flag 23 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF24 Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF25 Interrupt Status Flag 25 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF26 Interrupt Status Flag 26 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF27 Interrupt Status Flag 27 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF28 Interrupt Status Flag 28 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF29 Interrupt Status Flag 29 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF3 Interrupt Status Flag 3 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF30 Interrupt Status Flag 30 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF31 Interrupt Status Flag 31 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF4 Interrupt Status Flag 4 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF5 Interrupt Status Flag 5 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF6 Interrupt Status Flag 6 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF7 Interrupt Status Flag 7 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF8 Interrupt Status Flag 8 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF9 Interrupt Status Flag 9 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 PCR0 Pin Control Register n 0x0 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR1 Pin Control Register n 0x4 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR10 Pin Control Register n 0x28 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR11 Pin Control Register n 0x2C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR12 Pin Control Register n 0x30 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR13 Pin Control Register n 0x34 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR14 Pin Control Register n 0x38 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR15 Pin Control Register n 0x3C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR16 Pin Control Register n 0x40 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR17 Pin Control Register n 0x44 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR18 Pin Control Register n 0x48 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR19 Pin Control Register n 0x4C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR2 Pin Control Register n 0x8 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR20 Pin Control Register n 0x50 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR21 Pin Control Register n 0x54 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR22 Pin Control Register n 0x58 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR23 Pin Control Register n 0x5C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR24 Pin Control Register n 0x60 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR25 Pin Control Register n 0x64 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR26 Pin Control Register n 0x68 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR27 Pin Control Register n 0x6C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR28 Pin Control Register n 0x70 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR29 Pin Control Register n 0x74 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR3 Pin Control Register n 0xC 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-write 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR30 Pin Control Register n 0x78 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR31 Pin Control Register n 0x7C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR4 Pin Control Register n 0x10 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-write 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR5 Pin Control Register n 0x14 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR6 Pin Control Register n 0x18 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR7 Pin Control Register n 0x1C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR8 Pin Control Register n 0x20 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR9 Pin Control Register n 0x24 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PORTD Pin Control and Interrupts PORT 0x0 0x0 0xA4 registers n PORTB_PORTC_PORTD_PORTE 31 GPCHR Global Pin Control High Register 0x84 32 write-only n 0x0 0x0 GPWD Global Pin Write Data 0 16 write-only GPWE Global Pin Write Enable 16 16 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE0 Global Pin Write Enable 16 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE1 Global Pin Write Enable 17 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE10 Global Pin Write Enable 26 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE11 Global Pin Write Enable 27 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE12 Global Pin Write Enable 28 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE13 Global Pin Write Enable 29 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE14 Global Pin Write Enable 30 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE15 Global Pin Write Enable 31 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE2 Global Pin Write Enable 18 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE3 Global Pin Write Enable 19 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE4 Global Pin Write Enable 20 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE5 Global Pin Write Enable 21 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE6 Global Pin Write Enable 22 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE7 Global Pin Write Enable 23 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE8 Global Pin Write Enable 24 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE9 Global Pin Write Enable 25 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPCLR Global Pin Control Low Register 0x80 32 write-only n 0x0 0x0 GPWD Global Pin Write Data 0 16 write-only GPWE Global Pin Write Enable 16 16 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE0 Global Pin Write Enable 16 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE1 Global Pin Write Enable 17 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE10 Global Pin Write Enable 26 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE11 Global Pin Write Enable 27 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE12 Global Pin Write Enable 28 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE13 Global Pin Write Enable 29 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE14 Global Pin Write Enable 30 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE15 Global Pin Write Enable 31 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE2 Global Pin Write Enable 18 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE3 Global Pin Write Enable 19 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE4 Global Pin Write Enable 20 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE5 Global Pin Write Enable 21 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE6 Global Pin Write Enable 22 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE7 Global Pin Write Enable 23 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE8 Global Pin Write Enable 24 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE9 Global Pin Write Enable 25 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 ISFR Interrupt Status Flag Register 0xA0 32 read-write n 0x0 0x0 ISF Interrupt Status Flag 0 32 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF0 Interrupt Status Flag 0 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF1 Interrupt Status Flag 1 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF10 Interrupt Status Flag 10 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF11 Interrupt Status Flag 11 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF12 Interrupt Status Flag 12 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF13 Interrupt Status Flag 13 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF14 Interrupt Status Flag 14 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF15 Interrupt Status Flag 15 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF16 Interrupt Status Flag 16 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF17 Interrupt Status Flag 17 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF18 Interrupt Status Flag 18 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF19 Interrupt Status Flag 19 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF2 Interrupt Status Flag 2 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF20 Interrupt Status Flag 20 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF21 Interrupt Status Flag 21 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF22 Interrupt Status Flag 22 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF23 Interrupt Status Flag 23 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF24 Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF25 Interrupt Status Flag 25 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF26 Interrupt Status Flag 26 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF27 Interrupt Status Flag 27 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF28 Interrupt Status Flag 28 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF29 Interrupt Status Flag 29 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF3 Interrupt Status Flag 3 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF30 Interrupt Status Flag 30 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF31 Interrupt Status Flag 31 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF4 Interrupt Status Flag 4 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF5 Interrupt Status Flag 5 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF6 Interrupt Status Flag 6 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF7 Interrupt Status Flag 7 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF8 Interrupt Status Flag 8 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF9 Interrupt Status Flag 9 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 PCR0 Pin Control Register n 0x0 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR1 Pin Control Register n 0x4 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR10 Pin Control Register n 0x28 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR11 Pin Control Register n 0x2C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR12 Pin Control Register n 0x30 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR13 Pin Control Register n 0x34 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR14 Pin Control Register n 0x38 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR15 Pin Control Register n 0x3C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR16 Pin Control Register n 0x40 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR17 Pin Control Register n 0x44 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR18 Pin Control Register n 0x48 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR19 Pin Control Register n 0x4C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR2 Pin Control Register n 0x8 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR20 Pin Control Register n 0x50 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR21 Pin Control Register n 0x54 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR22 Pin Control Register n 0x58 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR23 Pin Control Register n 0x5C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR24 Pin Control Register n 0x60 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR25 Pin Control Register n 0x64 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR26 Pin Control Register n 0x68 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR27 Pin Control Register n 0x6C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR28 Pin Control Register n 0x70 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR29 Pin Control Register n 0x74 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR3 Pin Control Register n 0xC 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR30 Pin Control Register n 0x78 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR31 Pin Control Register n 0x7C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR4 Pin Control Register n 0x10 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-write 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR5 Pin Control Register n 0x14 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-write 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR6 Pin Control Register n 0x18 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-write 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR7 Pin Control Register n 0x1C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-write 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR8 Pin Control Register n 0x20 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR9 Pin Control Register n 0x24 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PORTE Pin Control and Interrupts PORT 0x0 0x0 0xA4 registers n PORTB_PORTC_PORTD_PORTE 31 GPCHR Global Pin Control High Register 0x84 32 write-only n 0x0 0x0 GPWD Global Pin Write Data 0 16 write-only GPWE Global Pin Write Enable 16 16 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE0 Global Pin Write Enable 16 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE1 Global Pin Write Enable 17 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE10 Global Pin Write Enable 26 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE11 Global Pin Write Enable 27 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE12 Global Pin Write Enable 28 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE13 Global Pin Write Enable 29 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE14 Global Pin Write Enable 30 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE15 Global Pin Write Enable 31 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE2 Global Pin Write Enable 18 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE3 Global Pin Write Enable 19 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE4 Global Pin Write Enable 20 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE5 Global Pin Write Enable 21 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE6 Global Pin Write Enable 22 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE7 Global Pin Write Enable 23 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE8 Global Pin Write Enable 24 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE9 Global Pin Write Enable 25 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPCLR Global Pin Control Low Register 0x80 32 write-only n 0x0 0x0 GPWD Global Pin Write Data 0 16 write-only GPWE Global Pin Write Enable 16 16 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE0 Global Pin Write Enable 16 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE1 Global Pin Write Enable 17 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE10 Global Pin Write Enable 26 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE11 Global Pin Write Enable 27 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE12 Global Pin Write Enable 28 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE13 Global Pin Write Enable 29 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE14 Global Pin Write Enable 30 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE15 Global Pin Write Enable 31 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE2 Global Pin Write Enable 18 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE3 Global Pin Write Enable 19 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE4 Global Pin Write Enable 20 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE5 Global Pin Write Enable 21 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE6 Global Pin Write Enable 22 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE7 Global Pin Write Enable 23 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE8 Global Pin Write Enable 24 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 GPWE9 Global Pin Write Enable 25 1 write-only 0 Corresponding Pin Control Register is not updated with the value in GPWD. #0 1 Corresponding Pin Control Register is updated with the value in GPWD. #1 ISFR Interrupt Status Flag Register 0xA0 32 read-write n 0x0 0x0 ISF Interrupt Status Flag 0 32 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF0 Interrupt Status Flag 0 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF1 Interrupt Status Flag 1 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF10 Interrupt Status Flag 10 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF11 Interrupt Status Flag 11 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF12 Interrupt Status Flag 12 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF13 Interrupt Status Flag 13 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF14 Interrupt Status Flag 14 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF15 Interrupt Status Flag 15 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF16 Interrupt Status Flag 16 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF17 Interrupt Status Flag 17 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF18 Interrupt Status Flag 18 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF19 Interrupt Status Flag 19 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF2 Interrupt Status Flag 2 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF20 Interrupt Status Flag 20 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF21 Interrupt Status Flag 21 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF22 Interrupt Status Flag 22 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF23 Interrupt Status Flag 23 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF24 Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF25 Interrupt Status Flag 25 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF26 Interrupt Status Flag 26 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF27 Interrupt Status Flag 27 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF28 Interrupt Status Flag 28 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF29 Interrupt Status Flag 29 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF3 Interrupt Status Flag 3 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF30 Interrupt Status Flag 30 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF31 Interrupt Status Flag 31 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF4 Interrupt Status Flag 4 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF5 Interrupt Status Flag 5 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF6 Interrupt Status Flag 6 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF7 Interrupt Status Flag 7 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF8 Interrupt Status Flag 8 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 ISF9 Interrupt Status Flag 9 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 PCR0 Pin Control Register n 0x0 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR1 Pin Control Register n 0x4 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR10 Pin Control Register n 0x28 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR11 Pin Control Register n 0x2C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR12 Pin Control Register n 0x30 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR13 Pin Control Register n 0x34 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR14 Pin Control Register n 0x38 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR15 Pin Control Register n 0x3C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR16 Pin Control Register n 0x40 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR17 Pin Control Register n 0x44 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR18 Pin Control Register n 0x48 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR19 Pin Control Register n 0x4C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR2 Pin Control Register n 0x8 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR20 Pin Control Register n 0x50 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR21 Pin Control Register n 0x54 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR22 Pin Control Register n 0x58 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR23 Pin Control Register n 0x5C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR24 Pin Control Register n 0x60 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR25 Pin Control Register n 0x64 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR26 Pin Control Register n 0x68 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR27 Pin Control Register n 0x6C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR28 Pin Control Register n 0x70 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR29 Pin Control Register n 0x74 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR3 Pin Control Register n 0xC 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR30 Pin Control Register n 0x78 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR31 Pin Control Register n 0x7C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-write 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-write 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-write 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR4 Pin Control Register n 0x10 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR5 Pin Control Register n 0x14 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR6 Pin Control Register n 0x18 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR7 Pin Control Register n 0x1C 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR8 Pin Control Register n 0x20 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 PCR9 Pin Control Register n 0x24 32 read-write n 0x0 0x0 DSE Drive Strength Enable 6 1 read-only 0 Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. #0 1 High drive strength is configured on the corresponding pin, if pin is configured as a digital output. #1 IRQC Interrupt Configuration 16 4 read-write 0000 Interrupt Status Flag (ISF) is disabled. #0000 0001 ISF flag and DMA request on rising edge. #0001 0010 ISF flag and DMA request on falling edge. #0010 0011 ISF flag and DMA request on either edge. #0011 1000 ISF flag and Interrupt when logic 0. #1000 1001 ISF flag and Interrupt on rising-edge. #1001 1010 ISF flag and Interrupt on falling-edge. #1010 1011 ISF flag and Interrupt on either edge. #1011 1100 ISF flag and Interrupt when logic 1. #1100 ISF Interrupt Status Flag 24 1 read-write 0 Configured interrupt is not detected. #0 1 Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. #1 MUX Pin Mux Control 8 3 read-write 000 Pin disabled (analog). #000 001 Alternative 1 (GPIO). #001 010 Alternative 2 (chip-specific). #010 011 Alternative 3 (chip-specific). #011 100 Alternative 4 (chip-specific). #100 101 Alternative 5 (chip-specific). #101 110 Alternative 6 (chip-specific). #110 111 Alternative 7 (chip-specific). #111 PE Pull Enable 1 1 read-only 0 Internal pullup or pulldown resistor is not enabled on the corresponding pin. #0 1 Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. #1 PFE Passive Filter Enable 4 1 read-only 0 Passive input filter is disabled on the corresponding pin. #0 1 Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics. #1 PS Pull Select 0 1 read-only 0 Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. #0 1 Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. #1 SRE Slew Rate Enable 2 1 read-only 0 Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #0 1 Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output. #1 RCM Reset Control Module RCM 0x0 0x0 0x6 registers n RPFC Reset Pin Filter Control register 0x4 8 read-write n 0x0 0x0 RSTFLTSRW Reset Pin Filter Select in Run and Wait Modes 0 2 read-write 00 All filtering disabled #00 01 Bus clock filter enabled for normal operation #01 10 LPO clock filter enabled for normal operation #10 RSTFLTSS Reset Pin Filter Select in Stop Mode 2 1 read-write 0 All filtering disabled #0 1 LPO clock filter enabled #1 RPFW Reset Pin Filter Width register 0x5 8 read-write n 0x0 0x0 RSTFLTSEL Reset Pin Filter Bus Clock Select 0 5 read-write 00000 Bus clock filter count is 1 #00000 00001 Bus clock filter count is 2 #00001 00010 Bus clock filter count is 3 #00010 00011 Bus clock filter count is 4 #00011 00100 Bus clock filter count is 5 #00100 00101 Bus clock filter count is 6 #00101 00110 Bus clock filter count is 7 #00110 00111 Bus clock filter count is 8 #00111 01000 Bus clock filter count is 9 #01000 01001 Bus clock filter count is 10 #01001 01010 Bus clock filter count is 11 #01010 01011 Bus clock filter count is 12 #01011 01100 Bus clock filter count is 13 #01100 01101 Bus clock filter count is 14 #01101 01110 Bus clock filter count is 15 #01110 01111 Bus clock filter count is 16 #01111 10000 Bus clock filter count is 17 #10000 10001 Bus clock filter count is 18 #10001 10010 Bus clock filter count is 19 #10010 10011 Bus clock filter count is 20 #10011 10100 Bus clock filter count is 21 #10100 10101 Bus clock filter count is 22 #10101 10110 Bus clock filter count is 23 #10110 10111 Bus clock filter count is 24 #10111 11000 Bus clock filter count is 25 #11000 11001 Bus clock filter count is 26 #11001 11010 Bus clock filter count is 27 #11010 11011 Bus clock filter count is 28 #11011 11100 Bus clock filter count is 29 #11100 11101 Bus clock filter count is 30 #11101 11110 Bus clock filter count is 31 #11110 11111 Bus clock filter count is 32 #11111 SRS0 System Reset Status Register 0 0x0 8 read-only n 0x0 0x0 LOC Loss-of-Clock Reset 2 1 read-only 0 Reset not caused by a loss of external clock. #0 1 Reset caused by a loss of external clock. #1 LVD Low-Voltage Detect Reset 1 1 read-only 0 Reset not caused by LVD trip or POR #0 1 Reset caused by LVD trip or POR #1 PIN External Reset Pin 6 1 read-only 0 Reset not caused by external reset pin #0 1 Reset caused by external reset pin #1 POR Power-On Reset 7 1 read-only 0 Reset not caused by POR #0 1 Reset caused by POR #1 WAKEUP Low Leakage Wakeup Reset 0 1 read-only 0 Reset not caused by LLWU module wakeup source #0 1 Reset caused by LLWU module wakeup source #1 WDOG Watchdog 5 1 read-only 0 Reset not caused by watchdog timeout #0 1 Reset caused by watchdog timeout #1 SRS1 System Reset Status Register 1 0x1 8 read-only n 0x0 0x0 LOCKUP Core Lockup 1 1 read-only 0 Reset not caused by core LOCKUP event #0 1 Reset caused by core LOCKUP event #1 MDM_AP MDM-AP System Reset Request 3 1 read-only 0 Reset not caused by host debugger system setting of the System Reset Request bit #0 1 Reset caused by host debugger system setting of the System Reset Request bit #1 SACKERR Stop Mode Acknowledge Error Reset 5 1 read-only 0 Reset not caused by peripheral failure to acknowledge attempt to enter stop mode #0 1 Reset caused by peripheral failure to acknowledge attempt to enter stop mode #1 SW Software 2 1 read-only 0 Reset not caused by software setting of SYSRESETREQ bit #0 1 Reset caused by software setting of SYSRESETREQ bit #1 ROM System ROM ROM 0x0 0x0 0x1000 registers n COMPID0 Component ID Register 0x1FE0 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only COMPID1 Component ID Register 0x2FD4 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only COMPID2 Component ID Register 0x3FCC 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only COMPID3 Component ID Register 0x4FC8 32 read-only n 0x0 0x0 COMPID Component ID 0 32 read-only ENTRY0 Entry 0x0 32 read-only n 0x0 0x0 ENTRY ENTRY 0 32 read-only ENTRY1 Entry 0x4 32 read-only n 0x0 0x0 ENTRY ENTRY 0 32 read-only ENTRY2 Entry 0xC 32 read-only n 0x0 0x0 ENTRY ENTRY 0 32 read-only PERIPHID0 Peripheral ID Register 0x5F08 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID1 Peripheral ID Register 0x6EEC 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID2 Peripheral ID Register 0x7ED4 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID3 Peripheral ID Register 0x8EC0 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID4 Peripheral ID Register 0x1FA0 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID5 Peripheral ID Register 0x2F74 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID6 Peripheral ID Register 0x3F4C 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only PERIPHID7 Peripheral ID Register 0x4F28 32 read-only n 0x0 0x0 PERIPHID PERIPHID 0 32 read-only SYSACCESS System Access Register 0xFCC 32 read-only n 0x0 0x0 SYSACCESS SYSACCESS 0 32 read-only TABLEMARK End of Table Marker Register 0xC 32 read-only n 0x0 0x0 MARK MARK 0 32 read-only SIM System Integration Module SIM 0x0 0x0 0x1104 registers n CLKDIV1 System Clock Divider Register 1 0x1044 32 read-write n 0x0 0x0 OUTDIV1 Clock 1 Output Divider Value 28 4 read-write 0000 Divide-by-1. #0000 0001 Divide-by-2. #0001 0010 Divide-by-3. #0010 0011 Divide-by-4. #0011 0100 Divide-by-5. #0100 0101 Divide-by-6. #0101 0110 Divide-by-7. #0110 0111 Divide-by-8. #0111 1000 Divide-by-9. #1000 1001 Divide-by-10. #1001 1010 Divide-by-11. #1010 1011 Divide-by-12. #1011 1100 Divide-by-13. #1100 1101 Divide-by-14. #1101 1110 Divide-by-15. #1110 1111 Divide-by-16. #1111 OUTDIV4 Clock 4 Output Divider Value 16 3 read-write 000 Divide-by-1. #000 001 Divide-by-2. #001 010 Divide-by-3. #010 011 Divide-by-4. #011 100 Divide-by-5. #100 101 Divide-by-6. #101 110 Divide-by-7. #110 111 Divide-by-8. #111 OUTDIV5 Clock 5 Output Divider Value 12 3 read-write 000 Divide-by-1 #000 001 Divide-by-2 #001 010 Divide-by-3 #010 011 Divide-by-4 #011 100 Divide-by-5 #100 101 Divide-by-6 #101 110 Divide-by-7 #110 111 Divide-by-8 #111 OUTDIV5EN OUTDIV5 Divider Control 15 1 read-write 0 OUTDIV5 disabled #0 1 OUTDIV5 enabled #1 FCFG1 Flash Configuration Register 1 0x104C 32 read-write n 0x0 0x0 FLASHDIS Flash Disable 0 1 read-write 0 Flash is enabled #0 1 Flash is disabled #1 FLASHDOZE Flash Doze 1 1 read-write 0 Flash remains enabled during Doze mode #0 1 Flash is disabled for the duration of Doze mode #1 PFSIZE Program Flash Size 24 4 read-only 0000 8 KB of program flash memory, 0.25 KB protection region #0000 0001 16 KB of program flash memory, 0.5 KB protection region #0001 0011 32 KB of program flash memory, 1 KB protection region #0011 0101 64 KB of program flash memory, 2 KB protection region #0101 0111 128 KB of program flash memory, 4 KB protection region #0111 1001 256 KB of program flash memory, 4 KB protection region #1001 1111 32 KB of program flash memory, 1 KB protection region #1111 FCFG2 Flash Configuration Register 2 0x1050 32 read-only n 0x0 0x0 MAXADDR Max address block 24 7 read-only SCGC4 System Clock Gating Control Register 4 0x1034 32 read-write n 0x0 0x0 CMP Comparator Clock Gate Control 19 1 read-write 0 Clock disabled #0 1 Clock enabled #1 EWM EWM Clock Gate Control 1 1 read-write 0 Clock disabled #0 1 Clock enabled #1 I2C0 I2C0 Clock Gate Control 6 1 read-write 0 Clock disabled #0 1 Clock enabled #1 UART0 UART0 Clock Gate Control 10 1 read-write 0 Clock disabled #0 1 Clock enabled #1 UART1 UART1 Clock Gate Control 11 1 read-write 0 Clock disabled #0 1 Clock enabled #1 SCGC5 System Clock Gating Control Register 5 0x1038 32 read-write n 0x0 0x0 LPTMR Low Power Timer Clock Gate Control 0 1 read-write 0 Access disabled #0 1 Access enabled #1 PORTA Port A Clock Gate Control 9 1 read-write 0 Clock disabled #0 1 Clock enabled #1 PORTB Port B Clock Gate Control 10 1 read-write 0 Clock disabled #0 1 Clock enabled #1 PORTC Port C Clock Gate Control 11 1 read-write 0 Clock disabled #0 1 Clock enabled #1 PORTD Port D Clock Gate Control 12 1 read-write 0 Clock disabled #0 1 Clock enabled #1 PORTE Port E Clock Gate Control 13 1 read-write 0 Clock disabled #0 1 Clock enabled #1 SCGC6 System Clock Gating Control Register 6 0x103C 32 read-write n 0x0 0x0 ADC0 ADC0 Clock Gate Control 27 1 read-write 0 Clock disabled #0 1 Clock enabled #1 ADC1 ADC1 Clock Gate Control 28 1 read-write 0 Clock disabled #0 1 Clock enabled #1 CRC CRC Clock Gate Control 18 1 read-write 0 Clock disabled #0 1 Clock enabled #1 DAC0 DAC0 Clock Gate Control 31 1 read-write 0 Clock disabled #0 1 Clock enabled #1 DMAMUX DMA Mux Clock Gate Control 1 1 read-write 0 Clock disabled #0 1 Clock enabled #1 FLEXCAN0 FLEXCAN0 Clock Gate Control 4 1 read-write 0 Clock disabled #0 1 Clock enabled #1 FTF Flash Memory Clock Gate Control 0 1 read-write 0 Clock disabled #0 1 Clock enabled #1 FTM0 FTM0 Clock Gate Control 24 1 read-write 0 Clock disabled #0 1 Clock enabled #1 FTM1 FTM1 Clock Gate Control 25 1 read-write 0 Clock disabled #0 1 Clock enabled #1 FTM2 FTM2 Clock Gate Control 26 1 read-write 0 Clock disabled #0 1 Clock enabled #1 FTM3 FTM3 Clock Gate Control 6 1 read-write 0 Clock disabled #0 1 Clock enabled #1 FTM4 FTM4 Clock Gate Control 7 1 read-write 0 Clock disabled #0 1 Clock enabled #1 FTM5 FTM5 Clock Gate Control 8 1 read-write 0 Clock disabled #0 1 Clock enabled #1 PDB0 PDB0 Clock Gate Control 22 1 read-write 0 Clock disabled #0 1 Clock enabled #1 PDB1 PDB1 Clock Gate Control 17 1 read-write 0 Clock disabled #0 1 Clock enabled #1 SPI0 SPI0 Clock Gate Control 12 1 read-write 0 Clock disabled #0 1 Clock enabled #1 SCGC7 System Clock Gating Control Register 7 0x1040 32 read-write n 0x0 0x0 DMA DMA Clock Gate Control 8 1 read-write 0 Clock disabled #0 1 Clock enabled #1 SDID System Device Identification Register 0x1024 32 read-only n 0x0 0x0 DIEID Device die number 7 5 read-only FAMID V-Family ID 28 4 read-only 0001 MKV1xZx #0001 PINID Pincount identification 0 4 read-only 0010 32-pin #0010 0100 48-pin #0100 0101 64-pin #0101 REVID Device revision number 12 4 read-only SERIERID Series ID 20 4 read-only 0110 V-family - Motor control #0110 SRAMSIZE Specifies the size of the System SRAM. 16 4 read-only 0101 16 KB #0101 SUBFAMID V Sub-family ID 24 4 read-only 0000 MKV10xxxx #0000 0001 MKV11xxxx #0001 SOPT1 System Options Register 1 0x0 32 read-write n 0x0 0x0 OSC32KSEL 32K Oscillator Clock Select 18 2 read-write 00 System oscillator (OSC32KCLK) #00 11 LPO 1 kHz #11 SOPT2 System Options Register 2 0x1004 32 read-write n 0x0 0x0 CLKOUTSEL CLKOUT Select 5 3 read-write 010 Bus clock #010 011 LPO clock (1 kHz) #011 100 MCGIRCLK #100 110 OSCERCLK #110 FTMFFCLKSEL FTM Fixed Frequency Clock Select 24 2 read-write 00 MCGFFCLK #00 01 MCGIRCLK #01 10 OSCERCLK #10 11 MCGFFCLK #11 SOPT4 System Options Register 4 0x100C 32 read-write n 0x0 0x0 FTM0CLKSEL FTM0 External Clock Pin Select 24 2 read-write 00 FTM0 external clock driven by FTM_CLKIN0 pin #00 01 FTM0 external clock driven by FTM_CLKIN1 pin #01 10 FTM0 external clock driven by FTM_CLKIN2 pin #10 FTM0FLT0 FTM0 Fault 0 Select 0 1 read-write 0 FTM0_FLT0 pin #0 1 CMP0 out #1 FTM0FLT1 FTM0 Fault 1 Select 1 1 read-write 0 FTM0_FLT1 pin #0 1 CMP1 out #1 FTM0TRG0SRC FlexTimer 0 Hardware Trigger 0 Source Select 7 1 read-write 0 CMP0 output drives FTM0 hardware trigger 0 #0 1 FTM1 channel match drives FTM0 hardware trigger 0 #1 FTM0TRG1SRC FlexTimer 0 Hardware Trigger 1 Source Select 8 1 read-write 0 PDB0 channel 1 trigger drives FTM0 hardware trigger 1 #0 1 FTM2 channel match drives FTM0 hardware trigger 1 #1 FTM0TRG2SRC FlexTimer 0 Hardware Trigger 2 Source Select 9 1 read-write 0 CMP0 output drives FTM0 hardware trigger 2 #0 1 CMP1 output drives FTM0 hardware trigger 2 #1 FTM1CH0SRC FTM1 Channel 0 Input Capture Source Select 18 2 read-write 00 FTM1_CH0 signal #00 01 CMP0 output #01 10 CMP1 output #10 FTM1CLKSEL FTM1 External Clock Pin Select 26 2 read-write 00 FTM1 external clock driven by FTM_CLKIN0 pin #00 01 FTM1 external clock driven by FTM_CLKIN1 pin #01 10 FTM1 external clock driven by FTM_CLKIN2 pin #10 FTM1FLT0 FTM1 Fault 0 Select 2 1 read-write 0 FTM1_FLT0 pin #0 1 CMP0 out #1 FTM1TRG0SRC FlexTimer 1 Hardware Trigger 0 Source Select 10 1 read-write 0 CMP0 output drives FTM1 hardware trigger 0 #0 1 FTM0 channel match drives FTM1 hardware trigger 0 #1 FTM1TRG1SRC FlexTimer 1 Hardware Trigger 1 Source Select 11 1 read-write 0 PDB0 channel 1 trigger drives FTM1 hardware trigger 1 #0 1 FTM2 channel match drives FTM1 hardware trigger 1 #1 FTM1TRG2SRC FlexTimer 1 Hardware Trigger 2 Source Select 12 1 read-write 0 CMP0 output drives FTM1 hardware trigger 2 #0 1 CMP1 output drives FTM1 hardware trigger 2 #1 FTM2CH0SRC FTM2 Channel 0 Input Capture Source Select 20 2 read-write 00 FTM2_CH0 signal #00 01 CMP0 output #01 10 CMP1 output #10 FTM2CH1SRC FTM2 Channel 1 Input Capture Source Select 22 1 read-write 0 FTM2_CH1 pin is fed to FTM2 CH1 #0 1 FTM2_CH1 pin XOR FTM2_CH0 pin XOR FTM1_CH1 pin is fed to FTM2 CH1 If this field is set, then the three input pins feed FTM2 channel 1 input capture. In this case, FTM1 channel 1 cannot be used for input capture of FTM1, as it has no pin. FTM1 channel1 can be used for Output Compare mode of FTM1, though without an output. #1 FTM2CLKSEL FTM2 External Clock Pin Select 28 2 read-write 00 FTM2 external clock driven by FTM_CLKIN0 pin #00 01 FTM2 external clock driven by FTM_CLKIN1 pin #01 10 FTM2 external clock driven by FTM_CLKIN2 pin #10 FTM2FLT0 FTM2 Fault 0 Select 3 1 read-write 0 FTM2_FLT0 pin #0 1 CMP0 out #1 FTM2TRG0SRC FlexTimer 2 Hardware Trigger 0 Source Select 13 1 read-write 0 CMP0 output drives FTM2 hardware trigger 0 #0 1 FTM0 channel match drives FTM2 hardware trigger 0 #1 FTM2TRG1SRC FlexTimer 2 Hardware Trigger 1 Source Select 14 1 read-write 0 PDB0 output trigger 1 drives FTM2 hardware trigger 1 #0 1 FTM1 channel match drives FTM2 hardware trigger 1 #1 FTM2TRG2SRC FlexTimer 2 Hardware Trigger 2 Source Select 15 1 read-write 0 CMP0 output drives FTM2 hardware trigger 2 #0 1 CMP1 output drives FTM2 hardware trigger 2 #1 SOPT5 System Options Register 5 0x1010 32 read-write n 0x0 0x0 UART0ODE UART0 Open Drain Enable 16 1 read-write 0 Open drain is disabled on UART0 #0 1 Open drain is enabled on UART0 #1 UART0RXSRC UART 0 Receive Data Source Select 2 2 read-write 00 UART0_RX pin #00 01 CMP0 #01 10 CMP1 #10 UART0TXSRC UART 0 Transmit Data Source Select 0 2 read-write 00 UART0_TX pin #00 01 UART0_TX pin modulated with FTM1 channel 0 output #01 10 UART0_TX pin modulated with FTM2 channel 0 output #10 UART1ODE UART1 Open Drain Enable 17 1 read-write 0 Open drain is disabled on UART1 #0 1 Open drain is enabled on UART1 #1 UART1RXSRC UART 1 Receive Data Source Select 6 2 read-write 00 UART1_RX pin #00 01 CMP0 #01 10 CMP1 #10 UART1TXSRC UART 1 Transmit Data Source Select 4 2 read-write 00 UART1_TX pin #00 01 UART1_TX pin modulated with FTM1 channel 0 output #01 10 UART1_TX pin modulated with FTM2 channel 0 output #10 SOPT6 Systems Option Register 6 0x1014 32 read-write n 0x0 0x0 FTM3CLKSEL FTM3 External Clock Pin Select 24 2 read-write 00 FTM3 external clock driven by FTM_CLKIN0 pin #00 01 FTM3 external clock driven by FTM_CLKIN1 pin #01 10 FTM3 external clock driven by FTM_CLKIN2 pin #10 FTM3FLT0 FTM3 Fault 0 Select 0 1 read-write 0 FTM3_FLT0 pin #0 1 CMP0 out #1 FTM3TRG0SRC FlexTimer 3 Hardware Trigger 0 Source Select 7 1 read-write 0 CMP0 output drives FTM3 hardware trigger 0 #0 1 FTM5 channel match drives FTM3 hardware trigger 0 #1 FTM3TRG1SRC FlexTimer 3 Hardware Trigger 1 Source Select 8 1 read-write 0 PDB1 output drives FTM3 hardware trigger 1 #0 1 FTM4 channel match drives FTM3 hardware trigger 1 #1 FTM3TRG2SRC FlexTimer 3 Hardware Trigger 2 Source Select 9 1 read-write 0 CMP0 output drives FTM3 hardware trigger 2 #0 1 CMP1 output drives FTM3 hardware trigger 2 #1 FTM4CH0SRC FTM4 channel 0 input capture source select 18 2 read-write 00 FTM4_CH0 signal #00 01 CMP0 output #01 10 CMP1 output #10 FTM4CLKSEL FTM4 External Clock Pin Select 26 2 read-write 00 FTM4 external clock driven by FTM_CLKIN0 pin #00 01 FTM4 external clock driven by FTM_CLKIN1 pin #01 10 FTM4 external clock driven by FTM_CLKIN2 pin #10 FTM4FLT0 FTM4 Fault 0 Select 2 1 read-write 0 FTM4_FLT0 pin #0 1 CMP0 out #1 FTM4TRG0SRC FlexTimer 4 Hardware Trigger 0 Source Select 10 1 read-write 0 CMP0 output drives FTM4 hardware trigger 0 #0 1 FTM3 channel match drives FTM4 hardware trigger 0 #1 FTM4TRG1SRC FlexTimer 4 Hardware Trigger 1 Source Select 11 1 read-write 0 PDB1 output trigger 1 drives FTM4 hardware trigger 1 #0 1 FTM5 channel match drives FTM4 hardware trigger 1 #1 FTM4TRG2SRC FlexTimer 4 Hardware Trigger 2 Source Select 12 1 read-write 0 CMP0 output drives FTM4 hardware trigger 2 #0 1 CMP1 output drives FTM4 hardware trigger 2 #1 FTM5CH0SRC FTM5 channel 0 input capture source select 20 2 read-write 00 FTM5_CH0 signal #00 01 CMP0 output #01 10 CMP1 output #10 FTM5CLKSEL FTM5 External Clock Pin Select 28 2 read-write 00 FTM5 external clock driven by FTM_CLKIN0 pin #00 01 FTM5 external clock driven by FTM_CLKIN1 pin #01 10 FTM5 external clock driven by FTM_CLKIN2 pin #10 FTM5FLT0 FTM5 Fault 0 Select 3 1 read-write 0 FTM5_FLT0 pin #0 1 CMP0 out #1 FTM5TRG0SRC FlexTimer 5 Hardware Trigger 0 Source Select 13 1 read-write 0 CMP0 output drives FTM5 hardware trigger 0 #0 1 FTM3 channel match drives FTM5 hardware trigger 0 #1 FTM5TRG1SRC FlexTimer 5 Hardware Trigger 1 Source Select 14 1 read-write 0 PDB1 output trigger 1 drives FTM5 hardware trigger 1 #0 1 FTM4 channel match drives FTM5 hardware trigger 1 #1 FTM5TRG2SRC FlexTimer 5 Hardware Trigger 2 Source Select 15 1 read-write 0 CMP0 output drives FTM5 hardware trigger 2 #0 1 CMP1 output drives FTM5 hardware trigger 2 #1 SOPT7 System Options Register 7 0x1018 32 read-write n 0x0 0x0 ADC0ALTCLKSRC ADC0 ALT Clock Source Select 24 2 read-write 00 OUTDIV5 output #00 01 MCGIRCLK #01 10 OSCERCLK #10 ADC0ALTTRGEN Enable alternative conversion triggers for ADC0. 6 2 read-write 00 PDB0 CH0 triggers ADC0 #00 01 PDB1 CH0 triggers ADC0 #01 10 Alt trigger source as per ADC0TRGSEL #10 11 PDB0 CH0 OR PDB1 CH0 trigger ADC0 #11 ADC0PRETRGSEL ADC0 Pre-trigger Select 4 1 read-write 0 Pre-trigger A for ADC0. Clearing this field will result in ADHWTSA=1 and ADHWTSB=0. #0 1 Pre-trigger B for ADC0. Setting this bit will result in ADHWTSA=0 and ADHWTSB=1. #1 ADC0TRGSEL ADC0 Trigger Select 0 4 read-write 0000 External trigger pin input (PDB_EXTRG0) #0000 0001 CMP0 output #0001 0010 CMP1 output #0010 0011 External trigger pin input (PDB_EXTRG1) #0011 0100 DMA channel 0 transfer last write complete #0100 0101 DMA channel 1 transfer last write complete #0101 0110 DMA channel 2 transfer last write complete #0110 0111 DMA channel 3 transfer last write complete #0111 1000 FTM0 intialtrig or external trig output #1000 1001 FTM1 intial trig or external trig output #1001 1010 FTM2 intial trig or external trig output #1010 1011 FTM3 intial trig or external trig output #1011 1100 FTM4 intial trig or external trig output #1100 1101 FTM5 intial trig or external trig output #1101 1110 LPTMR0 trigger #1110 ADC1ALTCLKSRC ADC1 ALT Clock Source Select 26 2 read-write 00 OUTDIV5 output #00 01 MCGIRCLK #01 10 OSCERCLK #10 ADC1ALTTRGEN Enable alternative conversion triggers for ADC1. 14 2 read-write 00 PDB0 CH1 triggers ADC1 #00 01 PDB1 CH1 triggers ADC1 #01 10 Alt trigger source ADC1TRGSEL #10 11 PDB0 CH1 OR PDB1 CH1 trigger ADC1 #11 ADC1PRETRGSEL ADC1 Pre-trigger Select 12 1 read-write 0 Pre-trigger A for ADC1. Clearing this field will result in ADHWTSA=1 and ADHWTSB=0. #0 1 Pre-trigger B for ADC1. Setting this bit will result in ADHWTSA=0 and ADHWTSB=1. #1 ADC1TRGSEL ADC1 Trigger Select 8 4 read-write 0000 External trigger pin input (PDB_EXTRG0) #0000 0001 CMP0 output #0001 0010 CMP1 output #0010 0011 External trigger pin input (PDB_EXTRG1) #0011 0100 DMA channel 0 transfer last write complete #0100 0101 DMA channel 1 transfer last write complete #0101 0110 DMA channel 2 transfer last write complete #0110 0111 DMA channel 3 transfer last write complete #0111 1000 FTM0 intialtrig or external trig output #1000 1001 FTM1 intial trig or external trig output #1001 1010 FTM2 intial trig or external trig output #1010 1011 FTM3 intial trig or external trig output #1011 1100 FTM4 intial trig or external trig output #1100 1101 FTM5 intial trig or external trig output #1101 1110 LPTMR0 trigger #1110 SOPT8 System Options Register 8 0x101C 32 read-write n 0x0 0x0 CARRIER_SELECT0 Carrier frequency selection for FTM0/2 output channel 8 2 read-write 00 FTM1_CH1 output provides the carrier signal for Timer Modulation mode #00 01 LPTMR0 prescaler output provides the carrier signal for Timer Modulation mode #01 10 FTM5_CH1 output provides the carrier signal for Timer Modulation mode #10 FTM0OCH0SRC FTM0 channel 0 output PWM/OCMP mode source select 16 1 read-write 0 FTM0CH0 pin is the output of FTM0 channel 0 PWM/OCMP #0 1 FTM0CH0 pin is the output of FTM0 channel 0 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT0 #1 FTM0OCH1SRC FTM0 channel 1 output PWM/OCMP mode source select 17 1 read-write 0 FTM0CH1 pin is the output of FTM0 channel 1 PWM/OCMP #0 1 FTM0CH1 pin is the output of FTM0 channel 1 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT0 #1 FTM0OCH2SRC FTM0 channel 2 output PWM/OCMP mode source select 18 1 read-write 0 FTM0CH2 pin is the output of FTM0 channel 2 PWM/OCMP #0 1 FTM0CH2 pin is the output of FTM0 channel 2 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT0 #1 FTM0OCH3SRC FTM0 channel 3 output PWM/OCMP mode source select 19 1 read-write 0 FTM0CH3 pin is the output of FTM0 channel 3 PWM/OCMP #0 1 FTM0CH3 pin is the output of FTM0 channel 3 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT0 #1 FTM0OCH4SRC FTM0 channel 4 output PWM/OCMP mode source select 20 1 read-write 0 FTM0CH4 pin is the output of FTM0 channel 4 PWM/OCMP #0 1 FTM0CH4 pin is the output of FTM0 channel 4 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT0 #1 FTM0OCH5SRC FTM0 channel 5 output PWM/OCMP mode source select 21 1 read-write 0 FTM0CH5 pin is the output of FTM0 channel 5 PWM/OCMP #0 1 FTM0CH5 pin is the output of FTM0 channel 5 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT0 #1 FTM0SYNCBIT FlexTimer 0 Hardware Trigger 0 configure by software 0 1 read-write 0 No effect to FTM0; this allow the hardware trigger options to function as expected. See SOPT4[FTM0TRG0SRC]. #0 1 If TRIG0 enabled, this refreshes the FTM0CNTIN and all buffered registers of the FTM0 (must write 0 first then write 1); this masks the hardware trigger. #1 FTM1SYNCBIT FlexTimer 1 Hardware Trigger 0 configure by software 1 1 read-write 0 No effect to FTM1; this allows the hardware trigger options to function as expected. See SOPT4[FTM1TRG0SRC]. #0 1 If TRIG0 enabled, this refreshes the FTM1CNTIN and all buffered registers of the FTM1 (must write 0 first then write 1); this masks the hardware trigger. #1 FTM2OCH0SRC FTM2 channel 0 output PWM/OCMP mode source select 22 1 read-write 0 FTM2CH0 pin is the output of FTM2 channel 0 PWM/OCMP #0 1 FTM2CH0 pin is the output of FTM2 channel 0 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT0 #1 FTM2OCH1SRC FTM2 channel 1 output PWM/OCMP mode source select 23 1 read-write 0 FTM2CH1 pin is the output of FTM2 channel 1 PWM/OCMP #0 1 FTM2CH1 pin is the output of FTM2 channel 1 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT0 #1 FTM2SYNCBIT FlexTimer 2 Hardware Trigger 0 configure by software 2 1 read-write 0 No effect to FTM2; this allows the hardware trigger options to function as expected. See SOPT4[FTM2TRG0SRC]. #0 1 If TRIG0 is enabled, this refreshes the FTM2CNTIN and all buffered registers of the FTM2 (must write 0 first then write 1); this masks the hardware trigger. #1 FTM3SYNCBIT FlexTimer 3 Hardware Trigger 0 configure by software 3 1 read-write 0 No effect to FTM3; this allows the hardware trigger options to function as expected. See SOPT6[FTM3TRG0SRC]. #0 1 If TRIG0 is enabled, this refreshes the FTM3CNTIN and allbuffered registers of the FTM3 (must write 0 first then write 1); this masks the hardware trigger. #1 FTM4SYNCBIT FlexTimer 4 Hardware Trigger 0 configure by software 4 1 read-write 0 No effect to FTM4; this allows the hardware trigger options to function as expected. See SOPT6[FTM4TRG0SRC]. #0 1 If TRIG0 is enabled, this refreshes the FTM4CNTIN and allbuffered registers of the FTM4 (must write 0 first then write 1); this masks the hardware trigger. #1 FTM5SYNCBIT FlexTimer 5 Hardware Trigger 0 configure by software 5 1 read-write 0 No effect on FTM5; this allows the hardware trigger options to function as expected. See SOPT6[FTM5TRG0SRC]. #0 1 If TRIG0 is enabled, this refreshes the FTM5CNTIN and allbuffered registers of the FTM5 (must write 0 first then write 1); this masks the hardware trigger. #1 SOPT9 System Options Register 9 0x1020 32 read-write n 0x0 0x0 CARRIER_SELECT1 Carrier frequency selection for FTM3/4 output channel 8 2 read-write 00 FTM1_CH1 output provides the carrier signal for Timer Modulation mode #00 01 LPTMR0 prescaler output provides the carrier signal for Timer Modulation mode #01 10 FTM5_CH1 output provides the carrier signal for Timer Modulation mode #10 FTM3OCH0SRC FTM3 channel 0 output PWM/OCMP mode source select 16 1 read-write 0 FTM3CH0 pin is the output of FTM3 channel 0 PWM/OCMP #0 1 FTM3CH0 pin is the output of FTM3 channel 0 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT1 #1 FTM3OCH1SRC FTM3 channel 1 output PWM/OCMP mode source select 17 1 read-write 0 FTM3CH1 pin is the output of FTM3 channel 1 PWM/OCMP #0 1 FTM3CH1 pin is the output of FTM3 channel 1 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT1 #1 FTM3OCH2SRC FTM3 channel 2 output PWM/OCMP mode source select 18 1 read-write 0 FTM3CH2 pin is the output of FTM3 channel 2 PWM/OCMP #0 1 FTM3CH2 pin is the output of FTM3 channel 2 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT1 #1 FTM3OCH3SRC FTM3 channel 3 output PWM/OCMP mode source select 19 1 read-write 0 FTM3CH3 pin is the output of FTM3 channel 3 PWM/OCMP #0 1 FTM3CH3 pin is the output of FTM3 channel 3 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT1 #1 FTM3OCH4SRC FTM3 channel 4 output PWM/OCMP mode source select 20 1 read-write 0 FTM3CH4 pin is the output of FTM3 channel 4 PWM/OCMP #0 1 FTM3CH4 pin is the output of FTM3 channel 4 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT1 #1 FTM3OCH5SRC FTM3 channel 5 output PWM/OCMP mode source select 21 1 read-write 0 FTM3CH5 pin is the output of FTM3 channel 5 PWM/OCMP #0 1 FTM3CH5 pin is the output of FTM3 channel 5 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT1 #1 FTM4OCH0SRC FTM4 channel 0 output PWM/OCMP mode source select 22 1 read-write 0 FTM4CH0 pin is the output of FTM4 channel 0 PWM/OCMP #0 1 FTM4CH0 pin is the output of FTM4 channel 0 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT1 #1 FTM4OCH1SRC FTM4 channel 1 output PWM/OCMP mode source select 23 1 read-write 0 FTM4CH1 pin is the output of FTM4 channel 1 PWM/OCMP #0 1 FTM4CH1 pin is the output of FTM4 channel 1 PWM/OCMP modulating the carrier frequency, as per CARRIER_SELECT1 #1 UIDL Unique Identification Register Low 0x1060 32 read-only n 0x0 0x0 UID Unique Identification 0 32 read-only UIDMH Unique Identification Register Mid-High 0x1058 32 read-only n 0x0 0x0 UID Unique Identification 0 16 read-only UIDML Unique Identification Register Mid Low 0x105C 32 read-only n 0x0 0x0 UID Unique Identification 0 32 read-only WDOGC WDOG Control Register 0x1100 32 read-write n 0x0 0x0 WDOGCLKS WDOG Clock Select 1 1 read-write 0 Internal 1 kHz clock is source to WDOG #0 1 MCGIRCLK is source to WDOG #1 SMC System Mode Controller SMC 0x0 0x0 0x4 registers n PMCTRL Power Mode Control register 0x1 8 read-write n 0x0 0x0 RUNM Run Mode Control 5 2 read-write 00 Normal Run mode (RUN) #00 10 Very-Low-Power Run mode (VLPR) #10 STOPA Stop Aborted 3 1 read-only 0 The previous stop mode entry was successsful. #0 1 The previous stop mode entry was aborted. #1 STOPM Stop Mode Control 0 3 read-write 000 Normal Stop (STOP) #000 010 Very-Low-Power Stop (VLPS) #010 100 Very-Low-Leakage Stop (VLLSx) #100 110 Reseved #110 PMPROT Power Mode Protection register 0x0 8 read-write n 0x0 0x0 AVLLS Allow Very-Low-Leakage Stop Mode 1 1 read-write 0 Any VLLSx mode is not allowed #0 1 Any VLLSx mode is allowed #1 AVLP Allow Very-Low-Power Modes 5 1 read-write 0 VLPR, VLPW, and VLPS are not allowed. #0 1 VLPR, VLPW, and VLPS are allowed. #1 PMSTAT Power Mode Status register 0x3 8 read-only n 0x0 0x0 PMSTAT Power Mode Status 0 8 read-only STOPCTRL Stop Control Register 0x2 8 read-write n 0x0 0x0 PORPO POR Power Option 5 1 read-write 0 POR detect circuit is enabled in VLLS0 #0 1 POR detect circuit is disabled in VLLS0 #1 PSTOPO Partial Stop Option 6 2 read-write 00 STOP - Normal Stop mode #00 01 PSTOP1 - Partial Stop with both system and bus clocks disabled #01 10 PSTOP2 - Partial Stop with system clock disabled and bus clock enabled #10 VLLSM VLLS Mode Control 0 3 read-write 000 VLLS0 #000 001 VLLS1 #001 011 VLLS3 #011 SPI0 Serial Peripheral Interface SPI0 0x0 0x0 0x140 registers n SPI0 10 CTAR0 Clock and Transfer Attributes Register (In Master Mode) SPI0 0x18 32 read-write n 0x0 0x0 ASC After SCK Delay Scaler 8 4 read-write BR Baud Rate Scaler 0 4 read-write CPHA Clock Phase 25 1 read-write 0 Data is captured on the leading edge of SCK and changed on the following edge. #0 1 Data is changed on the leading edge of SCK and captured on the following edge. #1 CPOL Clock Polarity 26 1 read-write 0 The inactive state value of SCK is low. #0 1 The inactive state value of SCK is high. #1 CSSCK PCS to SCK Delay Scaler 12 4 read-write DBR Double Baud Rate 31 1 read-write 0 The baud rate is computed normally with a 50/50 duty cycle. #0 1 The baud rate is doubled with the duty cycle depending on the Baud Rate Prescaler. #1 DT Delay After Transfer Scaler 4 4 read-write FMSZ Frame Size 27 4 read-write LSBFE LSB First 24 1 read-write 0 Data is transferred MSB first. #0 1 Data is transferred LSB first. #1 PASC After SCK Delay Prescaler 20 2 read-write 00 Delay after Transfer Prescaler value is 1. #00 01 Delay after Transfer Prescaler value is 3. #01 10 Delay after Transfer Prescaler value is 5. #10 11 Delay after Transfer Prescaler value is 7. #11 PBR Baud Rate Prescaler 16 2 read-write 00 Baud Rate Prescaler value is 2. #00 01 Baud Rate Prescaler value is 3. #01 10 Baud Rate Prescaler value is 5. #10 11 Baud Rate Prescaler value is 7. #11 PCSSCK PCS to SCK Delay Prescaler 22 2 read-write 00 PCS to SCK Prescaler value is 1. #00 01 PCS to SCK Prescaler value is 3. #01 10 PCS to SCK Prescaler value is 5. #10 11 PCS to SCK Prescaler value is 7. #11 PDT Delay after Transfer Prescaler 18 2 read-write 00 Delay after Transfer Prescaler value is 1. #00 01 Delay after Transfer Prescaler value is 3. #01 10 Delay after Transfer Prescaler value is 5. #10 11 Delay after Transfer Prescaler value is 7. #11 CTAR1 Clock and Transfer Attributes Register (In Master Mode) SPI0 0x28 32 read-write n 0x0 0x0 ASC After SCK Delay Scaler 8 4 read-write BR Baud Rate Scaler 0 4 read-write CPHA Clock Phase 25 1 read-write 0 Data is captured on the leading edge of SCK and changed on the following edge. #0 1 Data is changed on the leading edge of SCK and captured on the following edge. #1 CPOL Clock Polarity 26 1 read-write 0 The inactive state value of SCK is low. #0 1 The inactive state value of SCK is high. #1 CSSCK PCS to SCK Delay Scaler 12 4 read-write DBR Double Baud Rate 31 1 read-write 0 The baud rate is computed normally with a 50/50 duty cycle. #0 1 The baud rate is doubled with the duty cycle depending on the Baud Rate Prescaler. #1 DT Delay After Transfer Scaler 4 4 read-write FMSZ Frame Size 27 4 read-write LSBFE LSB First 24 1 read-write 0 Data is transferred MSB first. #0 1 Data is transferred LSB first. #1 PASC After SCK Delay Prescaler 20 2 read-write 00 Delay after Transfer Prescaler value is 1. #00 01 Delay after Transfer Prescaler value is 3. #01 10 Delay after Transfer Prescaler value is 5. #10 11 Delay after Transfer Prescaler value is 7. #11 PBR Baud Rate Prescaler 16 2 read-write 00 Baud Rate Prescaler value is 2. #00 01 Baud Rate Prescaler value is 3. #01 10 Baud Rate Prescaler value is 5. #10 11 Baud Rate Prescaler value is 7. #11 PCSSCK PCS to SCK Delay Prescaler 22 2 read-write 00 PCS to SCK Prescaler value is 1. #00 01 PCS to SCK Prescaler value is 3. #01 10 PCS to SCK Prescaler value is 5. #10 11 PCS to SCK Prescaler value is 7. #11 PDT Delay after Transfer Prescaler 18 2 read-write 00 Delay after Transfer Prescaler value is 1. #00 01 Delay after Transfer Prescaler value is 3. #01 10 Delay after Transfer Prescaler value is 5. #10 11 Delay after Transfer Prescaler value is 7. #11 CTAR_SLAVE Clock and Transfer Attributes Register (In Slave Mode) SPI0 0xC 32 read-write n 0x0 0x0 CPHA Clock Phase 25 1 read-write 0 Data is captured on the leading edge of SCK and changed on the following edge. #0 1 Data is changed on the leading edge of SCK and captured on the following edge. #1 CPOL Clock Polarity 26 1 read-write 0 The inactive state value of SCK is low. #0 1 The inactive state value of SCK is high. #1 FMSZ Frame Size 27 4 read-write MCR Module Configuration Register 0x0 32 read-write n 0x0 0x0 CLR_RXF CLR_RXF 10 1 write-only 0 Do not clear the RX FIFO counter. #0 1 Clear the RX FIFO counter. #1 CLR_TXF Clear TX FIFO 11 1 write-only 0 Do not clear the TX FIFO counter. #0 1 Clear the TX FIFO counter. #1 CONT_SCKE Continuous SCK Enable 30 1 read-write 0 Continuous SCK disabled. #0 1 Continuous SCK enabled. #1 DCONF SPI Configuration. 28 2 read-only 00 SPI #00 DIS_RXF Disable Receive FIFO 12 1 read-write 0 RX FIFO is enabled. #0 1 RX FIFO is disabled. #1 DIS_TXF Disable Transmit FIFO 13 1 read-write 0 TX FIFO is enabled. #0 1 TX FIFO is disabled. #1 DOZE Doze Enable 15 1 read-write 0 Doze mode has no effect on the module. #0 1 Doze mode disables the module. #1 FRZ Freeze 27 1 read-write 0 Do not halt serial transfers in Debug mode. #0 1 Halt serial transfers in Debug mode. #1 HALT Halt 0 1 read-write 0 Start transfers. #0 1 Stop transfers. #1 MDIS Module Disable 14 1 read-write 0 Enables the module clocks. #0 1 Allows external logic to disable the module clocks. #1 MSTR Master/Slave Mode Select 31 1 read-write 0 Enables Slave mode #0 1 Enables Master mode #1 MTFE Modified Transfer Format Enable 26 1 read-write 0 Modified SPI transfer format disabled. #0 1 Modified SPI transfer format enabled. #1 PCSIS Peripheral Chip Select x Inactive State 16 5 read-write 0 The inactive state of PCSx is low. #00000 1 The inactive state of PCSx is high. #00001 PCSIS0 Peripheral Chip Select x Inactive State 16 1 read-write 0 The inactive state of PCSx is low. #00000 1 The inactive state of PCSx is high. #00001 PCSIS1 Peripheral Chip Select x Inactive State 17 1 read-write 0 The inactive state of PCSx is low. #00000 1 The inactive state of PCSx is high. #00001 PCSIS2 Peripheral Chip Select x Inactive State 18 1 read-write 0 The inactive state of PCSx is low. #00000 1 The inactive state of PCSx is high. #00001 PCSIS3 Peripheral Chip Select x Inactive State 19 1 read-write 0 The inactive state of PCSx is low. #00000 1 The inactive state of PCSx is high. #00001 PCSIS4 Peripheral Chip Select x Inactive State 20 1 read-write 0 The inactive state of PCSx is low. #00000 1 The inactive state of PCSx is high. #00001 ROOE Receive FIFO Overflow Overwrite Enable 24 1 read-write 0 Incoming data is ignored. #0 1 Incoming data is shifted into the shift register. #1 SMPL_PT Sample Point 8 2 read-write 00 0 protocol clock cycles between SCK edge and SIN sample #00 01 1 protocol clock cycle between SCK edge and SIN sample #01 10 2 protocol clock cycles between SCK edge and SIN sample #10 POPR POP RX FIFO Register 0x38 32 read-only n 0x0 0x0 RXDATA Received Data 0 32 read-only PUSHR PUSH TX FIFO Register In Master Mode SPI0 0x34 32 read-write n 0x0 0x0 CONT Continuous Peripheral Chip Select Enable 31 1 read-write 0 Return PCSn signals to their inactive state between transfers. #0 1 Keep PCSn signals asserted between transfers. #1 CTAS Clock and Transfer Attributes Select 28 3 read-write 000 CTAR0 #000 001 CTAR1 #001 CTCNT Clear Transfer Counter 26 1 read-write 0 Do not clear the TCR[TCNT] field. #0 1 Clear the TCR[TCNT] field. #1 EOQ End Of Queue 27 1 read-write 0 The SPI data is not the last data to transfer. #0 1 The SPI data is the last data to transfer. #1 PCS Select which PCS signals are to be asserted for the transfer 16 5 read-write 0 Negate the PCS[x] signal. #00000 1 Assert the PCS[x] signal. #00001 PCS0 Select which PCS signals are to be asserted for the transfer 16 1 read-write 0 Negate the PCS[x] signal. #00000 1 Assert the PCS[x] signal. #00001 PCS1 Select which PCS signals are to be asserted for the transfer 17 1 read-write 0 Negate the PCS[x] signal. #00000 1 Assert the PCS[x] signal. #00001 PCS2 Select which PCS signals are to be asserted for the transfer 18 1 read-write 0 Negate the PCS[x] signal. #00000 1 Assert the PCS[x] signal. #00001 PCS3 Select which PCS signals are to be asserted for the transfer 19 1 read-write 0 Negate the PCS[x] signal. #00000 1 Assert the PCS[x] signal. #00001 PCS4 Select which PCS signals are to be asserted for the transfer 20 1 read-write 0 Negate the PCS[x] signal. #00000 1 Assert the PCS[x] signal. #00001 TXDATA Transmit Data 0 16 read-write PUSHR_SLAVE PUSH TX FIFO Register In Slave Mode SPI0 0x34 32 read-write n 0x0 0x0 TXDATA Transmit Data 0 16 read-write RSER DMA/Interrupt Request Select and Enable Register 0x30 32 read-write n 0x0 0x0 EOQF_RE Finished Request Enable 28 1 read-write 0 EOQF interrupt requests are disabled. #0 1 EOQF interrupt requests are enabled. #1 RFDF_DIRS Receive FIFO Drain DMA or Interrupt Request Select 16 1 read-write 0 Interrupt request. #0 1 DMA request. #1 RFDF_RE Receive FIFO Drain Request Enable 17 1 read-write 0 RFDF interrupt or DMA requests are disabled. #0 1 RFDF interrupt or DMA requests are enabled. #1 RFOF_RE Receive FIFO Overflow Request Enable 19 1 read-write 0 RFOF interrupt requests are disabled. #0 1 RFOF interrupt requests are enabled. #1 TCF_RE Transmission Complete Request Enable 31 1 read-write 0 TCF interrupt requests are disabled. #0 1 TCF interrupt requests are enabled. #1 TFFF_DIRS Transmit FIFO Fill DMA or Interrupt Request Select 24 1 read-write 0 TFFF flag generates interrupt requests. #0 1 TFFF flag generates DMA requests. #1 TFFF_RE Transmit FIFO Fill Request Enable 25 1 read-write 0 TFFF interrupts or DMA requests are disabled. #0 1 TFFF interrupts or DMA requests are enabled. #1 TFUF_RE Transmit FIFO Underflow Request Enable 27 1 read-write 0 TFUF interrupt requests are disabled. #0 1 TFUF interrupt requests are enabled. #1 RXFR0 Receive FIFO Registers 0xF8 32 read-only n 0x0 0x0 RXDATA Receive Data 0 32 read-only RXFR1 Receive FIFO Registers 0x178 32 read-only n 0x0 0x0 RXDATA Receive Data 0 32 read-only RXFR2 Receive FIFO Registers 0x1FC 32 read-only n 0x0 0x0 RXDATA Receive Data 0 32 read-only RXFR3 Receive FIFO Registers 0x284 32 read-only n 0x0 0x0 RXDATA Receive Data 0 32 read-only SR Status Register 0x2C 32 read-write n 0x0 0x0 EOQF End of Queue Flag 28 1 read-write 0 EOQ is not set in the executing command. #0 1 EOQ is set in the executing SPI command. #1 POPNXTPTR Pop Next Pointer 0 4 read-only RFDF Receive FIFO Drain Flag 17 1 read-write 0 RX FIFO is empty. #0 1 RX FIFO is not empty. #1 RFOF Receive FIFO Overflow Flag 19 1 read-write 0 No Rx FIFO overflow. #0 1 Rx FIFO overflow has occurred. #1 RXCTR RX FIFO Counter 4 4 read-only TCF Transfer Complete Flag 31 1 read-write 0 Transfer not complete. #0 1 Transfer complete. #1 TFFF Transmit FIFO Fill Flag 25 1 read-write 0 TX FIFO is full. #0 1 TX FIFO is not full. #1 TFUF Transmit FIFO Underflow Flag 27 1 read-write 0 No TX FIFO underflow. #0 1 TX FIFO underflow has occurred. #1 TXCTR TX FIFO Counter 12 4 read-only TXNXTPTR Transmit Next Pointer 8 4 read-only TXRXS TX and RX Status 30 1 read-write 0 Transmit and receive operations are disabled (The module is in Stopped state). #0 1 Transmit and receive operations are enabled (The module is in Running state). #1 SREX Status Register Extended 0x13C 32 read-only n 0x0 0x0 CMDCTR CMD FIFO Counter 4 5 read-only CMDNXTPTR Command Next Pointer 0 4 read-only RXCTR4 RX FIFO Counter[4] 14 1 read-only TXCTR4 TX FIFO Counter[4] 11 1 read-only TCR Transfer Count Register 0x8 32 read-write n 0x0 0x0 SPI_TCNT SPI Transfer Counter 16 16 read-write TXFR0 Transmit FIFO Registers 0x78 32 read-only n 0x0 0x0 TXCMD_TXDATA Transmit Command or Transmit Data 16 16 read-only TXDATA Transmit Data 0 16 read-only TXFR1 Transmit FIFO Registers 0xB8 32 read-only n 0x0 0x0 TXCMD_TXDATA Transmit Command or Transmit Data 16 16 read-only TXDATA Transmit Data 0 16 read-only TXFR2 Transmit FIFO Registers 0xFC 32 read-only n 0x0 0x0 TXCMD_TXDATA Transmit Command or Transmit Data 16 16 read-only TXDATA Transmit Data 0 16 read-only TXFR3 Transmit FIFO Registers 0x144 32 read-only n 0x0 0x0 TXCMD_TXDATA Transmit Command or Transmit Data 16 16 read-only TXDATA Transmit Data 0 16 read-only SystemControl System Control Block SystemControl 0x0 0x8 0xD2C registers n SCB_ACTLR Auxiliary Control Register, 0x8 32 read-only n 0x0 0x0 SCB_AIRCR Application Interrupt and Reset Control Register 0xD0C 32 read-write n 0x0 0x0 ENDIANNESS Data endianness bit 15 1 read-only 0 Little-endian #0 1 Big-endian #1 SYSRESETREQ System reset request 2 1 write-only 0 no system reset request #0 1 asserts a signal to the outer system that requests a reset #1 VECTCLRACTIVE Reserved for Debug use 1 1 write-only VECTKEY Register key 16 16 read-write SCB_CCR Configuration and Control Register 0xD14 32 read-only n 0x0 0x0 STKALIGN Indicates stack alignment on exception entry 9 1 read-only UNALIGN_TRP Always reads as one, indicates that all unaligned accesses generate a HardFault 3 1 read-only SCB_CPUID CPUID Base Register 0xD00 32 read-only n 0x0 0x0 ARCHITECTURE Indicates the architecture 16 4 read-only IMPLEMENTER Implementer code 24 8 read-only PARTNO Indicates part number 4 12 read-only REVISION Minor revision number m in the rnpm revision status 0 4 read-only VARIANT Major revision number n in the npm revision status 20 4 read-only SCB_DFSR Debug Fault Status Register 0xD30 32 read-write n 0x0 0x0 BKPT no description available 1 1 read-write 0 No current breakpoint debug event #0 1 At least one current breakpoint debug event #1 DWTTRAP no description available 2 1 read-write 0 No current debug events generated by the DWT #0 1 At least one current debug event generated by the DWT #1 EXTERNAL no description available 4 1 read-write 0 No EDBGRQ debug event #0 1 EDBGRQ debug event #1 HALTED no description available 0 1 read-write 0 No active halt request debug event #0 1 Halt request debug event active #1 VCATCH no description available 3 1 read-write 0 No Vector catch triggered #0 1 Vector catch triggered #1 SCB_ICSR Interrupt Control and State Register 0xD04 32 read-write n 0x0 0x0 NMIPENDSET NMI set-pending bit 31 1 read-write 0 write: no effect; read: NMI exception is not pending #0 1 write: changes NMI exception state to pending; read: NMI exception is pending #1 PENDSTCLR SysTick exception clear-pending bit 25 1 write-only 0 no effect #0 1 removes the pending state from the SysTick exception #1 PENDSTSET SysTick exception set-pending bit 26 1 read-write 0 write: no effect; read: SysTick exception is not pending #0 1 write: changes SysTick exception state to pending; read: SysTick exception is pending #1 PENDSVCLR PendSV clear-pending bit 27 1 write-only 0 no effect #0 1 removes the pending state from the PendSV exception #1 PENDSVSET PendSV set-pending bit 28 1 read-write 0 write: no effect; read: PendSV exception is not pending #0 1 write: changes PendSV exception state to pending; read: PendSV exception is pending #1 VECTPENDING Exception number of the highest priority pending enabled exception 12 6 read-only SCB_SCR System Control Register 0xD10 32 read-write n 0x0 0x0 SEVONPEND Send Event on Pending bit 4 1 read-write 0 only enabled interrupts or events can wakeup the processor, disabled interrupts are excluded #0 1 enabled events and all interrupts, including disabled interrupts, can wakeup the processor #1 SLEEPDEEP Controls whether the processor uses sleep or deep sleep as its low power mode 2 1 read-write 0 sleep #0 1 deep sleep #1 SLEEPONEXIT Indicates sleep-on-exit when returning from Handler mode to Thread mode 1 1 read-write 0 do not sleep when returning to Thread mode #0 1 enter sleep, or deep sleep, on return from an ISR #1 SCB_SHCSR System Handler Control and State Register 0xD24 32 read-write n 0x0 0x0 SVCALLPENDED no description available 15 1 read-write 0 exception is not pending #0 1 exception is pending #1 SCB_SHPR2 System Handler Priority Register 2 0xD1C 32 read-write n 0x0 0x0 PRI_11 Priority of system handler 11, SVCall 30 2 read-write SCB_SHPR3 System Handler Priority Register 3 0xD20 32 read-write n 0x0 0x0 PRI_14 Priority of system handler 14, PendSV 22 2 read-write PRI_15 Priority of system handler 15, SysTick exception 30 2 read-write SCB_VTOR Vector Table Offset Register 0xD08 32 read-write n 0x0 0x0 TBLOFF Vector table base offset 7 25 read-write SysTick System timer SysTick 0x0 0x0 0x10 registers n SYST_CALIB SysTick Calibration Value Register 0xC 32 read-only n 0x0 0x0 NOREF no description available 31 1 read-only 0 The reference clock is provided #0 1 The reference clock is not provided #1 SKEW no description available 30 1 read-only 0 10ms calibration value is exact #0 1 10ms calibration value is inexact, because of the clock frequency #1 TENMS Reload value to use for 10ms timing 0 24 read-only SYST_CSR SysTick Control and Status Register 0x0 32 read-write n 0x0 0x0 CLKSOURCE no description available 2 1 read-write 0 external clock #0 1 processor clock #1 COUNTFLAG no description available 16 1 read-write ENABLE no description available 0 1 read-write 0 counter disabled #0 1 counter enabled #1 TICKINT no description available 1 1 read-write 0 counting down to 0 does not assert the SysTick exception request #0 1 counting down to 0 asserts the SysTick exception request #1 SYST_CVR SysTick Current Value Register 0x8 32 read-write n 0x0 0x0 CURRENT Current value at the time the register is accessed 0 24 read-write SYST_RVR SysTick Reload Value Register 0x4 32 read-write n 0x0 0x0 RELOAD Value to load into the SysTick Current Value Register when the counter reaches 0 0 24 read-write UART0 Serial Communication Interface UART 0x0 0x0 0x17 registers n UART0 12 BDH UART Baud Rate Registers: High 0x0 8 read-write n 0x0 0x0 LBKDIE LIN Break Detect Interrupt Enable 7 1 read-write 0 LBKDIF interrupt requests disabled. #0 1 LBKDIF interrupt requests enabled. #1 RXEDGIE RxD Input Active Edge Interrupt Enable 6 1 read-write 0 Hardware interrupts from RXEDGIF disabled using polling. #0 1 RXEDGIF interrupt request enabled. #1 SBNS Stop Bit Number Select 5 1 read-write 0 Data frame consists of a single stop bit. #0 1 Data frame consists of two stop bits. #1 SBR UART Baud Rate Bits 0 5 read-write BDL UART Baud Rate Registers: Low 0x1 8 read-write n 0x0 0x0 SBR UART Baud Rate Bits 0 8 read-write C1 UART Control Register 1 0x2 8 read-write n 0x0 0x0 ILT Idle Line Type Select 2 1 read-write 0 Idle character bit count starts after start bit. #0 1 Idle character bit count starts after stop bit. #1 LOOPS Loop Mode Select 7 1 read-write 0 Normal operation. #0 1 Loop mode where transmitter output is internally connected to receiver input. The receiver input is determined by RSRC. #1 M 9-bit or 8-bit Mode Select 4 1 read-write 0 Normal-start + 8 data bits (MSB/LSB first as determined by MSBF) + stop. #0 1 Use-start + 9 data bits (MSB/LSB first as determined by MSBF) + stop. #1 PE Parity Enable 1 1 read-write 0 Parity function disabled. #0 1 Parity function enabled. #1 PT Parity Type 0 1 read-write 0 Even parity. #0 1 Odd parity. #1 RSRC Receiver Source Select 5 1 read-write 0 Selects internal loop back mode. The receiver input is internally connected to transmitter output. #0 1 Single wire UART mode where the receiver input is connected to the transmit pin input signal. #1 UARTSWAI UART Stops in Wait Mode 6 1 read-write 0 UART clock continues to run in Wait mode. #0 1 UART clock freezes while CPU is in Wait mode. #1 WAKE Receiver Wakeup Method Select 3 1 read-write 0 Idle line wakeup. #0 1 Address mark wakeup. #1 C2 UART Control Register 2 0x3 8 read-write n 0x0 0x0 ILIE Idle Line Interrupt Enable 4 1 read-write 0 IDLE interrupt requests disabled. #0 1 IDLE interrupt requests enabled. #1 RE Receiver Enable 2 1 read-write 0 Receiver off. #0 1 Receiver on. #1 RIE Receiver Full Interrupt or DMA Transfer Enable 5 1 read-write 0 RDRF interrupt and DMA transfer requests disabled. #0 1 RDRF interrupt or DMA transfer requests enabled. #1 RWU Receiver Wakeup Control 1 1 read-write 0 Normal operation. #0 1 RWU enables the wakeup function and inhibits further receiver interrupt requests. Normally, hardware wakes the receiver by automatically clearing RWU. #1 SBK Send Break 0 1 read-write 0 Normal transmitter operation. #0 1 Queue break characters to be sent. #1 TCIE Transmission Complete Interrupt Enable 6 1 read-write 0 TC interrupt requests disabled. #0 1 TC interrupt requests enabled. #1 TE Transmitter Enable 3 1 read-write 0 Transmitter off. #0 1 Transmitter on. #1 TIE Transmitter Interrupt or DMA Transfer Enable. 7 1 read-write 0 TDRE interrupt and DMA transfer requests disabled. #0 1 TDRE interrupt or DMA transfer requests enabled. #1 C3 UART Control Register 3 0x6 8 read-write n 0x0 0x0 FEIE Framing Error Interrupt Enable 1 1 read-write 0 FE interrupt requests are disabled. #0 1 FE interrupt requests are enabled. #1 NEIE Noise Error Interrupt Enable 2 1 read-write 0 NF interrupt requests are disabled. #0 1 NF interrupt requests are enabled. #1 ORIE Overrun Error Interrupt Enable 3 1 read-write 0 OR interrupts are disabled. #0 1 OR interrupt requests are enabled. #1 PEIE Parity Error Interrupt Enable 0 1 read-write 0 PF interrupt requests are disabled. #0 1 PF interrupt requests are enabled. #1 R8 Received Bit 8 7 1 read-only T8 Transmit Bit 8 6 1 read-write TXDIR Transmitter Pin Data Direction in Single-Wire mode 5 1 read-write 0 TXD pin is an input in single wire mode. #0 1 TXD pin is an output in single wire mode. #1 TXINV Transmit Data Inversion. 4 1 read-write 0 Transmit data is not inverted. #0 1 Transmit data is inverted. #1 C4 UART Control Register 4 0xA 8 read-write n 0x0 0x0 BRFA Baud Rate Fine Adjust 0 5 read-write M10 10-bit Mode select 5 1 read-write 0 The parity bit is the ninth bit in the serial transmission. #0 1 The parity bit is the tenth bit in the serial transmission. #1 MAEN1 Match Address Mode Enable 1 7 1 read-write 0 All data received is transferred to the data buffer if MAEN2 is cleared. #0 1 All data received with the most significant bit cleared, is discarded. All data received with the most significant bit set, is compared with contents of MA1 register. If no match occurs, the data is discarded. If match occurs, data is transferred to the data buffer. #1 MAEN2 Match Address Mode Enable 2 6 1 read-write 0 All data received is transferred to the data buffer if MAEN1 is cleared. #0 1 All data received with the most significant bit cleared, is discarded. All data received with the most significant bit set, is compared with contents of MA2 register. If no match occurs, the data is discarded. If a match occurs, data is transferred to the data buffer. #1 C5 UART Control Register 5 0xB 8 read-write n 0x0 0x0 RDMAS Receiver Full DMA Select 5 1 read-write 0 If C2[RIE] and S1[RDRF] are set, the RDFR interrupt request signal is asserted to request an interrupt service. #0 1 If C2[RIE] and S1[RDRF] are set, the RDRF DMA request signal is asserted to request a DMA transfer. #1 TDMAS Transmitter DMA Select 7 1 read-write 0 If C2[TIE] is set and the S1[TDRE] flag is set, the TDRE interrupt request signal is asserted to request interrupt service. #0 1 If C2[TIE] is set and the S1[TDRE] flag is set, the TDRE DMA request signal is asserted to request a DMA transfer. #1 CFIFO UART FIFO Control Register 0x11 8 read-write n 0x0 0x0 RXFLUSH Receive FIFO/Buffer Flush 6 1 write-only 0 No flush operation occurs. #0 1 All data in the receive FIFO/buffer is cleared out. #1 RXOFE Receive FIFO Overflow Interrupt Enable 2 1 read-write 0 RXOF flag does not generate an interrupt to the host. #0 1 RXOF flag generates an interrupt to the host. #1 RXUFE Receive FIFO Underflow Interrupt Enable 0 1 read-write 0 RXUF flag does not generate an interrupt to the host. #0 1 RXUF flag generates an interrupt to the host. #1 TXFLUSH Transmit FIFO/Buffer Flush 7 1 write-only 0 No flush operation occurs. #0 1 All data in the transmit FIFO/Buffer is cleared out. #1 TXOFE Transmit FIFO Overflow Interrupt Enable 1 1 read-write 0 TXOF flag does not generate an interrupt to the host. #0 1 TXOF flag generates an interrupt to the host. #1 D UART Data Register 0x7 8 read-write n 0x0 0x0 RT Reads return the contents of the read-only receive data register and writes go to the write-only transmit data register 0 8 read-write ED UART Extended Data Register 0xC 8 read-only n 0x0 0x0 NOISY The current received dataword contained in D and C3[R8] was received with noise. 7 1 read-only 0 The dataword was received without noise. #0 1 The data was received with noise. #1 PARITYE The current received dataword contained in D and C3[R8] was received with a parity error. 6 1 read-only 0 The dataword was received without a parity error. #0 1 The dataword was received with a parity error. #1 MA1 UART Match Address Registers 1 0x8 8 read-write n 0x0 0x0 MA Match Address 0 8 read-write MA2 UART Match Address Registers 2 0x9 8 read-write n 0x0 0x0 MA Match Address 0 8 read-write MODEM UART Modem Register 0xD 8 read-write n 0x0 0x0 RXRTSE Receiver request-to-send enable 3 1 read-write 0 The receiver has no effect on RTS. #0 1 RTS is deasserted if the number of characters in the receiver data register (FIFO) is equal to or greater than RWFIFO[RXWATER]. RTS is asserted when the number of characters in the receiver data register (FIFO) is less than RWFIFO[RXWATER]. See Hardware flow control #1 TXCTSE Transmitter clear-to-send enable 0 1 read-write 0 CTS has no effect on the transmitter. #0 1 Enables clear-to-send operation. The transmitter checks the state of CTS each time it is ready to send a character. If CTS is asserted, the character is sent. If CTS is deasserted, the signal TXD remains in the mark state and transmission is delayed until CTS is asserted. Changes in CTS as a character is being sent do not affect its transmission. #1 TXRTSE Transmitter request-to-send enable 1 1 read-write 0 The transmitter has no effect on RTS. #0 1 When a character is placed into an empty transmitter data buffer , RTS asserts one bit time before the start bit is transmitted. RTS deasserts one bit time after all characters in the transmitter data buffer and shift register are completely sent, including the last stop bit. (FIFO) Ensure that C2[TE] is asserted before assertion of this bit. #1 TXRTSPOL Transmitter request-to-send polarity 2 1 read-write 0 Transmitter RTS is active low. #0 1 Transmitter RTS is active high. #1 PFIFO UART FIFO Parameters 0x10 8 read-write n 0x0 0x0 RXFE Receive FIFO Enable 3 1 read-write 0 Receive FIFO is not enabled. Buffer is depth 1. (Legacy support) #0 1 Receive FIFO is enabled. Buffer is depth indicted by RXFIFOSIZE. #1 RXFIFOSIZE Receive FIFO. Buffer Depth 0 3 read-only 000 Receive FIFO/Buffer depth = 1 dataword. #000 001 Receive FIFO/Buffer depth = 4 datawords. #001 010 Receive FIFO/Buffer depth = 8 datawords. #010 011 Receive FIFO/Buffer depth = 16 datawords. #011 100 Receive FIFO/Buffer depth = 32 datawords. #100 101 Receive FIFO/Buffer depth = 64 datawords. #101 110 Receive FIFO/Buffer depth = 128 datawords. #110 TXFE Transmit FIFO Enable 7 1 read-write 0 Transmit FIFO is not enabled. Buffer is depth 1. (Legacy support). #0 1 Transmit FIFO is enabled. Buffer is depth indicated by TXFIFOSIZE. #1 TXFIFOSIZE Transmit FIFO. Buffer Depth 4 3 read-only 000 Transmit FIFO/Buffer depth = 1 dataword. #000 001 Transmit FIFO/Buffer depth = 4 datawords. #001 010 Transmit FIFO/Buffer depth = 8 datawords. #010 011 Transmit FIFO/Buffer depth = 16 datawords. #011 100 Transmit FIFO/Buffer depth = 32 datawords. #100 101 Transmit FIFO/Buffer depth = 64 datawords. #101 110 Transmit FIFO/Buffer depth = 128 datawords. #110 RCFIFO UART FIFO Receive Count 0x16 8 read-only n 0x0 0x0 RXCOUNT Receive Counter 0 8 read-only RWFIFO UART FIFO Receive Watermark 0x15 8 read-write n 0x0 0x0 RXWATER Receive Watermark 0 8 read-write S1 UART Status Register 1 0x4 8 read-only n 0x0 0x0 FE Framing Error Flag 1 1 read-only 0 No framing error detected. #0 1 Framing error. #1 IDLE Idle Line Flag 4 1 read-only 0 Receiver input is either active now or has never become active since the IDLE flag was last cleared. #0 1 Receiver input has become idle or the flag has not been cleared since it last asserted. #1 NF Noise Flag 2 1 read-only 0 No noise detected since the last time this flag was cleared. If the receive buffer has a depth greater than 1 then there may be data in the receiver buffer that was received with noise. #0 1 At least one dataword was received with noise detected since the last time the flag was cleared. #1 OR Receiver Overrun Flag 3 1 read-only 0 No overrun has occurred since the last time the flag was cleared. #0 1 Overrun has occurred or the overrun flag has not been cleared since the last overrun occurred. #1 PF Parity Error Flag 0 1 read-only 0 No parity error detected since the last time this flag was cleared. If the receive buffer has a depth greater than 1, then there may be data in the receive buffer what was received with a parity error. #0 1 At least one dataword was received with a parity error since the last time this flag was cleared. #1 RDRF Receive Data Register Full Flag 5 1 read-only 0 The number of datawords in the receive buffer is less than the number indicated by RXWATER. #0 1 The number of datawords in the receive buffer is equal to or greater than the number indicated by RXWATER at some point in time since this flag was last cleared. #1 TC Transmit Complete Flag 6 1 read-only 0 Transmitter active (sending data, a preamble, or a break). #0 1 Transmitter idle (transmission activity complete). #1 TDRE Transmit Data Register Empty Flag 7 1 read-only 0 The amount of data in the transmit buffer is greater than the value indicated by TWFIFO[TXWATER]. #0 1 The amount of data in the transmit buffer is less than or equal to the value indicated by TWFIFO[TXWATER] at some point in time since the flag has been cleared. #1 S2 UART Status Register 2 0x5 8 read-write n 0x0 0x0 BRK13 Break Transmit Character Length 2 1 read-write 0 Break character is 10, 11, or 12 bits long. #0 1 Break character is 13 or 14 bits long. #1 LBKDE LIN Break Detection Enable 1 1 read-write 0 Break character detection is disabled. #0 1 Break character is detected at length of 11 bit times if C1[M] = 0 or 12 bits time if C1[M] = 1. #1 LBKDIF LIN Break Detect Interrupt Flag 7 1 read-write 0 No LIN break character detected. #0 1 LIN break character detected. #1 MSBF Most Significant Bit First 5 1 read-write 0 LSB (bit0) is the first bit that is transmitted following the start bit. Further, the first bit received after the start bit is identified as bit0. #0 1 MSB (bit8, bit7 or bit6) is the first bit that is transmitted following the start bit, depending on the setting of C1[M] and C1[PE]. Further, the first bit received after the start bit is identified as bit8, bit7, or bit6, depending on the setting of C1[M] and C1[PE]. #1 RAF Receiver Active Flag 0 1 read-only 0 UART receiver idle/inactive waiting for a start bit. #0 1 UART receiver active, RxD input not idle. #1 RWUID Receive Wakeup Idle Detect 3 1 read-write 0 S1[IDLE] is not set upon detection of an idle character. #0 1 S1[IDLE] is set upon detection of an idle character. #1 RXEDGIF RxD Pin Active Edge Interrupt Flag 6 1 read-write 0 No active edge on the receive pin has occurred. #0 1 An active edge on the receive pin has occurred. #1 RXINV Receive Data Inversion 4 1 read-write 0 Receive data is not inverted. #0 1 Receive data is inverted. #1 SFIFO UART FIFO Status Register 0x12 8 read-write n 0x0 0x0 RXEMPT Receive Buffer/FIFO Empty 6 1 read-only 0 Receive buffer is not empty. #0 1 Receive buffer is empty. #1 RXOF Receiver Buffer Overflow Flag 2 1 read-write 0 No receive buffer overflow has occurred since the last time the flag was cleared. #0 1 At least one receive buffer overflow has occurred since the last time the flag was cleared. #1 RXUF Receiver Buffer Underflow Flag 0 1 read-write 0 No receive buffer underflow has occurred since the last time the flag was cleared. #0 1 At least one receive buffer underflow has occurred since the last time the flag was cleared. #1 TXEMPT Transmit Buffer/FIFO Empty 7 1 read-only 0 Transmit buffer is not empty. #0 1 Transmit buffer is empty. #1 TXOF Transmitter Buffer Overflow Flag 1 1 read-write 0 No transmit buffer overflow has occurred since the last time the flag was cleared. #0 1 At least one transmit buffer overflow has occurred since the last time the flag was cleared. #1 TCFIFO UART FIFO Transmit Count 0x14 8 read-only n 0x0 0x0 TXCOUNT Transmit Counter 0 8 read-only TWFIFO UART FIFO Transmit Watermark 0x13 8 read-write n 0x0 0x0 TXWATER Transmit Watermark 0 8 read-write UART1 Serial Communication Interface UART 0x0 0x0 0x17 registers n UART1 13 BDH UART Baud Rate Registers: High 0x0 8 read-write n 0x0 0x0 LBKDIE LIN Break Detect Interrupt Enable 7 1 read-write 0 LBKDIF interrupt requests disabled. #0 1 LBKDIF interrupt requests enabled. #1 RXEDGIE RxD Input Active Edge Interrupt Enable 6 1 read-write 0 Hardware interrupts from RXEDGIF disabled using polling. #0 1 RXEDGIF interrupt request enabled. #1 SBNS Stop Bit Number Select 5 1 read-write 0 Data frame consists of a single stop bit. #0 1 Data frame consists of two stop bits. #1 SBR UART Baud Rate Bits 0 5 read-write BDL UART Baud Rate Registers: Low 0x1 8 read-write n 0x0 0x0 SBR UART Baud Rate Bits 0 8 read-write C1 UART Control Register 1 0x2 8 read-write n 0x0 0x0 ILT Idle Line Type Select 2 1 read-write 0 Idle character bit count starts after start bit. #0 1 Idle character bit count starts after stop bit. #1 LOOPS Loop Mode Select 7 1 read-write 0 Normal operation. #0 1 Loop mode where transmitter output is internally connected to receiver input. The receiver input is determined by RSRC. #1 M 9-bit or 8-bit Mode Select 4 1 read-write 0 Normal-start + 8 data bits (MSB/LSB first as determined by MSBF) + stop. #0 1 Use-start + 9 data bits (MSB/LSB first as determined by MSBF) + stop. #1 PE Parity Enable 1 1 read-write 0 Parity function disabled. #0 1 Parity function enabled. #1 PT Parity Type 0 1 read-write 0 Even parity. #0 1 Odd parity. #1 RSRC Receiver Source Select 5 1 read-write 0 Selects internal loop back mode. The receiver input is internally connected to transmitter output. #0 1 Single wire UART mode where the receiver input is connected to the transmit pin input signal. #1 UARTSWAI UART Stops in Wait Mode 6 1 read-write 0 UART clock continues to run in Wait mode. #0 1 UART clock freezes while CPU is in Wait mode. #1 WAKE Receiver Wakeup Method Select 3 1 read-write 0 Idle line wakeup. #0 1 Address mark wakeup. #1 C2 UART Control Register 2 0x3 8 read-write n 0x0 0x0 ILIE Idle Line Interrupt Enable 4 1 read-write 0 IDLE interrupt requests disabled. #0 1 IDLE interrupt requests enabled. #1 RE Receiver Enable 2 1 read-write 0 Receiver off. #0 1 Receiver on. #1 RIE Receiver Full Interrupt or DMA Transfer Enable 5 1 read-write 0 RDRF interrupt and DMA transfer requests disabled. #0 1 RDRF interrupt or DMA transfer requests enabled. #1 RWU Receiver Wakeup Control 1 1 read-write 0 Normal operation. #0 1 RWU enables the wakeup function and inhibits further receiver interrupt requests. Normally, hardware wakes the receiver by automatically clearing RWU. #1 SBK Send Break 0 1 read-write 0 Normal transmitter operation. #0 1 Queue break characters to be sent. #1 TCIE Transmission Complete Interrupt Enable 6 1 read-write 0 TC interrupt requests disabled. #0 1 TC interrupt requests enabled. #1 TE Transmitter Enable 3 1 read-write 0 Transmitter off. #0 1 Transmitter on. #1 TIE Transmitter Interrupt or DMA Transfer Enable. 7 1 read-write 0 TDRE interrupt and DMA transfer requests disabled. #0 1 TDRE interrupt or DMA transfer requests enabled. #1 C3 UART Control Register 3 0x6 8 read-write n 0x0 0x0 FEIE Framing Error Interrupt Enable 1 1 read-write 0 FE interrupt requests are disabled. #0 1 FE interrupt requests are enabled. #1 NEIE Noise Error Interrupt Enable 2 1 read-write 0 NF interrupt requests are disabled. #0 1 NF interrupt requests are enabled. #1 ORIE Overrun Error Interrupt Enable 3 1 read-write 0 OR interrupts are disabled. #0 1 OR interrupt requests are enabled. #1 PEIE Parity Error Interrupt Enable 0 1 read-write 0 PF interrupt requests are disabled. #0 1 PF interrupt requests are enabled. #1 R8 Received Bit 8 7 1 read-only T8 Transmit Bit 8 6 1 read-write TXDIR Transmitter Pin Data Direction in Single-Wire mode 5 1 read-write 0 TXD pin is an input in single wire mode. #0 1 TXD pin is an output in single wire mode. #1 TXINV Transmit Data Inversion. 4 1 read-write 0 Transmit data is not inverted. #0 1 Transmit data is inverted. #1 C4 UART Control Register 4 0xA 8 read-write n 0x0 0x0 BRFA Baud Rate Fine Adjust 0 5 read-write M10 10-bit Mode select 5 1 read-write 0 The parity bit is the ninth bit in the serial transmission. #0 1 The parity bit is the tenth bit in the serial transmission. #1 MAEN1 Match Address Mode Enable 1 7 1 read-write 0 All data received is transferred to the data buffer if MAEN2 is cleared. #0 1 All data received with the most significant bit cleared, is discarded. All data received with the most significant bit set, is compared with contents of MA1 register. If no match occurs, the data is discarded. If match occurs, data is transferred to the data buffer. #1 MAEN2 Match Address Mode Enable 2 6 1 read-write 0 All data received is transferred to the data buffer if MAEN1 is cleared. #0 1 All data received with the most significant bit cleared, is discarded. All data received with the most significant bit set, is compared with contents of MA2 register. If no match occurs, the data is discarded. If a match occurs, data is transferred to the data buffer. #1 C5 UART Control Register 5 0xB 8 read-write n 0x0 0x0 RDMAS Receiver Full DMA Select 5 1 read-write 0 If C2[RIE] and S1[RDRF] are set, the RDFR interrupt request signal is asserted to request an interrupt service. #0 1 If C2[RIE] and S1[RDRF] are set, the RDRF DMA request signal is asserted to request a DMA transfer. #1 TDMAS Transmitter DMA Select 7 1 read-write 0 If C2[TIE] is set and the S1[TDRE] flag is set, the TDRE interrupt request signal is asserted to request interrupt service. #0 1 If C2[TIE] is set and the S1[TDRE] flag is set, the TDRE DMA request signal is asserted to request a DMA transfer. #1 CFIFO UART FIFO Control Register 0x11 8 read-write n 0x0 0x0 RXFLUSH Receive FIFO/Buffer Flush 6 1 write-only 0 No flush operation occurs. #0 1 All data in the receive FIFO/buffer is cleared out. #1 RXOFE Receive FIFO Overflow Interrupt Enable 2 1 read-write 0 RXOF flag does not generate an interrupt to the host. #0 1 RXOF flag generates an interrupt to the host. #1 RXUFE Receive FIFO Underflow Interrupt Enable 0 1 read-write 0 RXUF flag does not generate an interrupt to the host. #0 1 RXUF flag generates an interrupt to the host. #1 TXFLUSH Transmit FIFO/Buffer Flush 7 1 write-only 0 No flush operation occurs. #0 1 All data in the transmit FIFO/Buffer is cleared out. #1 TXOFE Transmit FIFO Overflow Interrupt Enable 1 1 read-write 0 TXOF flag does not generate an interrupt to the host. #0 1 TXOF flag generates an interrupt to the host. #1 D UART Data Register 0x7 8 read-write n 0x0 0x0 RT Reads return the contents of the read-only receive data register and writes go to the write-only transmit data register 0 8 read-write ED UART Extended Data Register 0xC 8 read-only n 0x0 0x0 NOISY The current received dataword contained in D and C3[R8] was received with noise. 7 1 read-only 0 The dataword was received without noise. #0 1 The data was received with noise. #1 PARITYE The current received dataword contained in D and C3[R8] was received with a parity error. 6 1 read-only 0 The dataword was received without a parity error. #0 1 The dataword was received with a parity error. #1 MA1 UART Match Address Registers 1 0x8 8 read-write n 0x0 0x0 MA Match Address 0 8 read-write MA2 UART Match Address Registers 2 0x9 8 read-write n 0x0 0x0 MA Match Address 0 8 read-write MODEM UART Modem Register 0xD 8 read-write n 0x0 0x0 RXRTSE Receiver request-to-send enable 3 1 read-write 0 The receiver has no effect on RTS. #0 1 RTS is deasserted if the number of characters in the receiver data register (FIFO) is equal to or greater than RWFIFO[RXWATER]. RTS is asserted when the number of characters in the receiver data register (FIFO) is less than RWFIFO[RXWATER]. See Hardware flow control #1 TXCTSE Transmitter clear-to-send enable 0 1 read-write 0 CTS has no effect on the transmitter. #0 1 Enables clear-to-send operation. The transmitter checks the state of CTS each time it is ready to send a character. If CTS is asserted, the character is sent. If CTS is deasserted, the signal TXD remains in the mark state and transmission is delayed until CTS is asserted. Changes in CTS as a character is being sent do not affect its transmission. #1 TXRTSE Transmitter request-to-send enable 1 1 read-write 0 The transmitter has no effect on RTS. #0 1 When a character is placed into an empty transmitter data buffer , RTS asserts one bit time before the start bit is transmitted. RTS deasserts one bit time after all characters in the transmitter data buffer and shift register are completely sent, including the last stop bit. (FIFO) Ensure that C2[TE] is asserted before assertion of this bit. #1 TXRTSPOL Transmitter request-to-send polarity 2 1 read-write 0 Transmitter RTS is active low. #0 1 Transmitter RTS is active high. #1 PFIFO UART FIFO Parameters 0x10 8 read-write n 0x0 0x0 RXFE Receive FIFO Enable 3 1 read-write 0 Receive FIFO is not enabled. Buffer is depth 1. (Legacy support) #0 1 Receive FIFO is enabled. Buffer is depth indicted by RXFIFOSIZE. #1 RXFIFOSIZE Receive FIFO. Buffer Depth 0 3 read-only 000 Receive FIFO/Buffer depth = 1 dataword. #000 001 Receive FIFO/Buffer depth = 4 datawords. #001 010 Receive FIFO/Buffer depth = 8 datawords. #010 011 Receive FIFO/Buffer depth = 16 datawords. #011 100 Receive FIFO/Buffer depth = 32 datawords. #100 101 Receive FIFO/Buffer depth = 64 datawords. #101 110 Receive FIFO/Buffer depth = 128 datawords. #110 TXFE Transmit FIFO Enable 7 1 read-write 0 Transmit FIFO is not enabled. Buffer is depth 1. (Legacy support). #0 1 Transmit FIFO is enabled. Buffer is depth indicated by TXFIFOSIZE. #1 TXFIFOSIZE Transmit FIFO. Buffer Depth 4 3 read-only 000 Transmit FIFO/Buffer depth = 1 dataword. #000 001 Transmit FIFO/Buffer depth = 4 datawords. #001 010 Transmit FIFO/Buffer depth = 8 datawords. #010 011 Transmit FIFO/Buffer depth = 16 datawords. #011 100 Transmit FIFO/Buffer depth = 32 datawords. #100 101 Transmit FIFO/Buffer depth = 64 datawords. #101 110 Transmit FIFO/Buffer depth = 128 datawords. #110 RCFIFO UART FIFO Receive Count 0x16 8 read-only n 0x0 0x0 RXCOUNT Receive Counter 0 8 read-only RWFIFO UART FIFO Receive Watermark 0x15 8 read-write n 0x0 0x0 RXWATER Receive Watermark 0 8 read-write S1 UART Status Register 1 0x4 8 read-only n 0x0 0x0 FE Framing Error Flag 1 1 read-only 0 No framing error detected. #0 1 Framing error. #1 IDLE Idle Line Flag 4 1 read-only 0 Receiver input is either active now or has never become active since the IDLE flag was last cleared. #0 1 Receiver input has become idle or the flag has not been cleared since it last asserted. #1 NF Noise Flag 2 1 read-only 0 No noise detected since the last time this flag was cleared. If the receive buffer has a depth greater than 1 then there may be data in the receiver buffer that was received with noise. #0 1 At least one dataword was received with noise detected since the last time the flag was cleared. #1 OR Receiver Overrun Flag 3 1 read-only 0 No overrun has occurred since the last time the flag was cleared. #0 1 Overrun has occurred or the overrun flag has not been cleared since the last overrun occurred. #1 PF Parity Error Flag 0 1 read-only 0 No parity error detected since the last time this flag was cleared. If the receive buffer has a depth greater than 1, then there may be data in the receive buffer what was received with a parity error. #0 1 At least one dataword was received with a parity error since the last time this flag was cleared. #1 RDRF Receive Data Register Full Flag 5 1 read-only 0 The number of datawords in the receive buffer is less than the number indicated by RXWATER. #0 1 The number of datawords in the receive buffer is equal to or greater than the number indicated by RXWATER at some point in time since this flag was last cleared. #1 TC Transmit Complete Flag 6 1 read-only 0 Transmitter active (sending data, a preamble, or a break). #0 1 Transmitter idle (transmission activity complete). #1 TDRE Transmit Data Register Empty Flag 7 1 read-only 0 The amount of data in the transmit buffer is greater than the value indicated by TWFIFO[TXWATER]. #0 1 The amount of data in the transmit buffer is less than or equal to the value indicated by TWFIFO[TXWATER] at some point in time since the flag has been cleared. #1 S2 UART Status Register 2 0x5 8 read-write n 0x0 0x0 BRK13 Break Transmit Character Length 2 1 read-write 0 Break character is 10, 11, or 12 bits long. #0 1 Break character is 13 or 14 bits long. #1 LBKDE LIN Break Detection Enable 1 1 read-write 0 Break character detection is disabled. #0 1 Break character is detected at length of 11 bit times if C1[M] = 0 or 12 bits time if C1[M] = 1. #1 LBKDIF LIN Break Detect Interrupt Flag 7 1 read-write 0 No LIN break character detected. #0 1 LIN break character detected. #1 MSBF Most Significant Bit First 5 1 read-write 0 LSB (bit0) is the first bit that is transmitted following the start bit. Further, the first bit received after the start bit is identified as bit0. #0 1 MSB (bit8, bit7 or bit6) is the first bit that is transmitted following the start bit, depending on the setting of C1[M] and C1[PE]. Further, the first bit received after the start bit is identified as bit8, bit7, or bit6, depending on the setting of C1[M] and C1[PE]. #1 RAF Receiver Active Flag 0 1 read-only 0 UART receiver idle/inactive waiting for a start bit. #0 1 UART receiver active, RxD input not idle. #1 RWUID Receive Wakeup Idle Detect 3 1 read-write 0 S1[IDLE] is not set upon detection of an idle character. #0 1 S1[IDLE] is set upon detection of an idle character. #1 RXEDGIF RxD Pin Active Edge Interrupt Flag 6 1 read-write 0 No active edge on the receive pin has occurred. #0 1 An active edge on the receive pin has occurred. #1 RXINV Receive Data Inversion 4 1 read-write 0 Receive data is not inverted. #0 1 Receive data is inverted. #1 SFIFO UART FIFO Status Register 0x12 8 read-write n 0x0 0x0 RXEMPT Receive Buffer/FIFO Empty 6 1 read-only 0 Receive buffer is not empty. #0 1 Receive buffer is empty. #1 RXOF Receiver Buffer Overflow Flag 2 1 read-write 0 No receive buffer overflow has occurred since the last time the flag was cleared. #0 1 At least one receive buffer overflow has occurred since the last time the flag was cleared. #1 RXUF Receiver Buffer Underflow Flag 0 1 read-write 0 No receive buffer underflow has occurred since the last time the flag was cleared. #0 1 At least one receive buffer underflow has occurred since the last time the flag was cleared. #1 TXEMPT Transmit Buffer/FIFO Empty 7 1 read-only 0 Transmit buffer is not empty. #0 1 Transmit buffer is empty. #1 TXOF Transmitter Buffer Overflow Flag 1 1 read-write 0 No transmit buffer overflow has occurred since the last time the flag was cleared. #0 1 At least one transmit buffer overflow has occurred since the last time the flag was cleared. #1 TCFIFO UART FIFO Transmit Count 0x14 8 read-only n 0x0 0x0 TXCOUNT Transmit Counter 0 8 read-only TWFIFO UART FIFO Transmit Watermark 0x13 8 read-write n 0x0 0x0 TXWATER Transmit Watermark 0 8 read-write WDOG Generation 2008 Watchdog Timer WDOG 0x0 0x0 0x18 registers n WDOG_EWM 23 PRESC Watchdog Prescaler register 0x16 16 read-write n 0x0 0x0 PRESCVAL 3-bit prescaler for the watchdog clock source 8 3 read-write REFRESH Watchdog Refresh register 0xC 16 read-write n 0x0 0x0 WDOGREFRESH Watchdog refresh register 0 16 read-write RSTCNT Watchdog Reset Count register 0x14 16 read-write n 0x0 0x0 RSTCNT Counts the number of times the watchdog resets the system 0 16 read-write STCTRLH Watchdog Status and Control Register High 0x0 16 read-write n 0x0 0x0 ALLOWUPDATE Enables updates to watchdog write-once registers, after the reset-triggered initial configuration window (WCT) closes, through unlock sequence 4 1 read-write 0 No further updates allowed to WDOG write-once registers. #0 1 WDOG write-once registers can be unlocked for updating. #1 BYTESEL This 2-bit field selects the byte to be tested when the watchdog is in the byte test mode. 12 2 read-write 00 Byte 0 selected #00 01 Byte 1 selected #01 10 Byte 2 selected #10 11 Byte 3 selected #11 CLKSRC Selects clock source for the WDOG timer and other internal timing operations. 1 1 read-write 0 WDOG clock sourced from LPO . #0 1 WDOG clock sourced from alternate clock source. #1 DBGEN Enables or disables WDOG in Debug mode. 5 1 read-write 0 WDOG is disabled in CPU Debug mode. #0 1 WDOG is enabled in CPU Debug mode. #1 DISTESTWDOG Allows the WDOG's functional test mode to be disabled permanently 14 1 read-write 0 WDOG functional test mode is not disabled. #0 1 WDOG functional test mode is disabled permanently until reset. #1 IRQRSTEN Used to enable the debug breadcrumbs feature 2 1 read-write 0 WDOG time-out generates reset only. #0 1 WDOG time-out initially generates an interrupt. After WCT, it generates a reset. #1 STOPEN Enables or disables WDOG in Stop mode. 6 1 read-write 0 WDOG is disabled in CPU Stop mode. #0 1 WDOG is enabled in CPU Stop mode. #1 TESTSEL Effective only if TESTWDOG is set. Selects the test to be run on the watchdog timer. 11 1 read-write 0 Quick test. The timer runs in normal operation. You can load a small time-out value to do a quick test. #0 1 Byte test. Puts the timer in the byte test mode where individual bytes of the timer are enabled for operation and are compared for time-out against the corresponding byte of the programmed time-out value. Select the byte through BYTESEL[1:0] for testing. #1 TESTWDOG Puts the watchdog in the functional test mode 10 1 read-write WAITEN Enables or disables WDOG in Wait mode. 7 1 read-write 0 WDOG is disabled in CPU Wait mode. #0 1 WDOG is enabled in CPU Wait mode. #1 WDOGEN Enables or disables the WDOG's operation 0 1 read-write 0 WDOG is disabled. #0 1 WDOG is enabled. #1 WINEN Enables Windowing mode. 3 1 read-write 0 Windowing mode is disabled. #0 1 Windowing mode is enabled. #1 STCTRLL Watchdog Status and Control Register Low 0x2 16 read-write n 0x0 0x0 INTFLG Interrupt flag 15 1 read-write TMROUTH Watchdog Timer Output Register High 0x10 16 read-write n 0x0 0x0 TIMEROUTHIGH Shows the value of the upper 16 bits of the watchdog timer. 0 16 read-write TMROUTL Watchdog Timer Output Register Low 0x12 16 read-write n 0x0 0x0 TIMEROUTLOW Shows the value of the lower 16 bits of the watchdog timer. 0 16 read-write TOVALH Watchdog Time-out Value Register High 0x4 16 read-write n 0x0 0x0 TOVALHIGH Defines the upper 16 bits of the 32-bit time-out value for the watchdog timer 0 16 read-write TOVALL Watchdog Time-out Value Register Low 0x6 16 read-write n 0x0 0x0 TOVALLOW Defines the lower 16 bits of the 32-bit time-out value for the watchdog timer 0 16 read-write UNLOCK Watchdog Unlock register 0xE 16 read-write n 0x0 0x0 WDOGUNLOCK Writing the unlock sequence values to this register to makes the watchdog write-once registers writable again 0 16 read-write WINH Watchdog Window Register High 0x8 16 read-write n 0x0 0x0 WINHIGH Defines the upper 16 bits of the 32-bit window for the windowed mode of operation of the watchdog 0 16 read-write WINL Watchdog Window Register Low 0xA 16 read-write n 0x0 0x0 WINLOW Defines the lower 16 bits of the 32-bit window for the windowed mode of operation of the watchdog 0 16 read-write