SiliconLabs EFM32PG23B200F512IM40 2024.04.28 No description false 8 32 ACMP0_NS ACMP0_NS Registers ACMP0_NS 0x0 0x0 0x1000 registers n ACMP0 41 CFG No Description 0xC -1 read-write n 0x0 0x0 ACCURACY ACMP accuracy mode 17 1 read-write LOW ACMP operates in low-accuracy mode but consumes less current. 0 HIGH ACMP operates in high-accuracy mode but consumes more current. 1 BIAS Bias Configuration 0 3 read-write HYST Hysteresis mode 8 4 read-write DISABLED Hysteresis disabled 0 SYM10MV 10mV symmetrical hysteresis 1 NEG30MV 30mV hysteresis on negative edge transitions 10 SYM20MV 20mV symmetrical hysteresis 2 SYM30MV 30mV symmetrical hysteresis 3 POS10MV 10mV hysteresis on positive edge transitions 4 POS20MV 20mV hysteresis on positive edge transitions 5 POS30MV 30mV hysteresis on positive edge transitions 6 NEG10MV 10mV hysteresis on negative edge transitions 8 NEG20MV 20mV hysteresis on negative edge transitions 9 INPUTRANGE Input Range 16 1 read-write FULL Use this setting when the input to the comparator core can be from 0 to AVDD. 0 REDUCED It is recommended to use this setting when the input to the comparator core will always be less than AVDD-0.7V. 1 CTRL No Description 0x10 -1 read-write n 0x0 0x0 GPIOINV Comparator GPIO Output Invert 1 1 read-write NOTINV The comparator output to GPIO is not inverted 0 INV The comparator output to GPIO is inverted 1 NOTRDYVAL Not Ready Value 0 1 read-write LOW ACMP output is 0 when the ACMP is not ready. 0 HIGH ACMP output is 1 when the ACMP is not ready. 1 EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Module enable 0 1 read-write IEN No Description 0x20 -1 read-write n 0x0 0x0 ACMPRDY ACMP ready interrupt enable 2 1 read-write FALL Falling edge interrupt enable 1 1 read-write INPUTCONFLICT Input conflict interrupt enable 3 1 read-write PORTALLOCERR Port allocation error interrupt enable 4 1 read-write RISE Rising edge interrupt enable 0 1 read-write IF No Description 0x1C -1 read-write n 0x0 0x0 ACMPRDY ACMP ready Interrupt flag 2 1 read-write FALL Falling Edge Triggered Interrupt Flag 1 1 read-write INPUTCONFLICT Input conflict 3 1 read-write PORTALLOCERR Port allocation error 4 1 read-write RISE Rising Edge Triggered Interrupt Flag 0 1 read-write INPUTCTRL No Description 0x14 -1 read-write n 0x0 0x0 CSRESSEL Capacitive Sense Mode Internal Resistor 28 3 read-write RES0 Internal capacitive sense resistor value 0 0 RES1 Internal capacitive sense resistor value 1 1 RES2 Internal capacitive sense resistor value 2 2 RES3 Internal capacitive sense resistor value 3 3 RES4 Internal capacitive sense resistor value 4 4 RES5 Internal capacitive sense resistor value 5 5 RES6 Internal capacitive sense resistor value 6 6 NEGSEL Negative Input Select 8 8 read-write VSS VSS 0 PA0 Port A, Pin0 128 PA1 Port A, Pin1 129 PA2 Port A, Pin2 130 PA3 Port A, Pin3 131 PA4 Port A, Pin4 132 PA5 Port A, Pin5 133 PA6 Port A, Pin6 134 PA7 Port A, Pin7 135 PA8 Port A, Pin8 136 PA9 Port A, Pin9 137 PA10 Port A, Pin10 138 PA11 Port A, Pin11 139 PA12 Port A, Pin12 140 PA13 Port A, Pin13 141 PA14 Port A, Pin14 142 PA15 Port A, Pin15 143 PB0 Port B, Pin0 144 PB1 Port B, Pin1 145 PB2 Port B, Pin2 146 PB3 Port B, Pin3 147 PB4 Port B, Pin4 148 PB5 Port B, Pin5 149 PB6 Port B, Pin6 150 PB7 Port B, Pin7 151 PB8 Port B, Pin8 152 PB9 Port B, Pin9 153 PB10 Port B, Pin10 154 PB11 Port B, Pin11 155 PB12 Port B, Pin12 156 PB13 Port B, Pin13 157 PB14 Port B, Pin14 158 PB15 Port B, Pin15 159 VREFDIVAVDD Divided AVDD 16 PC0 Port C, Pin0 160 PC1 Port C, Pin1 161 PC2 Port C, Pin2 162 PC3 Port C, Pin3 163 PC4 Port C, Pin4 164 PC5 Port C, Pin5 165 PC6 Port C, Pin6 166 PC7 Port C, Pin7 167 PC8 Port C, Pin8 168 PC9 Port C, Pin9 169 VREFDIVAVDDLP Low-Power Divided AVDD 17 PC10 Port C, Pin10 170 PC11 Port C, Pin11 171 PC12 Port C, Pin12 172 PC13 Port C, Pin13 173 PC14 Port C, Pin14 174 PC15 Port C, Pin15 175 PD0 Port D, Pin0 176 PD1 Port D, Pin1 177 PD2 Port D, Pin2 178 PD3 Port D, Pin3 179 VREFDIV1V25 Divided 1V25 reference 18 PD4 Port D, Pin4 180 PD5 Port D, Pin5 181 PD6 Port D, Pin6 182 PD7 Port D, Pin7 183 PD8 Port D, Pin8 184 PD9 Port D, Pin9 185 PD10 Port D, Pin10 186 PD11 Port D, Pin11 187 PD12 Port D, Pin12 188 PD13 Port D, Pin13 189 VREFDIV1V25LP Low-power Divided 1V25 reference 19 PD14 Port D, Pin14 190 PD15 Port D, Pin15 191 VREFDIV2V5 Divided 2V5 reference 20 VREFDIV2V5LP Low-power Divided 2V5 reference 21 VSENSE01DIV4 VSENSE0 divided by 4 32 VSENSE01DIV4LP Low-power VSENSE0 divided by 4 33 VSENSE11DIV4 VSENSE1 divided by 4 34 VSENSE11DIV4LP Low-power VSENSE1 divided by 4 35 CAPSENSE Capsense mode 48 VDACOUT0 VDAC0 channel 0 output 64 VDACOUT1 VDAC0 channel 1 output 65 POSSEL Positive Input Select 0 8 read-write VSS VSS 0 PA0 Port A, Pin0 128 PA1 Port A, Pin1 129 PA2 Port A, Pin2 130 PA3 Port A, Pin3 131 PA4 Port A, Pin4 132 PA5 Port A, Pin5 133 PA6 Port A, Pin6 134 PA7 Port A, Pin7 135 PA8 Port A, Pin8 136 PA9 Port A, Pin9 137 PA10 Port A, Pin10 138 PA11 Port A, Pin11 139 PA12 Port A, Pin12 140 PA13 Port A, Pin13 141 PA14 Port A, Pin14 142 PA15 Port A, Pin15 143 PB0 Port B, Pin0 144 PB1 Port B, Pin1 145 PB2 Port B, Pin2 146 PB3 Port B, Pin3 147 PB4 Port B, Pin4 148 PB5 Port B, Pin5 149 PB6 Port B, Pin6 150 PB7 Port B, Pin7 151 PB8 Port B, Pin8 152 PB9 Port B, Pin9 153 PB10 Port B, Pin10 154 PB11 Port B, Pin11 155 PB12 Port B, Pin12 156 PB13 Port B, Pin13 157 PB14 Port B, Pin14 158 PB15 Port B, Pin15 159 VREFDIVAVDD Divided AVDD 16 PC0 Port C, Pin0 160 PC1 Port C, Pin1 161 PC2 Port C, Pin2 162 PC3 Port C, Pin3 163 PC4 Port C, Pin4 164 PC5 Port C, Pin5 165 PC6 Port C, Pin6 166 PC7 Port C, Pin7 167 PC8 Port C, Pin8 168 PC9 Port C, Pin9 169 VREFDIVAVDDLP Low-Power Divided AVDD 17 PC10 Port C, Pin10 170 PC11 Port C, Pin11 171 PC12 Port C, Pin12 172 PC13 Port C, Pin13 173 PC14 Port C, Pin14 174 PC15 Port C, Pin15 175 PD0 Port D, Pin0 176 PD1 Port D, Pin1 177 PD2 Port D, Pin2 178 PD3 Port D, Pin3 179 VREFDIV1V25 Divided 1V25 reference 18 PD4 Port D, Pin4 180 PD5 Port D, Pin5 181 PD6 Port D, Pin6 182 PD7 Port D, Pin7 183 PD8 Port D, Pin8 184 PD9 Port D, Pin9 185 PD10 Port D, Pin10 186 PD11 Port D, Pin11 187 PD12 Port D, Pin12 188 PD13 Port D, Pin13 189 VREFDIV1V25LP Low-power Divided 1V25 reference 19 PD14 Port D, Pin14 190 PD15 Port D, Pin15 191 VREFDIV2V5 Divided 2V5 reference 20 VREFDIV2V5LP Low-power Divided 2V5 reference 21 VSENSE01DIV4 VSENSE0 divided by 4 32 VSENSE01DIV4LP Low-power VSENSE0 divided by 4 33 VSENSE11DIV4 VSENSE1 divided by 4 34 VSENSE11DIV4LP Low-power VSENSE1 divided by 4 35 VDACOUT0 VDAC0 channel 0 output 64 VDACOUT1 VDAC0 channel 1 output 65 EXTPA External interface, base is PA0. 80 EXTPB External interface, base is PB0. 81 EXTPC External interface, base is PC0. 82 EXTPD External interface, base is PD0. 83 VREFDIV VREF division 16 6 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only STATUS No Description 0x18 -1 read-only n 0x0 0x0 ACMPOUT Analog Comparator Output 0 1 read-only ACMPRDY Analog Comparator Ready 2 1 read-only INPUTCONFLICT INPUT conflict 3 1 read-only PORTALLOCERR Port allocation error 4 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset 0 1 write-only SYNCBUSY No Description 0x24 -1 read-only n 0x0 0x0 INPUTCTRL Syncbusy for INPUTCTRL 0 1 read-only ACMP0_S ACMP0_S Registers ACMP0_S 0x0 0x0 0x1000 registers n ACMP0 41 CFG No Description 0xC -1 read-write n 0x0 0x0 ACCURACY ACMP accuracy mode 17 1 read-write LOW ACMP operates in low-accuracy mode but consumes less current. 0 HIGH ACMP operates in high-accuracy mode but consumes more current. 1 BIAS Bias Configuration 0 3 read-write HYST Hysteresis mode 8 4 read-write DISABLED Hysteresis disabled 0 SYM10MV 10mV symmetrical hysteresis 1 NEG30MV 30mV hysteresis on negative edge transitions 10 SYM20MV 20mV symmetrical hysteresis 2 SYM30MV 30mV symmetrical hysteresis 3 POS10MV 10mV hysteresis on positive edge transitions 4 POS20MV 20mV hysteresis on positive edge transitions 5 POS30MV 30mV hysteresis on positive edge transitions 6 NEG10MV 10mV hysteresis on negative edge transitions 8 NEG20MV 20mV hysteresis on negative edge transitions 9 INPUTRANGE Input Range 16 1 read-write FULL Use this setting when the input to the comparator core can be from 0 to AVDD. 0 REDUCED It is recommended to use this setting when the input to the comparator core will always be less than AVDD-0.7V. 1 CTRL No Description 0x10 -1 read-write n 0x0 0x0 GPIOINV Comparator GPIO Output Invert 1 1 read-write NOTINV The comparator output to GPIO is not inverted 0 INV The comparator output to GPIO is inverted 1 NOTRDYVAL Not Ready Value 0 1 read-write LOW ACMP output is 0 when the ACMP is not ready. 0 HIGH ACMP output is 1 when the ACMP is not ready. 1 EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Module enable 0 1 read-write IEN No Description 0x20 -1 read-write n 0x0 0x0 ACMPRDY ACMP ready interrupt enable 2 1 read-write FALL Falling edge interrupt enable 1 1 read-write INPUTCONFLICT Input conflict interrupt enable 3 1 read-write PORTALLOCERR Port allocation error interrupt enable 4 1 read-write RISE Rising edge interrupt enable 0 1 read-write IF No Description 0x1C -1 read-write n 0x0 0x0 ACMPRDY ACMP ready Interrupt flag 2 1 read-write FALL Falling Edge Triggered Interrupt Flag 1 1 read-write INPUTCONFLICT Input conflict 3 1 read-write PORTALLOCERR Port allocation error 4 1 read-write RISE Rising Edge Triggered Interrupt Flag 0 1 read-write INPUTCTRL No Description 0x14 -1 read-write n 0x0 0x0 CSRESSEL Capacitive Sense Mode Internal Resistor 28 3 read-write RES0 Internal capacitive sense resistor value 0 0 RES1 Internal capacitive sense resistor value 1 1 RES2 Internal capacitive sense resistor value 2 2 RES3 Internal capacitive sense resistor value 3 3 RES4 Internal capacitive sense resistor value 4 4 RES5 Internal capacitive sense resistor value 5 5 RES6 Internal capacitive sense resistor value 6 6 NEGSEL Negative Input Select 8 8 read-write VSS VSS 0 PA0 Port A, Pin0 128 PA1 Port A, Pin1 129 PA2 Port A, Pin2 130 PA3 Port A, Pin3 131 PA4 Port A, Pin4 132 PA5 Port A, Pin5 133 PA6 Port A, Pin6 134 PA7 Port A, Pin7 135 PA8 Port A, Pin8 136 PA9 Port A, Pin9 137 PA10 Port A, Pin10 138 PA11 Port A, Pin11 139 PA12 Port A, Pin12 140 PA13 Port A, Pin13 141 PA14 Port A, Pin14 142 PA15 Port A, Pin15 143 PB0 Port B, Pin0 144 PB1 Port B, Pin1 145 PB2 Port B, Pin2 146 PB3 Port B, Pin3 147 PB4 Port B, Pin4 148 PB5 Port B, Pin5 149 PB6 Port B, Pin6 150 PB7 Port B, Pin7 151 PB8 Port B, Pin8 152 PB9 Port B, Pin9 153 PB10 Port B, Pin10 154 PB11 Port B, Pin11 155 PB12 Port B, Pin12 156 PB13 Port B, Pin13 157 PB14 Port B, Pin14 158 PB15 Port B, Pin15 159 VREFDIVAVDD Divided AVDD 16 PC0 Port C, Pin0 160 PC1 Port C, Pin1 161 PC2 Port C, Pin2 162 PC3 Port C, Pin3 163 PC4 Port C, Pin4 164 PC5 Port C, Pin5 165 PC6 Port C, Pin6 166 PC7 Port C, Pin7 167 PC8 Port C, Pin8 168 PC9 Port C, Pin9 169 VREFDIVAVDDLP Low-Power Divided AVDD 17 PC10 Port C, Pin10 170 PC11 Port C, Pin11 171 PC12 Port C, Pin12 172 PC13 Port C, Pin13 173 PC14 Port C, Pin14 174 PC15 Port C, Pin15 175 PD0 Port D, Pin0 176 PD1 Port D, Pin1 177 PD2 Port D, Pin2 178 PD3 Port D, Pin3 179 VREFDIV1V25 Divided 1V25 reference 18 PD4 Port D, Pin4 180 PD5 Port D, Pin5 181 PD6 Port D, Pin6 182 PD7 Port D, Pin7 183 PD8 Port D, Pin8 184 PD9 Port D, Pin9 185 PD10 Port D, Pin10 186 PD11 Port D, Pin11 187 PD12 Port D, Pin12 188 PD13 Port D, Pin13 189 VREFDIV1V25LP Low-power Divided 1V25 reference 19 PD14 Port D, Pin14 190 PD15 Port D, Pin15 191 VREFDIV2V5 Divided 2V5 reference 20 VREFDIV2V5LP Low-power Divided 2V5 reference 21 VSENSE01DIV4 VSENSE0 divided by 4 32 VSENSE01DIV4LP Low-power VSENSE0 divided by 4 33 VSENSE11DIV4 VSENSE1 divided by 4 34 VSENSE11DIV4LP Low-power VSENSE1 divided by 4 35 CAPSENSE Capsense mode 48 VDACOUT0 VDAC0 channel 0 output 64 VDACOUT1 VDAC0 channel 1 output 65 POSSEL Positive Input Select 0 8 read-write VSS VSS 0 PA0 Port A, Pin0 128 PA1 Port A, Pin1 129 PA2 Port A, Pin2 130 PA3 Port A, Pin3 131 PA4 Port A, Pin4 132 PA5 Port A, Pin5 133 PA6 Port A, Pin6 134 PA7 Port A, Pin7 135 PA8 Port A, Pin8 136 PA9 Port A, Pin9 137 PA10 Port A, Pin10 138 PA11 Port A, Pin11 139 PA12 Port A, Pin12 140 PA13 Port A, Pin13 141 PA14 Port A, Pin14 142 PA15 Port A, Pin15 143 PB0 Port B, Pin0 144 PB1 Port B, Pin1 145 PB2 Port B, Pin2 146 PB3 Port B, Pin3 147 PB4 Port B, Pin4 148 PB5 Port B, Pin5 149 PB6 Port B, Pin6 150 PB7 Port B, Pin7 151 PB8 Port B, Pin8 152 PB9 Port B, Pin9 153 PB10 Port B, Pin10 154 PB11 Port B, Pin11 155 PB12 Port B, Pin12 156 PB13 Port B, Pin13 157 PB14 Port B, Pin14 158 PB15 Port B, Pin15 159 VREFDIVAVDD Divided AVDD 16 PC0 Port C, Pin0 160 PC1 Port C, Pin1 161 PC2 Port C, Pin2 162 PC3 Port C, Pin3 163 PC4 Port C, Pin4 164 PC5 Port C, Pin5 165 PC6 Port C, Pin6 166 PC7 Port C, Pin7 167 PC8 Port C, Pin8 168 PC9 Port C, Pin9 169 VREFDIVAVDDLP Low-Power Divided AVDD 17 PC10 Port C, Pin10 170 PC11 Port C, Pin11 171 PC12 Port C, Pin12 172 PC13 Port C, Pin13 173 PC14 Port C, Pin14 174 PC15 Port C, Pin15 175 PD0 Port D, Pin0 176 PD1 Port D, Pin1 177 PD2 Port D, Pin2 178 PD3 Port D, Pin3 179 VREFDIV1V25 Divided 1V25 reference 18 PD4 Port D, Pin4 180 PD5 Port D, Pin5 181 PD6 Port D, Pin6 182 PD7 Port D, Pin7 183 PD8 Port D, Pin8 184 PD9 Port D, Pin9 185 PD10 Port D, Pin10 186 PD11 Port D, Pin11 187 PD12 Port D, Pin12 188 PD13 Port D, Pin13 189 VREFDIV1V25LP Low-power Divided 1V25 reference 19 PD14 Port D, Pin14 190 PD15 Port D, Pin15 191 VREFDIV2V5 Divided 2V5 reference 20 VREFDIV2V5LP Low-power Divided 2V5 reference 21 VSENSE01DIV4 VSENSE0 divided by 4 32 VSENSE01DIV4LP Low-power VSENSE0 divided by 4 33 VSENSE11DIV4 VSENSE1 divided by 4 34 VSENSE11DIV4LP Low-power VSENSE1 divided by 4 35 VDACOUT0 VDAC0 channel 0 output 64 VDACOUT1 VDAC0 channel 1 output 65 EXTPA External interface, base is PA0. 80 EXTPB External interface, base is PB0. 81 EXTPC External interface, base is PC0. 82 EXTPD External interface, base is PD0. 83 VREFDIV VREF division 16 6 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only STATUS No Description 0x18 -1 read-only n 0x0 0x0 ACMPOUT Analog Comparator Output 0 1 read-only ACMPRDY Analog Comparator Ready 2 1 read-only INPUTCONFLICT INPUT conflict 3 1 read-only PORTALLOCERR Port allocation error 4 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset 0 1 write-only SYNCBUSY No Description 0x24 -1 read-only n 0x0 0x0 INPUTCTRL Syncbusy for INPUTCTRL 0 1 read-only ACMP1_NS ACMP1_NS Registers ACMP1_NS 0x0 0x0 0x1000 registers n ACMP1 42 CFG No Description 0xC -1 read-write n 0x0 0x0 ACCURACY ACMP accuracy mode 17 1 read-write LOW ACMP operates in low-accuracy mode but consumes less current. 0 HIGH ACMP operates in high-accuracy mode but consumes more current. 1 BIAS Bias Configuration 0 3 read-write HYST Hysteresis mode 8 4 read-write DISABLED Hysteresis disabled 0 SYM10MV 10mV symmetrical hysteresis 1 NEG30MV 30mV hysteresis on negative edge transitions 10 SYM20MV 20mV symmetrical hysteresis 2 SYM30MV 30mV symmetrical hysteresis 3 POS10MV 10mV hysteresis on positive edge transitions 4 POS20MV 20mV hysteresis on positive edge transitions 5 POS30MV 30mV hysteresis on positive edge transitions 6 NEG10MV 10mV hysteresis on negative edge transitions 8 NEG20MV 20mV hysteresis on negative edge transitions 9 INPUTRANGE Input Range 16 1 read-write FULL Use this setting when the input to the comparator core can be from 0 to AVDD. 0 REDUCED It is recommended to use this setting when the input to the comparator core will always be less than AVDD-0.7V. 1 CTRL No Description 0x10 -1 read-write n 0x0 0x0 GPIOINV Comparator GPIO Output Invert 1 1 read-write NOTINV The comparator output to GPIO is not inverted 0 INV The comparator output to GPIO is inverted 1 NOTRDYVAL Not Ready Value 0 1 read-write LOW ACMP output is 0 when the ACMP is not ready. 0 HIGH ACMP output is 1 when the ACMP is not ready. 1 EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Module enable 0 1 read-write IEN No Description 0x20 -1 read-write n 0x0 0x0 ACMPRDY ACMP ready interrupt enable 2 1 read-write FALL Falling edge interrupt enable 1 1 read-write INPUTCONFLICT Input conflict interrupt enable 3 1 read-write PORTALLOCERR Port allocation error interrupt enable 4 1 read-write RISE Rising edge interrupt enable 0 1 read-write IF No Description 0x1C -1 read-write n 0x0 0x0 ACMPRDY ACMP ready Interrupt flag 2 1 read-write FALL Falling Edge Triggered Interrupt Flag 1 1 read-write INPUTCONFLICT Input conflict 3 1 read-write PORTALLOCERR Port allocation error 4 1 read-write RISE Rising Edge Triggered Interrupt Flag 0 1 read-write INPUTCTRL No Description 0x14 -1 read-write n 0x0 0x0 CSRESSEL Capacitive Sense Mode Internal Resistor 28 3 read-write RES0 Internal capacitive sense resistor value 0 0 RES1 Internal capacitive sense resistor value 1 1 RES2 Internal capacitive sense resistor value 2 2 RES3 Internal capacitive sense resistor value 3 3 RES4 Internal capacitive sense resistor value 4 4 RES5 Internal capacitive sense resistor value 5 5 RES6 Internal capacitive sense resistor value 6 6 NEGSEL Negative Input Select 8 8 read-write VSS VSS 0 PA0 Port A, Pin0 128 PA1 Port A, Pin1 129 PA2 Port A, Pin2 130 PA3 Port A, Pin3 131 PA4 Port A, Pin4 132 PA5 Port A, Pin5 133 PA6 Port A, Pin6 134 PA7 Port A, Pin7 135 PA8 Port A, Pin8 136 PA9 Port A, Pin9 137 PA10 Port A, Pin10 138 PA11 Port A, Pin11 139 PA12 Port A, Pin12 140 PA13 Port A, Pin13 141 PA14 Port A, Pin14 142 PA15 Port A, Pin15 143 PB0 Port B, Pin0 144 PB1 Port B, Pin1 145 PB2 Port B, Pin2 146 PB3 Port B, Pin3 147 PB4 Port B, Pin4 148 PB5 Port B, Pin5 149 PB6 Port B, Pin6 150 PB7 Port B, Pin7 151 PB8 Port B, Pin8 152 PB9 Port B, Pin9 153 PB10 Port B, Pin10 154 PB11 Port B, Pin11 155 PB12 Port B, Pin12 156 PB13 Port B, Pin13 157 PB14 Port B, Pin14 158 PB15 Port B, Pin15 159 VREFDIVAVDD Divided AVDD 16 PC0 Port C, Pin0 160 PC1 Port C, Pin1 161 PC2 Port C, Pin2 162 PC3 Port C, Pin3 163 PC4 Port C, Pin4 164 PC5 Port C, Pin5 165 PC6 Port C, Pin6 166 PC7 Port C, Pin7 167 PC8 Port C, Pin8 168 PC9 Port C, Pin9 169 VREFDIVAVDDLP Low-Power Divided AVDD 17 PC10 Port C, Pin10 170 PC11 Port C, Pin11 171 PC12 Port C, Pin12 172 PC13 Port C, Pin13 173 PC14 Port C, Pin14 174 PC15 Port C, Pin15 175 PD0 Port D, Pin0 176 PD1 Port D, Pin1 177 PD2 Port D, Pin2 178 PD3 Port D, Pin3 179 VREFDIV1V25 Divided 1V25 reference 18 PD4 Port D, Pin4 180 PD5 Port D, Pin5 181 PD6 Port D, Pin6 182 PD7 Port D, Pin7 183 PD8 Port D, Pin8 184 PD9 Port D, Pin9 185 PD10 Port D, Pin10 186 PD11 Port D, Pin11 187 PD12 Port D, Pin12 188 PD13 Port D, Pin13 189 VREFDIV1V25LP Low-power Divided 1V25 reference 19 PD14 Port D, Pin14 190 PD15 Port D, Pin15 191 VREFDIV2V5 Divided 2V5 reference 20 VREFDIV2V5LP Low-power Divided 2V5 reference 21 VSENSE01DIV4 VSENSE0 divided by 4 32 VSENSE01DIV4LP Low-power VSENSE0 divided by 4 33 VSENSE11DIV4 VSENSE1 divided by 4 34 VSENSE11DIV4LP Low-power VSENSE1 divided by 4 35 CAPSENSE Capsense mode 48 VDACOUT0 VDAC0 channel 0 output 64 VDACOUT1 VDAC0 channel 1 output 65 POSSEL Positive Input Select 0 8 read-write VSS VSS 0 PA0 Port A, Pin0 128 PA1 Port A, Pin1 129 PA2 Port A, Pin2 130 PA3 Port A, Pin3 131 PA4 Port A, Pin4 132 PA5 Port A, Pin5 133 PA6 Port A, Pin6 134 PA7 Port A, Pin7 135 PA8 Port A, Pin8 136 PA9 Port A, Pin9 137 PA10 Port A, Pin10 138 PA11 Port A, Pin11 139 PA12 Port A, Pin12 140 PA13 Port A, Pin13 141 PA14 Port A, Pin14 142 PA15 Port A, Pin15 143 PB0 Port B, Pin0 144 PB1 Port B, Pin1 145 PB2 Port B, Pin2 146 PB3 Port B, Pin3 147 PB4 Port B, Pin4 148 PB5 Port B, Pin5 149 PB6 Port B, Pin6 150 PB7 Port B, Pin7 151 PB8 Port B, Pin8 152 PB9 Port B, Pin9 153 PB10 Port B, Pin10 154 PB11 Port B, Pin11 155 PB12 Port B, Pin12 156 PB13 Port B, Pin13 157 PB14 Port B, Pin14 158 PB15 Port B, Pin15 159 VREFDIVAVDD Divided AVDD 16 PC0 Port C, Pin0 160 PC1 Port C, Pin1 161 PC2 Port C, Pin2 162 PC3 Port C, Pin3 163 PC4 Port C, Pin4 164 PC5 Port C, Pin5 165 PC6 Port C, Pin6 166 PC7 Port C, Pin7 167 PC8 Port C, Pin8 168 PC9 Port C, Pin9 169 VREFDIVAVDDLP Low-Power Divided AVDD 17 PC10 Port C, Pin10 170 PC11 Port C, Pin11 171 PC12 Port C, Pin12 172 PC13 Port C, Pin13 173 PC14 Port C, Pin14 174 PC15 Port C, Pin15 175 PD0 Port D, Pin0 176 PD1 Port D, Pin1 177 PD2 Port D, Pin2 178 PD3 Port D, Pin3 179 VREFDIV1V25 Divided 1V25 reference 18 PD4 Port D, Pin4 180 PD5 Port D, Pin5 181 PD6 Port D, Pin6 182 PD7 Port D, Pin7 183 PD8 Port D, Pin8 184 PD9 Port D, Pin9 185 PD10 Port D, Pin10 186 PD11 Port D, Pin11 187 PD12 Port D, Pin12 188 PD13 Port D, Pin13 189 VREFDIV1V25LP Low-power Divided 1V25 reference 19 PD14 Port D, Pin14 190 PD15 Port D, Pin15 191 VREFDIV2V5 Divided 2V5 reference 20 VREFDIV2V5LP Low-power Divided 2V5 reference 21 VSENSE01DIV4 VSENSE0 divided by 4 32 VSENSE01DIV4LP Low-power VSENSE0 divided by 4 33 VSENSE11DIV4 VSENSE1 divided by 4 34 VSENSE11DIV4LP Low-power VSENSE1 divided by 4 35 VDACOUT0 VDAC0 channel 0 output 64 VDACOUT1 VDAC0 channel 1 output 65 EXTPA External interface, base is PA0. 80 EXTPB External interface, base is PB0. 81 EXTPC External interface, base is PC0. 82 EXTPD External interface, base is PD0. 83 VREFDIV VREF division 16 6 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only STATUS No Description 0x18 -1 read-only n 0x0 0x0 ACMPOUT Analog Comparator Output 0 1 read-only ACMPRDY Analog Comparator Ready 2 1 read-only INPUTCONFLICT INPUT conflict 3 1 read-only PORTALLOCERR Port allocation error 4 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset 0 1 write-only SYNCBUSY No Description 0x24 -1 read-only n 0x0 0x0 INPUTCTRL Syncbusy for INPUTCTRL 0 1 read-only ACMP1_S ACMP1_S Registers ACMP1_S 0x0 0x0 0x1000 registers n ACMP1 42 CFG No Description 0xC -1 read-write n 0x0 0x0 ACCURACY ACMP accuracy mode 17 1 read-write LOW ACMP operates in low-accuracy mode but consumes less current. 0 HIGH ACMP operates in high-accuracy mode but consumes more current. 1 BIAS Bias Configuration 0 3 read-write HYST Hysteresis mode 8 4 read-write DISABLED Hysteresis disabled 0 SYM10MV 10mV symmetrical hysteresis 1 NEG30MV 30mV hysteresis on negative edge transitions 10 SYM20MV 20mV symmetrical hysteresis 2 SYM30MV 30mV symmetrical hysteresis 3 POS10MV 10mV hysteresis on positive edge transitions 4 POS20MV 20mV hysteresis on positive edge transitions 5 POS30MV 30mV hysteresis on positive edge transitions 6 NEG10MV 10mV hysteresis on negative edge transitions 8 NEG20MV 20mV hysteresis on negative edge transitions 9 INPUTRANGE Input Range 16 1 read-write FULL Use this setting when the input to the comparator core can be from 0 to AVDD. 0 REDUCED It is recommended to use this setting when the input to the comparator core will always be less than AVDD-0.7V. 1 CTRL No Description 0x10 -1 read-write n 0x0 0x0 GPIOINV Comparator GPIO Output Invert 1 1 read-write NOTINV The comparator output to GPIO is not inverted 0 INV The comparator output to GPIO is inverted 1 NOTRDYVAL Not Ready Value 0 1 read-write LOW ACMP output is 0 when the ACMP is not ready. 0 HIGH ACMP output is 1 when the ACMP is not ready. 1 EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Module enable 0 1 read-write IEN No Description 0x20 -1 read-write n 0x0 0x0 ACMPRDY ACMP ready interrupt enable 2 1 read-write FALL Falling edge interrupt enable 1 1 read-write INPUTCONFLICT Input conflict interrupt enable 3 1 read-write PORTALLOCERR Port allocation error interrupt enable 4 1 read-write RISE Rising edge interrupt enable 0 1 read-write IF No Description 0x1C -1 read-write n 0x0 0x0 ACMPRDY ACMP ready Interrupt flag 2 1 read-write FALL Falling Edge Triggered Interrupt Flag 1 1 read-write INPUTCONFLICT Input conflict 3 1 read-write PORTALLOCERR Port allocation error 4 1 read-write RISE Rising Edge Triggered Interrupt Flag 0 1 read-write INPUTCTRL No Description 0x14 -1 read-write n 0x0 0x0 CSRESSEL Capacitive Sense Mode Internal Resistor 28 3 read-write RES0 Internal capacitive sense resistor value 0 0 RES1 Internal capacitive sense resistor value 1 1 RES2 Internal capacitive sense resistor value 2 2 RES3 Internal capacitive sense resistor value 3 3 RES4 Internal capacitive sense resistor value 4 4 RES5 Internal capacitive sense resistor value 5 5 RES6 Internal capacitive sense resistor value 6 6 NEGSEL Negative Input Select 8 8 read-write VSS VSS 0 PA0 Port A, Pin0 128 PA1 Port A, Pin1 129 PA2 Port A, Pin2 130 PA3 Port A, Pin3 131 PA4 Port A, Pin4 132 PA5 Port A, Pin5 133 PA6 Port A, Pin6 134 PA7 Port A, Pin7 135 PA8 Port A, Pin8 136 PA9 Port A, Pin9 137 PA10 Port A, Pin10 138 PA11 Port A, Pin11 139 PA12 Port A, Pin12 140 PA13 Port A, Pin13 141 PA14 Port A, Pin14 142 PA15 Port A, Pin15 143 PB0 Port B, Pin0 144 PB1 Port B, Pin1 145 PB2 Port B, Pin2 146 PB3 Port B, Pin3 147 PB4 Port B, Pin4 148 PB5 Port B, Pin5 149 PB6 Port B, Pin6 150 PB7 Port B, Pin7 151 PB8 Port B, Pin8 152 PB9 Port B, Pin9 153 PB10 Port B, Pin10 154 PB11 Port B, Pin11 155 PB12 Port B, Pin12 156 PB13 Port B, Pin13 157 PB14 Port B, Pin14 158 PB15 Port B, Pin15 159 VREFDIVAVDD Divided AVDD 16 PC0 Port C, Pin0 160 PC1 Port C, Pin1 161 PC2 Port C, Pin2 162 PC3 Port C, Pin3 163 PC4 Port C, Pin4 164 PC5 Port C, Pin5 165 PC6 Port C, Pin6 166 PC7 Port C, Pin7 167 PC8 Port C, Pin8 168 PC9 Port C, Pin9 169 VREFDIVAVDDLP Low-Power Divided AVDD 17 PC10 Port C, Pin10 170 PC11 Port C, Pin11 171 PC12 Port C, Pin12 172 PC13 Port C, Pin13 173 PC14 Port C, Pin14 174 PC15 Port C, Pin15 175 PD0 Port D, Pin0 176 PD1 Port D, Pin1 177 PD2 Port D, Pin2 178 PD3 Port D, Pin3 179 VREFDIV1V25 Divided 1V25 reference 18 PD4 Port D, Pin4 180 PD5 Port D, Pin5 181 PD6 Port D, Pin6 182 PD7 Port D, Pin7 183 PD8 Port D, Pin8 184 PD9 Port D, Pin9 185 PD10 Port D, Pin10 186 PD11 Port D, Pin11 187 PD12 Port D, Pin12 188 PD13 Port D, Pin13 189 VREFDIV1V25LP Low-power Divided 1V25 reference 19 PD14 Port D, Pin14 190 PD15 Port D, Pin15 191 VREFDIV2V5 Divided 2V5 reference 20 VREFDIV2V5LP Low-power Divided 2V5 reference 21 VSENSE01DIV4 VSENSE0 divided by 4 32 VSENSE01DIV4LP Low-power VSENSE0 divided by 4 33 VSENSE11DIV4 VSENSE1 divided by 4 34 VSENSE11DIV4LP Low-power VSENSE1 divided by 4 35 CAPSENSE Capsense mode 48 VDACOUT0 VDAC0 channel 0 output 64 VDACOUT1 VDAC0 channel 1 output 65 POSSEL Positive Input Select 0 8 read-write VSS VSS 0 PA0 Port A, Pin0 128 PA1 Port A, Pin1 129 PA2 Port A, Pin2 130 PA3 Port A, Pin3 131 PA4 Port A, Pin4 132 PA5 Port A, Pin5 133 PA6 Port A, Pin6 134 PA7 Port A, Pin7 135 PA8 Port A, Pin8 136 PA9 Port A, Pin9 137 PA10 Port A, Pin10 138 PA11 Port A, Pin11 139 PA12 Port A, Pin12 140 PA13 Port A, Pin13 141 PA14 Port A, Pin14 142 PA15 Port A, Pin15 143 PB0 Port B, Pin0 144 PB1 Port B, Pin1 145 PB2 Port B, Pin2 146 PB3 Port B, Pin3 147 PB4 Port B, Pin4 148 PB5 Port B, Pin5 149 PB6 Port B, Pin6 150 PB7 Port B, Pin7 151 PB8 Port B, Pin8 152 PB9 Port B, Pin9 153 PB10 Port B, Pin10 154 PB11 Port B, Pin11 155 PB12 Port B, Pin12 156 PB13 Port B, Pin13 157 PB14 Port B, Pin14 158 PB15 Port B, Pin15 159 VREFDIVAVDD Divided AVDD 16 PC0 Port C, Pin0 160 PC1 Port C, Pin1 161 PC2 Port C, Pin2 162 PC3 Port C, Pin3 163 PC4 Port C, Pin4 164 PC5 Port C, Pin5 165 PC6 Port C, Pin6 166 PC7 Port C, Pin7 167 PC8 Port C, Pin8 168 PC9 Port C, Pin9 169 VREFDIVAVDDLP Low-Power Divided AVDD 17 PC10 Port C, Pin10 170 PC11 Port C, Pin11 171 PC12 Port C, Pin12 172 PC13 Port C, Pin13 173 PC14 Port C, Pin14 174 PC15 Port C, Pin15 175 PD0 Port D, Pin0 176 PD1 Port D, Pin1 177 PD2 Port D, Pin2 178 PD3 Port D, Pin3 179 VREFDIV1V25 Divided 1V25 reference 18 PD4 Port D, Pin4 180 PD5 Port D, Pin5 181 PD6 Port D, Pin6 182 PD7 Port D, Pin7 183 PD8 Port D, Pin8 184 PD9 Port D, Pin9 185 PD10 Port D, Pin10 186 PD11 Port D, Pin11 187 PD12 Port D, Pin12 188 PD13 Port D, Pin13 189 VREFDIV1V25LP Low-power Divided 1V25 reference 19 PD14 Port D, Pin14 190 PD15 Port D, Pin15 191 VREFDIV2V5 Divided 2V5 reference 20 VREFDIV2V5LP Low-power Divided 2V5 reference 21 VSENSE01DIV4 VSENSE0 divided by 4 32 VSENSE01DIV4LP Low-power VSENSE0 divided by 4 33 VSENSE11DIV4 VSENSE1 divided by 4 34 VSENSE11DIV4LP Low-power VSENSE1 divided by 4 35 VDACOUT0 VDAC0 channel 0 output 64 VDACOUT1 VDAC0 channel 1 output 65 EXTPA External interface, base is PA0. 80 EXTPB External interface, base is PB0. 81 EXTPC External interface, base is PC0. 82 EXTPD External interface, base is PD0. 83 VREFDIV VREF division 16 6 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only STATUS No Description 0x18 -1 read-only n 0x0 0x0 ACMPOUT Analog Comparator Output 0 1 read-only ACMPRDY Analog Comparator Ready 2 1 read-only INPUTCONFLICT INPUT conflict 3 1 read-only PORTALLOCERR Port allocation error 4 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset 0 1 write-only SYNCBUSY No Description 0x24 -1 read-only n 0x0 0x0 INPUTCTRL Syncbusy for INPUTCTRL 0 1 read-only AMUXCP0_NS AMUXCP0_NS Registers AMUXCP0_NS 0x0 0x0 0x1000 registers n CTRL Control 0x8 -1 read-write n 0x0 0x0 FORCEHP Force High Power 0 1 read-write FORCELP Force Low Power 1 1 read-write FORCERUN Force run 4 1 read-write FORCESTOP Force stop 5 1 read-write IPVERSION IPVERSION 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only STATUS Status 0xC -1 read-only n 0x0 0x0 HICAP high cap 1 1 read-only RUN running 0 1 read-only TEST Test 0x10 -1 read-write n 0x0 0x0 FORCEBOOSTOFF Force Boost Off 13 1 read-write FORCEBOOSTON Force Boost On 12 1 read-write FORCEHICAP Force high capacitance driver 8 1 read-write FORCELOCAP Force low capacitance driver 9 1 read-write FORCEREQUEST Force Request 4 1 read-write STATUSEN Enable write to status bits 31 1 read-write SYNCCLK Sync Clock 0 1 read-write SYNCMODE Sync Mode 1 1 read-write TRIM Trim 0x14 -1 read-write n 0x0 0x0 BIAS2XHI Bias 2x High Power 9 1 read-write BIAS2XLO Bias 2x Low Power 8 1 read-write BIASCTRLHI Bias Control High Power 21 3 read-write BIASCTRLLO Bias Control Low Power 15 3 read-write BIASCTRLLOCONT Bias Control Low Power Continuous 18 3 read-write BUMP0P5XHI Bump 0.5X High Power 7 1 read-write BUMP0P5XLO Bump 0.5X Low Power 6 1 read-write BYPASSDIV2HI Bypass Div2 High Power 5 1 read-write BYPASSDIV2LO Bypass Div2 Low Power 4 1 read-write FLOATVDDCPHI Float VDDCP High Power 3 1 read-write FLOATVDDCPLO Float VDDCP Low Power 2 1 read-write PUMPCAPHI Pump Cap High Power 28 3 read-write PUMPCAPLO Pump Cap Low Power 24 3 read-write VOLTAGECTRLHI Charge Pump Voltage Control High Power 13 2 read-write VOLTAGECTRLLO Charge Pump Voltage Control Low Power 10 2 read-write WARMUPTIME Warm up time 0 2 read-write WUCYCLES72 Warm up cycle = 72 3.6us @20 MHz 0 WUCYCLES96 Warm up cycle = 96 4.8us @ 20 MHz 1 WUCYCLES128 Warm up cycle = 128 6.4us @ 20 MHz 2 WUCYCLES160 Warm up cycle = 160 8.0us @ 20 MHz 3 AMUXCP0_S AMUXCP0_S Registers AMUXCP0_S 0x0 0x0 0x1000 registers n CTRL Control 0x8 -1 read-write n 0x0 0x0 FORCEHP Force High Power 0 1 read-write FORCELP Force Low Power 1 1 read-write FORCERUN Force run 4 1 read-write FORCESTOP Force stop 5 1 read-write IPVERSION IPVERSION 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only STATUS Status 0xC -1 read-only n 0x0 0x0 HICAP high cap 1 1 read-only RUN running 0 1 read-only TEST Test 0x10 -1 read-write n 0x0 0x0 FORCEBOOSTOFF Force Boost Off 13 1 read-write FORCEBOOSTON Force Boost On 12 1 read-write FORCEHICAP Force high capacitance driver 8 1 read-write FORCELOCAP Force low capacitance driver 9 1 read-write FORCEREQUEST Force Request 4 1 read-write STATUSEN Enable write to status bits 31 1 read-write SYNCCLK Sync Clock 0 1 read-write SYNCMODE Sync Mode 1 1 read-write TRIM Trim 0x14 -1 read-write n 0x0 0x0 BIAS2XHI Bias 2x High Power 9 1 read-write BIAS2XLO Bias 2x Low Power 8 1 read-write BIASCTRLHI Bias Control High Power 21 3 read-write BIASCTRLLO Bias Control Low Power 15 3 read-write BIASCTRLLOCONT Bias Control Low Power Continuous 18 3 read-write BUMP0P5XHI Bump 0.5X High Power 7 1 read-write BUMP0P5XLO Bump 0.5X Low Power 6 1 read-write BYPASSDIV2HI Bypass Div2 High Power 5 1 read-write BYPASSDIV2LO Bypass Div2 Low Power 4 1 read-write FLOATVDDCPHI Float VDDCP High Power 3 1 read-write FLOATVDDCPLO Float VDDCP Low Power 2 1 read-write PUMPCAPHI Pump Cap High Power 28 3 read-write PUMPCAPLO Pump Cap Low Power 24 3 read-write VOLTAGECTRLHI Charge Pump Voltage Control High Power 13 2 read-write VOLTAGECTRLLO Charge Pump Voltage Control Low Power 10 2 read-write WARMUPTIME Warm up time 0 2 read-write WUCYCLES72 Warm up cycle = 72 3.6us @20 MHz 0 WUCYCLES96 Warm up cycle = 96 4.8us @ 20 MHz 1 WUCYCLES128 Warm up cycle = 128 6.4us @ 20 MHz 2 WUCYCLES160 Warm up cycle = 160 8.0us @ 20 MHz 3 BURAM_NS BURAM_NS Registers BURAM_NS 0x0 0x0 0x1000 registers n RET0_REG No Description 0x0 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET10_REG No Description 0x28 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET11_REG No Description 0x2C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET12_REG No Description 0x30 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET13_REG No Description 0x34 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET14_REG No Description 0x38 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET15_REG No Description 0x3C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET16_REG No Description 0x40 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET17_REG No Description 0x44 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET18_REG No Description 0x48 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET19_REG No Description 0x4C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET1_REG No Description 0x4 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET20_REG No Description 0x50 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET21_REG No Description 0x54 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET22_REG No Description 0x58 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET23_REG No Description 0x5C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET24_REG No Description 0x60 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET25_REG No Description 0x64 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET26_REG No Description 0x68 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET27_REG No Description 0x6C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET28_REG No Description 0x70 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET29_REG No Description 0x74 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET2_REG No Description 0x8 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET30_REG No Description 0x78 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET31_REG No Description 0x7C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET3_REG No Description 0xC -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET4_REG No Description 0x10 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET5_REG No Description 0x14 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET6_REG No Description 0x18 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET7_REG No Description 0x1C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET8_REG No Description 0x20 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET9_REG No Description 0x24 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write BURAM_S BURAM_S Registers BURAM_S 0x0 0x0 0x1000 registers n RET0_REG No Description 0x0 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET10_REG No Description 0x28 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET11_REG No Description 0x2C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET12_REG No Description 0x30 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET13_REG No Description 0x34 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET14_REG No Description 0x38 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET15_REG No Description 0x3C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET16_REG No Description 0x40 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET17_REG No Description 0x44 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET18_REG No Description 0x48 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET19_REG No Description 0x4C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET1_REG No Description 0x4 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET20_REG No Description 0x50 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET21_REG No Description 0x54 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET22_REG No Description 0x58 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET23_REG No Description 0x5C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET24_REG No Description 0x60 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET25_REG No Description 0x64 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET26_REG No Description 0x68 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET27_REG No Description 0x6C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET28_REG No Description 0x70 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET29_REG No Description 0x74 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET2_REG No Description 0x8 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET30_REG No Description 0x78 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET31_REG No Description 0x7C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET3_REG No Description 0xC -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET4_REG No Description 0x10 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET5_REG No Description 0x14 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET6_REG No Description 0x18 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET7_REG No Description 0x1C -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET8_REG No Description 0x20 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write RET9_REG No Description 0x24 -1 read-write n 0x0 0x0 RETREG Latch based Retention register 0 32 read-write BURTC_NS BURTC_NS Registers BURTC_NS 0x0 0x0 0x1000 registers n BURTC 18 CFG No Description 0x8 -1 read-write n 0x0 0x0 CNTPRESC Counter prescaler value. 4 4 read-write DIV1 CLK_CNT = (BURTC LF CLK)/1 0 DIV2 CLK_CNT = (BURTC LF CLK)/2 1 DIV1024 CLK_CNT = (BURTC LF CLK)/1024 10 DIV2048 CLK_CNT = (BURTC LF CLK)/2048 11 DIV4096 CLK_CNT = (BURTC LF CLK)/4096 12 DIV8192 CLK_CNT = (BURTC LF CLK)/8192 13 DIV16384 CLK_CNT = (BURTC LF CLK)/16384 14 DIV32768 CLK_CNT = (BURTC LF CLK)/32768 15 DIV4 CLK_CNT = (BURTC LF CLK)/4 2 DIV8 CLK_CNT = (BURTC LF CLK)/8 3 DIV16 CLK_CNT = (BURTC LF CLK)/16 4 DIV32 CLK_CNT = (BURTC LF CLK)/32 5 DIV64 CLK_CNT = (BURTC LF CLK)/64 6 DIV128 CLK_CNT = (BURTC LF CLK)/128 7 DIV256 CLK_CNT = (BURTC LF CLK)/256 8 DIV512 CLK_CNT = (BURTC LF CLK)/512 9 COMPTOP Compare Channel is Top Value 1 1 read-write DISABLE The top value of the BURTC is 4294967295 (0xFFFFFFFF) 0 ENABLE The top value of the BURTC is given by COMP 1 DEBUGRUN Debug Mode Run Enable 0 1 read-write X0 BURTC is frozen in debug mode 0 X1 BURTC is running in debug mode 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start BURTC counter 0 1 write-only STOP Stop BURTC counter 1 1 write-only CNT No Description 0x20 -1 read-write n 0x0 0x0 CNT Counter Value 0 32 read-write COMP No Description 0x30 -1 read-write n 0x0 0x0 COMP Compare Value 0 32 read-write EM4WUEN No Description 0x24 -1 read-write n 0x0 0x0 COMPEM4WUEN Compare Match EM4 Wakeup Enable 1 1 read-write OFEM4WUEN Overflow EM4 Wakeup Enable 0 1 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN BURTC Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 COMP Compare Match Interrupt Flag 1 1 read-write OF Overflow Interrupt Flag 0 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 COMP Compare Match Interrupt Flag 1 1 read-write OF Overflow Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write to unlock all BURTC lockable registers 44776 PRECNT No Description 0x1C -1 read-write n 0x0 0x0 PRECNT Pre-Counter Value 0 15 read-write STATUS No Description 0x10 -1 read-only n 0x0 0x0 LOCK Configuration Lock Status 1 1 read-only UNLOCKED All BURTC lockable registers are unlocked. 0 LOCKED All BURTC lockable registers are locked. 1 RUNNING BURTC running status 0 1 read-only SYNCBUSY No Description 0x28 -1 read-only n 0x0 0x0 CNT Sync busy for CNT 3 1 read-only COMP Sync busy for COMP 4 1 read-only PRECNT Sync busy for PRECNT 2 1 read-only START Sync busy for START 0 1 read-only STOP Sync busy for STOP 1 1 read-only BURTC_S BURTC_S Registers BURTC_S 0x0 0x0 0x1000 registers n BURTC 18 CFG No Description 0x8 -1 read-write n 0x0 0x0 CNTPRESC Counter prescaler value. 4 4 read-write DIV1 CLK_CNT = (BURTC LF CLK)/1 0 DIV2 CLK_CNT = (BURTC LF CLK)/2 1 DIV1024 CLK_CNT = (BURTC LF CLK)/1024 10 DIV2048 CLK_CNT = (BURTC LF CLK)/2048 11 DIV4096 CLK_CNT = (BURTC LF CLK)/4096 12 DIV8192 CLK_CNT = (BURTC LF CLK)/8192 13 DIV16384 CLK_CNT = (BURTC LF CLK)/16384 14 DIV32768 CLK_CNT = (BURTC LF CLK)/32768 15 DIV4 CLK_CNT = (BURTC LF CLK)/4 2 DIV8 CLK_CNT = (BURTC LF CLK)/8 3 DIV16 CLK_CNT = (BURTC LF CLK)/16 4 DIV32 CLK_CNT = (BURTC LF CLK)/32 5 DIV64 CLK_CNT = (BURTC LF CLK)/64 6 DIV128 CLK_CNT = (BURTC LF CLK)/128 7 DIV256 CLK_CNT = (BURTC LF CLK)/256 8 DIV512 CLK_CNT = (BURTC LF CLK)/512 9 COMPTOP Compare Channel is Top Value 1 1 read-write DISABLE The top value of the BURTC is 4294967295 (0xFFFFFFFF) 0 ENABLE The top value of the BURTC is given by COMP 1 DEBUGRUN Debug Mode Run Enable 0 1 read-write X0 BURTC is frozen in debug mode 0 X1 BURTC is running in debug mode 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start BURTC counter 0 1 write-only STOP Stop BURTC counter 1 1 write-only CNT No Description 0x20 -1 read-write n 0x0 0x0 CNT Counter Value 0 32 read-write COMP No Description 0x30 -1 read-write n 0x0 0x0 COMP Compare Value 0 32 read-write EM4WUEN No Description 0x24 -1 read-write n 0x0 0x0 COMPEM4WUEN Compare Match EM4 Wakeup Enable 1 1 read-write OFEM4WUEN Overflow EM4 Wakeup Enable 0 1 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN BURTC Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 COMP Compare Match Interrupt Flag 1 1 read-write OF Overflow Interrupt Flag 0 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 COMP Compare Match Interrupt Flag 1 1 read-write OF Overflow Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write to unlock all BURTC lockable registers 44776 PRECNT No Description 0x1C -1 read-write n 0x0 0x0 PRECNT Pre-Counter Value 0 15 read-write STATUS No Description 0x10 -1 read-only n 0x0 0x0 LOCK Configuration Lock Status 1 1 read-only UNLOCKED All BURTC lockable registers are unlocked. 0 LOCKED All BURTC lockable registers are locked. 1 RUNNING BURTC running status 0 1 read-only SYNCBUSY No Description 0x28 -1 read-only n 0x0 0x0 CNT Sync busy for CNT 3 1 read-only COMP Sync busy for COMP 4 1 read-only PRECNT Sync busy for PRECNT 2 1 read-only START Sync busy for START 0 1 read-only STOP Sync busy for STOP 1 1 read-only CMU_NS CMU_NS Registers CMU_NS 0x0 0x0 0x1000 registers n CMU 48 CALCMD No Description 0x50 -1 write-only n 0x0 0x0 CALSTART Calibration Start 0 1 write-only CALSTOP Calibration Stop 1 1 write-only CALCNT No Description 0x58 -1 read-only n 0x0 0x0 CALCNT Calibration Result Counter Value 0 20 read-only CALCTRL No Description 0x54 -1 read-write n 0x0 0x0 CALTOP Calibration Counter Top Value 0 20 read-write CONT Continuous Calibration 23 1 read-write DOWNSEL Calibration Down-counter Select 28 4 read-write DISABLED Down-counter is not clocked 0 HCLK HCLK is clocking down-counter 1 LFRCO LFRCO is clocking down-counter 10 ULFRCO ULFRCO is clocking down-counter 11 PRS PRS CMU_CALDN consumer is clocking down-counter 2 HFXO HFXO is clocking down-counter 3 LFXO LFXO is clocking down-counter 4 HFRCODPLL HFRCODPLL is clocking down-counter 5 HFRCOEM23 HFRCOEM23 is clocking down-counter 6 FSRCO FSRCO is clocking down-counter 9 UPSEL Calibration Up-counter Select 24 4 read-write DISABLED Up-counter is not clocked 0 PRS PRS CMU_CALUP consumer is clocking up-counter 1 ULFRCO ULFRCO is clocking up-counter 10 HFXO HFXO is clocking up-counter 2 LFXO LFXO is clocking up-counter 3 HFRCODPLL HFRCODPLL is clocking up-counter 4 HFRCOEM23 HFRCOEM23 is clocking up-counter 5 FSRCO FSRCO is clocking up-counter 8 LFRCO LFRCO is clocking up-counter 9 CLKEN0 No Description 0x64 -1 read-write n 0x0 0x0 AMUXCP0 Enable Bus Clock 11 1 read-write BURAM Enable Bus Clock 28 1 read-write BURTC Enable Bus Clock 29 1 read-write DCDC Enable Bus Clock 31 1 read-write DPLL0 Enable Bus Clock 17 1 read-write FSRCO Enable Bus Clock 21 1 read-write GPCRC Enable Bus Clock 3 1 read-write GPIO Enable Bus Clock 26 1 read-write HFRCO0 Enable Bus Clock 18 1 read-write HFRCOEM23 Enable Bus Clock 19 1 read-write HFXO0 Enable Bus Clock 20 1 read-write I2C0 Enable Bus Clock 14 1 read-write I2C1 Enable Bus Clock 15 1 read-write IADC0 Enable Bus Clock 10 1 read-write LDMA Enable Bus Clock 0 1 read-write LDMAXBAR Enable Bus Clock 1 1 read-write LESENSE Enable Bus Clock 25 1 read-write LETIMER0 Enable Bus Clock 12 1 read-write LFRCO Enable Bus Clock 22 1 read-write LFXO Enable Bus Clock 23 1 read-write PRS Enable Bus Clock 27 1 read-write SYSCFG Enable Bus Clock 16 1 read-write SYSRTC0 Enable Bus Clock 30 1 read-write TIMER0 Enable Bus Clock 4 1 read-write TIMER1 Enable Bus Clock 5 1 read-write TIMER2 Enable Bus Clock 6 1 read-write TIMER3 Enable Bus Clock 7 1 read-write TIMER4 Enable Bus Clock 8 1 read-write ULFRCO Enable Bus Clock 24 1 read-write USART0 Enable Bus Clock 9 1 read-write WDOG0 Enable Bus Clock 13 1 read-write CLKEN1 No Description 0x68 -1 read-write n 0x0 0x0 ACMP0 Enable Bus Clock 18 1 read-write ACMP1 Enable Bus Clock 19 1 read-write DMEM Enable Bus Clock 27 1 read-write EUSART0 Enable Bus Clock 22 1 read-write EUSART1 Enable Bus Clock 23 1 read-write EUSART2 Enable Bus Clock 24 1 read-write HOSTMAILBOX Enable Bus Clock 8 1 read-write ICACHE0 Enable Bus Clock 15 1 read-write KEYSCAN Enable Bus Clock 13 1 read-write LCD Enable Bus Clock 12 1 read-write MSC Enable Bus Clock 16 1 read-write PCNT0 Enable Bus Clock 21 1 read-write SEMAILBOXHOST Enable Bus Clock 10 1 read-write SMU Enable Bus Clock 14 1 read-write VDAC0 Enable Bus Clock 20 1 read-write WDOG1 Enable Bus Clock 17 1 read-write DPLLREFCLKCTRL No Description 0x100 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write DISABLED DPLLREFCLK is not clocked 0 HFXO HFXO is clocking DPLLREFCLK 1 LFXO LFXO is clocking DPLLREFCLK 2 CLKIN0 CLKIN0 is clocking DPLLREFCLK 3 EM01GRPACLKCTRL No Description 0x120 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write HFRCODPLL HFRCODPLL is clocking EM01GRPACLK 1 HFXO HFXO is clocking EM01GRPACLK 2 FSRCO FSRCO is clocking EM01GRPACLK 3 HFRCOEM23 HFRCOEM23 is clocking EM01GRPACLK 4 HFRCODPLLRT HFRCODPLL (retimed) is clocking EM01GRPACLK. Check with datasheet for frequency limitation when using retiming with voltage scaling. 5 HFXORT HFXO (retimed) is clocking EM01GRPACLK. Check with datasheet for frequency limitation when using retiming with voltage scaling. 6 EM01GRPCCLKCTRL No Description 0x128 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write HFRCODPLL HFRCODPLL is clocking EM01GRPCCLK 1 HFXO HFXO is clocking EM01GRPCCLK 2 FSRCO FSRCO is clocking EM01GRPCCLK 3 HFRCOEM23 HFRCOEM23 is clocking EM01GRPCCLK 4 HFRCODPLLRT HFRCODPLL (retimed) is clocking EM01GRPCCLK. Check with datasheet for frequency limitation when using retiming with voltage scaling. 5 HFXORT HFXO (retimed) is clocking EM01GRPCCLK. Check with datasheet for frequency limitation when using retiming with voltage scaling. 6 EM23GRPACLKCTRL No Description 0x140 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write LFRCO LFRCO is clocking EM23GRPACLK 1 LFXO LFXO is clocking EM23GRPACLK 2 ULFRCO ULFRCO is clocking EM23GRPACLK 3 EM4GRPACLKCTRL No Description 0x160 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write LFRCO LFRCO is clocking EM4GRPACLK 1 LFXO LFXO is clocking EM4GRPACLK 2 ULFRCO ULFRCO is clocking EM4GRPACLK 3 EUSART0CLKCTRL No Description 0x220 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write DISABLED EUSART0 is not clocked 0 EM01GRPCCLK EM01GRPCCLK is clocking EUSART0 1 HFRCOEM23 HFRCOEM23 is clocking EUSART0 2 LFRCO LFRCO is clocking EUSART0 3 LFXO LFXO is clocking EUSART0 4 EXPORTCLKCTRL No Description 0x90 -1 read-write n 0x0 0x0 CLKOUTSEL0 Clock Output Select 0 0 4 read-write DISABLED CLKOUT0 is not clocked 0 HCLK HCLK is clocking CLKOUT0 1 HFEXPCLK HFEXPCLK is clocking CLKOUT0 2 ULFRCO ULFRCO is clocking CLKOUT0 3 LFRCO LFRCO is clocking CLKOUT0 4 LFXO LFXO is clocking CLKOUT0 5 HFRCODPLL HFRCODPLL is clocking CLKOUT0 6 HFXO HFXO is clocking CLKOUT0 7 FSRCO FSRCO is clocking CLKOUT0 8 HFRCOEM23 HFRCOEM23 is clocking CLKOUT0 9 CLKOUTSEL1 Clock Output Select 1 8 4 read-write DISABLED CLKOUT1 is not clocked 0 HCLK HCLK is clocking CLKOUT1 1 HFEXPCLK HFEXPCLK is clocking CLKOUT1 2 ULFRCO ULFRCO is clocking CLKOUT1 3 LFRCO LFRCO is clocking CLKOUT1 4 LFXO LFXO is clocking CLKOUT1 5 HFRCODPLL HFRCODPLL is clocking CLKOUT1 6 HFXO HFXO is clocking CLKOUT1 7 FSRCO FSRCO is clocking CLKOUT1 8 HFRCOEM23 HFRCOEM23 is clocking CLKOUT1 9 CLKOUTSEL2 Clock Output Select 2 16 4 read-write DISABLED CLKOUT2 is not clocked 0 HCLK HCLK is clocking CLKOUT2 1 HFEXPCLK HFEXPCLK is clocking CLKOUT2 2 ULFRCO ULFRCO is clocking CLKOUT2 3 LFRCO LFRCO is clocking CLKOUT2 4 LFXO LFXO is clocking CLKOUT2 5 HFRCODPLL HFRCODPLL is clocking CLKOUT2 6 HFXO HFXO is clocking CLKOUT2 7 FSRCO FSRCO is clocking CLKOUT2 8 HFRCOEM23 HFRCOEM23 is clocking CLKOUT2 9 PRESC EXPORTCLK Prescaler 24 5 read-write IADCCLKCTRL No Description 0x180 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write EM01GRPACLK EM01GRPACLK is clocking IADCCLK 1 FSRCO FSRCO is clocking IADCCLK 2 HFRCOEM23 HFRCOEM23 is clocking IADCCLK 3 IEN No Description 0x24 -1 read-write n 0x0 0x0 CALOF Calibration Overflow Interrupt Enable 1 1 read-write CALRDY Calibration Ready Interrupt Enable 0 1 read-write IF No Description 0x20 -1 read-write n 0x0 0x0 CALOF Calibration Overflow Interrupt Flag 1 1 read-write CALRDY Calibration Ready Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LCDCLKCTRL No Description 0x250 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write LFRCO LFRCO is clocking LCDCLK 1 LFXO LFXO is clocking LCDCLK 2 ULFRCO ULFRCO is clocking LCDCLK 3 LESENSEHFCLKCTRL No Description 0x290 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write FSRCO FSRCO is clocking LESENSEHFCLK 1 HFRCOEM23 HFRCOEM23 is clocking LESENSEHFCLK 2 LOCK No Description 0x10 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write this value to unlock 37879 PCNT0CLKCTRL No Description 0x270 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write DISABLED PCNT0 is not clocked 0 EM23GRPACLK EM23GRPACLK is clocking PCNT0 1 PCNTS0 External pin PCNT_S0 is clocking PCNT0 2 STATUS No Description 0x8 -1 read-only n 0x0 0x0 CALRDY Calibration Ready 0 1 read-only LOCK Configuration Lock Status 31 1 read-only UNLOCKED Configuration lock is unlocked 0 LOCKED Configuration lock is locked 1 WDOGLOCK Configuration Lock Status for WDOG 30 1 read-only UNLOCKED WDOG configuration lock is unlocked 0 LOCKED WDOG configuration lock is locked 1 SYSCLKCTRL No Description 0x70 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write FSRCO FSRCO is clocking SYSCLK 1 HFRCODPLL HFRCODPLL is clocking SYSCLK 2 HFXO HFXO is clocking SYSCLK 3 CLKIN0 CLKIN0 is clocking SYSCLK 4 HCLKPRESC HCLK Prescaler 12 4 read-write DIV1 HCLK is SYSCLK divided by 1 0 DIV2 HCLK is SYSCLK divided by 2 1 DIV16 HCLK is SYSCLK divided by 16 15 DIV4 HCLK is SYSCLK divided by 4 3 DIV8 HCLK is SYSCLK divided by 8 7 PCLKPRESC PCLK Prescaler 10 1 read-write DIV1 PCLK is HCLK divided by 1 0 DIV2 PCLK is HCLK divided by 2 1 SYSRTC0CLKCTRL No Description 0x240 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write LFRCO LFRCO is clocking SYSRTC0CLK 1 LFXO LFXO is clocking SYSRTC0CLK 2 ULFRCO ULFRCO is clocking SYSRTC0CLK 3 TRACECLKCTRL No Description 0x80 -1 read-write n 0x0 0x0 PRESC TRACECLK Prescaler 4 2 read-write DIV1 TRACECLK is SYSCLK divided by 1 0 DIV2 TRACECLK is SYSCLK divided by 2 1 DIV4 TRACECLK is SYSCLK divided by 4 3 VDAC0CLKCTRL No Description 0x260 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write DISABLED VDAC is not clocked 0 EM01GRPACLK EM01GRPACLK is clocking VDAC 1 EM23GRPACLK EM23GRPACLK is clocking VDAC 2 FSRCO FSRCO is clocking VDAC 3 HFRCOEM23 HFRCOEM23 is clocking VDAC 4 WDOG0CLKCTRL No Description 0x200 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write LFRCO LFRCO is clocking WDOG0CLK 1 LFXO LFXO is clocking WDOG0CLK 2 ULFRCO ULFRCO is clocking WDOG0CLK 3 HCLKDIV1024 HCLKDIV1024 is clocking WDOG0CLK 4 WDOG1CLKCTRL No Description 0x208 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write LFRCO LFRCO is clocking WDOG0CLK 1 LFXO LFXO is clocking WDOG0CLK 2 ULFRCO ULFRCO is clocking WDOG0CLK 3 HCLKDIV1024 HCLKDIV1024 is clocking WDOG0CLK 4 WDOGLOCK No Description 0x14 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write this value to unlock 37879 CMU_S CMU_S Registers CMU_S 0x0 0x0 0x1000 registers n CMU 48 CALCMD No Description 0x50 -1 write-only n 0x0 0x0 CALSTART Calibration Start 0 1 write-only CALSTOP Calibration Stop 1 1 write-only CALCNT No Description 0x58 -1 read-only n 0x0 0x0 CALCNT Calibration Result Counter Value 0 20 read-only CALCTRL No Description 0x54 -1 read-write n 0x0 0x0 CALTOP Calibration Counter Top Value 0 20 read-write CONT Continuous Calibration 23 1 read-write DOWNSEL Calibration Down-counter Select 28 4 read-write DISABLED Down-counter is not clocked 0 HCLK HCLK is clocking down-counter 1 LFRCO LFRCO is clocking down-counter 10 ULFRCO ULFRCO is clocking down-counter 11 PRS PRS CMU_CALDN consumer is clocking down-counter 2 HFXO HFXO is clocking down-counter 3 LFXO LFXO is clocking down-counter 4 HFRCODPLL HFRCODPLL is clocking down-counter 5 HFRCOEM23 HFRCOEM23 is clocking down-counter 6 FSRCO FSRCO is clocking down-counter 9 UPSEL Calibration Up-counter Select 24 4 read-write DISABLED Up-counter is not clocked 0 PRS PRS CMU_CALUP consumer is clocking up-counter 1 ULFRCO ULFRCO is clocking up-counter 10 HFXO HFXO is clocking up-counter 2 LFXO LFXO is clocking up-counter 3 HFRCODPLL HFRCODPLL is clocking up-counter 4 HFRCOEM23 HFRCOEM23 is clocking up-counter 5 FSRCO FSRCO is clocking up-counter 8 LFRCO LFRCO is clocking up-counter 9 CLKEN0 No Description 0x64 -1 read-write n 0x0 0x0 AMUXCP0 Enable Bus Clock 11 1 read-write BURAM Enable Bus Clock 28 1 read-write BURTC Enable Bus Clock 29 1 read-write DCDC Enable Bus Clock 31 1 read-write DPLL0 Enable Bus Clock 17 1 read-write FSRCO Enable Bus Clock 21 1 read-write GPCRC Enable Bus Clock 3 1 read-write GPIO Enable Bus Clock 26 1 read-write HFRCO0 Enable Bus Clock 18 1 read-write HFRCOEM23 Enable Bus Clock 19 1 read-write HFXO0 Enable Bus Clock 20 1 read-write I2C0 Enable Bus Clock 14 1 read-write I2C1 Enable Bus Clock 15 1 read-write IADC0 Enable Bus Clock 10 1 read-write LDMA Enable Bus Clock 0 1 read-write LDMAXBAR Enable Bus Clock 1 1 read-write LESENSE Enable Bus Clock 25 1 read-write LETIMER0 Enable Bus Clock 12 1 read-write LFRCO Enable Bus Clock 22 1 read-write LFXO Enable Bus Clock 23 1 read-write PRS Enable Bus Clock 27 1 read-write SYSCFG Enable Bus Clock 16 1 read-write SYSRTC0 Enable Bus Clock 30 1 read-write TIMER0 Enable Bus Clock 4 1 read-write TIMER1 Enable Bus Clock 5 1 read-write TIMER2 Enable Bus Clock 6 1 read-write TIMER3 Enable Bus Clock 7 1 read-write TIMER4 Enable Bus Clock 8 1 read-write ULFRCO Enable Bus Clock 24 1 read-write USART0 Enable Bus Clock 9 1 read-write WDOG0 Enable Bus Clock 13 1 read-write CLKEN1 No Description 0x68 -1 read-write n 0x0 0x0 ACMP0 Enable Bus Clock 18 1 read-write ACMP1 Enable Bus Clock 19 1 read-write DMEM Enable Bus Clock 27 1 read-write EUSART0 Enable Bus Clock 22 1 read-write EUSART1 Enable Bus Clock 23 1 read-write EUSART2 Enable Bus Clock 24 1 read-write HOSTMAILBOX Enable Bus Clock 8 1 read-write ICACHE0 Enable Bus Clock 15 1 read-write KEYSCAN Enable Bus Clock 13 1 read-write LCD Enable Bus Clock 12 1 read-write MSC Enable Bus Clock 16 1 read-write PCNT0 Enable Bus Clock 21 1 read-write SEMAILBOXHOST Enable Bus Clock 10 1 read-write SMU Enable Bus Clock 14 1 read-write VDAC0 Enable Bus Clock 20 1 read-write WDOG1 Enable Bus Clock 17 1 read-write DPLLREFCLKCTRL No Description 0x100 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write DISABLED DPLLREFCLK is not clocked 0 HFXO HFXO is clocking DPLLREFCLK 1 LFXO LFXO is clocking DPLLREFCLK 2 CLKIN0 CLKIN0 is clocking DPLLREFCLK 3 EM01GRPACLKCTRL No Description 0x120 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write HFRCODPLL HFRCODPLL is clocking EM01GRPACLK 1 HFXO HFXO is clocking EM01GRPACLK 2 FSRCO FSRCO is clocking EM01GRPACLK 3 HFRCOEM23 HFRCOEM23 is clocking EM01GRPACLK 4 HFRCODPLLRT HFRCODPLL (retimed) is clocking EM01GRPACLK. Check with datasheet for frequency limitation when using retiming with voltage scaling. 5 HFXORT HFXO (retimed) is clocking EM01GRPACLK. Check with datasheet for frequency limitation when using retiming with voltage scaling. 6 EM01GRPCCLKCTRL No Description 0x128 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write HFRCODPLL HFRCODPLL is clocking EM01GRPCCLK 1 HFXO HFXO is clocking EM01GRPCCLK 2 FSRCO FSRCO is clocking EM01GRPCCLK 3 HFRCOEM23 HFRCOEM23 is clocking EM01GRPCCLK 4 HFRCODPLLRT HFRCODPLL (retimed) is clocking EM01GRPCCLK. Check with datasheet for frequency limitation when using retiming with voltage scaling. 5 HFXORT HFXO (retimed) is clocking EM01GRPCCLK. Check with datasheet for frequency limitation when using retiming with voltage scaling. 6 EM23GRPACLKCTRL No Description 0x140 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write LFRCO LFRCO is clocking EM23GRPACLK 1 LFXO LFXO is clocking EM23GRPACLK 2 ULFRCO ULFRCO is clocking EM23GRPACLK 3 EM4GRPACLKCTRL No Description 0x160 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write LFRCO LFRCO is clocking EM4GRPACLK 1 LFXO LFXO is clocking EM4GRPACLK 2 ULFRCO ULFRCO is clocking EM4GRPACLK 3 EUSART0CLKCTRL No Description 0x220 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write DISABLED EUSART0 is not clocked 0 EM01GRPCCLK EM01GRPCCLK is clocking EUSART0 1 HFRCOEM23 HFRCOEM23 is clocking EUSART0 2 LFRCO LFRCO is clocking EUSART0 3 LFXO LFXO is clocking EUSART0 4 EXPORTCLKCTRL No Description 0x90 -1 read-write n 0x0 0x0 CLKOUTSEL0 Clock Output Select 0 0 4 read-write DISABLED CLKOUT0 is not clocked 0 HCLK HCLK is clocking CLKOUT0 1 HFEXPCLK HFEXPCLK is clocking CLKOUT0 2 ULFRCO ULFRCO is clocking CLKOUT0 3 LFRCO LFRCO is clocking CLKOUT0 4 LFXO LFXO is clocking CLKOUT0 5 HFRCODPLL HFRCODPLL is clocking CLKOUT0 6 HFXO HFXO is clocking CLKOUT0 7 FSRCO FSRCO is clocking CLKOUT0 8 HFRCOEM23 HFRCOEM23 is clocking CLKOUT0 9 CLKOUTSEL1 Clock Output Select 1 8 4 read-write DISABLED CLKOUT1 is not clocked 0 HCLK HCLK is clocking CLKOUT1 1 HFEXPCLK HFEXPCLK is clocking CLKOUT1 2 ULFRCO ULFRCO is clocking CLKOUT1 3 LFRCO LFRCO is clocking CLKOUT1 4 LFXO LFXO is clocking CLKOUT1 5 HFRCODPLL HFRCODPLL is clocking CLKOUT1 6 HFXO HFXO is clocking CLKOUT1 7 FSRCO FSRCO is clocking CLKOUT1 8 HFRCOEM23 HFRCOEM23 is clocking CLKOUT1 9 CLKOUTSEL2 Clock Output Select 2 16 4 read-write DISABLED CLKOUT2 is not clocked 0 HCLK HCLK is clocking CLKOUT2 1 HFEXPCLK HFEXPCLK is clocking CLKOUT2 2 ULFRCO ULFRCO is clocking CLKOUT2 3 LFRCO LFRCO is clocking CLKOUT2 4 LFXO LFXO is clocking CLKOUT2 5 HFRCODPLL HFRCODPLL is clocking CLKOUT2 6 HFXO HFXO is clocking CLKOUT2 7 FSRCO FSRCO is clocking CLKOUT2 8 HFRCOEM23 HFRCOEM23 is clocking CLKOUT2 9 PRESC EXPORTCLK Prescaler 24 5 read-write IADCCLKCTRL No Description 0x180 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write EM01GRPACLK EM01GRPACLK is clocking IADCCLK 1 FSRCO FSRCO is clocking IADCCLK 2 HFRCOEM23 HFRCOEM23 is clocking IADCCLK 3 IEN No Description 0x24 -1 read-write n 0x0 0x0 CALOF Calibration Overflow Interrupt Enable 1 1 read-write CALRDY Calibration Ready Interrupt Enable 0 1 read-write IF No Description 0x20 -1 read-write n 0x0 0x0 CALOF Calibration Overflow Interrupt Flag 1 1 read-write CALRDY Calibration Ready Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LCDCLKCTRL No Description 0x250 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write LFRCO LFRCO is clocking LCDCLK 1 LFXO LFXO is clocking LCDCLK 2 ULFRCO ULFRCO is clocking LCDCLK 3 LESENSEHFCLKCTRL No Description 0x290 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write FSRCO FSRCO is clocking LESENSEHFCLK 1 HFRCOEM23 HFRCOEM23 is clocking LESENSEHFCLK 2 LOCK No Description 0x10 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write this value to unlock 37879 PCNT0CLKCTRL No Description 0x270 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write DISABLED PCNT0 is not clocked 0 EM23GRPACLK EM23GRPACLK is clocking PCNT0 1 PCNTS0 External pin PCNT_S0 is clocking PCNT0 2 STATUS No Description 0x8 -1 read-only n 0x0 0x0 CALRDY Calibration Ready 0 1 read-only LOCK Configuration Lock Status 31 1 read-only UNLOCKED Configuration lock is unlocked 0 LOCKED Configuration lock is locked 1 WDOGLOCK Configuration Lock Status for WDOG 30 1 read-only UNLOCKED WDOG configuration lock is unlocked 0 LOCKED WDOG configuration lock is locked 1 SYSCLKCTRL No Description 0x70 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write FSRCO FSRCO is clocking SYSCLK 1 HFRCODPLL HFRCODPLL is clocking SYSCLK 2 HFXO HFXO is clocking SYSCLK 3 CLKIN0 CLKIN0 is clocking SYSCLK 4 HCLKPRESC HCLK Prescaler 12 4 read-write DIV1 HCLK is SYSCLK divided by 1 0 DIV2 HCLK is SYSCLK divided by 2 1 DIV16 HCLK is SYSCLK divided by 16 15 DIV4 HCLK is SYSCLK divided by 4 3 DIV8 HCLK is SYSCLK divided by 8 7 PCLKPRESC PCLK Prescaler 10 1 read-write DIV1 PCLK is HCLK divided by 1 0 DIV2 PCLK is HCLK divided by 2 1 SYSRTC0CLKCTRL No Description 0x240 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 2 read-write LFRCO LFRCO is clocking SYSRTC0CLK 1 LFXO LFXO is clocking SYSRTC0CLK 2 ULFRCO ULFRCO is clocking SYSRTC0CLK 3 TRACECLKCTRL No Description 0x80 -1 read-write n 0x0 0x0 PRESC TRACECLK Prescaler 4 2 read-write DIV1 TRACECLK is SYSCLK divided by 1 0 DIV2 TRACECLK is SYSCLK divided by 2 1 DIV4 TRACECLK is SYSCLK divided by 4 3 VDAC0CLKCTRL No Description 0x260 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write DISABLED VDAC is not clocked 0 EM01GRPACLK EM01GRPACLK is clocking VDAC 1 EM23GRPACLK EM23GRPACLK is clocking VDAC 2 FSRCO FSRCO is clocking VDAC 3 HFRCOEM23 HFRCOEM23 is clocking VDAC 4 WDOG0CLKCTRL No Description 0x200 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write LFRCO LFRCO is clocking WDOG0CLK 1 LFXO LFXO is clocking WDOG0CLK 2 ULFRCO ULFRCO is clocking WDOG0CLK 3 HCLKDIV1024 HCLKDIV1024 is clocking WDOG0CLK 4 WDOG1CLKCTRL No Description 0x208 -1 read-write n 0x0 0x0 CLKSEL Clock Select 0 3 read-write LFRCO LFRCO is clocking WDOG0CLK 1 LFXO LFXO is clocking WDOG0CLK 2 ULFRCO ULFRCO is clocking WDOG0CLK 3 HCLKDIV1024 HCLKDIV1024 is clocking WDOG0CLK 4 WDOGLOCK No Description 0x14 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write this value to unlock 37879 DCDC_NS DCDC_NS Registers DCDC_NS 0x0 0x0 0x1000 registers n CTRL Control 0x4 -1 read-write n 0x0 0x0 IPKTMAXCTRL Ton_max timeout control 4 5 read-write MODE DCDC/Bypass Mode Control 0 1 read-write BYPASS DCDC is OFF, bypass switch is enabled 0 DCDCREGULATION Request DCDC regulation, bypass switch disabled 1 EM01CTRL0 EM01 Configurations 0x8 -1 read-write n 0x0 0x0 DRVSPEED EM01 Drive Speed Setting 8 2 read-write BEST_EMI Lowest Efficiency, Lowest EMI.. Small decrease in efficiency from default setting 0 DEFAULT_SETTING Default Efficiency, Acceptable EMI level 1 INTERMEDIATE Small increase in efficiency from the default setting 2 BEST_EFFICIENCY Highest Efficiency, Highest EMI.. Small increase in efficiency from INTERMEDIATE setting 3 IPKVAL EM01 Peak Current Setting 0 4 read-write Load36mA Ipeak = 90mA, IL = 36mA 3 Load40mA Ipeak = 100mA, IL = 40mA 4 Load44mA Ipeak = 110mA, IL = 44mA 5 Load48mA Ipeak = 120mA, IL = 48mA 6 Load52mA Ipeak = 130mA, IL = 52mA 7 Load56mA Ipeak = 140mA, IL = 56mA 8 Load60mA Ipeak = 150mA, IL = 60mA 9 EM23CTRL0 EM23 Configurations 0x10 -1 read-write n 0x0 0x0 DRVSPEED EM23 Drive Speed Setting 8 2 read-write BEST_EMI Lowest Efficiency, Lowest EMI.. Small decrease in efficiency from default setting 0 DEFAULT_SETTING Default Efficiency, Acceptable EMI level 1 INTERMEDIATE Small increase in efficiency from the default setting 2 BEST_EFFICIENCY Highest Efficiency, Highest EMI.. Small increase in efficiency from INTERMEDIATE setting 3 IPKVAL EM23 Peak Current Setting 0 4 read-write Load36mA Ipeak = 90mA, IL = 36mA 3 Load40mA Ipeak = 100mA, IL = 40mA 4 Load44mA Ipeak = 110mA, IL = 44mA 5 Load48mA Ipeak = 120mA, IL = 48mA 6 Load52mA Ipeak = 130mA, IL = 52mA 7 Load56mA Ipeak = 140mA, IL = 56mA 8 Load60mA Ipeak = 150mA, IL = 60mA 9 IEN Interrupt Enable 0x2C -1 read-write n 0x0 0x0 BYPSW Bypass Switch Enabled Interrupt Enable 0 1 read-write EM4ERR EM4 Entry Req Interrupt Enable 7 1 read-write PFMXMODE PFMX Mode Interrupt Enable 9 1 read-write PPMODE Pulse Pairing Mode Interrupt Enable 8 1 read-write REGULATION DCDC in Regulation Interrupt Enable 5 1 read-write RUNNING DCDC Running Interrupt Enable 2 1 read-write TMAX Ton_max Timeout Interrupt Enable 6 1 read-write VREGINHIGH VREGIN above threshold Interrupt Enable 4 1 read-write VREGINLOW VREGIN below threshold Interrupt Enable 3 1 read-write WARM DCDC Warmup Time Done Interrupt Enable 1 1 read-write IF Interrupt Flags 0x28 -1 read-write n 0x0 0x0 BYPSW Bypass Switch Enabled 0 1 read-write EM4ERR EM4 Entry Request Error 7 1 read-write PFMXMODE Entered PFMX mode 9 1 read-write PPMODE Entered Pulse Pairing mode 8 1 read-write REGULATION DCDC in regulation 5 1 read-write RUNNING DCDC Running 2 1 read-write TMAX Ton_max Timeout Reached 6 1 read-write VREGINHIGH VREGIN above threshold 4 1 read-write VREGINLOW VREGIN below threshold 3 1 read-write WARM DCDC Warmup Time Done 1 1 read-write IPVERSION IPVERSION 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only LOCK No Description 0x40 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCKKEY 43981 LOCKSTATUS No Description 0x44 -1 read-only n 0x0 0x0 LOCK Lock Status 0 1 read-only UNLOCKED Unlocked State 0 LOCKED LOCKED STATE 1 PFMXCTRL PFMX Control Register 0x20 -1 read-write n 0x0 0x0 IPKTMAXCTRL Ton_max timeout control 8 5 read-write IPKVAL PFMX mode Peak Current Setting 0 4 read-write STATUS DCDC Status Register 0x30 -1 read-only n 0x0 0x0 BYPCMPOUT Bypass Comparator Output 4 1 read-only BYPSW Bypass Switch is currently enabled 0 1 read-only PFMXMODE DCDC in PFMX mode 9 1 read-only PPMODE DCDC in pulse-pairing mode 8 1 read-only RUNNING DCDC is running 2 1 read-only VREGIN VREGIN comparator status 3 1 read-only WARM DCDC Warmup Done 1 1 read-only SYNCBUSY Syncbusy Status Register 0x34 -1 read-only n 0x0 0x0 CTRL CTRL Sync Busy Status 0 1 read-only EM01CTRL0 EM01CTRL0 Sync Busy Status 1 1 read-only EM01CTRL1 EM01CTRL1 Sync Bust Status 2 1 read-only EM23CTRL0 EM23CTRL0 Sync Busy Status 3 1 read-only PFMXCTRL PFMXCTRL Sync Busy Status 7 1 read-only DCDC_S DCDC_S Registers DCDC_S 0x0 0x0 0x1000 registers n CTRL Control 0x4 -1 read-write n 0x0 0x0 IPKTMAXCTRL Ton_max timeout control 4 5 read-write MODE DCDC/Bypass Mode Control 0 1 read-write BYPASS DCDC is OFF, bypass switch is enabled 0 DCDCREGULATION Request DCDC regulation, bypass switch disabled 1 EM01CTRL0 EM01 Configurations 0x8 -1 read-write n 0x0 0x0 DRVSPEED EM01 Drive Speed Setting 8 2 read-write BEST_EMI Lowest Efficiency, Lowest EMI.. Small decrease in efficiency from default setting 0 DEFAULT_SETTING Default Efficiency, Acceptable EMI level 1 INTERMEDIATE Small increase in efficiency from the default setting 2 BEST_EFFICIENCY Highest Efficiency, Highest EMI.. Small increase in efficiency from INTERMEDIATE setting 3 IPKVAL EM01 Peak Current Setting 0 4 read-write Load36mA Ipeak = 90mA, IL = 36mA 3 Load40mA Ipeak = 100mA, IL = 40mA 4 Load44mA Ipeak = 110mA, IL = 44mA 5 Load48mA Ipeak = 120mA, IL = 48mA 6 Load52mA Ipeak = 130mA, IL = 52mA 7 Load56mA Ipeak = 140mA, IL = 56mA 8 Load60mA Ipeak = 150mA, IL = 60mA 9 EM23CTRL0 EM23 Configurations 0x10 -1 read-write n 0x0 0x0 DRVSPEED EM23 Drive Speed Setting 8 2 read-write BEST_EMI Lowest Efficiency, Lowest EMI.. Small decrease in efficiency from default setting 0 DEFAULT_SETTING Default Efficiency, Acceptable EMI level 1 INTERMEDIATE Small increase in efficiency from the default setting 2 BEST_EFFICIENCY Highest Efficiency, Highest EMI.. Small increase in efficiency from INTERMEDIATE setting 3 IPKVAL EM23 Peak Current Setting 0 4 read-write Load36mA Ipeak = 90mA, IL = 36mA 3 Load40mA Ipeak = 100mA, IL = 40mA 4 Load44mA Ipeak = 110mA, IL = 44mA 5 Load48mA Ipeak = 120mA, IL = 48mA 6 Load52mA Ipeak = 130mA, IL = 52mA 7 Load56mA Ipeak = 140mA, IL = 56mA 8 Load60mA Ipeak = 150mA, IL = 60mA 9 IEN Interrupt Enable 0x2C -1 read-write n 0x0 0x0 BYPSW Bypass Switch Enabled Interrupt Enable 0 1 read-write EM4ERR EM4 Entry Req Interrupt Enable 7 1 read-write PFMXMODE PFMX Mode Interrupt Enable 9 1 read-write PPMODE Pulse Pairing Mode Interrupt Enable 8 1 read-write REGULATION DCDC in Regulation Interrupt Enable 5 1 read-write RUNNING DCDC Running Interrupt Enable 2 1 read-write TMAX Ton_max Timeout Interrupt Enable 6 1 read-write VREGINHIGH VREGIN above threshold Interrupt Enable 4 1 read-write VREGINLOW VREGIN below threshold Interrupt Enable 3 1 read-write WARM DCDC Warmup Time Done Interrupt Enable 1 1 read-write IF Interrupt Flags 0x28 -1 read-write n 0x0 0x0 BYPSW Bypass Switch Enabled 0 1 read-write EM4ERR EM4 Entry Request Error 7 1 read-write PFMXMODE Entered PFMX mode 9 1 read-write PPMODE Entered Pulse Pairing mode 8 1 read-write REGULATION DCDC in regulation 5 1 read-write RUNNING DCDC Running 2 1 read-write TMAX Ton_max Timeout Reached 6 1 read-write VREGINHIGH VREGIN above threshold 4 1 read-write VREGINLOW VREGIN below threshold 3 1 read-write WARM DCDC Warmup Time Done 1 1 read-write IPVERSION IPVERSION 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only LOCK No Description 0x40 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCKKEY 43981 LOCKSTATUS No Description 0x44 -1 read-only n 0x0 0x0 LOCK Lock Status 0 1 read-only UNLOCKED Unlocked State 0 LOCKED LOCKED STATE 1 PFMXCTRL PFMX Control Register 0x20 -1 read-write n 0x0 0x0 IPKTMAXCTRL Ton_max timeout control 8 5 read-write IPKVAL PFMX mode Peak Current Setting 0 4 read-write STATUS DCDC Status Register 0x30 -1 read-only n 0x0 0x0 BYPCMPOUT Bypass Comparator Output 4 1 read-only BYPSW Bypass Switch is currently enabled 0 1 read-only PFMXMODE DCDC in PFMX mode 9 1 read-only PPMODE DCDC in pulse-pairing mode 8 1 read-only RUNNING DCDC is running 2 1 read-only VREGIN VREGIN comparator status 3 1 read-only WARM DCDC Warmup Done 1 1 read-only SYNCBUSY Syncbusy Status Register 0x34 -1 read-only n 0x0 0x0 CTRL CTRL Sync Busy Status 0 1 read-only EM01CTRL0 EM01CTRL0 Sync Busy Status 1 1 read-only EM01CTRL1 EM01CTRL1 Sync Bust Status 2 1 read-only EM23CTRL0 EM23CTRL0 Sync Busy Status 3 1 read-only PFMXCTRL PFMXCTRL Sync Busy Status 7 1 read-only DEVINFO DEVINFO Registers DEVINFO 0x0 0x0 0x1000 registers n CALTEMP Calibration Temperature Information 0x50 -1 read-only n 0x0 0x0 TEMP Cal Temp 0 8 read-only CUSTOMINFO Custom information 0x14 -1 read-only n 0x0 0x0 PARTNO Part Number 16 16 read-only EMUTEMP EMU Temperature Sensor Calibration 0x54 -1 read-only n 0x0 0x0 EMUTEMPROOM Emu Room Temperature 2 9 read-only EUI48H MA-L compliant EUI48 OUI (high bits) 0x44 -1 read-only n 0x0 0x0 OUI48H OUI48H 0 16 read-only RESERVED RESERVED 16 16 read-only EUI48L MA-L compliant EUI48 OUI (low bits) and Unique Identifier (24-bit) 0x40 -1 read-only n 0x0 0x0 OUI48L OUI48L 24 8 read-only UNIQUEID Unique ID 0 24 read-only EUI64H MA-L compliant EUI64 OUI and Unique Identifier (high bits) 0x4C -1 read-only n 0x0 0x0 OUI64 OUI64 8 24 read-only UNIQUEH UNIQUEH 0 8 read-only EUI64L MA-L compliant EUI64 Unique Identifier (low bits) 0x48 -1 read-only n 0x0 0x0 UNIQUEL UNIQUEL 0 32 read-only EXTINFO External component description 0x28 -1 read-only n 0x0 0x0 CONNECTION Connection 8 8 read-only SPI SPI control interface 0 NONE No interface 255 REV Revision 16 8 read-only TYPE Type 0 8 read-only NONE 255 HFRCODPLLCAL0 HFRCODPLL Calibration 0x58 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL1 HFRCODPLL Calibration 0x5C -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL10 HFRCODPLL Calibration 0x80 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL11 HFRCODPLL Calibration 0x84 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL12 HFRCODPLL Calibration 0x88 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL13 HFRCODPLL Calibration 0x8C -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL14 HFRCODPLL Calibration 0x90 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL15 HFRCODPLL Calibration 0x94 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL16 HFRCODPLL Calibration 0x98 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL17 HFRCODPLL Calibration 0x9C -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL2 HFRCODPLL Calibration 0x60 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL3 HFRCODPLL Calibration 0x64 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL4 HFRCODPLL Calibration 0x68 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL5 HFRCODPLL Calibration 0x6C -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL6 HFRCODPLL Calibration 0x70 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL7 HFRCODPLL Calibration 0x74 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL8 HFRCODPLL Calibration 0x78 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCODPLLCAL9 HFRCODPLL Calibration 0x7C -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL0 HFRCOEM23 Calibration 0xA0 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL1 HFRCOEM23 Calibration 0xA4 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL10 HFRCOEM23 Calibration 0xC8 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL11 HFRCOEM23 Calibration 0xCC -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL12 HFRCOEM23 Calibration 0xD0 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL13 HFRCOEM23 Calibration 0xD4 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL14 HFRCOEM23 Calibration 0xD8 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL15 HFRCOEM23 Calibration 0xDC -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL16 HFRCOEM23 Calibration 0xE0 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL17 HFRCOEM23 Calibration 0xE4 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL2 HFRCOEM23 Calibration 0xA8 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL3 HFRCOEM23 Calibration 0xAC -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL4 HFRCOEM23 Calibration 0xB0 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL5 HFRCOEM23 Calibration 0xB4 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL6 HFRCOEM23 Calibration 0xB8 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL7 HFRCOEM23 Calibration 0xBC -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL8 HFRCOEM23 Calibration 0xC0 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFRCOEM23CAL9 HFRCOEM23 Calibration 0xC4 -1 read-only n 0x0 0x0 CLKDIV 24 2 read-only CMPBIAS 21 3 read-only CMPSEL 26 2 read-only FINETUNING 8 6 read-only FREQRANGE 16 5 read-only IREFTC 28 4 read-only LDOHP 15 1 read-only TUNING 0 7 read-only HFXOCAL High Frequency Crystal Oscillator Calibration data 0x17C -1 read-only n 0x0 0x0 RESERVED New BitField 8 24 read-only SHUNTBIASANA 0 4 read-only I20UA 0 I30UA 1 I120UA 10 I130UA 11 I140UA 12 I150UA 13 I160UA 14 I170UA 15 I40UA 2 I50UA 3 I60UA 4 I70UA 5 I80UA 6 I90UA 7 I100UA 8 I110UA 9 VTRTRIMANA 4 4 read-only IADC0GAIN0 IADC0 Gain Calibration Info 0x180 -1 read-only n 0x0 0x0 GAINCANA1 0 16 read-only GAINCANA2 16 16 read-only IADC0GAIN1 IADC0 Gain Calibration Info 0x184 -1 read-only n 0x0 0x0 GAINCANA3 0 16 read-only GAINCANA4 16 16 read-only IADC0HISPDOFFSETCAL0 IADC High Speed Offset Calibration Info 0x194 -1 read-only n 0x0 0x0 OFFSETANA1HISPD 0 16 read-only OFFSETANA2HISPD 16 16 read-only IADC0HISPDOFFSETCAL1 IADC High Speed Offset Calibration Info 0x198 -1 read-only n 0x0 0x0 OFFSETANA3HISPD 0 16 read-only IADC0NORMALOFFSETCAL0 IADC0 Normal Offset Calibration Info 0x18C -1 read-only n 0x0 0x0 OFFSETANA1NORM 0 16 read-only OFFSETANA2NORM 16 16 read-only IADC0NORMALOFFSETCAL1 IADC0 Normal Offset Calibration Info 0x190 -1 read-only n 0x0 0x0 OFFSETANA3NORM 0 16 read-only IADC0OFFSETCAL0 IADC0 Offset Calibration Info 0x188 -1 read-only n 0x0 0x0 OFFSETANA1HIACC 16 16 read-only OFFSETANABASE 0 16 read-only INFO Version of the device info structure being used 0x0 -1 read-only n 0x0 0x0 CRC CRC 0 16 read-only DEVINFOREV DI Page Version 24 8 read-only PRODREV Production Revision 16 8 read-only LEGACY This is the legacy device detection information for tools compatability 0x1FC -1 read-only n 0x0 0x0 DEVICEFAMILY Device Family 16 8 read-only EFM32GG11B EFM32 Giant Gecko Device Family Series 1 Device Config 1 100 EFM32TG11B EFM32 Giant Gecko Device Family Series 1 Device Config 1 103 EZR32LG EZR32 Leopard Gecko Device Family 120 EZR32WG EZR32 Wonder Gecko Device Family 121 EZR32HG EZR32 Happy Gecko Device Family 122 SERIES2V0 DI page is encoded with the series 2 layout. Check alternate location. 128 EFR32MG1P EFR32 Mighty Gecko Family Series 1 Device Config 1 16 EFR32MG1B EFR32 Mighty Gecko Family Series 1 Device Config 1 17 EFR32MG1V EFR32 Mighty Gecko Family Series 1 Device Config 1 18 EFR32BG1P EFR32 Blue Gecko Family Series 1 Device Config 1 19 EFR32BG1B EFR32 Blue Gecko Family Series 1 Device Config 1 20 EFR32BG1V EFR32 Blue Gecko Family Series 1 Device Config 1 21 EFR32FG1P EFR32 Flex Gecko Family Series 1 Device Config 1 25 EFR32FG1B EFR32 Flex Gecko Family Series 1 Device Config 1 26 EFR32FG1V EFR32 Flex Gecko Family Series 1 Device Config 1 27 EFR32MG12P EFR32 Mighty Gecko Family Series 1 Device Config 2 28 EFR32MG12B EFR32 Mighty Gecko Family Series 1 Device Config 2 29 EFR32MG12V EFR32 Mighty Gecko Family Series 1 Device Config 2 30 EFR32BG12P EFR32 Blue Gecko Family Series 1 Device Config 2 31 EFR32BG12B EFR32 Blue Gecko Family Series 1 Device Config 2 32 EFR32BG12V EFR32 Blue Gecko Family Series 1 Device Config 2 33 EFR32FG12P EFR32 Flex Gecko Family Series 1 Device Config 2 37 EFR32FG12B EFR32 Flex Gecko Family Series 1 Device Config 2 38 EFR32FG12V EFR32 Flex Gecko Family Series 1 Device Config 2 39 EFR32MG13P EFR32 Mighty Gecko Family Series 13 Device Config 3 40 EFR32MG13B EFR32 Mighty Gecko Family Series 13 Device Config 3 41 EFR32MG13V EFR32 Mighty Gecko Family Series 1 Device Config 3 42 EFR32BG13P EFR32 Blue Gecko Family Series 1 Device Config 3 43 EFR32BG13B EFR32 Blue Gecko Family Series 1 Device Config 3 44 EFR32BG13V EFR32 Blue Gecko Family Series 1 Device Config 3 45 EFR32FG13P EFR32 Flex Gecko Family Series 1 Device Config 3 49 EFR32FG13B EFR32 Flex Gecko Family Series 1 Device Config 3 50 EFR32FG13V EFR32 Flex Gecko Family Series 1 Device Config 3 51 EFR32MG14P EFR32 Mighty Gecko Family Series 1 Device Config 4 52 EFR32MG14B EFR32 Mighty Gecko Family Series 1 Device Config 4 53 EFR32MG14V EFR32 Mighty Gecko Family Series 1 Device Config 4 54 EFR32BG14P EFR32 Blue Gecko Family Series 1 Device Config 4 55 EFR32BG14B EFR32 Blue Gecko Family Series 1 Device Config 4 56 EFR32BG14V EFR32 Blue Gecko Family Series 1 Device Config 4 57 EFR32FG14P EFR32 Flex Gecko Family Series 1 Device Config 4 61 EFR32FG14B EFR32 Flex Gecko Family Series 1 Device Config 4 62 EFR32FG14V EFR32 Flex Gecko Family Series 1 Device Config 4 63 EFM32G EFM32 Gecko Device Family 71 EFM32GG EFM32 Giant Gecko Device Family 72 EFM32TG EFM32 Tiny Gecko Device Family 73 EFM32LG EFM32 Leopard Gecko Device Family 74 EFM32WG EFM32 Wonder Gecko Device Family 75 EFM32ZG EFM32 Zero Gecko Device Family 76 EFM32HG EFM32 Happy Gecko Device Family 77 EFM32PG1B EFM32 Pearl Gecko Device Family Series 1 Device Config 1 81 EFM32JG1B EFM32 Jade Gecko Device Family Series 1 Device Config 1 83 EFM32PG12B EFM32 Pearl Gecko Device Family Series 1 Device Config 2 85 EFM32JG12B EFM32 Jade Gecko Device Family Series 1 Device Config 2 87 EFM32PG13B EFM32 Pearl Gecko Device Family Series 1 Device Config 3 89 EFM32JG13B EFM32 Jade Gecko Device Family Series 1 Device Config 3 91 MEMINFO Flash page size and misc. chip information 0x8 -1 read-only n 0x0 0x0 DILEN Length of DI Page 16 16 read-only FLASHPAGESIZE Flash Page Size 0 8 read-only UDPAGESIZE User Data Page Size 8 8 read-only MODULEINFO Module Information 0x14C -1 read-only n 0x0 0x0 ANTENNA 5 3 read-only BUILTIN BUILTIN 0 CONNECTOR 1 RFPAD 2 INVERTEDF 3 EXPRESS 17 1 read-only SUPPORTED 0 NONE 1 EXTVALID 31 1 read-only EXTUSED 0 EXTUNUSED 1 HFXOCALVAL 19 1 read-only VALID 0 NOTVALID 1 HWREV 0 5 read-only LFXO 16 1 read-only NONE 0 PRESENT 1 LFXOCALVAL 18 1 read-only VALID 0 NOTVALID 1 MODNUMBER 8 7 read-only MODNUMBERMSB 20 9 read-only PADCDC 29 1 read-only VDCDC 0 OTHER 1 PHYLIMITED 30 1 read-only LIMITED 0 UNLIMITED 1 TYPE 15 1 read-only PCB 0 SIP 1 MODULENAME0 Characters 1-4 of Module Name stored as a null terminated string 0x130 -1 read-only n 0x0 0x0 MODCHAR1 0 8 read-only MODCHAR2 8 8 read-only MODCHAR3 16 8 read-only MODCHAR4 24 8 read-only MODULENAME1 Characters 5-8 of Module Name stored as a null terminated string 0x134 -1 read-only n 0x0 0x0 MODCHAR5 0 8 read-only MODCHAR6 8 8 read-only MODCHAR7 16 8 read-only MODCHAR8 24 8 read-only MODULENAME2 Characters 9-12 of Module Name stored as a null terminated string 0x138 -1 read-only n 0x0 0x0 MODCHAR10 8 8 read-only MODCHAR11 16 8 read-only MODCHAR12 24 8 read-only MODCHAR9 0 8 read-only MODULENAME3 Characters 13-16 of Module Name stored as a null terminated string 0x13C -1 read-only n 0x0 0x0 MODCHAR13 0 8 read-only MODCHAR14 8 8 read-only MODCHAR15 16 8 read-only MODCHAR16 24 8 read-only MODULENAME4 Characters 17-20 of Module Name stored as a null terminated string 0x140 -1 read-only n 0x0 0x0 MODCHAR17 0 8 read-only MODCHAR18 8 8 read-only MODCHAR19 16 8 read-only MODCHAR20 24 8 read-only MODULENAME5 Characters 21-24 of Module Name stored as a null terminated string 0x144 -1 read-only n 0x0 0x0 MODCHAR21 0 8 read-only MODCHAR22 8 8 read-only MODCHAR23 16 8 read-only MODCHAR24 24 8 read-only MODULENAME6 Characters 25-26 of Module Name stored as a null terminated string 0x148 -1 read-only n 0x0 0x0 MODCHAR25 0 8 read-only MODCHAR26 8 8 read-only RSV 16 16 read-only MODXOCAL Module Crystal Oscillator Calibration 0x150 -1 read-only n 0x0 0x0 HFXOCTUNEXIANA 0 8 read-only HFXOCTUNEXOANA 8 8 read-only LFXOCAPTUNE 16 7 read-only MSIZE Flash and SRAM Memory size in kB 0xC -1 read-only n 0x0 0x0 FLASH Flash Size 0 16 read-only SRAM Sram Size 16 11 read-only PART Part description 0x4 -1 read-only n 0x0 0x0 DEVICENUM Device Number 0 16 read-only FAMILY Device Family 24 6 read-only FG Flex Gecko 0 ZG Z-Wave Gecko 3 PG Pearl Gecko 5 FAMILYNUM Device Family 16 6 read-only PKGINFO Miscellaneous device information 0x10 -1 read-only n 0x0 0x0 PINCOUNT Pin Count 16 8 read-only PKGTYPE Package Type 8 8 read-only WLCSP WLCSP package 74 BGA BGA package 76 QFN QFN package 77 QFP QFP package 81 TEMPGRADE Temperature Grade 0 8 read-only N40TO85 -40 to 85 degC 0 N40TO125 -40 to 125 degC 1 N40TO105 -40 to 105 degC 2 N0TO70 0 to 70 degC 3 RTHERM RTHERM 0x25C -1 read-only n 0x0 0x0 RTHERM 0 16 read-only SWCAPA0 Software Capability Vector 0 0x1C -1 read-only n 0x0 0x0 BTSMART Bluetooth Smart Capability 12 2 read-only LEVEL0 Bluetooth SMART stack capability not available 0 LEVEL1 Bluetooth SMART enabled 1 LEVEL2 N/A 2 LEVEL3 N/A 3 CONNECT Connect Capability 16 2 read-only LEVEL0 Connect stack capability not available 0 LEVEL1 Connect enabled 1 LEVEL2 N/A 2 LEVEL3 N/A 3 RF4CE RF4CE Capability 8 2 read-only LEVEL0 Thread stack capability not available 0 LEVEL1 Thread stack enabled 1 LEVEL2 N/A 2 LEVEL3 N/A 3 SRI RAIL Capability 20 2 read-only LEVEL0 RAIL capability not available 0 LEVEL1 RAIL enabled 1 LEVEL2 N/A 2 LEVEL3 N/A 3 THREAD Thread Capability 4 2 read-only LEVEL0 RF4CE stack capability not available 0 LEVEL1 RF4CE stack enabled 1 LEVEL2 N/A 2 LEVEL3 N/A 3 ZIGBEE Zigbee Capability 0 2 read-only LEVEL0 ZigBee stack capability not available 0 LEVEL1 GreenPower only 1 LEVEL2 ZigBee and GreenPower 2 LEVEL3 ZigBee Only 3 ZWAVE Z-Wave Capability 24 3 read-only LEVEL0 Z-Wave stack capability not available 0 LEVEL1 Z-Wave Gateway 1 LEVEL2 Z-Wave End Device 2 LEVEL3 Z-Wave Sensor 3 LEVEL4 Z-Wave Lighting 4 SWCAPA1 Software Capability Vector 1 0x20 -1 read-only n 0x0 0x0 GWEN Gateway 2 1 read-only NCPEN NCP 1 1 read-only RFMCUEN RF-MCU 0 1 read-only XOUT XOUT 3 1 read-only SWFIX Used to track s/w workaround info 0x18 -1 read-only n 0x0 0x0 RSV Reserved 0 32 read-only DMEM_NS DMEM_NS Registers DMEM_NS 0x0 0x0 0x1000 registers n CMD No Description 0x4 -1 write-only n 0x0 0x0 CLEARECCADDR0 Clear ECCERRADDR0 0 1 write-only CLEARECCADDR1 Clear ECCERRADDR1 1 1 write-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 ADDRFAULTEN Address fault bus fault enable 6 1 read-write AHBPORTPRIORITY AHB port arbitration priority 3 3 read-write NONE No AHB port have raised priority. 0 PORT0 AHB port 0 has raised priority. 1 PORT1 AHB port 1 has raised priority. 2 ECCEN Enable ECC functionality 0 1 read-write ECCERRFAULTEN ECC Error bus fault enable 2 1 read-write ECCWEN Enable ECC syndrome writes 1 1 read-write ECCERRADDR0 No Description 0xC -1 read-only n 0x0 0x0 ADDR ECC Error Address 0 32 read-only ECCERRADDR1 No Description 0x10 -1 read-only n 0x0 0x0 ADDR ECC Error Address 0 32 read-only ECCMERRIND No Description 0x1C -1 read-only n 0x0 0x0 P0 Multiple ECC errors on AHB port 0 0 1 read-only P1 Multiple ECC errors on AHB port 1 1 1 read-only IEN No Description 0x24 -1 read-write n 0x0 0x0 AHB0ERR1B AHB0 1-bit ECC Error Interrupt Enable 0 1 read-write AHB0ERR2B AHB0 2-bit ECC Error Interrupt Enable 4 1 read-write AHB1ERR1B AHB1 1-bit ECC Error Interrupt Enable 1 1 read-write AHB1ERR2B AHB1 2-bit ECC Error Interrupt Enable 5 1 read-write IF No Description 0x20 -1 read-write n 0x0 0x0 AHB0ERR1B AHB0 1-bit ECC Error Interrupt Flag 0 1 read-write AHB0ERR2B AHB0 2-bit ECC Error Interrupt Flag 4 1 read-write AHB1ERR1B AHB1 1-bit ECC Error Interrupt Flag 1 1 read-write AHB1ERR2B AHB1 2-bit ECC Error Interrupt Flag 5 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION New BitField 0 1 read-only DMEM_S DMEM_S Registers DMEM_S 0x0 0x0 0x1000 registers n CMD No Description 0x4 -1 write-only n 0x0 0x0 CLEARECCADDR0 Clear ECCERRADDR0 0 1 write-only CLEARECCADDR1 Clear ECCERRADDR1 1 1 write-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 ADDRFAULTEN Address fault bus fault enable 6 1 read-write AHBPORTPRIORITY AHB port arbitration priority 3 3 read-write NONE No AHB port have raised priority. 0 PORT0 AHB port 0 has raised priority. 1 PORT1 AHB port 1 has raised priority. 2 ECCEN Enable ECC functionality 0 1 read-write ECCERRFAULTEN ECC Error bus fault enable 2 1 read-write ECCWEN Enable ECC syndrome writes 1 1 read-write ECCERRADDR0 No Description 0xC -1 read-only n 0x0 0x0 ADDR ECC Error Address 0 32 read-only ECCERRADDR1 No Description 0x10 -1 read-only n 0x0 0x0 ADDR ECC Error Address 0 32 read-only ECCMERRIND No Description 0x1C -1 read-only n 0x0 0x0 P0 Multiple ECC errors on AHB port 0 0 1 read-only P1 Multiple ECC errors on AHB port 1 1 1 read-only IEN No Description 0x24 -1 read-write n 0x0 0x0 AHB0ERR1B AHB0 1-bit ECC Error Interrupt Enable 0 1 read-write AHB0ERR2B AHB0 2-bit ECC Error Interrupt Enable 4 1 read-write AHB1ERR1B AHB1 1-bit ECC Error Interrupt Enable 1 1 read-write AHB1ERR2B AHB1 2-bit ECC Error Interrupt Enable 5 1 read-write IF No Description 0x20 -1 read-write n 0x0 0x0 AHB0ERR1B AHB0 1-bit ECC Error Interrupt Flag 0 1 read-write AHB0ERR2B AHB0 2-bit ECC Error Interrupt Flag 4 1 read-write AHB1ERR1B AHB1 1-bit ECC Error Interrupt Flag 1 1 read-write AHB1ERR2B AHB1 2-bit ECC Error Interrupt Flag 5 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION New BitField 0 1 read-only DPLL0_NS DPLL0_NS Registers DPLL0_NS 0x0 0x0 0x1000 registers n DPLL0 52 CFG No Description 0x8 -1 read-write n 0x0 0x0 AUTORECOVER Automatic Recovery Control 2 1 read-write DITHEN Dither Enable Control 6 1 read-write EDGESEL Reference Edge Select 1 1 read-write MODE Operating Mode Control 0 1 read-write FLL Frequency Lock Mode 0 PLL Phase Lock Mode 1 CFG1 No Description 0xC -1 read-write n 0x0 0x0 M Factor M 0 12 read-write N Factor N 16 12 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement Busy Status 1 1 read-only EN Module Enable 0 1 read-write IEN No Description 0x14 -1 read-write n 0x0 0x0 LOCK LOCK interrupt Enable 0 1 read-write LOCKFAILHIGH LOCKFAILHIGH Interrupt Enable 2 1 read-write LOCKFAILLOW LOCKFAILLOW Interrupe Enable 1 1 read-write IF No Description 0x10 -1 read-write n 0x0 0x0 LOCK Lock Interrupt Flag 0 1 read-write LOCKFAILHIGH Lock Failure High Interrupt Flag 2 1 read-write LOCKFAILLOW Lock Failure Low Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x24 -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only UNLOCK Unlock code 28930 STATUS No Description 0x18 -1 read-only n 0x0 0x0 ENS Enable Status 1 1 read-only LOCK Lock Status 31 1 read-only UNLOCKED DPLL is unlocked 0 LOCKED DPLL is locked 1 RDY Ready Status 0 1 read-only DPLL0_S DPLL0_S Registers DPLL0_S 0x0 0x0 0x1000 registers n DPLL0 52 CFG No Description 0x8 -1 read-write n 0x0 0x0 AUTORECOVER Automatic Recovery Control 2 1 read-write DITHEN Dither Enable Control 6 1 read-write EDGESEL Reference Edge Select 1 1 read-write MODE Operating Mode Control 0 1 read-write FLL Frequency Lock Mode 0 PLL Phase Lock Mode 1 CFG1 No Description 0xC -1 read-write n 0x0 0x0 M Factor M 0 12 read-write N Factor N 16 12 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement Busy Status 1 1 read-only EN Module Enable 0 1 read-write IEN No Description 0x14 -1 read-write n 0x0 0x0 LOCK LOCK interrupt Enable 0 1 read-write LOCKFAILHIGH LOCKFAILHIGH Interrupt Enable 2 1 read-write LOCKFAILLOW LOCKFAILLOW Interrupe Enable 1 1 read-write IF No Description 0x10 -1 read-write n 0x0 0x0 LOCK Lock Interrupt Flag 0 1 read-write LOCKFAILHIGH Lock Failure High Interrupt Flag 2 1 read-write LOCKFAILLOW Lock Failure Low Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x24 -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only UNLOCK Unlock code 28930 STATUS No Description 0x18 -1 read-only n 0x0 0x0 ENS Enable Status 1 1 read-only LOCK Lock Status 31 1 read-only UNLOCKED DPLL is unlocked 0 LOCKED DPLL is locked 1 RDY Ready Status 0 1 read-only EMU_NS EMU_NS Registers EMU_NS 0x0 0x0 0x1000 registers n EMU 3 EMUDG 30 BOD3SENSE No Description 0x20 -1 read-write n 0x0 0x0 AVDDBODEN AVDD BOD enable 0 1 read-write VDDIO0BODEN VDDIO0 BOD enable 1 1 read-write VDDIO1BODEN VDDIO1 BOD enable 2 1 read-write CMD No Description 0x70 -1 write-only n 0x0 0x0 EM01VSCALE1 Scale voltage to Vscale1 10 1 write-only EM01VSCALE2 Scale voltage to Vscale2 11 1 write-only EM4UNLATCH EM4 unlatch 1 1 write-only RSTCAUSECLR Reset Cause Clear 17 1 write-only TEMPAVGREQ Temperature Average Request 4 1 write-only CTRL No Description 0x74 -1 read-write n 0x0 0x0 EFPDIRECTMODEEN EFP Direct Mode Enable 29 1 read-write EFPDRVDECOUPLE EFP drives DECOUPLE 30 1 read-write EFPDRVDVDD EFP drives DVDD 31 1 read-write EM23VSCALE EM2/EM3 Vscale 8 2 read-write VSCALE0 VSCALE0. 0.9v 0 VSCALE1 VSCALE1. 1.0v 1 VSCALE2 VSCALE2. 1.1v 2 EM2DBGEN Enable debugging in EM2 0 1 read-write FLASHPWRUPONDEMAND Enable flash on demand wakeup 16 1 read-write TEMPAVGNUM Averaged Temperature samples num 3 1 read-write N16 16 measurements 0 N64 64 measurements 1 DECBOD No Description 0x10 -1 read-write n 0x0 0x0 DECBODEN DECBOD enable 0 1 read-write DECBODMASK DECBOD Mask 1 1 read-write DECOVMBODEN Over Voltage Monitor enable 4 1 read-write DECOVMBODMASK Over Voltage Monitor Mask 5 1 read-write DGIEN No Description 0xA4 -1 read-write n 0x0 0x0 EM23WAKEUPDGIEN EM23 Wake up Interrupt enable 24 1 read-write TEMPDGIEN Temperature Interrupt enable 29 1 read-write TEMPHIGHDGIEN Temperature high Interrupt enable 31 1 read-write TEMPLOWDGIEN Temperature low Interrupt enable 30 1 read-write DGIF No Description 0xA0 -1 read-write n 0x0 0x0 EM23WAKEUPDGIF EM23 Wake up Interrupt flag 24 1 read-write TEMPDGIF Temperature Interrupt flag 29 1 read-write TEMPHIGHDGIF Temperature high Interrupt flag 31 1 read-write TEMPLOWDGIF Temperature low Interrupt flag 30 1 read-write EFPIEN No Description 0x104 -1 read-write n 0x0 0x0 EFPIEN EFP Interrupt enable 0 1 read-write EFPIF No Description 0x100 -1 read-write n 0x0 0x0 EFPIF EFP Interrupt Flag 0 1 read-write EM4CTRL No Description 0x6C -1 read-write n 0x0 0x0 BOD3SENSEEM4WU Set BOD3SENSE as EM4 wakeup 8 1 read-write EM4ENTRY EM4 entry request 0 2 read-write EM4IORETMODE EM4 IO retention mode 4 2 read-write DISABLE No Retention: Pads enter reset state when entering EM4 0 EM4EXIT Retention through EM4: Pads enter reset state when exiting EM4 1 SWUNLATCH Retention through EM4 and Wakeup: software writes UNLATCH register to remove retention 2 IEN No Description 0x68 -1 read-write n 0x0 0x0 AVDDBOD AVDD BOD Interrupt enable 16 1 read-write EM23WAKEUP EM23 Wake up Interrupt enable 24 1 read-write IOVDD0BOD VDDIO0 BOD Interrupt enable 17 1 read-write TEMP Temperature Interrupt enable 29 1 read-write TEMPAVG Temperature Interrupt enable 27 1 read-write TEMPHIGH Temperature high Interrupt enable 31 1 read-write TEMPLOW Temperature low Interrupt enable 30 1 read-write VSCALEDONE Vscale done Interrupt enable 25 1 read-write IF No Description 0x64 -1 read-write n 0x0 0x0 AVDDBOD AVDD BOD Interrupt flag 16 1 read-write EM23WAKEUP EM23 Wake up Interrupt flag 24 1 read-write IOVDD0BOD VDDIO0 BOD Interrupt flag 17 1 read-write TEMP Temperature Interrupt flag 29 1 read-write TEMPAVG Temperature Average Interrupt flag 27 1 read-write TEMPHIGH Temperature high Interrupt flag 31 1 read-write TEMPLOW Temperature low Interrupt flag 30 1 read-write VSCALEDONE Vscale done Interrupt flag 25 1 read-write IPVERSION IP Version 0x5C -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x60 -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only UNLOCK Unlock EMU register 44520 PD1PARETCTRL No Description 0x40 -1 read-write n 0x0 0x0 PD1PARETDIS Disable PD1 Partial Retention 0 16 read-write PERIPHNORETAIN Retain associated registers when in EM2/3 1 RADIONORETAIN Bit[1]. When set, do not retain RADIO associated registers when in EM2/3 2 RSTCAUSE No Description 0x94 -1 read-only n 0x0 0x0 AVDDBOD LEBOD1 Reset 10 1 read-only DECBOD LVBOD Reset 9 1 read-only DVDDBOD HVBOD Reset 7 1 read-only DVDDLEBOD LEBOD Reset 8 1 read-only EM4 EM4 Wakeup Reset 2 1 read-only IOVDD0BOD LEBOD2 Reset 11 1 read-only LOCKUP M33 Core Lockup Reset 5 1 read-only PIN Pin Reset 1 1 read-only POR Power On Reset 0 1 read-only SYSREQ M33 Core Sys Reset 6 1 read-only VREGIN DCDC VREGIN comparator 31 1 read-only WDOG0 Watchdog 0 Reset 3 1 read-only WDOG1 Watchdog 1 Reset 4 1 read-only RSTCTRL No Description 0x90 -1 read-write n 0x0 0x0 AVDDBODRMODE Enable AVDD BOD reset 6 1 read-write DISABLED Reset Request is block 0 ENABLED The entire device is reset except some EMU registers 1 DECBODRMODE Enable DECBOD reset 10 1 read-write DISABLED Reset request is blocked 0 ENABLED The entire device is reset 1 IOVDD0BODRMODE Enable VDDIO0 BOD reset 7 1 read-write DISABLED Reset request is blocked 0 ENABLED The entire device is reset except some EMU registers 1 LOCKUPRMODE Enable M33 Lockup reset 3 1 read-write DISABLED Reset Request is Block 0 ENABLED The entire device is reset except some EMU registers 1 SYSRMODE Enable M33 System reset 2 1 read-write DISABLED Reset request is blocked 0 ENABLED Device is reset except some EMU registers 1 WDOG0RMODE Enable WDOG0 reset 0 1 read-write DISABLED Reset request is blocked 0 ENABLED The entire device is reset except some EMU registers 1 STATUS No Description 0x84 -1 read-only n 0x0 0x0 EM2ENTERED EM2 entered 14 1 read-only EM4IORET EM4 IO retention status 12 1 read-only FIRSTTEMPDONE First Temp done 1 1 read-only LOCK Lock status 0 1 read-only UNLOCKED All EMU lockable registers are unlocked. 0 LOCKED All EMU lockable registers are locked. 1 TEMPACTIVE Temp active 2 1 read-only TEMPAVGACTIVE Temp Average active 3 1 read-only VSCALE Vscale status 6 2 read-only VSCALE0 Voltage scaling set to 0.9v 0 VSCALE1 Voltage scaling set to 1.0v 1 VSCALE2 Voltage scaling set to 1.1v 2 VSCALEBUSY Vscale busy 4 1 read-only VSCALEFAILED Vscale failed 5 1 read-only TEMP No Description 0x88 -1 read-only n 0x0 0x0 TEMP Temperature measured 2 9 read-only TEMPAVG Averaged Temperature 16 11 read-only TEMPLSB Temperature measured decimal part 0 2 read-only TEMPLIMITS No Description 0x78 -1 read-write n 0x0 0x0 TEMPHIGH Temp High limit 16 9 read-write TEMPLOW Temp Low limit 0 9 read-write VREGVDDCMPCTRL No Description 0x3C -1 read-write n 0x0 0x0 THRESSEL VREGVDD comparator threshold programming 1 2 read-write VREGINCMPEN VREGVDD comparator enable 0 1 read-write EMU_S EMU_S Registers EMU_S 0x0 0x0 0x1000 registers n EMU 3 EMUDG 30 BOD3SENSE No Description 0x20 -1 read-write n 0x0 0x0 AVDDBODEN AVDD BOD enable 0 1 read-write VDDIO0BODEN VDDIO0 BOD enable 1 1 read-write VDDIO1BODEN VDDIO1 BOD enable 2 1 read-write CMD No Description 0x70 -1 write-only n 0x0 0x0 EM01VSCALE1 Scale voltage to Vscale1 10 1 write-only EM01VSCALE2 Scale voltage to Vscale2 11 1 write-only EM4UNLATCH EM4 unlatch 1 1 write-only RSTCAUSECLR Reset Cause Clear 17 1 write-only TEMPAVGREQ Temperature Average Request 4 1 write-only CTRL No Description 0x74 -1 read-write n 0x0 0x0 EFPDIRECTMODEEN EFP Direct Mode Enable 29 1 read-write EFPDRVDECOUPLE EFP drives DECOUPLE 30 1 read-write EFPDRVDVDD EFP drives DVDD 31 1 read-write EM23VSCALE EM2/EM3 Vscale 8 2 read-write VSCALE0 VSCALE0. 0.9v 0 VSCALE1 VSCALE1. 1.0v 1 VSCALE2 VSCALE2. 1.1v 2 EM2DBGEN Enable debugging in EM2 0 1 read-write FLASHPWRUPONDEMAND Enable flash on demand wakeup 16 1 read-write TEMPAVGNUM Averaged Temperature samples num 3 1 read-write N16 16 measurements 0 N64 64 measurements 1 DECBOD No Description 0x10 -1 read-write n 0x0 0x0 DECBODEN DECBOD enable 0 1 read-write DECBODMASK DECBOD Mask 1 1 read-write DECOVMBODEN Over Voltage Monitor enable 4 1 read-write DECOVMBODMASK Over Voltage Monitor Mask 5 1 read-write DGIEN No Description 0xA4 -1 read-write n 0x0 0x0 EM23WAKEUPDGIEN EM23 Wake up Interrupt enable 24 1 read-write TEMPDGIEN Temperature Interrupt enable 29 1 read-write TEMPHIGHDGIEN Temperature high Interrupt enable 31 1 read-write TEMPLOWDGIEN Temperature low Interrupt enable 30 1 read-write DGIF No Description 0xA0 -1 read-write n 0x0 0x0 EM23WAKEUPDGIF EM23 Wake up Interrupt flag 24 1 read-write TEMPDGIF Temperature Interrupt flag 29 1 read-write TEMPHIGHDGIF Temperature high Interrupt flag 31 1 read-write TEMPLOWDGIF Temperature low Interrupt flag 30 1 read-write EFPIEN No Description 0x104 -1 read-write n 0x0 0x0 EFPIEN EFP Interrupt enable 0 1 read-write EFPIF No Description 0x100 -1 read-write n 0x0 0x0 EFPIF EFP Interrupt Flag 0 1 read-write EM4CTRL No Description 0x6C -1 read-write n 0x0 0x0 BOD3SENSEEM4WU Set BOD3SENSE as EM4 wakeup 8 1 read-write EM4ENTRY EM4 entry request 0 2 read-write EM4IORETMODE EM4 IO retention mode 4 2 read-write DISABLE No Retention: Pads enter reset state when entering EM4 0 EM4EXIT Retention through EM4: Pads enter reset state when exiting EM4 1 SWUNLATCH Retention through EM4 and Wakeup: software writes UNLATCH register to remove retention 2 IEN No Description 0x68 -1 read-write n 0x0 0x0 AVDDBOD AVDD BOD Interrupt enable 16 1 read-write EM23WAKEUP EM23 Wake up Interrupt enable 24 1 read-write IOVDD0BOD VDDIO0 BOD Interrupt enable 17 1 read-write TEMP Temperature Interrupt enable 29 1 read-write TEMPAVG Temperature Interrupt enable 27 1 read-write TEMPHIGH Temperature high Interrupt enable 31 1 read-write TEMPLOW Temperature low Interrupt enable 30 1 read-write VSCALEDONE Vscale done Interrupt enable 25 1 read-write IF No Description 0x64 -1 read-write n 0x0 0x0 AVDDBOD AVDD BOD Interrupt flag 16 1 read-write EM23WAKEUP EM23 Wake up Interrupt flag 24 1 read-write IOVDD0BOD VDDIO0 BOD Interrupt flag 17 1 read-write TEMP Temperature Interrupt flag 29 1 read-write TEMPAVG Temperature Average Interrupt flag 27 1 read-write TEMPHIGH Temperature high Interrupt flag 31 1 read-write TEMPLOW Temperature low Interrupt flag 30 1 read-write VSCALEDONE Vscale done Interrupt flag 25 1 read-write IPVERSION IP Version 0x5C -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x60 -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only UNLOCK Unlock EMU register 44520 PD1PARETCTRL No Description 0x40 -1 read-write n 0x0 0x0 PD1PARETDIS Disable PD1 Partial Retention 0 16 read-write PERIPHNORETAIN Retain associated registers when in EM2/3 1 RADIONORETAIN Bit[1]. When set, do not retain RADIO associated registers when in EM2/3 2 RSTCAUSE No Description 0x94 -1 read-only n 0x0 0x0 AVDDBOD LEBOD1 Reset 10 1 read-only DECBOD LVBOD Reset 9 1 read-only DVDDBOD HVBOD Reset 7 1 read-only DVDDLEBOD LEBOD Reset 8 1 read-only EM4 EM4 Wakeup Reset 2 1 read-only IOVDD0BOD LEBOD2 Reset 11 1 read-only LOCKUP M33 Core Lockup Reset 5 1 read-only PIN Pin Reset 1 1 read-only POR Power On Reset 0 1 read-only SYSREQ M33 Core Sys Reset 6 1 read-only VREGIN DCDC VREGIN comparator 31 1 read-only WDOG0 Watchdog 0 Reset 3 1 read-only WDOG1 Watchdog 1 Reset 4 1 read-only RSTCTRL No Description 0x90 -1 read-write n 0x0 0x0 AVDDBODRMODE Enable AVDD BOD reset 6 1 read-write DISABLED Reset Request is block 0 ENABLED The entire device is reset except some EMU registers 1 DECBODRMODE Enable DECBOD reset 10 1 read-write DISABLED Reset request is blocked 0 ENABLED The entire device is reset 1 IOVDD0BODRMODE Enable VDDIO0 BOD reset 7 1 read-write DISABLED Reset request is blocked 0 ENABLED The entire device is reset except some EMU registers 1 LOCKUPRMODE Enable M33 Lockup reset 3 1 read-write DISABLED Reset Request is Block 0 ENABLED The entire device is reset except some EMU registers 1 SYSRMODE Enable M33 System reset 2 1 read-write DISABLED Reset request is blocked 0 ENABLED Device is reset except some EMU registers 1 WDOG0RMODE Enable WDOG0 reset 0 1 read-write DISABLED Reset request is blocked 0 ENABLED The entire device is reset except some EMU registers 1 STATUS No Description 0x84 -1 read-only n 0x0 0x0 EM2ENTERED EM2 entered 14 1 read-only EM4IORET EM4 IO retention status 12 1 read-only FIRSTTEMPDONE First Temp done 1 1 read-only LOCK Lock status 0 1 read-only UNLOCKED All EMU lockable registers are unlocked. 0 LOCKED All EMU lockable registers are locked. 1 TEMPACTIVE Temp active 2 1 read-only TEMPAVGACTIVE Temp Average active 3 1 read-only VSCALE Vscale status 6 2 read-only VSCALE0 Voltage scaling set to 0.9v 0 VSCALE1 Voltage scaling set to 1.0v 1 VSCALE2 Voltage scaling set to 1.1v 2 VSCALEBUSY Vscale busy 4 1 read-only VSCALEFAILED Vscale failed 5 1 read-only TEMP No Description 0x88 -1 read-only n 0x0 0x0 TEMP Temperature measured 2 9 read-only TEMPAVG Averaged Temperature 16 11 read-only TEMPLSB Temperature measured decimal part 0 2 read-only TEMPLIMITS No Description 0x78 -1 read-write n 0x0 0x0 TEMPHIGH Temp High limit 16 9 read-write TEMPLOW Temp Low limit 0 9 read-write VREGVDDCMPCTRL No Description 0x3C -1 read-write n 0x0 0x0 THRESSEL VREGVDD comparator threshold programming 1 2 read-write VREGINCMPEN VREGVDD comparator enable 0 1 read-write EUSART0_NS EUSART0_NS Registers EUSART0_NS 0x0 0x0 0x1000 registers n EUSART0_RX 11 EUSART0_TX 12 CFG0 No Description 0x8 -1 read-write n 0x0 0x0 AUTOBAUDEN AUTOBAUD detection enable 31 1 read-write AUTOTRI Automatic TX Tristate 17 1 read-write DISABLE The output on UARTn_TX when the transmitter is idle is defined by TXINV 0 ENABLE UARTn_TX is tristated whenever the transmitter is idle 1 CCEN Collision Check Enable 2 1 read-write DISABLE Collision check is disabled 0 ENABLE Collision check is enabled. The receiver must be enabled for the check to be performed 1 ERRSDMA Halt DMA Read On Error 22 1 read-write DISABLE Framing and parity errors have no effect on DMA requests from the EUSART 0 ENABLE DMA requests from the EUSART are blocked while the PERR or FERR interrupt flags are set 1 ERRSRX Disable RX On Error 23 1 read-write DISABLE Framing and parity errors have no effect on receiver 0 ENABLE Framing and parity errors disable the receiver 1 ERRSTX Disable TX On Error 24 1 read-write DISABLE Received framing and parity errors have no effect on transmitter 0 ENABLE Received framing and parity errors disable the transmitter 1 LOOPBK Loopback Enable 1 1 read-write DISABLE The receiver is connected to and receives data from UARTn_RX 0 ENABLE The receiver is connected to and receives data from UARTn_TX 1 MPAB Multi-Processor Address-Bit 4 1 read-write MPM Multi-Processor Mode 3 1 read-write DISABLE The 9th bit of incoming frames has no special function 0 ENABLE An incoming frame with the 9th bit equal to MPAB will be loaded into the RX FIFO regardless of RXBLOCK and will result in the MPAB interrupt flag being set 1 MSBF Most Significant Bit First 10 1 read-write DISABLE Data is sent with the least significant bit first 0 ENABLE Data is sent with the most significant bit first 1 MVDIS Majority Vote Disable 30 1 read-write OVS Oversampling 5 3 read-write X16 16X oversampling 0 X8 8X oversampling 1 X6 6X oversampling 2 X4 4X oversampling 3 DISABLE Disable oversampling (for LF operation) 4 RXINV Receiver Input Invert 13 1 read-write DISABLE Input is passed directly to the receiver 0 ENABLE Input is inverted before it is passed to the receiver 1 SKIPPERRF Skip Parity Error Frames 20 1 read-write SYNC Synchronous Mode 0 1 read-write ASYNC The USART operates in asynchronous mode 0 SYNC The USART operates in synchronous mode 1 TXINV Transmitter output Invert 14 1 read-write DISABLE Output from the transmitter is passed unchanged to UARTn_TX 0 ENABLE Output from the transmitter is inverted before it is passed to UARTn_TX 1 CFG1 No Description 0xC -1 read-write n 0x0 0x0 CTSEN Clear-to-send Enable 2 1 read-write DISABLE Ignore CTS 0 ENABLE Stop transmitting when CTS is inactive 1 CTSINV Clear-to-send Invert Enable 1 1 read-write DISABLE The CTS pin is active low 0 ENABLE The CTS pin is active high 1 DBGHALT Debug halt 0 1 read-write DISABLE Continue normal EUSART operation even if core is halted 0 ENABLE If core is halted, receive one frame and then halt reception by deactivating RTS. Next frame reception happens when the core is unhalted during single stepping. 1 RTSINV Request-to-send Invert Enable 3 1 read-write DISABLE The RTS pin is active low 0 ENABLE The RTS pin is active high 1 RTSRXFW Request-to-send RX FIFO Watermark 22 4 read-write ONEFRAME RTS is set if there is space for at least one more frame in the RX FIFO. 0 TWOFRAMES RTS is set if there is space for at least two more frames in the RX FIFO. 1 ELEVENFRAMES RTS is set if there is space for eleven more frames in the RX FIFO. 10 TWELVEFRAMES RTS is set if there is space for twelve more frames in the RX FIFO. 11 THIRTEENFRAMES RTS is set if there is space for thirteen more frames in the RX FIFO. 12 FOURTEENFRAMES RTS is set if there is space for fourteen more frames in the RX FIFO. 13 FIFTEENFRAMES RTS is set if there is space for fifteen more frames in the RX FIFO. 14 SIXTEENFRAMES RTS is set if there is space for sixteen more frames in the RX FIFO. 15 THREEFRAMES RTS is set if there is space for at least three more frames in the RX FIFO. 2 FOURFRAMES RTS is set if there is space for four more frames in the RX FIFO. 3 FIVEFRAMES RTS is set if there is space for five more frames in the RX FIFO. 4 SIXFRAMES RTS is set if there is space for six more frames in the RX FIFO. 5 SEVENFRAMES RTS is set if there is space for seven more frames in the RX FIFO. 6 EIGHTFRAMES RTS is set if there is space for eight more frames in the RX FIFO. 7 NINEFRAMES RTS is set if there is space for nine more frames in the RX FIFO. 8 TENFRAMES RTS is set if there is space for ten more frames in the RX FIFO. 9 RXDMAWU Receiver DMA Wakeup 10 1 read-write RXFIW RX FIFO Interrupt Watermark 27 4 read-write ONEFRAME RXFL status flag and IF are set when the RX FIFO has at least one frame in it. 0 TWOFRAMES RXFL status flag and IF are set when the RX FIFO has at least two frames in it. 1 ELEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least eleven frames in it. 10 TWELVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least twelve frames in it. 11 THIRTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least thriteen frames in it. 12 FOURTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fourteen frames in it. 13 FIFTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fifteen frames in it. 14 SIXTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least sixteen frames in it. 15 THREEFRAMES RXFL status flag and IF are set when the RX FIFO has at least three frames in it. 2 FOURFRAMES RXFL status flag and IF are set when the RX FIFO has at least four frames in it. 3 FIVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least five frames in it. 4 SIXFRAMES RXFL status flag and IF are set when the RX FIFO has at least six frames in it. 5 SEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least seven frames in it. 6 EIGHTFRAMES RXFL status flag and IF are set when the RX FIFO has at least eight frames in it. 7 NINEFRAMES RXFL status flag and IF are set when the RX FIFO has at least nine frames in it. 8 TENFRAMES RXFL status flag and IF are set when the RX FIFO has at least ten frames in it. 9 RXPRSEN PRS RX Enable 15 1 read-write RXTIMEOUT RX Timeout 4 3 read-write DISABLED 0 ONEFRAME 1 TWOFRAMES 2 THREEFRAMES 3 FOURFRAMES 4 FIVEFRAMES 5 SIXFRAMES 6 SEVENFRAMES 7 SFUBRX Start Frame Unblock Receiver 11 1 read-write TXDMAWU Transmitter DMA Wakeup 9 1 read-write TXFIW TX FIFO Interrupt Watermark 16 4 read-write ONEFRAME TXFL status flag and IF are set when the TX FIFO has space for at least one more frame. 0 TWOFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least two more frames. 1 ELEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eleven more frames. 10 TWELVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least twelve more frames. 11 THIRTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least thriteen more frames. 12 FOURTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fourteen more frames. 13 FIFTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fifteen more frames. 14 SIXTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least sixteen more frames. 15 THREEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least three more frames. 2 FOURFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least four more frames. 3 FIVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least five more frames. 4 SIXFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least six more frames. 5 SEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least seven more frames. 6 EIGHTFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eight more frames. 7 NINEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least nine more frames. 8 TENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least ten more frames. 9 CFG2 No Description 0x10 -1 read-write n 0x0 0x0 AUTOCS Automatic Chip Select 5 1 read-write AUTOTX Always Transmit When RXFIFO Not Full 4 1 read-write CLKPHA Clock Edge for Setup/Sample 2 1 read-write SAMPLELEADING Data is sampled on the leading edge and set-up on the trailing edge of the bus clock in synchronous mode 0 SAMPLETRAILING Data is set-up on the leading edge and sampled on the trailing edge of the bus clock in synchronous mode 1 CLKPOL Clock Polarity 1 1 read-write IDLELOW The bus clock used in synchronous mode has a low base value 0 IDLEHIGH The bus clock used in synchronous mode has a high base value 1 CLKPRSEN PRS CLK Enable 6 1 read-write CSINV Chip Select Invert 3 1 read-write AL Chip select is active low 0 AH Chip select is active high 1 FORCELOAD Force Load to Shift Register 7 1 read-write MASTER Master mode 0 1 read-write SLAVE Slave mode 0 MASTER Master mode 1 SDIV Sync Clock Div 24 8 read-write CLKDIV No Description 0x30 -1 read-write n 0x0 0x0 DIV Fractional Clock Divider 3 20 read-write CMD No Description 0x38 -1 write-only n 0x0 0x0 CLEARTX Clear TX FIFO 8 1 write-only RXBLOCKDIS Receiver Block Disable 5 1 write-only RXBLOCKEN Receiver Block Enable 4 1 write-only RXDIS Receiver Disable 1 1 write-only RXEN Receiver Enable 0 1 write-only TXDIS Transmitter Disable 3 1 write-only TXEN Transmitter Enable 2 1 write-only TXTRIDIS Transmitter Tristate Disable 7 1 write-only TXTRIEN Transmitter Tristate Enable 6 1 write-only DTXDATCFG No Description 0x18 -1 read-write n 0x0 0x0 DTXDAT Default TX DATA 0 16 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Module enable 0 1 read-write FRAMECFG No Description 0x14 -1 read-write n 0x0 0x0 DATABITS Data-Bit Mode 0 4 read-write SEVEN Each frame contains 7 data bits 1 SIXTEEN Each frame contains 16 data bits 10 EIGHT Each frame contains 8 data bits 2 NINE Each frame contains 9 data bits 3 TEN Each frame contains 10 data bits 4 ELEVEN Each frame contains 11 data bits 5 TWELVE Each frame contains 12 data bits 6 THIRTEEN Each frame contains 13 data bits 7 FOURTEEN Each frame contains 14 data bits 8 FIFTEEN Each frame contains 15 data bits 9 PARITY Parity-Bit Mode 8 2 read-write NONE Parity bits are not used 0 EVEN Even parity are used. Parity bits are automatically generated and checked by hardware. 2 ODD Odd parity is used. Parity bits are automatically generated and checked by hardware. 3 STOPBITS Stop-Bit Mode 12 2 read-write HALF The transmitter generates a half stop bit. Stop-bits are not verified by receiver 0 ONE One stop bit is generated and verified 1 ONEANDAHALF The transmitter generates one and a half stop bit. The receiver verifies the first stop bit 2 TWO The transmitter generates two stop bits. The receiver checks the first stop-bit only 3 IEN No Description 0x50 -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete IEN 24 1 read-write CCF Collision Check Fail IEN 12 1 read-write CSWU CS Wake-up IEN 16 1 read-write FERR Framing Error IEN 9 1 read-write LOADERR Load Error IEN 11 1 read-write MPAF Multi-Processor Addr Frame IEN 10 1 read-write PERR Parity Error IEN 8 1 read-write RXFL RX FIFO Level IEN 2 1 read-write RXFULL RX FIFO Full IEN 3 1 read-write RXOF RX FIFO Overflow IEN 4 1 read-write RXTO RX Timeout IEN 25 1 read-write RXUF RX FIFO Underflow IEN 5 1 read-write SIGF Signal Frame IEN 19 1 read-write STARTF Start Frame IEN 18 1 read-write TXC TX Complete IEN 0 1 read-write TXFL TX FIFO Level IEN 1 1 read-write TXIDLE TX IDLE IEN 13 1 read-write TXOF TX FIFO Overflow IEN 6 1 read-write TXUF TX FIFO Underflow IEN 7 1 read-write IF No Description 0x4C -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete Interrupt Flag 24 1 read-write CCF Collision Check Fail Interrupt Flag 12 1 read-write CSWU CS Wake-up Interrupt Flag 16 1 read-write FERR Framing Error Interrupt Flag 9 1 read-write LOADERR Load Error Interrupt Flag 11 1 read-write MPAF Multi-Processor Address Frame Interrupt 10 1 read-write PERR Parity Error Interrupt Flag 8 1 read-write RXFL RX FIFO Level Interrupt Flag 2 1 read-write RXFULL RX FIFO Full Interrupt Flag 3 1 read-write RXOF RX FIFO Overflow Interrupt Flag 4 1 read-write RXTO RX Timeout Interrupt Flag 25 1 read-write RXUF RX FIFO Underflow Interrupt Flag 5 1 read-write SIGF Signal Frame Interrupt Flag 19 1 read-write STARTF Start Frame Interrupt Flag 18 1 read-write TXC TX Complete Interrupt Flag 0 1 read-write TXFL TX FIFO Level Interrupt Flag 1 1 read-write TXIDLE TX Idle Interrupt Flag 13 1 read-write TXOF TX FIFO Overflow Interrupt Flag 6 1 read-write TXUF TX FIFO Underflow Interrupt Flag 7 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only IRHFCFG No Description 0x1C -1 read-write n 0x0 0x0 IRHFEN Enable IrDA Module 0 1 read-write IRHFFILT IrDA RX Filter 3 1 read-write DISABLE No filter enabled 0 ENABLE Filter enabled. IrDA pulse must be high for at least 5 consecutive clock cycles to be detected 1 IRHFPW IrDA TX Pulse Width 1 2 read-write ONE IrDA pulse width is 1/16 for OVS=0 and 1/8 for OVS=1 0 TWO IrDA pulse width is 2/16 for OVS=0 and 2/8 for OVS=1 1 THREE IrDA pulse width is 3/16 for OVS=0 and 3/8 for OVS=1 2 FOUR IrDA pulse width is 4/16 for OVS=0 and 4/8 for OVS=1 3 IRLFCFG No Description 0x20 -1 read-write n 0x0 0x0 IRLFEN Pulse Generator/Extender Enable 0 1 read-write RXDATA No Description 0x3C -1 read-only n 0x0 0x0 RXDATA RX Data and Control bits 0 16 read-only RXDATAP No Description 0x40 -1 read-only n 0x0 0x0 RXDATAP RX Data Peek 0 16 read-only SIGFRAMECFG No Description 0x2C -1 read-write n 0x0 0x0 SIGFRAME Signal Frame Value 0 9 read-write STARTFRAMECFG No Description 0x28 -1 read-write n 0x0 0x0 STARTFRAME Start Frame 0 9 read-write STATUS No Description 0x48 -1 read-only n 0x0 0x0 AUTOBAUDDONE Auto Baud Rate Detection Completed 24 1 read-only CLEARTXBUSY TX FIFO Clear Busy 25 1 read-only RXBLOCK Block Incoming Data 3 1 read-only RXENS Receiver Enable Status 0 1 read-only RXFL RX FIFO Level 7 1 read-only RXFULL RX FIFO Full 8 1 read-only RXIDLE RX Idle 12 1 read-only TXC TX Complete 5 1 read-only TXENS Transmitter Enable Status 1 1 read-only TXFCNT Valid entries in TX FIFO 16 5 read-only TXFL TX FIFO Level 6 1 read-only TXIDLE TX Idle 13 1 read-only TXTRI Transmitter Tristated 4 1 read-only SYNCBUSY No Description 0x54 -1 read-only n 0x0 0x0 AUTOTXTEN SYNCBUSY for AUTOTXTEN in TRIGCTRL 11 1 read-only DIV SYNCBUSY for DIV in CLKDIV 0 1 read-only RXBLOCKDIS SYNCBUSY for RXBLOCKDIS in CMD 8 1 read-only RXBLOCKEN SYNCBUSY for RXBLOCKEN in CMD 7 1 read-only RXDIS SYNCBUSY for RXDIS in CMD 4 1 read-only RXEN SYNCBUSY for RXEN in CMD 3 1 read-only RXTEN SYNCBUSY for RXTEN in TRIGCTRL 1 1 read-only TXDIS SYNCBUSY for TXDIS in CMD 6 1 read-only TXEN SYNCBUSY for TXEN in CMD 5 1 read-only TXTEN SYNCBUSY for TXTEN in TRIGCTRL 2 1 read-only TXTRIDIS SYNCBUSY in TXTRIDIS in CMD 10 1 read-only TXTRIEN SYNCBUSY for TXTRIEN in CMD 9 1 read-only TIMINGCFG No Description 0x24 -1 read-write n 0x0 0x0 CSHOLD Chip Select Hold 8 3 read-write ZERO CS is de-asserted half or 1 baud-time after the end of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is de-asserted 1 additional baud-time after the end of transmission 1 TWO CS is de-asserted 2 additional baud-times after the end of transmission 2 THREE CS is de-asserted 3 additional baud-times after the end of transmission 3 FOUR CS is de-asserted 4 additional baud-times after the end of transmission 4 FIVE CS is de-asserted 5 additional baud-times after the end of transmission 5 SIX CS is de-asserted 6 additional baud-times after the end of transmission 6 SEVEN CS is de-asserted 7 additional baud-times after the end of transmission 7 CSSETUP Chip Select Setup 4 3 read-write ZERO CS is asserted half or 1 baud-time before the start of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is asserted 1 additional baud-time before start of transmission 1 TWO CS is asserted 2 additional baud-times before start of transmission 2 THREE CS is asserted 3 additional baud-times before start of transmission 3 FOUR CS is asserted 4 additional baud-times before start of transmission 4 FIVE CS is asserted 5 additional baud-times before start of transmission 5 SIX CS is asserted 6 additional baud-times before start of transmission 6 SEVEN CS is asserted 7 additional baud-times before start of transmission 7 ICS Inter-Character Spacing 12 3 read-write ZERO There is no space between charcters 0 ONE Create a space of 1 baud-times between frames 1 TWO Create a space of 2 baud-times between frames 2 THREE Create a space of 3 baud-times between frames 3 FOUR Create a space of 4 baud-times between frames 4 FIVE Create a space of 5 baud-times between frames 5 SIX Create a space of 6 baud-times between frames 6 SEVEN Create a space of 7 baud-times between frames 7 SETUPWINDOW Setup Window 16 4 read-write TXDELAY TX Delay Transmission 0 2 read-write NONE Frames are transmitted immediately. 0 SINGLE Transmission of new frames is delayed by a single bit period. 1 DOUBLE Transmission of new frames is delayed by a two bit periods. 2 TRIPPLE Transmission of new frames is delayed by a three bit periods. 3 TRIGCTRL No Description 0x34 -1 read-write n 0x0 0x0 AUTOTXTEN AUTOTX Trigger Enable 2 1 read-write RXTEN Receive Trigger Enable 0 1 read-write TXTEN Transmit Trigger Enable 1 1 read-write TXDATA No Description 0x44 -1 write-only n 0x0 0x0 TXDATA TX Data and Control bits 0 16 write-only EUSART0_S EUSART0_S Registers EUSART0_S 0x0 0x0 0x1000 registers n EUSART0_RX 11 EUSART0_TX 12 CFG0 No Description 0x8 -1 read-write n 0x0 0x0 AUTOBAUDEN AUTOBAUD detection enable 31 1 read-write AUTOTRI Automatic TX Tristate 17 1 read-write DISABLE The output on UARTn_TX when the transmitter is idle is defined by TXINV 0 ENABLE UARTn_TX is tristated whenever the transmitter is idle 1 CCEN Collision Check Enable 2 1 read-write DISABLE Collision check is disabled 0 ENABLE Collision check is enabled. The receiver must be enabled for the check to be performed 1 ERRSDMA Halt DMA Read On Error 22 1 read-write DISABLE Framing and parity errors have no effect on DMA requests from the EUSART 0 ENABLE DMA requests from the EUSART are blocked while the PERR or FERR interrupt flags are set 1 ERRSRX Disable RX On Error 23 1 read-write DISABLE Framing and parity errors have no effect on receiver 0 ENABLE Framing and parity errors disable the receiver 1 ERRSTX Disable TX On Error 24 1 read-write DISABLE Received framing and parity errors have no effect on transmitter 0 ENABLE Received framing and parity errors disable the transmitter 1 LOOPBK Loopback Enable 1 1 read-write DISABLE The receiver is connected to and receives data from UARTn_RX 0 ENABLE The receiver is connected to and receives data from UARTn_TX 1 MPAB Multi-Processor Address-Bit 4 1 read-write MPM Multi-Processor Mode 3 1 read-write DISABLE The 9th bit of incoming frames has no special function 0 ENABLE An incoming frame with the 9th bit equal to MPAB will be loaded into the RX FIFO regardless of RXBLOCK and will result in the MPAB interrupt flag being set 1 MSBF Most Significant Bit First 10 1 read-write DISABLE Data is sent with the least significant bit first 0 ENABLE Data is sent with the most significant bit first 1 MVDIS Majority Vote Disable 30 1 read-write OVS Oversampling 5 3 read-write X16 16X oversampling 0 X8 8X oversampling 1 X6 6X oversampling 2 X4 4X oversampling 3 DISABLE Disable oversampling (for LF operation) 4 RXINV Receiver Input Invert 13 1 read-write DISABLE Input is passed directly to the receiver 0 ENABLE Input is inverted before it is passed to the receiver 1 SKIPPERRF Skip Parity Error Frames 20 1 read-write SYNC Synchronous Mode 0 1 read-write ASYNC The USART operates in asynchronous mode 0 SYNC The USART operates in synchronous mode 1 TXINV Transmitter output Invert 14 1 read-write DISABLE Output from the transmitter is passed unchanged to UARTn_TX 0 ENABLE Output from the transmitter is inverted before it is passed to UARTn_TX 1 CFG1 No Description 0xC -1 read-write n 0x0 0x0 CTSEN Clear-to-send Enable 2 1 read-write DISABLE Ignore CTS 0 ENABLE Stop transmitting when CTS is inactive 1 CTSINV Clear-to-send Invert Enable 1 1 read-write DISABLE The CTS pin is active low 0 ENABLE The CTS pin is active high 1 DBGHALT Debug halt 0 1 read-write DISABLE Continue normal EUSART operation even if core is halted 0 ENABLE If core is halted, receive one frame and then halt reception by deactivating RTS. Next frame reception happens when the core is unhalted during single stepping. 1 RTSINV Request-to-send Invert Enable 3 1 read-write DISABLE The RTS pin is active low 0 ENABLE The RTS pin is active high 1 RTSRXFW Request-to-send RX FIFO Watermark 22 4 read-write ONEFRAME RTS is set if there is space for at least one more frame in the RX FIFO. 0 TWOFRAMES RTS is set if there is space for at least two more frames in the RX FIFO. 1 ELEVENFRAMES RTS is set if there is space for eleven more frames in the RX FIFO. 10 TWELVEFRAMES RTS is set if there is space for twelve more frames in the RX FIFO. 11 THIRTEENFRAMES RTS is set if there is space for thirteen more frames in the RX FIFO. 12 FOURTEENFRAMES RTS is set if there is space for fourteen more frames in the RX FIFO. 13 FIFTEENFRAMES RTS is set if there is space for fifteen more frames in the RX FIFO. 14 SIXTEENFRAMES RTS is set if there is space for sixteen more frames in the RX FIFO. 15 THREEFRAMES RTS is set if there is space for at least three more frames in the RX FIFO. 2 FOURFRAMES RTS is set if there is space for four more frames in the RX FIFO. 3 FIVEFRAMES RTS is set if there is space for five more frames in the RX FIFO. 4 SIXFRAMES RTS is set if there is space for six more frames in the RX FIFO. 5 SEVENFRAMES RTS is set if there is space for seven more frames in the RX FIFO. 6 EIGHTFRAMES RTS is set if there is space for eight more frames in the RX FIFO. 7 NINEFRAMES RTS is set if there is space for nine more frames in the RX FIFO. 8 TENFRAMES RTS is set if there is space for ten more frames in the RX FIFO. 9 RXDMAWU Receiver DMA Wakeup 10 1 read-write RXFIW RX FIFO Interrupt Watermark 27 4 read-write ONEFRAME RXFL status flag and IF are set when the RX FIFO has at least one frame in it. 0 TWOFRAMES RXFL status flag and IF are set when the RX FIFO has at least two frames in it. 1 ELEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least eleven frames in it. 10 TWELVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least twelve frames in it. 11 THIRTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least thriteen frames in it. 12 FOURTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fourteen frames in it. 13 FIFTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fifteen frames in it. 14 SIXTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least sixteen frames in it. 15 THREEFRAMES RXFL status flag and IF are set when the RX FIFO has at least three frames in it. 2 FOURFRAMES RXFL status flag and IF are set when the RX FIFO has at least four frames in it. 3 FIVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least five frames in it. 4 SIXFRAMES RXFL status flag and IF are set when the RX FIFO has at least six frames in it. 5 SEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least seven frames in it. 6 EIGHTFRAMES RXFL status flag and IF are set when the RX FIFO has at least eight frames in it. 7 NINEFRAMES RXFL status flag and IF are set when the RX FIFO has at least nine frames in it. 8 TENFRAMES RXFL status flag and IF are set when the RX FIFO has at least ten frames in it. 9 RXPRSEN PRS RX Enable 15 1 read-write RXTIMEOUT RX Timeout 4 3 read-write DISABLED 0 ONEFRAME 1 TWOFRAMES 2 THREEFRAMES 3 FOURFRAMES 4 FIVEFRAMES 5 SIXFRAMES 6 SEVENFRAMES 7 SFUBRX Start Frame Unblock Receiver 11 1 read-write TXDMAWU Transmitter DMA Wakeup 9 1 read-write TXFIW TX FIFO Interrupt Watermark 16 4 read-write ONEFRAME TXFL status flag and IF are set when the TX FIFO has space for at least one more frame. 0 TWOFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least two more frames. 1 ELEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eleven more frames. 10 TWELVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least twelve more frames. 11 THIRTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least thriteen more frames. 12 FOURTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fourteen more frames. 13 FIFTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fifteen more frames. 14 SIXTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least sixteen more frames. 15 THREEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least three more frames. 2 FOURFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least four more frames. 3 FIVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least five more frames. 4 SIXFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least six more frames. 5 SEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least seven more frames. 6 EIGHTFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eight more frames. 7 NINEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least nine more frames. 8 TENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least ten more frames. 9 CFG2 No Description 0x10 -1 read-write n 0x0 0x0 AUTOCS Automatic Chip Select 5 1 read-write AUTOTX Always Transmit When RXFIFO Not Full 4 1 read-write CLKPHA Clock Edge for Setup/Sample 2 1 read-write SAMPLELEADING Data is sampled on the leading edge and set-up on the trailing edge of the bus clock in synchronous mode 0 SAMPLETRAILING Data is set-up on the leading edge and sampled on the trailing edge of the bus clock in synchronous mode 1 CLKPOL Clock Polarity 1 1 read-write IDLELOW The bus clock used in synchronous mode has a low base value 0 IDLEHIGH The bus clock used in synchronous mode has a high base value 1 CLKPRSEN PRS CLK Enable 6 1 read-write CSINV Chip Select Invert 3 1 read-write AL Chip select is active low 0 AH Chip select is active high 1 FORCELOAD Force Load to Shift Register 7 1 read-write MASTER Master mode 0 1 read-write SLAVE Slave mode 0 MASTER Master mode 1 SDIV Sync Clock Div 24 8 read-write CLKDIV No Description 0x30 -1 read-write n 0x0 0x0 DIV Fractional Clock Divider 3 20 read-write CMD No Description 0x38 -1 write-only n 0x0 0x0 CLEARTX Clear TX FIFO 8 1 write-only RXBLOCKDIS Receiver Block Disable 5 1 write-only RXBLOCKEN Receiver Block Enable 4 1 write-only RXDIS Receiver Disable 1 1 write-only RXEN Receiver Enable 0 1 write-only TXDIS Transmitter Disable 3 1 write-only TXEN Transmitter Enable 2 1 write-only TXTRIDIS Transmitter Tristate Disable 7 1 write-only TXTRIEN Transmitter Tristate Enable 6 1 write-only DTXDATCFG No Description 0x18 -1 read-write n 0x0 0x0 DTXDAT Default TX DATA 0 16 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Module enable 0 1 read-write FRAMECFG No Description 0x14 -1 read-write n 0x0 0x0 DATABITS Data-Bit Mode 0 4 read-write SEVEN Each frame contains 7 data bits 1 SIXTEEN Each frame contains 16 data bits 10 EIGHT Each frame contains 8 data bits 2 NINE Each frame contains 9 data bits 3 TEN Each frame contains 10 data bits 4 ELEVEN Each frame contains 11 data bits 5 TWELVE Each frame contains 12 data bits 6 THIRTEEN Each frame contains 13 data bits 7 FOURTEEN Each frame contains 14 data bits 8 FIFTEEN Each frame contains 15 data bits 9 PARITY Parity-Bit Mode 8 2 read-write NONE Parity bits are not used 0 EVEN Even parity are used. Parity bits are automatically generated and checked by hardware. 2 ODD Odd parity is used. Parity bits are automatically generated and checked by hardware. 3 STOPBITS Stop-Bit Mode 12 2 read-write HALF The transmitter generates a half stop bit. Stop-bits are not verified by receiver 0 ONE One stop bit is generated and verified 1 ONEANDAHALF The transmitter generates one and a half stop bit. The receiver verifies the first stop bit 2 TWO The transmitter generates two stop bits. The receiver checks the first stop-bit only 3 IEN No Description 0x50 -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete IEN 24 1 read-write CCF Collision Check Fail IEN 12 1 read-write CSWU CS Wake-up IEN 16 1 read-write FERR Framing Error IEN 9 1 read-write LOADERR Load Error IEN 11 1 read-write MPAF Multi-Processor Addr Frame IEN 10 1 read-write PERR Parity Error IEN 8 1 read-write RXFL RX FIFO Level IEN 2 1 read-write RXFULL RX FIFO Full IEN 3 1 read-write RXOF RX FIFO Overflow IEN 4 1 read-write RXTO RX Timeout IEN 25 1 read-write RXUF RX FIFO Underflow IEN 5 1 read-write SIGF Signal Frame IEN 19 1 read-write STARTF Start Frame IEN 18 1 read-write TXC TX Complete IEN 0 1 read-write TXFL TX FIFO Level IEN 1 1 read-write TXIDLE TX IDLE IEN 13 1 read-write TXOF TX FIFO Overflow IEN 6 1 read-write TXUF TX FIFO Underflow IEN 7 1 read-write IF No Description 0x4C -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete Interrupt Flag 24 1 read-write CCF Collision Check Fail Interrupt Flag 12 1 read-write CSWU CS Wake-up Interrupt Flag 16 1 read-write FERR Framing Error Interrupt Flag 9 1 read-write LOADERR Load Error Interrupt Flag 11 1 read-write MPAF Multi-Processor Address Frame Interrupt 10 1 read-write PERR Parity Error Interrupt Flag 8 1 read-write RXFL RX FIFO Level Interrupt Flag 2 1 read-write RXFULL RX FIFO Full Interrupt Flag 3 1 read-write RXOF RX FIFO Overflow Interrupt Flag 4 1 read-write RXTO RX Timeout Interrupt Flag 25 1 read-write RXUF RX FIFO Underflow Interrupt Flag 5 1 read-write SIGF Signal Frame Interrupt Flag 19 1 read-write STARTF Start Frame Interrupt Flag 18 1 read-write TXC TX Complete Interrupt Flag 0 1 read-write TXFL TX FIFO Level Interrupt Flag 1 1 read-write TXIDLE TX Idle Interrupt Flag 13 1 read-write TXOF TX FIFO Overflow Interrupt Flag 6 1 read-write TXUF TX FIFO Underflow Interrupt Flag 7 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only IRHFCFG No Description 0x1C -1 read-write n 0x0 0x0 IRHFEN Enable IrDA Module 0 1 read-write IRHFFILT IrDA RX Filter 3 1 read-write DISABLE No filter enabled 0 ENABLE Filter enabled. IrDA pulse must be high for at least 5 consecutive clock cycles to be detected 1 IRHFPW IrDA TX Pulse Width 1 2 read-write ONE IrDA pulse width is 1/16 for OVS=0 and 1/8 for OVS=1 0 TWO IrDA pulse width is 2/16 for OVS=0 and 2/8 for OVS=1 1 THREE IrDA pulse width is 3/16 for OVS=0 and 3/8 for OVS=1 2 FOUR IrDA pulse width is 4/16 for OVS=0 and 4/8 for OVS=1 3 IRLFCFG No Description 0x20 -1 read-write n 0x0 0x0 IRLFEN Pulse Generator/Extender Enable 0 1 read-write RXDATA No Description 0x3C -1 read-only n 0x0 0x0 RXDATA RX Data and Control bits 0 16 read-only RXDATAP No Description 0x40 -1 read-only n 0x0 0x0 RXDATAP RX Data Peek 0 16 read-only SIGFRAMECFG No Description 0x2C -1 read-write n 0x0 0x0 SIGFRAME Signal Frame Value 0 9 read-write STARTFRAMECFG No Description 0x28 -1 read-write n 0x0 0x0 STARTFRAME Start Frame 0 9 read-write STATUS No Description 0x48 -1 read-only n 0x0 0x0 AUTOBAUDDONE Auto Baud Rate Detection Completed 24 1 read-only CLEARTXBUSY TX FIFO Clear Busy 25 1 read-only RXBLOCK Block Incoming Data 3 1 read-only RXENS Receiver Enable Status 0 1 read-only RXFL RX FIFO Level 7 1 read-only RXFULL RX FIFO Full 8 1 read-only RXIDLE RX Idle 12 1 read-only TXC TX Complete 5 1 read-only TXENS Transmitter Enable Status 1 1 read-only TXFCNT Valid entries in TX FIFO 16 5 read-only TXFL TX FIFO Level 6 1 read-only TXIDLE TX Idle 13 1 read-only TXTRI Transmitter Tristated 4 1 read-only SYNCBUSY No Description 0x54 -1 read-only n 0x0 0x0 AUTOTXTEN SYNCBUSY for AUTOTXTEN in TRIGCTRL 11 1 read-only DIV SYNCBUSY for DIV in CLKDIV 0 1 read-only RXBLOCKDIS SYNCBUSY for RXBLOCKDIS in CMD 8 1 read-only RXBLOCKEN SYNCBUSY for RXBLOCKEN in CMD 7 1 read-only RXDIS SYNCBUSY for RXDIS in CMD 4 1 read-only RXEN SYNCBUSY for RXEN in CMD 3 1 read-only RXTEN SYNCBUSY for RXTEN in TRIGCTRL 1 1 read-only TXDIS SYNCBUSY for TXDIS in CMD 6 1 read-only TXEN SYNCBUSY for TXEN in CMD 5 1 read-only TXTEN SYNCBUSY for TXTEN in TRIGCTRL 2 1 read-only TXTRIDIS SYNCBUSY in TXTRIDIS in CMD 10 1 read-only TXTRIEN SYNCBUSY for TXTRIEN in CMD 9 1 read-only TIMINGCFG No Description 0x24 -1 read-write n 0x0 0x0 CSHOLD Chip Select Hold 8 3 read-write ZERO CS is de-asserted half or 1 baud-time after the end of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is de-asserted 1 additional baud-time after the end of transmission 1 TWO CS is de-asserted 2 additional baud-times after the end of transmission 2 THREE CS is de-asserted 3 additional baud-times after the end of transmission 3 FOUR CS is de-asserted 4 additional baud-times after the end of transmission 4 FIVE CS is de-asserted 5 additional baud-times after the end of transmission 5 SIX CS is de-asserted 6 additional baud-times after the end of transmission 6 SEVEN CS is de-asserted 7 additional baud-times after the end of transmission 7 CSSETUP Chip Select Setup 4 3 read-write ZERO CS is asserted half or 1 baud-time before the start of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is asserted 1 additional baud-time before start of transmission 1 TWO CS is asserted 2 additional baud-times before start of transmission 2 THREE CS is asserted 3 additional baud-times before start of transmission 3 FOUR CS is asserted 4 additional baud-times before start of transmission 4 FIVE CS is asserted 5 additional baud-times before start of transmission 5 SIX CS is asserted 6 additional baud-times before start of transmission 6 SEVEN CS is asserted 7 additional baud-times before start of transmission 7 ICS Inter-Character Spacing 12 3 read-write ZERO There is no space between charcters 0 ONE Create a space of 1 baud-times between frames 1 TWO Create a space of 2 baud-times between frames 2 THREE Create a space of 3 baud-times between frames 3 FOUR Create a space of 4 baud-times between frames 4 FIVE Create a space of 5 baud-times between frames 5 SIX Create a space of 6 baud-times between frames 6 SEVEN Create a space of 7 baud-times between frames 7 SETUPWINDOW Setup Window 16 4 read-write TXDELAY TX Delay Transmission 0 2 read-write NONE Frames are transmitted immediately. 0 SINGLE Transmission of new frames is delayed by a single bit period. 1 DOUBLE Transmission of new frames is delayed by a two bit periods. 2 TRIPPLE Transmission of new frames is delayed by a three bit periods. 3 TRIGCTRL No Description 0x34 -1 read-write n 0x0 0x0 AUTOTXTEN AUTOTX Trigger Enable 2 1 read-write RXTEN Receive Trigger Enable 0 1 read-write TXTEN Transmit Trigger Enable 1 1 read-write TXDATA No Description 0x44 -1 write-only n 0x0 0x0 TXDATA TX Data and Control bits 0 16 write-only EUSART1_NS EUSART1_NS Registers EUSART1_NS 0x0 0x0 0x1000 registers n EUSART1_RX 13 EUSART1_TX 14 EUSART2_RX 15 EUSART2_TX 16 CFG0 No Description 0x8 -1 read-write n 0x0 0x0 AUTOBAUDEN AUTOBAUD detection enable 31 1 read-write AUTOTRI Automatic TX Tristate 17 1 read-write DISABLE The output on UARTn_TX when the transmitter is idle is defined by TXINV 0 ENABLE UARTn_TX is tristated whenever the transmitter is idle 1 CCEN Collision Check Enable 2 1 read-write DISABLE Collision check is disabled 0 ENABLE Collision check is enabled. The receiver must be enabled for the check to be performed 1 ERRSDMA Halt DMA Read On Error 22 1 read-write DISABLE Framing and parity errors have no effect on DMA requests from the EUSART 0 ENABLE DMA requests from the EUSART are blocked while the PERR or FERR interrupt flags are set 1 ERRSRX Disable RX On Error 23 1 read-write DISABLE Framing and parity errors have no effect on receiver 0 ENABLE Framing and parity errors disable the receiver 1 ERRSTX Disable TX On Error 24 1 read-write DISABLE Received framing and parity errors have no effect on transmitter 0 ENABLE Received framing and parity errors disable the transmitter 1 LOOPBK Loopback Enable 1 1 read-write DISABLE The receiver is connected to and receives data from UARTn_RX 0 ENABLE The receiver is connected to and receives data from UARTn_TX 1 MPAB Multi-Processor Address-Bit 4 1 read-write MPM Multi-Processor Mode 3 1 read-write DISABLE The 9th bit of incoming frames has no special function 0 ENABLE An incoming frame with the 9th bit equal to MPAB will be loaded into the RX FIFO regardless of RXBLOCK and will result in the MPAB interrupt flag being set 1 MSBF Most Significant Bit First 10 1 read-write DISABLE Data is sent with the least significant bit first 0 ENABLE Data is sent with the most significant bit first 1 MVDIS Majority Vote Disable 30 1 read-write OVS Oversampling 5 3 read-write X16 16X oversampling 0 X8 8X oversampling 1 X6 6X oversampling 2 X4 4X oversampling 3 DISABLE Disable oversampling (for LF operation) 4 RXINV Receiver Input Invert 13 1 read-write DISABLE Input is passed directly to the receiver 0 ENABLE Input is inverted before it is passed to the receiver 1 SKIPPERRF Skip Parity Error Frames 20 1 read-write SYNC Synchronous Mode 0 1 read-write ASYNC The USART operates in asynchronous mode 0 SYNC The USART operates in synchronous mode 1 TXINV Transmitter output Invert 14 1 read-write DISABLE Output from the transmitter is passed unchanged to UARTn_TX 0 ENABLE Output from the transmitter is inverted before it is passed to UARTn_TX 1 CFG1 No Description 0xC -1 read-write n 0x0 0x0 CTSEN Clear-to-send Enable 2 1 read-write DISABLE Ignore CTS 0 ENABLE Stop transmitting when CTS is inactive 1 CTSINV Clear-to-send Invert Enable 1 1 read-write DISABLE The CTS pin is active low 0 ENABLE The CTS pin is active high 1 DBGHALT Debug halt 0 1 read-write DISABLE Continue normal EUSART operation even if core is halted 0 ENABLE If core is halted, receive one frame and then halt reception by deactivating RTS. Next frame reception happens when the core is unhalted during single stepping. 1 RTSINV Request-to-send Invert Enable 3 1 read-write DISABLE The RTS pin is active low 0 ENABLE The RTS pin is active high 1 RTSRXFW Request-to-send RX FIFO Watermark 22 4 read-write ONEFRAME RTS is set if there is space for at least one more frame in the RX FIFO. 0 TWOFRAMES RTS is set if there is space for at least two more frames in the RX FIFO. 1 ELEVENFRAMES RTS is set if there is space for eleven more frames in the RX FIFO. 10 TWELVEFRAMES RTS is set if there is space for twelve more frames in the RX FIFO. 11 THIRTEENFRAMES RTS is set if there is space for thirteen more frames in the RX FIFO. 12 FOURTEENFRAMES RTS is set if there is space for fourteen more frames in the RX FIFO. 13 FIFTEENFRAMES RTS is set if there is space for fifteen more frames in the RX FIFO. 14 SIXTEENFRAMES RTS is set if there is space for sixteen more frames in the RX FIFO. 15 THREEFRAMES RTS is set if there is space for at least three more frames in the RX FIFO. 2 FOURFRAMES RTS is set if there is space for four more frames in the RX FIFO. 3 FIVEFRAMES RTS is set if there is space for five more frames in the RX FIFO. 4 SIXFRAMES RTS is set if there is space for six more frames in the RX FIFO. 5 SEVENFRAMES RTS is set if there is space for seven more frames in the RX FIFO. 6 EIGHTFRAMES RTS is set if there is space for eight more frames in the RX FIFO. 7 NINEFRAMES RTS is set if there is space for nine more frames in the RX FIFO. 8 TENFRAMES RTS is set if there is space for ten more frames in the RX FIFO. 9 RXFIW RX FIFO Interrupt Watermark 27 4 read-write ONEFRAME RXFL status flag and IF are set when the RX FIFO has at least one frame in it. 0 TWOFRAMES RXFL status flag and IF are set when the RX FIFO has at least two frames in it. 1 ELEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least eleven frames in it. 10 TWELVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least twelve frames in it. 11 THIRTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least thriteen frames in it. 12 FOURTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fourteen frames in it. 13 FIFTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fifteen frames in it. 14 SIXTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least sixteen frames in it. 15 THREEFRAMES RXFL status flag and IF are set when the RX FIFO has at least three frames in it. 2 FOURFRAMES RXFL status flag and IF are set when the RX FIFO has at least four frames in it. 3 FIVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least five frames in it. 4 SIXFRAMES RXFL status flag and IF are set when the RX FIFO has at least six frames in it. 5 SEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least seven frames in it. 6 EIGHTFRAMES RXFL status flag and IF are set when the RX FIFO has at least eight frames in it. 7 NINEFRAMES RXFL status flag and IF are set when the RX FIFO has at least nine frames in it. 8 TENFRAMES RXFL status flag and IF are set when the RX FIFO has at least ten frames in it. 9 RXPRSEN PRS RX Enable 15 1 read-write RXTIMEOUT RX Timeout 4 3 read-write DISABLED 0 ONEFRAME 1 TWOFRAMES 2 THREEFRAMES 3 FOURFRAMES 4 FIVEFRAMES 5 SIXFRAMES 6 SEVENFRAMES 7 SFUBRX Start Frame Unblock Receiver 11 1 read-write TXFIW TX FIFO Interrupt Watermark 16 4 read-write ONEFRAME TXFL status flag and IF are set when the TX FIFO has space for at least one more frame. 0 TWOFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least two more frames. 1 ELEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eleven more frames. 10 TWELVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least twelve more frames. 11 THIRTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least thriteen more frames. 12 FOURTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fourteen more frames. 13 FIFTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fifteen more frames. 14 SIXTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least sixteen more frames. 15 THREEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least three more frames. 2 FOURFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least four more frames. 3 FIVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least five more frames. 4 SIXFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least six more frames. 5 SEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least seven more frames. 6 EIGHTFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eight more frames. 7 NINEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least nine more frames. 8 TENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least ten more frames. 9 CFG2 No Description 0x10 -1 read-write n 0x0 0x0 AUTOCS Automatic Chip Select 5 1 read-write AUTOTX Always Transmit When RXFIFO Not Full 4 1 read-write CLKPHA Clock Edge for Setup/Sample 2 1 read-write SAMPLELEADING Data is sampled on the leading edge and set-up on the trailing edge of the bus clock in synchronous mode 0 SAMPLETRAILING Data is set-up on the leading edge and sampled on the trailing edge of the bus clock in synchronous mode 1 CLKPOL Clock Polarity 1 1 read-write IDLELOW The bus clock used in synchronous mode has a low base value 0 IDLEHIGH The bus clock used in synchronous mode has a high base value 1 CLKPRSEN PRS CLK Enable 6 1 read-write CSINV Chip Select Invert 3 1 read-write AL Chip select is active low 0 AH Chip select is active high 1 FORCELOAD Force Load to Shift Register 7 1 read-write MASTER Master mode 0 1 read-write SLAVE Slave mode 0 MASTER Master mode 1 SDIV Sync Clock Div 24 8 read-write CLKDIV No Description 0x30 -1 read-write n 0x0 0x0 DIV Fractional Clock Divider 3 20 read-write CMD No Description 0x38 -1 write-only n 0x0 0x0 CLEARTX Clear TX FIFO 8 1 write-only RXBLOCKDIS Receiver Block Disable 5 1 write-only RXBLOCKEN Receiver Block Enable 4 1 write-only RXDIS Receiver Disable 1 1 write-only RXEN Receiver Enable 0 1 write-only TXDIS Transmitter Disable 3 1 write-only TXEN Transmitter Enable 2 1 write-only TXTRIDIS Transmitter Tristate Disable 7 1 write-only TXTRIEN Transmitter Tristate Enable 6 1 write-only DTXDATCFG No Description 0x18 -1 read-write n 0x0 0x0 DTXDAT Default TX DATA 0 16 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Module enable 0 1 read-write FRAMECFG No Description 0x14 -1 read-write n 0x0 0x0 DATABITS Data-Bit Mode 0 4 read-write SEVEN Each frame contains 7 data bits 1 SIXTEEN Each frame contains 16 data bits 10 EIGHT Each frame contains 8 data bits 2 NINE Each frame contains 9 data bits 3 TEN Each frame contains 10 data bits 4 ELEVEN Each frame contains 11 data bits 5 TWELVE Each frame contains 12 data bits 6 THIRTEEN Each frame contains 13 data bits 7 FOURTEEN Each frame contains 14 data bits 8 FIFTEEN Each frame contains 15 data bits 9 PARITY Parity-Bit Mode 8 2 read-write NONE Parity bits are not used 0 EVEN Even parity are used. Parity bits are automatically generated and checked by hardware. 2 ODD Odd parity is used. Parity bits are automatically generated and checked by hardware. 3 STOPBITS Stop-Bit Mode 12 2 read-write HALF The transmitter generates a half stop bit. Stop-bits are not verified by receiver 0 ONE One stop bit is generated and verified 1 ONEANDAHALF The transmitter generates one and a half stop bit. The receiver verifies the first stop bit 2 TWO The transmitter generates two stop bits. The receiver checks the first stop-bit only 3 IEN No Description 0x50 -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete IEN 24 1 read-write CCF Collision Check Fail IEN 12 1 read-write FERR Framing Error IEN 9 1 read-write LOADERR Load Error IEN 11 1 read-write MPAF Multi-Processor Addr Frame IEN 10 1 read-write PERR Parity Error IEN 8 1 read-write RXFL RX FIFO Level IEN 2 1 read-write RXFULL RX FIFO Full IEN 3 1 read-write RXOF RX FIFO Overflow IEN 4 1 read-write RXTO RX Timeout IEN 25 1 read-write RXUF RX FIFO Underflow IEN 5 1 read-write SIGF Signal Frame IEN 19 1 read-write STARTF Start Frame IEN 18 1 read-write TXC TX Complete IEN 0 1 read-write TXFL TX FIFO Level IEN 1 1 read-write TXIDLE TX IDLE IEN 13 1 read-write TXOF TX FIFO Overflow IEN 6 1 read-write TXUF TX FIFO Underflow IEN 7 1 read-write IF No Description 0x4C -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete Interrupt Flag 24 1 read-write CCF Collision Check Fail Interrupt Flag 12 1 read-write FERR Framing Error Interrupt Flag 9 1 read-write LOADERR Load Error Interrupt Flag 11 1 read-write MPAF Multi-Processor Address Frame Interrupt 10 1 read-write PERR Parity Error Interrupt Flag 8 1 read-write RXFL RX FIFO Level Interrupt Flag 2 1 read-write RXFULL RX FIFO Full Interrupt Flag 3 1 read-write RXOF RX FIFO Overflow Interrupt Flag 4 1 read-write RXTO RX Timeout Interrupt Flag 25 1 read-write RXUF RX FIFO Underflow Interrupt Flag 5 1 read-write SIGF Signal Frame Interrupt Flag 19 1 read-write STARTF Start Frame Interrupt Flag 18 1 read-write TXC TX Complete Interrupt Flag 0 1 read-write TXFL TX FIFO Level Interrupt Flag 1 1 read-write TXIDLE TX Idle Interrupt Flag 13 1 read-write TXOF TX FIFO Overflow Interrupt Flag 6 1 read-write TXUF TX FIFO Underflow Interrupt Flag 7 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only IRHFCFG No Description 0x1C -1 read-write n 0x0 0x0 IRHFEN Enable IrDA Module 0 1 read-write IRHFFILT IrDA RX Filter 3 1 read-write DISABLE No filter enabled 0 ENABLE Filter enabled. IrDA pulse must be high for at least 5 consecutive clock cycles to be detected 1 IRHFPW IrDA TX Pulse Width 1 2 read-write ONE IrDA pulse width is 1/16 for OVS=0 and 1/8 for OVS=1 0 TWO IrDA pulse width is 2/16 for OVS=0 and 2/8 for OVS=1 1 THREE IrDA pulse width is 3/16 for OVS=0 and 3/8 for OVS=1 2 FOUR IrDA pulse width is 4/16 for OVS=0 and 4/8 for OVS=1 3 RXDATA No Description 0x3C -1 read-only n 0x0 0x0 RXDATA RX Data and Control bits 0 16 read-only RXDATAP No Description 0x40 -1 read-only n 0x0 0x0 RXDATAP RX Data Peek 0 16 read-only SIGFRAMECFG No Description 0x2C -1 read-write n 0x0 0x0 SIGFRAME Signal Frame Value 0 9 read-write STARTFRAMECFG No Description 0x28 -1 read-write n 0x0 0x0 STARTFRAME Start Frame 0 9 read-write STATUS No Description 0x48 -1 read-only n 0x0 0x0 AUTOBAUDDONE Auto Baud Rate Detection Completed 24 1 read-only CLEARTXBUSY TX FIFO Clear Busy 25 1 read-only RXBLOCK Block Incoming Data 3 1 read-only RXENS Receiver Enable Status 0 1 read-only RXFL RX FIFO Level 7 1 read-only RXFULL RX FIFO Full 8 1 read-only RXIDLE RX Idle 12 1 read-only TXC TX Complete 5 1 read-only TXENS Transmitter Enable Status 1 1 read-only TXFCNT Valid entries in TX FIFO 16 5 read-only TXFL TX FIFO Level 6 1 read-only TXIDLE TX Idle 13 1 read-only TXTRI Transmitter Tristated 4 1 read-only SYNCBUSY No Description 0x54 -1 read-only n 0x0 0x0 AUTOTXTEN SYNCBUSY for AUTOTXTEN in TRIGCTRL 11 1 read-only DIV SYNCBUSY for DIV in CLKDIV 0 1 read-only RXBLOCKDIS SYNCBUSY for RXBLOCKDIS in CMD 8 1 read-only RXBLOCKEN SYNCBUSY for RXBLOCKEN in CMD 7 1 read-only RXDIS SYNCBUSY for RXDIS in CMD 4 1 read-only RXEN SYNCBUSY for RXEN in CMD 3 1 read-only RXTEN SYNCBUSY for RXTEN in TRIGCTRL 1 1 read-only TXDIS SYNCBUSY for TXDIS in CMD 6 1 read-only TXEN SYNCBUSY for TXEN in CMD 5 1 read-only TXTEN SYNCBUSY for TXTEN in TRIGCTRL 2 1 read-only TXTRIDIS SYNCBUSY in TXTRIDIS in CMD 10 1 read-only TXTRIEN SYNCBUSY for TXTRIEN in CMD 9 1 read-only TIMINGCFG No Description 0x24 -1 read-write n 0x0 0x0 CSHOLD Chip Select Hold 8 3 read-write ZERO CS is de-asserted half or 1 baud-time after the end of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is de-asserted 1 additional baud-time after the end of transmission 1 TWO CS is de-asserted 2 additional baud-times after the end of transmission 2 THREE CS is de-asserted 3 additional baud-times after the end of transmission 3 FOUR CS is de-asserted 4 additional baud-times after the end of transmission 4 FIVE CS is de-asserted 5 additional baud-times after the end of transmission 5 SIX CS is de-asserted 6 additional baud-times after the end of transmission 6 SEVEN CS is de-asserted 7 additional baud-times after the end of transmission 7 CSSETUP Chip Select Setup 4 3 read-write ZERO CS is asserted half or 1 baud-time before the start of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is asserted 1 additional baud-time before start of transmission 1 TWO CS is asserted 2 additional baud-times before start of transmission 2 THREE CS is asserted 3 additional baud-times before start of transmission 3 FOUR CS is asserted 4 additional baud-times before start of transmission 4 FIVE CS is asserted 5 additional baud-times before start of transmission 5 SIX CS is asserted 6 additional baud-times before start of transmission 6 SEVEN CS is asserted 7 additional baud-times before start of transmission 7 ICS Inter-Character Spacing 12 3 read-write ZERO There is no space between charcters 0 ONE Create a space of 1 baud-times between frames 1 TWO Create a space of 2 baud-times between frames 2 THREE Create a space of 3 baud-times between frames 3 FOUR Create a space of 4 baud-times between frames 4 FIVE Create a space of 5 baud-times between frames 5 SIX Create a space of 6 baud-times between frames 6 SEVEN Create a space of 7 baud-times between frames 7 SETUPWINDOW Setup Window 16 4 read-write TXDELAY TX Delay Transmission 0 2 read-write NONE Frames are transmitted immediately. 0 SINGLE Transmission of new frames is delayed by a single bit period. 1 DOUBLE Transmission of new frames is delayed by a two bit periods. 2 TRIPPLE Transmission of new frames is delayed by a three bit periods. 3 TRIGCTRL No Description 0x34 -1 read-write n 0x0 0x0 AUTOTXTEN AUTOTX Trigger Enable 2 1 read-write RXTEN Receive Trigger Enable 0 1 read-write TXTEN Transmit Trigger Enable 1 1 read-write TXDATA No Description 0x44 -1 write-only n 0x0 0x0 TXDATA TX Data and Control bits 0 16 write-only EUSART1_S EUSART1_S Registers EUSART1_S 0x0 0x0 0x1000 registers n EUSART1_RX 13 EUSART1_TX 14 EUSART2_RX 15 EUSART2_TX 16 CFG0 No Description 0x8 -1 read-write n 0x0 0x0 AUTOBAUDEN AUTOBAUD detection enable 31 1 read-write AUTOTRI Automatic TX Tristate 17 1 read-write DISABLE The output on UARTn_TX when the transmitter is idle is defined by TXINV 0 ENABLE UARTn_TX is tristated whenever the transmitter is idle 1 CCEN Collision Check Enable 2 1 read-write DISABLE Collision check is disabled 0 ENABLE Collision check is enabled. The receiver must be enabled for the check to be performed 1 ERRSDMA Halt DMA Read On Error 22 1 read-write DISABLE Framing and parity errors have no effect on DMA requests from the EUSART 0 ENABLE DMA requests from the EUSART are blocked while the PERR or FERR interrupt flags are set 1 ERRSRX Disable RX On Error 23 1 read-write DISABLE Framing and parity errors have no effect on receiver 0 ENABLE Framing and parity errors disable the receiver 1 ERRSTX Disable TX On Error 24 1 read-write DISABLE Received framing and parity errors have no effect on transmitter 0 ENABLE Received framing and parity errors disable the transmitter 1 LOOPBK Loopback Enable 1 1 read-write DISABLE The receiver is connected to and receives data from UARTn_RX 0 ENABLE The receiver is connected to and receives data from UARTn_TX 1 MPAB Multi-Processor Address-Bit 4 1 read-write MPM Multi-Processor Mode 3 1 read-write DISABLE The 9th bit of incoming frames has no special function 0 ENABLE An incoming frame with the 9th bit equal to MPAB will be loaded into the RX FIFO regardless of RXBLOCK and will result in the MPAB interrupt flag being set 1 MSBF Most Significant Bit First 10 1 read-write DISABLE Data is sent with the least significant bit first 0 ENABLE Data is sent with the most significant bit first 1 MVDIS Majority Vote Disable 30 1 read-write OVS Oversampling 5 3 read-write X16 16X oversampling 0 X8 8X oversampling 1 X6 6X oversampling 2 X4 4X oversampling 3 DISABLE Disable oversampling (for LF operation) 4 RXINV Receiver Input Invert 13 1 read-write DISABLE Input is passed directly to the receiver 0 ENABLE Input is inverted before it is passed to the receiver 1 SKIPPERRF Skip Parity Error Frames 20 1 read-write SYNC Synchronous Mode 0 1 read-write ASYNC The USART operates in asynchronous mode 0 SYNC The USART operates in synchronous mode 1 TXINV Transmitter output Invert 14 1 read-write DISABLE Output from the transmitter is passed unchanged to UARTn_TX 0 ENABLE Output from the transmitter is inverted before it is passed to UARTn_TX 1 CFG1 No Description 0xC -1 read-write n 0x0 0x0 CTSEN Clear-to-send Enable 2 1 read-write DISABLE Ignore CTS 0 ENABLE Stop transmitting when CTS is inactive 1 CTSINV Clear-to-send Invert Enable 1 1 read-write DISABLE The CTS pin is active low 0 ENABLE The CTS pin is active high 1 DBGHALT Debug halt 0 1 read-write DISABLE Continue normal EUSART operation even if core is halted 0 ENABLE If core is halted, receive one frame and then halt reception by deactivating RTS. Next frame reception happens when the core is unhalted during single stepping. 1 RTSINV Request-to-send Invert Enable 3 1 read-write DISABLE The RTS pin is active low 0 ENABLE The RTS pin is active high 1 RTSRXFW Request-to-send RX FIFO Watermark 22 4 read-write ONEFRAME RTS is set if there is space for at least one more frame in the RX FIFO. 0 TWOFRAMES RTS is set if there is space for at least two more frames in the RX FIFO. 1 ELEVENFRAMES RTS is set if there is space for eleven more frames in the RX FIFO. 10 TWELVEFRAMES RTS is set if there is space for twelve more frames in the RX FIFO. 11 THIRTEENFRAMES RTS is set if there is space for thirteen more frames in the RX FIFO. 12 FOURTEENFRAMES RTS is set if there is space for fourteen more frames in the RX FIFO. 13 FIFTEENFRAMES RTS is set if there is space for fifteen more frames in the RX FIFO. 14 SIXTEENFRAMES RTS is set if there is space for sixteen more frames in the RX FIFO. 15 THREEFRAMES RTS is set if there is space for at least three more frames in the RX FIFO. 2 FOURFRAMES RTS is set if there is space for four more frames in the RX FIFO. 3 FIVEFRAMES RTS is set if there is space for five more frames in the RX FIFO. 4 SIXFRAMES RTS is set if there is space for six more frames in the RX FIFO. 5 SEVENFRAMES RTS is set if there is space for seven more frames in the RX FIFO. 6 EIGHTFRAMES RTS is set if there is space for eight more frames in the RX FIFO. 7 NINEFRAMES RTS is set if there is space for nine more frames in the RX FIFO. 8 TENFRAMES RTS is set if there is space for ten more frames in the RX FIFO. 9 RXFIW RX FIFO Interrupt Watermark 27 4 read-write ONEFRAME RXFL status flag and IF are set when the RX FIFO has at least one frame in it. 0 TWOFRAMES RXFL status flag and IF are set when the RX FIFO has at least two frames in it. 1 ELEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least eleven frames in it. 10 TWELVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least twelve frames in it. 11 THIRTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least thriteen frames in it. 12 FOURTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fourteen frames in it. 13 FIFTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fifteen frames in it. 14 SIXTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least sixteen frames in it. 15 THREEFRAMES RXFL status flag and IF are set when the RX FIFO has at least three frames in it. 2 FOURFRAMES RXFL status flag and IF are set when the RX FIFO has at least four frames in it. 3 FIVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least five frames in it. 4 SIXFRAMES RXFL status flag and IF are set when the RX FIFO has at least six frames in it. 5 SEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least seven frames in it. 6 EIGHTFRAMES RXFL status flag and IF are set when the RX FIFO has at least eight frames in it. 7 NINEFRAMES RXFL status flag and IF are set when the RX FIFO has at least nine frames in it. 8 TENFRAMES RXFL status flag and IF are set when the RX FIFO has at least ten frames in it. 9 RXPRSEN PRS RX Enable 15 1 read-write RXTIMEOUT RX Timeout 4 3 read-write DISABLED 0 ONEFRAME 1 TWOFRAMES 2 THREEFRAMES 3 FOURFRAMES 4 FIVEFRAMES 5 SIXFRAMES 6 SEVENFRAMES 7 SFUBRX Start Frame Unblock Receiver 11 1 read-write TXFIW TX FIFO Interrupt Watermark 16 4 read-write ONEFRAME TXFL status flag and IF are set when the TX FIFO has space for at least one more frame. 0 TWOFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least two more frames. 1 ELEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eleven more frames. 10 TWELVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least twelve more frames. 11 THIRTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least thriteen more frames. 12 FOURTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fourteen more frames. 13 FIFTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fifteen more frames. 14 SIXTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least sixteen more frames. 15 THREEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least three more frames. 2 FOURFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least four more frames. 3 FIVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least five more frames. 4 SIXFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least six more frames. 5 SEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least seven more frames. 6 EIGHTFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eight more frames. 7 NINEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least nine more frames. 8 TENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least ten more frames. 9 CFG2 No Description 0x10 -1 read-write n 0x0 0x0 AUTOCS Automatic Chip Select 5 1 read-write AUTOTX Always Transmit When RXFIFO Not Full 4 1 read-write CLKPHA Clock Edge for Setup/Sample 2 1 read-write SAMPLELEADING Data is sampled on the leading edge and set-up on the trailing edge of the bus clock in synchronous mode 0 SAMPLETRAILING Data is set-up on the leading edge and sampled on the trailing edge of the bus clock in synchronous mode 1 CLKPOL Clock Polarity 1 1 read-write IDLELOW The bus clock used in synchronous mode has a low base value 0 IDLEHIGH The bus clock used in synchronous mode has a high base value 1 CLKPRSEN PRS CLK Enable 6 1 read-write CSINV Chip Select Invert 3 1 read-write AL Chip select is active low 0 AH Chip select is active high 1 FORCELOAD Force Load to Shift Register 7 1 read-write MASTER Master mode 0 1 read-write SLAVE Slave mode 0 MASTER Master mode 1 SDIV Sync Clock Div 24 8 read-write CLKDIV No Description 0x30 -1 read-write n 0x0 0x0 DIV Fractional Clock Divider 3 20 read-write CMD No Description 0x38 -1 write-only n 0x0 0x0 CLEARTX Clear TX FIFO 8 1 write-only RXBLOCKDIS Receiver Block Disable 5 1 write-only RXBLOCKEN Receiver Block Enable 4 1 write-only RXDIS Receiver Disable 1 1 write-only RXEN Receiver Enable 0 1 write-only TXDIS Transmitter Disable 3 1 write-only TXEN Transmitter Enable 2 1 write-only TXTRIDIS Transmitter Tristate Disable 7 1 write-only TXTRIEN Transmitter Tristate Enable 6 1 write-only DTXDATCFG No Description 0x18 -1 read-write n 0x0 0x0 DTXDAT Default TX DATA 0 16 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Module enable 0 1 read-write FRAMECFG No Description 0x14 -1 read-write n 0x0 0x0 DATABITS Data-Bit Mode 0 4 read-write SEVEN Each frame contains 7 data bits 1 SIXTEEN Each frame contains 16 data bits 10 EIGHT Each frame contains 8 data bits 2 NINE Each frame contains 9 data bits 3 TEN Each frame contains 10 data bits 4 ELEVEN Each frame contains 11 data bits 5 TWELVE Each frame contains 12 data bits 6 THIRTEEN Each frame contains 13 data bits 7 FOURTEEN Each frame contains 14 data bits 8 FIFTEEN Each frame contains 15 data bits 9 PARITY Parity-Bit Mode 8 2 read-write NONE Parity bits are not used 0 EVEN Even parity are used. Parity bits are automatically generated and checked by hardware. 2 ODD Odd parity is used. Parity bits are automatically generated and checked by hardware. 3 STOPBITS Stop-Bit Mode 12 2 read-write HALF The transmitter generates a half stop bit. Stop-bits are not verified by receiver 0 ONE One stop bit is generated and verified 1 ONEANDAHALF The transmitter generates one and a half stop bit. The receiver verifies the first stop bit 2 TWO The transmitter generates two stop bits. The receiver checks the first stop-bit only 3 IEN No Description 0x50 -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete IEN 24 1 read-write CCF Collision Check Fail IEN 12 1 read-write FERR Framing Error IEN 9 1 read-write LOADERR Load Error IEN 11 1 read-write MPAF Multi-Processor Addr Frame IEN 10 1 read-write PERR Parity Error IEN 8 1 read-write RXFL RX FIFO Level IEN 2 1 read-write RXFULL RX FIFO Full IEN 3 1 read-write RXOF RX FIFO Overflow IEN 4 1 read-write RXTO RX Timeout IEN 25 1 read-write RXUF RX FIFO Underflow IEN 5 1 read-write SIGF Signal Frame IEN 19 1 read-write STARTF Start Frame IEN 18 1 read-write TXC TX Complete IEN 0 1 read-write TXFL TX FIFO Level IEN 1 1 read-write TXIDLE TX IDLE IEN 13 1 read-write TXOF TX FIFO Overflow IEN 6 1 read-write TXUF TX FIFO Underflow IEN 7 1 read-write IF No Description 0x4C -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete Interrupt Flag 24 1 read-write CCF Collision Check Fail Interrupt Flag 12 1 read-write FERR Framing Error Interrupt Flag 9 1 read-write LOADERR Load Error Interrupt Flag 11 1 read-write MPAF Multi-Processor Address Frame Interrupt 10 1 read-write PERR Parity Error Interrupt Flag 8 1 read-write RXFL RX FIFO Level Interrupt Flag 2 1 read-write RXFULL RX FIFO Full Interrupt Flag 3 1 read-write RXOF RX FIFO Overflow Interrupt Flag 4 1 read-write RXTO RX Timeout Interrupt Flag 25 1 read-write RXUF RX FIFO Underflow Interrupt Flag 5 1 read-write SIGF Signal Frame Interrupt Flag 19 1 read-write STARTF Start Frame Interrupt Flag 18 1 read-write TXC TX Complete Interrupt Flag 0 1 read-write TXFL TX FIFO Level Interrupt Flag 1 1 read-write TXIDLE TX Idle Interrupt Flag 13 1 read-write TXOF TX FIFO Overflow Interrupt Flag 6 1 read-write TXUF TX FIFO Underflow Interrupt Flag 7 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only IRHFCFG No Description 0x1C -1 read-write n 0x0 0x0 IRHFEN Enable IrDA Module 0 1 read-write IRHFFILT IrDA RX Filter 3 1 read-write DISABLE No filter enabled 0 ENABLE Filter enabled. IrDA pulse must be high for at least 5 consecutive clock cycles to be detected 1 IRHFPW IrDA TX Pulse Width 1 2 read-write ONE IrDA pulse width is 1/16 for OVS=0 and 1/8 for OVS=1 0 TWO IrDA pulse width is 2/16 for OVS=0 and 2/8 for OVS=1 1 THREE IrDA pulse width is 3/16 for OVS=0 and 3/8 for OVS=1 2 FOUR IrDA pulse width is 4/16 for OVS=0 and 4/8 for OVS=1 3 RXDATA No Description 0x3C -1 read-only n 0x0 0x0 RXDATA RX Data and Control bits 0 16 read-only RXDATAP No Description 0x40 -1 read-only n 0x0 0x0 RXDATAP RX Data Peek 0 16 read-only SIGFRAMECFG No Description 0x2C -1 read-write n 0x0 0x0 SIGFRAME Signal Frame Value 0 9 read-write STARTFRAMECFG No Description 0x28 -1 read-write n 0x0 0x0 STARTFRAME Start Frame 0 9 read-write STATUS No Description 0x48 -1 read-only n 0x0 0x0 AUTOBAUDDONE Auto Baud Rate Detection Completed 24 1 read-only CLEARTXBUSY TX FIFO Clear Busy 25 1 read-only RXBLOCK Block Incoming Data 3 1 read-only RXENS Receiver Enable Status 0 1 read-only RXFL RX FIFO Level 7 1 read-only RXFULL RX FIFO Full 8 1 read-only RXIDLE RX Idle 12 1 read-only TXC TX Complete 5 1 read-only TXENS Transmitter Enable Status 1 1 read-only TXFCNT Valid entries in TX FIFO 16 5 read-only TXFL TX FIFO Level 6 1 read-only TXIDLE TX Idle 13 1 read-only TXTRI Transmitter Tristated 4 1 read-only SYNCBUSY No Description 0x54 -1 read-only n 0x0 0x0 AUTOTXTEN SYNCBUSY for AUTOTXTEN in TRIGCTRL 11 1 read-only DIV SYNCBUSY for DIV in CLKDIV 0 1 read-only RXBLOCKDIS SYNCBUSY for RXBLOCKDIS in CMD 8 1 read-only RXBLOCKEN SYNCBUSY for RXBLOCKEN in CMD 7 1 read-only RXDIS SYNCBUSY for RXDIS in CMD 4 1 read-only RXEN SYNCBUSY for RXEN in CMD 3 1 read-only RXTEN SYNCBUSY for RXTEN in TRIGCTRL 1 1 read-only TXDIS SYNCBUSY for TXDIS in CMD 6 1 read-only TXEN SYNCBUSY for TXEN in CMD 5 1 read-only TXTEN SYNCBUSY for TXTEN in TRIGCTRL 2 1 read-only TXTRIDIS SYNCBUSY in TXTRIDIS in CMD 10 1 read-only TXTRIEN SYNCBUSY for TXTRIEN in CMD 9 1 read-only TIMINGCFG No Description 0x24 -1 read-write n 0x0 0x0 CSHOLD Chip Select Hold 8 3 read-write ZERO CS is de-asserted half or 1 baud-time after the end of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is de-asserted 1 additional baud-time after the end of transmission 1 TWO CS is de-asserted 2 additional baud-times after the end of transmission 2 THREE CS is de-asserted 3 additional baud-times after the end of transmission 3 FOUR CS is de-asserted 4 additional baud-times after the end of transmission 4 FIVE CS is de-asserted 5 additional baud-times after the end of transmission 5 SIX CS is de-asserted 6 additional baud-times after the end of transmission 6 SEVEN CS is de-asserted 7 additional baud-times after the end of transmission 7 CSSETUP Chip Select Setup 4 3 read-write ZERO CS is asserted half or 1 baud-time before the start of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is asserted 1 additional baud-time before start of transmission 1 TWO CS is asserted 2 additional baud-times before start of transmission 2 THREE CS is asserted 3 additional baud-times before start of transmission 3 FOUR CS is asserted 4 additional baud-times before start of transmission 4 FIVE CS is asserted 5 additional baud-times before start of transmission 5 SIX CS is asserted 6 additional baud-times before start of transmission 6 SEVEN CS is asserted 7 additional baud-times before start of transmission 7 ICS Inter-Character Spacing 12 3 read-write ZERO There is no space between charcters 0 ONE Create a space of 1 baud-times between frames 1 TWO Create a space of 2 baud-times between frames 2 THREE Create a space of 3 baud-times between frames 3 FOUR Create a space of 4 baud-times between frames 4 FIVE Create a space of 5 baud-times between frames 5 SIX Create a space of 6 baud-times between frames 6 SEVEN Create a space of 7 baud-times between frames 7 SETUPWINDOW Setup Window 16 4 read-write TXDELAY TX Delay Transmission 0 2 read-write NONE Frames are transmitted immediately. 0 SINGLE Transmission of new frames is delayed by a single bit period. 1 DOUBLE Transmission of new frames is delayed by a two bit periods. 2 TRIPPLE Transmission of new frames is delayed by a three bit periods. 3 TRIGCTRL No Description 0x34 -1 read-write n 0x0 0x0 AUTOTXTEN AUTOTX Trigger Enable 2 1 read-write RXTEN Receive Trigger Enable 0 1 read-write TXTEN Transmit Trigger Enable 1 1 read-write TXDATA No Description 0x44 -1 write-only n 0x0 0x0 TXDATA TX Data and Control bits 0 16 write-only EUSART2_NS EUSART2_NS Registers EUSART2_NS 0x0 0x0 0x1000 registers n CFG0 No Description 0x8 -1 read-write n 0x0 0x0 AUTOBAUDEN AUTOBAUD detection enable 31 1 read-write AUTOTRI Automatic TX Tristate 17 1 read-write DISABLE The output on UARTn_TX when the transmitter is idle is defined by TXINV 0 ENABLE UARTn_TX is tristated whenever the transmitter is idle 1 CCEN Collision Check Enable 2 1 read-write DISABLE Collision check is disabled 0 ENABLE Collision check is enabled. The receiver must be enabled for the check to be performed 1 ERRSDMA Halt DMA Read On Error 22 1 read-write DISABLE Framing and parity errors have no effect on DMA requests from the EUSART 0 ENABLE DMA requests from the EUSART are blocked while the PERR or FERR interrupt flags are set 1 ERRSRX Disable RX On Error 23 1 read-write DISABLE Framing and parity errors have no effect on receiver 0 ENABLE Framing and parity errors disable the receiver 1 ERRSTX Disable TX On Error 24 1 read-write DISABLE Received framing and parity errors have no effect on transmitter 0 ENABLE Received framing and parity errors disable the transmitter 1 LOOPBK Loopback Enable 1 1 read-write DISABLE The receiver is connected to and receives data from UARTn_RX 0 ENABLE The receiver is connected to and receives data from UARTn_TX 1 MPAB Multi-Processor Address-Bit 4 1 read-write MPM Multi-Processor Mode 3 1 read-write DISABLE The 9th bit of incoming frames has no special function 0 ENABLE An incoming frame with the 9th bit equal to MPAB will be loaded into the RX FIFO regardless of RXBLOCK and will result in the MPAB interrupt flag being set 1 MSBF Most Significant Bit First 10 1 read-write DISABLE Data is sent with the least significant bit first 0 ENABLE Data is sent with the most significant bit first 1 MVDIS Majority Vote Disable 30 1 read-write OVS Oversampling 5 3 read-write X16 16X oversampling 0 X8 8X oversampling 1 X6 6X oversampling 2 X4 4X oversampling 3 DISABLE Disable oversampling (for LF operation) 4 RXINV Receiver Input Invert 13 1 read-write DISABLE Input is passed directly to the receiver 0 ENABLE Input is inverted before it is passed to the receiver 1 SKIPPERRF Skip Parity Error Frames 20 1 read-write SYNC Synchronous Mode 0 1 read-write ASYNC The USART operates in asynchronous mode 0 SYNC The USART operates in synchronous mode 1 TXINV Transmitter output Invert 14 1 read-write DISABLE Output from the transmitter is passed unchanged to UARTn_TX 0 ENABLE Output from the transmitter is inverted before it is passed to UARTn_TX 1 CFG1 No Description 0xC -1 read-write n 0x0 0x0 CTSEN Clear-to-send Enable 2 1 read-write DISABLE Ignore CTS 0 ENABLE Stop transmitting when CTS is inactive 1 CTSINV Clear-to-send Invert Enable 1 1 read-write DISABLE The CTS pin is active low 0 ENABLE The CTS pin is active high 1 DBGHALT Debug halt 0 1 read-write DISABLE Continue normal EUSART operation even if core is halted 0 ENABLE If core is halted, receive one frame and then halt reception by deactivating RTS. Next frame reception happens when the core is unhalted during single stepping. 1 RTSINV Request-to-send Invert Enable 3 1 read-write DISABLE The RTS pin is active low 0 ENABLE The RTS pin is active high 1 RTSRXFW Request-to-send RX FIFO Watermark 22 4 read-write ONEFRAME RTS is set if there is space for at least one more frame in the RX FIFO. 0 TWOFRAMES RTS is set if there is space for at least two more frames in the RX FIFO. 1 ELEVENFRAMES RTS is set if there is space for eleven more frames in the RX FIFO. 10 TWELVEFRAMES RTS is set if there is space for twelve more frames in the RX FIFO. 11 THIRTEENFRAMES RTS is set if there is space for thirteen more frames in the RX FIFO. 12 FOURTEENFRAMES RTS is set if there is space for fourteen more frames in the RX FIFO. 13 FIFTEENFRAMES RTS is set if there is space for fifteen more frames in the RX FIFO. 14 SIXTEENFRAMES RTS is set if there is space for sixteen more frames in the RX FIFO. 15 THREEFRAMES RTS is set if there is space for at least three more frames in the RX FIFO. 2 FOURFRAMES RTS is set if there is space for four more frames in the RX FIFO. 3 FIVEFRAMES RTS is set if there is space for five more frames in the RX FIFO. 4 SIXFRAMES RTS is set if there is space for six more frames in the RX FIFO. 5 SEVENFRAMES RTS is set if there is space for seven more frames in the RX FIFO. 6 EIGHTFRAMES RTS is set if there is space for eight more frames in the RX FIFO. 7 NINEFRAMES RTS is set if there is space for nine more frames in the RX FIFO. 8 TENFRAMES RTS is set if there is space for ten more frames in the RX FIFO. 9 RXFIW RX FIFO Interrupt Watermark 27 4 read-write ONEFRAME RXFL status flag and IF are set when the RX FIFO has at least one frame in it. 0 TWOFRAMES RXFL status flag and IF are set when the RX FIFO has at least two frames in it. 1 ELEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least eleven frames in it. 10 TWELVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least twelve frames in it. 11 THIRTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least thriteen frames in it. 12 FOURTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fourteen frames in it. 13 FIFTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fifteen frames in it. 14 SIXTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least sixteen frames in it. 15 THREEFRAMES RXFL status flag and IF are set when the RX FIFO has at least three frames in it. 2 FOURFRAMES RXFL status flag and IF are set when the RX FIFO has at least four frames in it. 3 FIVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least five frames in it. 4 SIXFRAMES RXFL status flag and IF are set when the RX FIFO has at least six frames in it. 5 SEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least seven frames in it. 6 EIGHTFRAMES RXFL status flag and IF are set when the RX FIFO has at least eight frames in it. 7 NINEFRAMES RXFL status flag and IF are set when the RX FIFO has at least nine frames in it. 8 TENFRAMES RXFL status flag and IF are set when the RX FIFO has at least ten frames in it. 9 RXPRSEN PRS RX Enable 15 1 read-write RXTIMEOUT RX Timeout 4 3 read-write DISABLED 0 ONEFRAME 1 TWOFRAMES 2 THREEFRAMES 3 FOURFRAMES 4 FIVEFRAMES 5 SIXFRAMES 6 SEVENFRAMES 7 SFUBRX Start Frame Unblock Receiver 11 1 read-write TXFIW TX FIFO Interrupt Watermark 16 4 read-write ONEFRAME TXFL status flag and IF are set when the TX FIFO has space for at least one more frame. 0 TWOFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least two more frames. 1 ELEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eleven more frames. 10 TWELVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least twelve more frames. 11 THIRTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least thriteen more frames. 12 FOURTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fourteen more frames. 13 FIFTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fifteen more frames. 14 SIXTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least sixteen more frames. 15 THREEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least three more frames. 2 FOURFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least four more frames. 3 FIVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least five more frames. 4 SIXFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least six more frames. 5 SEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least seven more frames. 6 EIGHTFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eight more frames. 7 NINEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least nine more frames. 8 TENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least ten more frames. 9 CFG2 No Description 0x10 -1 read-write n 0x0 0x0 AUTOCS Automatic Chip Select 5 1 read-write AUTOTX Always Transmit When RXFIFO Not Full 4 1 read-write CLKPHA Clock Edge for Setup/Sample 2 1 read-write SAMPLELEADING Data is sampled on the leading edge and set-up on the trailing edge of the bus clock in synchronous mode 0 SAMPLETRAILING Data is set-up on the leading edge and sampled on the trailing edge of the bus clock in synchronous mode 1 CLKPOL Clock Polarity 1 1 read-write IDLELOW The bus clock used in synchronous mode has a low base value 0 IDLEHIGH The bus clock used in synchronous mode has a high base value 1 CLKPRSEN PRS CLK Enable 6 1 read-write CSINV Chip Select Invert 3 1 read-write AL Chip select is active low 0 AH Chip select is active high 1 FORCELOAD Force Load to Shift Register 7 1 read-write MASTER Master mode 0 1 read-write SLAVE Slave mode 0 MASTER Master mode 1 SDIV Sync Clock Div 24 8 read-write CLKDIV No Description 0x30 -1 read-write n 0x0 0x0 DIV Fractional Clock Divider 3 20 read-write CMD No Description 0x38 -1 write-only n 0x0 0x0 CLEARTX Clear TX FIFO 8 1 write-only RXBLOCKDIS Receiver Block Disable 5 1 write-only RXBLOCKEN Receiver Block Enable 4 1 write-only RXDIS Receiver Disable 1 1 write-only RXEN Receiver Enable 0 1 write-only TXDIS Transmitter Disable 3 1 write-only TXEN Transmitter Enable 2 1 write-only TXTRIDIS Transmitter Tristate Disable 7 1 write-only TXTRIEN Transmitter Tristate Enable 6 1 write-only DTXDATCFG No Description 0x18 -1 read-write n 0x0 0x0 DTXDAT Default TX DATA 0 16 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Module enable 0 1 read-write FRAMECFG No Description 0x14 -1 read-write n 0x0 0x0 DATABITS Data-Bit Mode 0 4 read-write SEVEN Each frame contains 7 data bits 1 SIXTEEN Each frame contains 16 data bits 10 EIGHT Each frame contains 8 data bits 2 NINE Each frame contains 9 data bits 3 TEN Each frame contains 10 data bits 4 ELEVEN Each frame contains 11 data bits 5 TWELVE Each frame contains 12 data bits 6 THIRTEEN Each frame contains 13 data bits 7 FOURTEEN Each frame contains 14 data bits 8 FIFTEEN Each frame contains 15 data bits 9 PARITY Parity-Bit Mode 8 2 read-write NONE Parity bits are not used 0 EVEN Even parity are used. Parity bits are automatically generated and checked by hardware. 2 ODD Odd parity is used. Parity bits are automatically generated and checked by hardware. 3 STOPBITS Stop-Bit Mode 12 2 read-write HALF The transmitter generates a half stop bit. Stop-bits are not verified by receiver 0 ONE One stop bit is generated and verified 1 ONEANDAHALF The transmitter generates one and a half stop bit. The receiver verifies the first stop bit 2 TWO The transmitter generates two stop bits. The receiver checks the first stop-bit only 3 IEN No Description 0x50 -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete IEN 24 1 read-write CCF Collision Check Fail IEN 12 1 read-write FERR Framing Error IEN 9 1 read-write LOADERR Load Error IEN 11 1 read-write MPAF Multi-Processor Addr Frame IEN 10 1 read-write PERR Parity Error IEN 8 1 read-write RXFL RX FIFO Level IEN 2 1 read-write RXFULL RX FIFO Full IEN 3 1 read-write RXOF RX FIFO Overflow IEN 4 1 read-write RXTO RX Timeout IEN 25 1 read-write RXUF RX FIFO Underflow IEN 5 1 read-write SIGF Signal Frame IEN 19 1 read-write STARTF Start Frame IEN 18 1 read-write TXC TX Complete IEN 0 1 read-write TXFL TX FIFO Level IEN 1 1 read-write TXIDLE TX IDLE IEN 13 1 read-write TXOF TX FIFO Overflow IEN 6 1 read-write TXUF TX FIFO Underflow IEN 7 1 read-write IF No Description 0x4C -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete Interrupt Flag 24 1 read-write CCF Collision Check Fail Interrupt Flag 12 1 read-write FERR Framing Error Interrupt Flag 9 1 read-write LOADERR Load Error Interrupt Flag 11 1 read-write MPAF Multi-Processor Address Frame Interrupt 10 1 read-write PERR Parity Error Interrupt Flag 8 1 read-write RXFL RX FIFO Level Interrupt Flag 2 1 read-write RXFULL RX FIFO Full Interrupt Flag 3 1 read-write RXOF RX FIFO Overflow Interrupt Flag 4 1 read-write RXTO RX Timeout Interrupt Flag 25 1 read-write RXUF RX FIFO Underflow Interrupt Flag 5 1 read-write SIGF Signal Frame Interrupt Flag 19 1 read-write STARTF Start Frame Interrupt Flag 18 1 read-write TXC TX Complete Interrupt Flag 0 1 read-write TXFL TX FIFO Level Interrupt Flag 1 1 read-write TXIDLE TX Idle Interrupt Flag 13 1 read-write TXOF TX FIFO Overflow Interrupt Flag 6 1 read-write TXUF TX FIFO Underflow Interrupt Flag 7 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only IRHFCFG No Description 0x1C -1 read-write n 0x0 0x0 IRHFEN Enable IrDA Module 0 1 read-write IRHFFILT IrDA RX Filter 3 1 read-write DISABLE No filter enabled 0 ENABLE Filter enabled. IrDA pulse must be high for at least 5 consecutive clock cycles to be detected 1 IRHFPW IrDA TX Pulse Width 1 2 read-write ONE IrDA pulse width is 1/16 for OVS=0 and 1/8 for OVS=1 0 TWO IrDA pulse width is 2/16 for OVS=0 and 2/8 for OVS=1 1 THREE IrDA pulse width is 3/16 for OVS=0 and 3/8 for OVS=1 2 FOUR IrDA pulse width is 4/16 for OVS=0 and 4/8 for OVS=1 3 RXDATA No Description 0x3C -1 read-only n 0x0 0x0 RXDATA RX Data and Control bits 0 16 read-only RXDATAP No Description 0x40 -1 read-only n 0x0 0x0 RXDATAP RX Data Peek 0 16 read-only SIGFRAMECFG No Description 0x2C -1 read-write n 0x0 0x0 SIGFRAME Signal Frame Value 0 9 read-write STARTFRAMECFG No Description 0x28 -1 read-write n 0x0 0x0 STARTFRAME Start Frame 0 9 read-write STATUS No Description 0x48 -1 read-only n 0x0 0x0 AUTOBAUDDONE Auto Baud Rate Detection Completed 24 1 read-only CLEARTXBUSY TX FIFO Clear Busy 25 1 read-only RXBLOCK Block Incoming Data 3 1 read-only RXENS Receiver Enable Status 0 1 read-only RXFL RX FIFO Level 7 1 read-only RXFULL RX FIFO Full 8 1 read-only RXIDLE RX Idle 12 1 read-only TXC TX Complete 5 1 read-only TXENS Transmitter Enable Status 1 1 read-only TXFCNT Valid entries in TX FIFO 16 5 read-only TXFL TX FIFO Level 6 1 read-only TXIDLE TX Idle 13 1 read-only TXTRI Transmitter Tristated 4 1 read-only SYNCBUSY No Description 0x54 -1 read-only n 0x0 0x0 AUTOTXTEN SYNCBUSY for AUTOTXTEN in TRIGCTRL 11 1 read-only DIV SYNCBUSY for DIV in CLKDIV 0 1 read-only RXBLOCKDIS SYNCBUSY for RXBLOCKDIS in CMD 8 1 read-only RXBLOCKEN SYNCBUSY for RXBLOCKEN in CMD 7 1 read-only RXDIS SYNCBUSY for RXDIS in CMD 4 1 read-only RXEN SYNCBUSY for RXEN in CMD 3 1 read-only RXTEN SYNCBUSY for RXTEN in TRIGCTRL 1 1 read-only TXDIS SYNCBUSY for TXDIS in CMD 6 1 read-only TXEN SYNCBUSY for TXEN in CMD 5 1 read-only TXTEN SYNCBUSY for TXTEN in TRIGCTRL 2 1 read-only TXTRIDIS SYNCBUSY in TXTRIDIS in CMD 10 1 read-only TXTRIEN SYNCBUSY for TXTRIEN in CMD 9 1 read-only TIMINGCFG No Description 0x24 -1 read-write n 0x0 0x0 CSHOLD Chip Select Hold 8 3 read-write ZERO CS is de-asserted half or 1 baud-time after the end of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is de-asserted 1 additional baud-time after the end of transmission 1 TWO CS is de-asserted 2 additional baud-times after the end of transmission 2 THREE CS is de-asserted 3 additional baud-times after the end of transmission 3 FOUR CS is de-asserted 4 additional baud-times after the end of transmission 4 FIVE CS is de-asserted 5 additional baud-times after the end of transmission 5 SIX CS is de-asserted 6 additional baud-times after the end of transmission 6 SEVEN CS is de-asserted 7 additional baud-times after the end of transmission 7 CSSETUP Chip Select Setup 4 3 read-write ZERO CS is asserted half or 1 baud-time before the start of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is asserted 1 additional baud-time before start of transmission 1 TWO CS is asserted 2 additional baud-times before start of transmission 2 THREE CS is asserted 3 additional baud-times before start of transmission 3 FOUR CS is asserted 4 additional baud-times before start of transmission 4 FIVE CS is asserted 5 additional baud-times before start of transmission 5 SIX CS is asserted 6 additional baud-times before start of transmission 6 SEVEN CS is asserted 7 additional baud-times before start of transmission 7 ICS Inter-Character Spacing 12 3 read-write ZERO There is no space between charcters 0 ONE Create a space of 1 baud-times between frames 1 TWO Create a space of 2 baud-times between frames 2 THREE Create a space of 3 baud-times between frames 3 FOUR Create a space of 4 baud-times between frames 4 FIVE Create a space of 5 baud-times between frames 5 SIX Create a space of 6 baud-times between frames 6 SEVEN Create a space of 7 baud-times between frames 7 SETUPWINDOW Setup Window 16 4 read-write TXDELAY TX Delay Transmission 0 2 read-write NONE Frames are transmitted immediately. 0 SINGLE Transmission of new frames is delayed by a single bit period. 1 DOUBLE Transmission of new frames is delayed by a two bit periods. 2 TRIPPLE Transmission of new frames is delayed by a three bit periods. 3 TRIGCTRL No Description 0x34 -1 read-write n 0x0 0x0 AUTOTXTEN AUTOTX Trigger Enable 2 1 read-write RXTEN Receive Trigger Enable 0 1 read-write TXTEN Transmit Trigger Enable 1 1 read-write TXDATA No Description 0x44 -1 write-only n 0x0 0x0 TXDATA TX Data and Control bits 0 16 write-only EUSART2_S EUSART2_S Registers EUSART2_S 0x0 0x0 0x1000 registers n CFG0 No Description 0x8 -1 read-write n 0x0 0x0 AUTOBAUDEN AUTOBAUD detection enable 31 1 read-write AUTOTRI Automatic TX Tristate 17 1 read-write DISABLE The output on UARTn_TX when the transmitter is idle is defined by TXINV 0 ENABLE UARTn_TX is tristated whenever the transmitter is idle 1 CCEN Collision Check Enable 2 1 read-write DISABLE Collision check is disabled 0 ENABLE Collision check is enabled. The receiver must be enabled for the check to be performed 1 ERRSDMA Halt DMA Read On Error 22 1 read-write DISABLE Framing and parity errors have no effect on DMA requests from the EUSART 0 ENABLE DMA requests from the EUSART are blocked while the PERR or FERR interrupt flags are set 1 ERRSRX Disable RX On Error 23 1 read-write DISABLE Framing and parity errors have no effect on receiver 0 ENABLE Framing and parity errors disable the receiver 1 ERRSTX Disable TX On Error 24 1 read-write DISABLE Received framing and parity errors have no effect on transmitter 0 ENABLE Received framing and parity errors disable the transmitter 1 LOOPBK Loopback Enable 1 1 read-write DISABLE The receiver is connected to and receives data from UARTn_RX 0 ENABLE The receiver is connected to and receives data from UARTn_TX 1 MPAB Multi-Processor Address-Bit 4 1 read-write MPM Multi-Processor Mode 3 1 read-write DISABLE The 9th bit of incoming frames has no special function 0 ENABLE An incoming frame with the 9th bit equal to MPAB will be loaded into the RX FIFO regardless of RXBLOCK and will result in the MPAB interrupt flag being set 1 MSBF Most Significant Bit First 10 1 read-write DISABLE Data is sent with the least significant bit first 0 ENABLE Data is sent with the most significant bit first 1 MVDIS Majority Vote Disable 30 1 read-write OVS Oversampling 5 3 read-write X16 16X oversampling 0 X8 8X oversampling 1 X6 6X oversampling 2 X4 4X oversampling 3 DISABLE Disable oversampling (for LF operation) 4 RXINV Receiver Input Invert 13 1 read-write DISABLE Input is passed directly to the receiver 0 ENABLE Input is inverted before it is passed to the receiver 1 SKIPPERRF Skip Parity Error Frames 20 1 read-write SYNC Synchronous Mode 0 1 read-write ASYNC The USART operates in asynchronous mode 0 SYNC The USART operates in synchronous mode 1 TXINV Transmitter output Invert 14 1 read-write DISABLE Output from the transmitter is passed unchanged to UARTn_TX 0 ENABLE Output from the transmitter is inverted before it is passed to UARTn_TX 1 CFG1 No Description 0xC -1 read-write n 0x0 0x0 CTSEN Clear-to-send Enable 2 1 read-write DISABLE Ignore CTS 0 ENABLE Stop transmitting when CTS is inactive 1 CTSINV Clear-to-send Invert Enable 1 1 read-write DISABLE The CTS pin is active low 0 ENABLE The CTS pin is active high 1 DBGHALT Debug halt 0 1 read-write DISABLE Continue normal EUSART operation even if core is halted 0 ENABLE If core is halted, receive one frame and then halt reception by deactivating RTS. Next frame reception happens when the core is unhalted during single stepping. 1 RTSINV Request-to-send Invert Enable 3 1 read-write DISABLE The RTS pin is active low 0 ENABLE The RTS pin is active high 1 RTSRXFW Request-to-send RX FIFO Watermark 22 4 read-write ONEFRAME RTS is set if there is space for at least one more frame in the RX FIFO. 0 TWOFRAMES RTS is set if there is space for at least two more frames in the RX FIFO. 1 ELEVENFRAMES RTS is set if there is space for eleven more frames in the RX FIFO. 10 TWELVEFRAMES RTS is set if there is space for twelve more frames in the RX FIFO. 11 THIRTEENFRAMES RTS is set if there is space for thirteen more frames in the RX FIFO. 12 FOURTEENFRAMES RTS is set if there is space for fourteen more frames in the RX FIFO. 13 FIFTEENFRAMES RTS is set if there is space for fifteen more frames in the RX FIFO. 14 SIXTEENFRAMES RTS is set if there is space for sixteen more frames in the RX FIFO. 15 THREEFRAMES RTS is set if there is space for at least three more frames in the RX FIFO. 2 FOURFRAMES RTS is set if there is space for four more frames in the RX FIFO. 3 FIVEFRAMES RTS is set if there is space for five more frames in the RX FIFO. 4 SIXFRAMES RTS is set if there is space for six more frames in the RX FIFO. 5 SEVENFRAMES RTS is set if there is space for seven more frames in the RX FIFO. 6 EIGHTFRAMES RTS is set if there is space for eight more frames in the RX FIFO. 7 NINEFRAMES RTS is set if there is space for nine more frames in the RX FIFO. 8 TENFRAMES RTS is set if there is space for ten more frames in the RX FIFO. 9 RXFIW RX FIFO Interrupt Watermark 27 4 read-write ONEFRAME RXFL status flag and IF are set when the RX FIFO has at least one frame in it. 0 TWOFRAMES RXFL status flag and IF are set when the RX FIFO has at least two frames in it. 1 ELEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least eleven frames in it. 10 TWELVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least twelve frames in it. 11 THIRTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least thriteen frames in it. 12 FOURTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fourteen frames in it. 13 FIFTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least fifteen frames in it. 14 SIXTEENFRAMES RXFL status flag and IF are set when the RX FIFO has at least sixteen frames in it. 15 THREEFRAMES RXFL status flag and IF are set when the RX FIFO has at least three frames in it. 2 FOURFRAMES RXFL status flag and IF are set when the RX FIFO has at least four frames in it. 3 FIVEFRAMES RXFL status flag and IF are set when the RX FIFO has at least five frames in it. 4 SIXFRAMES RXFL status flag and IF are set when the RX FIFO has at least six frames in it. 5 SEVENFRAMES RXFL status flag and IF are set when the RX FIFO has at least seven frames in it. 6 EIGHTFRAMES RXFL status flag and IF are set when the RX FIFO has at least eight frames in it. 7 NINEFRAMES RXFL status flag and IF are set when the RX FIFO has at least nine frames in it. 8 TENFRAMES RXFL status flag and IF are set when the RX FIFO has at least ten frames in it. 9 RXPRSEN PRS RX Enable 15 1 read-write RXTIMEOUT RX Timeout 4 3 read-write DISABLED 0 ONEFRAME 1 TWOFRAMES 2 THREEFRAMES 3 FOURFRAMES 4 FIVEFRAMES 5 SIXFRAMES 6 SEVENFRAMES 7 SFUBRX Start Frame Unblock Receiver 11 1 read-write TXFIW TX FIFO Interrupt Watermark 16 4 read-write ONEFRAME TXFL status flag and IF are set when the TX FIFO has space for at least one more frame. 0 TWOFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least two more frames. 1 ELEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eleven more frames. 10 TWELVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least twelve more frames. 11 THIRTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least thriteen more frames. 12 FOURTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fourteen more frames. 13 FIFTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least fifteen more frames. 14 SIXTEENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least sixteen more frames. 15 THREEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least three more frames. 2 FOURFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least four more frames. 3 FIVEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least five more frames. 4 SIXFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least six more frames. 5 SEVENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least seven more frames. 6 EIGHTFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least eight more frames. 7 NINEFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least nine more frames. 8 TENFRAMES TXFL status flag and IF are set when the TX FIFO has space for at least ten more frames. 9 CFG2 No Description 0x10 -1 read-write n 0x0 0x0 AUTOCS Automatic Chip Select 5 1 read-write AUTOTX Always Transmit When RXFIFO Not Full 4 1 read-write CLKPHA Clock Edge for Setup/Sample 2 1 read-write SAMPLELEADING Data is sampled on the leading edge and set-up on the trailing edge of the bus clock in synchronous mode 0 SAMPLETRAILING Data is set-up on the leading edge and sampled on the trailing edge of the bus clock in synchronous mode 1 CLKPOL Clock Polarity 1 1 read-write IDLELOW The bus clock used in synchronous mode has a low base value 0 IDLEHIGH The bus clock used in synchronous mode has a high base value 1 CLKPRSEN PRS CLK Enable 6 1 read-write CSINV Chip Select Invert 3 1 read-write AL Chip select is active low 0 AH Chip select is active high 1 FORCELOAD Force Load to Shift Register 7 1 read-write MASTER Master mode 0 1 read-write SLAVE Slave mode 0 MASTER Master mode 1 SDIV Sync Clock Div 24 8 read-write CLKDIV No Description 0x30 -1 read-write n 0x0 0x0 DIV Fractional Clock Divider 3 20 read-write CMD No Description 0x38 -1 write-only n 0x0 0x0 CLEARTX Clear TX FIFO 8 1 write-only RXBLOCKDIS Receiver Block Disable 5 1 write-only RXBLOCKEN Receiver Block Enable 4 1 write-only RXDIS Receiver Disable 1 1 write-only RXEN Receiver Enable 0 1 write-only TXDIS Transmitter Disable 3 1 write-only TXEN Transmitter Enable 2 1 write-only TXTRIDIS Transmitter Tristate Disable 7 1 write-only TXTRIEN Transmitter Tristate Enable 6 1 write-only DTXDATCFG No Description 0x18 -1 read-write n 0x0 0x0 DTXDAT Default TX DATA 0 16 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Module enable 0 1 read-write FRAMECFG No Description 0x14 -1 read-write n 0x0 0x0 DATABITS Data-Bit Mode 0 4 read-write SEVEN Each frame contains 7 data bits 1 SIXTEEN Each frame contains 16 data bits 10 EIGHT Each frame contains 8 data bits 2 NINE Each frame contains 9 data bits 3 TEN Each frame contains 10 data bits 4 ELEVEN Each frame contains 11 data bits 5 TWELVE Each frame contains 12 data bits 6 THIRTEEN Each frame contains 13 data bits 7 FOURTEEN Each frame contains 14 data bits 8 FIFTEEN Each frame contains 15 data bits 9 PARITY Parity-Bit Mode 8 2 read-write NONE Parity bits are not used 0 EVEN Even parity are used. Parity bits are automatically generated and checked by hardware. 2 ODD Odd parity is used. Parity bits are automatically generated and checked by hardware. 3 STOPBITS Stop-Bit Mode 12 2 read-write HALF The transmitter generates a half stop bit. Stop-bits are not verified by receiver 0 ONE One stop bit is generated and verified 1 ONEANDAHALF The transmitter generates one and a half stop bit. The receiver verifies the first stop bit 2 TWO The transmitter generates two stop bits. The receiver checks the first stop-bit only 3 IEN No Description 0x50 -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete IEN 24 1 read-write CCF Collision Check Fail IEN 12 1 read-write FERR Framing Error IEN 9 1 read-write LOADERR Load Error IEN 11 1 read-write MPAF Multi-Processor Addr Frame IEN 10 1 read-write PERR Parity Error IEN 8 1 read-write RXFL RX FIFO Level IEN 2 1 read-write RXFULL RX FIFO Full IEN 3 1 read-write RXOF RX FIFO Overflow IEN 4 1 read-write RXTO RX Timeout IEN 25 1 read-write RXUF RX FIFO Underflow IEN 5 1 read-write SIGF Signal Frame IEN 19 1 read-write STARTF Start Frame IEN 18 1 read-write TXC TX Complete IEN 0 1 read-write TXFL TX FIFO Level IEN 1 1 read-write TXIDLE TX IDLE IEN 13 1 read-write TXOF TX FIFO Overflow IEN 6 1 read-write TXUF TX FIFO Underflow IEN 7 1 read-write IF No Description 0x4C -1 read-write n 0x0 0x0 AUTOBAUDDONE Auto Baud Complete Interrupt Flag 24 1 read-write CCF Collision Check Fail Interrupt Flag 12 1 read-write FERR Framing Error Interrupt Flag 9 1 read-write LOADERR Load Error Interrupt Flag 11 1 read-write MPAF Multi-Processor Address Frame Interrupt 10 1 read-write PERR Parity Error Interrupt Flag 8 1 read-write RXFL RX FIFO Level Interrupt Flag 2 1 read-write RXFULL RX FIFO Full Interrupt Flag 3 1 read-write RXOF RX FIFO Overflow Interrupt Flag 4 1 read-write RXTO RX Timeout Interrupt Flag 25 1 read-write RXUF RX FIFO Underflow Interrupt Flag 5 1 read-write SIGF Signal Frame Interrupt Flag 19 1 read-write STARTF Start Frame Interrupt Flag 18 1 read-write TXC TX Complete Interrupt Flag 0 1 read-write TXFL TX FIFO Level Interrupt Flag 1 1 read-write TXIDLE TX Idle Interrupt Flag 13 1 read-write TXOF TX FIFO Overflow Interrupt Flag 6 1 read-write TXUF TX FIFO Underflow Interrupt Flag 7 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only IRHFCFG No Description 0x1C -1 read-write n 0x0 0x0 IRHFEN Enable IrDA Module 0 1 read-write IRHFFILT IrDA RX Filter 3 1 read-write DISABLE No filter enabled 0 ENABLE Filter enabled. IrDA pulse must be high for at least 5 consecutive clock cycles to be detected 1 IRHFPW IrDA TX Pulse Width 1 2 read-write ONE IrDA pulse width is 1/16 for OVS=0 and 1/8 for OVS=1 0 TWO IrDA pulse width is 2/16 for OVS=0 and 2/8 for OVS=1 1 THREE IrDA pulse width is 3/16 for OVS=0 and 3/8 for OVS=1 2 FOUR IrDA pulse width is 4/16 for OVS=0 and 4/8 for OVS=1 3 RXDATA No Description 0x3C -1 read-only n 0x0 0x0 RXDATA RX Data and Control bits 0 16 read-only RXDATAP No Description 0x40 -1 read-only n 0x0 0x0 RXDATAP RX Data Peek 0 16 read-only SIGFRAMECFG No Description 0x2C -1 read-write n 0x0 0x0 SIGFRAME Signal Frame Value 0 9 read-write STARTFRAMECFG No Description 0x28 -1 read-write n 0x0 0x0 STARTFRAME Start Frame 0 9 read-write STATUS No Description 0x48 -1 read-only n 0x0 0x0 AUTOBAUDDONE Auto Baud Rate Detection Completed 24 1 read-only CLEARTXBUSY TX FIFO Clear Busy 25 1 read-only RXBLOCK Block Incoming Data 3 1 read-only RXENS Receiver Enable Status 0 1 read-only RXFL RX FIFO Level 7 1 read-only RXFULL RX FIFO Full 8 1 read-only RXIDLE RX Idle 12 1 read-only TXC TX Complete 5 1 read-only TXENS Transmitter Enable Status 1 1 read-only TXFCNT Valid entries in TX FIFO 16 5 read-only TXFL TX FIFO Level 6 1 read-only TXIDLE TX Idle 13 1 read-only TXTRI Transmitter Tristated 4 1 read-only SYNCBUSY No Description 0x54 -1 read-only n 0x0 0x0 AUTOTXTEN SYNCBUSY for AUTOTXTEN in TRIGCTRL 11 1 read-only DIV SYNCBUSY for DIV in CLKDIV 0 1 read-only RXBLOCKDIS SYNCBUSY for RXBLOCKDIS in CMD 8 1 read-only RXBLOCKEN SYNCBUSY for RXBLOCKEN in CMD 7 1 read-only RXDIS SYNCBUSY for RXDIS in CMD 4 1 read-only RXEN SYNCBUSY for RXEN in CMD 3 1 read-only RXTEN SYNCBUSY for RXTEN in TRIGCTRL 1 1 read-only TXDIS SYNCBUSY for TXDIS in CMD 6 1 read-only TXEN SYNCBUSY for TXEN in CMD 5 1 read-only TXTEN SYNCBUSY for TXTEN in TRIGCTRL 2 1 read-only TXTRIDIS SYNCBUSY in TXTRIDIS in CMD 10 1 read-only TXTRIEN SYNCBUSY for TXTRIEN in CMD 9 1 read-only TIMINGCFG No Description 0x24 -1 read-write n 0x0 0x0 CSHOLD Chip Select Hold 8 3 read-write ZERO CS is de-asserted half or 1 baud-time after the end of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is de-asserted 1 additional baud-time after the end of transmission 1 TWO CS is de-asserted 2 additional baud-times after the end of transmission 2 THREE CS is de-asserted 3 additional baud-times after the end of transmission 3 FOUR CS is de-asserted 4 additional baud-times after the end of transmission 4 FIVE CS is de-asserted 5 additional baud-times after the end of transmission 5 SIX CS is de-asserted 6 additional baud-times after the end of transmission 6 SEVEN CS is de-asserted 7 additional baud-times after the end of transmission 7 CSSETUP Chip Select Setup 4 3 read-write ZERO CS is asserted half or 1 baud-time before the start of transmission depending on CLKPHASE equal to 1 or 0 respectively 0 ONE CS is asserted 1 additional baud-time before start of transmission 1 TWO CS is asserted 2 additional baud-times before start of transmission 2 THREE CS is asserted 3 additional baud-times before start of transmission 3 FOUR CS is asserted 4 additional baud-times before start of transmission 4 FIVE CS is asserted 5 additional baud-times before start of transmission 5 SIX CS is asserted 6 additional baud-times before start of transmission 6 SEVEN CS is asserted 7 additional baud-times before start of transmission 7 ICS Inter-Character Spacing 12 3 read-write ZERO There is no space between charcters 0 ONE Create a space of 1 baud-times between frames 1 TWO Create a space of 2 baud-times between frames 2 THREE Create a space of 3 baud-times between frames 3 FOUR Create a space of 4 baud-times between frames 4 FIVE Create a space of 5 baud-times between frames 5 SIX Create a space of 6 baud-times between frames 6 SEVEN Create a space of 7 baud-times between frames 7 SETUPWINDOW Setup Window 16 4 read-write TXDELAY TX Delay Transmission 0 2 read-write NONE Frames are transmitted immediately. 0 SINGLE Transmission of new frames is delayed by a single bit period. 1 DOUBLE Transmission of new frames is delayed by a two bit periods. 2 TRIPPLE Transmission of new frames is delayed by a three bit periods. 3 TRIGCTRL No Description 0x34 -1 read-write n 0x0 0x0 AUTOTXTEN AUTOTX Trigger Enable 2 1 read-write RXTEN Receive Trigger Enable 0 1 read-write TXTEN Transmit Trigger Enable 1 1 read-write TXDATA No Description 0x44 -1 write-only n 0x0 0x0 TXDATA TX Data and Control bits 0 16 write-only FSRCO_NS FSRCO_NS Registers FSRCO_NS 0x0 0x0 0x1000 registers n IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only FSRCO_S FSRCO_S Registers FSRCO_S 0x0 0x0 0x1000 registers n IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only GPCRC_NS GPCRC_NS Registers GPCRC_NS 0x0 0x0 0x1000 registers n CMD No Description 0xC -1 write-only n 0x0 0x0 INIT Initialization Enable 0 1 write-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 AUTOINIT Auto Init Enable 13 1 read-write BITREVERSE Byte-level Bit Reverse Enable 9 1 read-write NORMAL No reverse 0 REVERSED Reverse bit order in each byte 1 BYTEMODE Byte Mode Enable 8 1 read-write BYTEREVERSE Byte Reverse Mode 10 1 read-write NORMAL No reverse: B3, B2, B1, B0 0 REVERSED Reverse byte order. For 32-bit: B0, B1, B2, B3 For 16-bit: 0, 0, B0, B1 1 POLYSEL Polynomial Select 4 1 read-write CRC32 CRC-32 (0x04C11DB7) polynomial selected 0 CRC16 16-bit CRC programmable polynomial selected 1 DATA No Description 0x24 -1 read-only n 0x0 0x0 DATA CRC Data Register 0 32 read-only DATABYTEREV No Description 0x2C -1 read-only n 0x0 0x0 DATABYTEREV Data Byte Reverse Value 0 32 read-only DATAREV No Description 0x28 -1 read-only n 0x0 0x0 DATAREV Data Reverse Value 0 32 read-only EN No Description 0x4 -1 read-write n 0x0 0x0 EN CRC Enable 0 1 read-write DISABLE Disable CRC function. Reordering functions are still available. Only BITREVERSE and BYTEREVERSE bits are configurable in this mode. 0 ENABLE Writes to INPUTDATA registers will result in CRC operations. 1 INIT No Description 0x10 -1 read-write n 0x0 0x0 INIT CRC Initialization Value 0 32 read-write INPUTDATA No Description 0x18 -1 write-only n 0x0 0x0 INPUTDATA Input Data for 32-bit 0 32 write-only INPUTDATABYTE No Description 0x20 -1 write-only n 0x0 0x0 INPUTDATABYTE Input Data for 8-bit 0 8 write-only INPUTDATAHWORD No Description 0x1C -1 write-only n 0x0 0x0 INPUTDATAHWORD Input Data for 16-bit 0 16 write-only IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only POLY No Description 0x14 -1 read-write n 0x0 0x0 POLY CRC Polynomial Value 0 16 read-write GPCRC_S GPCRC_S Registers GPCRC_S 0x0 0x0 0x1000 registers n CMD No Description 0xC -1 write-only n 0x0 0x0 INIT Initialization Enable 0 1 write-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 AUTOINIT Auto Init Enable 13 1 read-write BITREVERSE Byte-level Bit Reverse Enable 9 1 read-write NORMAL No reverse 0 REVERSED Reverse bit order in each byte 1 BYTEMODE Byte Mode Enable 8 1 read-write BYTEREVERSE Byte Reverse Mode 10 1 read-write NORMAL No reverse: B3, B2, B1, B0 0 REVERSED Reverse byte order. For 32-bit: B0, B1, B2, B3 For 16-bit: 0, 0, B0, B1 1 POLYSEL Polynomial Select 4 1 read-write CRC32 CRC-32 (0x04C11DB7) polynomial selected 0 CRC16 16-bit CRC programmable polynomial selected 1 DATA No Description 0x24 -1 read-only n 0x0 0x0 DATA CRC Data Register 0 32 read-only DATABYTEREV No Description 0x2C -1 read-only n 0x0 0x0 DATABYTEREV Data Byte Reverse Value 0 32 read-only DATAREV No Description 0x28 -1 read-only n 0x0 0x0 DATAREV Data Reverse Value 0 32 read-only EN No Description 0x4 -1 read-write n 0x0 0x0 EN CRC Enable 0 1 read-write DISABLE Disable CRC function. Reordering functions are still available. Only BITREVERSE and BYTEREVERSE bits are configurable in this mode. 0 ENABLE Writes to INPUTDATA registers will result in CRC operations. 1 INIT No Description 0x10 -1 read-write n 0x0 0x0 INIT CRC Initialization Value 0 32 read-write INPUTDATA No Description 0x18 -1 write-only n 0x0 0x0 INPUTDATA Input Data for 32-bit 0 32 write-only INPUTDATABYTE No Description 0x20 -1 write-only n 0x0 0x0 INPUTDATABYTE Input Data for 8-bit 0 8 write-only INPUTDATAHWORD No Description 0x1C -1 write-only n 0x0 0x0 INPUTDATAHWORD Input Data for 16-bit 0 16 write-only IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only POLY No Description 0x14 -1 read-write n 0x0 0x0 POLY CRC Polynomial Value 0 16 read-write GPIO_NS GPIO_NS Registers GPIO_NS 0x0 0x0 0x1000 registers n GPIO_ODD 26 GPIO_EVEN 27 ABUSALLOC A Bus allocation 0x320 -1 read-write n 0x0 0x0 AEVEN0 A Bus Even 0 0 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 AEVEN1 A Bus Even 1 8 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 AODD0 A Bus Odd 0 16 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 AODD1 A Bus Odd 1 24 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 ACMP0_ACMPOUTROUTE ACMPOUT port/pin select 0x484 -1 read-write n 0x0 0x0 PIN ACMPOUT pin select register 16 4 read-write PORT ACMPOUT port select register 0 2 read-write ACMP0_ROUTEEN ACMP0 pin enable 0x480 -1 read-write n 0x0 0x0 ACMPOUTPEN ACMPOUT pin enable control bit 0 1 read-write ACMP1_ACMPOUTROUTE ACMPOUT port/pin select 0x490 -1 read-write n 0x0 0x0 PIN ACMPOUT pin select register 16 4 read-write PORT ACMPOUT port select register 0 2 read-write ACMP1_ROUTEEN ACMP1 pin enable 0x48C -1 read-write n 0x0 0x0 ACMPOUTPEN ACMPOUT pin enable control bit 0 1 read-write BBUSALLOC B Bus allocation 0x324 -1 read-write n 0x0 0x0 BEVEN0 B Bus Even 0 0 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 BEVEN1 B Bus Even 1 8 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 BODD0 B Bus Odd 0 16 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 BODD1 B Bus Odd 1 24 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 CDBUSALLOC CD Bus allocation 0x328 -1 read-write n 0x0 0x0 CDEVEN0 CD Bus Even 0 0 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 CDEVEN1 CD Bus Even 1 8 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 CDODD0 CD Bus Odd 0 16 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 CDODD1 CD Bus Odd 1 24 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 CMU_CLKIN0ROUTE CLKIN0 port/pin select 0x49C -1 read-write n 0x0 0x0 PIN CLKIN0 pin select register 16 4 read-write PORT CLKIN0 port select register 0 2 read-write CMU_CLKOUT0ROUTE CLKOUT0 port/pin select 0x4A0 -1 read-write n 0x0 0x0 PIN CLKOUT0 pin select register 16 4 read-write PORT CLKOUT0 port select register 0 2 read-write CMU_CLKOUT1ROUTE CLKOUT1 port/pin select 0x4A4 -1 read-write n 0x0 0x0 PIN CLKOUT1 pin select register 16 4 read-write PORT CLKOUT1 port select register 0 2 read-write CMU_CLKOUT2ROUTE CLKOUT2 port/pin select 0x4A8 -1 read-write n 0x0 0x0 PIN CLKOUT2 pin select register 16 4 read-write PORT CLKOUT2 port select register 0 2 read-write CMU_ROUTEEN CMU pin enable 0x498 -1 read-write n 0x0 0x0 CLKOUT0PEN CLKOUT0 pin enable control bit 0 1 read-write CLKOUT1PEN CLKOUT1 pin enable control bit 1 1 read-write CLKOUT2PEN CLKOUT2 pin enable control bit 2 1 read-write DBGROUTEPEN No Description 0x440 -1 read-write n 0x0 0x0 SWCLKTCKPEN Route Pin Enable 0 1 read-write SWDIOTMSPEN Route Location 0 1 1 read-write TDIPEN JTAG Test Debug Input Pin Enable 3 1 read-write TDOPEN JTAG Test Debug Output Pin Enable 2 1 read-write EM4WUEN No Description 0x42C -1 read-write n 0x0 0x0 EM4WUEN EM4 wake up enable 16 12 read-write EM4WUPOL No Description 0x430 -1 read-write n 0x0 0x0 EM4WUPOL EM4 Wake-Up Polarity 16 12 read-write EUSART0_CSROUTE CS port/pin select 0x4C8 -1 read-write n 0x0 0x0 PIN CS pin select register 16 4 read-write PORT CS port select register 0 2 read-write EUSART0_CTSROUTE CTS port/pin select 0x4CC -1 read-write n 0x0 0x0 PIN CTS pin select register 16 4 read-write PORT CTS port select register 0 2 read-write EUSART0_ROUTEEN EUSART0 pin enable 0x4C4 -1 read-write n 0x0 0x0 CSPEN CS pin enable control bit 0 1 read-write RTSPEN RTS pin enable control bit 1 1 read-write RXPEN RX pin enable control bit 2 1 read-write SCLKPEN SCLK pin enable control bit 3 1 read-write TXPEN TX pin enable control bit 4 1 read-write EUSART0_RTSROUTE RTS port/pin select 0x4D0 -1 read-write n 0x0 0x0 PIN RTS pin select register 16 4 read-write PORT RTS port select register 0 2 read-write EUSART0_RXROUTE RX port/pin select 0x4D4 -1 read-write n 0x0 0x0 PIN RX pin select register 16 4 read-write PORT RX port select register 0 2 read-write EUSART0_SCLKROUTE SCLK port/pin select 0x4D8 -1 read-write n 0x0 0x0 PIN SCLK pin select register 16 4 read-write PORT SCLK port select register 0 2 read-write EUSART0_TXROUTE TX port/pin select 0x4DC -1 read-write n 0x0 0x0 PIN TX pin select register 16 4 read-write PORT TX port select register 0 2 read-write EUSART1_CSROUTE CS port/pin select 0x4E8 -1 read-write n 0x0 0x0 PIN CS pin select register 16 4 read-write PORT CS port select register 0 2 read-write EUSART1_CTSROUTE CTS port/pin select 0x4EC -1 read-write n 0x0 0x0 PIN CTS pin select register 16 4 read-write PORT CTS port select register 0 2 read-write EUSART1_ROUTEEN EUSART1 pin enable 0x4E4 -1 read-write n 0x0 0x0 CSPEN CS pin enable control bit 0 1 read-write RTSPEN RTS pin enable control bit 1 1 read-write RXPEN RX pin enable control bit 2 1 read-write SCLKPEN SCLK pin enable control bit 3 1 read-write TXPEN TX pin enable control bit 4 1 read-write EUSART1_RTSROUTE RTS port/pin select 0x4F0 -1 read-write n 0x0 0x0 PIN RTS pin select register 16 4 read-write PORT RTS port select register 0 2 read-write EUSART1_RXROUTE RX port/pin select 0x4F4 -1 read-write n 0x0 0x0 PIN RX pin select register 16 4 read-write PORT RX port select register 0 2 read-write EUSART1_SCLKROUTE SCLK port/pin select 0x4F8 -1 read-write n 0x0 0x0 PIN SCLK pin select register 16 4 read-write PORT SCLK port select register 0 2 read-write EUSART1_TXROUTE TX port/pin select 0x4FC -1 read-write n 0x0 0x0 PIN TX pin select register 16 4 read-write PORT TX port select register 0 2 read-write EUSART2_CSROUTE CS port/pin select 0x508 -1 read-write n 0x0 0x0 PIN CS pin select register 16 4 read-write PORT CS port select register 0 2 read-write EUSART2_CTSROUTE CTS port/pin select 0x50C -1 read-write n 0x0 0x0 PIN CTS pin select register 16 4 read-write PORT CTS port select register 0 2 read-write EUSART2_ROUTEEN EUSART2 pin enable 0x504 -1 read-write n 0x0 0x0 CSPEN CS pin enable control bit 0 1 read-write RTSPEN RTS pin enable control bit 1 1 read-write RXPEN RX pin enable control bit 2 1 read-write SCLKPEN SCLK pin enable control bit 3 1 read-write TXPEN TX pin enable control bit 4 1 read-write EUSART2_RTSROUTE RTS port/pin select 0x510 -1 read-write n 0x0 0x0 PIN RTS pin select register 16 4 read-write PORT RTS port select register 0 2 read-write EUSART2_RXROUTE RX port/pin select 0x514 -1 read-write n 0x0 0x0 PIN RX pin select register 16 4 read-write PORT RX port select register 0 2 read-write EUSART2_SCLKROUTE SCLK port/pin select 0x518 -1 read-write n 0x0 0x0 PIN SCLK pin select register 16 4 read-write PORT SCLK port select register 0 2 read-write EUSART2_TXROUTE TX port/pin select 0x51C -1 read-write n 0x0 0x0 PIN TX pin select register 16 4 read-write PORT TX port select register 0 2 read-write EXTIFALL External Interrupt Falling Edge Trigger 0x414 -1 read-write n 0x0 0x0 EXTIFALL EXT Int FALL 0 12 read-write EXTIPINSELH External Interrupt Pin Select High 0x40C -1 read-write n 0x0 0x0 EXTIPINSEL0 External Interrupt Pin select 0 2 read-write PIN8 OFFSET=8 0 PIN9 OFFSET=9 1 PIN10 OFFSET=10 2 PIN11 OFFSET=11 3 EXTIPINSEL1 External Interrupt Pin select 4 2 read-write PIN8 OFFSET=8 0 PIN9 OFFSET=9 1 PIN10 OFFSET=10 2 PIN11 OFFSET=11 3 EXTIPINSEL2 External Interrupt Pin select 8 2 read-write PIN8 OFFSET=8 0 PIN9 OFFSET=9 1 PIN10 OFFSET=10 2 PIN11 OFFSET=11 3 EXTIPINSEL3 External Interrupt Pin select 12 2 read-write PIN8 OFFSET=8 0 PIN9 OFFSET=9 1 PIN10 OFFSET=10 2 PIN11 OFFSET=11 3 EXTIPINSELL External Interrupt Pin Select Low 0x408 -1 read-write n 0x0 0x0 EXTIPINSEL0 External Interrupt Pin select 0 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL1 External Interrupt Pin select 4 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL2 External Interrupt Pin select 8 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL3 External Interrupt Pin select 12 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL4 External Interrupt Pin select 16 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL5 External Interrupt Pin select 20 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL6 External Interrupt Pin select 24 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL7 External Interrupt Pin select 28 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPSELH External interrupt Port Select High 0x404 -1 read-write n 0x0 0x0 EXTIPSEL0 External Interrupt Port Select 0 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL1 External Interrupt Port Select 4 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL2 External Interrupt Port Select 8 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL3 External Interrupt Port Select 12 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSELL External Interrupt Port Select Low 0x400 -1 read-write n 0x0 0x0 EXTIPSEL0 External Interrupt Port Select 0 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL1 External Interrupt Port Select 4 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL2 External Interrupt Port Select 8 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL3 External Interrupt Port Select 12 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL4 External Interrupt Port Select 16 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL5 External Interrupt Port Select 20 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL6 External Interrupt Port Select 24 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL7 External Interrupt Port Select 28 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIRISE External Interrupt Rising Edge Trigger 0x410 -1 read-write n 0x0 0x0 EXTIRISE EXT Int Rise 0 12 read-write GPIOLOCKSTATUS No Description 0x310 -1 read-only n 0x0 0x0 LOCK GPIO LOCK status 0 1 read-only UNLOCKED Registers are unlocked 0 LOCKED Registers are locked 1 I2C0_ROUTEEN I2C0 pin enable 0x538 -1 read-write n 0x0 0x0 SCLPEN SCL pin enable control bit 0 1 read-write SDAPEN SDA pin enable control bit 1 1 read-write I2C0_SCLROUTE SCL port/pin select 0x53C -1 read-write n 0x0 0x0 PIN SCL pin select register 16 4 read-write PORT SCL port select register 0 2 read-write I2C0_SDAROUTE SDA port/pin select 0x540 -1 read-write n 0x0 0x0 PIN SDA pin select register 16 4 read-write PORT SDA port select register 0 2 read-write I2C1_ROUTEEN I2C1 pin enable 0x548 -1 read-write n 0x0 0x0 SCLPEN SCL pin enable control bit 0 1 read-write SDAPEN SDA pin enable control bit 1 1 read-write I2C1_SCLROUTE SCL port/pin select 0x54C -1 read-write n 0x0 0x0 PIN SCL pin select register 16 4 read-write PORT SCL port select register 0 2 read-write I2C1_SDAROUTE SDA port/pin select 0x550 -1 read-write n 0x0 0x0 PIN SDA pin select register 16 4 read-write PORT SDA port select register 0 2 read-write IEN Interrupt Enable 0x424 -1 read-write n 0x0 0x0 EM4WUIEN0 EM4 Wake Up Interrupt En 16 1 read-write EM4WUIEN1 EM4 Wake Up Interrupt En 17 1 read-write EM4WUIEN10 EM4 Wake Up Interrupt En 26 1 read-write EM4WUIEN11 EM4 Wake Up Interrupt En 27 1 read-write EM4WUIEN2 EM4 Wake Up Interrupt En 18 1 read-write EM4WUIEN3 EM4 Wake Up Interrupt En 19 1 read-write EM4WUIEN4 EM4 Wake Up Interrupt En 20 1 read-write EM4WUIEN5 EM4 Wake Up Interrupt En 21 1 read-write EM4WUIEN6 EM4 Wake Up Interrupt En 22 1 read-write EM4WUIEN7 EM4 Wake Up Interrupt En 23 1 read-write EM4WUIEN8 EM4 Wake Up Interrupt En 24 1 read-write EM4WUIEN9 EM4 Wake Up Interrupt En 25 1 read-write EXTIEN0 External Pin Enable 0 1 read-write EXTIEN1 External Pin Enable 1 1 read-write EXTIEN10 External Pin Enable 10 1 read-write EXTIEN11 External Pin Enable 11 1 read-write EXTIEN2 External Pin Enable 2 1 read-write EXTIEN3 External Pin Enable 3 1 read-write EXTIEN4 External Pin Enable 4 1 read-write EXTIEN5 External Pin Enable 5 1 read-write EXTIEN6 External Pin Enable 6 1 read-write EXTIEN7 External Pin Enable 7 1 read-write EXTIEN8 External Pin Enable 8 1 read-write EXTIEN9 External Pin Enable 9 1 read-write IF Interrupt Flag 0x420 -1 read-write n 0x0 0x0 EM4WU EM4 wake up 16 12 read-write EXTIF0 External Pin Flag 0 1 read-write EXTIF1 External Pin Flag 1 1 read-write EXTIF10 External Pin Flag 10 1 read-write EXTIF11 External Pin Flag 11 1 read-write EXTIF2 External Pin Flag 2 1 read-write EXTIF3 External Pin Flag 3 1 read-write EXTIF4 External Pin Flag 4 1 read-write EXTIF5 External Pin Flag 5 1 read-write EXTIF6 External Pin Flag 6 1 read-write EXTIF7 External Pin Flag 7 1 read-write EXTIF8 External Pin Flag 8 1 read-write EXTIF9 External Pin Flag 9 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION ip version id 0 32 read-only KEYSCAN_COLOUT0ROUTE COLOUT0 port/pin select 0x55C -1 read-write n 0x0 0x0 PIN COLOUT0 pin select register 16 4 read-write PORT COLOUT0 port select register 0 2 read-write KEYSCAN_COLOUT1ROUTE COLOUT1 port/pin select 0x560 -1 read-write n 0x0 0x0 PIN COLOUT1 pin select register 16 4 read-write PORT COLOUT1 port select register 0 2 read-write KEYSCAN_COLOUT2ROUTE COLOUT2 port/pin select 0x564 -1 read-write n 0x0 0x0 PIN COLOUT2 pin select register 16 4 read-write PORT COLOUT2 port select register 0 2 read-write KEYSCAN_COLOUT3ROUTE COLOUT3 port/pin select 0x568 -1 read-write n 0x0 0x0 PIN COLOUT3 pin select register 16 4 read-write PORT COLOUT3 port select register 0 2 read-write KEYSCAN_COLOUT4ROUTE COLOUT4 port/pin select 0x56C -1 read-write n 0x0 0x0 PIN COLOUT4 pin select register 16 4 read-write PORT COLOUT4 port select register 0 2 read-write KEYSCAN_COLOUT5ROUTE COLOUT5 port/pin select 0x570 -1 read-write n 0x0 0x0 PIN COLOUT5 pin select register 16 4 read-write PORT COLOUT5 port select register 0 2 read-write KEYSCAN_COLOUT6ROUTE COLOUT6 port/pin select 0x574 -1 read-write n 0x0 0x0 PIN COLOUT6 pin select register 16 4 read-write PORT COLOUT6 port select register 0 2 read-write KEYSCAN_COLOUT7ROUTE COLOUT7 port/pin select 0x578 -1 read-write n 0x0 0x0 PIN COLOUT7 pin select register 16 4 read-write PORT COLOUT7 port select register 0 2 read-write KEYSCAN_ROUTEEN KEYSCAN pin enable 0x558 -1 read-write n 0x0 0x0 COLOUT0PEN COLOUT0 pin enable control bit 0 1 read-write COLOUT1PEN COLOUT1 pin enable control bit 1 1 read-write COLOUT2PEN COLOUT2 pin enable control bit 2 1 read-write COLOUT3PEN COLOUT3 pin enable control bit 3 1 read-write COLOUT4PEN COLOUT4 pin enable control bit 4 1 read-write COLOUT5PEN COLOUT5 pin enable control bit 5 1 read-write COLOUT6PEN COLOUT6 pin enable control bit 6 1 read-write COLOUT7PEN COLOUT7 pin enable control bit 7 1 read-write KEYSCAN_ROWSENSE0ROUTE ROWSENSE0 port/pin select 0x57C -1 read-write n 0x0 0x0 PIN ROWSENSE0 pin select register 16 4 read-write PORT ROWSENSE0 port select register 0 2 read-write KEYSCAN_ROWSENSE1ROUTE ROWSENSE1 port/pin select 0x580 -1 read-write n 0x0 0x0 PIN ROWSENSE1 pin select register 16 4 read-write PORT ROWSENSE1 port select register 0 2 read-write KEYSCAN_ROWSENSE2ROUTE ROWSENSE2 port/pin select 0x584 -1 read-write n 0x0 0x0 PIN ROWSENSE2 pin select register 16 4 read-write PORT ROWSENSE2 port select register 0 2 read-write KEYSCAN_ROWSENSE3ROUTE ROWSENSE3 port/pin select 0x588 -1 read-write n 0x0 0x0 PIN ROWSENSE3 pin select register 16 4 read-write PORT ROWSENSE3 port select register 0 2 read-write KEYSCAN_ROWSENSE4ROUTE ROWSENSE4 port/pin select 0x58C -1 read-write n 0x0 0x0 PIN ROWSENSE4 pin select register 16 4 read-write PORT ROWSENSE4 port select register 0 2 read-write KEYSCAN_ROWSENSE5ROUTE ROWSENSE5 port/pin select 0x590 -1 read-write n 0x0 0x0 PIN ROWSENSE5 pin select register 16 4 read-write PORT ROWSENSE5 port select register 0 2 read-write LCDCOM LCD Common Enable 0x470 -1 read-write n 0x0 0x0 LCDCOMALLOC LCD Common Allocation 0 4 read-write LCDSEG LCD Segment Enable 0x460 -1 read-write n 0x0 0x0 LCDSEGALLOC LCD Segment Allocation 0 20 read-write LESENSE_CH0OUTROUTE CH0OUT port/pin select 0x59C -1 read-write n 0x0 0x0 PIN CH0OUT pin select register 16 4 read-write PORT CH0OUT port select register 0 2 read-write LESENSE_CH10OUTROUTE CH10OUT port/pin select 0x5C4 -1 read-write n 0x0 0x0 PIN CH10OUT pin select register 16 4 read-write PORT CH10OUT port select register 0 2 read-write LESENSE_CH11OUTROUTE CH11OUT port/pin select 0x5C8 -1 read-write n 0x0 0x0 PIN CH11OUT pin select register 16 4 read-write PORT CH11OUT port select register 0 2 read-write LESENSE_CH12OUTROUTE CH12OUT port/pin select 0x5CC -1 read-write n 0x0 0x0 PIN CH12OUT pin select register 16 4 read-write PORT CH12OUT port select register 0 2 read-write LESENSE_CH13OUTROUTE CH13OUT port/pin select 0x5D0 -1 read-write n 0x0 0x0 PIN CH13OUT pin select register 16 4 read-write PORT CH13OUT port select register 0 2 read-write LESENSE_CH14OUTROUTE CH14OUT port/pin select 0x5D4 -1 read-write n 0x0 0x0 PIN CH14OUT pin select register 16 4 read-write PORT CH14OUT port select register 0 2 read-write LESENSE_CH15OUTROUTE CH15OUT port/pin select 0x5D8 -1 read-write n 0x0 0x0 PIN CH15OUT pin select register 16 4 read-write PORT CH15OUT port select register 0 2 read-write LESENSE_CH1OUTROUTE CH1OUT port/pin select 0x5A0 -1 read-write n 0x0 0x0 PIN CH1OUT pin select register 16 4 read-write PORT CH1OUT port select register 0 2 read-write LESENSE_CH2OUTROUTE CH2OUT port/pin select 0x5A4 -1 read-write n 0x0 0x0 PIN CH2OUT pin select register 16 4 read-write PORT CH2OUT port select register 0 2 read-write LESENSE_CH3OUTROUTE CH3OUT port/pin select 0x5A8 -1 read-write n 0x0 0x0 PIN CH3OUT pin select register 16 4 read-write PORT CH3OUT port select register 0 2 read-write LESENSE_CH4OUTROUTE CH4OUT port/pin select 0x5AC -1 read-write n 0x0 0x0 PIN CH4OUT pin select register 16 4 read-write PORT CH4OUT port select register 0 2 read-write LESENSE_CH5OUTROUTE CH5OUT port/pin select 0x5B0 -1 read-write n 0x0 0x0 PIN CH5OUT pin select register 16 4 read-write PORT CH5OUT port select register 0 2 read-write LESENSE_CH6OUTROUTE CH6OUT port/pin select 0x5B4 -1 read-write n 0x0 0x0 PIN CH6OUT pin select register 16 4 read-write PORT CH6OUT port select register 0 2 read-write LESENSE_CH7OUTROUTE CH7OUT port/pin select 0x5B8 -1 read-write n 0x0 0x0 PIN CH7OUT pin select register 16 4 read-write PORT CH7OUT port select register 0 2 read-write LESENSE_CH8OUTROUTE CH8OUT port/pin select 0x5BC -1 read-write n 0x0 0x0 PIN CH8OUT pin select register 16 4 read-write PORT CH8OUT port select register 0 2 read-write LESENSE_CH9OUTROUTE CH9OUT port/pin select 0x5C0 -1 read-write n 0x0 0x0 PIN CH9OUT pin select register 16 4 read-write PORT CH9OUT port select register 0 2 read-write LESENSE_ROUTEEN LESENSE pin enable 0x598 -1 read-write n 0x0 0x0 CH0OUTPEN CH0OUT pin enable control bit 0 1 read-write CH10OUTPEN CH10OUT pin enable control bit 10 1 read-write CH11OUTPEN CH11OUT pin enable control bit 11 1 read-write CH12OUTPEN CH12OUT pin enable control bit 12 1 read-write CH13OUTPEN CH13OUT pin enable control bit 13 1 read-write CH14OUTPEN CH14OUT pin enable control bit 14 1 read-write CH15OUTPEN CH15OUT pin enable control bit 15 1 read-write CH1OUTPEN CH1OUT pin enable control bit 1 1 read-write CH2OUTPEN CH2OUT pin enable control bit 2 1 read-write CH3OUTPEN CH3OUT pin enable control bit 3 1 read-write CH4OUTPEN CH4OUT pin enable control bit 4 1 read-write CH5OUTPEN CH5OUT pin enable control bit 5 1 read-write CH6OUTPEN CH6OUT pin enable control bit 6 1 read-write CH7OUTPEN CH7OUT pin enable control bit 7 1 read-write CH8OUTPEN CH8OUT pin enable control bit 8 1 read-write CH9OUTPEN CH9OUT pin enable control bit 9 1 read-write LETIMER_OUT0ROUTE OUT0 port/pin select 0x5E4 -1 read-write n 0x0 0x0 PIN OUT0 pin select register 16 4 read-write PORT OUT0 port select register 0 2 read-write LETIMER_OUT1ROUTE OUT1 port/pin select 0x5E8 -1 read-write n 0x0 0x0 PIN OUT1 pin select register 16 4 read-write PORT OUT1 port select register 0 2 read-write LETIMER_ROUTEEN LETIMER pin enable 0x5E0 -1 read-write n 0x0 0x0 OUT0PEN OUT0 pin enable control bit 0 1 read-write OUT1PEN OUT1 pin enable control bit 1 1 read-write LOCK No Description 0x300 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Unlock code 42292 PCNT0_S0INROUTE S0IN port/pin select 0x63C -1 read-write n 0x0 0x0 PIN S0IN pin select register 16 4 read-write PORT S0IN port select register 0 2 read-write PCNT0_S1INROUTE S1IN port/pin select 0x640 -1 read-write n 0x0 0x0 PIN S1IN pin select register 16 4 read-write PORT S1IN port select register 0 2 read-write PORTA_CTRL Port control 0x30 -1 read-write n 0x0 0x0 DINDIS Data In Disable 12 1 read-write DINDISALT Data In Disable Alt 28 1 read-write SLEWRATE Slew Rate 4 3 read-write SLEWRATEALT Slew Rate Alt 20 3 read-write PORTA_DIN data in 0x44 -1 read-only n 0x0 0x0 DIN Data input 0 11 read-only PORTA_DOUT data out 0x40 -1 read-write n 0x0 0x0 DOUT Data output 0 11 read-write PORTA_MODEH mode high 0x3C -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE2 MODE n 8 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PORTA_MODEL mode low 0x34 -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE2 MODE n 8 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE3 MODE n 12 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE4 MODE n 16 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE5 MODE n 20 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE6 MODE n 24 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE7 MODE n 28 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PORTB_CTRL Port control 0x60 -1 read-write n 0x0 0x0 DINDIS Data In Disable 12 1 read-write DINDISALT Data In Disable Alt 28 1 read-write SLEWRATE Slew Rate 4 3 read-write SLEWRATEALT Slew Rate Alt 20 3 read-write PORTB_DIN data in 0x74 -1 read-only n 0x0 0x0 DIN Data input 0 7 read-only PORTB_DOUT data out 0x70 -1 read-write n 0x0 0x0 DOUT Data output 0 7 read-write PORTB_MODEL mode low 0x64 -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE2 MODE n 8 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE3 MODE n 12 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE4 MODE n 16 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE5 MODE n 20 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE6 MODE n 24 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PORTC_CTRL Port control 0x90 -1 read-write n 0x0 0x0 DINDIS Data In Disable 12 1 read-write DINDISALT Data In Disable Alt 28 1 read-write SLEWRATE Slew Rate 4 3 read-write SLEWRATEALT Slew Rate Alt 20 3 read-write PORTC_DIN data in 0xA4 -1 read-only n 0x0 0x0 DIN Data input 0 10 read-only PORTC_DOUT data out 0xA0 -1 read-write n 0x0 0x0 DOUT Data output 0 10 read-write PORTC_MODEH mode high 0x9C -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PORTC_MODEL mode low 0x94 -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE2 MODE n 8 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE3 MODE n 12 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE4 MODE n 16 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE5 MODE n 20 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE6 MODE n 24 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE7 MODE n 28 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PORTD_CTRL Port control 0xC0 -1 read-write n 0x0 0x0 DINDIS Data In Disable 12 1 read-write DINDISALT Data In Disable Alt 28 1 read-write SLEWRATE Slew Rate 4 3 read-write SLEWRATEALT Slew Rate Alt 20 3 read-write PORTD_DIN data in 0xD4 -1 read-only n 0x0 0x0 DIN Data input 0 6 read-only PORTD_DOUT data out 0xD0 -1 read-write n 0x0 0x0 DOUT Data output 0 6 read-write PORTD_MODEL mode low 0xC4 -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE2 MODE n 8 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE3 MODE n 12 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE4 MODE n 16 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE5 MODE n 20 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PRS0_ASYNCH0ROUTE ASYNCH0 port/pin select 0x64C -1 read-write n 0x0 0x0 PIN ASYNCH0 pin select register 16 4 read-write PORT ASYNCH0 port select register 0 2 read-write PRS0_ASYNCH10ROUTE ASYNCH10 port/pin select 0x674 -1 read-write n 0x0 0x0 PIN ASYNCH10 pin select register 16 4 read-write PORT ASYNCH10 port select register 0 2 read-write PRS0_ASYNCH11ROUTE ASYNCH11 port/pin select 0x678 -1 read-write n 0x0 0x0 PIN ASYNCH11 pin select register 16 4 read-write PORT ASYNCH11 port select register 0 2 read-write PRS0_ASYNCH1ROUTE ASYNCH1 port/pin select 0x650 -1 read-write n 0x0 0x0 PIN ASYNCH1 pin select register 16 4 read-write PORT ASYNCH1 port select register 0 2 read-write PRS0_ASYNCH2ROUTE ASYNCH2 port/pin select 0x654 -1 read-write n 0x0 0x0 PIN ASYNCH2 pin select register 16 4 read-write PORT ASYNCH2 port select register 0 2 read-write PRS0_ASYNCH3ROUTE ASYNCH3 port/pin select 0x658 -1 read-write n 0x0 0x0 PIN ASYNCH3 pin select register 16 4 read-write PORT ASYNCH3 port select register 0 2 read-write PRS0_ASYNCH4ROUTE ASYNCH4 port/pin select 0x65C -1 read-write n 0x0 0x0 PIN ASYNCH4 pin select register 16 4 read-write PORT ASYNCH4 port select register 0 2 read-write PRS0_ASYNCH5ROUTE ASYNCH5 port/pin select 0x660 -1 read-write n 0x0 0x0 PIN ASYNCH5 pin select register 16 4 read-write PORT ASYNCH5 port select register 0 2 read-write PRS0_ASYNCH6ROUTE ASYNCH6 port/pin select 0x664 -1 read-write n 0x0 0x0 PIN ASYNCH6 pin select register 16 4 read-write PORT ASYNCH6 port select register 0 2 read-write PRS0_ASYNCH7ROUTE ASYNCH7 port/pin select 0x668 -1 read-write n 0x0 0x0 PIN ASYNCH7 pin select register 16 4 read-write PORT ASYNCH7 port select register 0 2 read-write PRS0_ASYNCH8ROUTE ASYNCH8 port/pin select 0x66C -1 read-write n 0x0 0x0 PIN ASYNCH8 pin select register 16 4 read-write PORT ASYNCH8 port select register 0 2 read-write PRS0_ASYNCH9ROUTE ASYNCH9 port/pin select 0x670 -1 read-write n 0x0 0x0 PIN ASYNCH9 pin select register 16 4 read-write PORT ASYNCH9 port select register 0 2 read-write PRS0_ROUTEEN PRS0 pin enable 0x648 -1 read-write n 0x0 0x0 ASYNCH0PEN ASYNCH0 pin enable control bit 0 1 read-write ASYNCH10PEN ASYNCH10 pin enable control bit 10 1 read-write ASYNCH11PEN ASYNCH11 pin enable control bit 11 1 read-write ASYNCH1PEN ASYNCH1 pin enable control bit 1 1 read-write ASYNCH2PEN ASYNCH2 pin enable control bit 2 1 read-write ASYNCH3PEN ASYNCH3 pin enable control bit 3 1 read-write ASYNCH4PEN ASYNCH4 pin enable control bit 4 1 read-write ASYNCH5PEN ASYNCH5 pin enable control bit 5 1 read-write ASYNCH6PEN ASYNCH6 pin enable control bit 6 1 read-write ASYNCH7PEN ASYNCH7 pin enable control bit 7 1 read-write ASYNCH8PEN ASYNCH8 pin enable control bit 8 1 read-write ASYNCH9PEN ASYNCH9 pin enable control bit 9 1 read-write SYNCH0PEN SYNCH0 pin enable control bit 12 1 read-write SYNCH1PEN SYNCH1 pin enable control bit 13 1 read-write SYNCH2PEN SYNCH2 pin enable control bit 14 1 read-write SYNCH3PEN SYNCH3 pin enable control bit 15 1 read-write PRS0_SYNCH0ROUTE SYNCH0 port/pin select 0x67C -1 read-write n 0x0 0x0 PIN SYNCH0 pin select register 16 4 read-write PORT SYNCH0 port select register 0 2 read-write PRS0_SYNCH1ROUTE SYNCH1 port/pin select 0x680 -1 read-write n 0x0 0x0 PIN SYNCH1 pin select register 16 4 read-write PORT SYNCH1 port select register 0 2 read-write PRS0_SYNCH2ROUTE SYNCH2 port/pin select 0x684 -1 read-write n 0x0 0x0 PIN SYNCH2 pin select register 16 4 read-write PORT SYNCH2 port select register 0 2 read-write PRS0_SYNCH3ROUTE SYNCH3 port/pin select 0x688 -1 read-write n 0x0 0x0 PIN SYNCH3 pin select register 16 4 read-write PORT SYNCH3 port select register 0 2 read-write SYXO0_BUFOUTREQINASYNCROUTE BUFOUTREQINASYNC port/pin select 0x6F0 -1 read-write n 0x0 0x0 PIN BUFOUTREQINASYNC pin select register 16 4 read-write PORT BUFOUTREQINASYNC port select register 0 2 read-write TIMER0_CC0ROUTE CC0 port/pin select 0x6FC -1 read-write n 0x0 0x0 PIN CC0 pin select register 16 4 read-write PORT CC0 port select register 0 2 read-write TIMER0_CC1ROUTE CC1 port/pin select 0x700 -1 read-write n 0x0 0x0 PIN CC1 pin select register 16 4 read-write PORT CC1 port select register 0 2 read-write TIMER0_CC2ROUTE CC2 port/pin select 0x704 -1 read-write n 0x0 0x0 PIN CC2 pin select register 16 4 read-write PORT CC2 port select register 0 2 read-write TIMER0_CDTI0ROUTE CDTI0 port/pin select 0x708 -1 read-write n 0x0 0x0 PIN CCC0 pin select register 16 4 read-write PORT CCC0 port select register 0 2 read-write TIMER0_CDTI1ROUTE CDTI1 port/pin select 0x70C -1 read-write n 0x0 0x0 PIN CCC1 pin select register 16 4 read-write PORT CCC1 port select register 0 2 read-write TIMER0_CDTI2ROUTE CDTI2 port/pin select 0x710 -1 read-write n 0x0 0x0 PIN CCC2 pin select register 16 4 read-write PORT CCC2 port select register 0 2 read-write TIMER0_ROUTEEN TIMER0 pin enable 0x6F8 -1 read-write n 0x0 0x0 CC0PEN CC0 pin enable control bit 0 1 read-write CC1PEN CC1 pin enable control bit 1 1 read-write CC2PEN CC2 pin enable control bit 2 1 read-write CCC0PEN CCC0 pin enable control bit 3 1 read-write CCC1PEN CCC1 pin enable control bit 4 1 read-write CCC2PEN CCC2 pin enable control bit 5 1 read-write TIMER1_CC0ROUTE CC0 port/pin select 0x71C -1 read-write n 0x0 0x0 PIN CC0 pin select register 16 4 read-write PORT CC0 port select register 0 2 read-write TIMER1_CC1ROUTE CC1 port/pin select 0x720 -1 read-write n 0x0 0x0 PIN CC1 pin select register 16 4 read-write PORT CC1 port select register 0 2 read-write TIMER1_CC2ROUTE CC2 port/pin select 0x724 -1 read-write n 0x0 0x0 PIN CC2 pin select register 16 4 read-write PORT CC2 port select register 0 2 read-write TIMER1_CDTI0ROUTE CDTI0 port/pin select 0x728 -1 read-write n 0x0 0x0 PIN CCC0 pin select register 16 4 read-write PORT CCC0 port select register 0 2 read-write TIMER1_CDTI1ROUTE CDTI1 port/pin select 0x72C -1 read-write n 0x0 0x0 PIN CCC1 pin select register 16 4 read-write PORT CCC1 port select register 0 2 read-write TIMER1_CDTI2ROUTE CDTI2 port/pin select 0x730 -1 read-write n 0x0 0x0 PIN CCC2 pin select register 16 4 read-write PORT CCC2 port select register 0 2 read-write TIMER1_ROUTEEN TIMER1 pin enable 0x718 -1 read-write n 0x0 0x0 CC0PEN CC0 pin enable control bit 0 1 read-write CC1PEN CC1 pin enable control bit 1 1 read-write CC2PEN CC2 pin enable control bit 2 1 read-write CCC0PEN CCC0 pin enable control bit 3 1 read-write CCC1PEN CCC1 pin enable control bit 4 1 read-write CCC2PEN CCC2 pin enable control bit 5 1 read-write TIMER2_CC0ROUTE CC0 port/pin select 0x73C -1 read-write n 0x0 0x0 PIN CC0 pin select register 16 4 read-write PORT CC0 port select register 0 2 read-write TIMER2_CC1ROUTE CC1 port/pin select 0x740 -1 read-write n 0x0 0x0 PIN CC1 pin select register 16 4 read-write PORT CC1 port select register 0 2 read-write TIMER2_CC2ROUTE CC2 port/pin select 0x744 -1 read-write n 0x0 0x0 PIN CC2 pin select register 16 4 read-write PORT CC2 port select register 0 2 read-write TIMER2_CDTI0ROUTE CDTI0 port/pin select 0x748 -1 read-write n 0x0 0x0 PIN CCC0 pin select register 16 4 read-write PORT CCC0 port select register 0 2 read-write TIMER2_CDTI1ROUTE CDTI1 port/pin select 0x74C -1 read-write n 0x0 0x0 PIN CCC1 pin select register 16 4 read-write PORT CCC1 port select register 0 2 read-write TIMER2_CDTI2ROUTE CDTI2 port/pin select 0x750 -1 read-write n 0x0 0x0 PIN CCC2 pin select register 16 4 read-write PORT CCC2 port select register 0 2 read-write TIMER2_ROUTEEN TIMER2 pin enable 0x738 -1 read-write n 0x0 0x0 CC0PEN CC0 pin enable control bit 0 1 read-write CC1PEN CC1 pin enable control bit 1 1 read-write CC2PEN CC2 pin enable control bit 2 1 read-write CCC0PEN CCC0 pin enable control bit 3 1 read-write CCC1PEN CCC1 pin enable control bit 4 1 read-write CCC2PEN CCC2 pin enable control bit 5 1 read-write TIMER3_CC0ROUTE CC0 port/pin select 0x75C -1 read-write n 0x0 0x0 PIN CC0 pin select register 16 4 read-write PORT CC0 port select register 0 2 read-write TIMER3_CC1ROUTE CC1 port/pin select 0x760 -1 read-write n 0x0 0x0 PIN CC1 pin select register 16 4 read-write PORT CC1 port select register 0 2 read-write TIMER3_CC2ROUTE CC2 port/pin select 0x764 -1 read-write n 0x0 0x0 PIN CC2 pin select register 16 4 read-write PORT CC2 port select register 0 2 read-write TIMER3_CDTI0ROUTE CDTI0 port/pin select 0x768 -1 read-write n 0x0 0x0 PIN CCC0 pin select register 16 4 read-write PORT CCC0 port select register 0 2 read-write TIMER3_CDTI1ROUTE CDTI1 port/pin select 0x76C -1 read-write n 0x0 0x0 PIN CCC1 pin select register 16 4 read-write PORT CCC1 port select register 0 2 read-write TIMER3_CDTI2ROUTE CDTI2 port/pin select 0x770 -1 read-write n 0x0 0x0 PIN CCC2 pin select register 16 4 read-write PORT CCC2 port select register 0 2 read-write TIMER3_ROUTEEN TIMER3 pin enable 0x758 -1 read-write n 0x0 0x0 CC0PEN CC0 pin enable control bit 0 1 read-write CC1PEN CC1 pin enable control bit 1 1 read-write CC2PEN CC2 pin enable control bit 2 1 read-write CCC0PEN CCC0 pin enable control bit 3 1 read-write CCC1PEN CCC1 pin enable control bit 4 1 read-write CCC2PEN CCC2 pin enable control bit 5 1 read-write TIMER4_CC0ROUTE CC0 port/pin select 0x77C -1 read-write n 0x0 0x0 PIN CC0 pin select register 16 4 read-write PORT CC0 port select register 0 2 read-write TIMER4_CC1ROUTE CC1 port/pin select 0x780 -1 read-write n 0x0 0x0 PIN CC1 pin select register 16 4 read-write PORT CC1 port select register 0 2 read-write TIMER4_CC2ROUTE CC2 port/pin select 0x784 -1 read-write n 0x0 0x0 PIN CC2 pin select register 16 4 read-write PORT CC2 port select register 0 2 read-write TIMER4_CDTI0ROUTE CDTI0 port/pin select 0x788 -1 read-write n 0x0 0x0 PIN CCC0 pin select register 16 4 read-write PORT CCC0 port select register 0 2 read-write TIMER4_CDTI1ROUTE CDTI1 port/pin select 0x78C -1 read-write n 0x0 0x0 PIN CCC1 pin select register 16 4 read-write PORT CCC1 port select register 0 2 read-write TIMER4_CDTI2ROUTE CDTI2 port/pin select 0x790 -1 read-write n 0x0 0x0 PIN CCC2 pin select register 16 4 read-write PORT CCC2 port select register 0 2 read-write TIMER4_ROUTEEN TIMER4 pin enable 0x778 -1 read-write n 0x0 0x0 CC0PEN CC0 pin enable control bit 0 1 read-write CC1PEN CC1 pin enable control bit 1 1 read-write CC2PEN CC2 pin enable control bit 2 1 read-write CCC0PEN CCC0 pin enable control bit 3 1 read-write CCC1PEN CCC1 pin enable control bit 4 1 read-write CCC2PEN CCC2 pin enable control bit 5 1 read-write TRACEROUTEPEN No Description 0x444 -1 read-write n 0x0 0x0 SWVPEN Serial Wire Viewer Output Pin Enable 0 1 read-write TRACECLKPEN Trace Clk Pin Enable 1 1 read-write TRACEDATA0PEN Trace Data0 Pin Enable 2 1 read-write TRACEDATA1PEN Trace Data1 Pin Enable 3 1 read-write TRACEDATA2PEN Trace Data2 Pin Enable 4 1 read-write TRACEDATA3PEN Trace Data3 Pin Enable 5 1 read-write USART0_CLKROUTE SCLK port/pin select 0x7AC -1 read-write n 0x0 0x0 PIN SCLK pin select register 16 4 read-write PORT SCLK port select register 0 2 read-write USART0_CSROUTE CS port/pin select 0x79C -1 read-write n 0x0 0x0 PIN CS pin select register 16 4 read-write PORT CS port select register 0 2 read-write USART0_CTSROUTE CTS port/pin select 0x7A0 -1 read-write n 0x0 0x0 PIN CTS pin select register 16 4 read-write PORT CTS port select register 0 2 read-write USART0_ROUTEEN USART0 pin enable 0x798 -1 read-write n 0x0 0x0 CLKPEN SCLK pin enable control bit 3 1 read-write CSPEN CS pin enable control bit 0 1 read-write RTSPEN RTS pin enable control bit 1 1 read-write RXPEN RX pin enable control bit 2 1 read-write TXPEN TX pin enable control bit 4 1 read-write USART0_RTSROUTE RTS port/pin select 0x7A4 -1 read-write n 0x0 0x0 PIN RTS pin select register 16 4 read-write PORT RTS port select register 0 2 read-write USART0_RXROUTE RX port/pin select 0x7A8 -1 read-write n 0x0 0x0 PIN RX pin select register 16 4 read-write PORT RX port select register 0 2 read-write USART0_TXROUTE TX port/pin select 0x7B0 -1 read-write n 0x0 0x0 PIN TX pin select register 16 4 read-write PORT TX port select register 0 2 read-write GPIO_S GPIO_S Registers GPIO_S 0x0 0x0 0x1000 registers n GPIO_ODD 26 GPIO_EVEN 27 ABUSALLOC A Bus allocation 0x320 -1 read-write n 0x0 0x0 AEVEN0 A Bus Even 0 0 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 AEVEN1 A Bus Even 1 8 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 AODD0 A Bus Odd 0 16 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 AODD1 A Bus Odd 1 24 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 ACMP0_ACMPOUTROUTE ACMPOUT port/pin select 0x484 -1 read-write n 0x0 0x0 PIN ACMPOUT pin select register 16 4 read-write PORT ACMPOUT port select register 0 2 read-write ACMP0_ROUTEEN ACMP0 pin enable 0x480 -1 read-write n 0x0 0x0 ACMPOUTPEN ACMPOUT pin enable control bit 0 1 read-write ACMP1_ACMPOUTROUTE ACMPOUT port/pin select 0x490 -1 read-write n 0x0 0x0 PIN ACMPOUT pin select register 16 4 read-write PORT ACMPOUT port select register 0 2 read-write ACMP1_ROUTEEN ACMP1 pin enable 0x48C -1 read-write n 0x0 0x0 ACMPOUTPEN ACMPOUT pin enable control bit 0 1 read-write BBUSALLOC B Bus allocation 0x324 -1 read-write n 0x0 0x0 BEVEN0 B Bus Even 0 0 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 BEVEN1 B Bus Even 1 8 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 BODD0 B Bus Odd 0 16 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 BODD1 B Bus Odd 1 24 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 CDBUSALLOC CD Bus allocation 0x328 -1 read-write n 0x0 0x0 CDEVEN0 CD Bus Even 0 0 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 CDEVEN1 CD Bus Even 1 8 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 CDODD0 CD Bus Odd 0 16 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH0 The bus is allocated to VDAC0 CH0 4 CDODD1 CD Bus Odd 1 24 4 read-write TRISTATE The bus is not allocated 0 ADC0 The bus is allocated to ADC0 1 ACMP0 The bus is allocated to ACMP0 2 ACMP1 The bus is allocated to ACMP1 3 VDAC0CH1 The bus is allocated to VDAC0 CH1 4 CMU_CLKIN0ROUTE CLKIN0 port/pin select 0x49C -1 read-write n 0x0 0x0 PIN CLKIN0 pin select register 16 4 read-write PORT CLKIN0 port select register 0 2 read-write CMU_CLKOUT0ROUTE CLKOUT0 port/pin select 0x4A0 -1 read-write n 0x0 0x0 PIN CLKOUT0 pin select register 16 4 read-write PORT CLKOUT0 port select register 0 2 read-write CMU_CLKOUT1ROUTE CLKOUT1 port/pin select 0x4A4 -1 read-write n 0x0 0x0 PIN CLKOUT1 pin select register 16 4 read-write PORT CLKOUT1 port select register 0 2 read-write CMU_CLKOUT2ROUTE CLKOUT2 port/pin select 0x4A8 -1 read-write n 0x0 0x0 PIN CLKOUT2 pin select register 16 4 read-write PORT CLKOUT2 port select register 0 2 read-write CMU_ROUTEEN CMU pin enable 0x498 -1 read-write n 0x0 0x0 CLKOUT0PEN CLKOUT0 pin enable control bit 0 1 read-write CLKOUT1PEN CLKOUT1 pin enable control bit 1 1 read-write CLKOUT2PEN CLKOUT2 pin enable control bit 2 1 read-write DBGROUTEPEN No Description 0x440 -1 read-write n 0x0 0x0 SWCLKTCKPEN Route Pin Enable 0 1 read-write SWDIOTMSPEN Route Location 0 1 1 read-write TDIPEN JTAG Test Debug Input Pin Enable 3 1 read-write TDOPEN JTAG Test Debug Output Pin Enable 2 1 read-write EM4WUEN No Description 0x42C -1 read-write n 0x0 0x0 EM4WUEN EM4 wake up enable 16 12 read-write EM4WUPOL No Description 0x430 -1 read-write n 0x0 0x0 EM4WUPOL EM4 Wake-Up Polarity 16 12 read-write EUSART0_CSROUTE CS port/pin select 0x4C8 -1 read-write n 0x0 0x0 PIN CS pin select register 16 4 read-write PORT CS port select register 0 2 read-write EUSART0_CTSROUTE CTS port/pin select 0x4CC -1 read-write n 0x0 0x0 PIN CTS pin select register 16 4 read-write PORT CTS port select register 0 2 read-write EUSART0_ROUTEEN EUSART0 pin enable 0x4C4 -1 read-write n 0x0 0x0 CSPEN CS pin enable control bit 0 1 read-write RTSPEN RTS pin enable control bit 1 1 read-write RXPEN RX pin enable control bit 2 1 read-write SCLKPEN SCLK pin enable control bit 3 1 read-write TXPEN TX pin enable control bit 4 1 read-write EUSART0_RTSROUTE RTS port/pin select 0x4D0 -1 read-write n 0x0 0x0 PIN RTS pin select register 16 4 read-write PORT RTS port select register 0 2 read-write EUSART0_RXROUTE RX port/pin select 0x4D4 -1 read-write n 0x0 0x0 PIN RX pin select register 16 4 read-write PORT RX port select register 0 2 read-write EUSART0_SCLKROUTE SCLK port/pin select 0x4D8 -1 read-write n 0x0 0x0 PIN SCLK pin select register 16 4 read-write PORT SCLK port select register 0 2 read-write EUSART0_TXROUTE TX port/pin select 0x4DC -1 read-write n 0x0 0x0 PIN TX pin select register 16 4 read-write PORT TX port select register 0 2 read-write EUSART1_CSROUTE CS port/pin select 0x4E8 -1 read-write n 0x0 0x0 PIN CS pin select register 16 4 read-write PORT CS port select register 0 2 read-write EUSART1_CTSROUTE CTS port/pin select 0x4EC -1 read-write n 0x0 0x0 PIN CTS pin select register 16 4 read-write PORT CTS port select register 0 2 read-write EUSART1_ROUTEEN EUSART1 pin enable 0x4E4 -1 read-write n 0x0 0x0 CSPEN CS pin enable control bit 0 1 read-write RTSPEN RTS pin enable control bit 1 1 read-write RXPEN RX pin enable control bit 2 1 read-write SCLKPEN SCLK pin enable control bit 3 1 read-write TXPEN TX pin enable control bit 4 1 read-write EUSART1_RTSROUTE RTS port/pin select 0x4F0 -1 read-write n 0x0 0x0 PIN RTS pin select register 16 4 read-write PORT RTS port select register 0 2 read-write EUSART1_RXROUTE RX port/pin select 0x4F4 -1 read-write n 0x0 0x0 PIN RX pin select register 16 4 read-write PORT RX port select register 0 2 read-write EUSART1_SCLKROUTE SCLK port/pin select 0x4F8 -1 read-write n 0x0 0x0 PIN SCLK pin select register 16 4 read-write PORT SCLK port select register 0 2 read-write EUSART1_TXROUTE TX port/pin select 0x4FC -1 read-write n 0x0 0x0 PIN TX pin select register 16 4 read-write PORT TX port select register 0 2 read-write EUSART2_CSROUTE CS port/pin select 0x508 -1 read-write n 0x0 0x0 PIN CS pin select register 16 4 read-write PORT CS port select register 0 2 read-write EUSART2_CTSROUTE CTS port/pin select 0x50C -1 read-write n 0x0 0x0 PIN CTS pin select register 16 4 read-write PORT CTS port select register 0 2 read-write EUSART2_ROUTEEN EUSART2 pin enable 0x504 -1 read-write n 0x0 0x0 CSPEN CS pin enable control bit 0 1 read-write RTSPEN RTS pin enable control bit 1 1 read-write RXPEN RX pin enable control bit 2 1 read-write SCLKPEN SCLK pin enable control bit 3 1 read-write TXPEN TX pin enable control bit 4 1 read-write EUSART2_RTSROUTE RTS port/pin select 0x510 -1 read-write n 0x0 0x0 PIN RTS pin select register 16 4 read-write PORT RTS port select register 0 2 read-write EUSART2_RXROUTE RX port/pin select 0x514 -1 read-write n 0x0 0x0 PIN RX pin select register 16 4 read-write PORT RX port select register 0 2 read-write EUSART2_SCLKROUTE SCLK port/pin select 0x518 -1 read-write n 0x0 0x0 PIN SCLK pin select register 16 4 read-write PORT SCLK port select register 0 2 read-write EUSART2_TXROUTE TX port/pin select 0x51C -1 read-write n 0x0 0x0 PIN TX pin select register 16 4 read-write PORT TX port select register 0 2 read-write EXTIFALL External Interrupt Falling Edge Trigger 0x414 -1 read-write n 0x0 0x0 EXTIFALL EXT Int FALL 0 12 read-write EXTIPINSELH External Interrupt Pin Select High 0x40C -1 read-write n 0x0 0x0 EXTIPINSEL0 External Interrupt Pin select 0 2 read-write PIN8 OFFSET=8 0 PIN9 OFFSET=9 1 PIN10 OFFSET=10 2 PIN11 OFFSET=11 3 EXTIPINSEL1 External Interrupt Pin select 4 2 read-write PIN8 OFFSET=8 0 PIN9 OFFSET=9 1 PIN10 OFFSET=10 2 PIN11 OFFSET=11 3 EXTIPINSEL2 External Interrupt Pin select 8 2 read-write PIN8 OFFSET=8 0 PIN9 OFFSET=9 1 PIN10 OFFSET=10 2 PIN11 OFFSET=11 3 EXTIPINSEL3 External Interrupt Pin select 12 2 read-write PIN8 OFFSET=8 0 PIN9 OFFSET=9 1 PIN10 OFFSET=10 2 PIN11 OFFSET=11 3 EXTIPINSELL External Interrupt Pin Select Low 0x408 -1 read-write n 0x0 0x0 EXTIPINSEL0 External Interrupt Pin select 0 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL1 External Interrupt Pin select 4 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL2 External Interrupt Pin select 8 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL3 External Interrupt Pin select 12 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL4 External Interrupt Pin select 16 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL5 External Interrupt Pin select 20 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL6 External Interrupt Pin select 24 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPINSEL7 External Interrupt Pin select 28 2 read-write PIN0 OFFSET=0 0 PIN1 OFFSET=1 1 PIN2 OFFSET=2 2 PIN3 OFFSET=3 3 EXTIPSELH External interrupt Port Select High 0x404 -1 read-write n 0x0 0x0 EXTIPSEL0 External Interrupt Port Select 0 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL1 External Interrupt Port Select 4 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL2 External Interrupt Port Select 8 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL3 External Interrupt Port Select 12 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSELL External Interrupt Port Select Low 0x400 -1 read-write n 0x0 0x0 EXTIPSEL0 External Interrupt Port Select 0 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL1 External Interrupt Port Select 4 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL2 External Interrupt Port Select 8 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL3 External Interrupt Port Select 12 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL4 External Interrupt Port Select 16 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL5 External Interrupt Port Select 20 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL6 External Interrupt Port Select 24 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIPSEL7 External Interrupt Port Select 28 2 read-write PORTA Port A group selected 0 PORTB Port B group selected 1 PORTC Port C group selected 2 PORTD Port D group selected 3 EXTIRISE External Interrupt Rising Edge Trigger 0x410 -1 read-write n 0x0 0x0 EXTIRISE EXT Int Rise 0 12 read-write GPIOLOCKSTATUS No Description 0x310 -1 read-only n 0x0 0x0 LOCK GPIO LOCK status 0 1 read-only UNLOCKED Registers are unlocked 0 LOCKED Registers are locked 1 I2C0_ROUTEEN I2C0 pin enable 0x538 -1 read-write n 0x0 0x0 SCLPEN SCL pin enable control bit 0 1 read-write SDAPEN SDA pin enable control bit 1 1 read-write I2C0_SCLROUTE SCL port/pin select 0x53C -1 read-write n 0x0 0x0 PIN SCL pin select register 16 4 read-write PORT SCL port select register 0 2 read-write I2C0_SDAROUTE SDA port/pin select 0x540 -1 read-write n 0x0 0x0 PIN SDA pin select register 16 4 read-write PORT SDA port select register 0 2 read-write I2C1_ROUTEEN I2C1 pin enable 0x548 -1 read-write n 0x0 0x0 SCLPEN SCL pin enable control bit 0 1 read-write SDAPEN SDA pin enable control bit 1 1 read-write I2C1_SCLROUTE SCL port/pin select 0x54C -1 read-write n 0x0 0x0 PIN SCL pin select register 16 4 read-write PORT SCL port select register 0 2 read-write I2C1_SDAROUTE SDA port/pin select 0x550 -1 read-write n 0x0 0x0 PIN SDA pin select register 16 4 read-write PORT SDA port select register 0 2 read-write IEN Interrupt Enable 0x424 -1 read-write n 0x0 0x0 EM4WUIEN0 EM4 Wake Up Interrupt En 16 1 read-write EM4WUIEN1 EM4 Wake Up Interrupt En 17 1 read-write EM4WUIEN10 EM4 Wake Up Interrupt En 26 1 read-write EM4WUIEN11 EM4 Wake Up Interrupt En 27 1 read-write EM4WUIEN2 EM4 Wake Up Interrupt En 18 1 read-write EM4WUIEN3 EM4 Wake Up Interrupt En 19 1 read-write EM4WUIEN4 EM4 Wake Up Interrupt En 20 1 read-write EM4WUIEN5 EM4 Wake Up Interrupt En 21 1 read-write EM4WUIEN6 EM4 Wake Up Interrupt En 22 1 read-write EM4WUIEN7 EM4 Wake Up Interrupt En 23 1 read-write EM4WUIEN8 EM4 Wake Up Interrupt En 24 1 read-write EM4WUIEN9 EM4 Wake Up Interrupt En 25 1 read-write EXTIEN0 External Pin Enable 0 1 read-write EXTIEN1 External Pin Enable 1 1 read-write EXTIEN10 External Pin Enable 10 1 read-write EXTIEN11 External Pin Enable 11 1 read-write EXTIEN2 External Pin Enable 2 1 read-write EXTIEN3 External Pin Enable 3 1 read-write EXTIEN4 External Pin Enable 4 1 read-write EXTIEN5 External Pin Enable 5 1 read-write EXTIEN6 External Pin Enable 6 1 read-write EXTIEN7 External Pin Enable 7 1 read-write EXTIEN8 External Pin Enable 8 1 read-write EXTIEN9 External Pin Enable 9 1 read-write IF Interrupt Flag 0x420 -1 read-write n 0x0 0x0 EM4WU EM4 wake up 16 12 read-write EXTIF0 External Pin Flag 0 1 read-write EXTIF1 External Pin Flag 1 1 read-write EXTIF10 External Pin Flag 10 1 read-write EXTIF11 External Pin Flag 11 1 read-write EXTIF2 External Pin Flag 2 1 read-write EXTIF3 External Pin Flag 3 1 read-write EXTIF4 External Pin Flag 4 1 read-write EXTIF5 External Pin Flag 5 1 read-write EXTIF6 External Pin Flag 6 1 read-write EXTIF7 External Pin Flag 7 1 read-write EXTIF8 External Pin Flag 8 1 read-write EXTIF9 External Pin Flag 9 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION ip version id 0 32 read-only KEYSCAN_COLOUT0ROUTE COLOUT0 port/pin select 0x55C -1 read-write n 0x0 0x0 PIN COLOUT0 pin select register 16 4 read-write PORT COLOUT0 port select register 0 2 read-write KEYSCAN_COLOUT1ROUTE COLOUT1 port/pin select 0x560 -1 read-write n 0x0 0x0 PIN COLOUT1 pin select register 16 4 read-write PORT COLOUT1 port select register 0 2 read-write KEYSCAN_COLOUT2ROUTE COLOUT2 port/pin select 0x564 -1 read-write n 0x0 0x0 PIN COLOUT2 pin select register 16 4 read-write PORT COLOUT2 port select register 0 2 read-write KEYSCAN_COLOUT3ROUTE COLOUT3 port/pin select 0x568 -1 read-write n 0x0 0x0 PIN COLOUT3 pin select register 16 4 read-write PORT COLOUT3 port select register 0 2 read-write KEYSCAN_COLOUT4ROUTE COLOUT4 port/pin select 0x56C -1 read-write n 0x0 0x0 PIN COLOUT4 pin select register 16 4 read-write PORT COLOUT4 port select register 0 2 read-write KEYSCAN_COLOUT5ROUTE COLOUT5 port/pin select 0x570 -1 read-write n 0x0 0x0 PIN COLOUT5 pin select register 16 4 read-write PORT COLOUT5 port select register 0 2 read-write KEYSCAN_COLOUT6ROUTE COLOUT6 port/pin select 0x574 -1 read-write n 0x0 0x0 PIN COLOUT6 pin select register 16 4 read-write PORT COLOUT6 port select register 0 2 read-write KEYSCAN_COLOUT7ROUTE COLOUT7 port/pin select 0x578 -1 read-write n 0x0 0x0 PIN COLOUT7 pin select register 16 4 read-write PORT COLOUT7 port select register 0 2 read-write KEYSCAN_ROUTEEN KEYSCAN pin enable 0x558 -1 read-write n 0x0 0x0 COLOUT0PEN COLOUT0 pin enable control bit 0 1 read-write COLOUT1PEN COLOUT1 pin enable control bit 1 1 read-write COLOUT2PEN COLOUT2 pin enable control bit 2 1 read-write COLOUT3PEN COLOUT3 pin enable control bit 3 1 read-write COLOUT4PEN COLOUT4 pin enable control bit 4 1 read-write COLOUT5PEN COLOUT5 pin enable control bit 5 1 read-write COLOUT6PEN COLOUT6 pin enable control bit 6 1 read-write COLOUT7PEN COLOUT7 pin enable control bit 7 1 read-write KEYSCAN_ROWSENSE0ROUTE ROWSENSE0 port/pin select 0x57C -1 read-write n 0x0 0x0 PIN ROWSENSE0 pin select register 16 4 read-write PORT ROWSENSE0 port select register 0 2 read-write KEYSCAN_ROWSENSE1ROUTE ROWSENSE1 port/pin select 0x580 -1 read-write n 0x0 0x0 PIN ROWSENSE1 pin select register 16 4 read-write PORT ROWSENSE1 port select register 0 2 read-write KEYSCAN_ROWSENSE2ROUTE ROWSENSE2 port/pin select 0x584 -1 read-write n 0x0 0x0 PIN ROWSENSE2 pin select register 16 4 read-write PORT ROWSENSE2 port select register 0 2 read-write KEYSCAN_ROWSENSE3ROUTE ROWSENSE3 port/pin select 0x588 -1 read-write n 0x0 0x0 PIN ROWSENSE3 pin select register 16 4 read-write PORT ROWSENSE3 port select register 0 2 read-write KEYSCAN_ROWSENSE4ROUTE ROWSENSE4 port/pin select 0x58C -1 read-write n 0x0 0x0 PIN ROWSENSE4 pin select register 16 4 read-write PORT ROWSENSE4 port select register 0 2 read-write KEYSCAN_ROWSENSE5ROUTE ROWSENSE5 port/pin select 0x590 -1 read-write n 0x0 0x0 PIN ROWSENSE5 pin select register 16 4 read-write PORT ROWSENSE5 port select register 0 2 read-write LCDCOM LCD Common Enable 0x470 -1 read-write n 0x0 0x0 LCDCOMALLOC LCD Common Allocation 0 4 read-write LCDSEG LCD Segment Enable 0x460 -1 read-write n 0x0 0x0 LCDSEGALLOC LCD Segment Allocation 0 20 read-write LESENSE_CH0OUTROUTE CH0OUT port/pin select 0x59C -1 read-write n 0x0 0x0 PIN CH0OUT pin select register 16 4 read-write PORT CH0OUT port select register 0 2 read-write LESENSE_CH10OUTROUTE CH10OUT port/pin select 0x5C4 -1 read-write n 0x0 0x0 PIN CH10OUT pin select register 16 4 read-write PORT CH10OUT port select register 0 2 read-write LESENSE_CH11OUTROUTE CH11OUT port/pin select 0x5C8 -1 read-write n 0x0 0x0 PIN CH11OUT pin select register 16 4 read-write PORT CH11OUT port select register 0 2 read-write LESENSE_CH12OUTROUTE CH12OUT port/pin select 0x5CC -1 read-write n 0x0 0x0 PIN CH12OUT pin select register 16 4 read-write PORT CH12OUT port select register 0 2 read-write LESENSE_CH13OUTROUTE CH13OUT port/pin select 0x5D0 -1 read-write n 0x0 0x0 PIN CH13OUT pin select register 16 4 read-write PORT CH13OUT port select register 0 2 read-write LESENSE_CH14OUTROUTE CH14OUT port/pin select 0x5D4 -1 read-write n 0x0 0x0 PIN CH14OUT pin select register 16 4 read-write PORT CH14OUT port select register 0 2 read-write LESENSE_CH15OUTROUTE CH15OUT port/pin select 0x5D8 -1 read-write n 0x0 0x0 PIN CH15OUT pin select register 16 4 read-write PORT CH15OUT port select register 0 2 read-write LESENSE_CH1OUTROUTE CH1OUT port/pin select 0x5A0 -1 read-write n 0x0 0x0 PIN CH1OUT pin select register 16 4 read-write PORT CH1OUT port select register 0 2 read-write LESENSE_CH2OUTROUTE CH2OUT port/pin select 0x5A4 -1 read-write n 0x0 0x0 PIN CH2OUT pin select register 16 4 read-write PORT CH2OUT port select register 0 2 read-write LESENSE_CH3OUTROUTE CH3OUT port/pin select 0x5A8 -1 read-write n 0x0 0x0 PIN CH3OUT pin select register 16 4 read-write PORT CH3OUT port select register 0 2 read-write LESENSE_CH4OUTROUTE CH4OUT port/pin select 0x5AC -1 read-write n 0x0 0x0 PIN CH4OUT pin select register 16 4 read-write PORT CH4OUT port select register 0 2 read-write LESENSE_CH5OUTROUTE CH5OUT port/pin select 0x5B0 -1 read-write n 0x0 0x0 PIN CH5OUT pin select register 16 4 read-write PORT CH5OUT port select register 0 2 read-write LESENSE_CH6OUTROUTE CH6OUT port/pin select 0x5B4 -1 read-write n 0x0 0x0 PIN CH6OUT pin select register 16 4 read-write PORT CH6OUT port select register 0 2 read-write LESENSE_CH7OUTROUTE CH7OUT port/pin select 0x5B8 -1 read-write n 0x0 0x0 PIN CH7OUT pin select register 16 4 read-write PORT CH7OUT port select register 0 2 read-write LESENSE_CH8OUTROUTE CH8OUT port/pin select 0x5BC -1 read-write n 0x0 0x0 PIN CH8OUT pin select register 16 4 read-write PORT CH8OUT port select register 0 2 read-write LESENSE_CH9OUTROUTE CH9OUT port/pin select 0x5C0 -1 read-write n 0x0 0x0 PIN CH9OUT pin select register 16 4 read-write PORT CH9OUT port select register 0 2 read-write LESENSE_ROUTEEN LESENSE pin enable 0x598 -1 read-write n 0x0 0x0 CH0OUTPEN CH0OUT pin enable control bit 0 1 read-write CH10OUTPEN CH10OUT pin enable control bit 10 1 read-write CH11OUTPEN CH11OUT pin enable control bit 11 1 read-write CH12OUTPEN CH12OUT pin enable control bit 12 1 read-write CH13OUTPEN CH13OUT pin enable control bit 13 1 read-write CH14OUTPEN CH14OUT pin enable control bit 14 1 read-write CH15OUTPEN CH15OUT pin enable control bit 15 1 read-write CH1OUTPEN CH1OUT pin enable control bit 1 1 read-write CH2OUTPEN CH2OUT pin enable control bit 2 1 read-write CH3OUTPEN CH3OUT pin enable control bit 3 1 read-write CH4OUTPEN CH4OUT pin enable control bit 4 1 read-write CH5OUTPEN CH5OUT pin enable control bit 5 1 read-write CH6OUTPEN CH6OUT pin enable control bit 6 1 read-write CH7OUTPEN CH7OUT pin enable control bit 7 1 read-write CH8OUTPEN CH8OUT pin enable control bit 8 1 read-write CH9OUTPEN CH9OUT pin enable control bit 9 1 read-write LETIMER_OUT0ROUTE OUT0 port/pin select 0x5E4 -1 read-write n 0x0 0x0 PIN OUT0 pin select register 16 4 read-write PORT OUT0 port select register 0 2 read-write LETIMER_OUT1ROUTE OUT1 port/pin select 0x5E8 -1 read-write n 0x0 0x0 PIN OUT1 pin select register 16 4 read-write PORT OUT1 port select register 0 2 read-write LETIMER_ROUTEEN LETIMER pin enable 0x5E0 -1 read-write n 0x0 0x0 OUT0PEN OUT0 pin enable control bit 0 1 read-write OUT1PEN OUT1 pin enable control bit 1 1 read-write LOCK No Description 0x300 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Unlock code 42292 PCNT0_S0INROUTE S0IN port/pin select 0x63C -1 read-write n 0x0 0x0 PIN S0IN pin select register 16 4 read-write PORT S0IN port select register 0 2 read-write PCNT0_S1INROUTE S1IN port/pin select 0x640 -1 read-write n 0x0 0x0 PIN S1IN pin select register 16 4 read-write PORT S1IN port select register 0 2 read-write PORTA_CTRL Port control 0x30 -1 read-write n 0x0 0x0 DINDIS Data In Disable 12 1 read-write DINDISALT Data In Disable Alt 28 1 read-write SLEWRATE Slew Rate 4 3 read-write SLEWRATEALT Slew Rate Alt 20 3 read-write PORTA_DIN data in 0x44 -1 read-only n 0x0 0x0 DIN Data input 0 11 read-only PORTA_DOUT data out 0x40 -1 read-write n 0x0 0x0 DOUT Data output 0 11 read-write PORTA_MODEH mode high 0x3C -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE2 MODE n 8 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PORTA_MODEL mode low 0x34 -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE2 MODE n 8 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE3 MODE n 12 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE4 MODE n 16 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE5 MODE n 20 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE6 MODE n 24 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE7 MODE n 28 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PORTB_CTRL Port control 0x60 -1 read-write n 0x0 0x0 DINDIS Data In Disable 12 1 read-write DINDISALT Data In Disable Alt 28 1 read-write SLEWRATE Slew Rate 4 3 read-write SLEWRATEALT Slew Rate Alt 20 3 read-write PORTB_DIN data in 0x74 -1 read-only n 0x0 0x0 DIN Data input 0 7 read-only PORTB_DOUT data out 0x70 -1 read-write n 0x0 0x0 DOUT Data output 0 7 read-write PORTB_MODEL mode low 0x64 -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE2 MODE n 8 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE3 MODE n 12 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE4 MODE n 16 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE5 MODE n 20 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE6 MODE n 24 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PORTC_CTRL Port control 0x90 -1 read-write n 0x0 0x0 DINDIS Data In Disable 12 1 read-write DINDISALT Data In Disable Alt 28 1 read-write SLEWRATE Slew Rate 4 3 read-write SLEWRATEALT Slew Rate Alt 20 3 read-write PORTC_DIN data in 0xA4 -1 read-only n 0x0 0x0 DIN Data input 0 10 read-only PORTC_DOUT data out 0xA0 -1 read-write n 0x0 0x0 DOUT Data output 0 10 read-write PORTC_MODEH mode high 0x9C -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PORTC_MODEL mode low 0x94 -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE2 MODE n 8 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE3 MODE n 12 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE4 MODE n 16 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE5 MODE n 20 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE6 MODE n 24 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE7 MODE n 28 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PORTD_CTRL Port control 0xC0 -1 read-write n 0x0 0x0 DINDIS Data In Disable 12 1 read-write DINDISALT Data In Disable Alt 28 1 read-write SLEWRATE Slew Rate 4 3 read-write SLEWRATEALT Slew Rate Alt 20 3 read-write PORTD_DIN data in 0xD4 -1 read-only n 0x0 0x0 DIN Data input 0 6 read-only PORTD_DOUT data out 0xD0 -1 read-write n 0x0 0x0 DOUT Data output 0 6 read-write PORTD_MODEL mode low 0xC4 -1 read-write n 0x0 0x0 MODE0 MODE n 0 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE1 MODE n 4 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE2 MODE n 8 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE3 MODE n 12 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE4 MODE n 16 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 MODE5 MODE n 20 4 read-write DISABLED Input disabled. Pullup if DOUT is set. 0 INPUT Input enabled. Filter if DOUT is set. 1 WIREDANDPULLUP Open-drain output with pullup. 10 WIREDANDPULLUPFILTER Open-drain output with filter and pullup. 11 WIREDANDALT Open-drain output using alternate control. 12 WIREDANDALTFILTER Open-drain output using alternate control with filter. 13 WIREDANDALTPULLUP Open-drain output using alternate control with pullup. 14 WIREDANDALTPULLUPFILTER Open-drain output using alternate control with filter and pullup. 15 INPUTPULL Input enabled. DOUT determines pull direction. 2 INPUTPULLFILTER Input enabled with filter. DOUT determines pull direction. 3 PUSHPULL Push-pull output. 4 PUSHPULLALT Push-pull using alternate control. 5 WIREDOR Wired-or output. 6 WIREDORPULLDOWN Wired-or output with pull-down. 7 WIREDAND Open-drain output. 8 WIREDANDFILTER Open-drain output with filter. 9 PRS0_ASYNCH0ROUTE ASYNCH0 port/pin select 0x64C -1 read-write n 0x0 0x0 PIN ASYNCH0 pin select register 16 4 read-write PORT ASYNCH0 port select register 0 2 read-write PRS0_ASYNCH10ROUTE ASYNCH10 port/pin select 0x674 -1 read-write n 0x0 0x0 PIN ASYNCH10 pin select register 16 4 read-write PORT ASYNCH10 port select register 0 2 read-write PRS0_ASYNCH11ROUTE ASYNCH11 port/pin select 0x678 -1 read-write n 0x0 0x0 PIN ASYNCH11 pin select register 16 4 read-write PORT ASYNCH11 port select register 0 2 read-write PRS0_ASYNCH1ROUTE ASYNCH1 port/pin select 0x650 -1 read-write n 0x0 0x0 PIN ASYNCH1 pin select register 16 4 read-write PORT ASYNCH1 port select register 0 2 read-write PRS0_ASYNCH2ROUTE ASYNCH2 port/pin select 0x654 -1 read-write n 0x0 0x0 PIN ASYNCH2 pin select register 16 4 read-write PORT ASYNCH2 port select register 0 2 read-write PRS0_ASYNCH3ROUTE ASYNCH3 port/pin select 0x658 -1 read-write n 0x0 0x0 PIN ASYNCH3 pin select register 16 4 read-write PORT ASYNCH3 port select register 0 2 read-write PRS0_ASYNCH4ROUTE ASYNCH4 port/pin select 0x65C -1 read-write n 0x0 0x0 PIN ASYNCH4 pin select register 16 4 read-write PORT ASYNCH4 port select register 0 2 read-write PRS0_ASYNCH5ROUTE ASYNCH5 port/pin select 0x660 -1 read-write n 0x0 0x0 PIN ASYNCH5 pin select register 16 4 read-write PORT ASYNCH5 port select register 0 2 read-write PRS0_ASYNCH6ROUTE ASYNCH6 port/pin select 0x664 -1 read-write n 0x0 0x0 PIN ASYNCH6 pin select register 16 4 read-write PORT ASYNCH6 port select register 0 2 read-write PRS0_ASYNCH7ROUTE ASYNCH7 port/pin select 0x668 -1 read-write n 0x0 0x0 PIN ASYNCH7 pin select register 16 4 read-write PORT ASYNCH7 port select register 0 2 read-write PRS0_ASYNCH8ROUTE ASYNCH8 port/pin select 0x66C -1 read-write n 0x0 0x0 PIN ASYNCH8 pin select register 16 4 read-write PORT ASYNCH8 port select register 0 2 read-write PRS0_ASYNCH9ROUTE ASYNCH9 port/pin select 0x670 -1 read-write n 0x0 0x0 PIN ASYNCH9 pin select register 16 4 read-write PORT ASYNCH9 port select register 0 2 read-write PRS0_ROUTEEN PRS0 pin enable 0x648 -1 read-write n 0x0 0x0 ASYNCH0PEN ASYNCH0 pin enable control bit 0 1 read-write ASYNCH10PEN ASYNCH10 pin enable control bit 10 1 read-write ASYNCH11PEN ASYNCH11 pin enable control bit 11 1 read-write ASYNCH1PEN ASYNCH1 pin enable control bit 1 1 read-write ASYNCH2PEN ASYNCH2 pin enable control bit 2 1 read-write ASYNCH3PEN ASYNCH3 pin enable control bit 3 1 read-write ASYNCH4PEN ASYNCH4 pin enable control bit 4 1 read-write ASYNCH5PEN ASYNCH5 pin enable control bit 5 1 read-write ASYNCH6PEN ASYNCH6 pin enable control bit 6 1 read-write ASYNCH7PEN ASYNCH7 pin enable control bit 7 1 read-write ASYNCH8PEN ASYNCH8 pin enable control bit 8 1 read-write ASYNCH9PEN ASYNCH9 pin enable control bit 9 1 read-write SYNCH0PEN SYNCH0 pin enable control bit 12 1 read-write SYNCH1PEN SYNCH1 pin enable control bit 13 1 read-write SYNCH2PEN SYNCH2 pin enable control bit 14 1 read-write SYNCH3PEN SYNCH3 pin enable control bit 15 1 read-write PRS0_SYNCH0ROUTE SYNCH0 port/pin select 0x67C -1 read-write n 0x0 0x0 PIN SYNCH0 pin select register 16 4 read-write PORT SYNCH0 port select register 0 2 read-write PRS0_SYNCH1ROUTE SYNCH1 port/pin select 0x680 -1 read-write n 0x0 0x0 PIN SYNCH1 pin select register 16 4 read-write PORT SYNCH1 port select register 0 2 read-write PRS0_SYNCH2ROUTE SYNCH2 port/pin select 0x684 -1 read-write n 0x0 0x0 PIN SYNCH2 pin select register 16 4 read-write PORT SYNCH2 port select register 0 2 read-write PRS0_SYNCH3ROUTE SYNCH3 port/pin select 0x688 -1 read-write n 0x0 0x0 PIN SYNCH3 pin select register 16 4 read-write PORT SYNCH3 port select register 0 2 read-write SYXO0_BUFOUTREQINASYNCROUTE BUFOUTREQINASYNC port/pin select 0x6F0 -1 read-write n 0x0 0x0 PIN BUFOUTREQINASYNC pin select register 16 4 read-write PORT BUFOUTREQINASYNC port select register 0 2 read-write TIMER0_CC0ROUTE CC0 port/pin select 0x6FC -1 read-write n 0x0 0x0 PIN CC0 pin select register 16 4 read-write PORT CC0 port select register 0 2 read-write TIMER0_CC1ROUTE CC1 port/pin select 0x700 -1 read-write n 0x0 0x0 PIN CC1 pin select register 16 4 read-write PORT CC1 port select register 0 2 read-write TIMER0_CC2ROUTE CC2 port/pin select 0x704 -1 read-write n 0x0 0x0 PIN CC2 pin select register 16 4 read-write PORT CC2 port select register 0 2 read-write TIMER0_CDTI0ROUTE CDTI0 port/pin select 0x708 -1 read-write n 0x0 0x0 PIN CCC0 pin select register 16 4 read-write PORT CCC0 port select register 0 2 read-write TIMER0_CDTI1ROUTE CDTI1 port/pin select 0x70C -1 read-write n 0x0 0x0 PIN CCC1 pin select register 16 4 read-write PORT CCC1 port select register 0 2 read-write TIMER0_CDTI2ROUTE CDTI2 port/pin select 0x710 -1 read-write n 0x0 0x0 PIN CCC2 pin select register 16 4 read-write PORT CCC2 port select register 0 2 read-write TIMER0_ROUTEEN TIMER0 pin enable 0x6F8 -1 read-write n 0x0 0x0 CC0PEN CC0 pin enable control bit 0 1 read-write CC1PEN CC1 pin enable control bit 1 1 read-write CC2PEN CC2 pin enable control bit 2 1 read-write CCC0PEN CCC0 pin enable control bit 3 1 read-write CCC1PEN CCC1 pin enable control bit 4 1 read-write CCC2PEN CCC2 pin enable control bit 5 1 read-write TIMER1_CC0ROUTE CC0 port/pin select 0x71C -1 read-write n 0x0 0x0 PIN CC0 pin select register 16 4 read-write PORT CC0 port select register 0 2 read-write TIMER1_CC1ROUTE CC1 port/pin select 0x720 -1 read-write n 0x0 0x0 PIN CC1 pin select register 16 4 read-write PORT CC1 port select register 0 2 read-write TIMER1_CC2ROUTE CC2 port/pin select 0x724 -1 read-write n 0x0 0x0 PIN CC2 pin select register 16 4 read-write PORT CC2 port select register 0 2 read-write TIMER1_CDTI0ROUTE CDTI0 port/pin select 0x728 -1 read-write n 0x0 0x0 PIN CCC0 pin select register 16 4 read-write PORT CCC0 port select register 0 2 read-write TIMER1_CDTI1ROUTE CDTI1 port/pin select 0x72C -1 read-write n 0x0 0x0 PIN CCC1 pin select register 16 4 read-write PORT CCC1 port select register 0 2 read-write TIMER1_CDTI2ROUTE CDTI2 port/pin select 0x730 -1 read-write n 0x0 0x0 PIN CCC2 pin select register 16 4 read-write PORT CCC2 port select register 0 2 read-write TIMER1_ROUTEEN TIMER1 pin enable 0x718 -1 read-write n 0x0 0x0 CC0PEN CC0 pin enable control bit 0 1 read-write CC1PEN CC1 pin enable control bit 1 1 read-write CC2PEN CC2 pin enable control bit 2 1 read-write CCC0PEN CCC0 pin enable control bit 3 1 read-write CCC1PEN CCC1 pin enable control bit 4 1 read-write CCC2PEN CCC2 pin enable control bit 5 1 read-write TIMER2_CC0ROUTE CC0 port/pin select 0x73C -1 read-write n 0x0 0x0 PIN CC0 pin select register 16 4 read-write PORT CC0 port select register 0 2 read-write TIMER2_CC1ROUTE CC1 port/pin select 0x740 -1 read-write n 0x0 0x0 PIN CC1 pin select register 16 4 read-write PORT CC1 port select register 0 2 read-write TIMER2_CC2ROUTE CC2 port/pin select 0x744 -1 read-write n 0x0 0x0 PIN CC2 pin select register 16 4 read-write PORT CC2 port select register 0 2 read-write TIMER2_CDTI0ROUTE CDTI0 port/pin select 0x748 -1 read-write n 0x0 0x0 PIN CCC0 pin select register 16 4 read-write PORT CCC0 port select register 0 2 read-write TIMER2_CDTI1ROUTE CDTI1 port/pin select 0x74C -1 read-write n 0x0 0x0 PIN CCC1 pin select register 16 4 read-write PORT CCC1 port select register 0 2 read-write TIMER2_CDTI2ROUTE CDTI2 port/pin select 0x750 -1 read-write n 0x0 0x0 PIN CCC2 pin select register 16 4 read-write PORT CCC2 port select register 0 2 read-write TIMER2_ROUTEEN TIMER2 pin enable 0x738 -1 read-write n 0x0 0x0 CC0PEN CC0 pin enable control bit 0 1 read-write CC1PEN CC1 pin enable control bit 1 1 read-write CC2PEN CC2 pin enable control bit 2 1 read-write CCC0PEN CCC0 pin enable control bit 3 1 read-write CCC1PEN CCC1 pin enable control bit 4 1 read-write CCC2PEN CCC2 pin enable control bit 5 1 read-write TIMER3_CC0ROUTE CC0 port/pin select 0x75C -1 read-write n 0x0 0x0 PIN CC0 pin select register 16 4 read-write PORT CC0 port select register 0 2 read-write TIMER3_CC1ROUTE CC1 port/pin select 0x760 -1 read-write n 0x0 0x0 PIN CC1 pin select register 16 4 read-write PORT CC1 port select register 0 2 read-write TIMER3_CC2ROUTE CC2 port/pin select 0x764 -1 read-write n 0x0 0x0 PIN CC2 pin select register 16 4 read-write PORT CC2 port select register 0 2 read-write TIMER3_CDTI0ROUTE CDTI0 port/pin select 0x768 -1 read-write n 0x0 0x0 PIN CCC0 pin select register 16 4 read-write PORT CCC0 port select register 0 2 read-write TIMER3_CDTI1ROUTE CDTI1 port/pin select 0x76C -1 read-write n 0x0 0x0 PIN CCC1 pin select register 16 4 read-write PORT CCC1 port select register 0 2 read-write TIMER3_CDTI2ROUTE CDTI2 port/pin select 0x770 -1 read-write n 0x0 0x0 PIN CCC2 pin select register 16 4 read-write PORT CCC2 port select register 0 2 read-write TIMER3_ROUTEEN TIMER3 pin enable 0x758 -1 read-write n 0x0 0x0 CC0PEN CC0 pin enable control bit 0 1 read-write CC1PEN CC1 pin enable control bit 1 1 read-write CC2PEN CC2 pin enable control bit 2 1 read-write CCC0PEN CCC0 pin enable control bit 3 1 read-write CCC1PEN CCC1 pin enable control bit 4 1 read-write CCC2PEN CCC2 pin enable control bit 5 1 read-write TIMER4_CC0ROUTE CC0 port/pin select 0x77C -1 read-write n 0x0 0x0 PIN CC0 pin select register 16 4 read-write PORT CC0 port select register 0 2 read-write TIMER4_CC1ROUTE CC1 port/pin select 0x780 -1 read-write n 0x0 0x0 PIN CC1 pin select register 16 4 read-write PORT CC1 port select register 0 2 read-write TIMER4_CC2ROUTE CC2 port/pin select 0x784 -1 read-write n 0x0 0x0 PIN CC2 pin select register 16 4 read-write PORT CC2 port select register 0 2 read-write TIMER4_CDTI0ROUTE CDTI0 port/pin select 0x788 -1 read-write n 0x0 0x0 PIN CCC0 pin select register 16 4 read-write PORT CCC0 port select register 0 2 read-write TIMER4_CDTI1ROUTE CDTI1 port/pin select 0x78C -1 read-write n 0x0 0x0 PIN CCC1 pin select register 16 4 read-write PORT CCC1 port select register 0 2 read-write TIMER4_CDTI2ROUTE CDTI2 port/pin select 0x790 -1 read-write n 0x0 0x0 PIN CCC2 pin select register 16 4 read-write PORT CCC2 port select register 0 2 read-write TIMER4_ROUTEEN TIMER4 pin enable 0x778 -1 read-write n 0x0 0x0 CC0PEN CC0 pin enable control bit 0 1 read-write CC1PEN CC1 pin enable control bit 1 1 read-write CC2PEN CC2 pin enable control bit 2 1 read-write CCC0PEN CCC0 pin enable control bit 3 1 read-write CCC1PEN CCC1 pin enable control bit 4 1 read-write CCC2PEN CCC2 pin enable control bit 5 1 read-write TRACEROUTEPEN No Description 0x444 -1 read-write n 0x0 0x0 SWVPEN Serial Wire Viewer Output Pin Enable 0 1 read-write TRACECLKPEN Trace Clk Pin Enable 1 1 read-write TRACEDATA0PEN Trace Data0 Pin Enable 2 1 read-write TRACEDATA1PEN Trace Data1 Pin Enable 3 1 read-write TRACEDATA2PEN Trace Data2 Pin Enable 4 1 read-write TRACEDATA3PEN Trace Data3 Pin Enable 5 1 read-write USART0_CLKROUTE SCLK port/pin select 0x7AC -1 read-write n 0x0 0x0 PIN SCLK pin select register 16 4 read-write PORT SCLK port select register 0 2 read-write USART0_CSROUTE CS port/pin select 0x79C -1 read-write n 0x0 0x0 PIN CS pin select register 16 4 read-write PORT CS port select register 0 2 read-write USART0_CTSROUTE CTS port/pin select 0x7A0 -1 read-write n 0x0 0x0 PIN CTS pin select register 16 4 read-write PORT CTS port select register 0 2 read-write USART0_ROUTEEN USART0 pin enable 0x798 -1 read-write n 0x0 0x0 CLKPEN SCLK pin enable control bit 3 1 read-write CSPEN CS pin enable control bit 0 1 read-write RTSPEN RTS pin enable control bit 1 1 read-write RXPEN RX pin enable control bit 2 1 read-write TXPEN TX pin enable control bit 4 1 read-write USART0_RTSROUTE RTS port/pin select 0x7A4 -1 read-write n 0x0 0x0 PIN RTS pin select register 16 4 read-write PORT RTS port select register 0 2 read-write USART0_RXROUTE RX port/pin select 0x7A8 -1 read-write n 0x0 0x0 PIN RX pin select register 16 4 read-write PORT RX port select register 0 2 read-write USART0_TXROUTE TX port/pin select 0x7B0 -1 read-write n 0x0 0x0 PIN TX pin select register 16 4 read-write PORT TX port select register 0 2 read-write HFRCO0_NS HFRCO0_NS Registers HFRCO0_NS 0x0 0x0 0x1000 registers n HFRCO0 46 CAL No Description 0x8 -1 read-write n 0x0 0x0 CLKDIV Locally Divide HFRCO Clock Output 24 2 read-write DIV1 Divide by 1. 0 DIV2 Divide by 2. 1 DIV4 Divide by 4. 2 CMPBIAS Comparator Bias Current 21 3 read-write CMPSEL Comparator Load Select 26 2 read-write FINETUNING Fine Tuning Value 8 6 read-write FREQRANGE Frequency Range 16 5 read-write IREFTC Tempco Trim on Comparator Current 28 4 read-write LDOHP LDO High Power Mode 15 1 read-write TUNING Tuning Value 0 7 read-write CTRL No Description 0x4 -1 read-write n 0x0 0x0 DISONDEMAND Disable On-demand 1 1 read-write FORCEEN Force Enable 0 1 read-write IEN No Description 0x14 -1 read-write n 0x0 0x0 RDY RDY Interrupt Enable 0 1 read-write IF No Description 0x10 -1 read-write n 0x0 0x0 RDY Ready Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x1C -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only UNLOCK Unlock code 33173 STATUS No Description 0xC -1 read-only n 0x0 0x0 ENS Enable Status 16 1 read-only FREQBSY Frequency Updating Busy 1 1 read-only LOCK Lock Status 31 1 read-only UNLOCKED HFRCO is unlocked 0 LOCKED HFRCO is locked 1 RDY Ready 0 1 read-only SYNCBUSY Synchronization Busy 2 1 read-only HFRCO0_S HFRCO0_S Registers HFRCO0_S 0x0 0x0 0x1000 registers n HFRCO0 46 CAL No Description 0x8 -1 read-write n 0x0 0x0 CLKDIV Locally Divide HFRCO Clock Output 24 2 read-write DIV1 Divide by 1. 0 DIV2 Divide by 2. 1 DIV4 Divide by 4. 2 CMPBIAS Comparator Bias Current 21 3 read-write CMPSEL Comparator Load Select 26 2 read-write FINETUNING Fine Tuning Value 8 6 read-write FREQRANGE Frequency Range 16 5 read-write IREFTC Tempco Trim on Comparator Current 28 4 read-write LDOHP LDO High Power Mode 15 1 read-write TUNING Tuning Value 0 7 read-write CTRL No Description 0x4 -1 read-write n 0x0 0x0 DISONDEMAND Disable On-demand 1 1 read-write FORCEEN Force Enable 0 1 read-write IEN No Description 0x14 -1 read-write n 0x0 0x0 RDY RDY Interrupt Enable 0 1 read-write IF No Description 0x10 -1 read-write n 0x0 0x0 RDY Ready Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x1C -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only UNLOCK Unlock code 33173 STATUS No Description 0xC -1 read-only n 0x0 0x0 ENS Enable Status 16 1 read-only FREQBSY Frequency Updating Busy 1 1 read-only LOCK Lock Status 31 1 read-only UNLOCKED HFRCO is unlocked 0 LOCKED HFRCO is locked 1 RDY Ready 0 1 read-only SYNCBUSY Synchronization Busy 2 1 read-only HFRCOEM23_NS HFRCOEM23_NS Registers HFRCOEM23_NS 0x0 0x0 0x1000 registers n HFRCOEM23 47 CAL No Description 0x8 -1 read-write n 0x0 0x0 CLKDIV Locally Divide HFRCO Clock Output 24 2 read-write DIV1 Divide by 1. 0 DIV2 Divide by 2. 1 DIV4 Divide by 4. 2 CMPBIAS Comparator Bias Current 21 3 read-write CMPSEL Comparator Load Select 26 2 read-write FINETUNING Fine Tuning Value 8 6 read-write FREQRANGE Frequency Range 16 5 read-write IREFTC Tempco Trim on Comparator Current 28 4 read-write LDOHP LDO High Power Mode 15 1 read-write TUNING Tuning Value 0 7 read-write CTRL No Description 0x4 -1 read-write n 0x0 0x0 DISONDEMAND Disable On-demand 1 1 read-write EM23ONDEMAND EM23 On-demand 2 1 read-write FORCEEN Force Enable 0 1 read-write IEN No Description 0x14 -1 read-write n 0x0 0x0 RDY RDY Interrupt Enable 0 1 read-write IF No Description 0x10 -1 read-write n 0x0 0x0 RDY Ready Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x1C -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only UNLOCK Unlock code 33173 STATUS No Description 0xC -1 read-only n 0x0 0x0 ENS Enable Status 16 1 read-only FREQBSY Frequency Updating Busy 1 1 read-only LOCK Lock Status 31 1 read-only UNLOCKED HFRCO is unlocked 0 LOCKED HFRCO is locked 1 RDY Ready 0 1 read-only SYNCBUSY Synchronization Busy 2 1 read-only HFRCOEM23_S HFRCOEM23_S Registers HFRCOEM23_S 0x0 0x0 0x1000 registers n HFRCOEM23 47 CAL No Description 0x8 -1 read-write n 0x0 0x0 CLKDIV Locally Divide HFRCO Clock Output 24 2 read-write DIV1 Divide by 1. 0 DIV2 Divide by 2. 1 DIV4 Divide by 4. 2 CMPBIAS Comparator Bias Current 21 3 read-write CMPSEL Comparator Load Select 26 2 read-write FINETUNING Fine Tuning Value 8 6 read-write FREQRANGE Frequency Range 16 5 read-write IREFTC Tempco Trim on Comparator Current 28 4 read-write LDOHP LDO High Power Mode 15 1 read-write TUNING Tuning Value 0 7 read-write CTRL No Description 0x4 -1 read-write n 0x0 0x0 DISONDEMAND Disable On-demand 1 1 read-write EM23ONDEMAND EM23 On-demand 2 1 read-write FORCEEN Force Enable 0 1 read-write IEN No Description 0x14 -1 read-write n 0x0 0x0 RDY RDY Interrupt Enable 0 1 read-write IF No Description 0x10 -1 read-write n 0x0 0x0 RDY Ready Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x1C -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only UNLOCK Unlock code 33173 STATUS No Description 0xC -1 read-only n 0x0 0x0 ENS Enable Status 16 1 read-only FREQBSY Frequency Updating Busy 1 1 read-only LOCK Lock Status 31 1 read-only UNLOCKED HFRCO is unlocked 0 LOCKED HFRCO is locked 1 RDY Ready 0 1 read-only SYNCBUSY Synchronization Busy 2 1 read-only HFXO0_NS HFXO0_NS Registers HFXO0_NS 0x0 0x0 0x1000 registers n HFXO0 45 BUFOUTCTRL No Description 0x44 -1 read-write n 0x0 0x0 MINIMUMSTARTUPDELAY Minimum Startup Delay 31 1 read-write PEAKDETTHRESANA Peak Detector Threshold for XOUT 12 4 read-write V105MV 0 V132MV 1 V367MV 10 V394MV 11 V420MV 12 V446MV 13 V472MV 14 V499MV 15 V157MV 2 V184MV 3 V210MV 4 V236MV 5 V262MV 6 V289MV 7 V315MV 8 V341MV 9 TIMEOUTCTUNE Tuning Cap Change Timeout 16 4 read-write T2US The tuning cap change timeout is set to 2 us minimum. The maximum can be +40%. 0 T5US The tuning cap change timeout is set to 5 us minimum. The maximum can be +40%. 1 T83US The tuning cap change timeout is set to 83 us minimum. The maximum can be +40%. 10 T104US The tuning cap change timeout is set to 104 us minimum. The maximum can be +40%. 11 T208US The tuning cap change timeout is set to 208 us minimum. The maximum can be +40%. 12 T313US The tuning cap change timeout is set to 313 us minimum. The maximum can be +40%. 13 T521US The tuning cap change timeout is set to 521 us minimum. The maximum can be +40%. 14 T938US The tuning cap change timeout is set to 938 us minimum. The maximum can be +40%. 15 T10US The tuning cap change timeout is set to 10 us minimum. The maximum can be +40%. 2 T16US The tuning cap change timeout is set to 16 us minimum. The maximum can be +40%. 3 T21US The tuning cap change timeout is set to 21 us minimum. The maximum can be +40%. 4 T26US The tuning cap change timeout is set to 26 us minimum. The maximum can be +40%. 5 T31US The tuning cap change timeout is set to 31 us minimum. The maximum can be +40%. 6 T42US The tuning cap change timeout is set to 42 us minimum. The maximum can be +40%. 7 T52US The tuning cap change timeout is set to 52 us minimum. The maximum can be +40%. 8 T63US The tuning cap change timeout is set to 63 us minimum. The maximum can be +40%. 9 TIMEOUTSTARTUP Oscillator Startup Timeout 20 4 read-write T42US The oscillator startup timeout is set to 42 us minimum. The maximum can be +40%. 0 T83US The oscillator startup timeout is set to 83 us minimum. The maximum can be +40%. 1 T333US The oscillator startup timeout is set to 333 us minimum. The maximum can be +40%. 10 T375US The oscillator startup timeout is set to 375 us minimum. The maximum can be +40%. 11 T417US The oscillator startup timeout is set to 417 us minimum. The maximum can be +40%. 12 T458US The oscillator startup timeout is set to 458 us minimum. The maximum can be +40%. 13 T500US The oscillator startup timeout is set to 500 us minimum. The maximum can be +40%. 14 T667US The oscillator startup timeout is set to 667 us minimum. The maximum can be +40%. 15 T108US The oscillator startup timeout is set to 108 us minimum. The maximum can be +40%. 2 T133US The oscillator startup timeout is set to 133 us minimum. The maximum can be +40%. 3 T158US The oscillator startup timeout is set to 158 us minimum. The maximum can be +40%. 4 T183US The oscillator startup timeout is set to 183 us minimum. The maximum can be +40%. 5 T208US The oscillator startup timeout is set to 208 us minimum. The maximum can be +40%. 6 T233US The oscillator startup timeout is set to 233 us minimum. The maximum can be +40%. 7 T258US The oscillator startup timeout is set to 258 us minimum. The maximum can be +40%. 8 T283US The oscillator startup timeout is set to 283 us minimum. The maximum can be +40%. 9 XOUTBIASANA Driver Bias Current 0 4 read-write XOUTCFANA Buffer Gain 4 4 read-write XOUTGMANA 8 4 read-write BUFOUTTRIM No Description 0x40 -1 read-write n 0x0 0x0 VTRTRIMANA BUFOUT Reference Trim 0 4 read-write CFG No Description 0x20 -1 read-write n 0x0 0x0 ENXIDCBIASANA Enable XI Internal DC Bias 2 1 read-write FORCELFTIMEOUT Force Low Frequency Timeout 28 1 read-write MODE Crystal Oscillator Mode 0 2 read-write XTAL crystal oscillator 0 EXTCLK external sinusoidal clock can be supplied on XI pin. 1 EXTCLKPKDET external sinusoidal clock can be supplied on XI pin (peak detector used). 2 SQBUFSCHTRGANA Squaring Buffer Schmitt Trigger 3 1 read-write DISABLE Squaring buffer schmitt trigger is disabled 0 ENABLE Squaring buffer schmitt trigger is enabled 1 CMD No Description 0x50 -1 write-only n 0x0 0x0 COREBIASOPT Core Bias Optimizaton 0 1 write-only CTRL No Description 0x28 -1 read-write n 0x0 0x0 BUFOUTFREEZE Freeze BUFOUT Controls 0 1 read-write DISONDEMAND Disable On-demand For Digital Clock 24 1 read-write DISONDEMANDBUFOUT Disable On-demand For BUFOUT 26 1 read-write DISONDEMANDPRS Disable On-demand For PRS 25 1 read-write EM23ONDEMAND On-demand During EM23 3 1 read-write FORCECTUNEMAX Force Tuning Cap to Max Value 6 1 read-write FORCEEN Force Digital Clock Request 16 1 read-write FORCEENBUFOUT Force BUFOUT Request 18 1 read-write FORCEENPRS Force PRS Oscillator Request 17 1 read-write FORCEXI2GNDANA Force XI Pin to Ground 4 1 read-write DISABLE Disabled (not pulled) 0 ENABLE Enabled (pulled) 1 FORCEXO2GNDANA Force XO Pin to Ground 5 1 read-write DISABLE Disabled (not pulled) 0 ENABLE Enabled (pulled) 1 KEEPWARM Keep Warm 2 1 read-write PRSSTATUSSEL0 PRS Status 0 Output Select 8 4 read-write DISABLED PRS mux outputs 0 0 ENS PRS mux outputs enabled status 1 BUFOUTHWREQ PRS mux outputs oscillator requested by BUFOUT request status 10 COREBIASOPTRDY PRS mux outputs core bias optimization ready status 2 RDY PRS mux outputs ready status 3 PRSRDY PRS mux outputs PRS ready status 4 BUFOUTRDY PRS mux outputs BUFOUT ready status 5 HWREQ PRS mux outputs oscillator requested by digital clock status 8 PRSHWREQ PRS mux outputs oscillator requested by PRS request status 9 PRSSTATUSSEL1 PRS Status 1 Output Select 12 4 read-write DISABLED PRS mux outputs 0 0 ENS PRS mux outputs enabled status 1 BUFOUTHWREQ PRS mux outputs oscillator requested by BUFOUT request status 10 COREBIASOPTRDY PRS mux outputs core bias optimization ready status 2 RDY PRS mux outputs ready status 3 PRSRDY PRS mux outputs PRS ready status 4 BUFOUTRDY PRS mux outputs BUFOUT ready status 5 HWREQ PRS mux outputs oscillator requested by digital clock status 8 PRSHWREQ PRS mux outputs oscillator requested by PRS request status 9 IEN No Description 0x74 -1 read-write n 0x0 0x0 BUFOUTDNSERR BUFOUT Did Not Start Error Interrupt 28 1 read-write BUFOUTERR BUFOUT Request Error Interrupt 21 1 read-write BUFOUTFREEZEERR BUFOUT Freeze Error Interrupt 27 1 read-write BUFOUTFROZEN BUFOUT FROZEN Interrupt 15 1 read-write BUFOUTRDY BUFOUT Ready Interrupt 3 1 read-write COREBIASOPTERR Core Bias Optimization Error Interrupt 31 1 read-write COREBIASOPTRDY Core Bias Optimization Ready Interrupt 1 1 read-write DNSERR Did Not Start Error Interrupt 29 1 read-write LFTIMEOUTERR Low Frequency Timeout Error Interrupt 30 1 read-write PRSERR PRS Requset Error Interrupt 20 1 read-write PRSRDY PRS Ready Interrupt 2 1 read-write RDY Digital Clock Ready Interrupt 0 1 read-write IF No Description 0x70 -1 read-write n 0x0 0x0 BUFOUTDNSERR BUFOUT Did Not Start Error Interrupt 28 1 read-write BUFOUTERR BUFOUT Request Error Interrupt 21 1 read-write BUFOUTFREEZEERR BUFOUT Freeze Error Interrupt 27 1 read-write BUFOUTFROZEN BUFOUT FROZEN Interrupt 15 1 read-write BUFOUTRDY BUFOUT Ready Interrupt 3 1 read-write COREBIASOPTERR Core Bias Optimization Error Interrupt 31 1 read-write COREBIASOPTRDY Core Bias Optimization Ready Interrupt 1 1 read-write DNSERR Did Not Start Error Interrupt 29 1 read-write LFTIMEOUTERR Low Frequency Timeout Error Interrupt 30 1 read-write PRSERR PRS Requset Error Interrupt 20 1 read-write PRSRDY PRS Ready Interrupt 2 1 read-write RDY Digital Clock Ready Interrupt 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x80 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write this value to unlock 22542 STATUS No Description 0x58 -1 read-only n 0x0 0x0 BUFOUTFROZEN BUFOUT Frozen 15 1 read-only BUFOUTHWREQ Oscillator Requested by BUFOUT Request 21 1 read-only BUFOUTRDY BUFOUT Ready Status 3 1 read-only COREBIASOPTRDY Core Bias Optimization Ready 1 1 read-only ENS Enabled Status 16 1 read-only HWREQ Oscillator Requested by Digital Clock 17 1 read-only ISWARM Oscillator Is Kept Warm 19 1 read-only LOCK Configuration Lock Status 31 1 read-only UNLOCKED Configuration lock is unlocked 0 LOCKED Configuration lock is locked 1 PRSHWREQ Oscillator Requested by PRS Request 20 1 read-only PRSRDY PRS Ready Status 2 1 read-only RDY Ready Status 0 1 read-only SYNCBUSY Sync Busy 30 1 read-only XTALCFG No Description 0x10 -1 read-write n 0x0 0x0 COREBIASSTARTUP Startup Core Bias Current 6 6 read-write COREBIASSTARTUPI Intermediate Startup Core Bias Current 0 6 read-write CTUNEXISTARTUP Startup Tuning Capacitance on XI 12 4 read-write CTUNEXOSTARTUP Startup Tuning Capacitance on XO 16 4 read-write TIMEOUTCBLSB Core Bias LSB Change Timeout 24 4 read-write T8US The core bias LSB change timeout is set to 8 us minimum. The maximum can be +40%. 0 T20US The core bias LSB change timeout is set to 20 us minimum. The maximum can be +40%. 1 T333US The core bias LSB change timeout is set to 333 us minimum. The maximum can be +40%. 10 T416US The core bias LSB change timeout is set to 416 us minimum. The maximum can be +40%. 11 T833US The core bias LSB change timeout is set to 833 us minimum. The maximum can be +40%. 12 T1250US The core bias LSB change timeout is set to 1250 us minimum. The maximum can be +40%. 13 T2083US The core bias LSB change timeout is set to 2083 us minimum. The maximum can be +40%. 14 T3750US The core bias LSB change timeout is set to 3750 us minimum. The maximum can be +40%. 15 T41US The core bias LSB change timeout is set to 41 us minimum. The maximum can be +40%. 2 T62US The core bias LSB change timeout is set to 62 us minimum. The maximum can be +40%. 3 T83US The core bias LSB change timeout is set to 83 us minimum. The maximum can be +40%. 4 T104US The core bias LSB change timeout is set to 104 us minimum. The maximum can be +40%. 5 T125US The core bias LSB change timeout is set to 125 us minimum. The maximum can be +40%. 6 T166US The core bias LSB change timeout is set to 166 us minimum. The maximum can be +40%. 7 T208US The core bias LSB change timeout is set to 208 us minimum. The maximum can be +40%. 8 T250US The core bias LSB change timeout is set to 250 us minimum. The maximum can be +40%. 9 TIMEOUTSTEADY Steady State Timeout 20 4 read-write T4US The steady state timeout is set to 16 us minimum. The maximum can be +40%. 0 T16US The steady state timeout is set to 41 us minimum. The maximum can be +40%. 1 T500US The steady state timeout is set to 666 us minimum. The maximum can be +40%. 10 T666US The steady state timeout is set to 833 us minimum. The maximum can be +40%. 11 T833US The steady state timeout is set to 1666 us minimum. The maximum can be +40%. 12 T1666US The steady state timeout is set to 2500 us minimum. The maximum can be +40%. 13 T2500US The steady state timeout is set to 4166 us minimum. The maximum can be +40%. 14 T4166US The steady state timeout is set to 7500 us minimum. The maximum can be +40%. 15 T41US The steady state timeout is set to 83 us minimum. The maximum can be +40%. 2 T83US The steady state timeout is set to 125 us minimum. The maximum can be +40%. 3 T125US The steady state timeout is set to 166 us minimum. The maximum can be +40%. 4 T166US The steady state timeout is set to 208 us minimum. The maximum can be +40%. 5 T208US The steady state timeout is set to 250 us minimum. The maximum can be +40%. 6 T250US The steady state timeout is set to 333 us minimum. The maximum can be +40%. 7 T333US The steady state timeout is set to 416 us minimum. The maximum can be +40%. 8 T416US The steady state timeout is set to 500 us minimum. The maximum can be +40%. 9 XTALCTRL No Description 0x18 -1 read-write n 0x0 0x0 COREBIASANA Core Bias Current 0 8 read-write COREDGENANA Core Degeneration 26 2 read-write NONE Do not apply core degeneration resistence 0 DGEN33 Apply 33 ohm core degeneration resistence 1 DGEN50 Apply 50 ohm core degeneration resistence 2 DGEN100 Apply 100 ohm core degeneration resistence 3 CTUNEFIXANA Fixed Tuning Capacitance 24 2 read-write NONE Remove fixed capacitance on XI and XO nodes 0 XI Adds fixed capacitance on XI node 1 XO Adds fixed capacitance on XO node 2 BOTH Adds fixed capacitance on both XI and XO nodes 3 CTUNEXIANA Tuning Capacitance on XI 8 8 read-write CTUNEXOANA Tuning Capacitance on XO 16 8 read-write SKIPCOREBIASOPT Skip Core Bias Optimization 31 1 read-write XTALCTRL1 No Description 0x1C -1 read-write n 0x0 0x0 CTUNEXIBUFOUTANA BUFOUT Tuning Capacitance on XI 0 8 read-write HFXO0_S HFXO0_S Registers HFXO0_S 0x0 0x0 0x1000 registers n HFXO0 45 BUFOUTCTRL No Description 0x44 -1 read-write n 0x0 0x0 MINIMUMSTARTUPDELAY Minimum Startup Delay 31 1 read-write PEAKDETTHRESANA Peak Detector Threshold for XOUT 12 4 read-write V105MV 0 V132MV 1 V367MV 10 V394MV 11 V420MV 12 V446MV 13 V472MV 14 V499MV 15 V157MV 2 V184MV 3 V210MV 4 V236MV 5 V262MV 6 V289MV 7 V315MV 8 V341MV 9 TIMEOUTCTUNE Tuning Cap Change Timeout 16 4 read-write T2US The tuning cap change timeout is set to 2 us minimum. The maximum can be +40%. 0 T5US The tuning cap change timeout is set to 5 us minimum. The maximum can be +40%. 1 T83US The tuning cap change timeout is set to 83 us minimum. The maximum can be +40%. 10 T104US The tuning cap change timeout is set to 104 us minimum. The maximum can be +40%. 11 T208US The tuning cap change timeout is set to 208 us minimum. The maximum can be +40%. 12 T313US The tuning cap change timeout is set to 313 us minimum. The maximum can be +40%. 13 T521US The tuning cap change timeout is set to 521 us minimum. The maximum can be +40%. 14 T938US The tuning cap change timeout is set to 938 us minimum. The maximum can be +40%. 15 T10US The tuning cap change timeout is set to 10 us minimum. The maximum can be +40%. 2 T16US The tuning cap change timeout is set to 16 us minimum. The maximum can be +40%. 3 T21US The tuning cap change timeout is set to 21 us minimum. The maximum can be +40%. 4 T26US The tuning cap change timeout is set to 26 us minimum. The maximum can be +40%. 5 T31US The tuning cap change timeout is set to 31 us minimum. The maximum can be +40%. 6 T42US The tuning cap change timeout is set to 42 us minimum. The maximum can be +40%. 7 T52US The tuning cap change timeout is set to 52 us minimum. The maximum can be +40%. 8 T63US The tuning cap change timeout is set to 63 us minimum. The maximum can be +40%. 9 TIMEOUTSTARTUP Oscillator Startup Timeout 20 4 read-write T42US The oscillator startup timeout is set to 42 us minimum. The maximum can be +40%. 0 T83US The oscillator startup timeout is set to 83 us minimum. The maximum can be +40%. 1 T333US The oscillator startup timeout is set to 333 us minimum. The maximum can be +40%. 10 T375US The oscillator startup timeout is set to 375 us minimum. The maximum can be +40%. 11 T417US The oscillator startup timeout is set to 417 us minimum. The maximum can be +40%. 12 T458US The oscillator startup timeout is set to 458 us minimum. The maximum can be +40%. 13 T500US The oscillator startup timeout is set to 500 us minimum. The maximum can be +40%. 14 T667US The oscillator startup timeout is set to 667 us minimum. The maximum can be +40%. 15 T108US The oscillator startup timeout is set to 108 us minimum. The maximum can be +40%. 2 T133US The oscillator startup timeout is set to 133 us minimum. The maximum can be +40%. 3 T158US The oscillator startup timeout is set to 158 us minimum. The maximum can be +40%. 4 T183US The oscillator startup timeout is set to 183 us minimum. The maximum can be +40%. 5 T208US The oscillator startup timeout is set to 208 us minimum. The maximum can be +40%. 6 T233US The oscillator startup timeout is set to 233 us minimum. The maximum can be +40%. 7 T258US The oscillator startup timeout is set to 258 us minimum. The maximum can be +40%. 8 T283US The oscillator startup timeout is set to 283 us minimum. The maximum can be +40%. 9 XOUTBIASANA Driver Bias Current 0 4 read-write XOUTCFANA Buffer Gain 4 4 read-write XOUTGMANA 8 4 read-write BUFOUTTRIM No Description 0x40 -1 read-write n 0x0 0x0 VTRTRIMANA BUFOUT Reference Trim 0 4 read-write CFG No Description 0x20 -1 read-write n 0x0 0x0 ENXIDCBIASANA Enable XI Internal DC Bias 2 1 read-write FORCELFTIMEOUT Force Low Frequency Timeout 28 1 read-write MODE Crystal Oscillator Mode 0 2 read-write XTAL crystal oscillator 0 EXTCLK external sinusoidal clock can be supplied on XI pin. 1 EXTCLKPKDET external sinusoidal clock can be supplied on XI pin (peak detector used). 2 SQBUFSCHTRGANA Squaring Buffer Schmitt Trigger 3 1 read-write DISABLE Squaring buffer schmitt trigger is disabled 0 ENABLE Squaring buffer schmitt trigger is enabled 1 CMD No Description 0x50 -1 write-only n 0x0 0x0 COREBIASOPT Core Bias Optimizaton 0 1 write-only CTRL No Description 0x28 -1 read-write n 0x0 0x0 BUFOUTFREEZE Freeze BUFOUT Controls 0 1 read-write DISONDEMAND Disable On-demand For Digital Clock 24 1 read-write DISONDEMANDBUFOUT Disable On-demand For BUFOUT 26 1 read-write DISONDEMANDPRS Disable On-demand For PRS 25 1 read-write EM23ONDEMAND On-demand During EM23 3 1 read-write FORCECTUNEMAX Force Tuning Cap to Max Value 6 1 read-write FORCEEN Force Digital Clock Request 16 1 read-write FORCEENBUFOUT Force BUFOUT Request 18 1 read-write FORCEENPRS Force PRS Oscillator Request 17 1 read-write FORCEXI2GNDANA Force XI Pin to Ground 4 1 read-write DISABLE Disabled (not pulled) 0 ENABLE Enabled (pulled) 1 FORCEXO2GNDANA Force XO Pin to Ground 5 1 read-write DISABLE Disabled (not pulled) 0 ENABLE Enabled (pulled) 1 KEEPWARM Keep Warm 2 1 read-write PRSSTATUSSEL0 PRS Status 0 Output Select 8 4 read-write DISABLED PRS mux outputs 0 0 ENS PRS mux outputs enabled status 1 BUFOUTHWREQ PRS mux outputs oscillator requested by BUFOUT request status 10 COREBIASOPTRDY PRS mux outputs core bias optimization ready status 2 RDY PRS mux outputs ready status 3 PRSRDY PRS mux outputs PRS ready status 4 BUFOUTRDY PRS mux outputs BUFOUT ready status 5 HWREQ PRS mux outputs oscillator requested by digital clock status 8 PRSHWREQ PRS mux outputs oscillator requested by PRS request status 9 PRSSTATUSSEL1 PRS Status 1 Output Select 12 4 read-write DISABLED PRS mux outputs 0 0 ENS PRS mux outputs enabled status 1 BUFOUTHWREQ PRS mux outputs oscillator requested by BUFOUT request status 10 COREBIASOPTRDY PRS mux outputs core bias optimization ready status 2 RDY PRS mux outputs ready status 3 PRSRDY PRS mux outputs PRS ready status 4 BUFOUTRDY PRS mux outputs BUFOUT ready status 5 HWREQ PRS mux outputs oscillator requested by digital clock status 8 PRSHWREQ PRS mux outputs oscillator requested by PRS request status 9 IEN No Description 0x74 -1 read-write n 0x0 0x0 BUFOUTDNSERR BUFOUT Did Not Start Error Interrupt 28 1 read-write BUFOUTERR BUFOUT Request Error Interrupt 21 1 read-write BUFOUTFREEZEERR BUFOUT Freeze Error Interrupt 27 1 read-write BUFOUTFROZEN BUFOUT FROZEN Interrupt 15 1 read-write BUFOUTRDY BUFOUT Ready Interrupt 3 1 read-write COREBIASOPTERR Core Bias Optimization Error Interrupt 31 1 read-write COREBIASOPTRDY Core Bias Optimization Ready Interrupt 1 1 read-write DNSERR Did Not Start Error Interrupt 29 1 read-write LFTIMEOUTERR Low Frequency Timeout Error Interrupt 30 1 read-write PRSERR PRS Requset Error Interrupt 20 1 read-write PRSRDY PRS Ready Interrupt 2 1 read-write RDY Digital Clock Ready Interrupt 0 1 read-write IF No Description 0x70 -1 read-write n 0x0 0x0 BUFOUTDNSERR BUFOUT Did Not Start Error Interrupt 28 1 read-write BUFOUTERR BUFOUT Request Error Interrupt 21 1 read-write BUFOUTFREEZEERR BUFOUT Freeze Error Interrupt 27 1 read-write BUFOUTFROZEN BUFOUT FROZEN Interrupt 15 1 read-write BUFOUTRDY BUFOUT Ready Interrupt 3 1 read-write COREBIASOPTERR Core Bias Optimization Error Interrupt 31 1 read-write COREBIASOPTRDY Core Bias Optimization Ready Interrupt 1 1 read-write DNSERR Did Not Start Error Interrupt 29 1 read-write LFTIMEOUTERR Low Frequency Timeout Error Interrupt 30 1 read-write PRSERR PRS Requset Error Interrupt 20 1 read-write PRSRDY PRS Ready Interrupt 2 1 read-write RDY Digital Clock Ready Interrupt 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x80 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write this value to unlock 22542 STATUS No Description 0x58 -1 read-only n 0x0 0x0 BUFOUTFROZEN BUFOUT Frozen 15 1 read-only BUFOUTHWREQ Oscillator Requested by BUFOUT Request 21 1 read-only BUFOUTRDY BUFOUT Ready Status 3 1 read-only COREBIASOPTRDY Core Bias Optimization Ready 1 1 read-only ENS Enabled Status 16 1 read-only HWREQ Oscillator Requested by Digital Clock 17 1 read-only ISWARM Oscillator Is Kept Warm 19 1 read-only LOCK Configuration Lock Status 31 1 read-only UNLOCKED Configuration lock is unlocked 0 LOCKED Configuration lock is locked 1 PRSHWREQ Oscillator Requested by PRS Request 20 1 read-only PRSRDY PRS Ready Status 2 1 read-only RDY Ready Status 0 1 read-only SYNCBUSY Sync Busy 30 1 read-only XTALCFG No Description 0x10 -1 read-write n 0x0 0x0 COREBIASSTARTUP Startup Core Bias Current 6 6 read-write COREBIASSTARTUPI Intermediate Startup Core Bias Current 0 6 read-write CTUNEXISTARTUP Startup Tuning Capacitance on XI 12 4 read-write CTUNEXOSTARTUP Startup Tuning Capacitance on XO 16 4 read-write TIMEOUTCBLSB Core Bias LSB Change Timeout 24 4 read-write T8US The core bias LSB change timeout is set to 8 us minimum. The maximum can be +40%. 0 T20US The core bias LSB change timeout is set to 20 us minimum. The maximum can be +40%. 1 T333US The core bias LSB change timeout is set to 333 us minimum. The maximum can be +40%. 10 T416US The core bias LSB change timeout is set to 416 us minimum. The maximum can be +40%. 11 T833US The core bias LSB change timeout is set to 833 us minimum. The maximum can be +40%. 12 T1250US The core bias LSB change timeout is set to 1250 us minimum. The maximum can be +40%. 13 T2083US The core bias LSB change timeout is set to 2083 us minimum. The maximum can be +40%. 14 T3750US The core bias LSB change timeout is set to 3750 us minimum. The maximum can be +40%. 15 T41US The core bias LSB change timeout is set to 41 us minimum. The maximum can be +40%. 2 T62US The core bias LSB change timeout is set to 62 us minimum. The maximum can be +40%. 3 T83US The core bias LSB change timeout is set to 83 us minimum. The maximum can be +40%. 4 T104US The core bias LSB change timeout is set to 104 us minimum. The maximum can be +40%. 5 T125US The core bias LSB change timeout is set to 125 us minimum. The maximum can be +40%. 6 T166US The core bias LSB change timeout is set to 166 us minimum. The maximum can be +40%. 7 T208US The core bias LSB change timeout is set to 208 us minimum. The maximum can be +40%. 8 T250US The core bias LSB change timeout is set to 250 us minimum. The maximum can be +40%. 9 TIMEOUTSTEADY Steady State Timeout 20 4 read-write T4US The steady state timeout is set to 16 us minimum. The maximum can be +40%. 0 T16US The steady state timeout is set to 41 us minimum. The maximum can be +40%. 1 T500US The steady state timeout is set to 666 us minimum. The maximum can be +40%. 10 T666US The steady state timeout is set to 833 us minimum. The maximum can be +40%. 11 T833US The steady state timeout is set to 1666 us minimum. The maximum can be +40%. 12 T1666US The steady state timeout is set to 2500 us minimum. The maximum can be +40%. 13 T2500US The steady state timeout is set to 4166 us minimum. The maximum can be +40%. 14 T4166US The steady state timeout is set to 7500 us minimum. The maximum can be +40%. 15 T41US The steady state timeout is set to 83 us minimum. The maximum can be +40%. 2 T83US The steady state timeout is set to 125 us minimum. The maximum can be +40%. 3 T125US The steady state timeout is set to 166 us minimum. The maximum can be +40%. 4 T166US The steady state timeout is set to 208 us minimum. The maximum can be +40%. 5 T208US The steady state timeout is set to 250 us minimum. The maximum can be +40%. 6 T250US The steady state timeout is set to 333 us minimum. The maximum can be +40%. 7 T333US The steady state timeout is set to 416 us minimum. The maximum can be +40%. 8 T416US The steady state timeout is set to 500 us minimum. The maximum can be +40%. 9 XTALCTRL No Description 0x18 -1 read-write n 0x0 0x0 COREBIASANA Core Bias Current 0 8 read-write COREDGENANA Core Degeneration 26 2 read-write NONE Do not apply core degeneration resistence 0 DGEN33 Apply 33 ohm core degeneration resistence 1 DGEN50 Apply 50 ohm core degeneration resistence 2 DGEN100 Apply 100 ohm core degeneration resistence 3 CTUNEFIXANA Fixed Tuning Capacitance 24 2 read-write NONE Remove fixed capacitance on XI and XO nodes 0 XI Adds fixed capacitance on XI node 1 XO Adds fixed capacitance on XO node 2 BOTH Adds fixed capacitance on both XI and XO nodes 3 CTUNEXIANA Tuning Capacitance on XI 8 8 read-write CTUNEXOANA Tuning Capacitance on XO 16 8 read-write SKIPCOREBIASOPT Skip Core Bias Optimization 31 1 read-write XTALCTRL1 No Description 0x1C -1 read-write n 0x0 0x0 CTUNEXIBUFOUTANA BUFOUT Tuning Capacitance on XI 0 8 read-write HOSTMAILBOX_NS HOSTMAILBOX_NS Registers HOSTMAILBOX_NS 0x0 0x0 0x1000 registers n IEN No Description 0x44 -1 read-write n 0x0 0x0 MBOXIEN0 Mailbox Interrupt Enable 0 1 read-write MBOXIEN1 Mailbox Interrupt Enable 1 1 read-write MBOXIEN2 Mailbox Interrupt Enable 2 1 read-write MBOXIEN3 Mailbox Interrupt Enable 3 1 read-write IF No Description 0x40 -1 read-write n 0x0 0x0 MBOXIF0 Mailbox Interupt Flag 0 1 read-write MBOXIF1 Mailbox Interupt Flag 1 1 read-write MBOXIF2 Mailbox Interupt Flag 2 1 read-write MBOXIF3 Mailbox Interupt Flag 3 1 read-write MSGPTR0 No Description 0x0 -1 read-write n 0x0 0x0 PTR Pointer 0 32 read-write MSGPTR1 No Description 0x4 -1 read-write n 0x0 0x0 PTR Pointer 0 32 read-write MSGPTR2 No Description 0x8 -1 read-write n 0x0 0x0 PTR Pointer 0 32 read-write MSGPTR3 No Description 0xC -1 read-write n 0x0 0x0 PTR Pointer 0 32 read-write HOSTMAILBOX_S HOSTMAILBOX_S Registers HOSTMAILBOX_S 0x0 0x0 0x1000 registers n IEN No Description 0x44 -1 read-write n 0x0 0x0 MBOXIEN0 Mailbox Interrupt Enable 0 1 read-write MBOXIEN1 Mailbox Interrupt Enable 1 1 read-write MBOXIEN2 Mailbox Interrupt Enable 2 1 read-write MBOXIEN3 Mailbox Interrupt Enable 3 1 read-write IF No Description 0x40 -1 read-write n 0x0 0x0 MBOXIF0 Mailbox Interupt Flag 0 1 read-write MBOXIF1 Mailbox Interupt Flag 1 1 read-write MBOXIF2 Mailbox Interupt Flag 2 1 read-write MBOXIF3 Mailbox Interupt Flag 3 1 read-write MSGPTR0 No Description 0x0 -1 read-write n 0x0 0x0 PTR Pointer 0 32 read-write MSGPTR1 No Description 0x4 -1 read-write n 0x0 0x0 PTR Pointer 0 32 read-write MSGPTR2 No Description 0x8 -1 read-write n 0x0 0x0 PTR Pointer 0 32 read-write MSGPTR3 No Description 0xC -1 read-write n 0x0 0x0 PTR Pointer 0 32 read-write I2C0_NS I2C0_NS Registers I2C0_NS 0x0 0x0 0x1000 registers n I2C0 28 CLKDIV No Description 0x18 -1 read-write n 0x0 0x0 DIV Clock Divider 0 9 read-write CMD No Description 0xC -1 write-only n 0x0 0x0 ABORT Abort transmission 5 1 write-only ACK Send ACK 2 1 write-only CLEARPC Clear Pending Commands 7 1 write-only CLEARTX Clear TX 6 1 write-only CONT Continue transmission 4 1 write-only NACK Send NACK 3 1 write-only START Send start condition 0 1 write-only STOP Send stop condition 1 1 write-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 ARBDIS Arbitration Disable 5 1 read-write DISABLE When a device loses arbitration, the ARBIF interrupt flag is set and the bus is released. 0 ENABLE When a device loses arbitration, the ARBIF interrupt flag is set, but communication proceeds. 1 AUTOACK Automatic Acknowledge 2 1 read-write DISABLE Software must give one ACK command for each ACK transmitted on the I2C bus. 0 ENABLE Addresses that are not automatically NACK'ed, and all data is automatically acknowledged. 1 AUTOSE Automatic STOP when Empty 3 1 read-write DISABLE A stop must be sent manually when no more data is to be transmitted. 0 ENABLE The master automatically sends a STOP when no more data is available for transmission. 1 AUTOSN Automatic STOP on NACK 4 1 read-write DISABLE Stop is not automatically sent if a NACK is received from a slave. 0 ENABLE The master automatically sends a STOP if a NACK is received from a slave. 1 BITO Bus Idle Timeout 12 2 read-write OFF Timeout disabled 0 I2C40PCC Timeout after 40 prescaled clock cycles. In standard mode at 100 kHz, this results in a 50us timeout. 1 I2C80PCC Timeout after 80 prescaled clock cycles. In standard mode at 100 kHz, this results in a 100us timeout. 2 I2C160PCC Timeout after 160 prescaled clock cycles. In standard mode at 100 kHz, this results in a 200us timeout. 3 CLHR Clock Low High Ratio 8 2 read-write STANDARD Nlow=4 and Nhigh=4, and the Nlow:Nhigh ratio is 4:4 0 ASYMMETRIC Nlow=6 and Nhigh=3, and the Nlow:Nhigh ratio is 6:3 1 FAST Nlow=11 and Nhigh=6, and the Nlow:Nhigh ratio is 11:6 2 CLTO Clock Low Timeout 16 3 read-write OFF Timeout disabled 0 I2C40PCC Timeout after 40 prescaled clock cycles. In standard mode at 100 kHz, this results in a 50us timeout. 1 I2C80PCC Timeout after 80 prescaled clock cycles. In standard mode at 100 kHz, this results in a 100us timeout. 2 I2C160PCC Timeout after 160 prescaled clock cycles. In standard mode at 100 kHz, this results in a 200us timeout. 3 I2C320PCC Timeout after 320 prescaled clock cycles. In standard mode at 100 kHz, this results in a 400us timeout. 4 I2C1024PCC Timeout after 1024 prescaled clock cycles. In standard mode at 100 kHz, this results in a 1280us timeout. 5 CORERST Soft Reset the internal state registers 0 1 read-write DISABLE No change to internal state registers 0 ENABLE Reset the internal state registers 1 GCAMEN General Call Address Match Enable 6 1 read-write DISABLE General call address will be NACK'ed if it is not included by the slave address and address mask. 0 ENABLE When a general call address is received, a software response is required 1 GIBITO Go Idle on Bus Idle Timeout 15 1 read-write DISABLE A bus idle timeout has no effect on the bus state. 0 ENABLE A bus idle timeout tells the I2C module that the bus is idle, allowing new transfers to be initiated. 1 SCLMONEN SCL Monitor Enable 20 1 read-write DISABLE Disable SCL monitor 0 ENABLE Enable SCL monitor 1 SDAMONEN SDA Monitor Enable 21 1 read-write DISABLE Disable SDA Monitor 0 ENABLE Enable SDA Monitor 1 SLAVE Addressable as Slave 1 1 read-write DISABLE All addresses will be responded to with a NACK 0 ENABLE Addresses matching the programmed slave address or the general call address (if enabled) require a response from software. Other addresses are automatically responded to with a NACK. 1 TXBIL TX Buffer Interrupt Level 7 1 read-write EMPTY TXBL status and the TXBL interrupt flag are set when the transmit buffer becomes empty. TXBL is cleared when the buffer becomes nonempty. 0 HALF_FULL TXBL status and the TXBL interrupt flag are set when the transmit buffer goes from full to half-full or empty. TXBL is cleared when the buffer becomes full 1 EN No Description 0x4 -1 read-write n 0x0 0x0 EN module enable 0 1 read-write DISABLE Disable Peripheral Clock 0 ENABLE Enable Peripheral Clock 1 IEN No Description 0x40 -1 read-write n 0x0 0x0 ACK Acknowledge Received Interrupt Flag 6 1 read-write ADDR Address Interrupt Flag 2 1 read-write ARBLOST Arbitration Lost Interrupt Flag 9 1 read-write BITO Bus Idle Timeout Interrupt Flag 14 1 read-write BUSERR Bus Error Interrupt Flag 10 1 read-write BUSHOLD Bus Held Interrupt Flag 11 1 read-write CLERR Clock Low Error Interrupt Flag 18 1 read-write CLTO Clock Low Timeout Interrupt Flag 15 1 read-write MSTOP Master STOP Condition Interrupt Flag 8 1 read-write NACK Not Acknowledge Received Interrupt Flag 7 1 read-write RSTART Repeated START condition Interrupt Flag 1 1 read-write RXDATAV Receive Data Valid Interrupt Flag 5 1 read-write RXFULL Receive Buffer Full Interrupt Flag 17 1 read-write RXUF Receive Buffer Underflow Interrupt Flag 13 1 read-write SCLERR SCL Error Interrupt Flag 19 1 read-write SDAERR SDA Error Interrupt Flag 20 1 read-write SSTOP Slave STOP condition Interrupt Flag 16 1 read-write START START condition Interrupt Flag 0 1 read-write TXBL Transmit Buffer Level Interrupt Flag 4 1 read-write TXC Transfer Completed Interrupt Flag 3 1 read-write TXOF Transmit Buffer Overflow Interrupt Flag 12 1 read-write IF No Description 0x3C -1 read-write n 0x0 0x0 ACK Acknowledge Received Interrupt Flag 6 1 read-write ADDR Address Interrupt Flag 2 1 read-write ARBLOST Arbitration Lost Interrupt Flag 9 1 read-write BITO Bus Idle Timeout Interrupt Flag 14 1 read-write BUSERR Bus Error Interrupt Flag 10 1 read-write BUSHOLD Bus Held Interrupt Flag 11 1 read-write CLERR Clock Low Error Interrupt Flag 18 1 read-write CLTO Clock Low Timeout Interrupt Flag 15 1 read-write MSTOP Master STOP Condition Interrupt Flag 8 1 read-write NACK Not Acknowledge Received Interrupt Flag 7 1 read-write RSTART Repeated START condition Interrupt Flag 1 1 read-write RXDATAV Receive Data Valid Interrupt Flag 5 1 read-write RXFULL Receive Buffer Full Interrupt Flag 17 1 read-write RXUF Receive Buffer Underflow Interrupt Flag 13 1 read-write SCLERR SCL Error Interrupt Flag 19 1 read-write SDAERR SDA Error Interrupt Flag 20 1 read-write SSTOP Slave STOP condition Interrupt Flag 16 1 read-write START START condition Interrupt Flag 0 1 read-write TXBL Transmit Buffer Level Interrupt Flag 4 1 read-write TXC Transfer Completed Interrupt Flag 3 1 read-write TXOF Transmit Buffer Overflow Interrupt Flag 12 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only RXDATA No Description 0x24 -1 read-only n 0x0 0x0 RXDATA RX Data 0 8 read-only RXDATAP No Description 0x2C -1 read-only n 0x0 0x0 RXDATAP RX Data Peek 0 8 read-only RXDOUBLE No Description 0x28 -1 read-only n 0x0 0x0 RXDATA0 RX Data 0 0 8 read-only RXDATA1 RX Data 1 8 8 read-only RXDOUBLEP No Description 0x30 -1 read-only n 0x0 0x0 RXDATAP0 RX Data 0 Peek 0 8 read-only RXDATAP1 RX Data 1 Peek 8 8 read-only SADDR No Description 0x1C -1 read-write n 0x0 0x0 ADDR Slave address 1 7 read-write SADDRMASK No Description 0x20 -1 read-write n 0x0 0x0 SADDRMASK Slave Address Mask 1 7 read-write STATE No Description 0x10 -1 read-only n 0x0 0x0 BUSHOLD Bus Held 4 1 read-only BUSY Bus Busy 0 1 read-only MASTER Master 1 1 read-only NACKED Nack Received 3 1 read-only STATE Transmission State 5 3 read-only IDLE No transmission is being performed. 0 WAIT Waiting for idle. Will send a start condition as soon as the bus is idle. 1 START Start transmit phase 2 ADDR Address transmit or receive phase 3 ADDRACK Address ack/nack transmit or receive phase 4 DATA Data transmit or receive phase 5 DATAACK Data ack/nack transmit or receive phase 6 TRANSMITTER Transmitter 2 1 read-only STATUS No Description 0x14 -1 read-only n 0x0 0x0 PABORT Pending abort 5 1 read-only PACK Pending ACK 2 1 read-only PCONT Pending continue 4 1 read-only PNACK Pending NACK 3 1 read-only PSTART Pending START 0 1 read-only PSTOP Pending STOP 1 1 read-only RXDATAV RX Data Valid 8 1 read-only RXFULL RX FIFO Full 9 1 read-only TXBL TX Buffer Level 7 1 read-only TXBUFCNT TX Buffer Count 10 2 read-only TXC TX Complete 6 1 read-only TXDATA No Description 0x34 -1 write-only n 0x0 0x0 TXDATA TX Data 0 8 write-only TXDOUBLE No Description 0x38 -1 write-only n 0x0 0x0 TXDATA0 TX Data 0 8 write-only TXDATA1 TX Data 8 8 write-only I2C0_S I2C0_S Registers I2C0_S 0x0 0x0 0x1000 registers n I2C0 28 CLKDIV No Description 0x18 -1 read-write n 0x0 0x0 DIV Clock Divider 0 9 read-write CMD No Description 0xC -1 write-only n 0x0 0x0 ABORT Abort transmission 5 1 write-only ACK Send ACK 2 1 write-only CLEARPC Clear Pending Commands 7 1 write-only CLEARTX Clear TX 6 1 write-only CONT Continue transmission 4 1 write-only NACK Send NACK 3 1 write-only START Send start condition 0 1 write-only STOP Send stop condition 1 1 write-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 ARBDIS Arbitration Disable 5 1 read-write DISABLE When a device loses arbitration, the ARBIF interrupt flag is set and the bus is released. 0 ENABLE When a device loses arbitration, the ARBIF interrupt flag is set, but communication proceeds. 1 AUTOACK Automatic Acknowledge 2 1 read-write DISABLE Software must give one ACK command for each ACK transmitted on the I2C bus. 0 ENABLE Addresses that are not automatically NACK'ed, and all data is automatically acknowledged. 1 AUTOSE Automatic STOP when Empty 3 1 read-write DISABLE A stop must be sent manually when no more data is to be transmitted. 0 ENABLE The master automatically sends a STOP when no more data is available for transmission. 1 AUTOSN Automatic STOP on NACK 4 1 read-write DISABLE Stop is not automatically sent if a NACK is received from a slave. 0 ENABLE The master automatically sends a STOP if a NACK is received from a slave. 1 BITO Bus Idle Timeout 12 2 read-write OFF Timeout disabled 0 I2C40PCC Timeout after 40 prescaled clock cycles. In standard mode at 100 kHz, this results in a 50us timeout. 1 I2C80PCC Timeout after 80 prescaled clock cycles. In standard mode at 100 kHz, this results in a 100us timeout. 2 I2C160PCC Timeout after 160 prescaled clock cycles. In standard mode at 100 kHz, this results in a 200us timeout. 3 CLHR Clock Low High Ratio 8 2 read-write STANDARD Nlow=4 and Nhigh=4, and the Nlow:Nhigh ratio is 4:4 0 ASYMMETRIC Nlow=6 and Nhigh=3, and the Nlow:Nhigh ratio is 6:3 1 FAST Nlow=11 and Nhigh=6, and the Nlow:Nhigh ratio is 11:6 2 CLTO Clock Low Timeout 16 3 read-write OFF Timeout disabled 0 I2C40PCC Timeout after 40 prescaled clock cycles. In standard mode at 100 kHz, this results in a 50us timeout. 1 I2C80PCC Timeout after 80 prescaled clock cycles. In standard mode at 100 kHz, this results in a 100us timeout. 2 I2C160PCC Timeout after 160 prescaled clock cycles. In standard mode at 100 kHz, this results in a 200us timeout. 3 I2C320PCC Timeout after 320 prescaled clock cycles. In standard mode at 100 kHz, this results in a 400us timeout. 4 I2C1024PCC Timeout after 1024 prescaled clock cycles. In standard mode at 100 kHz, this results in a 1280us timeout. 5 CORERST Soft Reset the internal state registers 0 1 read-write DISABLE No change to internal state registers 0 ENABLE Reset the internal state registers 1 GCAMEN General Call Address Match Enable 6 1 read-write DISABLE General call address will be NACK'ed if it is not included by the slave address and address mask. 0 ENABLE When a general call address is received, a software response is required 1 GIBITO Go Idle on Bus Idle Timeout 15 1 read-write DISABLE A bus idle timeout has no effect on the bus state. 0 ENABLE A bus idle timeout tells the I2C module that the bus is idle, allowing new transfers to be initiated. 1 SCLMONEN SCL Monitor Enable 20 1 read-write DISABLE Disable SCL monitor 0 ENABLE Enable SCL monitor 1 SDAMONEN SDA Monitor Enable 21 1 read-write DISABLE Disable SDA Monitor 0 ENABLE Enable SDA Monitor 1 SLAVE Addressable as Slave 1 1 read-write DISABLE All addresses will be responded to with a NACK 0 ENABLE Addresses matching the programmed slave address or the general call address (if enabled) require a response from software. Other addresses are automatically responded to with a NACK. 1 TXBIL TX Buffer Interrupt Level 7 1 read-write EMPTY TXBL status and the TXBL interrupt flag are set when the transmit buffer becomes empty. TXBL is cleared when the buffer becomes nonempty. 0 HALF_FULL TXBL status and the TXBL interrupt flag are set when the transmit buffer goes from full to half-full or empty. TXBL is cleared when the buffer becomes full 1 EN No Description 0x4 -1 read-write n 0x0 0x0 EN module enable 0 1 read-write DISABLE Disable Peripheral Clock 0 ENABLE Enable Peripheral Clock 1 IEN No Description 0x40 -1 read-write n 0x0 0x0 ACK Acknowledge Received Interrupt Flag 6 1 read-write ADDR Address Interrupt Flag 2 1 read-write ARBLOST Arbitration Lost Interrupt Flag 9 1 read-write BITO Bus Idle Timeout Interrupt Flag 14 1 read-write BUSERR Bus Error Interrupt Flag 10 1 read-write BUSHOLD Bus Held Interrupt Flag 11 1 read-write CLERR Clock Low Error Interrupt Flag 18 1 read-write CLTO Clock Low Timeout Interrupt Flag 15 1 read-write MSTOP Master STOP Condition Interrupt Flag 8 1 read-write NACK Not Acknowledge Received Interrupt Flag 7 1 read-write RSTART Repeated START condition Interrupt Flag 1 1 read-write RXDATAV Receive Data Valid Interrupt Flag 5 1 read-write RXFULL Receive Buffer Full Interrupt Flag 17 1 read-write RXUF Receive Buffer Underflow Interrupt Flag 13 1 read-write SCLERR SCL Error Interrupt Flag 19 1 read-write SDAERR SDA Error Interrupt Flag 20 1 read-write SSTOP Slave STOP condition Interrupt Flag 16 1 read-write START START condition Interrupt Flag 0 1 read-write TXBL Transmit Buffer Level Interrupt Flag 4 1 read-write TXC Transfer Completed Interrupt Flag 3 1 read-write TXOF Transmit Buffer Overflow Interrupt Flag 12 1 read-write IF No Description 0x3C -1 read-write n 0x0 0x0 ACK Acknowledge Received Interrupt Flag 6 1 read-write ADDR Address Interrupt Flag 2 1 read-write ARBLOST Arbitration Lost Interrupt Flag 9 1 read-write BITO Bus Idle Timeout Interrupt Flag 14 1 read-write BUSERR Bus Error Interrupt Flag 10 1 read-write BUSHOLD Bus Held Interrupt Flag 11 1 read-write CLERR Clock Low Error Interrupt Flag 18 1 read-write CLTO Clock Low Timeout Interrupt Flag 15 1 read-write MSTOP Master STOP Condition Interrupt Flag 8 1 read-write NACK Not Acknowledge Received Interrupt Flag 7 1 read-write RSTART Repeated START condition Interrupt Flag 1 1 read-write RXDATAV Receive Data Valid Interrupt Flag 5 1 read-write RXFULL Receive Buffer Full Interrupt Flag 17 1 read-write RXUF Receive Buffer Underflow Interrupt Flag 13 1 read-write SCLERR SCL Error Interrupt Flag 19 1 read-write SDAERR SDA Error Interrupt Flag 20 1 read-write SSTOP Slave STOP condition Interrupt Flag 16 1 read-write START START condition Interrupt Flag 0 1 read-write TXBL Transmit Buffer Level Interrupt Flag 4 1 read-write TXC Transfer Completed Interrupt Flag 3 1 read-write TXOF Transmit Buffer Overflow Interrupt Flag 12 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only RXDATA No Description 0x24 -1 read-only n 0x0 0x0 RXDATA RX Data 0 8 read-only RXDATAP No Description 0x2C -1 read-only n 0x0 0x0 RXDATAP RX Data Peek 0 8 read-only RXDOUBLE No Description 0x28 -1 read-only n 0x0 0x0 RXDATA0 RX Data 0 0 8 read-only RXDATA1 RX Data 1 8 8 read-only RXDOUBLEP No Description 0x30 -1 read-only n 0x0 0x0 RXDATAP0 RX Data 0 Peek 0 8 read-only RXDATAP1 RX Data 1 Peek 8 8 read-only SADDR No Description 0x1C -1 read-write n 0x0 0x0 ADDR Slave address 1 7 read-write SADDRMASK No Description 0x20 -1 read-write n 0x0 0x0 SADDRMASK Slave Address Mask 1 7 read-write STATE No Description 0x10 -1 read-only n 0x0 0x0 BUSHOLD Bus Held 4 1 read-only BUSY Bus Busy 0 1 read-only MASTER Master 1 1 read-only NACKED Nack Received 3 1 read-only STATE Transmission State 5 3 read-only IDLE No transmission is being performed. 0 WAIT Waiting for idle. Will send a start condition as soon as the bus is idle. 1 START Start transmit phase 2 ADDR Address transmit or receive phase 3 ADDRACK Address ack/nack transmit or receive phase 4 DATA Data transmit or receive phase 5 DATAACK Data ack/nack transmit or receive phase 6 TRANSMITTER Transmitter 2 1 read-only STATUS No Description 0x14 -1 read-only n 0x0 0x0 PABORT Pending abort 5 1 read-only PACK Pending ACK 2 1 read-only PCONT Pending continue 4 1 read-only PNACK Pending NACK 3 1 read-only PSTART Pending START 0 1 read-only PSTOP Pending STOP 1 1 read-only RXDATAV RX Data Valid 8 1 read-only RXFULL RX FIFO Full 9 1 read-only TXBL TX Buffer Level 7 1 read-only TXBUFCNT TX Buffer Count 10 2 read-only TXC TX Complete 6 1 read-only TXDATA No Description 0x34 -1 write-only n 0x0 0x0 TXDATA TX Data 0 8 write-only TXDOUBLE No Description 0x38 -1 write-only n 0x0 0x0 TXDATA0 TX Data 0 8 write-only TXDATA1 TX Data 8 8 write-only I2C1_NS I2C1_NS Registers I2C1_NS 0x0 0x0 0x1000 registers n I2C1 29 CLKDIV No Description 0x18 -1 read-write n 0x0 0x0 DIV Clock Divider 0 9 read-write CMD No Description 0xC -1 write-only n 0x0 0x0 ABORT Abort transmission 5 1 write-only ACK Send ACK 2 1 write-only CLEARPC Clear Pending Commands 7 1 write-only CLEARTX Clear TX 6 1 write-only CONT Continue transmission 4 1 write-only NACK Send NACK 3 1 write-only START Send start condition 0 1 write-only STOP Send stop condition 1 1 write-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 ARBDIS Arbitration Disable 5 1 read-write DISABLE When a device loses arbitration, the ARBIF interrupt flag is set and the bus is released. 0 ENABLE When a device loses arbitration, the ARBIF interrupt flag is set, but communication proceeds. 1 AUTOACK Automatic Acknowledge 2 1 read-write DISABLE Software must give one ACK command for each ACK transmitted on the I2C bus. 0 ENABLE Addresses that are not automatically NACK'ed, and all data is automatically acknowledged. 1 AUTOSE Automatic STOP when Empty 3 1 read-write DISABLE A stop must be sent manually when no more data is to be transmitted. 0 ENABLE The master automatically sends a STOP when no more data is available for transmission. 1 AUTOSN Automatic STOP on NACK 4 1 read-write DISABLE Stop is not automatically sent if a NACK is received from a slave. 0 ENABLE The master automatically sends a STOP if a NACK is received from a slave. 1 BITO Bus Idle Timeout 12 2 read-write OFF Timeout disabled 0 I2C40PCC Timeout after 40 prescaled clock cycles. In standard mode at 100 kHz, this results in a 50us timeout. 1 I2C80PCC Timeout after 80 prescaled clock cycles. In standard mode at 100 kHz, this results in a 100us timeout. 2 I2C160PCC Timeout after 160 prescaled clock cycles. In standard mode at 100 kHz, this results in a 200us timeout. 3 CLHR Clock Low High Ratio 8 2 read-write STANDARD Nlow=4 and Nhigh=4, and the Nlow:Nhigh ratio is 4:4 0 ASYMMETRIC Nlow=6 and Nhigh=3, and the Nlow:Nhigh ratio is 6:3 1 FAST Nlow=11 and Nhigh=6, and the Nlow:Nhigh ratio is 11:6 2 CLTO Clock Low Timeout 16 3 read-write OFF Timeout disabled 0 I2C40PCC Timeout after 40 prescaled clock cycles. In standard mode at 100 kHz, this results in a 50us timeout. 1 I2C80PCC Timeout after 80 prescaled clock cycles. In standard mode at 100 kHz, this results in a 100us timeout. 2 I2C160PCC Timeout after 160 prescaled clock cycles. In standard mode at 100 kHz, this results in a 200us timeout. 3 I2C320PCC Timeout after 320 prescaled clock cycles. In standard mode at 100 kHz, this results in a 400us timeout. 4 I2C1024PCC Timeout after 1024 prescaled clock cycles. In standard mode at 100 kHz, this results in a 1280us timeout. 5 CORERST Soft Reset the internal state registers 0 1 read-write DISABLE No change to internal state registers 0 ENABLE Reset the internal state registers 1 GCAMEN General Call Address Match Enable 6 1 read-write DISABLE General call address will be NACK'ed if it is not included by the slave address and address mask. 0 ENABLE When a general call address is received, a software response is required 1 GIBITO Go Idle on Bus Idle Timeout 15 1 read-write DISABLE A bus idle timeout has no effect on the bus state. 0 ENABLE A bus idle timeout tells the I2C module that the bus is idle, allowing new transfers to be initiated. 1 SCLMONEN SCL Monitor Enable 20 1 read-write DISABLE Disable SCL monitor 0 ENABLE Enable SCL monitor 1 SDAMONEN SDA Monitor Enable 21 1 read-write DISABLE Disable SDA Monitor 0 ENABLE Enable SDA Monitor 1 SLAVE Addressable as Slave 1 1 read-write DISABLE All addresses will be responded to with a NACK 0 ENABLE Addresses matching the programmed slave address or the general call address (if enabled) require a response from software. Other addresses are automatically responded to with a NACK. 1 TXBIL TX Buffer Interrupt Level 7 1 read-write EMPTY TXBL status and the TXBL interrupt flag are set when the transmit buffer becomes empty. TXBL is cleared when the buffer becomes nonempty. 0 HALF_FULL TXBL status and the TXBL interrupt flag are set when the transmit buffer goes from full to half-full or empty. TXBL is cleared when the buffer becomes full 1 EN No Description 0x4 -1 read-write n 0x0 0x0 EN module enable 0 1 read-write DISABLE Disable Peripheral Clock 0 ENABLE Enable Peripheral Clock 1 IEN No Description 0x40 -1 read-write n 0x0 0x0 ACK Acknowledge Received Interrupt Flag 6 1 read-write ADDR Address Interrupt Flag 2 1 read-write ARBLOST Arbitration Lost Interrupt Flag 9 1 read-write BITO Bus Idle Timeout Interrupt Flag 14 1 read-write BUSERR Bus Error Interrupt Flag 10 1 read-write BUSHOLD Bus Held Interrupt Flag 11 1 read-write CLERR Clock Low Error Interrupt Flag 18 1 read-write CLTO Clock Low Timeout Interrupt Flag 15 1 read-write MSTOP Master STOP Condition Interrupt Flag 8 1 read-write NACK Not Acknowledge Received Interrupt Flag 7 1 read-write RSTART Repeated START condition Interrupt Flag 1 1 read-write RXDATAV Receive Data Valid Interrupt Flag 5 1 read-write RXFULL Receive Buffer Full Interrupt Flag 17 1 read-write RXUF Receive Buffer Underflow Interrupt Flag 13 1 read-write SCLERR SCL Error Interrupt Flag 19 1 read-write SDAERR SDA Error Interrupt Flag 20 1 read-write SSTOP Slave STOP condition Interrupt Flag 16 1 read-write START START condition Interrupt Flag 0 1 read-write TXBL Transmit Buffer Level Interrupt Flag 4 1 read-write TXC Transfer Completed Interrupt Flag 3 1 read-write TXOF Transmit Buffer Overflow Interrupt Flag 12 1 read-write IF No Description 0x3C -1 read-write n 0x0 0x0 ACK Acknowledge Received Interrupt Flag 6 1 read-write ADDR Address Interrupt Flag 2 1 read-write ARBLOST Arbitration Lost Interrupt Flag 9 1 read-write BITO Bus Idle Timeout Interrupt Flag 14 1 read-write BUSERR Bus Error Interrupt Flag 10 1 read-write BUSHOLD Bus Held Interrupt Flag 11 1 read-write CLERR Clock Low Error Interrupt Flag 18 1 read-write CLTO Clock Low Timeout Interrupt Flag 15 1 read-write MSTOP Master STOP Condition Interrupt Flag 8 1 read-write NACK Not Acknowledge Received Interrupt Flag 7 1 read-write RSTART Repeated START condition Interrupt Flag 1 1 read-write RXDATAV Receive Data Valid Interrupt Flag 5 1 read-write RXFULL Receive Buffer Full Interrupt Flag 17 1 read-write RXUF Receive Buffer Underflow Interrupt Flag 13 1 read-write SCLERR SCL Error Interrupt Flag 19 1 read-write SDAERR SDA Error Interrupt Flag 20 1 read-write SSTOP Slave STOP condition Interrupt Flag 16 1 read-write START START condition Interrupt Flag 0 1 read-write TXBL Transmit Buffer Level Interrupt Flag 4 1 read-write TXC Transfer Completed Interrupt Flag 3 1 read-write TXOF Transmit Buffer Overflow Interrupt Flag 12 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only RXDATA No Description 0x24 -1 read-only n 0x0 0x0 RXDATA RX Data 0 8 read-only RXDATAP No Description 0x2C -1 read-only n 0x0 0x0 RXDATAP RX Data Peek 0 8 read-only RXDOUBLE No Description 0x28 -1 read-only n 0x0 0x0 RXDATA0 RX Data 0 0 8 read-only RXDATA1 RX Data 1 8 8 read-only RXDOUBLEP No Description 0x30 -1 read-only n 0x0 0x0 RXDATAP0 RX Data 0 Peek 0 8 read-only RXDATAP1 RX Data 1 Peek 8 8 read-only SADDR No Description 0x1C -1 read-write n 0x0 0x0 ADDR Slave address 1 7 read-write SADDRMASK No Description 0x20 -1 read-write n 0x0 0x0 SADDRMASK Slave Address Mask 1 7 read-write STATE No Description 0x10 -1 read-only n 0x0 0x0 BUSHOLD Bus Held 4 1 read-only BUSY Bus Busy 0 1 read-only MASTER Master 1 1 read-only NACKED Nack Received 3 1 read-only STATE Transmission State 5 3 read-only IDLE No transmission is being performed. 0 WAIT Waiting for idle. Will send a start condition as soon as the bus is idle. 1 START Start transmit phase 2 ADDR Address transmit or receive phase 3 ADDRACK Address ack/nack transmit or receive phase 4 DATA Data transmit or receive phase 5 DATAACK Data ack/nack transmit or receive phase 6 TRANSMITTER Transmitter 2 1 read-only STATUS No Description 0x14 -1 read-only n 0x0 0x0 PABORT Pending abort 5 1 read-only PACK Pending ACK 2 1 read-only PCONT Pending continue 4 1 read-only PNACK Pending NACK 3 1 read-only PSTART Pending START 0 1 read-only PSTOP Pending STOP 1 1 read-only RXDATAV RX Data Valid 8 1 read-only RXFULL RX FIFO Full 9 1 read-only TXBL TX Buffer Level 7 1 read-only TXBUFCNT TX Buffer Count 10 2 read-only TXC TX Complete 6 1 read-only TXDATA No Description 0x34 -1 write-only n 0x0 0x0 TXDATA TX Data 0 8 write-only TXDOUBLE No Description 0x38 -1 write-only n 0x0 0x0 TXDATA0 TX Data 0 8 write-only TXDATA1 TX Data 8 8 write-only I2C1_S I2C1_S Registers I2C1_S 0x0 0x0 0x1000 registers n I2C1 29 CLKDIV No Description 0x18 -1 read-write n 0x0 0x0 DIV Clock Divider 0 9 read-write CMD No Description 0xC -1 write-only n 0x0 0x0 ABORT Abort transmission 5 1 write-only ACK Send ACK 2 1 write-only CLEARPC Clear Pending Commands 7 1 write-only CLEARTX Clear TX 6 1 write-only CONT Continue transmission 4 1 write-only NACK Send NACK 3 1 write-only START Send start condition 0 1 write-only STOP Send stop condition 1 1 write-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 ARBDIS Arbitration Disable 5 1 read-write DISABLE When a device loses arbitration, the ARBIF interrupt flag is set and the bus is released. 0 ENABLE When a device loses arbitration, the ARBIF interrupt flag is set, but communication proceeds. 1 AUTOACK Automatic Acknowledge 2 1 read-write DISABLE Software must give one ACK command for each ACK transmitted on the I2C bus. 0 ENABLE Addresses that are not automatically NACK'ed, and all data is automatically acknowledged. 1 AUTOSE Automatic STOP when Empty 3 1 read-write DISABLE A stop must be sent manually when no more data is to be transmitted. 0 ENABLE The master automatically sends a STOP when no more data is available for transmission. 1 AUTOSN Automatic STOP on NACK 4 1 read-write DISABLE Stop is not automatically sent if a NACK is received from a slave. 0 ENABLE The master automatically sends a STOP if a NACK is received from a slave. 1 BITO Bus Idle Timeout 12 2 read-write OFF Timeout disabled 0 I2C40PCC Timeout after 40 prescaled clock cycles. In standard mode at 100 kHz, this results in a 50us timeout. 1 I2C80PCC Timeout after 80 prescaled clock cycles. In standard mode at 100 kHz, this results in a 100us timeout. 2 I2C160PCC Timeout after 160 prescaled clock cycles. In standard mode at 100 kHz, this results in a 200us timeout. 3 CLHR Clock Low High Ratio 8 2 read-write STANDARD Nlow=4 and Nhigh=4, and the Nlow:Nhigh ratio is 4:4 0 ASYMMETRIC Nlow=6 and Nhigh=3, and the Nlow:Nhigh ratio is 6:3 1 FAST Nlow=11 and Nhigh=6, and the Nlow:Nhigh ratio is 11:6 2 CLTO Clock Low Timeout 16 3 read-write OFF Timeout disabled 0 I2C40PCC Timeout after 40 prescaled clock cycles. In standard mode at 100 kHz, this results in a 50us timeout. 1 I2C80PCC Timeout after 80 prescaled clock cycles. In standard mode at 100 kHz, this results in a 100us timeout. 2 I2C160PCC Timeout after 160 prescaled clock cycles. In standard mode at 100 kHz, this results in a 200us timeout. 3 I2C320PCC Timeout after 320 prescaled clock cycles. In standard mode at 100 kHz, this results in a 400us timeout. 4 I2C1024PCC Timeout after 1024 prescaled clock cycles. In standard mode at 100 kHz, this results in a 1280us timeout. 5 CORERST Soft Reset the internal state registers 0 1 read-write DISABLE No change to internal state registers 0 ENABLE Reset the internal state registers 1 GCAMEN General Call Address Match Enable 6 1 read-write DISABLE General call address will be NACK'ed if it is not included by the slave address and address mask. 0 ENABLE When a general call address is received, a software response is required 1 GIBITO Go Idle on Bus Idle Timeout 15 1 read-write DISABLE A bus idle timeout has no effect on the bus state. 0 ENABLE A bus idle timeout tells the I2C module that the bus is idle, allowing new transfers to be initiated. 1 SCLMONEN SCL Monitor Enable 20 1 read-write DISABLE Disable SCL monitor 0 ENABLE Enable SCL monitor 1 SDAMONEN SDA Monitor Enable 21 1 read-write DISABLE Disable SDA Monitor 0 ENABLE Enable SDA Monitor 1 SLAVE Addressable as Slave 1 1 read-write DISABLE All addresses will be responded to with a NACK 0 ENABLE Addresses matching the programmed slave address or the general call address (if enabled) require a response from software. Other addresses are automatically responded to with a NACK. 1 TXBIL TX Buffer Interrupt Level 7 1 read-write EMPTY TXBL status and the TXBL interrupt flag are set when the transmit buffer becomes empty. TXBL is cleared when the buffer becomes nonempty. 0 HALF_FULL TXBL status and the TXBL interrupt flag are set when the transmit buffer goes from full to half-full or empty. TXBL is cleared when the buffer becomes full 1 EN No Description 0x4 -1 read-write n 0x0 0x0 EN module enable 0 1 read-write DISABLE Disable Peripheral Clock 0 ENABLE Enable Peripheral Clock 1 IEN No Description 0x40 -1 read-write n 0x0 0x0 ACK Acknowledge Received Interrupt Flag 6 1 read-write ADDR Address Interrupt Flag 2 1 read-write ARBLOST Arbitration Lost Interrupt Flag 9 1 read-write BITO Bus Idle Timeout Interrupt Flag 14 1 read-write BUSERR Bus Error Interrupt Flag 10 1 read-write BUSHOLD Bus Held Interrupt Flag 11 1 read-write CLERR Clock Low Error Interrupt Flag 18 1 read-write CLTO Clock Low Timeout Interrupt Flag 15 1 read-write MSTOP Master STOP Condition Interrupt Flag 8 1 read-write NACK Not Acknowledge Received Interrupt Flag 7 1 read-write RSTART Repeated START condition Interrupt Flag 1 1 read-write RXDATAV Receive Data Valid Interrupt Flag 5 1 read-write RXFULL Receive Buffer Full Interrupt Flag 17 1 read-write RXUF Receive Buffer Underflow Interrupt Flag 13 1 read-write SCLERR SCL Error Interrupt Flag 19 1 read-write SDAERR SDA Error Interrupt Flag 20 1 read-write SSTOP Slave STOP condition Interrupt Flag 16 1 read-write START START condition Interrupt Flag 0 1 read-write TXBL Transmit Buffer Level Interrupt Flag 4 1 read-write TXC Transfer Completed Interrupt Flag 3 1 read-write TXOF Transmit Buffer Overflow Interrupt Flag 12 1 read-write IF No Description 0x3C -1 read-write n 0x0 0x0 ACK Acknowledge Received Interrupt Flag 6 1 read-write ADDR Address Interrupt Flag 2 1 read-write ARBLOST Arbitration Lost Interrupt Flag 9 1 read-write BITO Bus Idle Timeout Interrupt Flag 14 1 read-write BUSERR Bus Error Interrupt Flag 10 1 read-write BUSHOLD Bus Held Interrupt Flag 11 1 read-write CLERR Clock Low Error Interrupt Flag 18 1 read-write CLTO Clock Low Timeout Interrupt Flag 15 1 read-write MSTOP Master STOP Condition Interrupt Flag 8 1 read-write NACK Not Acknowledge Received Interrupt Flag 7 1 read-write RSTART Repeated START condition Interrupt Flag 1 1 read-write RXDATAV Receive Data Valid Interrupt Flag 5 1 read-write RXFULL Receive Buffer Full Interrupt Flag 17 1 read-write RXUF Receive Buffer Underflow Interrupt Flag 13 1 read-write SCLERR SCL Error Interrupt Flag 19 1 read-write SDAERR SDA Error Interrupt Flag 20 1 read-write SSTOP Slave STOP condition Interrupt Flag 16 1 read-write START START condition Interrupt Flag 0 1 read-write TXBL Transmit Buffer Level Interrupt Flag 4 1 read-write TXC Transfer Completed Interrupt Flag 3 1 read-write TXOF Transmit Buffer Overflow Interrupt Flag 12 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only RXDATA No Description 0x24 -1 read-only n 0x0 0x0 RXDATA RX Data 0 8 read-only RXDATAP No Description 0x2C -1 read-only n 0x0 0x0 RXDATAP RX Data Peek 0 8 read-only RXDOUBLE No Description 0x28 -1 read-only n 0x0 0x0 RXDATA0 RX Data 0 0 8 read-only RXDATA1 RX Data 1 8 8 read-only RXDOUBLEP No Description 0x30 -1 read-only n 0x0 0x0 RXDATAP0 RX Data 0 Peek 0 8 read-only RXDATAP1 RX Data 1 Peek 8 8 read-only SADDR No Description 0x1C -1 read-write n 0x0 0x0 ADDR Slave address 1 7 read-write SADDRMASK No Description 0x20 -1 read-write n 0x0 0x0 SADDRMASK Slave Address Mask 1 7 read-write STATE No Description 0x10 -1 read-only n 0x0 0x0 BUSHOLD Bus Held 4 1 read-only BUSY Bus Busy 0 1 read-only MASTER Master 1 1 read-only NACKED Nack Received 3 1 read-only STATE Transmission State 5 3 read-only IDLE No transmission is being performed. 0 WAIT Waiting for idle. Will send a start condition as soon as the bus is idle. 1 START Start transmit phase 2 ADDR Address transmit or receive phase 3 ADDRACK Address ack/nack transmit or receive phase 4 DATA Data transmit or receive phase 5 DATAACK Data ack/nack transmit or receive phase 6 TRANSMITTER Transmitter 2 1 read-only STATUS No Description 0x14 -1 read-only n 0x0 0x0 PABORT Pending abort 5 1 read-only PACK Pending ACK 2 1 read-only PCONT Pending continue 4 1 read-only PNACK Pending NACK 3 1 read-only PSTART Pending START 0 1 read-only PSTOP Pending STOP 1 1 read-only RXDATAV RX Data Valid 8 1 read-only RXFULL RX FIFO Full 9 1 read-only TXBL TX Buffer Level 7 1 read-only TXBUFCNT TX Buffer Count 10 2 read-only TXC TX Complete 6 1 read-only TXDATA No Description 0x34 -1 write-only n 0x0 0x0 TXDATA TX Data 0 8 write-only TXDOUBLE No Description 0x38 -1 write-only n 0x0 0x0 TXDATA0 TX Data 0 8 write-only TXDATA1 TX Data 8 8 write-only IADC0_NS IADC0_NS Registers IADC0_NS 0x0 0x0 0x1000 registers n IADC 50 CFG0 Configration 0x48 -1 read-write n 0x0 0x0 ADCMODE ADC Mode 0 2 read-write NORMAL High speed mode with a maximum CLK_ADC of 10 MHz. 0 ANALOGGAIN Analog Gain 12 3 read-write ANAGAIN0P25 Analog gain of 0.25x 0 ANAGAIN0P5 Analog gain of 0.5x. 1 ANAGAIN1 Analog gain of 1x. 2 ANAGAIN2 Analog gain of 2x. 3 ANAGAIN3 Analog gain of 3x. 4 ANAGAIN4 Analog gain of 4x. 5 DIGAVG Digital Averaging 21 3 read-write AVG1 Collect one output word (no digital averaging). 0 AVG2 Collect and average 2 digital output words. 1 AVG4 Collect and average 4 digital output words. 2 AVG8 Collect and average 8 digital output words. 3 AVG16 Collect and average 16 digital output words. 4 OSRHS High Speed OSR 2 3 read-write HISPD2 High speed over sampling of 2x. 0 HISPD4 High speed over sampling of 4x. 1 HISPD8 High speed over sampling of 8x. 2 HISPD16 High speed over sampling of 16x. 3 HISPD32 HIgh speed over sampling of 32x. 4 HISPD64 High speed over sampling of 64x. 5 REFSEL Reference Select 16 3 read-write VBGR Internal 1.21 V reference. 0 VREF External Reference. (Calibrated for 1.25V nominal.) 1 VDDX AVDD (unbuffered) 3 VDDX0P8BUF AVDD (buffered) * 0.8 4 TWOSCOMPL Two's Complement 28 2 read-write AUTO Automatic: Single ended measurements are reported as unipolar and differential measurements are reported as bipolar. 0 FORCEUNIPOLAR Force all measurements to result in unipolar output. Negative differential numbers will saturate to 0. 1 FORCEBIPOLAR Force all measurements to result in bipolar output. Single ended measurements are half the range, but allow for small negative measurements. 2 CFG1 Configration 0x58 -1 read-write n 0x0 0x0 ADCMODE ADC Mode 0 2 read-write NORMAL High speed mode with a maximum CLK_ADC of 10 MHz. 0 ANALOGGAIN Analog Gain 12 3 read-write ANAGAIN0P25 Analog gain of 0.25x 0 ANAGAIN0P5 Analog gain of 0.5x. 1 ANAGAIN1 Analog gain of 1x. 2 ANAGAIN2 Analog gain of 2x. 3 ANAGAIN3 Analog gain of 3x. 4 ANAGAIN4 Analog gain of 4x. 5 DIGAVG Digital Averaging 21 3 read-write AVG1 Collect one output word (no digital averaging). 0 AVG2 Collect and average 2 digital output words. 1 AVG4 Collect and average 4 digital output words. 2 AVG8 Collect and average 8 digital output words. 3 AVG16 Collect and average 16 digital output words. 4 OSRHS High Speed OSR 2 3 read-write HISPD2 High speed over sampling of 2x. 0 HISPD4 High speed over sampling of 4x. 1 HISPD8 High speed over sampling of 8x. 2 HISPD16 High speed over sampling of 16x. 3 HISPD32 HIgh speed over sampling of 32x. 4 HISPD64 High speed over sampling of 64x. 5 REFSEL Reference Select 16 3 read-write VBGR Internal 1.21 V reference. 0 VREF External Reference. (Calibrated for 1.25V nominal.) 1 VDDX AVDD (unbuffered) 3 VDDX0P8BUF AVDD (buffered) * 0.8 4 TWOSCOMPL Two's Complement 28 2 read-write AUTO Automatic: Single ended measurements are reported as unipolar and differential measurements are reported as bipolar. 0 FORCEUNIPOLAR Force all measurements to result in unipolar output. Negative differential numbers will saturate to 0. 1 FORCEBIPOLAR Force all measurements to result in bipolar output. Single ended measurements are half the range, but allow for small negative measurements. 2 CMD Command 0xC -1 write-only n 0x0 0x0 SCANFIFOFLUSH Flush the Scan FIFO 25 1 write-only SCANSTART Scan Queue Start 3 1 write-only SCANSTOP Scan Queue Stop 4 1 write-only SINGLEFIFOFLUSH Flush the Single FIFO 24 1 write-only SINGLESTART Single Queue Start 0 1 write-only SINGLESTOP Single Queue Stop 1 1 write-only TIMERDIS Timer Disable 17 1 write-only TIMEREN Timer Enable 16 1 write-only CMPTHR Comparator Threshold 0x20 -1 read-write n 0x0 0x0 ADGT ADC Greater Than or Equal to Threshold 16 16 read-write ADLT ADC Less Than or Equal to Threshold 0 16 read-write CTRL Control 0x8 -1 read-write n 0x0 0x0 ADCCLKSUSPEND0 ADC_CLK Suspend - PRS0 1 1 read-write PRSWUDIS Normal mode which does not disable the ADC_CLK. 0 PRSWUEN ADCCLKWUEN will gate off ADC_CLK until the trigger is detected provided the internal timer is not selected as the trigger. Once the trigger is detected the ADC_CLK will be started, the band gap will be started, the ADC will be warmed up, and the SCAN Table and the Single entry will be converted. Once the conversions are done, the ADC_CLK will be gated off. 1 ADCCLKSUSPEND1 ADC_CLK Suspend - PRS1 2 1 read-write PRSWUDIS Normal mode which does not disable the ADC_CLK. 0 PRSWUEN ADCCLKWUEN will gate off ADC_CLK until the trigger is detected provided the internal timer is not selected as the trigger. Once the trigger is detected the ADC_CLK will be started, the band gap will be started, the ADC will be warmed up, and the SCAN Table and the Single entry will be converted. Once the conversions are done, the ADC_CLK will be gated off. 1 DBGHALT Debug Halt 3 1 read-write NORMAL Continue operation as normal during debug mode 0 HALT Complete the current conversion and then halt during debug mode 1 EM23WUCONVERT EM23 Wakeup on Conversion 0 1 read-write WUDVL When using suspend mode, conversions performed in EM2 or EM3 should not wake up the DMA until the FIFO's DVL setting is reached. This saves more power for large OSR settings or infrequent sampling. 0 WUCONVERT When using suspend mode, conversions performed in EM2 or EM3 will wake up the DMA and keep it awake until the conversions are done, regardless of the DVL setting. This mode burns more power, but it is useful when the conversion rate is faster than the time for the DMA to cycle through wake up and going back to sleep as it converts more than 4 scan table entries. Without using the wake up on conversion mode, the FIFO may overflow while the DMA is going in and out of sleep. 1 HSCLKRATE High Speed Clock Rate 28 3 read-write DIV1 Use CMU_CLK_ADC directly. The source clock must be 40 MHz or less. 0 DIV2 Divide CMU_CLK_ADC by 2 before using it. The resulting CLK_SRC_ADC must be 40 MHz or less. 1 DIV3 Divide CMU_CLK_ADC by 3 before using it. The resulting CLK_SRC_ADC must be 40 MHz or less. 2 DIV4 Divide CMU_CLK_ADC by 4 before using it. The resulting CLK_SRC_ADC must be 40 MHz or less. 3 TIMEBASE Time Base 16 7 read-write WARMUPMODE Warmup Mode 4 2 read-write NORMAL Shut down the IADC after conversions have completed. 0 KEEPINSTANDBY Switch to standby mode after conversions have completed. The next warmup time will require 1us. 1 KEEPWARM Keep IADC fully powered after conversions have completed. 2 EN Enable 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Enable IADC Module 0 1 read-write DISABLE Disable 0 ENABLE Enable 1 IEN Interrupt Enable 0x28 -1 read-write n 0x0 0x0 EM23ABORTERROR EM2/3 Abort Error Enable 31 1 read-write POLARITYERR Polarity Error Enable 12 1 read-write PORTALLOCERR Port Allocation Error Enable 13 1 read-write SCANCMP Scan Result Window Compare Enable 3 1 read-write SCANENTRYDONE Scan Entry Done Enable 7 1 read-write SCANFIFODVL Scan FIFO Data Valid Level Enable 1 1 read-write SCANFIFOOF Scan FIFO Overflow Enable 17 1 read-write SCANFIFOUF Scan FIFO Underflow Enable 19 1 read-write SCANTABLEDONE Scan Table Done Enable 8 1 read-write SINGLECMP Single Result Window Compare Enable 2 1 read-write SINGLEDONE Single Conversion Done Enable 9 1 read-write SINGLEFIFODVL Single FIFO Data Valid Level Enable 0 1 read-write SINGLEFIFOOF Single FIFO Overflow Enable 16 1 read-write SINGLEFIFOUF Single FIFO Underflow Enable 18 1 read-write IF Interrupt Flag 0x24 -1 read-write n 0x0 0x0 EM23ABORTERROR EM2/3 Abort Error 31 1 read-write POLARITYERR Polarity Error 12 1 read-write PORTALLOCERR Port Allocation Error 13 1 read-write SCANCMP Scan Result Window Compare 3 1 read-write SCANENTRYDONE Scan Entry Done 7 1 read-write SCANFIFODVL Scan FIFO Data Valid Level 1 1 read-write SCANFIFOOF Scan FIFO Overflow 17 1 read-write SCANFIFOUF Scan FIFO Underflow 19 1 read-write SCANTABLEDONE Scan Table Done 8 1 read-write SINGLECMP Single Result Window Compare 2 1 read-write SINGLEDONE Single Conversion Done 9 1 read-write SINGLEFIFODVL Single FIFO Data Valid Level 0 1 read-write SINGLEFIFOOF Single FIFO Overflow 16 1 read-write SINGLEFIFOUF Single FIFO Underflow 18 1 read-write IPVERSION IPVERSION 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only MASKREQ Mask Request 0x18 -1 read-write n 0x0 0x0 MASKREQ Scan Queue Mask Request 0 16 read-write SCALE0 Scale 0x50 -1 read-write n 0x0 0x0 GAIN13LSB Gain 13 LSBs 18 13 read-write GAIN3MSB Gain 3 MSBs 31 1 read-write GAIN011 Upper 3 bits of gain = 011 (0.75x) 0 GAIN100 Upper 3 bits of gain = 100 (1.00x) 1 OFFSET Offset 0 18 read-write SCALE1 Scale 0x60 -1 read-write n 0x0 0x0 GAIN13LSB Gain 13 LSBs 18 13 read-write GAIN3MSB Gain 3 MSBs 31 1 read-write GAIN011 Upper 3 bits of gain = 011 (0.75x) 0 GAIN100 Upper 3 bits of gain = 100 (1.00x) 1 OFFSET Offset 0 18 read-write SCAN0 No Description 0xA0 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN1 No Description 0xA4 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN10 No Description 0xC8 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN11 No Description 0xCC -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN12 No Description 0xD0 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN13 No Description 0xD4 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN14 No Description 0xD8 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN15 No Description 0xDC -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN2 No Description 0xA8 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN3 No Description 0xAC -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN4 No Description 0xB0 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN5 No Description 0xB4 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN6 No Description 0xB8 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN7 No Description 0xBC -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN8 No Description 0xC0 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN9 No Description 0xC4 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCANDATA Most recent data data from scan queue conversion 0x8C -1 read-only n 0x0 0x0 DATA Data 0 32 read-only SCANFIFOCFG SCAN FIFO configuration 0x80 -1 read-write n 0x0 0x0 ALIGNMENT Alignment 0 3 read-write RIGHT12 ID[7:0], SIGN_EXT, DATA[11:0] 0 RIGHT16 ID[7:0], SIGN_EXT, DATA[15:0] 1 RIGHT20 ID[7:0], SIGN_EXT, DATA[19:0] 2 LEFT12 DATA[11:0], 000000000000, ID[7:0] 3 LEFT16 DATA[15:0], 00000000, ID[7:0] 4 LEFT20 DATA[19:0], 0000, ID[7:0] 5 DMAWUFIFOSCAN Scan FIFO DMA Wakeup 8 1 read-write DISABLED While in EM2 or EM3, the DMA controller will not be requested. 0 ENABLED While in EM2 or EM3, the DMA controller will be requested when the scan FIFO reaches its Data Valid Level. [DVL must be set to 0 (VALID1).] 1 DVL Data Valid Level 4 3 read-write VALID1 When 1 entry in the scan FIFO is valid, set the SCANFIFODVL interrupt and request DMA. 0 VALID2 When 2 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 1 VALID3 When 3 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 2 VALID4 When 4 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 3 VALID5 When 5 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 4 VALID6 When 6 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 5 VALID7 When 7 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 6 VALID8 When 8 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 7 SHOWID Show ID 3 1 read-write SCANFIFODATA Read the oldest valid data from the scan FIFO and pop the FIFO 0x84 -1 read-only n 0x0 0x0 DATA Data 0 32 read-only SCANFIFOSTAT Scan FIFO status 0x88 -1 read-only n 0x0 0x0 FIFOREADCNT FIFO Read Count 0 4 read-only SCHED0 Scheduling 0x54 -1 read-write n 0x0 0x0 PRESCALE Prescale 0 10 read-write SCHED1 Scheduling 0x64 -1 read-write n 0x0 0x0 PRESCALE Prescale 0 10 read-write SINGLE No Description 0x98 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SINGLEDATA latest single queue conversion data 0x7C -1 read-only n 0x0 0x0 DATA Data 0 32 read-only SINGLEFIFOCFG Single FIFO Configuration 0x70 -1 read-write n 0x0 0x0 ALIGNMENT Alignment 0 3 read-write RIGHT12 ID[7:0], SIGN_EXT, DATA[11:0] 0 RIGHT16 ID[7:0], SIGN_EXT, DATA[15:0] 1 RIGHT20 ID[7:0], SIGN_EXT, DATA[19:0] 2 LEFT12 DATA[11:0], 000000000000, ID[7:0] 3 LEFT16 DATA[15:0], 00000000, ID[7:0] 4 LEFT20 DATA[19:0], 0000, ID[7:0] 5 DMAWUFIFOSINGLE Single FIFO DMA wakeup. 8 1 read-write DISABLED While in EM2 or EM3, the DMA controller will not be requested. 0 ENABLED While in EM2 or EM3, the DMA controller will be requested when the single FIFO reaches its Data Valid Level. [DVL must be set to 0 (VALID1).] 1 DVL Data Valid Level 4 3 read-write VALID1 When 1 entry in the single FIFO is valid, set the SINGLEFIFODVL interrupt and request DMA. 0 VALID2 When 2 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 1 VALID3 When 3 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 2 VALID4 When 4 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 3 VALID5 When 5 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 4 VALID6 When 6 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 5 VALID7 When 7 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 6 VALID8 When 8 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 7 SHOWID Show ID 3 1 read-write SINGLEFIFODATA Read the oldest valid data from the single FIFO and pop the FIFO 0x74 -1 read-only n 0x0 0x0 DATA Single FIFO Read Data 0 32 read-only SINGLEFIFOSTAT Single FIFO status 0x78 -1 read-only n 0x0 0x0 FIFOREADCNT FIFO Read Count 0 4 read-only STATUS Status 0x14 -1 read-only n 0x0 0x0 ADCWARM ADCWARM 30 1 read-only CONVERTING Converting 6 1 read-only MASKREQWRITEPENDING MASKREQ write pending 21 1 read-only SCANDATADV SCANDATA DV 10 1 read-only SCANFIFODV SCANFIFO Data Valid 9 1 read-only SCANFIFOFLUSHING The Scan FIFO is flushing 15 1 read-only SCANQEN Scan Queued Enabled 3 1 read-only SCANQUEUEPENDING Scan Queue Pending 4 1 read-only SINGLEDATADV SINGLEDATA DV 11 1 read-only SINGLEFIFODV SINGLEFIFO Data Valid 8 1 read-only SINGLEFIFOFLUSHING The Single FIFO is flushing 14 1 read-only SINGLEQEN Single Queue Enabled 0 1 read-only SINGLEQUEUEPENDING Single Queue Pending 1 1 read-only SINGLEWRITEPENDING SINGLE write pending 20 1 read-only SYNCBUSY SYNCBUSY 24 1 read-only TIMERACTIVE Timer Active 16 1 read-only STMASK Scan Table Mask 0x1C -1 read-only n 0x0 0x0 STMASK Scan Table Mask 0 16 read-only TIMER Timer 0x10 -1 read-write n 0x0 0x0 TIMER Timer Period 0 16 read-write TRIGGER Trigger 0x2C -1 read-write n 0x0 0x0 SCANTRIGACTION Scan Trigger Action 4 1 read-write ONCE For TRIGSEL=IMMEDIATE, goes through the scan table once and disables queue. For TRIGSEL = TIMER, PRSCLKGRP, PRSPOS, PRSNEG, goes through the scan table once per trigger. 0 CONTINUOUS Goes through the scan table, converts each entry with a mask bit set, and puts it back into the scan queue to repeat again continuously. The queues are first come first serve. If both queues are triggered, the single queue will get to convert after each scan table completes. The scan queue will get to convert after each single conversion completes. 1 SCANTRIGSEL Scan Trigger Select 0 3 read-write IMMEDIATE Immediate triggering. The scan queue will be disabled once all conversions in the scan table are complete, unless TRIGGERACTION is set to continuous. 0 TIMER Triggers when the local timer count reaches zero. 1 PRSCLKGRP Triggers on PRS0 from a timer module that is using the same clock group as the ADC and has been programmed to use the same clock source as the ADC. The prescale may be different between the ADC and the timer module. 2 PRSPOS Triggers on asynchronous PRS0 positive edge. Requires PRS0 to go low for 3 ADC_CLKs before another positive edge can be detected. Generates an additional delay of 1 to 2 ADC_SRC_CLK cycles for synchronization. 3 PRSNEG Triggers on asynchronous PRS0 negative edge. Requires PRS0 to go high for 3 ADC_CLKs before another negative edge can be detected. Generates an additional delay of 1 to 2 ADC_SRC_CLK cycles for synchronization. PRSNEG should only be used when the trigger source is from a module that remains powered during EM23. For modules (ie: TIMER) that power down during EM23, PRSPOS should be used for an asynchronous trigger, and PRSCLKGRP should be used for a synchronous trigger. 4 LESENSE Triggers on LESENSE convert request. When using the LESENSE for the SCAN Table, only one entry is converted per LESENSE convert request. 5 SINGLETAILGATE Single Tailgate Enable 16 1 read-write TAILGATEOFF The single queue is ready to start warming up and converting once the trigger had been detected. 0 TAILGATEON After the single queue's trigger is detected, it must wait until the end of a scan operation before the Single queue can be converted. 1 SINGLETRIGACTION Single Trigger Action 12 1 read-write ONCE For TRIGSEL=IMMEDIATE, converts the single queue once and disables queue. For TRIGSEL = TIMER, PRSCLKGRP, PRSPOS, PRSNEG, converts the single queue once per trigger. 0 CONTINUOUS Converts the single queue, then checks for a pending scan queue before converting the single queue again continuously. The queues are first come first serve. If both queues are continuous, the IADC alternates between them. 1 SINGLETRIGSEL Single Trigger Select 8 3 read-write IMMEDIATE Immediate triggering. The single queue will be disabled once the conversion is complete, unless TRIGGERACTION is set to continuous. 0 TIMER Triggers when the local timer count reaches zero. 1 PRSCLKGRP Triggers on PRS1 from a timer module that is using the same clock group as the ADC and has been programmed to use the same clock source as the ADC. The prescale may be different between the ADC and the timer module. 2 PRSPOS Triggers on asynchronous PRS1 positive edge. Requires PRS1 to go low for 3 ADC_CLKs before another positive edge can be detected. Generates an additional delay of 1 to 2 ADC_SRC_CLK cycles for synchronization. 3 PRSNEG Triggers on asynchronous PRS1 negative edge. Requires PRS1 to go high for 3 ADC_CLKs before another negative edge can be detected. Generates an additional delay of 1 to 2 ADC_SRC_CLK cycles for synchronization. PRSNEG should only be used when the trigger source is from a module that remains powered during EM23. For modules (ie: TIMER) that power down during EM23, PRSPOS should be used for an asynchronous trigger, and PRSCLKGRP should be used for a synchronous trigger. 4 IADC0_S IADC0_S Registers IADC0_S 0x0 0x0 0x1000 registers n IADC 50 CFG0 Configration 0x48 -1 read-write n 0x0 0x0 ADCMODE ADC Mode 0 2 read-write NORMAL High speed mode with a maximum CLK_ADC of 10 MHz. 0 ANALOGGAIN Analog Gain 12 3 read-write ANAGAIN0P25 Analog gain of 0.25x 0 ANAGAIN0P5 Analog gain of 0.5x. 1 ANAGAIN1 Analog gain of 1x. 2 ANAGAIN2 Analog gain of 2x. 3 ANAGAIN3 Analog gain of 3x. 4 ANAGAIN4 Analog gain of 4x. 5 DIGAVG Digital Averaging 21 3 read-write AVG1 Collect one output word (no digital averaging). 0 AVG2 Collect and average 2 digital output words. 1 AVG4 Collect and average 4 digital output words. 2 AVG8 Collect and average 8 digital output words. 3 AVG16 Collect and average 16 digital output words. 4 OSRHS High Speed OSR 2 3 read-write HISPD2 High speed over sampling of 2x. 0 HISPD4 High speed over sampling of 4x. 1 HISPD8 High speed over sampling of 8x. 2 HISPD16 High speed over sampling of 16x. 3 HISPD32 HIgh speed over sampling of 32x. 4 HISPD64 High speed over sampling of 64x. 5 REFSEL Reference Select 16 3 read-write VBGR Internal 1.21 V reference. 0 VREF External Reference. (Calibrated for 1.25V nominal.) 1 VDDX AVDD (unbuffered) 3 VDDX0P8BUF AVDD (buffered) * 0.8 4 TWOSCOMPL Two's Complement 28 2 read-write AUTO Automatic: Single ended measurements are reported as unipolar and differential measurements are reported as bipolar. 0 FORCEUNIPOLAR Force all measurements to result in unipolar output. Negative differential numbers will saturate to 0. 1 FORCEBIPOLAR Force all measurements to result in bipolar output. Single ended measurements are half the range, but allow for small negative measurements. 2 CFG1 Configration 0x58 -1 read-write n 0x0 0x0 ADCMODE ADC Mode 0 2 read-write NORMAL High speed mode with a maximum CLK_ADC of 10 MHz. 0 ANALOGGAIN Analog Gain 12 3 read-write ANAGAIN0P25 Analog gain of 0.25x 0 ANAGAIN0P5 Analog gain of 0.5x. 1 ANAGAIN1 Analog gain of 1x. 2 ANAGAIN2 Analog gain of 2x. 3 ANAGAIN3 Analog gain of 3x. 4 ANAGAIN4 Analog gain of 4x. 5 DIGAVG Digital Averaging 21 3 read-write AVG1 Collect one output word (no digital averaging). 0 AVG2 Collect and average 2 digital output words. 1 AVG4 Collect and average 4 digital output words. 2 AVG8 Collect and average 8 digital output words. 3 AVG16 Collect and average 16 digital output words. 4 OSRHS High Speed OSR 2 3 read-write HISPD2 High speed over sampling of 2x. 0 HISPD4 High speed over sampling of 4x. 1 HISPD8 High speed over sampling of 8x. 2 HISPD16 High speed over sampling of 16x. 3 HISPD32 HIgh speed over sampling of 32x. 4 HISPD64 High speed over sampling of 64x. 5 REFSEL Reference Select 16 3 read-write VBGR Internal 1.21 V reference. 0 VREF External Reference. (Calibrated for 1.25V nominal.) 1 VDDX AVDD (unbuffered) 3 VDDX0P8BUF AVDD (buffered) * 0.8 4 TWOSCOMPL Two's Complement 28 2 read-write AUTO Automatic: Single ended measurements are reported as unipolar and differential measurements are reported as bipolar. 0 FORCEUNIPOLAR Force all measurements to result in unipolar output. Negative differential numbers will saturate to 0. 1 FORCEBIPOLAR Force all measurements to result in bipolar output. Single ended measurements are half the range, but allow for small negative measurements. 2 CMD Command 0xC -1 write-only n 0x0 0x0 SCANFIFOFLUSH Flush the Scan FIFO 25 1 write-only SCANSTART Scan Queue Start 3 1 write-only SCANSTOP Scan Queue Stop 4 1 write-only SINGLEFIFOFLUSH Flush the Single FIFO 24 1 write-only SINGLESTART Single Queue Start 0 1 write-only SINGLESTOP Single Queue Stop 1 1 write-only TIMERDIS Timer Disable 17 1 write-only TIMEREN Timer Enable 16 1 write-only CMPTHR Comparator Threshold 0x20 -1 read-write n 0x0 0x0 ADGT ADC Greater Than or Equal to Threshold 16 16 read-write ADLT ADC Less Than or Equal to Threshold 0 16 read-write CTRL Control 0x8 -1 read-write n 0x0 0x0 ADCCLKSUSPEND0 ADC_CLK Suspend - PRS0 1 1 read-write PRSWUDIS Normal mode which does not disable the ADC_CLK. 0 PRSWUEN ADCCLKWUEN will gate off ADC_CLK until the trigger is detected provided the internal timer is not selected as the trigger. Once the trigger is detected the ADC_CLK will be started, the band gap will be started, the ADC will be warmed up, and the SCAN Table and the Single entry will be converted. Once the conversions are done, the ADC_CLK will be gated off. 1 ADCCLKSUSPEND1 ADC_CLK Suspend - PRS1 2 1 read-write PRSWUDIS Normal mode which does not disable the ADC_CLK. 0 PRSWUEN ADCCLKWUEN will gate off ADC_CLK until the trigger is detected provided the internal timer is not selected as the trigger. Once the trigger is detected the ADC_CLK will be started, the band gap will be started, the ADC will be warmed up, and the SCAN Table and the Single entry will be converted. Once the conversions are done, the ADC_CLK will be gated off. 1 DBGHALT Debug Halt 3 1 read-write NORMAL Continue operation as normal during debug mode 0 HALT Complete the current conversion and then halt during debug mode 1 EM23WUCONVERT EM23 Wakeup on Conversion 0 1 read-write WUDVL When using suspend mode, conversions performed in EM2 or EM3 should not wake up the DMA until the FIFO's DVL setting is reached. This saves more power for large OSR settings or infrequent sampling. 0 WUCONVERT When using suspend mode, conversions performed in EM2 or EM3 will wake up the DMA and keep it awake until the conversions are done, regardless of the DVL setting. This mode burns more power, but it is useful when the conversion rate is faster than the time for the DMA to cycle through wake up and going back to sleep as it converts more than 4 scan table entries. Without using the wake up on conversion mode, the FIFO may overflow while the DMA is going in and out of sleep. 1 HSCLKRATE High Speed Clock Rate 28 3 read-write DIV1 Use CMU_CLK_ADC directly. The source clock must be 40 MHz or less. 0 DIV2 Divide CMU_CLK_ADC by 2 before using it. The resulting CLK_SRC_ADC must be 40 MHz or less. 1 DIV3 Divide CMU_CLK_ADC by 3 before using it. The resulting CLK_SRC_ADC must be 40 MHz or less. 2 DIV4 Divide CMU_CLK_ADC by 4 before using it. The resulting CLK_SRC_ADC must be 40 MHz or less. 3 TIMEBASE Time Base 16 7 read-write WARMUPMODE Warmup Mode 4 2 read-write NORMAL Shut down the IADC after conversions have completed. 0 KEEPINSTANDBY Switch to standby mode after conversions have completed. The next warmup time will require 1us. 1 KEEPWARM Keep IADC fully powered after conversions have completed. 2 EN Enable 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Enable IADC Module 0 1 read-write DISABLE Disable 0 ENABLE Enable 1 IEN Interrupt Enable 0x28 -1 read-write n 0x0 0x0 EM23ABORTERROR EM2/3 Abort Error Enable 31 1 read-write POLARITYERR Polarity Error Enable 12 1 read-write PORTALLOCERR Port Allocation Error Enable 13 1 read-write SCANCMP Scan Result Window Compare Enable 3 1 read-write SCANENTRYDONE Scan Entry Done Enable 7 1 read-write SCANFIFODVL Scan FIFO Data Valid Level Enable 1 1 read-write SCANFIFOOF Scan FIFO Overflow Enable 17 1 read-write SCANFIFOUF Scan FIFO Underflow Enable 19 1 read-write SCANTABLEDONE Scan Table Done Enable 8 1 read-write SINGLECMP Single Result Window Compare Enable 2 1 read-write SINGLEDONE Single Conversion Done Enable 9 1 read-write SINGLEFIFODVL Single FIFO Data Valid Level Enable 0 1 read-write SINGLEFIFOOF Single FIFO Overflow Enable 16 1 read-write SINGLEFIFOUF Single FIFO Underflow Enable 18 1 read-write IF Interrupt Flag 0x24 -1 read-write n 0x0 0x0 EM23ABORTERROR EM2/3 Abort Error 31 1 read-write POLARITYERR Polarity Error 12 1 read-write PORTALLOCERR Port Allocation Error 13 1 read-write SCANCMP Scan Result Window Compare 3 1 read-write SCANENTRYDONE Scan Entry Done 7 1 read-write SCANFIFODVL Scan FIFO Data Valid Level 1 1 read-write SCANFIFOOF Scan FIFO Overflow 17 1 read-write SCANFIFOUF Scan FIFO Underflow 19 1 read-write SCANTABLEDONE Scan Table Done 8 1 read-write SINGLECMP Single Result Window Compare 2 1 read-write SINGLEDONE Single Conversion Done 9 1 read-write SINGLEFIFODVL Single FIFO Data Valid Level 0 1 read-write SINGLEFIFOOF Single FIFO Overflow 16 1 read-write SINGLEFIFOUF Single FIFO Underflow 18 1 read-write IPVERSION IPVERSION 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only MASKREQ Mask Request 0x18 -1 read-write n 0x0 0x0 MASKREQ Scan Queue Mask Request 0 16 read-write SCALE0 Scale 0x50 -1 read-write n 0x0 0x0 GAIN13LSB Gain 13 LSBs 18 13 read-write GAIN3MSB Gain 3 MSBs 31 1 read-write GAIN011 Upper 3 bits of gain = 011 (0.75x) 0 GAIN100 Upper 3 bits of gain = 100 (1.00x) 1 OFFSET Offset 0 18 read-write SCALE1 Scale 0x60 -1 read-write n 0x0 0x0 GAIN13LSB Gain 13 LSBs 18 13 read-write GAIN3MSB Gain 3 MSBs 31 1 read-write GAIN011 Upper 3 bits of gain = 011 (0.75x) 0 GAIN100 Upper 3 bits of gain = 100 (1.00x) 1 OFFSET Offset 0 18 read-write SCAN0 No Description 0xA0 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN1 No Description 0xA4 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN10 No Description 0xC8 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN11 No Description 0xCC -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN12 No Description 0xD0 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN13 No Description 0xD4 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN14 No Description 0xD8 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN15 No Description 0xDC -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN2 No Description 0xA8 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN3 No Description 0xAC -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN4 No Description 0xB0 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN5 No Description 0xB4 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN6 No Description 0xB8 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN7 No Description 0xBC -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN8 No Description 0xC0 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCAN9 No Description 0xC4 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SCANDATA Most recent data data from scan queue conversion 0x8C -1 read-only n 0x0 0x0 DATA Data 0 32 read-only SCANFIFOCFG SCAN FIFO configuration 0x80 -1 read-write n 0x0 0x0 ALIGNMENT Alignment 0 3 read-write RIGHT12 ID[7:0], SIGN_EXT, DATA[11:0] 0 RIGHT16 ID[7:0], SIGN_EXT, DATA[15:0] 1 RIGHT20 ID[7:0], SIGN_EXT, DATA[19:0] 2 LEFT12 DATA[11:0], 000000000000, ID[7:0] 3 LEFT16 DATA[15:0], 00000000, ID[7:0] 4 LEFT20 DATA[19:0], 0000, ID[7:0] 5 DMAWUFIFOSCAN Scan FIFO DMA Wakeup 8 1 read-write DISABLED While in EM2 or EM3, the DMA controller will not be requested. 0 ENABLED While in EM2 or EM3, the DMA controller will be requested when the scan FIFO reaches its Data Valid Level. [DVL must be set to 0 (VALID1).] 1 DVL Data Valid Level 4 3 read-write VALID1 When 1 entry in the scan FIFO is valid, set the SCANFIFODVL interrupt and request DMA. 0 VALID2 When 2 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 1 VALID3 When 3 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 2 VALID4 When 4 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 3 VALID5 When 5 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 4 VALID6 When 6 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 5 VALID7 When 7 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 6 VALID8 When 8 entries in the scan FIFO are valid, set the SCANFIFODVL interrupt and request DMA. 7 SHOWID Show ID 3 1 read-write SCANFIFODATA Read the oldest valid data from the scan FIFO and pop the FIFO 0x84 -1 read-only n 0x0 0x0 DATA Data 0 32 read-only SCANFIFOSTAT Scan FIFO status 0x88 -1 read-only n 0x0 0x0 FIFOREADCNT FIFO Read Count 0 4 read-only SCHED0 Scheduling 0x54 -1 read-write n 0x0 0x0 PRESCALE Prescale 0 10 read-write SCHED1 Scheduling 0x64 -1 read-write n 0x0 0x0 PRESCALE Prescale 0 10 read-write SINGLE No Description 0x98 -1 read-write n 0x0 0x0 CFG Configuration Group Select 16 1 read-write CONFIG0 Use configuration group 0 0 CONFIG1 Use configuration group 1 1 CMP Comparison Enable 17 1 read-write PINNEG Negative Pin Select 0 4 read-write PINPOS Positive Pin Select 8 4 read-write PORTNEG Negative Port Select 4 4 read-write GND Ground (single-ended) 0 RSV0 Reserved 1 PORTC Port C - Select pin number using PINNEG 10 PORTD Port D - Select pin number using PINNEG 11 DAC1 Direct connection to DAC0_CH1 2 PADANA1 Direct connection to AIN1 input pin 4 PORTA Port A - Select pin number using PINNEG 8 PORTB Port B - Select pin number using PINNEG 9 PORTPOS Positive Port Select 12 4 read-write GND Ground 0 SUPPLY Supply Pin - Select specific supply using PINPOS 1 PORTC Port C - Select pin number using PINPOS 10 PORTD Port D - Select pin number using PINPOS 11 DAC0 Direct connection to DAC0_CH0 2 PADANA0 Direct connection to AIN0 input pin 4 PORTA Port A - Select pin number using PINPOS 8 PORTB Port B - Select pin number using PINPOS 9 SINGLEDATA latest single queue conversion data 0x7C -1 read-only n 0x0 0x0 DATA Data 0 32 read-only SINGLEFIFOCFG Single FIFO Configuration 0x70 -1 read-write n 0x0 0x0 ALIGNMENT Alignment 0 3 read-write RIGHT12 ID[7:0], SIGN_EXT, DATA[11:0] 0 RIGHT16 ID[7:0], SIGN_EXT, DATA[15:0] 1 RIGHT20 ID[7:0], SIGN_EXT, DATA[19:0] 2 LEFT12 DATA[11:0], 000000000000, ID[7:0] 3 LEFT16 DATA[15:0], 00000000, ID[7:0] 4 LEFT20 DATA[19:0], 0000, ID[7:0] 5 DMAWUFIFOSINGLE Single FIFO DMA wakeup. 8 1 read-write DISABLED While in EM2 or EM3, the DMA controller will not be requested. 0 ENABLED While in EM2 or EM3, the DMA controller will be requested when the single FIFO reaches its Data Valid Level. [DVL must be set to 0 (VALID1).] 1 DVL Data Valid Level 4 3 read-write VALID1 When 1 entry in the single FIFO is valid, set the SINGLEFIFODVL interrupt and request DMA. 0 VALID2 When 2 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 1 VALID3 When 3 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 2 VALID4 When 4 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 3 VALID5 When 5 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 4 VALID6 When 6 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 5 VALID7 When 7 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 6 VALID8 When 8 entries in the single FIFO are valid, set the SINGLEFIFODVL interrupt and request DMA. 7 SHOWID Show ID 3 1 read-write SINGLEFIFODATA Read the oldest valid data from the single FIFO and pop the FIFO 0x74 -1 read-only n 0x0 0x0 DATA Single FIFO Read Data 0 32 read-only SINGLEFIFOSTAT Single FIFO status 0x78 -1 read-only n 0x0 0x0 FIFOREADCNT FIFO Read Count 0 4 read-only STATUS Status 0x14 -1 read-only n 0x0 0x0 ADCWARM ADCWARM 30 1 read-only CONVERTING Converting 6 1 read-only MASKREQWRITEPENDING MASKREQ write pending 21 1 read-only SCANDATADV SCANDATA DV 10 1 read-only SCANFIFODV SCANFIFO Data Valid 9 1 read-only SCANFIFOFLUSHING The Scan FIFO is flushing 15 1 read-only SCANQEN Scan Queued Enabled 3 1 read-only SCANQUEUEPENDING Scan Queue Pending 4 1 read-only SINGLEDATADV SINGLEDATA DV 11 1 read-only SINGLEFIFODV SINGLEFIFO Data Valid 8 1 read-only SINGLEFIFOFLUSHING The Single FIFO is flushing 14 1 read-only SINGLEQEN Single Queue Enabled 0 1 read-only SINGLEQUEUEPENDING Single Queue Pending 1 1 read-only SINGLEWRITEPENDING SINGLE write pending 20 1 read-only SYNCBUSY SYNCBUSY 24 1 read-only TIMERACTIVE Timer Active 16 1 read-only STMASK Scan Table Mask 0x1C -1 read-only n 0x0 0x0 STMASK Scan Table Mask 0 16 read-only TIMER Timer 0x10 -1 read-write n 0x0 0x0 TIMER Timer Period 0 16 read-write TRIGGER Trigger 0x2C -1 read-write n 0x0 0x0 SCANTRIGACTION Scan Trigger Action 4 1 read-write ONCE For TRIGSEL=IMMEDIATE, goes through the scan table once and disables queue. For TRIGSEL = TIMER, PRSCLKGRP, PRSPOS, PRSNEG, goes through the scan table once per trigger. 0 CONTINUOUS Goes through the scan table, converts each entry with a mask bit set, and puts it back into the scan queue to repeat again continuously. The queues are first come first serve. If both queues are triggered, the single queue will get to convert after each scan table completes. The scan queue will get to convert after each single conversion completes. 1 SCANTRIGSEL Scan Trigger Select 0 3 read-write IMMEDIATE Immediate triggering. The scan queue will be disabled once all conversions in the scan table are complete, unless TRIGGERACTION is set to continuous. 0 TIMER Triggers when the local timer count reaches zero. 1 PRSCLKGRP Triggers on PRS0 from a timer module that is using the same clock group as the ADC and has been programmed to use the same clock source as the ADC. The prescale may be different between the ADC and the timer module. 2 PRSPOS Triggers on asynchronous PRS0 positive edge. Requires PRS0 to go low for 3 ADC_CLKs before another positive edge can be detected. Generates an additional delay of 1 to 2 ADC_SRC_CLK cycles for synchronization. 3 PRSNEG Triggers on asynchronous PRS0 negative edge. Requires PRS0 to go high for 3 ADC_CLKs before another negative edge can be detected. Generates an additional delay of 1 to 2 ADC_SRC_CLK cycles for synchronization. PRSNEG should only be used when the trigger source is from a module that remains powered during EM23. For modules (ie: TIMER) that power down during EM23, PRSPOS should be used for an asynchronous trigger, and PRSCLKGRP should be used for a synchronous trigger. 4 LESENSE Triggers on LESENSE convert request. When using the LESENSE for the SCAN Table, only one entry is converted per LESENSE convert request. 5 SINGLETAILGATE Single Tailgate Enable 16 1 read-write TAILGATEOFF The single queue is ready to start warming up and converting once the trigger had been detected. 0 TAILGATEON After the single queue's trigger is detected, it must wait until the end of a scan operation before the Single queue can be converted. 1 SINGLETRIGACTION Single Trigger Action 12 1 read-write ONCE For TRIGSEL=IMMEDIATE, converts the single queue once and disables queue. For TRIGSEL = TIMER, PRSCLKGRP, PRSPOS, PRSNEG, converts the single queue once per trigger. 0 CONTINUOUS Converts the single queue, then checks for a pending scan queue before converting the single queue again continuously. The queues are first come first serve. If both queues are continuous, the IADC alternates between them. 1 SINGLETRIGSEL Single Trigger Select 8 3 read-write IMMEDIATE Immediate triggering. The single queue will be disabled once the conversion is complete, unless TRIGGERACTION is set to continuous. 0 TIMER Triggers when the local timer count reaches zero. 1 PRSCLKGRP Triggers on PRS1 from a timer module that is using the same clock group as the ADC and has been programmed to use the same clock source as the ADC. The prescale may be different between the ADC and the timer module. 2 PRSPOS Triggers on asynchronous PRS1 positive edge. Requires PRS1 to go low for 3 ADC_CLKs before another positive edge can be detected. Generates an additional delay of 1 to 2 ADC_SRC_CLK cycles for synchronization. 3 PRSNEG Triggers on asynchronous PRS1 negative edge. Requires PRS1 to go high for 3 ADC_CLKs before another negative edge can be detected. Generates an additional delay of 1 to 2 ADC_SRC_CLK cycles for synchronization. PRSNEG should only be used when the trigger source is from a module that remains powered during EM23. For modules (ie: TIMER) that power down during EM23, PRSPOS should be used for an asynchronous trigger, and PRSCLKGRP should be used for a synchronous trigger. 4 ICACHE0_NS ICACHE0_NS Registers ICACHE0_NS 0x0 0x0 0x1000 registers n ICACHE0 17 CMD No Description 0x18 -1 write-only n 0x0 0x0 FLUSH Flush 0 1 write-only STARTPC Start Performance Counters 1 1 write-only STOPPC Stop Performance Counters 2 1 write-only CTRL No Description 0x4 -1 read-write n 0x0 0x0 AUTOFLUSHDIS Automatic Flushing Disable 2 1 read-write CACHEDIS Cache Disable 0 1 read-write USEMPU Use MPU 1 1 read-write IEN No Description 0x24 -1 read-write n 0x0 0x0 AHITOF Advanced Hit Overflow Interrupt Enable 2 1 read-write HITOF Hit Overflow Interrupt Enable 0 1 read-write MISSOF Miss Overflow Interrupt Enable 1 1 read-write RAMERROR RAM error Interrupt Enable 8 1 read-write IF No Description 0x20 -1 read-write n 0x0 0x0 AHITOF Advanced Hit Overflow Interrupt Flag 2 1 read-write HITOF Hit Overflow Interrupt Flag 0 1 read-write MISSOF Miss Overflow Interrupt Flag 1 1 read-write RAMERROR RAM error Interrupt Flag 8 1 read-write IPVERSION The read only IPVERSION field gives the version for this module. There may be minor software changes required for modules with different values of IPVERSION. 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only LPMODE No Description 0x1C -1 read-write n 0x0 0x0 LPLEVEL Low Power Level 0 2 read-write BASIC Base instruction cache functionality 0 ADVANCED Advanced buffering mode, where the cache uses the fetch pattern to predict highly accessed data and store it in low-energy memory 1 MINACTIVITY Minimum activity mode, which allows the cache to minimize activity in logic that it predicts has a low probability being used. This mode can introduce wait-states into the instruction fetch stream when the cache exits one of its low-activity states. The number of wait-states introduced is small, but users running with 0-wait-state memory and wishing to reduce the variability that the cache might introduce with additional wait-states may wish to lower the cache low-power level. Note, this mode includes the advanced buffering mode functionality. 3 NESTFACTOR Low Power Nest Factor 4 4 read-write PCAHITS No Description 0x10 -1 read-only n 0x0 0x0 PCAHITS Performance Counter Advanced Hits 0 32 read-only PCHITS No Description 0x8 -1 read-only n 0x0 0x0 PCHITS Performance Counter Hits 0 32 read-only PCMISSES No Description 0xC -1 read-only n 0x0 0x0 PCMISSES Performance Counter Misses 0 32 read-only STATUS No Description 0x14 -1 read-only n 0x0 0x0 PCRUNNING PC Running 0 1 read-only ICACHE0_S ICACHE0_S Registers ICACHE0_S 0x0 0x0 0x1000 registers n ICACHE0 17 CMD No Description 0x18 -1 write-only n 0x0 0x0 FLUSH Flush 0 1 write-only STARTPC Start Performance Counters 1 1 write-only STOPPC Stop Performance Counters 2 1 write-only CTRL No Description 0x4 -1 read-write n 0x0 0x0 AUTOFLUSHDIS Automatic Flushing Disable 2 1 read-write CACHEDIS Cache Disable 0 1 read-write USEMPU Use MPU 1 1 read-write IEN No Description 0x24 -1 read-write n 0x0 0x0 AHITOF Advanced Hit Overflow Interrupt Enable 2 1 read-write HITOF Hit Overflow Interrupt Enable 0 1 read-write MISSOF Miss Overflow Interrupt Enable 1 1 read-write RAMERROR RAM error Interrupt Enable 8 1 read-write IF No Description 0x20 -1 read-write n 0x0 0x0 AHITOF Advanced Hit Overflow Interrupt Flag 2 1 read-write HITOF Hit Overflow Interrupt Flag 0 1 read-write MISSOF Miss Overflow Interrupt Flag 1 1 read-write RAMERROR RAM error Interrupt Flag 8 1 read-write IPVERSION The read only IPVERSION field gives the version for this module. There may be minor software changes required for modules with different values of IPVERSION. 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only LPMODE No Description 0x1C -1 read-write n 0x0 0x0 LPLEVEL Low Power Level 0 2 read-write BASIC Base instruction cache functionality 0 ADVANCED Advanced buffering mode, where the cache uses the fetch pattern to predict highly accessed data and store it in low-energy memory 1 MINACTIVITY Minimum activity mode, which allows the cache to minimize activity in logic that it predicts has a low probability being used. This mode can introduce wait-states into the instruction fetch stream when the cache exits one of its low-activity states. The number of wait-states introduced is small, but users running with 0-wait-state memory and wishing to reduce the variability that the cache might introduce with additional wait-states may wish to lower the cache low-power level. Note, this mode includes the advanced buffering mode functionality. 3 NESTFACTOR Low Power Nest Factor 4 4 read-write PCAHITS No Description 0x10 -1 read-only n 0x0 0x0 PCAHITS Performance Counter Advanced Hits 0 32 read-only PCHITS No Description 0x8 -1 read-only n 0x0 0x0 PCHITS Performance Counter Hits 0 32 read-only PCMISSES No Description 0xC -1 read-only n 0x0 0x0 PCMISSES Performance Counter Misses 0 32 read-only STATUS No Description 0x14 -1 read-only n 0x0 0x0 PCRUNNING PC Running 0 1 read-only KEYSCAN_NS KEYSCAN_NS Registers KEYSCAN_NS 0x0 0x0 0x1000 registers n KEYSCAN 73 CFG Config 0xC -1 read-write n 0x0 0x0 AUTOSTART Automatically Start 22 1 read-write AUTOSTARTDIS Auto start is disabled 0 AUTOSTARTEN Auto start is enabled 1 CLKDIV Clock Divider 0 18 read-write NUMCOLS Number of Columns 28 3 read-write NUMROWS Number of Rows 24 3 read-write RSV1 1 Row is not supported defaults to 3 instead 0 RSV2 2 Rows are not supported defaults to 3 instead 1 ROW3 3 Rows 2 ROW4 4 Rows 3 ROW5 5 Rows 4 ROW6 6 Rows 5 SINGLEPRESS Single Press 20 1 read-write MULTIPRESS After KEYIF is set and then cleared, scanning will continue. This can give multiple interrupts for the same key press, but allow multiple key presses to be detected. To use this mode for multi-key detection, the ISR should update a section of memory of COLNUM bytes on each interrupt, until key release is detected. After key release, the section of memory where key presses are recorded can be processed. 0 SINGLEPRESS After KEYIF has been set and cleared, it will not set again until no key press is detected. This allows faster response since the ISR can start processing data as soon as the KEYIF is set. 1 CMD Command 0x10 -1 write-only n 0x0 0x0 KEYSCANSTART Keyscan Start 0 1 write-only KEYSCANSTOP Keyscan Stop 1 1 write-only DELAY Delay 0x14 -1 read-write n 0x0 0x0 DEBDLY Debounce Delay 16 4 read-write DEBDLY2 2ms Debounce Delay 0 DEBDLY4 4ms Debounce Delay 1 DEBDLY22 22ms Debounce Delay 10 DEBDLY24 24ms Debounce Delay 11 DEBDLY26 26ms Debounce Delay 12 DEBDLY28 28ms Debounce Delay 13 DEBDLY30 30ms Debounce Delay 14 DEBDLY32 32ms Debounce Delay 15 DEBDLY6 6ms Debounce Delay 2 DEBDLY8 8ms Debounce Delay 3 DEBDLY10 10ms Debounce Delay 4 DEBDLY12 12ms Debounce Delay 5 DEBDLY14 14ms Debounce Delay 6 DEBDLY16 16ms Debounce Delay 7 DEBDLY18 18ms Debounce Delay 8 DEBDLY20 20ms Debounce Delay 9 SCANDLY Scan Delay 8 4 read-write SCANDLY2 2ms Scan Delay 0 SCANDLY4 4ms Scan Delay 1 SCANDLY22 22ms Scan Delay 10 SCANDLY24 24ms Scan Delay 11 SCANDLY26 26ms Scan Delay 12 SCANDLY28 28ms Scan Delay 13 SCANDLY30 30ms Scan Delay 14 SCANDLY32 32ms Scan Delay 15 SCANDLY6 6ms Scan Delay 2 SCANDLY8 8ms Scan Delay 3 SCANDLY10 10ms Scan Delay 4 SCANDLY12 12ms Scan Delay 5 SCANDLY14 14ms Scan Delay 6 SCANDLY16 16ms Scan Delay 7 SCANDLY18 18ms Scan Delay 8 SCANDLY20 20ms Scan Delay 9 STABDLY Row stable Delay 24 4 read-write STABDLY2 2ms Row Stable Delay 0 STABDLY4 4ms Row Stable Delay 1 STABDLY22 22ms Row Stable Delay 10 STABDLY24 24ms Row Stable Delay 11 STABDLY26 26ms Row Stable Delay 12 STABDLY28 28ms Row Stable Delay 13 STABDLY30 30ms Row Stable Delay 14 STABDLY32 32ms Row Stable Delay 15 STABDLY6 6ms Row Stable Delay 2 STABDLY8 8ms Row Stable Delay 3 STABDLY10 10ms Row Stable Delay 4 STABDLY12 12ms Row Stable Delay 5 STABDLY14 14ms Row Stable Delay 6 STABDLY16 16ms Row Stable Delay 7 STABDLY18 18ms Row Stable Delay 8 STABDLY20 20ms Row Stable Delay 9 EN Enable 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Enable 0 1 read-write DISABLE Stops clocking and resets peripheral core logic. 0 ENABLE Enables clocking, and begins scanning if CFG.AUTOSTART is 0x1. 1 IEN Interrupt Enables 0x20 -1 read-write n 0x0 0x0 KEY A Key was pressed 1 1 read-write NOKEY No Key was pressed 0 1 read-write SCANNED Completed Scanning 2 1 read-write WAKEUP Wake up 3 1 read-write IF Interrupt Flags 0x1C -1 read-write n 0x0 0x0 KEY A key was pressed 1 1 read-write NOKEY No key was pressed 0 1 read-write SCANNED Completed scan 2 1 read-write WAKEUP Wake up 3 1 read-write IPVERSION IPVERSION 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only STATUS Status 0x18 -1 read-only n 0x0 0x0 COL Column Latched 24 3 read-only NOKEY No Key pressed status 30 1 read-only ROW Row detection 0 6 read-only RUNNING Running 16 1 read-only SYNCBUSY Sync Busy 31 1 read-only SWRST Software Reset 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only KEYSCAN_S KEYSCAN_S Registers KEYSCAN_S 0x0 0x0 0x1000 registers n KEYSCAN 73 CFG Config 0xC -1 read-write n 0x0 0x0 AUTOSTART Automatically Start 22 1 read-write AUTOSTARTDIS Auto start is disabled 0 AUTOSTARTEN Auto start is enabled 1 CLKDIV Clock Divider 0 18 read-write NUMCOLS Number of Columns 28 3 read-write NUMROWS Number of Rows 24 3 read-write RSV1 1 Row is not supported defaults to 3 instead 0 RSV2 2 Rows are not supported defaults to 3 instead 1 ROW3 3 Rows 2 ROW4 4 Rows 3 ROW5 5 Rows 4 ROW6 6 Rows 5 SINGLEPRESS Single Press 20 1 read-write MULTIPRESS After KEYIF is set and then cleared, scanning will continue. This can give multiple interrupts for the same key press, but allow multiple key presses to be detected. To use this mode for multi-key detection, the ISR should update a section of memory of COLNUM bytes on each interrupt, until key release is detected. After key release, the section of memory where key presses are recorded can be processed. 0 SINGLEPRESS After KEYIF has been set and cleared, it will not set again until no key press is detected. This allows faster response since the ISR can start processing data as soon as the KEYIF is set. 1 CMD Command 0x10 -1 write-only n 0x0 0x0 KEYSCANSTART Keyscan Start 0 1 write-only KEYSCANSTOP Keyscan Stop 1 1 write-only DELAY Delay 0x14 -1 read-write n 0x0 0x0 DEBDLY Debounce Delay 16 4 read-write DEBDLY2 2ms Debounce Delay 0 DEBDLY4 4ms Debounce Delay 1 DEBDLY22 22ms Debounce Delay 10 DEBDLY24 24ms Debounce Delay 11 DEBDLY26 26ms Debounce Delay 12 DEBDLY28 28ms Debounce Delay 13 DEBDLY30 30ms Debounce Delay 14 DEBDLY32 32ms Debounce Delay 15 DEBDLY6 6ms Debounce Delay 2 DEBDLY8 8ms Debounce Delay 3 DEBDLY10 10ms Debounce Delay 4 DEBDLY12 12ms Debounce Delay 5 DEBDLY14 14ms Debounce Delay 6 DEBDLY16 16ms Debounce Delay 7 DEBDLY18 18ms Debounce Delay 8 DEBDLY20 20ms Debounce Delay 9 SCANDLY Scan Delay 8 4 read-write SCANDLY2 2ms Scan Delay 0 SCANDLY4 4ms Scan Delay 1 SCANDLY22 22ms Scan Delay 10 SCANDLY24 24ms Scan Delay 11 SCANDLY26 26ms Scan Delay 12 SCANDLY28 28ms Scan Delay 13 SCANDLY30 30ms Scan Delay 14 SCANDLY32 32ms Scan Delay 15 SCANDLY6 6ms Scan Delay 2 SCANDLY8 8ms Scan Delay 3 SCANDLY10 10ms Scan Delay 4 SCANDLY12 12ms Scan Delay 5 SCANDLY14 14ms Scan Delay 6 SCANDLY16 16ms Scan Delay 7 SCANDLY18 18ms Scan Delay 8 SCANDLY20 20ms Scan Delay 9 STABDLY Row stable Delay 24 4 read-write STABDLY2 2ms Row Stable Delay 0 STABDLY4 4ms Row Stable Delay 1 STABDLY22 22ms Row Stable Delay 10 STABDLY24 24ms Row Stable Delay 11 STABDLY26 26ms Row Stable Delay 12 STABDLY28 28ms Row Stable Delay 13 STABDLY30 30ms Row Stable Delay 14 STABDLY32 32ms Row Stable Delay 15 STABDLY6 6ms Row Stable Delay 2 STABDLY8 8ms Row Stable Delay 3 STABDLY10 10ms Row Stable Delay 4 STABDLY12 12ms Row Stable Delay 5 STABDLY14 14ms Row Stable Delay 6 STABDLY16 16ms Row Stable Delay 7 STABDLY18 18ms Row Stable Delay 8 STABDLY20 20ms Row Stable Delay 9 EN Enable 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Enable 0 1 read-write DISABLE Stops clocking and resets peripheral core logic. 0 ENABLE Enables clocking, and begins scanning if CFG.AUTOSTART is 0x1. 1 IEN Interrupt Enables 0x20 -1 read-write n 0x0 0x0 KEY A Key was pressed 1 1 read-write NOKEY No Key was pressed 0 1 read-write SCANNED Completed Scanning 2 1 read-write WAKEUP Wake up 3 1 read-write IF Interrupt Flags 0x1C -1 read-write n 0x0 0x0 KEY A key was pressed 1 1 read-write NOKEY No key was pressed 0 1 read-write SCANNED Completed scan 2 1 read-write WAKEUP Wake up 3 1 read-write IPVERSION IPVERSION 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only STATUS Status 0x18 -1 read-only n 0x0 0x0 COL Column Latched 24 3 read-only NOKEY No Key pressed status 30 1 read-only ROW Row detection 0 6 read-only RUNNING Running 16 1 read-only SYNCBUSY Sync Busy 31 1 read-only SWRST Software Reset 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only LCDRF_NS LCDRF_NS Registers LCDRF_NS 0x0 0x0 0x1000 registers n RFIMLCDCTRL No Description 0x0 -1 read-write n 0x0 0x0 LCDCMPDOUT LCD Comparator Dout 4 1 read-write LCDCPXOEN LCD Charge Pump XO Clock Enable 0 1 read-write LCDCPXORETIMEEN LCD Charge Pump XO Retime Enable 2 1 read-write LCDCPXOSEL LCD Charge Pump XO Select 1 1 read-write INTRCO Internal LCD CP 10Mhz RC oscillator 0 HFXODIV HFXO divided 4 clock 1 LCDLOWNOISE LCD Low Noise 3 1 read-write NORMAL Normal operation 0 SLOW slows down slew rate to reduce RF interference at a cost of additional power consumption 1 LCDRF_S LCDRF_S Registers LCDRF_S 0x0 0x0 0x1000 registers n RFIMLCDCTRL No Description 0x0 -1 read-write n 0x0 0x0 LCDCMPDOUT LCD Comparator Dout 4 1 read-write LCDCPXOEN LCD Charge Pump XO Clock Enable 0 1 read-write LCDCPXORETIMEEN LCD Charge Pump XO Retime Enable 2 1 read-write LCDCPXOSEL LCD Charge Pump XO Select 1 1 read-write INTRCO Internal LCD CP 10Mhz RC oscillator 0 HFXODIV HFXO divided 4 clock 1 LCDLOWNOISE LCD Low Noise 3 1 read-write NORMAL Normal operation 0 SLOW slows down slew rate to reduce RF interference at a cost of additional power consumption 1 LCD_NS LCD_NS Registers LCD_NS 0x0 0x0 0x1000 registers n LCD 72 AREGA No Description 0x24 -1 read-write n 0x0 0x0 AREGA Animation Register A Data 0 8 read-write AREGB No Description 0x28 -1 read-write n 0x0 0x0 AREGB Animation Register B Data 0 8 read-write BACFG No Description 0x18 -1 read-write n 0x0 0x0 ASTATETOP ASTATE top cnt 0 3 read-write FCPRESC Frame Counter Prescaler 16 2 read-write DIV1 every frame clock 0 DIV2 every 2nd frame clock 1 DIV4 every 4th frame clock 2 DIV8 every 8th frame clock 3 FCTOP Frame Counter Top 18 6 read-write BACTRL No Description 0x1C -1 read-write n 0x0 0x0 AEN Animation Enable 2 1 read-write ALOC Animation Location 28 1 read-write SEG0TO7 Animation appears on segments 0 to 7 0 SEG8TO15 Animation appears on segments 8 to 15 1 ALOGSEL Animate Logic Function Select 7 1 read-write AND AREGA and AREGB AND'ed 0 OR AREGA and AREGB OR'ed 1 AREGASC Animate Register A Shift Control 3 2 read-write NOSHIFT No Shift operation on Animation Register A 0 SHIFTLEFT Animation Register A is shifted left 1 SHIFTRIGHT Animation Register A is shifted right 2 AREGBSC Animate Register B Shift Control 5 2 read-write NOSHIFT No Shift operation on Animation Register B 0 SHIFTLEFT Animation Register B is shifted left 1 SHIFTRIGHT Animation Register B is shifted right 2 BLANK Blank Display 1 1 read-write DISABLE Display is not blanked 0 ENABLE Display is blanked 1 BLINKEN Blink Enable 0 1 read-write DISPLAYCNTEN Display Counter Enable 9 1 read-write DISABLE Disable the display counter 0 ENABLE Enable the display counter 1 FCEN Frame Counter Enable 8 1 read-write BIASCTRL No Description 0x34 -1 read-write n 0x0 0x0 BUFBIAS Buffer Bias Setting 8 2 read-write BUFDRV Buffer Drive Strength 4 3 read-write DMAMODE DMA Mode 30 2 read-write DMADISABLE No DMA requests are generated 0 DMAFC DMA request on frame counter event. This will also start a DMA transfer during EM23. 1 DMADISPLAY DMA request on display counter event. This will also start a DMA transfer during EM23. 2 LCDGATE LCD Gate 26 1 read-write UNGATE LCD BIAS voltages driven onto pins. 0 GATE LCD BIAS MUX tristated at the pins. 1 MODE Mode Setting 12 1 read-write STEPDOWN Use step down control with VLCD less than VDDX. Use VLCD[4:0] to control VLCD level, and use SPEED to adjust VLCD drive strength. 0 CHARGEPUMP Use the charge pump to pump VLCD above VDDX. 1 RESISTOR Resistor strength 0 4 read-write VDDXSEL VDDX select 22 1 read-write DVDD Connect charge pump to digital DVDD supply 0 AVDD Connect charge pump to analog AVDD supply 1 VLCD VLCD voltage level 16 5 read-write CMD No Description 0x10 -1 write-only n 0x0 0x0 CLEAR Clear command 1 1 write-only LOAD Load command 0 1 write-only CTRL No Description 0xC -1 read-write n 0x0 0x0 DSC Direct Segment Control 16 1 read-write DISABLE DSC disable 0 ENABLE DSC enable 1 PRESCALE Presclae 24 7 read-write UDCTRL Update Data Control 1 2 read-write REGULAR The data transfer is controlled by SW. Transfer is performed as soon as possible on the next CTRL.PRESCALE clock 0 FRAMESTART Data is loaded continuously at every frame start 1 FCEVENT The data transfer is done at the next Frame Counter event 2 DISPLAYEVENT The data transfer is done at the next Display Counter event 3 WARMUPDLY Warmup Delay 18 3 read-write WARMUP1 1mswarm up 0 WARMUP31 31ms warm up 1 WARMUP63 62ms warm up 2 WARMUP125 125ms warm up 3 WARMUP250 250ms warm up 4 WARMUP500 500ms warm up 5 WARMUP1000 1000ms warm up 6 WARMUP2000 2000ms warm up 7 DISPCTRL No Description 0x14 -1 read-write n 0x0 0x0 BIAS Bias Configuration 24 2 read-write STATIC Static 0 ONEHALF 1/2 Bias 1 ONETHIRD 1/3 Bias 2 ONEFOURTH 1/4 Bias 3 CHGRDST Charge Redistribution Cycles 20 3 read-write DISABLE Disable charge redistribution. 0 ONE Use 1 prescaled low frequency clock cycle for charge redistribution. 1 TWO Use 2 prescaled low frequency clock cycles for charge redistribution. 2 THREE Use 3 prescaled low frequency clock cycles for charge redistribution. 3 FOUR Use 4 prescaled low frequency clock cycles for charge redistribution. 4 MUX Mux Configuration 0 3 read-write STATIC Static 0 DUPLEX Duplex 1 TRIPLEX Triplex 2 QUADRUPLEX Quadruplex 3 WAVE Waveform Selection 4 1 read-write TYPEB Type B waveform 0 TYPEA Type A waveform 1 DISPCTRLX No Description 0x38 -1 read-write n 0x0 0x0 DISPLAYDIV Display Divider 0 10 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Enable 0 1 read-write DISABLE Disable 0 ENABLE Enable 1 FRAMERATE No Description 0xF0 -1 read-write n 0x0 0x0 FRDIV Frame Rate Divider 0 9 read-write IEN No Description 0x30 -1 read-write n 0x0 0x0 DISPLAY Display Update Event 1 1 read-write FC Frame Counter 0 1 read-write SYNCBUSYDONE Sync Busy Done 2 1 read-write IF No Description 0x2C -1 read-write n 0x0 0x0 DISPLAY Display Update Event 1 1 read-write FC Frame Counter 0 1 read-write SYNCBUSYDONE Synchronization is Done 2 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only SEGD0 No Description 0x40 -1 read-write n 0x0 0x0 SEGD0 COM0 Segment Data Low 0 20 read-write SEGD1 No Description 0x48 -1 read-write n 0x0 0x0 SEGD1 COM1 Segment Data Low 0 20 read-write SEGD2 No Description 0x50 -1 read-write n 0x0 0x0 SEGD2 COM2 Segment Data Low 0 20 read-write SEGD3 No Description 0x58 -1 read-write n 0x0 0x0 SEGD3 COM3 Segment Data Low 0 20 read-write STATUS No Description 0x20 -1 read-only n 0x0 0x0 ASTATE Current Animation State 0 4 read-only BLINK Blink State 8 1 read-only LOADBUSY Load Synchronization is busy 11 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only UPDATECTRL No Description 0xC0 -1 read-write n 0x0 0x0 AUTOLOAD Auto Load 8 1 read-write MANUAL CLK_BUS register to CLK_PER register loads must be done manually with a write to CMD.LOAD. 0 AUTO CLK_BUS register to CLK_PER register loads will be started automatically after a write to the register in UPDATECTRL.LOADADDR is detected. 1 LOADADDR Load Address 13 4 read-write BACTRLWR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to BACTRL. Use with UPDATECTRL.AUTOLOAD 0 AREGAWR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to AREGA. Use with UPDATECTRL.AUTOLOAD 1 AREGBWR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to AREGB. Use with UPDATECTRL.AUTOLOAD 2 SEGD0WR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to SEGD0. Use with UPDATECTRL.AUTOLOAD 3 SEGD1WR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to SEGD1. Use with UPDATECTRL.AUTOLOAD 4 SEGD2WR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to SEGD2. Use with UPDATECTRL.AUTOLOAD 5 SEGD3WR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to SEGD3. Use with UPDATECTRL.AUTOLOAD 6 LCD_S LCD_S Registers LCD_S 0x0 0x0 0x1000 registers n LCD 72 AREGA No Description 0x24 -1 read-write n 0x0 0x0 AREGA Animation Register A Data 0 8 read-write AREGB No Description 0x28 -1 read-write n 0x0 0x0 AREGB Animation Register B Data 0 8 read-write BACFG No Description 0x18 -1 read-write n 0x0 0x0 ASTATETOP ASTATE top cnt 0 3 read-write FCPRESC Frame Counter Prescaler 16 2 read-write DIV1 every frame clock 0 DIV2 every 2nd frame clock 1 DIV4 every 4th frame clock 2 DIV8 every 8th frame clock 3 FCTOP Frame Counter Top 18 6 read-write BACTRL No Description 0x1C -1 read-write n 0x0 0x0 AEN Animation Enable 2 1 read-write ALOC Animation Location 28 1 read-write SEG0TO7 Animation appears on segments 0 to 7 0 SEG8TO15 Animation appears on segments 8 to 15 1 ALOGSEL Animate Logic Function Select 7 1 read-write AND AREGA and AREGB AND'ed 0 OR AREGA and AREGB OR'ed 1 AREGASC Animate Register A Shift Control 3 2 read-write NOSHIFT No Shift operation on Animation Register A 0 SHIFTLEFT Animation Register A is shifted left 1 SHIFTRIGHT Animation Register A is shifted right 2 AREGBSC Animate Register B Shift Control 5 2 read-write NOSHIFT No Shift operation on Animation Register B 0 SHIFTLEFT Animation Register B is shifted left 1 SHIFTRIGHT Animation Register B is shifted right 2 BLANK Blank Display 1 1 read-write DISABLE Display is not blanked 0 ENABLE Display is blanked 1 BLINKEN Blink Enable 0 1 read-write DISPLAYCNTEN Display Counter Enable 9 1 read-write DISABLE Disable the display counter 0 ENABLE Enable the display counter 1 FCEN Frame Counter Enable 8 1 read-write BIASCTRL No Description 0x34 -1 read-write n 0x0 0x0 BUFBIAS Buffer Bias Setting 8 2 read-write BUFDRV Buffer Drive Strength 4 3 read-write DMAMODE DMA Mode 30 2 read-write DMADISABLE No DMA requests are generated 0 DMAFC DMA request on frame counter event. This will also start a DMA transfer during EM23. 1 DMADISPLAY DMA request on display counter event. This will also start a DMA transfer during EM23. 2 LCDGATE LCD Gate 26 1 read-write UNGATE LCD BIAS voltages driven onto pins. 0 GATE LCD BIAS MUX tristated at the pins. 1 MODE Mode Setting 12 1 read-write STEPDOWN Use step down control with VLCD less than VDDX. Use VLCD[4:0] to control VLCD level, and use SPEED to adjust VLCD drive strength. 0 CHARGEPUMP Use the charge pump to pump VLCD above VDDX. 1 RESISTOR Resistor strength 0 4 read-write VDDXSEL VDDX select 22 1 read-write DVDD Connect charge pump to digital DVDD supply 0 AVDD Connect charge pump to analog AVDD supply 1 VLCD VLCD voltage level 16 5 read-write CMD No Description 0x10 -1 write-only n 0x0 0x0 CLEAR Clear command 1 1 write-only LOAD Load command 0 1 write-only CTRL No Description 0xC -1 read-write n 0x0 0x0 DSC Direct Segment Control 16 1 read-write DISABLE DSC disable 0 ENABLE DSC enable 1 PRESCALE Presclae 24 7 read-write UDCTRL Update Data Control 1 2 read-write REGULAR The data transfer is controlled by SW. Transfer is performed as soon as possible on the next CTRL.PRESCALE clock 0 FRAMESTART Data is loaded continuously at every frame start 1 FCEVENT The data transfer is done at the next Frame Counter event 2 DISPLAYEVENT The data transfer is done at the next Display Counter event 3 WARMUPDLY Warmup Delay 18 3 read-write WARMUP1 1mswarm up 0 WARMUP31 31ms warm up 1 WARMUP63 62ms warm up 2 WARMUP125 125ms warm up 3 WARMUP250 250ms warm up 4 WARMUP500 500ms warm up 5 WARMUP1000 1000ms warm up 6 WARMUP2000 2000ms warm up 7 DISPCTRL No Description 0x14 -1 read-write n 0x0 0x0 BIAS Bias Configuration 24 2 read-write STATIC Static 0 ONEHALF 1/2 Bias 1 ONETHIRD 1/3 Bias 2 ONEFOURTH 1/4 Bias 3 CHGRDST Charge Redistribution Cycles 20 3 read-write DISABLE Disable charge redistribution. 0 ONE Use 1 prescaled low frequency clock cycle for charge redistribution. 1 TWO Use 2 prescaled low frequency clock cycles for charge redistribution. 2 THREE Use 3 prescaled low frequency clock cycles for charge redistribution. 3 FOUR Use 4 prescaled low frequency clock cycles for charge redistribution. 4 MUX Mux Configuration 0 3 read-write STATIC Static 0 DUPLEX Duplex 1 TRIPLEX Triplex 2 QUADRUPLEX Quadruplex 3 WAVE Waveform Selection 4 1 read-write TYPEB Type B waveform 0 TYPEA Type A waveform 1 DISPCTRLX No Description 0x38 -1 read-write n 0x0 0x0 DISPLAYDIV Display Divider 0 10 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Enable 0 1 read-write DISABLE Disable 0 ENABLE Enable 1 FRAMERATE No Description 0xF0 -1 read-write n 0x0 0x0 FRDIV Frame Rate Divider 0 9 read-write IEN No Description 0x30 -1 read-write n 0x0 0x0 DISPLAY Display Update Event 1 1 read-write FC Frame Counter 0 1 read-write SYNCBUSYDONE Sync Busy Done 2 1 read-write IF No Description 0x2C -1 read-write n 0x0 0x0 DISPLAY Display Update Event 1 1 read-write FC Frame Counter 0 1 read-write SYNCBUSYDONE Synchronization is Done 2 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only SEGD0 No Description 0x40 -1 read-write n 0x0 0x0 SEGD0 COM0 Segment Data Low 0 20 read-write SEGD1 No Description 0x48 -1 read-write n 0x0 0x0 SEGD1 COM1 Segment Data Low 0 20 read-write SEGD2 No Description 0x50 -1 read-write n 0x0 0x0 SEGD2 COM2 Segment Data Low 0 20 read-write SEGD3 No Description 0x58 -1 read-write n 0x0 0x0 SEGD3 COM3 Segment Data Low 0 20 read-write STATUS No Description 0x20 -1 read-only n 0x0 0x0 ASTATE Current Animation State 0 4 read-only BLINK Blink State 8 1 read-only LOADBUSY Load Synchronization is busy 11 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only UPDATECTRL No Description 0xC0 -1 read-write n 0x0 0x0 AUTOLOAD Auto Load 8 1 read-write MANUAL CLK_BUS register to CLK_PER register loads must be done manually with a write to CMD.LOAD. 0 AUTO CLK_BUS register to CLK_PER register loads will be started automatically after a write to the register in UPDATECTRL.LOADADDR is detected. 1 LOADADDR Load Address 13 4 read-write BACTRLWR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to BACTRL. Use with UPDATECTRL.AUTOLOAD 0 AREGAWR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to AREGA. Use with UPDATECTRL.AUTOLOAD 1 AREGBWR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to AREGB. Use with UPDATECTRL.AUTOLOAD 2 SEGD0WR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to SEGD0. Use with UPDATECTRL.AUTOLOAD 3 SEGD1WR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to SEGD1. Use with UPDATECTRL.AUTOLOAD 4 SEGD2WR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to SEGD2. Use with UPDATECTRL.AUTOLOAD 5 SEGD3WR Starts synchronizing registers from CLK_BUS to CLK_PER after a write to SEGD3. Use with UPDATECTRL.AUTOLOAD 6 LDMAXBAR_NS LDMAXBAR_NS Registers LDMAXBAR_NS 0x0 0x0 0x1000 registers n CH0_REQSEL No Description 0x4 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH1_REQSEL No Description 0x8 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH2_REQSEL No Description 0xC -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH3_REQSEL No Description 0x10 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH4_REQSEL No Description 0x14 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH5_REQSEL No Description 0x18 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH6_REQSEL No Description 0x1C -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH7_REQSEL No Description 0x20 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LDMAXBAR_S LDMAXBAR_S Registers LDMAXBAR_S 0x0 0x0 0x1000 registers n CH0_REQSEL No Description 0x4 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH1_REQSEL No Description 0x8 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH2_REQSEL No Description 0xC -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH3_REQSEL No Description 0x10 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH4_REQSEL No Description 0x14 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH5_REQSEL No Description 0x18 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH6_REQSEL No Description 0x1C -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write CH7_REQSEL No Description 0x20 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 4 read-write SOURCESEL Source Select 16 6 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LDMA_NS LDMA_NS Registers LDMA_NS 0x0 0x0 0x1000 registers n LDMA 22 CH0_CFG No Description 0x5C -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH0_DST No Description 0x6C -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH0_LINK No Description 0x70 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH0_LOOP No Description 0x60 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH0_SRC No Description 0x68 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH1_CFG No Description 0x8C -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH1_CTRL No Description 0x94 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH1_DST No Description 0x9C -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH1_LINK No Description 0xA0 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH1_LOOP No Description 0x90 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH1_SRC No Description 0x98 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH2_CFG No Description 0xBC -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH2_CTRL No Description 0xC4 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH2_DST No Description 0xCC -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH2_LINK No Description 0xD0 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH2_LOOP No Description 0xC0 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH2_SRC No Description 0xC8 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH3_CFG No Description 0xEC -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH3_CTRL No Description 0xF4 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH3_DST No Description 0xFC -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH3_LINK No Description 0x100 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH3_LOOP No Description 0xF0 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH3_SRC No Description 0xF8 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH4_CFG No Description 0x11C -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH4_CTRL No Description 0x124 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH4_DST No Description 0x12C -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH4_LINK No Description 0x130 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH4_LOOP No Description 0x120 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH4_SRC No Description 0x128 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH5_CFG No Description 0x14C -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH5_CTRL No Description 0x154 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH5_DST No Description 0x15C -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH5_LINK No Description 0x160 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH5_LOOP No Description 0x150 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH5_SRC No Description 0x158 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH6_CFG No Description 0x17C -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH6_CTRL No Description 0x184 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH6_DST No Description 0x18C -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH6_LINK No Description 0x190 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH6_LOOP No Description 0x180 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH6_SRC No Description 0x188 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH7_CFG No Description 0x1AC -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH7_CTRL No Description 0x1B4 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH7_DST No Description 0x1BC -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH7_LINK No Description 0x1C0 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH7_LOOP No Description 0x1B0 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH7_SRC No Description 0x1B8 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CHBUSY No Description 0x30 -1 read-only n 0x0 0x0 BUSY Channels Busy 0 8 read-only CHDIS No Description 0x28 -1 write-only n 0x0 0x0 CHDIS DMA Channel disable 0 8 write-only CHDONE No Description 0x34 -1 read-write n 0x0 0x0 CHDONE0 DMA Channel Link done intr flag 0 1 read-write CHDONE1 DMA Channel Link done intr flag 1 1 read-write CHDONE2 DMA Channel Link done intr flag 2 1 read-write CHDONE3 DMA Channel Link done intr flag 3 1 read-write CHDONE4 DMA Channel Link done intr flag 4 1 read-write CHDONE5 DMA Channel Link done intr flag 5 1 read-write CHDONE6 DMA Channel Link done intr flag 6 1 read-write CHDONE7 DMA Channel Link done intr flag 7 1 read-write CHEN No Description 0x24 -1 write-only n 0x0 0x0 CHEN Channel Enables 0 8 write-only CHSTATUS No Description 0x2C -1 read-only n 0x0 0x0 CHSTATUS DMA Channel Status 0 8 read-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 CORERST Reset DMA controller 31 1 read-write NUMFIXED Number of Fixed Priority Channels 24 5 read-write DBGHALT No Description 0x38 -1 read-write n 0x0 0x0 DBGHALT DMA Debug Halt 0 8 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 EN LDMA module enable and disable register 0 1 read-write IEN No Description 0x54 -1 read-write n 0x0 0x0 CHDONE Enable or disable the done interrupt 0 8 read-write ERROR Enable or disable the error interrupt 31 1 read-write IF No Description 0x50 -1 read-write n 0x0 0x0 DONE0 DMA Structure Operation Done 0 1 read-write DONE1 DMA Structure Operation Done 1 1 read-write DONE2 DMA Structure Operation Done 2 1 read-write DONE3 DMA Structure Operation Done 3 1 read-write DONE4 DMA Structure Operation Done 4 1 read-write DONE5 DMA Structure Operation Done 5 1 read-write DONE6 DMA Structure Operation Done 6 1 read-write DONE7 DMA Structure Operation Done 7 1 read-write ERROR Error Flag 31 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 8 read-only LINKLOAD No Description 0x48 -1 write-only n 0x0 0x0 LINKLOAD DMA Link Loads 0 8 write-only REQCLEAR No Description 0x4C -1 write-only n 0x0 0x0 REQCLEAR DMA Request Clear 0 8 write-only REQDIS No Description 0x40 -1 read-write n 0x0 0x0 REQDIS DMA Request Disables 0 8 read-write REQPEND No Description 0x44 -1 read-only n 0x0 0x0 REQPEND DMA Requests Pending 0 8 read-only STATUS No Description 0xC -1 read-only n 0x0 0x0 ANYBUSY Any DMA Channel Busy 0 1 read-only ANYREQ Any DMA Channel Request Pending 1 1 read-only CHERROR Errant Channel Number 8 5 read-only CHGRANT Granted Channel Number 3 5 read-only CHNUM Number of Channels 24 5 read-only FIFOLEVEL FIFO Level 16 5 read-only SWREQ No Description 0x3C -1 write-only n 0x0 0x0 SWREQ Software Transfer Requests 0 8 write-only SYNCHWEN No Description 0x18 -1 read-write n 0x0 0x0 SYNCCLREN Hardware Sync Trigger Clear Enable 16 8 read-write SYNCSETEN Hardware Sync Trigger Set Enable 0 8 read-write SYNCHWSEL No Description 0x1C -1 read-write n 0x0 0x0 SYNCCLREDGE Hardware Sync Trigger Clear Edge Select 16 8 read-write RISE Use rising edge detection 0 FALL Use falling edge detection 1 SYNCSETEDGE Hardware Sync Trigger Set Edge Select 0 8 read-write RISE Use rising edge detection 0 FALL Use falling edge detection 1 SYNCSTATUS No Description 0x20 -1 read-only n 0x0 0x0 SYNCTRIG sync trig status 0 8 read-only SYNCSWCLR No Description 0x14 -1 write-only n 0x0 0x0 SYNCSWCLR DMA SYNC Software Trigger Clear 0 8 write-only SYNCSWSET No Description 0x10 -1 write-only n 0x0 0x0 SYNCSWSET DMA SYNC Software Trigger Set 0 8 write-only LDMA_S LDMA_S Registers LDMA_S 0x0 0x0 0x1000 registers n LDMA 22 CH0_CFG No Description 0x5C -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH0_DST No Description 0x6C -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH0_LINK No Description 0x70 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH0_LOOP No Description 0x60 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH0_SRC No Description 0x68 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH1_CFG No Description 0x8C -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH1_CTRL No Description 0x94 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH1_DST No Description 0x9C -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH1_LINK No Description 0xA0 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH1_LOOP No Description 0x90 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH1_SRC No Description 0x98 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH2_CFG No Description 0xBC -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH2_CTRL No Description 0xC4 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH2_DST No Description 0xCC -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH2_LINK No Description 0xD0 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH2_LOOP No Description 0xC0 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH2_SRC No Description 0xC8 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH3_CFG No Description 0xEC -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH3_CTRL No Description 0xF4 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH3_DST No Description 0xFC -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH3_LINK No Description 0x100 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH3_LOOP No Description 0xF0 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH3_SRC No Description 0xF8 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH4_CFG No Description 0x11C -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH4_CTRL No Description 0x124 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH4_DST No Description 0x12C -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH4_LINK No Description 0x130 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH4_LOOP No Description 0x120 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH4_SRC No Description 0x128 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH5_CFG No Description 0x14C -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH5_CTRL No Description 0x154 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH5_DST No Description 0x15C -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH5_LINK No Description 0x160 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH5_LOOP No Description 0x150 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH5_SRC No Description 0x158 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH6_CFG No Description 0x17C -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH6_CTRL No Description 0x184 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH6_DST No Description 0x18C -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH6_LINK No Description 0x190 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH6_LOOP No Description 0x180 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH6_SRC No Description 0x188 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CH7_CFG No Description 0x1AC -1 read-write n 0x0 0x0 ARBSLOTS Arbitration Slot Number Select 16 2 read-write ONE One arbitration slot selected 0 TWO Two arbitration slots selected 1 FOUR Four arbitration slots selected 2 EIGHT Eight arbitration slots selected 3 DSTINCSIGN Destination Address Increment Sign 21 1 read-write POSITIVE Increment destination address 0 NEGATIVE Decrement destination address 1 SRCINCSIGN Source Address Increment Sign 20 1 read-write POSITIVE Increment source address 0 NEGATIVE Decrement source address 1 CH7_CTRL No Description 0x1B4 -1 read-write n 0x0 0x0 BLOCKSIZE Block Transfer Size 16 4 read-write UNIT1 One unit transfer per arbitration 0 UNIT2 Two unit transfers per arbitration 1 UNIT64 64 unit transfers per arbitration 10 UNIT128 128 unit transfers per arbitration 11 UNIT256 256 unit transfers per arbitration 12 UNIT512 512 unit transfers per arbitration 13 UNIT1024 1024 unit transfers per arbitration 14 ALL Transfer all units as specified by the XFRCNT field 15 UNIT3 Three unit transfers per arbitration 2 UNIT4 Four unit transfers per arbitration 3 UNIT6 Six unit transfers per arbitration 4 UNIT8 Eight unit transfers per arbitration 5 UNIT16 Sixteen unit transfers per arbitration 7 UNIT32 32 unit transfers per arbitration 9 BYTESWAP Endian Byte Swap 15 1 read-write DECLOOPCNT Decrement Loop Count 22 1 read-write DONEIEN DMA Operation Done Interrupt Flag Set En 20 1 read-write DSTINC Destination Address Increment Size 28 2 read-write ONE Increment destination address by one unit data size after each write 0 TWO Increment destination address by two unit data sizes after each write 1 FOUR Increment destination address by four unit data sizes after each write 2 NONE Do not increment the destination address. Writes are made to a fixed destination address, for example writing to a FIFO. 3 DSTMODE Destination Addressing Mode 31 1 read-only ABSOLUTE The DSTADDR field of LDMA_CHx_DST contains the absolute address of the destination data. 0 RELATIVE The DSTADDR field of LDMA_CHx_DST contains the relative offset of the destination data. 1 IGNORESREQ Ignore Sreq 23 1 read-write REQMODE DMA Request Transfer Mode Select 21 1 read-write BLOCK The LDMA transfers one BLOCKSIZE per transfer request. 0 ALL One transfer request transfers all units as defined by the XFRCNT field. 1 SIZE Unit Data Transfer Size 26 2 read-write BYTE Each unit transfer is a byte 0 HALFWORD Each unit transfer is a half-word 1 WORD Each unit transfer is a word 2 SRCINC Source Address Increment Size 24 2 read-write ONE Increment source address by one unit data size after each read 0 TWO Increment source address by two unit data sizes after each read 1 FOUR Increment source address by four unit data sizes after each read 2 NONE Do not increment the source address. In this mode reads are made from a fixed source address, for example reading FIFO. 3 SRCMODE Source Addressing Mode 30 1 read-only ABSOLUTE The SRCADDR field of LDMA_CHx_SRC contains the absolute address of the source data. 0 RELATIVE The SRCADDR field of LDMA_CHx_SRC contains the relative offset of the source data. 1 STRUCTREQ Structure DMA Transfer Request 3 1 read-only STRUCTTYPE DMA Structure Type 0 2 read-write TRANSFER DMA transfer structure type selected. 0 SYNCHRONIZE Synchronization structure type selected. 1 WRITE Write immediate value structure type selected. 2 XFERCNT DMA Unit Data Transfer Count 4 11 read-write CH7_DST No Description 0x1BC -1 read-write n 0x0 0x0 DSTADDR Destination Data Address 0 32 read-write CH7_LINK No Description 0x1C0 -1 read-write n 0x0 0x0 LINK Link Next Structure 1 1 read-write LINKADDR Link Structure Address 2 30 read-write LINKMODE Link Structure Addressing Mode 0 1 read-only ABSOLUTE The LINKADDR field of LDMA_CHx_LINK contains the absolute address of the linked descriptor. 0 RELATIVE The LINKADDR field of LDMA_CHx_LINK contains the relative offset of the linked descriptor. 1 CH7_LOOP No Description 0x1B0 -1 read-write n 0x0 0x0 LOOPCNT Linked Structure Sequence Loop Counter 0 8 read-write CH7_SRC No Description 0x1B8 -1 read-write n 0x0 0x0 SRCADDR Source Data Address 0 32 read-write CHBUSY No Description 0x30 -1 read-only n 0x0 0x0 BUSY Channels Busy 0 8 read-only CHDIS No Description 0x28 -1 write-only n 0x0 0x0 CHDIS DMA Channel disable 0 8 write-only CHDONE No Description 0x34 -1 read-write n 0x0 0x0 CHDONE0 DMA Channel Link done intr flag 0 1 read-write CHDONE1 DMA Channel Link done intr flag 1 1 read-write CHDONE2 DMA Channel Link done intr flag 2 1 read-write CHDONE3 DMA Channel Link done intr flag 3 1 read-write CHDONE4 DMA Channel Link done intr flag 4 1 read-write CHDONE5 DMA Channel Link done intr flag 5 1 read-write CHDONE6 DMA Channel Link done intr flag 6 1 read-write CHDONE7 DMA Channel Link done intr flag 7 1 read-write CHEN No Description 0x24 -1 write-only n 0x0 0x0 CHEN Channel Enables 0 8 write-only CHSTATUS No Description 0x2C -1 read-only n 0x0 0x0 CHSTATUS DMA Channel Status 0 8 read-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 CORERST Reset DMA controller 31 1 read-write NUMFIXED Number of Fixed Priority Channels 24 5 read-write DBGHALT No Description 0x38 -1 read-write n 0x0 0x0 DBGHALT DMA Debug Halt 0 8 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 EN LDMA module enable and disable register 0 1 read-write IEN No Description 0x54 -1 read-write n 0x0 0x0 CHDONE Enable or disable the done interrupt 0 8 read-write ERROR Enable or disable the error interrupt 31 1 read-write IF No Description 0x50 -1 read-write n 0x0 0x0 DONE0 DMA Structure Operation Done 0 1 read-write DONE1 DMA Structure Operation Done 1 1 read-write DONE2 DMA Structure Operation Done 2 1 read-write DONE3 DMA Structure Operation Done 3 1 read-write DONE4 DMA Structure Operation Done 4 1 read-write DONE5 DMA Structure Operation Done 5 1 read-write DONE6 DMA Structure Operation Done 6 1 read-write DONE7 DMA Structure Operation Done 7 1 read-write ERROR Error Flag 31 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 8 read-only LINKLOAD No Description 0x48 -1 write-only n 0x0 0x0 LINKLOAD DMA Link Loads 0 8 write-only REQCLEAR No Description 0x4C -1 write-only n 0x0 0x0 REQCLEAR DMA Request Clear 0 8 write-only REQDIS No Description 0x40 -1 read-write n 0x0 0x0 REQDIS DMA Request Disables 0 8 read-write REQPEND No Description 0x44 -1 read-only n 0x0 0x0 REQPEND DMA Requests Pending 0 8 read-only STATUS No Description 0xC -1 read-only n 0x0 0x0 ANYBUSY Any DMA Channel Busy 0 1 read-only ANYREQ Any DMA Channel Request Pending 1 1 read-only CHERROR Errant Channel Number 8 5 read-only CHGRANT Granted Channel Number 3 5 read-only CHNUM Number of Channels 24 5 read-only FIFOLEVEL FIFO Level 16 5 read-only SWREQ No Description 0x3C -1 write-only n 0x0 0x0 SWREQ Software Transfer Requests 0 8 write-only SYNCHWEN No Description 0x18 -1 read-write n 0x0 0x0 SYNCCLREN Hardware Sync Trigger Clear Enable 16 8 read-write SYNCSETEN Hardware Sync Trigger Set Enable 0 8 read-write SYNCHWSEL No Description 0x1C -1 read-write n 0x0 0x0 SYNCCLREDGE Hardware Sync Trigger Clear Edge Select 16 8 read-write RISE Use rising edge detection 0 FALL Use falling edge detection 1 SYNCSETEDGE Hardware Sync Trigger Set Edge Select 0 8 read-write RISE Use rising edge detection 0 FALL Use falling edge detection 1 SYNCSTATUS No Description 0x20 -1 read-only n 0x0 0x0 SYNCTRIG sync trig status 0 8 read-only SYNCSWCLR No Description 0x14 -1 write-only n 0x0 0x0 SYNCSWCLR DMA SYNC Software Trigger Clear 0 8 write-only SYNCSWSET No Description 0x10 -1 write-only n 0x0 0x0 SYNCSWSET DMA SYNC Software Trigger Set 0 8 write-only LESENSE_NS LESENSE_NS Registers LESENSE_NS 0x0 0x0 0x1000 registers n CFG Configuration Register 0xC -1 read-write n 0x0 0x0 DEBUGRUN Debug Mode Run Enable 17 1 read-write X0 LESENSE can not start new scans in debug mode 0 X1 LESENSE can start new scans in debug mode 1 DMAWU DMA wake-up from EM2 7 1 read-write DISABLE No DMA wake-up from EM2 0 ENABLE DMA wake-up from EM2 when FIFO count is greater or equal to RESFIDL 1 DUALSAMPLE Enable dual sample mode 5 1 read-write RESFIDL Result FIFO level 8 4 read-write SCANCONF Select scan configuration 2 2 read-write DIRMAP The channel configuration register registers used are directly mapped to the channel number. 0 INVMAP The channel configuration register registers used are CHX+8_CONF for channels 0-7 and CHX-8_CONF for channels 8-15. 1 TOGGLE The channel configuration register registers used toggles between CHX_CONF and CHX+8_CONF when channel x triggers 2 DECDEF The decoder state defines the CONF registers to be used. 3 SCANMODE Configure scan mode 0 2 read-write PERIODIC A new scan is started each time the period counter overflows 0 ONESHOT A single scan is performed when START in CMD is set 1 PRS Pulse on PRS channel 2 STRSCANRES Enable storing of SCANRES 6 1 read-write CH0_EVALCFG No Description 0x108 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH0_EVALTHRES No Description 0x10C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH0_INTERACT No Description 0x104 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH0_TIMING No Description 0x100 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH10_EVALCFG No Description 0x1A8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH10_EVALTHRES No Description 0x1AC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH10_INTERACT No Description 0x1A4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH10_TIMING No Description 0x1A0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH11_EVALCFG No Description 0x1B8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH11_EVALTHRES No Description 0x1BC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH11_INTERACT No Description 0x1B4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH11_TIMING No Description 0x1B0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH12_EVALCFG No Description 0x1C8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH12_EVALTHRES No Description 0x1CC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH12_INTERACT No Description 0x1C4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH12_TIMING No Description 0x1C0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH13_EVALCFG No Description 0x1D8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH13_EVALTHRES No Description 0x1DC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH13_INTERACT No Description 0x1D4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH13_TIMING No Description 0x1D0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH14_EVALCFG No Description 0x1E8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH14_EVALTHRES No Description 0x1EC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH14_INTERACT No Description 0x1E4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH14_TIMING No Description 0x1E0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH15_EVALCFG No Description 0x1F8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH15_EVALTHRES No Description 0x1FC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH15_INTERACT No Description 0x1F4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH15_TIMING No Description 0x1F0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH1_EVALCFG No Description 0x118 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH1_EVALTHRES No Description 0x11C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH1_INTERACT No Description 0x114 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH1_TIMING No Description 0x110 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH2_EVALCFG No Description 0x128 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH2_EVALTHRES No Description 0x12C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH2_INTERACT No Description 0x124 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH2_TIMING No Description 0x120 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH3_EVALCFG No Description 0x138 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH3_EVALTHRES No Description 0x13C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH3_INTERACT No Description 0x134 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH3_TIMING No Description 0x130 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH4_EVALCFG No Description 0x148 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH4_EVALTHRES No Description 0x14C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH4_INTERACT No Description 0x144 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH4_TIMING No Description 0x140 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH5_EVALCFG No Description 0x158 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH5_EVALTHRES No Description 0x15C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH5_INTERACT No Description 0x154 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH5_TIMING No Description 0x150 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH6_EVALCFG No Description 0x168 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH6_EVALTHRES No Description 0x16C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH6_INTERACT No Description 0x164 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH6_TIMING No Description 0x160 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH7_EVALCFG No Description 0x178 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH7_EVALTHRES No Description 0x17C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH7_INTERACT No Description 0x174 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH7_TIMING No Description 0x170 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH8_EVALCFG No Description 0x188 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH8_EVALTHRES No Description 0x18C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH8_INTERACT No Description 0x184 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH8_TIMING No Description 0x180 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH9_EVALCFG No Description 0x198 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH9_EVALTHRES No Description 0x19C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH9_INTERACT No Description 0x194 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH9_TIMING No Description 0x190 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CHEN Channel enable Register 0x28 -1 read-write n 0x0 0x0 CHEN Enable scan channel 0 16 read-write CMD Command Register 0x24 -1 write-only n 0x0 0x0 CLEARBUF Clear result buffer 3 1 write-only DECODE Start decoder 2 1 write-only START Start scanning of sensors. 0 1 write-only STOP Stop scanning of sensors 1 1 write-only CURCH Current channel index 0x3C -1 read-only n 0x0 0x0 CURCH Shows the index of the current channel 0 4 read-only DECCTRL Decoder control Register 0x18 -1 read-write n 0x0 0x0 DECDIS Disable the decoder 0 1 read-write HYSTIRQ Enable decoder hysteresis on interrupt r 6 1 read-write HYSTPRS0 Enable decoder hysteresis on PRS0 output 3 1 read-write HYSTPRS1 Enable decoder hysteresis on PRS1 output 4 1 read-write HYSTPRS2 Enable decoder hysteresis on PRS2 output 5 1 read-write INTMAP Enable decoder to channel interrupt map 2 1 read-write PRSCNT Enable count mode on decoder PRS channel 7 1 read-write DECSTATE Current decoder state 0x40 -1 read-only n 0x0 0x0 DECSTATE Shows the current decoder state 0 5 read-only EN Global Enable of LESENSE functions 0x4 -1 read-write n 0x0 0x0 DISABLING Disabling 1 1 read-only EN Enable 0 1 read-write DISABLE Disable 0 ENABLE Enable 1 EVALCTRL LESENSE evaluation control 0x1C -1 read-write n 0x0 0x0 WINSIZE Sliding window and step detection size 0 16 read-write IDLECONF GPIO Idle phase configuration 0x48 -1 read-write n 0x0 0x0 CHIDLE0 Channel IDLE configuration 0 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE1 Channel IDLE configuration 2 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE10 Channel IDLE configuration 20 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE11 Channel IDLE configuration 22 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE12 Channel IDLE configuration 24 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE13 Channel IDLE configuration 26 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE14 Channel IDLE configuration 28 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE15 Channel IDLE configuration 30 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE2 Channel IDLE configuration 4 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE3 Channel IDLE configuration 6 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE4 Channel IDLE configuration 8 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE5 Channel IDLE configuration 10 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE6 Channel IDLE configuration 12 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE7 Channel IDLE configuration 14 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE8 Channel IDLE configuration 16 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE9 Channel IDLE configuration 18 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 IEN Interrupt Enables 0x64 -1 read-write n 0x0 0x0 CH0 Channel 0 1 read-write CH1 Channel 1 1 read-write CH10 Channel 10 1 read-write CH11 Channel 11 1 read-write CH12 Channel 12 1 read-write CH13 Channel 13 1 read-write CH14 Channel 14 1 read-write CH15 Channel 15 1 read-write CH2 Channel 2 1 read-write CH3 Channel 3 1 read-write CH4 Channel 4 1 read-write CH5 Channel 5 1 read-write CH6 Channel 6 1 read-write CH7 Channel 7 1 read-write CH8 Channel 8 1 read-write CH9 Channel 9 1 read-write CNTOF Counter Overflow 20 1 read-write DEC Decoder 17 1 read-write RESOF Result Overflow 19 1 read-write RESUF Result Underflow 21 1 read-write RESWL Result Watermark Level 18 1 read-write SCANDONE Scan Complete 16 1 read-write IF Interrupt Flags 0x60 -1 read-write n 0x0 0x0 CH0 Channel 0 1 read-write CH1 Channel 1 1 read-write CH10 Channel 10 1 read-write CH11 Channel 11 1 read-write CH12 Channel 12 1 read-write CH13 Channel 13 1 read-write CH14 Channel 14 1 read-write CH15 Channel 15 1 read-write CH2 Channel 2 1 read-write CH3 Channel 3 1 read-write CH4 Channel 4 1 read-write CH5 Channel 5 1 read-write CH6 Channel 6 1 read-write CH7 Channel 7 1 read-write CH8 Channel 8 1 read-write CH9 Channel 9 1 read-write CNTOF Counter Overflow 20 1 read-write DEC Decoder 17 1 read-write RESOF Result Overflow 19 1 read-write RESUF Result Underflow 21 1 read-write RESWL Result Watermark Level 18 1 read-write SCANDONE Scan Done 16 1 read-write IPVERSION IPVERSION 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only PERCTRL Peripheral Control Register 0x14 -1 read-write n 0x0 0x0 ACMP0INV Invert analog comparator 0 output 24 1 read-write ACMP0MODE ACMP0 mode 20 1 read-write MUX LESENSE controls POSSEL of ACMP0 0 MUXTHRES LESENSE controls POSSEL and reference divider of ACMP0 1 ACMP1INV Invert analog comparator 1 output 25 1 read-write ACMP1MODE ACMP1 mode 22 1 read-write MUX LESENSE controls the POSSEL of ACMP1 0 MUXTHRES LESENSE POSSEL and reference divider of ACMP1 1 DACCH0DATA DAC CH0 data selection. 2 1 read-write DACDATA DAC data is defined by CH0DATA in the DAC interface. 0 THRES DAC data is defined by THRES in CHx_INTERACT. 1 DACCONVTRIG DAC conversion trigger configuration 8 1 read-write CHANNELSTART DAC is enabled before every LESENSE channle measurement. 0 SCANSTART DAC is only enabled once per scan. 1 DACSTARTUP DAC startup configuration 6 1 read-write FULLCYCLE DAC is started a full LESENSECLK before sensor interaction starts. 0 HALFCYCLE DAC is started half a LESENSECLK cycle before sensor interaction starts. 1 PRSCTRL PRS control register 0x20 -1 read-write n 0x0 0x0 DECCMPEN Enable PRS output DECCMP 16 1 read-write DECCMPMASK Decoder state compare value mask 8 5 read-write DECCMPVAL Decoder state compare value 0 5 read-write RESCOUNT Result FIFO Count 0x34 -1 read-only n 0x0 0x0 COUNT Result Fifo Count 0 5 read-only RESFIFO Result Fifo 0x38 -1 read-only n 0x0 0x0 BUFDATASRC Result data and source 0 20 read-only SCANRES Scan result register 0x2C -1 read-only n 0x0 0x0 SCANRES Scan results 0 16 read-only STEPDIR Direction of previous step detection 16 16 read-only SENSORSTATE Decoder input register 0x44 -1 read-only n 0x0 0x0 SENSORSTATE Sensor State 0 4 read-only ST0_ARC No Description 0x200 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST10_ARC No Description 0x228 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST11_ARC No Description 0x22C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST12_ARC No Description 0x230 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST13_ARC No Description 0x234 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST14_ARC No Description 0x238 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST15_ARC No Description 0x23C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST16_ARC No Description 0x240 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST17_ARC No Description 0x244 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST18_ARC No Description 0x248 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST19_ARC No Description 0x24C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST1_ARC No Description 0x204 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST20_ARC No Description 0x250 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST21_ARC No Description 0x254 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST22_ARC No Description 0x258 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST23_ARC No Description 0x25C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST24_ARC No Description 0x260 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST25_ARC No Description 0x264 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST26_ARC No Description 0x268 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST27_ARC No Description 0x26C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST28_ARC No Description 0x270 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST29_ARC No Description 0x274 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST2_ARC No Description 0x208 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST30_ARC No Description 0x278 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST31_ARC No Description 0x27C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST32_ARC No Description 0x280 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST33_ARC No Description 0x284 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST34_ARC No Description 0x288 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST35_ARC No Description 0x28C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST36_ARC No Description 0x290 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST37_ARC No Description 0x294 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST38_ARC No Description 0x298 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST39_ARC No Description 0x29C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST3_ARC No Description 0x20C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST40_ARC No Description 0x2A0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST41_ARC No Description 0x2A4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST42_ARC No Description 0x2A8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST43_ARC No Description 0x2AC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST44_ARC No Description 0x2B0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST45_ARC No Description 0x2B4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST46_ARC No Description 0x2B8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST47_ARC No Description 0x2BC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST48_ARC No Description 0x2C0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST49_ARC No Description 0x2C4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST4_ARC No Description 0x210 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST50_ARC No Description 0x2C8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST51_ARC No Description 0x2CC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST52_ARC No Description 0x2D0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST53_ARC No Description 0x2D4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST54_ARC No Description 0x2D8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST55_ARC No Description 0x2DC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST56_ARC No Description 0x2E0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST57_ARC No Description 0x2E4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST58_ARC No Description 0x2E8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST59_ARC No Description 0x2EC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST5_ARC No Description 0x214 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST60_ARC No Description 0x2F0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST61_ARC No Description 0x2F4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST62_ARC No Description 0x2F8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST63_ARC No Description 0x2FC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST6_ARC No Description 0x218 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST7_ARC No Description 0x21C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST8_ARC No Description 0x220 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST9_ARC No Description 0x224 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write STATUS Status Register 0x30 -1 read-only n 0x0 0x0 FLUSHING FIFO Flushing 6 1 read-only READBUSY FIFO Read Busy 5 1 read-only RESFIFOFULL Result fifo full 1 1 read-only RESFIFOV Result fifo valid 0 1 read-only RUNNING LESENSE periodic counter running 4 1 read-only SCANACTIVE LESENSE scan active 3 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only SYNCBUSY Synchronization Busy Register 0x50 -1 read-only n 0x0 0x0 CMD Command 0 1 read-only TIMCTRL Timing Control Register 0x10 -1 read-write n 0x0 0x0 AUXPRESC Prescaling factor for high frequency tim 0 2 read-write DIV1 High frequency timer is clocked at LESENSEHFCLK/1 0 DIV2 High frequency timer is clocked at LESENSEHFCLK/2 1 DIV4 High frequency timer is clocked at LESENSEHFCLK/4 2 DIV8 High frequency timer is clocked at LESENSEHFCLK/8 3 AUXSTARTUP AUX startup config 28 1 read-write PREDEMAND Request oscillator .5 LESENSECLK cycle before sensing starts 0 ONDEMAND Request oscillator at sensing time 1 LFPRESC Prescaling factor for low frequency time 4 3 read-write DIV1 Low frequency timer is clocked with LESENSECLK/1 0 DIV2 Low frequency timer is clocked with LESENSECLK/2 1 DIV4 Low frequency timer is clocked with LESENSECLK/4 2 DIV8 Low frequency timer is clocked with LESENSECLK/8 3 DIV16 Low frequency timer is clocked with LESENSECLK/16 4 DIV32 Low frequency timer is clocked with LESENSECLK/32 5 DIV64 Low frequency timer is clocked with LESENSECLK/64 6 DIV128 Low frequency timer is clocked with LESENSECLK/128 7 PCPRESC Period counter prescaling 8 3 read-write DIV1 The period counter clock frequency is LESENSECLK/1 0 DIV2 The period counter clock frequency is LESENSECLK/2 1 DIV4 The period counter clock frequency is LESENSECLK/4 2 DIV8 The period counter clock frequency is LESENSECLK/8 3 DIV16 The period counter clock frequency is LESENSECLK/16 4 DIV32 The period counter clock frequency is LESENSECLK/32 5 DIV64 The period counter clock frequency is LESENSECLK/64 6 DIV128 The period counter clock frequency is LESENSECLK/128 7 PCTOP Period counter top value 12 8 read-write STARTDLY Start delay configuration 22 2 read-write LESENSE_S LESENSE_S Registers LESENSE_S 0x0 0x0 0x1000 registers n CFG Configuration Register 0xC -1 read-write n 0x0 0x0 DEBUGRUN Debug Mode Run Enable 17 1 read-write X0 LESENSE can not start new scans in debug mode 0 X1 LESENSE can start new scans in debug mode 1 DMAWU DMA wake-up from EM2 7 1 read-write DISABLE No DMA wake-up from EM2 0 ENABLE DMA wake-up from EM2 when FIFO count is greater or equal to RESFIDL 1 DUALSAMPLE Enable dual sample mode 5 1 read-write RESFIDL Result FIFO level 8 4 read-write SCANCONF Select scan configuration 2 2 read-write DIRMAP The channel configuration register registers used are directly mapped to the channel number. 0 INVMAP The channel configuration register registers used are CHX+8_CONF for channels 0-7 and CHX-8_CONF for channels 8-15. 1 TOGGLE The channel configuration register registers used toggles between CHX_CONF and CHX+8_CONF when channel x triggers 2 DECDEF The decoder state defines the CONF registers to be used. 3 SCANMODE Configure scan mode 0 2 read-write PERIODIC A new scan is started each time the period counter overflows 0 ONESHOT A single scan is performed when START in CMD is set 1 PRS Pulse on PRS channel 2 STRSCANRES Enable storing of SCANRES 6 1 read-write CH0_EVALCFG No Description 0x108 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH0_EVALTHRES No Description 0x10C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH0_INTERACT No Description 0x104 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH0_TIMING No Description 0x100 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH10_EVALCFG No Description 0x1A8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH10_EVALTHRES No Description 0x1AC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH10_INTERACT No Description 0x1A4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH10_TIMING No Description 0x1A0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH11_EVALCFG No Description 0x1B8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH11_EVALTHRES No Description 0x1BC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH11_INTERACT No Description 0x1B4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH11_TIMING No Description 0x1B0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH12_EVALCFG No Description 0x1C8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH12_EVALTHRES No Description 0x1CC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH12_INTERACT No Description 0x1C4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH12_TIMING No Description 0x1C0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH13_EVALCFG No Description 0x1D8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH13_EVALTHRES No Description 0x1DC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH13_INTERACT No Description 0x1D4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH13_TIMING No Description 0x1D0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH14_EVALCFG No Description 0x1E8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH14_EVALTHRES No Description 0x1EC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH14_INTERACT No Description 0x1E4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH14_TIMING No Description 0x1E0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH15_EVALCFG No Description 0x1F8 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH15_EVALTHRES No Description 0x1FC -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH15_INTERACT No Description 0x1F4 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH15_TIMING No Description 0x1F0 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH1_EVALCFG No Description 0x118 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH1_EVALTHRES No Description 0x11C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH1_INTERACT No Description 0x114 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH1_TIMING No Description 0x110 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH2_EVALCFG No Description 0x128 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH2_EVALTHRES No Description 0x12C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH2_INTERACT No Description 0x124 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH2_TIMING No Description 0x120 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH3_EVALCFG No Description 0x138 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH3_EVALTHRES No Description 0x13C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH3_INTERACT No Description 0x134 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH3_TIMING No Description 0x130 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH4_EVALCFG No Description 0x148 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH4_EVALTHRES No Description 0x14C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH4_INTERACT No Description 0x144 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH4_TIMING No Description 0x140 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH5_EVALCFG No Description 0x158 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH5_EVALTHRES No Description 0x15C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH5_INTERACT No Description 0x154 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH5_TIMING No Description 0x150 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH6_EVALCFG No Description 0x168 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH6_EVALTHRES No Description 0x16C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH6_INTERACT No Description 0x164 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH6_TIMING No Description 0x160 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH7_EVALCFG No Description 0x178 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH7_EVALTHRES No Description 0x17C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH7_INTERACT No Description 0x174 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH7_TIMING No Description 0x170 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH8_EVALCFG No Description 0x188 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH8_EVALTHRES No Description 0x18C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH8_INTERACT No Description 0x184 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH8_TIMING No Description 0x180 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CH9_EVALCFG No Description 0x198 -1 read-write n 0x0 0x0 COMP Select mode for threshold comparison 3 1 read-write LESS Comparison evaluates to 1 if sensor data is less than CTRTHRESHOLD, or if the ACMP output is 0 0 GE Comparison evaluates to 1 if sensor data is greater than, or equal to CTRTHRESHOLD, or if the ACMP output is 1 1 DECODE Send result to decoder 2 1 read-write MODE Configure evaluation mode 8 2 read-write THRES Threshold comparison is used to evaluate sensor result 0 SLIDINGWIN Sliding window is used to evaluate sensor result 1 STEPDET Step detection is used to evaluate sensor result 2 SCANRESINV Enable inversion of result 6 1 read-write STRSAMPLE Enable storing of sensor sample in resul 4 2 read-write DISABLE Nothing will be stored in the result buffer. 0 DATA The sensor sample data will be stored in the result buffer. 1 DATASRC The data source, i.e. the channel, will be stored alongside the sensor sample data. 2 CH9_EVALTHRES No Description 0x19C -1 read-write n 0x0 0x0 EVALTHRES Threshold 0 16 read-write CH9_INTERACT No Description 0x194 -1 read-write n 0x0 0x0 ALTEX Use alternative excite pin 18 1 read-write EXCLK Select clock used for excitation timing 20 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 EXMODE Set GPIO mode 16 2 read-write DISABLE Disabled 0 HIGH Push Pull, GPIO is driven high 1 LOW Push Pull, GPIO is driven low 2 DACOUT DAC output 3 OFFSET OFFSET for IADC/ACMP interaction 24 4 read-write SAMPLE Sample mode Selection 28 2 read-write ACMPCOUNT 0 ACMP 1 ADC 2 ADCDIFF 3 SAMPLECLK Select clock used for timing of sample d 19 1 read-write LFACLK LFACLK will be used for timing 0 AUXHFRCO AUXHFRCO will be used for timing 1 SETIF Enable interrupt generation 21 3 read-write NONE No interrupt is generated 0 LEVEL Set interrupt flag if the sensor triggers. 1 POSEDGE Set interrupt flag on positive edge of the sensor state 2 NEGEDGE Set interrupt flag on negative edge of the sensor state 3 BOTHEDGES Set interrupt flag on both edges of the sensor state 4 THRES ACMP threshold or DAC data 0 12 read-write CH9_TIMING No Description 0x190 -1 read-write n 0x0 0x0 EXTIME Set excitation time 0 6 read-write MEASUREDLY Set measure delay 14 10 read-write SAMPLEDLY Set sample delay 6 8 read-write CHEN Channel enable Register 0x28 -1 read-write n 0x0 0x0 CHEN Enable scan channel 0 16 read-write CMD Command Register 0x24 -1 write-only n 0x0 0x0 CLEARBUF Clear result buffer 3 1 write-only DECODE Start decoder 2 1 write-only START Start scanning of sensors. 0 1 write-only STOP Stop scanning of sensors 1 1 write-only CURCH Current channel index 0x3C -1 read-only n 0x0 0x0 CURCH Shows the index of the current channel 0 4 read-only DECCTRL Decoder control Register 0x18 -1 read-write n 0x0 0x0 DECDIS Disable the decoder 0 1 read-write HYSTIRQ Enable decoder hysteresis on interrupt r 6 1 read-write HYSTPRS0 Enable decoder hysteresis on PRS0 output 3 1 read-write HYSTPRS1 Enable decoder hysteresis on PRS1 output 4 1 read-write HYSTPRS2 Enable decoder hysteresis on PRS2 output 5 1 read-write INTMAP Enable decoder to channel interrupt map 2 1 read-write PRSCNT Enable count mode on decoder PRS channel 7 1 read-write DECSTATE Current decoder state 0x40 -1 read-only n 0x0 0x0 DECSTATE Shows the current decoder state 0 5 read-only EN Global Enable of LESENSE functions 0x4 -1 read-write n 0x0 0x0 DISABLING Disabling 1 1 read-only EN Enable 0 1 read-write DISABLE Disable 0 ENABLE Enable 1 EVALCTRL LESENSE evaluation control 0x1C -1 read-write n 0x0 0x0 WINSIZE Sliding window and step detection size 0 16 read-write IDLECONF GPIO Idle phase configuration 0x48 -1 read-write n 0x0 0x0 CHIDLE0 Channel IDLE configuration 0 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE1 Channel IDLE configuration 2 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE10 Channel IDLE configuration 20 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE11 Channel IDLE configuration 22 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE12 Channel IDLE configuration 24 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE13 Channel IDLE configuration 26 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE14 Channel IDLE configuration 28 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE15 Channel IDLE configuration 30 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE2 Channel IDLE configuration 4 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE3 Channel IDLE configuration 6 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE4 Channel IDLE configuration 8 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE5 Channel IDLE configuration 10 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE6 Channel IDLE configuration 12 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE7 Channel IDLE configuration 14 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE8 Channel IDLE configuration 16 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 CHIDLE9 Channel IDLE configuration 18 2 read-write DISABLE CH0 output is disabled in idle phase 0 HIGH CH0 output is high in idle phase 1 LOW CH0 output is low in idle phase 2 DAC CH0 output is connected to DAC output in idle phase 3 IEN Interrupt Enables 0x64 -1 read-write n 0x0 0x0 CH0 Channel 0 1 read-write CH1 Channel 1 1 read-write CH10 Channel 10 1 read-write CH11 Channel 11 1 read-write CH12 Channel 12 1 read-write CH13 Channel 13 1 read-write CH14 Channel 14 1 read-write CH15 Channel 15 1 read-write CH2 Channel 2 1 read-write CH3 Channel 3 1 read-write CH4 Channel 4 1 read-write CH5 Channel 5 1 read-write CH6 Channel 6 1 read-write CH7 Channel 7 1 read-write CH8 Channel 8 1 read-write CH9 Channel 9 1 read-write CNTOF Counter Overflow 20 1 read-write DEC Decoder 17 1 read-write RESOF Result Overflow 19 1 read-write RESUF Result Underflow 21 1 read-write RESWL Result Watermark Level 18 1 read-write SCANDONE Scan Complete 16 1 read-write IF Interrupt Flags 0x60 -1 read-write n 0x0 0x0 CH0 Channel 0 1 read-write CH1 Channel 1 1 read-write CH10 Channel 10 1 read-write CH11 Channel 11 1 read-write CH12 Channel 12 1 read-write CH13 Channel 13 1 read-write CH14 Channel 14 1 read-write CH15 Channel 15 1 read-write CH2 Channel 2 1 read-write CH3 Channel 3 1 read-write CH4 Channel 4 1 read-write CH5 Channel 5 1 read-write CH6 Channel 6 1 read-write CH7 Channel 7 1 read-write CH8 Channel 8 1 read-write CH9 Channel 9 1 read-write CNTOF Counter Overflow 20 1 read-write DEC Decoder 17 1 read-write RESOF Result Overflow 19 1 read-write RESUF Result Underflow 21 1 read-write RESWL Result Watermark Level 18 1 read-write SCANDONE Scan Done 16 1 read-write IPVERSION IPVERSION 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only PERCTRL Peripheral Control Register 0x14 -1 read-write n 0x0 0x0 ACMP0INV Invert analog comparator 0 output 24 1 read-write ACMP0MODE ACMP0 mode 20 1 read-write MUX LESENSE controls POSSEL of ACMP0 0 MUXTHRES LESENSE controls POSSEL and reference divider of ACMP0 1 ACMP1INV Invert analog comparator 1 output 25 1 read-write ACMP1MODE ACMP1 mode 22 1 read-write MUX LESENSE controls the POSSEL of ACMP1 0 MUXTHRES LESENSE POSSEL and reference divider of ACMP1 1 DACCH0DATA DAC CH0 data selection. 2 1 read-write DACDATA DAC data is defined by CH0DATA in the DAC interface. 0 THRES DAC data is defined by THRES in CHx_INTERACT. 1 DACCONVTRIG DAC conversion trigger configuration 8 1 read-write CHANNELSTART DAC is enabled before every LESENSE channle measurement. 0 SCANSTART DAC is only enabled once per scan. 1 DACSTARTUP DAC startup configuration 6 1 read-write FULLCYCLE DAC is started a full LESENSECLK before sensor interaction starts. 0 HALFCYCLE DAC is started half a LESENSECLK cycle before sensor interaction starts. 1 PRSCTRL PRS control register 0x20 -1 read-write n 0x0 0x0 DECCMPEN Enable PRS output DECCMP 16 1 read-write DECCMPMASK Decoder state compare value mask 8 5 read-write DECCMPVAL Decoder state compare value 0 5 read-write RESCOUNT Result FIFO Count 0x34 -1 read-only n 0x0 0x0 COUNT Result Fifo Count 0 5 read-only RESFIFO Result Fifo 0x38 -1 read-only n 0x0 0x0 BUFDATASRC Result data and source 0 20 read-only SCANRES Scan result register 0x2C -1 read-only n 0x0 0x0 SCANRES Scan results 0 16 read-only STEPDIR Direction of previous step detection 16 16 read-only SENSORSTATE Decoder input register 0x44 -1 read-only n 0x0 0x0 SENSORSTATE Sensor State 0 4 read-only ST0_ARC No Description 0x200 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST10_ARC No Description 0x228 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST11_ARC No Description 0x22C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST12_ARC No Description 0x230 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST13_ARC No Description 0x234 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST14_ARC No Description 0x238 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST15_ARC No Description 0x23C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST16_ARC No Description 0x240 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST17_ARC No Description 0x244 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST18_ARC No Description 0x248 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST19_ARC No Description 0x24C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST1_ARC No Description 0x204 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST20_ARC No Description 0x250 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST21_ARC No Description 0x254 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST22_ARC No Description 0x258 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST23_ARC No Description 0x25C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST24_ARC No Description 0x260 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST25_ARC No Description 0x264 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST26_ARC No Description 0x268 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST27_ARC No Description 0x26C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST28_ARC No Description 0x270 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST29_ARC No Description 0x274 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST2_ARC No Description 0x208 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST30_ARC No Description 0x278 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST31_ARC No Description 0x27C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST32_ARC No Description 0x280 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST33_ARC No Description 0x284 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST34_ARC No Description 0x288 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST35_ARC No Description 0x28C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST36_ARC No Description 0x290 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST37_ARC No Description 0x294 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST38_ARC No Description 0x298 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST39_ARC No Description 0x29C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST3_ARC No Description 0x20C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST40_ARC No Description 0x2A0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST41_ARC No Description 0x2A4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST42_ARC No Description 0x2A8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST43_ARC No Description 0x2AC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST44_ARC No Description 0x2B0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST45_ARC No Description 0x2B4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST46_ARC No Description 0x2B8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST47_ARC No Description 0x2BC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST48_ARC No Description 0x2C0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST49_ARC No Description 0x2C4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST4_ARC No Description 0x210 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST50_ARC No Description 0x2C8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST51_ARC No Description 0x2CC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST52_ARC No Description 0x2D0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST53_ARC No Description 0x2D4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST54_ARC No Description 0x2D8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST55_ARC No Description 0x2DC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST56_ARC No Description 0x2E0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST57_ARC No Description 0x2E4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST58_ARC No Description 0x2E8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST59_ARC No Description 0x2EC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST5_ARC No Description 0x214 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST60_ARC No Description 0x2F0 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST61_ARC No Description 0x2F4 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST62_ARC No Description 0x2F8 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST63_ARC No Description 0x2FC -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST6_ARC No Description 0x218 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST7_ARC No Description 0x21C -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST8_ARC No Description 0x220 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write ST9_ARC No Description 0x224 -1 read-write n 0x0 0x0 CURSTATE Current State 8 5 read-write NEXTSTATE Next state index 16 5 read-write PRSACT Configure transition action in normal mode 13 3 read-write NONE No PRS output generated (if PRSCOUNT == 0), or do not count (if PRSCOUNT == 1). 0 PRS0 Pulse generated on LESENSE PRS output 0 (if PRSCOUNT == 0). 1 UP Count Up (if PRSCOUNT == 1). 1 PRS1 Pulse generated on LESENSE PRS output 1 (if PRSCOUNT == 0). 2 DOWN Count Down (if PRSCOUNT == 1). 2 PRS01 Pulse generated on LESENSE PRS output 0 and 1 (if PRSCOUNT == 0). 3 PRS2 Pulse generated on LESENSE PRS output 2. (PRSCOUNT == 0 OR 1). 4 PRS02 Pulse generated on LESENSE PRS output 0 and 2 (if PRSCOUNT == 0). 5 UPANDPRS2 Count Up and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 5 PRS12 Pulse generated on LESENSE PRS output 1 and 2 (if PRSCOUNT == 0). 6 DOWNANDPRS2 Count Down and Pulse generated on LESENSE PRS output 2 (if PRSCOUNT == 1). 6 PRS012 Pulse generated on LESENSE PRS output 0, 1 and 2 (if PRSCOUNT == 0). 7 SCOMP Sensor compare value 0 4 read-write SETIF Set interrupt flag 21 1 read-write SMASK Sensor mask 4 4 read-write STATUS Status Register 0x30 -1 read-only n 0x0 0x0 FLUSHING FIFO Flushing 6 1 read-only READBUSY FIFO Read Busy 5 1 read-only RESFIFOFULL Result fifo full 1 1 read-only RESFIFOV Result fifo valid 0 1 read-only RUNNING LESENSE periodic counter running 4 1 read-only SCANACTIVE LESENSE scan active 3 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only SYNCBUSY Synchronization Busy Register 0x50 -1 read-only n 0x0 0x0 CMD Command 0 1 read-only TIMCTRL Timing Control Register 0x10 -1 read-write n 0x0 0x0 AUXPRESC Prescaling factor for high frequency tim 0 2 read-write DIV1 High frequency timer is clocked at LESENSEHFCLK/1 0 DIV2 High frequency timer is clocked at LESENSEHFCLK/2 1 DIV4 High frequency timer is clocked at LESENSEHFCLK/4 2 DIV8 High frequency timer is clocked at LESENSEHFCLK/8 3 AUXSTARTUP AUX startup config 28 1 read-write PREDEMAND Request oscillator .5 LESENSECLK cycle before sensing starts 0 ONDEMAND Request oscillator at sensing time 1 LFPRESC Prescaling factor for low frequency time 4 3 read-write DIV1 Low frequency timer is clocked with LESENSECLK/1 0 DIV2 Low frequency timer is clocked with LESENSECLK/2 1 DIV4 Low frequency timer is clocked with LESENSECLK/4 2 DIV8 Low frequency timer is clocked with LESENSECLK/8 3 DIV16 Low frequency timer is clocked with LESENSECLK/16 4 DIV32 Low frequency timer is clocked with LESENSECLK/32 5 DIV64 Low frequency timer is clocked with LESENSECLK/64 6 DIV128 Low frequency timer is clocked with LESENSECLK/128 7 PCPRESC Period counter prescaling 8 3 read-write DIV1 The period counter clock frequency is LESENSECLK/1 0 DIV2 The period counter clock frequency is LESENSECLK/2 1 DIV4 The period counter clock frequency is LESENSECLK/4 2 DIV8 The period counter clock frequency is LESENSECLK/8 3 DIV16 The period counter clock frequency is LESENSECLK/16 4 DIV32 The period counter clock frequency is LESENSECLK/32 5 DIV64 The period counter clock frequency is LESENSECLK/64 6 DIV128 The period counter clock frequency is LESENSECLK/128 7 PCTOP Period counter top value 12 8 read-write STARTDLY Start delay configuration 22 2 read-write LETIMER0_NS LETIMER0_NS Registers LETIMER0_NS 0x0 0x0 0x1000 registers n LETIMER0 19 CMD No Description 0x10 -1 write-only n 0x0 0x0 CLEAR Clear LETIMER 2 1 write-only CTO0 Clear Toggle Output 0 3 1 write-only CTO1 Clear Toggle Output 1 4 1 write-only START Start LETIMER 0 1 write-only STOP Stop LETIMER 1 1 write-only CNT No Description 0x18 -1 read-write n 0x0 0x0 CNT Counter Value 0 24 read-write COMP0 No Description 0x1C -1 read-write n 0x0 0x0 COMP0 Compare Value 0 0 24 read-write COMP1 No Description 0x20 -1 read-write n 0x0 0x0 COMP1 Compare Value 1 0 24 read-write CTRL No Description 0xC -1 read-write n 0x0 0x0 BUFTOP Buffered Top 8 1 read-write DISABLE COMP0 is only written by software 0 ENABLE COMP0 is set to COMP1 when REP0 reaches 0 1 CNTPRESC Counter prescaler value 16 4 read-write DIV1 CLK_CNT = (LETIMER LF CLK)/1 0 DIV2 CLK_CNT = (LETIMER LF CLK)/2 1 DIV4 CLK_CNT = (LETIMER LF CLK)/4 2 DIV8 CLK_CNT = (LETIMER LF CLK)/8 3 DIV16 CLK_CNT = (LETIMER LF CLK)/16 4 DIV32 CLK_CNT = (LETIMER LF CLK)/32 5 DIV64 CLK_CNT = (LETIMER LF CLK)/64 6 DIV128 CLK_CNT = (LETIMER LF CLK)/128 7 DIV256 CLK_CNT = (LETIMER LF CLK)/256 8 CNTTOPEN Compare Value 0 Is Top Value 9 1 read-write DISABLE The top value of the LETIMER is 65535 (0xFFFF) 0 ENABLE The top value of the LETIMER is given by COMP0 1 DEBUGRUN Debug Mode Run Enable 12 1 read-write DISABLE LETIMER is frozen in debug mode 0 ENABLE LETIMER is running in debug mode 1 OPOL0 Output 0 Polarity 6 1 read-write OPOL1 Output 1 Polarity 7 1 read-write REPMODE Repeat Mode 0 2 read-write FREE When started, the LETIMER counts down until it is stopped by software 0 ONESHOT The counter counts REP0 times. When REP0 reaches zero, the counter stops 1 BUFFERED The counter counts REP0 times. If REP1 has been written, it is loaded into REP0 when REP0 reaches zero, otherwise the counter stops 2 DOUBLE Both REP0 and REP1 are decremented when the LETIMER wraps around. The LETIMER counts until both REP0 and REP1 are zero 3 UFOA0 Underflow Output Action 0 2 2 read-write NONE LETIMERn_OUT0 is held at its idle value as defined by OPOL0 0 TOGGLE LETIMERn_OUT0 is toggled on CNT underflow 1 PULSE LETIMERn_OUT0 is held active for one LETIMER0 clock cycle on CNT underflow. The output then returns to its idle value as defined by OPOL0 2 PWM LETIMERn_OUT0 is set idle on CNT underflow, and active on compare match with COMP1 3 UFOA1 Underflow Output Action 1 4 2 read-write NONE LETIMERn_OUT1 is held at its idle value as defined by OPOL1 0 TOGGLE LETIMERn_OUT1 is toggled on CNT underflow 1 PULSE LETIMERn_OUT1 is held active for one LETIMER0 clock cycle on CNT underflow. The output then returns to its idle value as defined by OPOL1 2 PWM LETIMERn_OUT1 is set idle on CNT underflow, and active on compare match with COMP1 3 EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN module en 0 1 read-write IEN No Description 0x38 -1 read-write n 0x0 0x0 COMP0 Compare Match 0 Interrupt Enable 0 1 read-write COMP1 Compare Match 1 Interrupt Enable 1 1 read-write REP0 Repeat Counter 0 Interrupt Enable 3 1 read-write REP1 Repeat Counter 1 Interrupt Enable 4 1 read-write UF Underflow Interrupt Enable 2 1 read-write IF No Description 0x34 -1 read-write n 0x0 0x0 COMP0 Compare Match 0 Interrupt Flag 0 1 read-write COMP1 Compare Match 1 Interrupt Flag 1 1 read-write REP0 Repeat Counter 0 Interrupt Flag 3 1 read-write REP1 Repeat Counter 1 Interrupt Flag 4 1 read-write UF Underflow Interrupt Flag 2 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x3C -1 write-only n 0x0 0x0 LETIMERLOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write to unock LETIMER lockable registers 52476 PRSMODE No Description 0x50 -1 read-write n 0x0 0x0 PRSCLEARMODE PRS Clear Mode 26 2 read-write NONE PRS cannot clear the LETIMER 0 RISING Rising edge of selected PRS input can clear the LETIMER 1 FALLING Falling edge of selected PRS input can clear the LETIMER 2 BOTH Both the rising or falling edge of the selected PRS input can clear the LETIMER 3 PRSSTARTMODE PRS Start Mode 18 2 read-write NONE PRS cannot start the LETIMER 0 RISING Rising edge of selected PRS input can start the LETIMER 1 FALLING Falling edge of selected PRS input can start the LETIMER 2 BOTH Both the rising or falling edge of the selected PRS input can start the LETIMER 3 PRSSTOPMODE PRS Stop Mode 22 2 read-write NONE PRS cannot stop the LETIMER 0 RISING Rising edge of selected PRS input can stop the LETIMER 1 FALLING Falling edge of selected PRS input can stop the LETIMER 2 BOTH Both the rising or falling edge of the selected PRS input can stop the LETIMER 3 REP0 No Description 0x2C -1 read-write n 0x0 0x0 REP0 Repeat Counter 0 0 8 read-write REP1 No Description 0x30 -1 read-write n 0x0 0x0 REP1 Repeat Counter 1 0 8 read-write STATUS No Description 0x14 -1 read-only n 0x0 0x0 LETIMERLOCKSTATUS LETIMER Lock Status 1 1 read-only UNLOCKED LETIMER registers are unlocked 0 LOCKED LETIMER registers are locked 1 RUNNING LETIMER Running 0 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only SYNCBUSY No Description 0x40 -1 read-only n 0x0 0x0 CLEAR Sync busy for CLEAR 7 1 read-only CNT Sync busy for CNT 0 1 read-only CTO0 Sync busy for CTO0 8 1 read-only CTO1 Sync busy for CTO1 9 1 read-only REP0 Sync busy for REP0 3 1 read-only REP1 Sync busy for REP1 4 1 read-only START Sync busy for START 5 1 read-only STOP Sync busy for STOP 6 1 read-only TOP Sync busy for TOP 2 1 read-only TOP No Description 0x24 -1 read-write n 0x0 0x0 TOP Counter TOP Value 0 24 read-write TOPBUFF No Description 0x28 -1 read-write n 0x0 0x0 TOPBUFF Buffered Counter TOP Value 0 24 read-write LETIMER0_S LETIMER0_S Registers LETIMER0_S 0x0 0x0 0x1000 registers n LETIMER0 19 CMD No Description 0x10 -1 write-only n 0x0 0x0 CLEAR Clear LETIMER 2 1 write-only CTO0 Clear Toggle Output 0 3 1 write-only CTO1 Clear Toggle Output 1 4 1 write-only START Start LETIMER 0 1 write-only STOP Stop LETIMER 1 1 write-only CNT No Description 0x18 -1 read-write n 0x0 0x0 CNT Counter Value 0 24 read-write COMP0 No Description 0x1C -1 read-write n 0x0 0x0 COMP0 Compare Value 0 0 24 read-write COMP1 No Description 0x20 -1 read-write n 0x0 0x0 COMP1 Compare Value 1 0 24 read-write CTRL No Description 0xC -1 read-write n 0x0 0x0 BUFTOP Buffered Top 8 1 read-write DISABLE COMP0 is only written by software 0 ENABLE COMP0 is set to COMP1 when REP0 reaches 0 1 CNTPRESC Counter prescaler value 16 4 read-write DIV1 CLK_CNT = (LETIMER LF CLK)/1 0 DIV2 CLK_CNT = (LETIMER LF CLK)/2 1 DIV4 CLK_CNT = (LETIMER LF CLK)/4 2 DIV8 CLK_CNT = (LETIMER LF CLK)/8 3 DIV16 CLK_CNT = (LETIMER LF CLK)/16 4 DIV32 CLK_CNT = (LETIMER LF CLK)/32 5 DIV64 CLK_CNT = (LETIMER LF CLK)/64 6 DIV128 CLK_CNT = (LETIMER LF CLK)/128 7 DIV256 CLK_CNT = (LETIMER LF CLK)/256 8 CNTTOPEN Compare Value 0 Is Top Value 9 1 read-write DISABLE The top value of the LETIMER is 65535 (0xFFFF) 0 ENABLE The top value of the LETIMER is given by COMP0 1 DEBUGRUN Debug Mode Run Enable 12 1 read-write DISABLE LETIMER is frozen in debug mode 0 ENABLE LETIMER is running in debug mode 1 OPOL0 Output 0 Polarity 6 1 read-write OPOL1 Output 1 Polarity 7 1 read-write REPMODE Repeat Mode 0 2 read-write FREE When started, the LETIMER counts down until it is stopped by software 0 ONESHOT The counter counts REP0 times. When REP0 reaches zero, the counter stops 1 BUFFERED The counter counts REP0 times. If REP1 has been written, it is loaded into REP0 when REP0 reaches zero, otherwise the counter stops 2 DOUBLE Both REP0 and REP1 are decremented when the LETIMER wraps around. The LETIMER counts until both REP0 and REP1 are zero 3 UFOA0 Underflow Output Action 0 2 2 read-write NONE LETIMERn_OUT0 is held at its idle value as defined by OPOL0 0 TOGGLE LETIMERn_OUT0 is toggled on CNT underflow 1 PULSE LETIMERn_OUT0 is held active for one LETIMER0 clock cycle on CNT underflow. The output then returns to its idle value as defined by OPOL0 2 PWM LETIMERn_OUT0 is set idle on CNT underflow, and active on compare match with COMP1 3 UFOA1 Underflow Output Action 1 4 2 read-write NONE LETIMERn_OUT1 is held at its idle value as defined by OPOL1 0 TOGGLE LETIMERn_OUT1 is toggled on CNT underflow 1 PULSE LETIMERn_OUT1 is held active for one LETIMER0 clock cycle on CNT underflow. The output then returns to its idle value as defined by OPOL1 2 PWM LETIMERn_OUT1 is set idle on CNT underflow, and active on compare match with COMP1 3 EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN module en 0 1 read-write IEN No Description 0x38 -1 read-write n 0x0 0x0 COMP0 Compare Match 0 Interrupt Enable 0 1 read-write COMP1 Compare Match 1 Interrupt Enable 1 1 read-write REP0 Repeat Counter 0 Interrupt Enable 3 1 read-write REP1 Repeat Counter 1 Interrupt Enable 4 1 read-write UF Underflow Interrupt Enable 2 1 read-write IF No Description 0x34 -1 read-write n 0x0 0x0 COMP0 Compare Match 0 Interrupt Flag 0 1 read-write COMP1 Compare Match 1 Interrupt Flag 1 1 read-write REP0 Repeat Counter 0 Interrupt Flag 3 1 read-write REP1 Repeat Counter 1 Interrupt Flag 4 1 read-write UF Underflow Interrupt Flag 2 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x3C -1 write-only n 0x0 0x0 LETIMERLOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write to unock LETIMER lockable registers 52476 PRSMODE No Description 0x50 -1 read-write n 0x0 0x0 PRSCLEARMODE PRS Clear Mode 26 2 read-write NONE PRS cannot clear the LETIMER 0 RISING Rising edge of selected PRS input can clear the LETIMER 1 FALLING Falling edge of selected PRS input can clear the LETIMER 2 BOTH Both the rising or falling edge of the selected PRS input can clear the LETIMER 3 PRSSTARTMODE PRS Start Mode 18 2 read-write NONE PRS cannot start the LETIMER 0 RISING Rising edge of selected PRS input can start the LETIMER 1 FALLING Falling edge of selected PRS input can start the LETIMER 2 BOTH Both the rising or falling edge of the selected PRS input can start the LETIMER 3 PRSSTOPMODE PRS Stop Mode 22 2 read-write NONE PRS cannot stop the LETIMER 0 RISING Rising edge of selected PRS input can stop the LETIMER 1 FALLING Falling edge of selected PRS input can stop the LETIMER 2 BOTH Both the rising or falling edge of the selected PRS input can stop the LETIMER 3 REP0 No Description 0x2C -1 read-write n 0x0 0x0 REP0 Repeat Counter 0 0 8 read-write REP1 No Description 0x30 -1 read-write n 0x0 0x0 REP1 Repeat Counter 1 0 8 read-write STATUS No Description 0x14 -1 read-only n 0x0 0x0 LETIMERLOCKSTATUS LETIMER Lock Status 1 1 read-only UNLOCKED LETIMER registers are unlocked 0 LOCKED LETIMER registers are locked 1 RUNNING LETIMER Running 0 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only SYNCBUSY No Description 0x40 -1 read-only n 0x0 0x0 CLEAR Sync busy for CLEAR 7 1 read-only CNT Sync busy for CNT 0 1 read-only CTO0 Sync busy for CTO0 8 1 read-only CTO1 Sync busy for CTO1 9 1 read-only REP0 Sync busy for REP0 3 1 read-only REP1 Sync busy for REP1 4 1 read-only START Sync busy for START 5 1 read-only STOP Sync busy for STOP 6 1 read-only TOP Sync busy for TOP 2 1 read-only TOP No Description 0x24 -1 read-write n 0x0 0x0 TOP Counter TOP Value 0 24 read-write TOPBUFF No Description 0x28 -1 read-write n 0x0 0x0 TOPBUFF Buffered Counter TOP Value 0 24 read-write LFRCO_NS LFRCO_NS Registers LFRCO_NS 0x0 0x0 0x1000 registers n LFRCO 24 CAL Calibration register 0xC -1 read-write n 0x0 0x0 FREQTRIM Frequency Trim 0 8 read-write CTRL Control register 0x4 -1 read-write n 0x0 0x0 DISONDEMAND Disable On-Demand 1 1 read-write FORCEEN Force Enable 0 1 read-write IEN Interrupt enable register. 0x18 -1 read-write n 0x0 0x0 NEGEDGE Falling Edge Interrupt Enable 2 1 read-write POSEDGE Rising Edge Interrupt Enable 1 1 read-write RDY Ready Interrupt Enable 0 1 read-write IF Interrupt flag register 0x14 -1 read-write n 0x0 0x0 NEGEDGE Falling Edge Interrupt Flag 2 1 read-write POSEDGE Rising Edge Interrupt Flag 1 1 read-write RDY Ready Interrupt Flag 0 1 read-write IPVERSION Contains the LFRCO ip version. 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only LOCK Configuration lock register. Locks/unlocks access to cofiguration registers. 0x20 -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only LOCK Lock Configuration Registers 0 UNLOCK Unlock Configuaration Registers 9731 STATUS Status register 0x8 -1 read-only n 0x0 0x0 ENS Enabled Status 16 1 read-only LOCK Lock Status 31 1 read-only UNLOCKED Access to configuration registers not locked 0 LOCKED Access to configuration registers locked 1 RDY Ready Status 0 1 read-only SYNCBUSY Synchronization busy register 0x1C -1 read-only n 0x0 0x0 CAL CAL Busy 0 1 read-only LFRCO_S LFRCO_S Registers LFRCO_S 0x0 0x0 0x1000 registers n LFRCO 24 CAL Calibration register 0xC -1 read-write n 0x0 0x0 FREQTRIM Frequency Trim 0 8 read-write CTRL Control register 0x4 -1 read-write n 0x0 0x0 DISONDEMAND Disable On-Demand 1 1 read-write FORCEEN Force Enable 0 1 read-write IEN Interrupt enable register. 0x18 -1 read-write n 0x0 0x0 NEGEDGE Falling Edge Interrupt Enable 2 1 read-write POSEDGE Rising Edge Interrupt Enable 1 1 read-write RDY Ready Interrupt Enable 0 1 read-write IF Interrupt flag register 0x14 -1 read-write n 0x0 0x0 NEGEDGE Falling Edge Interrupt Flag 2 1 read-write POSEDGE Rising Edge Interrupt Flag 1 1 read-write RDY Ready Interrupt Flag 0 1 read-write IPVERSION Contains the LFRCO ip version. 0x0 -1 read-only n 0x0 0x0 IPVERSION IP version ID 0 32 read-only LOCK Configuration lock register. Locks/unlocks access to cofiguration registers. 0x20 -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only LOCK Lock Configuration Registers 0 UNLOCK Unlock Configuaration Registers 9731 STATUS Status register 0x8 -1 read-only n 0x0 0x0 ENS Enabled Status 16 1 read-only LOCK Lock Status 31 1 read-only UNLOCKED Access to configuration registers not locked 0 LOCKED Access to configuration registers locked 1 RDY Ready Status 0 1 read-only SYNCBUSY Synchronization busy register 0x1C -1 read-only n 0x0 0x0 CAL CAL Busy 0 1 read-only LFXO_NS LFXO_NS Registers LFXO_NS 0x0 0x0 0x1000 registers n LFXO 23 CAL Do not write to this register unless CALBSY in SYNCBUSY register is low. 0x14 -1 read-write n 0x0 0x0 CAPTUNE Internal Capacitance Tuning 0 7 read-write GAIN LFXO Startup Gain 8 2 read-write CFG Do not write to this register unless the oscillator is forced off. The oscillator is forced off if DISONDEMAND is set and FORCEEN is cleared. 0x8 -1 read-write n 0x0 0x0 AGC LFXO AGC Enable 0 1 read-write HIGHAMPL LFXO High Amplitude Enable 1 1 read-write MODE LFXO Mode 4 2 read-write XTAL A 32768Hz crystal should be connected to the LF crystal pads. Voltage must not exceed VDDIO. 0 BUFEXTCLK An external sine source with minimum amplitude 100mv (zero-to-peak) and maximum amplitude 500mV (zero-to-peak) should be connected in series with LFXTAL_I pin. Minimum voltage should be larger than ground and maximum voltage smaller than VDDIO. The sine source does not need to be ac coupled externally as it is ac couples inside LFXO. LFXTAL_O is free to be used as a general purpose GPIO. 1 DIGEXTCLK An external 32KHz CMOS clock should be provided on LFXTAL_I. LFXTAL_O is free to be used as a general purpose GPIO. 2 TIMEOUT LFXO Start-up Delay 8 3 read-write CYCLES2 Timeout period of 2 cycles 0 CYCLES256 Timeout period of 256 cycles 1 CYCLES1K Timeout period of 1024 cycles 2 CYCLES2K Timeout period of 2048 cycles 3 CYCLES4K Timeout period of 4096 cycles 4 CYCLES8K Timeout period of 8192 cycles 5 CYCLES16K Timeout period of 16384 cycles 6 CYCLES32K Timeout period of 32768 cycles 7 CTRL No Description 0x4 -1 read-write n 0x0 0x0 DISONDEMAND LFXO Disable On-demand requests 1 1 read-write FAILDETEM4WUEN LFXO Failure Detection EM4WU Enable 5 1 read-write FAILDETEN LFXO Failure Detection Enable 4 1 read-write FORCEEN LFXO Force Enable 0 1 read-write IEN No Description 0x1C -1 read-write n 0x0 0x0 FAIL LFXO Failure Interrupt Enable 3 1 read-write NEGEDGE Falling Edge Interrupt Enable 2 1 read-write POSEDGE Rising Edge Interrupt Enable 1 1 read-write RDY LFXO Ready Interrupt Enable 0 1 read-write IF No Description 0x18 -1 read-write n 0x0 0x0 FAIL LFXO Failure Interrupt Flag 3 1 read-write NEGEDGE Falling Edge Interrupt Flag 2 1 read-write POSEDGE Rising Edge Interrupt Flag 1 1 read-write RDY LFXO Ready Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x24 -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only UNLOCK Unlock LFXO lockable registers 6688 STATUS No Description 0x10 -1 read-only n 0x0 0x0 ENS LFXO Enable Status 16 1 read-only LOCK LFXO Locked Status 31 1 read-only UNLOCKED LFXO lockable registers are not locked 0 LOCKED LFXO lockable registers are locked 1 RDY LFXO Ready Status 0 1 read-only SYNCBUSY No Description 0x20 -1 read-only n 0x0 0x0 CAL LFXO Synchronization status 0 1 read-only LFXO_S LFXO_S Registers LFXO_S 0x0 0x0 0x1000 registers n LFXO 23 CAL Do not write to this register unless CALBSY in SYNCBUSY register is low. 0x14 -1 read-write n 0x0 0x0 CAPTUNE Internal Capacitance Tuning 0 7 read-write GAIN LFXO Startup Gain 8 2 read-write CFG Do not write to this register unless the oscillator is forced off. The oscillator is forced off if DISONDEMAND is set and FORCEEN is cleared. 0x8 -1 read-write n 0x0 0x0 AGC LFXO AGC Enable 0 1 read-write HIGHAMPL LFXO High Amplitude Enable 1 1 read-write MODE LFXO Mode 4 2 read-write XTAL A 32768Hz crystal should be connected to the LF crystal pads. Voltage must not exceed VDDIO. 0 BUFEXTCLK An external sine source with minimum amplitude 100mv (zero-to-peak) and maximum amplitude 500mV (zero-to-peak) should be connected in series with LFXTAL_I pin. Minimum voltage should be larger than ground and maximum voltage smaller than VDDIO. The sine source does not need to be ac coupled externally as it is ac couples inside LFXO. LFXTAL_O is free to be used as a general purpose GPIO. 1 DIGEXTCLK An external 32KHz CMOS clock should be provided on LFXTAL_I. LFXTAL_O is free to be used as a general purpose GPIO. 2 TIMEOUT LFXO Start-up Delay 8 3 read-write CYCLES2 Timeout period of 2 cycles 0 CYCLES256 Timeout period of 256 cycles 1 CYCLES1K Timeout period of 1024 cycles 2 CYCLES2K Timeout period of 2048 cycles 3 CYCLES4K Timeout period of 4096 cycles 4 CYCLES8K Timeout period of 8192 cycles 5 CYCLES16K Timeout period of 16384 cycles 6 CYCLES32K Timeout period of 32768 cycles 7 CTRL No Description 0x4 -1 read-write n 0x0 0x0 DISONDEMAND LFXO Disable On-demand requests 1 1 read-write FAILDETEM4WUEN LFXO Failure Detection EM4WU Enable 5 1 read-write FAILDETEN LFXO Failure Detection Enable 4 1 read-write FORCEEN LFXO Force Enable 0 1 read-write IEN No Description 0x1C -1 read-write n 0x0 0x0 FAIL LFXO Failure Interrupt Enable 3 1 read-write NEGEDGE Falling Edge Interrupt Enable 2 1 read-write POSEDGE Rising Edge Interrupt Enable 1 1 read-write RDY LFXO Ready Interrupt Enable 0 1 read-write IF No Description 0x18 -1 read-write n 0x0 0x0 FAIL LFXO Failure Interrupt Flag 3 1 read-write NEGEDGE Falling Edge Interrupt Flag 2 1 read-write POSEDGE Rising Edge Interrupt Flag 1 1 read-write RDY LFXO Ready Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x24 -1 write-only n 0x0 0x0 LOCKKEY Lock Key 0 16 write-only UNLOCK Unlock LFXO lockable registers 6688 STATUS No Description 0x10 -1 read-only n 0x0 0x0 ENS LFXO Enable Status 16 1 read-only LOCK LFXO Locked Status 31 1 read-only UNLOCKED LFXO lockable registers are not locked 0 LOCKED LFXO lockable registers are locked 1 RDY LFXO Ready Status 0 1 read-only SYNCBUSY No Description 0x20 -1 read-only n 0x0 0x0 CAL LFXO Synchronization status 0 1 read-only MSC_NS MSC_NS Registers MSC_NS 0x0 0x0 0x1000 registers n MSC 51 ADDRB No Description 0x14 -1 read-write n 0x0 0x0 ADDRB Page Erase or Write Address Buffer 0 32 read-write CMD No Description 0x38 -1 write-only n 0x0 0x0 PWROFF Flash power off/sleep command 4 1 write-only PWRUP Flash Power Up Command 0 1 write-only IEN No Description 0x24 -1 read-write n 0x0 0x0 ERASE Erase Done Interrupt enable 0 1 read-write PWROFF Flash Power Off Seq done irq enable 9 1 read-write PWRUPF Flash Power Up Seq done irq enable 8 1 read-write WDATAOV write data buffer overflow irq enable 2 1 read-write WRITE Write Done Interrupt enable 1 1 read-write IF No Description 0x20 -1 read-write n 0x0 0x0 ERASE Host Erase Done Interrupt Read Flag 0 1 read-write PWROFF Flash Power Off Sequence Complete Flag 9 1 read-write PWRUPF Flash Power Up Sequence Complete Flag 8 1 read-write WDATAOV Host write buffer overflow 2 1 read-write WRITE Host Write Done Interrupt Read Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x3C -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock 0 16 write-only LOCK 0 UNLOCK 7025 MISCLOCKWORD No Description 0x40 -1 read-write n 0x0 0x0 MELOCKBIT Mass Erase Lock 0 1 read-write UDLOCKBIT User Data Lock 4 1 read-write PAGELOCK0 No Description 0x120 -1 read-write n 0x0 0x0 LOCKBIT page lock bit 0 32 read-write PAGELOCK1 No Description 0x124 -1 read-write n 0x0 0x0 LOCKBIT page lock bit 0 32 read-write PWRCTRL No Description 0x50 -1 read-write n 0x0 0x0 PWROFFDLY Power down delay 16 8 read-write PWROFFENTRYAGAIN POWER down flash again in EM1/EM1p 4 1 read-write PWROFFONEM1ENTRY Power down Flash macro when enter EM1 0 1 read-write PWROFFONEM1PENTRY Power down Flash macro when enter EM1P 1 1 read-write RDATACTRL No Description 0x8 -1 read-write n 0x0 0x0 AFDIS Automatic Invalidate Disable 1 1 read-write DOUTBUFEN Flash dout pipeline buffer enable 12 1 read-write READCTRL No Description 0x4 -1 read-write n 0x0 0x0 MODE Read Mode 20 2 read-write WS0 Zero wait-states inserted in fetch or read transfers 0 WS1 One wait-state inserted for each fetch or read transfer. See Flash Wait-States table for details 1 WS2 Two wait-states inserted for eatch fetch or read transfer. See Flash Wait-States table for details 2 WS3 Three wait-states inserted for eatch fetch or read transfer. See Flash Wait-States table for details 3 STATUS No Description 0x1C -1 read-only n 0x0 0x0 BUSY Erase/Write Busy 0 1 read-only ERASEABORTED The Current Flash Erase Operation Aborte 4 1 read-only INVADDR Invalid Write Address or Erase Page 2 1 read-only LOCKED Access Locked 1 1 read-only PENDING Write command is in queue 5 1 read-only PWRON Flash power on status 24 1 read-only PWRUPCKBDFAILCOUNT Flash power up checkerboard pattern chec 28 4 read-only RANGEPARTIAL EraseRange with skipped locked pages 7 1 read-only REGLOCK Register Lock Status 16 1 read-only UNLOCKED 0 LOCKED 1 TIMEOUT Write command timeout flag 6 1 read-only WDATAREADY WDATA Write Ready 3 1 read-only WREADY Flash Write Ready 27 1 read-only USERDATASIZE No Description 0x34 -1 read-only n 0x0 0x0 USERDATASIZE User Data Size 0 6 read-only WDATA No Description 0x18 -1 read-write n 0x0 0x0 DATAW Write Data 0 32 read-write WRITECMD No Description 0x10 -1 write-only n 0x0 0x0 CLEARWDATA Clear WDATA state 12 1 write-only ERASEABORT Abort erase sequence 5 1 write-only ERASEMAIN0 Mass erase region 0 8 1 write-only ERASEPAGE Erase Page 1 1 write-only ERASERANGE Erase range of pages 4 1 write-only WRITEEND End Write Mode 2 1 write-only WRITECTRL No Description 0xC -1 read-write n 0x0 0x0 IRQERASEABORT Abort Page Erase on Interrupt 1 1 read-write LPWRITE Low-Power Erase 3 1 read-write RANGECOUNT ErageRange Count 16 8 read-write WREN Enable Write/Erase Controller 0 1 read-write MSC_S MSC_S Registers MSC_S 0x0 0x0 0x1000 registers n MSC 51 ADDRB No Description 0x14 -1 read-write n 0x0 0x0 ADDRB Page Erase or Write Address Buffer 0 32 read-write CMD No Description 0x38 -1 write-only n 0x0 0x0 PWROFF Flash power off/sleep command 4 1 write-only PWRUP Flash Power Up Command 0 1 write-only IEN No Description 0x24 -1 read-write n 0x0 0x0 ERASE Erase Done Interrupt enable 0 1 read-write PWROFF Flash Power Off Seq done irq enable 9 1 read-write PWRUPF Flash Power Up Seq done irq enable 8 1 read-write WDATAOV write data buffer overflow irq enable 2 1 read-write WRITE Write Done Interrupt enable 1 1 read-write IF No Description 0x20 -1 read-write n 0x0 0x0 ERASE Host Erase Done Interrupt Read Flag 0 1 read-write PWROFF Flash Power Off Sequence Complete Flag 9 1 read-write PWRUPF Flash Power Up Sequence Complete Flag 8 1 read-write WDATAOV Host write buffer overflow 2 1 read-write WRITE Host Write Done Interrupt Read Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x3C -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock 0 16 write-only LOCK 0 UNLOCK 7025 MISCLOCKWORD No Description 0x40 -1 read-write n 0x0 0x0 MELOCKBIT Mass Erase Lock 0 1 read-write UDLOCKBIT User Data Lock 4 1 read-write PAGELOCK0 No Description 0x120 -1 read-write n 0x0 0x0 LOCKBIT page lock bit 0 32 read-write PAGELOCK1 No Description 0x124 -1 read-write n 0x0 0x0 LOCKBIT page lock bit 0 32 read-write PWRCTRL No Description 0x50 -1 read-write n 0x0 0x0 PWROFFDLY Power down delay 16 8 read-write PWROFFENTRYAGAIN POWER down flash again in EM1/EM1p 4 1 read-write PWROFFONEM1ENTRY Power down Flash macro when enter EM1 0 1 read-write PWROFFONEM1PENTRY Power down Flash macro when enter EM1P 1 1 read-write RDATACTRL No Description 0x8 -1 read-write n 0x0 0x0 AFDIS Automatic Invalidate Disable 1 1 read-write DOUTBUFEN Flash dout pipeline buffer enable 12 1 read-write READCTRL No Description 0x4 -1 read-write n 0x0 0x0 MODE Read Mode 20 2 read-write WS0 Zero wait-states inserted in fetch or read transfers 0 WS1 One wait-state inserted for each fetch or read transfer. See Flash Wait-States table for details 1 WS2 Two wait-states inserted for eatch fetch or read transfer. See Flash Wait-States table for details 2 WS3 Three wait-states inserted for eatch fetch or read transfer. See Flash Wait-States table for details 3 STATUS No Description 0x1C -1 read-only n 0x0 0x0 BUSY Erase/Write Busy 0 1 read-only ERASEABORTED The Current Flash Erase Operation Aborte 4 1 read-only INVADDR Invalid Write Address or Erase Page 2 1 read-only LOCKED Access Locked 1 1 read-only PENDING Write command is in queue 5 1 read-only PWRON Flash power on status 24 1 read-only PWRUPCKBDFAILCOUNT Flash power up checkerboard pattern chec 28 4 read-only RANGEPARTIAL EraseRange with skipped locked pages 7 1 read-only REGLOCK Register Lock Status 16 1 read-only UNLOCKED 0 LOCKED 1 TIMEOUT Write command timeout flag 6 1 read-only WDATAREADY WDATA Write Ready 3 1 read-only WREADY Flash Write Ready 27 1 read-only USERDATASIZE No Description 0x34 -1 read-only n 0x0 0x0 USERDATASIZE User Data Size 0 6 read-only WDATA No Description 0x18 -1 read-write n 0x0 0x0 DATAW Write Data 0 32 read-write WRITECMD No Description 0x10 -1 write-only n 0x0 0x0 CLEARWDATA Clear WDATA state 12 1 write-only ERASEABORT Abort erase sequence 5 1 write-only ERASEMAIN0 Mass erase region 0 8 1 write-only ERASEPAGE Erase Page 1 1 write-only ERASERANGE Erase range of pages 4 1 write-only WRITEEND End Write Mode 2 1 write-only WRITECTRL No Description 0xC -1 read-write n 0x0 0x0 IRQERASEABORT Abort Page Erase on Interrupt 1 1 read-write LPWRITE Low-Power Erase 3 1 read-write RANGECOUNT ErageRange Count 16 8 read-write WREN Enable Write/Erase Controller 0 1 read-write PCNT0_NS PCNT0_NS Registers PCNT0_NS 0x0 0x0 0x1000 registers n PCNT0 56 AUXCNT No Description 0x28 -1 read-only n 0x0 0x0 AUXCNT Auxiliary Counter Value 0 16 read-only CFG No Description 0xC -1 read-write n 0x0 0x0 DEBUGHALT Debug Mode Halt Enable 4 1 read-write DISABLE PCNT is running in debug mode. 0 ENABLE PCNT is frozen in debug mode. 1 FILTEN Enable Digital Pulse Width Filter 5 1 read-write HYST Enable Hysteresis 6 1 read-write MODE Mode Select 0 3 read-write OVSSINGLE Single input EM23GRPACLK oversampling mode (available in EM0-EM3). 0 EXTCLKSINGLE Externally clocked single input counter mode (available in EM0-EM3). 1 EXTCLKQUAD Externally clocked quadrature decoder mode (available in EM0-EM3). 2 OVSQUAD1X EM23GRPACLK oversampling quadrature decoder 1X mode (available in EM0-EM3). 3 OVSQUAD2X EM23GRPACLK oversampling quadrature decoder 2X mode (available in EM0-EM3). 4 OVSQUAD4X EM23GRPACLK oversampling quadrature decoder 4X mode (available in EM0-EM3). 5 S0PRSEN S0IN PRS Enable 8 1 read-write S1PRSEN S1IN PRS Enable 9 1 read-write CMD No Description 0x14 -1 write-only n 0x0 0x0 AUXCNTRST AUXCNT Reset 2 1 write-only CNTRST CNT Reset 1 1 write-only CORERST PCNT Clock Domain Reset 0 1 write-only LCNTIM Load CNT Immediately 4 1 write-only STARTAUXCNT Start Aux Counter 9 1 write-only STARTCNT Start Main Counter 8 1 write-only STOPAUXCNT Stop Aux Counter 11 1 write-only STOPCNT Stop Main Counter 10 1 write-only CNT No Description 0x24 -1 read-only n 0x0 0x0 CNT Counter Value 0 16 read-only CTRL No Description 0x10 -1 read-write n 0x0 0x0 AUXCNTEV Controls When the Aux Counter Counts 6 2 read-write BOTH Counts up on both up-count and down-count events. 0 UP Counts up on up-count events. 1 DOWN Counts up on down-count events. 2 CNTDIR Non-Quadrature Mode Counter Direction Co 1 1 read-write UP Up counter mode. 0 DOWN Down counter mode. 1 CNTEV Controls When the Counter Counts 4 2 read-write BOTH Counts up on up-count and down on down-count events. 0 UP Only counts up on up-count events. 1 DOWN Only counts down on down-count events. 2 EDGE Edge Select 2 1 read-write POS Positive edges on the PCNTn_S0IN inputs are counted in OVSSINGLE mode. Does not invert PCNTn_S1IN input in OVSSINGLE and EXTCLKSINGLE modes 0 NEG Negative edges on the PCNTn_S0IN inputs are counted in OVSSINGLE mode. Inverts the PCNTn_S1IN input in OVSSINGLE and EXTCLKSINGLE modes 1 S1CDIR Count Direction Determined By S1 0 1 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN PCNT Module Enable 0 1 read-write IEN No Description 0x20 -1 read-write n 0x0 0x0 AUXOF Auxiliary Overflow Interrupt Read Flag 3 1 read-write DIRCNG Direction Change Detect Interrupt Flag 2 1 read-write OF Overflow Interrupt Read Flag 1 1 read-write OQSTERR Oversampling Quad State Err Int Flag 4 1 read-write UF Underflow Interrupt Read Flag 0 1 read-write IF No Description 0x1C -1 read-write n 0x0 0x0 AUXOF Auxiliary Overflow Interrupt Read Flag 3 1 read-write DIRCNG Direction Change Detect Interrupt Flag 2 1 read-write OF Overflow Interrupt Read Flag 1 1 read-write OQSTERR Oversampling Quad State Err Int Flag 4 1 read-write UF Underflow Interrupt Read Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP VERSION 0 32 read-only LOCK No Description 0x3C -1 write-only n 0x0 0x0 PCNTLOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write to unock PCNT lockable registers 42976 OVSCTRL No Description 0x34 -1 read-write n 0x0 0x0 FILTLEN Configure Filter Length for Inputs S0IN 0 8 read-write FLUTTERRM Flutter Remove 12 1 read-write STATUS No Description 0x18 -1 read-only n 0x0 0x0 AUXCNTRUNNING Aux Counter running status 4 1 read-only CNTRUNNING Main Counter running status 3 1 read-only DIR Current Counter Direction 0 1 read-only UP Up counter mode (clockwise in EXTCLKQUAD mode with the EDGE bit in PCNTn_CTRL set to 0). 0 DOWN Down counter mode. 1 PCNTLOCKSTATUS Lock Status 2 1 read-only UNLOCKED PCNT registers are unlocked 0 LOCKED PCNT registers are locked 1 TOPBV TOP Buffer Valid 1 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only SYNCBUSY No Description 0x38 -1 read-only n 0x0 0x0 CMD CMD Register Busy 1 1 read-only CTRL CTRL Register Busy 0 1 read-only OVSCTRL OVSCTRL Register Busy 4 1 read-only TOP TOP Register Busy 2 1 read-only TOPB TOPB Register Busy 3 1 read-only TOP No Description 0x2C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 16 read-write TOPB No Description 0x30 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 16 read-write PCNT0_S PCNT0_S Registers PCNT0_S 0x0 0x0 0x1000 registers n PCNT0 56 AUXCNT No Description 0x28 -1 read-only n 0x0 0x0 AUXCNT Auxiliary Counter Value 0 16 read-only CFG No Description 0xC -1 read-write n 0x0 0x0 DEBUGHALT Debug Mode Halt Enable 4 1 read-write DISABLE PCNT is running in debug mode. 0 ENABLE PCNT is frozen in debug mode. 1 FILTEN Enable Digital Pulse Width Filter 5 1 read-write HYST Enable Hysteresis 6 1 read-write MODE Mode Select 0 3 read-write OVSSINGLE Single input EM23GRPACLK oversampling mode (available in EM0-EM3). 0 EXTCLKSINGLE Externally clocked single input counter mode (available in EM0-EM3). 1 EXTCLKQUAD Externally clocked quadrature decoder mode (available in EM0-EM3). 2 OVSQUAD1X EM23GRPACLK oversampling quadrature decoder 1X mode (available in EM0-EM3). 3 OVSQUAD2X EM23GRPACLK oversampling quadrature decoder 2X mode (available in EM0-EM3). 4 OVSQUAD4X EM23GRPACLK oversampling quadrature decoder 4X mode (available in EM0-EM3). 5 S0PRSEN S0IN PRS Enable 8 1 read-write S1PRSEN S1IN PRS Enable 9 1 read-write CMD No Description 0x14 -1 write-only n 0x0 0x0 AUXCNTRST AUXCNT Reset 2 1 write-only CNTRST CNT Reset 1 1 write-only CORERST PCNT Clock Domain Reset 0 1 write-only LCNTIM Load CNT Immediately 4 1 write-only STARTAUXCNT Start Aux Counter 9 1 write-only STARTCNT Start Main Counter 8 1 write-only STOPAUXCNT Stop Aux Counter 11 1 write-only STOPCNT Stop Main Counter 10 1 write-only CNT No Description 0x24 -1 read-only n 0x0 0x0 CNT Counter Value 0 16 read-only CTRL No Description 0x10 -1 read-write n 0x0 0x0 AUXCNTEV Controls When the Aux Counter Counts 6 2 read-write BOTH Counts up on both up-count and down-count events. 0 UP Counts up on up-count events. 1 DOWN Counts up on down-count events. 2 CNTDIR Non-Quadrature Mode Counter Direction Co 1 1 read-write UP Up counter mode. 0 DOWN Down counter mode. 1 CNTEV Controls When the Counter Counts 4 2 read-write BOTH Counts up on up-count and down on down-count events. 0 UP Only counts up on up-count events. 1 DOWN Only counts down on down-count events. 2 EDGE Edge Select 2 1 read-write POS Positive edges on the PCNTn_S0IN inputs are counted in OVSSINGLE mode. Does not invert PCNTn_S1IN input in OVSSINGLE and EXTCLKSINGLE modes 0 NEG Negative edges on the PCNTn_S0IN inputs are counted in OVSSINGLE mode. Inverts the PCNTn_S1IN input in OVSSINGLE and EXTCLKSINGLE modes 1 S1CDIR Count Direction Determined By S1 0 1 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN PCNT Module Enable 0 1 read-write IEN No Description 0x20 -1 read-write n 0x0 0x0 AUXOF Auxiliary Overflow Interrupt Read Flag 3 1 read-write DIRCNG Direction Change Detect Interrupt Flag 2 1 read-write OF Overflow Interrupt Read Flag 1 1 read-write OQSTERR Oversampling Quad State Err Int Flag 4 1 read-write UF Underflow Interrupt Read Flag 0 1 read-write IF No Description 0x1C -1 read-write n 0x0 0x0 AUXOF Auxiliary Overflow Interrupt Read Flag 3 1 read-write DIRCNG Direction Change Detect Interrupt Flag 2 1 read-write OF Overflow Interrupt Read Flag 1 1 read-write OQSTERR Oversampling Quad State Err Int Flag 4 1 read-write UF Underflow Interrupt Read Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP VERSION 0 32 read-only LOCK No Description 0x3C -1 write-only n 0x0 0x0 PCNTLOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write to unock PCNT lockable registers 42976 OVSCTRL No Description 0x34 -1 read-write n 0x0 0x0 FILTLEN Configure Filter Length for Inputs S0IN 0 8 read-write FLUTTERRM Flutter Remove 12 1 read-write STATUS No Description 0x18 -1 read-only n 0x0 0x0 AUXCNTRUNNING Aux Counter running status 4 1 read-only CNTRUNNING Main Counter running status 3 1 read-only DIR Current Counter Direction 0 1 read-only UP Up counter mode (clockwise in EXTCLKQUAD mode with the EDGE bit in PCNTn_CTRL set to 0). 0 DOWN Down counter mode. 1 PCNTLOCKSTATUS Lock Status 2 1 read-only UNLOCKED PCNT registers are unlocked 0 LOCKED PCNT registers are locked 1 TOPBV TOP Buffer Valid 1 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only SYNCBUSY No Description 0x38 -1 read-only n 0x0 0x0 CMD CMD Register Busy 1 1 read-only CTRL CTRL Register Busy 0 1 read-only OVSCTRL OVSCTRL Register Busy 4 1 read-only TOP TOP Register Busy 2 1 read-only TOPB TOPB Register Busy 3 1 read-only TOP No Description 0x2C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 16 read-write TOPB No Description 0x30 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 16 read-write PFMXPPRF_NS PFMXPPRF_NS Registers PFMXPPRF_NS 0x0 0x0 0x1000 registers n RFIMDCDCCTRL0 No Description 0x0 -1 read-write n 0x0 0x0 RXPPREQ RX PP Req 1 1 read-write TXMAXREQ TX Max Req 0 1 read-write RFIMDCDCCTRL1 No Description 0x4 -1 read-write n 0x0 0x0 DCDCDIVEN DCDC DIV Enable 0 1 read-write DCDCDIVINVEN DCDC DIV Inverter Enable 1 1 read-write DCDCDIVRATIO DCDC DIV Ratio 2 4 read-write DIVRATIO8 Dividing master_rf clk by 8, D=50% 0 DIVRATIO9 Dividing master_rf clk by 9, D=44.4% 1 DIVRATIO18 Dividing master_rf clk by 18, D=44.4% 10 DIVRATIO19 Dividing master_rf clk by 19, D=42.1% 11 DIVRATIO20 Dividing master_rf clk by 20, D=60% 12 DIVRATIO21 Dividing master_rf clk by 21, D=57.1% 13 DIVRATIO22 Dividing master_rf clk by 22, D=54.5% 14 DIVRATIO23 Dividing master_rf clk by 23, D=52.2% 15 DIVRATIO10 Dividing master_rf clk by 10, D=40% 2 DIVRATIO11 Dividing master_rf clk by 11, D=36.4% 3 DIVRATIO12 Dividing master_rf clk by 12, D=50% 4 DIVRATIO13 Dividing master_rf clk by 13, D=46.2% 5 DIVRATIO14 Dividing master_rf clk by 14, D=42.9% 6 DIVRATIO15 Dividing master_rf clk by 15, D=40% 7 DIVRATIO16 Dividing master_rf clk by 16, D=50% 8 DIVRATIO17 Dividing master_rf clk by 17, D=47.1% 9 RFIMDCDCCTRL2 No Description 0x8 -1 read-write n 0x0 0x0 PPCALEN Pulse Pairing Calibration Loop Enable 27 1 read-write PPND Pulse Pairing Period 18 9 read-write PPSYNCONLY Pulse Pairing Sync Only 28 1 read-write PPTMAX Pulse Pairing Time Max 0 9 read-write PPTMIN Pulse Pairing Time Min 9 9 read-write RFIMDCDCSTATUS No Description 0xC -1 read-only n 0x0 0x0 DCDCEN DCDC Enable Status 0 1 read-only RXPPSTATUS RX PP Status 2 1 read-only TXMAXSTATUS TX MAX Status 1 1 read-only WNO1 Cal Loop WNO1 value 8 9 read-only RPURATD0 Protected register address = (RPURATD register index X 32 + RPURATD bit index) X 4. 0x10 -1 read-write n 0x0 0x0 RATDRFIMDCDCCTRL0 RFIMDCDCCTRL0 Protection Bit 0 1 read-write RATDRFIMDCDCCTRL1 RFIMDCDCCTRL1 Protection Bit 1 1 read-write RATDRFIMDCDCCTRL2 RFIMDCDCCTRL2 Protection Bit 2 1 read-write PFMXPPRF_S PFMXPPRF_S Registers PFMXPPRF_S 0x0 0x0 0x1000 registers n RFIMDCDCCTRL0 No Description 0x0 -1 read-write n 0x0 0x0 RXPPREQ RX PP Req 1 1 read-write TXMAXREQ TX Max Req 0 1 read-write RFIMDCDCCTRL1 No Description 0x4 -1 read-write n 0x0 0x0 DCDCDIVEN DCDC DIV Enable 0 1 read-write DCDCDIVINVEN DCDC DIV Inverter Enable 1 1 read-write DCDCDIVRATIO DCDC DIV Ratio 2 4 read-write DIVRATIO8 Dividing master_rf clk by 8, D=50% 0 DIVRATIO9 Dividing master_rf clk by 9, D=44.4% 1 DIVRATIO18 Dividing master_rf clk by 18, D=44.4% 10 DIVRATIO19 Dividing master_rf clk by 19, D=42.1% 11 DIVRATIO20 Dividing master_rf clk by 20, D=60% 12 DIVRATIO21 Dividing master_rf clk by 21, D=57.1% 13 DIVRATIO22 Dividing master_rf clk by 22, D=54.5% 14 DIVRATIO23 Dividing master_rf clk by 23, D=52.2% 15 DIVRATIO10 Dividing master_rf clk by 10, D=40% 2 DIVRATIO11 Dividing master_rf clk by 11, D=36.4% 3 DIVRATIO12 Dividing master_rf clk by 12, D=50% 4 DIVRATIO13 Dividing master_rf clk by 13, D=46.2% 5 DIVRATIO14 Dividing master_rf clk by 14, D=42.9% 6 DIVRATIO15 Dividing master_rf clk by 15, D=40% 7 DIVRATIO16 Dividing master_rf clk by 16, D=50% 8 DIVRATIO17 Dividing master_rf clk by 17, D=47.1% 9 RFIMDCDCCTRL2 No Description 0x8 -1 read-write n 0x0 0x0 PPCALEN Pulse Pairing Calibration Loop Enable 27 1 read-write PPND Pulse Pairing Period 18 9 read-write PPSYNCONLY Pulse Pairing Sync Only 28 1 read-write PPTMAX Pulse Pairing Time Max 0 9 read-write PPTMIN Pulse Pairing Time Min 9 9 read-write RFIMDCDCSTATUS No Description 0xC -1 read-only n 0x0 0x0 DCDCEN DCDC Enable Status 0 1 read-only RXPPSTATUS RX PP Status 2 1 read-only TXMAXSTATUS TX MAX Status 1 1 read-only WNO1 Cal Loop WNO1 value 8 9 read-only RPURATD0 Protected register address = (RPURATD register index X 32 + RPURATD bit index) X 4. 0x10 -1 read-write n 0x0 0x0 RATDRFIMDCDCCTRL0 RFIMDCDCCTRL0 Protection Bit 0 1 read-write RATDRFIMDCDCCTRL1 RFIMDCDCCTRL1 Protection Bit 1 1 read-write RATDRFIMDCDCCTRL2 RFIMDCDCCTRL2 Protection Bit 2 1 read-write PRS_NS PRS_NS Registers PRS_NS 0x0 0x0 0x1000 registers n ASYNC_CH0_CTRL No Description 0x18 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH10_CTRL No Description 0x40 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH11_CTRL No Description 0x44 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH1_CTRL No Description 0x1C -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH2_CTRL No Description 0x20 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH3_CTRL No Description 0x24 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH4_CTRL No Description 0x28 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH5_CTRL No Description 0x2C -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH6_CTRL No Description 0x30 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH7_CTRL No Description 0x34 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH8_CTRL No Description 0x38 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH9_CTRL No Description 0x3C -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_PEEK No Description 0x10 -1 read-only n 0x0 0x0 CH0VAL Channel 0 Current Value 0 1 read-only CH10VAL Channel 10 Current Value 10 1 read-only CH11VAL Channel 11 Current Value 11 1 read-only CH1VAL Channel 1 Current Value 1 1 read-only CH2VAL Channel 2 Current Value 2 1 read-only CH3VAL Channel 3 Current Value 3 1 read-only CH4VAL Channel 4 Current Value 4 1 read-only CH5VAL Channel 5 Current Value 5 1 read-only CH6VAL Channel 6 Current Value 6 1 read-only CH7VAL Channel 7 Current Value 7 1 read-only CH8VAL Channel 8 Current Value 8 1 read-only CH9VAL Channel 9 Current Value 9 1 read-only ASYNC_SWLEVEL No Description 0xC -1 read-write n 0x0 0x0 CH0LEVEL Channel Level 0 1 read-write CH10LEVEL Channel Level 10 1 read-write CH11LEVEL Channel Level 11 1 read-write CH1LEVEL Channel Level 1 1 read-write CH2LEVEL Channel Level 2 1 read-write CH3LEVEL Channel Level 3 1 read-write CH4LEVEL Channel Level 4 1 read-write CH5LEVEL Channel Level 5 1 read-write CH6LEVEL Channel Level 6 1 read-write CH7LEVEL Channel Level 7 1 read-write CH8LEVEL Channel Level 8 1 read-write CH9LEVEL Channel Level 9 1 read-write ASYNC_SWPULSE No Description 0x8 -1 write-only n 0x0 0x0 CH0PULSE Channel pulse 0 1 write-only CH10PULSE Channel pulse 10 1 write-only CH11PULSE Channel pulse 11 1 write-only CH1PULSE Channel pulse 1 1 write-only CH2PULSE Channel pulse 2 1 write-only CH3PULSE Channel pulse 3 1 write-only CH4PULSE Channel pulse 4 1 write-only CH5PULSE Channel pulse 5 1 write-only CH6PULSE Channel pulse 6 1 write-only CH7PULSE Channel pulse 7 1 write-only CH8PULSE Channel pulse 8 1 write-only CH9PULSE Channel pulse 9 1 write-only CONSUMER_CMU_CALDN CALDN consumer register 0x58 -1 read-write n 0x0 0x0 PRSSEL CALDN async channel select 0 4 read-write CONSUMER_CMU_CALUP CALUP Consumer register 0x5C -1 read-write n 0x0 0x0 PRSSEL CALUP async channel select 0 4 read-write CONSUMER_CORE_CTIIN0 CTI Consumer Register 0x140 -1 read-write n 0x0 0x0 PRSSEL CTI async channel select 0 4 read-write CONSUMER_CORE_CTIIN1 CTI Consumer Register 0x144 -1 read-write n 0x0 0x0 PRSSEL CTI async channel select 0 4 read-write CONSUMER_CORE_CTIIN2 CTI Consumer Register 0x148 -1 read-write n 0x0 0x0 PRSSEL CTI async channel select 0 4 read-write CONSUMER_CORE_CTIIN3 CTI Consumer Register 0x14C -1 read-write n 0x0 0x0 PRSSEL CTI async channel select 0 4 read-write CONSUMER_CORE_M33RXEV M33 Consumer Register 0x150 -1 read-write n 0x0 0x0 PRSSEL M33 async channel select 0 4 read-write CONSUMER_EUSART0_CLK CLK consumer register 0x60 -1 read-write n 0x0 0x0 PRSSEL CLK async channel select 0 4 read-write CONSUMER_EUSART0_RX RX Consumer register 0x64 -1 read-write n 0x0 0x0 PRSSEL RX async channel select 0 4 read-write CONSUMER_EUSART0_TRIGGER TRIGGER Consumer register 0x68 -1 read-write n 0x0 0x0 PRSSEL TRIGGER async channel select 0 4 read-write CONSUMER_EUSART1_CLK CLK consumer register 0x6C -1 read-write n 0x0 0x0 PRSSEL CLK async channel select 0 4 read-write CONSUMER_EUSART1_RX RX Consumer register 0x70 -1 read-write n 0x0 0x0 PRSSEL RX async channel select 0 4 read-write CONSUMER_EUSART1_TRIGGER TRIGGER Consumer register 0x74 -1 read-write n 0x0 0x0 PRSSEL TRIGGER async channel select 0 4 read-write CONSUMER_EUSART2_CLK CLK consumer register 0x78 -1 read-write n 0x0 0x0 PRSSEL CLK async channel select 0 4 read-write CONSUMER_EUSART2_RX RX Consumer register 0x7C -1 read-write n 0x0 0x0 PRSSEL RX async channel select 0 4 read-write CONSUMER_EUSART2_TRIGGER TRIGGER Consumer register 0x80 -1 read-write n 0x0 0x0 PRSSEL TRIGGER async channel select 0 4 read-write CONSUMER_HFXO0_OSCREQ OSCREQ consumer register 0x138 -1 read-write n 0x0 0x0 PRSSEL OSC async channel select 0 4 read-write CONSUMER_HFXO0_TIMEOUT TIMEOUT Consumer register 0x13C -1 read-write n 0x0 0x0 PRSSEL TIMEOUT async channel select 0 4 read-write CONSUMER_IADC0_SCANTRIGGER SCAN consumer register 0x88 -1 read-write n 0x0 0x0 PRSSEL SCAN async channel select 0 4 read-write SPRSSEL SCAN sync channel select 8 2 read-write CONSUMER_IADC0_SINGLETRIGGER SINGLE Consumer register 0x8C -1 read-write n 0x0 0x0 PRSSEL SINGLE async channel select 0 4 read-write SPRSSEL SINGLE sync channel select 8 2 read-write CONSUMER_LDMAXBAR_DMAREQ0 DMAREQ0 consumer register 0x90 -1 read-write n 0x0 0x0 PRSSEL DMAREQ0 async channel select 0 4 read-write CONSUMER_LDMAXBAR_DMAREQ1 DMAREQ1 Consumer register 0x94 -1 read-write n 0x0 0x0 PRSSEL DMAREQ1 async channel select 0 4 read-write CONSUMER_LESENSE_START START Consumer register 0xA8 -1 read-write n 0x0 0x0 PRSSEL START async channel select 0 4 read-write CONSUMER_LETIMER0_CLEAR CLEAR consumer register 0xAC -1 read-write n 0x0 0x0 PRSSEL CLEAR async channel select 0 4 read-write CONSUMER_LETIMER0_START START Consumer register 0xB0 -1 read-write n 0x0 0x0 PRSSEL START async channel select 0 4 read-write CONSUMER_LETIMER0_STOP STOP Consumer register 0xB4 -1 read-write n 0x0 0x0 PRSSEL STOP async channel select 0 4 read-write CONSUMER_PCNT0_S0IN S0IN consumer register 0xBC -1 read-write n 0x0 0x0 PRSSEL S0IN async channel select 0 4 read-write CONSUMER_PCNT0_S1IN S1IN Consumer register 0xC0 -1 read-write n 0x0 0x0 PRSSEL S1IN async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC25 TAMPERSRC25 consumer register 0x114 -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC25 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC26 TAMPERSRC26 Consumer register 0x118 -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC26 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC27 TAMPERSRC27 Consumer register 0x11C -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC27 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC28 TAMPERSRC28 Consumer register 0x120 -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC28 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC29 TAMPERSRC29 Consumer register 0x124 -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC29 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC30 TAMPERSRC30 Consumer register 0x128 -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC30 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC31 TAMPERSRC31 Consumer register 0x12C -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC31 async channel select 0 4 read-write CONSUMER_SYSRTC0_IN0 IN0 consumer register 0x130 -1 read-write n 0x0 0x0 PRSSEL IN0 async channel select 0 4 read-write CONSUMER_SYSRTC0_IN1 IN1 Consumer register 0x134 -1 read-write n 0x0 0x0 PRSSEL IN1 async channel select 0 4 read-write CONSUMER_TIMER0_CC0 CC0 consumer register 0x154 -1 read-write n 0x0 0x0 PRSSEL CC0 async channel select 0 4 read-write SPRSSEL CC0 sync channel select 8 2 read-write CONSUMER_TIMER0_CC1 CC1 Consumer register 0x158 -1 read-write n 0x0 0x0 PRSSEL CC1 async channel select 0 4 read-write SPRSSEL CC1 sync channel select 8 2 read-write CONSUMER_TIMER0_CC2 CC2 Consumer register 0x15C -1 read-write n 0x0 0x0 PRSSEL CC2 async channel select 0 4 read-write SPRSSEL CC2 sync channel select 8 2 read-write CONSUMER_TIMER0_DTI DTI Consumer register 0x160 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER0_DTIFS1 DTI Consumer register 0x164 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER0_DTIFS2 DTI Consumer register 0x168 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER1_CC0 CC0 consumer register 0x16C -1 read-write n 0x0 0x0 PRSSEL CC0 async channel select 0 4 read-write SPRSSEL CC0 sync channel select 8 2 read-write CONSUMER_TIMER1_CC1 CC1 Consumer register 0x170 -1 read-write n 0x0 0x0 PRSSEL CC1 async channel select 0 4 read-write SPRSSEL CC1 sync channel select 8 2 read-write CONSUMER_TIMER1_CC2 CC2 Consumer register 0x174 -1 read-write n 0x0 0x0 PRSSEL CC2 async channel select 0 4 read-write SPRSSEL CC2 sync channel select 8 2 read-write CONSUMER_TIMER1_DTI DTI Consumer register 0x178 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER1_DTIFS1 DTI Consumer register 0x17C -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER1_DTIFS2 DTI Consumer register 0x180 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER2_CC0 CC0 consumer register 0x184 -1 read-write n 0x0 0x0 PRSSEL CC0 async channel select 0 4 read-write SPRSSEL CC0 sync channel select 8 2 read-write CONSUMER_TIMER2_CC1 CC1 Consumer register 0x188 -1 read-write n 0x0 0x0 PRSSEL CC1 async channel select 0 4 read-write SPRSSEL CC1 sync channel select 8 2 read-write CONSUMER_TIMER2_CC2 CC2 Consumer register 0x18C -1 read-write n 0x0 0x0 PRSSEL CC2 async channel select 0 4 read-write SPRSSEL CC2 sync channel select 8 2 read-write CONSUMER_TIMER2_DTI DTI Consumer register 0x190 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER2_DTIFS1 DTI Consumer register 0x194 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER2_DTIFS2 DTI Consumer register 0x198 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER3_CC0 CC0 consumer register 0x19C -1 read-write n 0x0 0x0 PRSSEL CC0 async channel select 0 4 read-write SPRSSEL CC0 sync channel select 8 2 read-write CONSUMER_TIMER3_CC1 CC1 Consumer register 0x1A0 -1 read-write n 0x0 0x0 PRSSEL CC1 async channel select 0 4 read-write SPRSSEL CC1 sync channel select 8 2 read-write CONSUMER_TIMER3_CC2 CC2 Consumer register 0x1A4 -1 read-write n 0x0 0x0 PRSSEL CC2 async channel select 0 4 read-write SPRSSEL CC2 sync channel select 8 2 read-write CONSUMER_TIMER3_DTI DTI Consumer register 0x1A8 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER3_DTIFS1 DTI Consumer register 0x1AC -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER3_DTIFS2 DTI Consumer register 0x1B0 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER4_CC0 CC0 consumer register 0x1B4 -1 read-write n 0x0 0x0 PRSSEL CC0 async channel select 0 4 read-write SPRSSEL CC0 sync channel select 8 2 read-write CONSUMER_TIMER4_CC1 CC1 Consumer register 0x1B8 -1 read-write n 0x0 0x0 PRSSEL CC1 async channel select 0 4 read-write SPRSSEL CC1 sync channel select 8 2 read-write CONSUMER_TIMER4_CC2 CC2 Consumer register 0x1BC -1 read-write n 0x0 0x0 PRSSEL CC2 async channel select 0 4 read-write SPRSSEL CC2 sync channel select 8 2 read-write CONSUMER_TIMER4_DTI DTI Consumer register 0x1C0 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER4_DTIFS1 DTI Consumer register 0x1C4 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER4_DTIFS2 DTI Consumer register 0x1C8 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_USART0_CLK CLK consumer register 0x1CC -1 read-write n 0x0 0x0 PRSSEL CLK async channel select 0 4 read-write CONSUMER_USART0_IR IR Consumer register 0x1D0 -1 read-write n 0x0 0x0 PRSSEL IR async channel select 0 4 read-write CONSUMER_USART0_RX RX Consumer register 0x1D4 -1 read-write n 0x0 0x0 PRSSEL RX async channel select 0 4 read-write CONSUMER_USART0_TRIGGER TRIGGER Consumer register 0x1D8 -1 read-write n 0x0 0x0 PRSSEL TRIGGER async channel select 0 4 read-write CONSUMER_VDAC0_ASYNCTRIGCH0 ASYNCTRIG consumer register 0x1E8 -1 read-write n 0x0 0x0 PRSSEL ASYNCTRIG async channel select 0 4 read-write CONSUMER_VDAC0_ASYNCTRIGCH1 ASYNCTRIG Consumer register 0x1EC -1 read-write n 0x0 0x0 PRSSEL ASYNCTRIG async channel select 0 4 read-write CONSUMER_VDAC0_SYNCTRIGCH0 SYNCTRIG Consumer register 0x1F0 -1 read-write n 0x0 0x0 SPRSSEL SYNCTRIG sync channel select 8 2 read-write CONSUMER_VDAC0_SYNCTRIGCH1 SYNCTRIG Consumer register 0x1F4 -1 read-write n 0x0 0x0 SPRSSEL SYNCTRIG sync channel select 8 2 read-write CONSUMER_WDOG0_SRC0 SRC0 consumer register 0x1F8 -1 read-write n 0x0 0x0 PRSSEL SRC0 async channel select 0 4 read-write CONSUMER_WDOG0_SRC1 SRC1 Consumer register 0x1FC -1 read-write n 0x0 0x0 PRSSEL SRC1 async channel select 0 4 read-write CONSUMER_WDOG1_SRC0 SRC0 consumer register 0x200 -1 read-write n 0x0 0x0 PRSSEL SRC0 async channel select 0 4 read-write CONSUMER_WDOG1_SRC1 SRC1 Consumer register 0x204 -1 read-write n 0x0 0x0 PRSSEL SRC1 async channel select 0 4 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION New BitField 0 32 read-only SYNC_CH0_CTRL No Description 0x48 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write SYNC_CH1_CTRL No Description 0x4C -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write SYNC_CH2_CTRL No Description 0x50 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write SYNC_CH3_CTRL No Description 0x54 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write SYNC_PEEK No Description 0x14 -1 read-only n 0x0 0x0 CH0VAL Channel Value 0 1 read-only CH1VAL Channel Value 1 1 read-only CH2VAL Channel Value 2 1 read-only CH3VAL Channel Value 3 1 read-only PRS_S PRS_S Registers PRS_S 0x0 0x0 0x1000 registers n ASYNC_CH0_CTRL No Description 0x18 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH10_CTRL No Description 0x40 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH11_CTRL No Description 0x44 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH1_CTRL No Description 0x1C -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH2_CTRL No Description 0x20 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH3_CTRL No Description 0x24 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH4_CTRL No Description 0x28 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH5_CTRL No Description 0x2C -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH6_CTRL No Description 0x30 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH7_CTRL No Description 0x34 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH8_CTRL No Description 0x38 -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_CH9_CTRL No Description 0x3C -1 read-write n 0x0 0x0 AUXSEL Aux Select 24 4 read-write FNSEL Function Select 16 4 read-write LOGICAL_ZERO Logical 0 0 A_NOR_B A NOR B 1 B B 10 NOT_A_OR_B (!A) OR B 11 A A 12 A_OR_NOT_B A OR (!B) 13 A_OR_B A OR B 14 LOGICAL_ONE Logical 1 15 NOT_A_AND_B (!A) AND B 2 NOT_A !A 3 A_AND_NOT_B A AND (!B) 4 NOT_B !B 5 A_XOR_B A XOR B 6 A_NAND_B A NAND B 7 A_AND_B A AND B 8 A_XNOR_B A XNOR B 9 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write ASYNC_PEEK No Description 0x10 -1 read-only n 0x0 0x0 CH0VAL Channel 0 Current Value 0 1 read-only CH10VAL Channel 10 Current Value 10 1 read-only CH11VAL Channel 11 Current Value 11 1 read-only CH1VAL Channel 1 Current Value 1 1 read-only CH2VAL Channel 2 Current Value 2 1 read-only CH3VAL Channel 3 Current Value 3 1 read-only CH4VAL Channel 4 Current Value 4 1 read-only CH5VAL Channel 5 Current Value 5 1 read-only CH6VAL Channel 6 Current Value 6 1 read-only CH7VAL Channel 7 Current Value 7 1 read-only CH8VAL Channel 8 Current Value 8 1 read-only CH9VAL Channel 9 Current Value 9 1 read-only ASYNC_SWLEVEL No Description 0xC -1 read-write n 0x0 0x0 CH0LEVEL Channel Level 0 1 read-write CH10LEVEL Channel Level 10 1 read-write CH11LEVEL Channel Level 11 1 read-write CH1LEVEL Channel Level 1 1 read-write CH2LEVEL Channel Level 2 1 read-write CH3LEVEL Channel Level 3 1 read-write CH4LEVEL Channel Level 4 1 read-write CH5LEVEL Channel Level 5 1 read-write CH6LEVEL Channel Level 6 1 read-write CH7LEVEL Channel Level 7 1 read-write CH8LEVEL Channel Level 8 1 read-write CH9LEVEL Channel Level 9 1 read-write ASYNC_SWPULSE No Description 0x8 -1 write-only n 0x0 0x0 CH0PULSE Channel pulse 0 1 write-only CH10PULSE Channel pulse 10 1 write-only CH11PULSE Channel pulse 11 1 write-only CH1PULSE Channel pulse 1 1 write-only CH2PULSE Channel pulse 2 1 write-only CH3PULSE Channel pulse 3 1 write-only CH4PULSE Channel pulse 4 1 write-only CH5PULSE Channel pulse 5 1 write-only CH6PULSE Channel pulse 6 1 write-only CH7PULSE Channel pulse 7 1 write-only CH8PULSE Channel pulse 8 1 write-only CH9PULSE Channel pulse 9 1 write-only CONSUMER_CMU_CALDN CALDN consumer register 0x58 -1 read-write n 0x0 0x0 PRSSEL CALDN async channel select 0 4 read-write CONSUMER_CMU_CALUP CALUP Consumer register 0x5C -1 read-write n 0x0 0x0 PRSSEL CALUP async channel select 0 4 read-write CONSUMER_CORE_CTIIN0 CTI Consumer Register 0x140 -1 read-write n 0x0 0x0 PRSSEL CTI async channel select 0 4 read-write CONSUMER_CORE_CTIIN1 CTI Consumer Register 0x144 -1 read-write n 0x0 0x0 PRSSEL CTI async channel select 0 4 read-write CONSUMER_CORE_CTIIN2 CTI Consumer Register 0x148 -1 read-write n 0x0 0x0 PRSSEL CTI async channel select 0 4 read-write CONSUMER_CORE_CTIIN3 CTI Consumer Register 0x14C -1 read-write n 0x0 0x0 PRSSEL CTI async channel select 0 4 read-write CONSUMER_CORE_M33RXEV M33 Consumer Register 0x150 -1 read-write n 0x0 0x0 PRSSEL M33 async channel select 0 4 read-write CONSUMER_EUSART0_CLK CLK consumer register 0x60 -1 read-write n 0x0 0x0 PRSSEL CLK async channel select 0 4 read-write CONSUMER_EUSART0_RX RX Consumer register 0x64 -1 read-write n 0x0 0x0 PRSSEL RX async channel select 0 4 read-write CONSUMER_EUSART0_TRIGGER TRIGGER Consumer register 0x68 -1 read-write n 0x0 0x0 PRSSEL TRIGGER async channel select 0 4 read-write CONSUMER_EUSART1_CLK CLK consumer register 0x6C -1 read-write n 0x0 0x0 PRSSEL CLK async channel select 0 4 read-write CONSUMER_EUSART1_RX RX Consumer register 0x70 -1 read-write n 0x0 0x0 PRSSEL RX async channel select 0 4 read-write CONSUMER_EUSART1_TRIGGER TRIGGER Consumer register 0x74 -1 read-write n 0x0 0x0 PRSSEL TRIGGER async channel select 0 4 read-write CONSUMER_EUSART2_CLK CLK consumer register 0x78 -1 read-write n 0x0 0x0 PRSSEL CLK async channel select 0 4 read-write CONSUMER_EUSART2_RX RX Consumer register 0x7C -1 read-write n 0x0 0x0 PRSSEL RX async channel select 0 4 read-write CONSUMER_EUSART2_TRIGGER TRIGGER Consumer register 0x80 -1 read-write n 0x0 0x0 PRSSEL TRIGGER async channel select 0 4 read-write CONSUMER_HFXO0_OSCREQ OSCREQ consumer register 0x138 -1 read-write n 0x0 0x0 PRSSEL OSC async channel select 0 4 read-write CONSUMER_HFXO0_TIMEOUT TIMEOUT Consumer register 0x13C -1 read-write n 0x0 0x0 PRSSEL TIMEOUT async channel select 0 4 read-write CONSUMER_IADC0_SCANTRIGGER SCAN consumer register 0x88 -1 read-write n 0x0 0x0 PRSSEL SCAN async channel select 0 4 read-write SPRSSEL SCAN sync channel select 8 2 read-write CONSUMER_IADC0_SINGLETRIGGER SINGLE Consumer register 0x8C -1 read-write n 0x0 0x0 PRSSEL SINGLE async channel select 0 4 read-write SPRSSEL SINGLE sync channel select 8 2 read-write CONSUMER_LDMAXBAR_DMAREQ0 DMAREQ0 consumer register 0x90 -1 read-write n 0x0 0x0 PRSSEL DMAREQ0 async channel select 0 4 read-write CONSUMER_LDMAXBAR_DMAREQ1 DMAREQ1 Consumer register 0x94 -1 read-write n 0x0 0x0 PRSSEL DMAREQ1 async channel select 0 4 read-write CONSUMER_LESENSE_START START Consumer register 0xA8 -1 read-write n 0x0 0x0 PRSSEL START async channel select 0 4 read-write CONSUMER_LETIMER0_CLEAR CLEAR consumer register 0xAC -1 read-write n 0x0 0x0 PRSSEL CLEAR async channel select 0 4 read-write CONSUMER_LETIMER0_START START Consumer register 0xB0 -1 read-write n 0x0 0x0 PRSSEL START async channel select 0 4 read-write CONSUMER_LETIMER0_STOP STOP Consumer register 0xB4 -1 read-write n 0x0 0x0 PRSSEL STOP async channel select 0 4 read-write CONSUMER_PCNT0_S0IN S0IN consumer register 0xBC -1 read-write n 0x0 0x0 PRSSEL S0IN async channel select 0 4 read-write CONSUMER_PCNT0_S1IN S1IN Consumer register 0xC0 -1 read-write n 0x0 0x0 PRSSEL S1IN async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC25 TAMPERSRC25 consumer register 0x114 -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC25 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC26 TAMPERSRC26 Consumer register 0x118 -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC26 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC27 TAMPERSRC27 Consumer register 0x11C -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC27 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC28 TAMPERSRC28 Consumer register 0x120 -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC28 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC29 TAMPERSRC29 Consumer register 0x124 -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC29 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC30 TAMPERSRC30 Consumer register 0x128 -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC30 async channel select 0 4 read-write CONSUMER_SETAMPER_TAMPERSRC31 TAMPERSRC31 Consumer register 0x12C -1 read-write n 0x0 0x0 PRSSEL TAMPERSRC31 async channel select 0 4 read-write CONSUMER_SYSRTC0_IN0 IN0 consumer register 0x130 -1 read-write n 0x0 0x0 PRSSEL IN0 async channel select 0 4 read-write CONSUMER_SYSRTC0_IN1 IN1 Consumer register 0x134 -1 read-write n 0x0 0x0 PRSSEL IN1 async channel select 0 4 read-write CONSUMER_TIMER0_CC0 CC0 consumer register 0x154 -1 read-write n 0x0 0x0 PRSSEL CC0 async channel select 0 4 read-write SPRSSEL CC0 sync channel select 8 2 read-write CONSUMER_TIMER0_CC1 CC1 Consumer register 0x158 -1 read-write n 0x0 0x0 PRSSEL CC1 async channel select 0 4 read-write SPRSSEL CC1 sync channel select 8 2 read-write CONSUMER_TIMER0_CC2 CC2 Consumer register 0x15C -1 read-write n 0x0 0x0 PRSSEL CC2 async channel select 0 4 read-write SPRSSEL CC2 sync channel select 8 2 read-write CONSUMER_TIMER0_DTI DTI Consumer register 0x160 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER0_DTIFS1 DTI Consumer register 0x164 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER0_DTIFS2 DTI Consumer register 0x168 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER1_CC0 CC0 consumer register 0x16C -1 read-write n 0x0 0x0 PRSSEL CC0 async channel select 0 4 read-write SPRSSEL CC0 sync channel select 8 2 read-write CONSUMER_TIMER1_CC1 CC1 Consumer register 0x170 -1 read-write n 0x0 0x0 PRSSEL CC1 async channel select 0 4 read-write SPRSSEL CC1 sync channel select 8 2 read-write CONSUMER_TIMER1_CC2 CC2 Consumer register 0x174 -1 read-write n 0x0 0x0 PRSSEL CC2 async channel select 0 4 read-write SPRSSEL CC2 sync channel select 8 2 read-write CONSUMER_TIMER1_DTI DTI Consumer register 0x178 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER1_DTIFS1 DTI Consumer register 0x17C -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER1_DTIFS2 DTI Consumer register 0x180 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER2_CC0 CC0 consumer register 0x184 -1 read-write n 0x0 0x0 PRSSEL CC0 async channel select 0 4 read-write SPRSSEL CC0 sync channel select 8 2 read-write CONSUMER_TIMER2_CC1 CC1 Consumer register 0x188 -1 read-write n 0x0 0x0 PRSSEL CC1 async channel select 0 4 read-write SPRSSEL CC1 sync channel select 8 2 read-write CONSUMER_TIMER2_CC2 CC2 Consumer register 0x18C -1 read-write n 0x0 0x0 PRSSEL CC2 async channel select 0 4 read-write SPRSSEL CC2 sync channel select 8 2 read-write CONSUMER_TIMER2_DTI DTI Consumer register 0x190 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER2_DTIFS1 DTI Consumer register 0x194 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER2_DTIFS2 DTI Consumer register 0x198 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER3_CC0 CC0 consumer register 0x19C -1 read-write n 0x0 0x0 PRSSEL CC0 async channel select 0 4 read-write SPRSSEL CC0 sync channel select 8 2 read-write CONSUMER_TIMER3_CC1 CC1 Consumer register 0x1A0 -1 read-write n 0x0 0x0 PRSSEL CC1 async channel select 0 4 read-write SPRSSEL CC1 sync channel select 8 2 read-write CONSUMER_TIMER3_CC2 CC2 Consumer register 0x1A4 -1 read-write n 0x0 0x0 PRSSEL CC2 async channel select 0 4 read-write SPRSSEL CC2 sync channel select 8 2 read-write CONSUMER_TIMER3_DTI DTI Consumer register 0x1A8 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER3_DTIFS1 DTI Consumer register 0x1AC -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER3_DTIFS2 DTI Consumer register 0x1B0 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER4_CC0 CC0 consumer register 0x1B4 -1 read-write n 0x0 0x0 PRSSEL CC0 async channel select 0 4 read-write SPRSSEL CC0 sync channel select 8 2 read-write CONSUMER_TIMER4_CC1 CC1 Consumer register 0x1B8 -1 read-write n 0x0 0x0 PRSSEL CC1 async channel select 0 4 read-write SPRSSEL CC1 sync channel select 8 2 read-write CONSUMER_TIMER4_CC2 CC2 Consumer register 0x1BC -1 read-write n 0x0 0x0 PRSSEL CC2 async channel select 0 4 read-write SPRSSEL CC2 sync channel select 8 2 read-write CONSUMER_TIMER4_DTI DTI Consumer register 0x1C0 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER4_DTIFS1 DTI Consumer register 0x1C4 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_TIMER4_DTIFS2 DTI Consumer register 0x1C8 -1 read-write n 0x0 0x0 PRSSEL DTI async channel select 0 4 read-write CONSUMER_USART0_CLK CLK consumer register 0x1CC -1 read-write n 0x0 0x0 PRSSEL CLK async channel select 0 4 read-write CONSUMER_USART0_IR IR Consumer register 0x1D0 -1 read-write n 0x0 0x0 PRSSEL IR async channel select 0 4 read-write CONSUMER_USART0_RX RX Consumer register 0x1D4 -1 read-write n 0x0 0x0 PRSSEL RX async channel select 0 4 read-write CONSUMER_USART0_TRIGGER TRIGGER Consumer register 0x1D8 -1 read-write n 0x0 0x0 PRSSEL TRIGGER async channel select 0 4 read-write CONSUMER_VDAC0_ASYNCTRIGCH0 ASYNCTRIG consumer register 0x1E8 -1 read-write n 0x0 0x0 PRSSEL ASYNCTRIG async channel select 0 4 read-write CONSUMER_VDAC0_ASYNCTRIGCH1 ASYNCTRIG Consumer register 0x1EC -1 read-write n 0x0 0x0 PRSSEL ASYNCTRIG async channel select 0 4 read-write CONSUMER_VDAC0_SYNCTRIGCH0 SYNCTRIG Consumer register 0x1F0 -1 read-write n 0x0 0x0 SPRSSEL SYNCTRIG sync channel select 8 2 read-write CONSUMER_VDAC0_SYNCTRIGCH1 SYNCTRIG Consumer register 0x1F4 -1 read-write n 0x0 0x0 SPRSSEL SYNCTRIG sync channel select 8 2 read-write CONSUMER_WDOG0_SRC0 SRC0 consumer register 0x1F8 -1 read-write n 0x0 0x0 PRSSEL SRC0 async channel select 0 4 read-write CONSUMER_WDOG0_SRC1 SRC1 Consumer register 0x1FC -1 read-write n 0x0 0x0 PRSSEL SRC1 async channel select 0 4 read-write CONSUMER_WDOG1_SRC0 SRC0 consumer register 0x200 -1 read-write n 0x0 0x0 PRSSEL SRC0 async channel select 0 4 read-write CONSUMER_WDOG1_SRC1 SRC1 Consumer register 0x204 -1 read-write n 0x0 0x0 PRSSEL SRC1 async channel select 0 4 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION New BitField 0 32 read-only SYNC_CH0_CTRL No Description 0x48 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write SYNC_CH1_CTRL No Description 0x4C -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write SYNC_CH2_CTRL No Description 0x50 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write SYNC_CH3_CTRL No Description 0x54 -1 read-write n 0x0 0x0 SIGSEL Signal Select 0 3 read-write NONE 0 SOURCESEL Source Select 8 7 read-write SYNC_PEEK No Description 0x14 -1 read-only n 0x0 0x0 CH0VAL Channel Value 0 1 read-only CH1VAL Channel Value 1 1 read-only CH2VAL Channel Value 2 1 read-only CH3VAL Channel Value 3 1 read-only RADIOAES_NS RADIOAES_NS Registers RADIOAES_NS 0x0 0x0 0x1000 registers n AES 49 BA411E_HW_CFG_1 No Description 0x404 -1 read-only n 0x0 0x0 g_AesModesPoss AES Modes Supported 0 9 read-only g_CS Generic g_CS value 16 1 read-only g_Keysize Generic g_Keysize value 24 3 read-only g_UseMasking Generic g_UseMasking value 17 1 read-only BA411E_HW_CFG_2 No Description 0x408 -1 read-only n 0x0 0x0 g_CtrSize Generic g_CtrSize value 0 16 read-only BA413_HW_CFG No Description 0x40C -1 read-only n 0x0 0x0 g_HashMaskFunc Generic g_HashMaskFunc value 0 7 read-only g_HashPadding Generic g_HashPadding value 16 1 read-only g_HashVerifyDigest Generic g_HashVerifyDigest value 18 1 read-only g_HMAC_enabled Generic g_HMAC_enabled value 17 1 read-only BA418_HW_CFG No Description 0x410 -1 read-only n 0x0 0x0 g_Sha3CtxtEn Generic g_Sha3CtxtEn value 0 1 read-only BA419_HW_CFG No Description 0x414 -1 read-only n 0x0 0x0 g_SM4ModesPoss Generic g_SM4ModesPoss value 0 7 read-only CMD Command register for starting the fetcher and pusher 0x38 -1 write-only n 0x0 0x0 STARTFETCHER Start fetch 0 1 write-only STARTPUSHER Start push 1 1 write-only CTRL Control register, called CONFIG in Barco datasheet. 0x34 -1 read-write n 0x0 0x0 FETCHERSCATTERGATHER Fetcher scatter/gather 0 1 read-write PUSHERSCATTERGATHER Pusher scatter/gather 1 1 read-write STOPFETCHER Stop fetcher 2 1 read-write STOPPUSHER Stop pusher 3 1 read-write SWRESET Software reset 4 1 read-write FETCHADDR Fetcher: Start address of data block. In direct mode, this register is written by the software. In scatter-gather mode, this register is updated after each processed descriptor. 0x0 -1 read-write n 0x0 0x0 ADDR Start address of data block 0 32 read-write FETCHLEN Fetcher: Length of data block. In direct mode, this register is written by the software. In scatter-gather mode, this register is not used. 0x8 -1 read-write n 0x0 0x0 CONSTADDR Constant address 28 1 read-write LENGTH Length of data block 0 28 read-write REALIGN Realign lengh 29 1 read-write FETCHTAG Fetcher: User tag. In direct mode, this register is written by the software. In scatter-gather mode, this register is not used. 0xC -1 read-write n 0x0 0x0 TAG User tag 0 32 read-write IEN Interrupt enable 0x1C -1 read-write n 0x0 0x0 FETCHERENDOFBLOCK End of block interrupt enable 0 1 read-write FETCHERERROR Error interrupt enable 2 1 read-write FETCHERSTOPPED Stopped interrupt enable 1 1 read-write PUSHERENDOFBLOCK End of block interrupt enable 3 1 read-write PUSHERERROR Error interrupt enable 5 1 read-write PUSHERSTOPPED Stopped interrupt enable 4 1 read-write IF Interrupt flag register 0x28 -1 read-only n 0x0 0x0 FETCHERENDOFBLOCK End of block interrupt flag 0 1 read-only FETCHERERROR Error interrupt flag 2 1 read-only FETCHERSTOPPED Stopped interrupt flag 1 1 read-only PUSHERENDOFBLOCK End of block interrupt flag 3 1 read-only PUSHERERROR Error interrupt flag 5 1 read-only PUSHERSTOPPED Stopped interrupt flag 4 1 read-only IF_CLR Writing a '1' clears the interrupt status. Writing a '0' has no effect. 0x30 -1 write-only n 0x0 0x0 FETCHERENDOFBLOCK End of block interrupt flag clear 0 1 write-only FETCHERERROR Error interrupt flag clear 2 1 write-only FETCHERSTOPPED Stopped interrupt flag clear 1 1 write-only PUSHERENDOFBLOCK FETCHERENDOFBLOCKIFC 3 1 write-only PUSHERERROR FETCHERERRORIFC 5 1 write-only PUSHERSTOPPED FETCHERSTOPPEDIFC 4 1 write-only INCL_IPS_HW_CFG No Description 0x400 -1 read-only n 0x0 0x0 g_IncludeAES Generic g_IncludeAES value 0 1 read-only g_IncludeAESGCM Generic g_IncludeAESGCM value 1 1 read-only g_IncludeAESXTS Generic g_IncludeAESXTS value 2 1 read-only g_IncludeChachaPoly Generic g_IncludeChachaPoly value 5 1 read-only g_IncludeDES Generic g_IncludeDES value 3 1 read-only g_IncludeHASH Generic g_IncludeHASH value 4 1 read-only g_IncludeNDRNG Generic g_IncludeNDRNG value 10 1 read-only g_IncludePKE Generic g_IncludePKE value 9 1 read-only g_IncludeSHA3 Generic g_IncludeSHA3 value 6 1 read-only g_IncludeSM4 Generic g_IncludeSM4 value 8 1 read-only g_IncludeZUC Generic g_IncludeZUC value 7 1 read-only PUSHADDR Pusher: Start address of data block (LSB). In direct mode, this register is written by the software. In scatter-gather mode, this register is updated after each processed descriptor. 0x10 -1 read-write n 0x0 0x0 ADDR Start address of data block 0 32 read-write PUSHLEN Pusher: Length of data block. In direct mode, this register is written by the software. In scatter-gather mode, this register is not used. 0x18 -1 read-write n 0x0 0x0 CONSTADDR Constant address 28 1 read-write DISCARD Discard data 30 1 read-write LENGTH Start address of data block 0 28 read-write REALIGN Realign length 29 1 read-write STATUS Status register 0x3C -1 read-only n 0x0 0x0 FETCHERBSY Fetcher busy 0 1 read-only FIFODATANUM Number of data in output FIFO 16 16 read-only NOTEMPTY Not empty flag from input FIFO (fetcher) 4 1 read-only PUSHERBSY Pusher busy 1 1 read-only SOFTRSTBSY Software reset busy 6 1 read-only WAITING Pusher waiting for FIFO 5 1 read-only RADIOAES_S RADIOAES_S Registers RADIOAES_S 0x0 0x0 0x1000 registers n AES 49 BA411E_HW_CFG_1 No Description 0x404 -1 read-only n 0x0 0x0 g_AesModesPoss AES Modes Supported 0 9 read-only g_CS Generic g_CS value 16 1 read-only g_Keysize Generic g_Keysize value 24 3 read-only g_UseMasking Generic g_UseMasking value 17 1 read-only BA411E_HW_CFG_2 No Description 0x408 -1 read-only n 0x0 0x0 g_CtrSize Generic g_CtrSize value 0 16 read-only BA413_HW_CFG No Description 0x40C -1 read-only n 0x0 0x0 g_HashMaskFunc Generic g_HashMaskFunc value 0 7 read-only g_HashPadding Generic g_HashPadding value 16 1 read-only g_HashVerifyDigest Generic g_HashVerifyDigest value 18 1 read-only g_HMAC_enabled Generic g_HMAC_enabled value 17 1 read-only BA418_HW_CFG No Description 0x410 -1 read-only n 0x0 0x0 g_Sha3CtxtEn Generic g_Sha3CtxtEn value 0 1 read-only BA419_HW_CFG No Description 0x414 -1 read-only n 0x0 0x0 g_SM4ModesPoss Generic g_SM4ModesPoss value 0 7 read-only CMD Command register for starting the fetcher and pusher 0x38 -1 write-only n 0x0 0x0 STARTFETCHER Start fetch 0 1 write-only STARTPUSHER Start push 1 1 write-only CTRL Control register, called CONFIG in Barco datasheet. 0x34 -1 read-write n 0x0 0x0 FETCHERSCATTERGATHER Fetcher scatter/gather 0 1 read-write PUSHERSCATTERGATHER Pusher scatter/gather 1 1 read-write STOPFETCHER Stop fetcher 2 1 read-write STOPPUSHER Stop pusher 3 1 read-write SWRESET Software reset 4 1 read-write FETCHADDR Fetcher: Start address of data block. In direct mode, this register is written by the software. In scatter-gather mode, this register is updated after each processed descriptor. 0x0 -1 read-write n 0x0 0x0 ADDR Start address of data block 0 32 read-write FETCHLEN Fetcher: Length of data block. In direct mode, this register is written by the software. In scatter-gather mode, this register is not used. 0x8 -1 read-write n 0x0 0x0 CONSTADDR Constant address 28 1 read-write LENGTH Length of data block 0 28 read-write REALIGN Realign lengh 29 1 read-write FETCHTAG Fetcher: User tag. In direct mode, this register is written by the software. In scatter-gather mode, this register is not used. 0xC -1 read-write n 0x0 0x0 TAG User tag 0 32 read-write IEN Interrupt enable 0x1C -1 read-write n 0x0 0x0 FETCHERENDOFBLOCK End of block interrupt enable 0 1 read-write FETCHERERROR Error interrupt enable 2 1 read-write FETCHERSTOPPED Stopped interrupt enable 1 1 read-write PUSHERENDOFBLOCK End of block interrupt enable 3 1 read-write PUSHERERROR Error interrupt enable 5 1 read-write PUSHERSTOPPED Stopped interrupt enable 4 1 read-write IF Interrupt flag register 0x28 -1 read-only n 0x0 0x0 FETCHERENDOFBLOCK End of block interrupt flag 0 1 read-only FETCHERERROR Error interrupt flag 2 1 read-only FETCHERSTOPPED Stopped interrupt flag 1 1 read-only PUSHERENDOFBLOCK End of block interrupt flag 3 1 read-only PUSHERERROR Error interrupt flag 5 1 read-only PUSHERSTOPPED Stopped interrupt flag 4 1 read-only IF_CLR Writing a '1' clears the interrupt status. Writing a '0' has no effect. 0x30 -1 write-only n 0x0 0x0 FETCHERENDOFBLOCK End of block interrupt flag clear 0 1 write-only FETCHERERROR Error interrupt flag clear 2 1 write-only FETCHERSTOPPED Stopped interrupt flag clear 1 1 write-only PUSHERENDOFBLOCK FETCHERENDOFBLOCKIFC 3 1 write-only PUSHERERROR FETCHERERRORIFC 5 1 write-only PUSHERSTOPPED FETCHERSTOPPEDIFC 4 1 write-only INCL_IPS_HW_CFG No Description 0x400 -1 read-only n 0x0 0x0 g_IncludeAES Generic g_IncludeAES value 0 1 read-only g_IncludeAESGCM Generic g_IncludeAESGCM value 1 1 read-only g_IncludeAESXTS Generic g_IncludeAESXTS value 2 1 read-only g_IncludeChachaPoly Generic g_IncludeChachaPoly value 5 1 read-only g_IncludeDES Generic g_IncludeDES value 3 1 read-only g_IncludeHASH Generic g_IncludeHASH value 4 1 read-only g_IncludeNDRNG Generic g_IncludeNDRNG value 10 1 read-only g_IncludePKE Generic g_IncludePKE value 9 1 read-only g_IncludeSHA3 Generic g_IncludeSHA3 value 6 1 read-only g_IncludeSM4 Generic g_IncludeSM4 value 8 1 read-only g_IncludeZUC Generic g_IncludeZUC value 7 1 read-only PUSHADDR Pusher: Start address of data block (LSB). In direct mode, this register is written by the software. In scatter-gather mode, this register is updated after each processed descriptor. 0x10 -1 read-write n 0x0 0x0 ADDR Start address of data block 0 32 read-write PUSHLEN Pusher: Length of data block. In direct mode, this register is written by the software. In scatter-gather mode, this register is not used. 0x18 -1 read-write n 0x0 0x0 CONSTADDR Constant address 28 1 read-write DISCARD Discard data 30 1 read-write LENGTH Start address of data block 0 28 read-write REALIGN Realign length 29 1 read-write STATUS Status register 0x3C -1 read-only n 0x0 0x0 FETCHERBSY Fetcher busy 0 1 read-only FIFODATANUM Number of data in output FIFO 16 16 read-only NOTEMPTY Not empty flag from input FIFO (fetcher) 4 1 read-only PUSHERBSY Pusher busy 1 1 read-only SOFTRSTBSY Software reset busy 6 1 read-only WAITING Pusher waiting for FIFO 5 1 read-only SCRATCHPAD_NS SCRATCHPAD_NS Registers SCRATCHPAD_NS 0x0 0x0 0x1000 registers n SREG0 Used for SIMCTRL Pointer in Verification Environment 0x0 -1 read-write n 0x0 0x0 SCRATCH Scratch Pad Register 0 32 read-write SREG1 Used for SIMCTRL Data Access in Verification Environment 0x4 -1 read-write n 0x0 0x0 SCRATCH Scratch Register 0 32 read-write SCRATCHPAD_S SCRATCHPAD_S Registers SCRATCHPAD_S 0x0 0x0 0x1000 registers n SREG0 Used for SIMCTRL Pointer in Verification Environment 0x0 -1 read-write n 0x0 0x0 SCRATCH Scratch Pad Register 0 32 read-write SREG1 Used for SIMCTRL Data Access in Verification Environment 0x4 -1 read-write n 0x0 0x0 SCRATCH Scratch Register 0 32 read-write SEMAILBOX_NS_HOST SEMAILBOX_NS_HOST Registers SEMAILBOX_NS_HOST 0x0 0x0 0x1000 registers n SEMBRX 67 SEMBTX 68 CONFIGURATION Configuration register. 0x58 -1 read-write n 0x0 0x0 RXINTEN RXINTEN 1 1 read-write TXINTEN TXINTEN 0 1 read-write FIFO A write access to any address in this area will be mapped to the TX FIFO (only for the payload). A read access to any address in this area will be mapped to the RX FIFO (only for the payload). Using an address range (16 x 32-bit) rather than one single address mapped to the FIFO allows using incremental bursts. 0x0 -1 read-write n 0x0 0x0 FIFO FIFO 0 32 read-write RX_HEADER A read access to this register will be mapped to the RX FIFO (only for the header). 0x54 -1 read-only n 0x0 0x0 RXHEADER RXHEADER 0 32 read-only RX_PROT RX Protection register. 0x4C -1 read-only n 0x0 0x0 NONSECURE NONSECURE 23 1 read-only PRIVILEGED PRIVILEGED 22 1 read-only UNPROTECTED UNPROTECTED 21 1 read-only USER USER 24 8 read-only RX_STATUS RX Status register. 0x44 -1 read-only n 0x0 0x0 MSGINFO MSGINFO 16 4 read-only REMBYTES REMBYTES 0 16 read-only RXEMPTY RXEMPTY 21 1 read-only RXERROR RXERROR 23 1 read-only RXHDR RXHDR 22 1 read-only RXINT RXINT 20 1 read-only TX_HEADER A write access to this register will be mapped to the TX FIFO (only for header). 0x50 -1 write-only n 0x0 0x0 TXHEADER TXHEADER 0 32 write-only TX_PROT TX Protection register. 0x48 -1 read-only n 0x0 0x0 NONSECURE NONSECURE 23 1 read-only PRIVILEGED PRIVILEGED 22 1 read-only UNPROTECTED UNPROTECTED 21 1 read-only USER USER 24 8 read-only TX_STATUS TX Status register. 0x40 -1 read-only n 0x0 0x0 MSGINFO MSGINFO 16 4 read-only REMBYTES REMBYTES 0 16 read-only TXERROR TXERROR 23 1 read-only TXFULL TXFULL 21 1 read-only TXINT TXINT 20 1 read-only SEMAILBOX_S_HOST SEMAILBOX_S_HOST Registers SEMAILBOX_S_HOST 0x0 0x0 0x1000 registers n SEMBRX 67 SEMBTX 68 CONFIGURATION Configuration register. 0x58 -1 read-write n 0x0 0x0 RXINTEN RXINTEN 1 1 read-write TXINTEN TXINTEN 0 1 read-write FIFO A write access to any address in this area will be mapped to the TX FIFO (only for the payload). A read access to any address in this area will be mapped to the RX FIFO (only for the payload). Using an address range (16 x 32-bit) rather than one single address mapped to the FIFO allows using incremental bursts. 0x0 -1 read-write n 0x0 0x0 FIFO FIFO 0 32 read-write RX_HEADER A read access to this register will be mapped to the RX FIFO (only for the header). 0x54 -1 read-only n 0x0 0x0 RXHEADER RXHEADER 0 32 read-only RX_PROT RX Protection register. 0x4C -1 read-only n 0x0 0x0 NONSECURE NONSECURE 23 1 read-only PRIVILEGED PRIVILEGED 22 1 read-only UNPROTECTED UNPROTECTED 21 1 read-only USER USER 24 8 read-only RX_STATUS RX Status register. 0x44 -1 read-only n 0x0 0x0 MSGINFO MSGINFO 16 4 read-only REMBYTES REMBYTES 0 16 read-only RXEMPTY RXEMPTY 21 1 read-only RXERROR RXERROR 23 1 read-only RXHDR RXHDR 22 1 read-only RXINT RXINT 20 1 read-only TX_HEADER A write access to this register will be mapped to the TX FIFO (only for header). 0x50 -1 write-only n 0x0 0x0 TXHEADER TXHEADER 0 32 write-only TX_PROT TX Protection register. 0x48 -1 read-only n 0x0 0x0 NONSECURE NONSECURE 23 1 read-only PRIVILEGED PRIVILEGED 22 1 read-only UNPROTECTED UNPROTECTED 21 1 read-only USER USER 24 8 read-only TX_STATUS TX Status register. 0x40 -1 read-only n 0x0 0x0 MSGINFO MSGINFO 16 4 read-only REMBYTES REMBYTES 0 16 read-only TXERROR TXERROR 23 1 read-only TXFULL TXFULL 21 1 read-only TXINT TXINT 20 1 read-only SMU_NS SMU_NS Registers SMU_NS 0x0 0x0 0x1000 registers n SMU_SECURE 0 SMU_PRIVILEGED 1 BMPUFS No Description 0x250 -1 read-only n 0x0 0x0 BMPUFSMASTERID Master ID 0 8 read-only BMPUFSADDR No Description 0x254 -1 read-only n 0x0 0x0 BMPUFSADDR Fault Address 0 32 read-only BMPUPATD0 Set master bits to 1 to mark as a privileged master 0x150 -1 read-write n 0x0 0x0 LDMA MCU LDMA privileged mode 2 1 read-write SEEXTDMA SEEXTDMA privileged mode 5 1 read-write BMPUSATD0 Set master bits to 1 to mark as a secure master 0x170 -1 read-write n 0x0 0x0 LDMA MCU LDMA secure mode 2 1 read-write SEEXTDMA SEEXTDMA secure mode 5 1 read-write ESAUMRB01 No Description 0x270 -1 read-write n 0x0 0x0 ESAUMRB01 Moveable Region Boundary 12 16 read-write ESAUMRB12 No Description 0x274 -1 read-write n 0x0 0x0 ESAUMRB12 Moveable Region Boundary 12 16 read-write ESAUMRB45 No Description 0x280 -1 read-write n 0x0 0x0 ESAUMRB45 Moveable Region Boundary 12 16 read-write ESAUMRB56 No Description 0x284 -1 read-write n 0x0 0x0 ESAUMRB56 Moveable Region Boundary 12 16 read-write ESAURTYPES0 No Description 0x260 -1 read-write n 0x0 0x0 ESAUR3NS Region 3 Non-Secure 12 1 read-write ESAURTYPES1 No Description 0x264 -1 read-write n 0x0 0x0 ESAUR11NS Region 11 Non-Secure 12 1 read-write IEN No Description 0x10 -1 read-write n 0x0 0x0 BMPUSEC BMPU Security Interrupt Enable 17 1 read-write PPUINST PPU Instruction Interrupt Enable 2 1 read-write PPUPRIV PPU Privilege Interrupt Enable 0 1 read-write PPUSEC PPU Security Interrupt Enable 16 1 read-write IF No Description 0xC -1 read-write n 0x0 0x0 BMPUSEC BMPU Security Interrupt Flag 17 1 read-write PPUINST PPU Instruction Interrupt Flag 2 1 read-write PPUPRIV PPU Privilege Interrupt Flag 0 1 read-write PPUSEC PPU Security Interrupt Flag 16 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x8 -1 write-only n 0x0 0x0 SMULOCKKEY 0 24 write-only UNLOCK Unlocks Registers 11325013 M33CTRL Holds the M33 control settings 0x20 -1 read-write n 0x0 0x0 LOCKNSMPU New BitField 3 1 read-write LOCKNSVTOR New BitField 1 1 read-write LOCKSAU New BitField 4 1 read-write LOCKSMPU New BitField 2 1 read-write LOCKSVTAIRCR New BitField 0 1 read-write PPUFS No Description 0x140 -1 read-only n 0x0 0x0 PPUFSPERIPHID Peripheral ID 0 8 read-only PPUPATD0 Set peripheral bits to 1 to mark as privileged access only 0x40 -1 read-write n 0x0 0x0 BURAM BURAM Privileged Access 26 1 read-write BURTC BURTC Privileged Access 21 1 read-write CHIPTESTCTRL CHIPTESTCTRL Privileged Access 23 1 read-write CMU CMU Privileged Access 2 1 read-write DCDC DCDC Privileged Access 28 1 read-write DPLL0 DPLL0 Privileged Access 5 1 read-write EMU EMU Privileged Access 1 1 read-write EUSART1 EUSART1 Privileged Access 30 1 read-write EUSART2 EUSART2 Privileged Access 31 1 read-write FSRCO FSRCO Privileged Access 4 1 read-write GPCRC GPCRC Privileged Access 27 1 read-write GPIO GPIO Privileged Access 12 1 read-write HFRCO0 HFRCO0 Privileged Access 3 1 read-write HOSTMAILBOX HOSTMAILBOX Privileged Access 29 1 read-write I2C1 I2C1 Privileged Access 22 1 read-write ICACHE0 ICACHE0 Privileged Access 10 1 read-write LDMA LDMA Privileged Access 13 1 read-write LDMAXBAR LDMAXBAR Privileged Access 14 1 read-write LFRCO LFRCO Privileged Access 7 1 read-write LFXO LFXO Privileged Access 6 1 read-write MSC MSC Privileged Access 9 1 read-write PRS PRS Privileged Access 11 1 read-write SYSCFG SYSCFG Privileged Access 25 1 read-write SYSCFGCFGNS SYSCFGCFGNS Privileged Access 24 1 read-write TIMER0 TIMER0 Privileged Access 15 1 read-write TIMER1 TIMER1 Privileged Access 16 1 read-write TIMER2 TIMER2 Privileged Access 17 1 read-write TIMER3 TIMER3 Privileged Access 18 1 read-write TIMER4 TIMER4 Privileged Access 19 1 read-write ULFRCO ULFRCO Privileged Access 8 1 read-write USART0 USART0 Privileged Access 20 1 read-write PPUPATD1 Set peripheral bits to 1 to mark as privileged access only 0x44 -1 read-write n 0x0 0x0 ACMP0 ACMP0 Privileged Access 11 1 read-write ACMP1 ACMP1 Privileged Access 12 1 read-write AMUXCP0 AMUXCP0 Privileged Access 13 1 read-write DMEM DMEM Privileged Access 3 1 read-write EUSART0 EUSART0 Privileged Access 22 1 read-write HFRCO1 HFRCO1 Privileged Access 17 1 read-write HFXO0 HFXO0 Privileged Access 18 1 read-write I2C0 I2C0 Privileged Access 19 1 read-write IADC0 IADC0 Privileged Access 10 1 read-write KEYSCAN KEYSCAN Privileged Access 2 1 read-write LCD LCD Privileged Access 1 1 read-write LCDRF LCDRF Privileged Access 4 1 read-write LESENSE LESENSE Privileged Access 16 1 read-write LETIMER0 LETIMER0 Privileged Access 9 1 read-write PCNT PCNT Privileged Access 15 1 read-write PFMXPPRF PFMXPPRF Privileged Access 5 1 read-write SEMAILBOX SEMAILBOX Privileged Access 23 1 read-write SMU SMU Privileged Access 7 1 read-write SMUCFGNS SMUCFGNS Privileged Access 8 1 read-write SYSRTC SYSRTC Privileged Access 0 1 read-write VDAC0 VDAC0 Privileged Access 14 1 read-write WDOG0 WDOG0 Privileged Access 20 1 read-write WDOG1 WDOG1 Privileged Access 21 1 read-write PPUSATD0 Set peripheral bits to 1 to mark as secure access only 0x60 -1 read-write n 0x0 0x0 BURAM BURAM Secure Access 26 1 read-write BURTC BURTC Secure Access 21 1 read-write CHIPTESTCTRL CHIPTESTCTRL Secure Access 23 1 read-write CMU CMU Secure Access 2 1 read-write DCDC DCDC Secure Access 28 1 read-write DPLL0 DPLL0 Secure Access 5 1 read-write EMU EMU Secure Access 1 1 read-write EUSART1 EUSART1 Secure Access 30 1 read-write EUSART2 EUSART2 Secure Access 31 1 read-write FSRCO FSRCO Secure Access 4 1 read-write GPCRC GPCRC Secure Access 27 1 read-write GPIO GPIO Secure Access 12 1 read-write HFRCO0 HFRCO0 Secure Access 3 1 read-write HOSTMAILBOX HOSTMAILBOX Secure Access 29 1 read-write I2C1 I2C1 Secure Access 22 1 read-write ICACHE0 ICACHE0 Secure Access 10 1 read-write LDMA LDMA Secure Access 13 1 read-write LDMAXBAR LDMAXBAR Secure Access 14 1 read-write LFRCO LFRCO Secure Access 7 1 read-write LFXO LFXO Secure Access 6 1 read-write MSC MSC Secure Access 9 1 read-write PRS PRS Secure Access 11 1 read-write SYSCFG SYSCFG Secure Access 25 1 read-write SYSCFGCFGNS SYSCFGCFGNS Secure Access 24 1 read-write TIMER0 TIMER0 Secure Access 15 1 read-write TIMER1 TIMER1 Secure Access 16 1 read-write TIMER2 TIMER2 Secure Access 17 1 read-write TIMER3 TIMER3 Secure Access 18 1 read-write TIMER4 TIMER4 Secure Access 19 1 read-write ULFRCO ULFRCO Secure Access 8 1 read-write USART0 USART0 Secure Access 20 1 read-write PPUSATD1 Set peripheral bits to 1 to mark as secure access only 0x64 -1 read-write n 0x0 0x0 ACMP0 ACMP0 Secure Access 11 1 read-write ACMP1 ACMP1 Secure Access 12 1 read-write AMUXCP0 AMUXCP0 Secure Access 13 1 read-write DMEM DMEM Secure Access 3 1 read-write EUSART0 EUSART0 Secure Access 22 1 read-write HFRCO1 HFRCO1 Secure Access 17 1 read-write HFXO0 HFXO0 Secure Access 18 1 read-write I2C0 I2C0 Secure Access 19 1 read-write IADC0 IADC0 Secure Access 10 1 read-write KEYSCAN KEYSCAN Secure Access 2 1 read-write LCD LCD Secure Access 1 1 read-write LCDRF LCDRF Secure Access 4 1 read-write LESENSE LESENSE Secure Access 16 1 read-write LETIMER0 LETIMER0 Secure Access 9 1 read-write PCNT PCNT Secure Access 15 1 read-write PFMXPPRF PFMXPPRF Secure Access 5 1 read-write SEMAILBOX SEMAILBOX Secure Access 23 1 read-write SMU SMU Secure Access 7 1 read-write SMUCFGNS SMUCFGNS Secure Access 8 1 read-write SYSRTC SYSRTC Secure Access 0 1 read-write VDAC0 VDAC0 Secure Access 14 1 read-write WDOG0 WDOG0 Secure Access 20 1 read-write WDOG1 WDOG1 Secure Access 21 1 read-write STATUS No Description 0x4 -1 read-only n 0x0 0x0 SMULOCK SMU Lock 0 1 read-only UNLOCKED 0 LOCKED 1 SMUPRGERR SMU Programming Error 1 1 read-only SMU_NS_CFGNS SMU_NS_CFGNS Registers SMU_NS_CFGNS 0x0 0x0 0x1000 registers n SMU_SECURE 0 SMU_PRIVILEGED 1 BMPUNSPATD0 No Description 0x150 -1 read-write n 0x0 0x0 LDMA MCU LDMA privileged mode 2 1 read-write RADIOAES RADIO AES DMA privileged mode 0 1 read-write RADIOSUBSYSTEM RADIO subsystem masters privileged mode 1 1 read-write RFECA0 RFECA0 privileged mode 3 1 read-write RFECA1 RFECA1 privileged mode 4 1 read-write SEEXTDMA SEEXTDMA privileged mode 5 1 read-write NSIEN No Description 0x10 -1 read-write n 0x0 0x0 PPUNSINST PPUNS Instruction Interrupt Enable 2 1 read-write PPUNSPRIV PPUNS Privilege Interrupt Enable 0 1 read-write NSIF No Description 0xC -1 read-write n 0x0 0x0 PPUNSINST PPUNS Instruction Interrupt Flag 2 1 read-write PPUNSPRIV PPUNS Privilege Interrupt Flag 0 1 read-write NSLOCK No Description 0x8 -1 write-only n 0x0 0x0 SMUNSLOCKKEY 0 24 write-only UNLOCK Unlocks Registers 11325013 NSSTATUS No Description 0x4 -1 read-only n 0x0 0x0 SMUNSLOCK SMUNS Lock 0 1 read-only UNLOCKED 0 LOCKED 1 PPUNSFS No Description 0x140 -1 read-only n 0x0 0x0 PPUFSPERIPHID Peripheral I 0 8 read-only PPUNSPATD0 Set peripheral bits to 1 to mark as privileged access only 0x40 -1 read-write n 0x0 0x0 BURAM BURAM Privileged Access 26 1 read-write BURTC BURTC Privileged Access 21 1 read-write CHIPTESTCTRL CHIPTESTCTRL Privileged Access 23 1 read-write CMU CMU Privileged Access 2 1 read-write DCDC DCDC Privileged Access 28 1 read-write DPLL0 DPLL0 Privileged Access 5 1 read-write EMU EMU Privileged Access 1 1 read-write EUSART1 EUSART1 Privileged Access 30 1 read-write EUSART2 EUSART2 Privileged Access 31 1 read-write FSRCO FSRCO Privileged Access 4 1 read-write GPCRC GPCRC Privileged Access 27 1 read-write GPIO GPIO Privileged Access 12 1 read-write HFRCO0 HFRCO0 Privileged Access 3 1 read-write HOSTMAILBOX HOSTMAILBOX Privileged Access 29 1 read-write I2C1 I2C1 Privileged Access 22 1 read-write ICACHE0 ICACHE0 Privileged Access 10 1 read-write LDMA LDMA Privileged Access 13 1 read-write LDMAXBAR LDMAXBAR Privileged Access 14 1 read-write LFRCO LFRCO Privileged Access 7 1 read-write LFXO LFXO Privileged Access 6 1 read-write MSC MSC Privileged Access 9 1 read-write PRS PRS Privileged Access 11 1 read-write SCRATCHPAD SCRATCHPAD Privileged Access 0 1 read-write SYSCFG SYSCFG Privileged Access 25 1 read-write SYSCFGCFGNS SYSCFGCFGNS Privileged Access 24 1 read-write TIMER0 TIMER0 Privileged Access 15 1 read-write TIMER1 TIMER1 Privileged Access 16 1 read-write TIMER2 TIMER2 Privileged Access 17 1 read-write TIMER3 TIMER3 Privileged Access 18 1 read-write TIMER4 TIMER4 Privileged Access 19 1 read-write ULFRCO ULFRCO Privileged Access 8 1 read-write USART0 USART0 Privileged Access 20 1 read-write PPUNSPATD1 Set peripheral bits to 1 to mark as privileged access only 0x44 -1 read-write n 0x0 0x0 ACMP0 ACMP0 Privileged Access 11 1 read-write ACMP1 ACMP1 Privileged Access 12 1 read-write AMUXCP0 AMUXCP0 Privileged Access 13 1 read-write DMEM DMEM Privileged Access 3 1 read-write EUSART0 EUSART0 Privileged Access 22 1 read-write HFRCO1 HFRCO1 Privileged Access 17 1 read-write HFXO0 HFXO0 Privileged Access 18 1 read-write I2C0 I2C0 Privileged Access 19 1 read-write IADC0 IADC0 Privileged Access 10 1 read-write KEYSCAN KEYSCAN Privileged Access 2 1 read-write LCD LCD Privileged Access 1 1 read-write LCDRF LCDRF Privileged Access 4 1 read-write LESENSE LESENSE Privileged Access 16 1 read-write LETIMER0 LETIMER0 Privileged Access 9 1 read-write PCNT PCNT Privileged Access 15 1 read-write PFMXPPRF PFMXPPRF Privileged Access 5 1 read-write SEMAILBOX SEMAILBOX Privileged Access 23 1 read-write SMU SMU Privileged Access 7 1 read-write SMUCFGNS SMUCFGNS Privileged Access 8 1 read-write SYSRTC SYSRTC Privileged Access 0 1 read-write VDAC0 VDAC0 Privileged Access 14 1 read-write WDOG0 WDOG0 Privileged Access 20 1 read-write WDOG1 WDOG1 Privileged Access 21 1 read-write SMU_S SMU_S Registers SMU_S 0x0 0x0 0x1000 registers n SMU_SECURE 0 SMU_PRIVILEGED 1 BMPUFS No Description 0x250 -1 read-only n 0x0 0x0 BMPUFSMASTERID Master ID 0 8 read-only BMPUFSADDR No Description 0x254 -1 read-only n 0x0 0x0 BMPUFSADDR Fault Address 0 32 read-only BMPUPATD0 Set master bits to 1 to mark as a privileged master 0x150 -1 read-write n 0x0 0x0 LDMA MCU LDMA privileged mode 2 1 read-write SEEXTDMA SEEXTDMA privileged mode 5 1 read-write BMPUSATD0 Set master bits to 1 to mark as a secure master 0x170 -1 read-write n 0x0 0x0 LDMA MCU LDMA secure mode 2 1 read-write SEEXTDMA SEEXTDMA secure mode 5 1 read-write ESAUMRB01 No Description 0x270 -1 read-write n 0x0 0x0 ESAUMRB01 Moveable Region Boundary 12 16 read-write ESAUMRB12 No Description 0x274 -1 read-write n 0x0 0x0 ESAUMRB12 Moveable Region Boundary 12 16 read-write ESAUMRB45 No Description 0x280 -1 read-write n 0x0 0x0 ESAUMRB45 Moveable Region Boundary 12 16 read-write ESAUMRB56 No Description 0x284 -1 read-write n 0x0 0x0 ESAUMRB56 Moveable Region Boundary 12 16 read-write ESAURTYPES0 No Description 0x260 -1 read-write n 0x0 0x0 ESAUR3NS Region 3 Non-Secure 12 1 read-write ESAURTYPES1 No Description 0x264 -1 read-write n 0x0 0x0 ESAUR11NS Region 11 Non-Secure 12 1 read-write IEN No Description 0x10 -1 read-write n 0x0 0x0 BMPUSEC BMPU Security Interrupt Enable 17 1 read-write PPUINST PPU Instruction Interrupt Enable 2 1 read-write PPUPRIV PPU Privilege Interrupt Enable 0 1 read-write PPUSEC PPU Security Interrupt Enable 16 1 read-write IF No Description 0xC -1 read-write n 0x0 0x0 BMPUSEC BMPU Security Interrupt Flag 17 1 read-write PPUINST PPU Instruction Interrupt Flag 2 1 read-write PPUPRIV PPU Privilege Interrupt Flag 0 1 read-write PPUSEC PPU Security Interrupt Flag 16 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x8 -1 write-only n 0x0 0x0 SMULOCKKEY 0 24 write-only UNLOCK Unlocks Registers 11325013 M33CTRL Holds the M33 control settings 0x20 -1 read-write n 0x0 0x0 LOCKNSMPU New BitField 3 1 read-write LOCKNSVTOR New BitField 1 1 read-write LOCKSAU New BitField 4 1 read-write LOCKSMPU New BitField 2 1 read-write LOCKSVTAIRCR New BitField 0 1 read-write PPUFS No Description 0x140 -1 read-only n 0x0 0x0 PPUFSPERIPHID Peripheral ID 0 8 read-only PPUPATD0 Set peripheral bits to 1 to mark as privileged access only 0x40 -1 read-write n 0x0 0x0 BURAM BURAM Privileged Access 26 1 read-write BURTC BURTC Privileged Access 21 1 read-write CHIPTESTCTRL CHIPTESTCTRL Privileged Access 23 1 read-write CMU CMU Privileged Access 2 1 read-write DCDC DCDC Privileged Access 28 1 read-write DPLL0 DPLL0 Privileged Access 5 1 read-write EMU EMU Privileged Access 1 1 read-write EUSART1 EUSART1 Privileged Access 30 1 read-write EUSART2 EUSART2 Privileged Access 31 1 read-write FSRCO FSRCO Privileged Access 4 1 read-write GPCRC GPCRC Privileged Access 27 1 read-write GPIO GPIO Privileged Access 12 1 read-write HFRCO0 HFRCO0 Privileged Access 3 1 read-write HOSTMAILBOX HOSTMAILBOX Privileged Access 29 1 read-write I2C1 I2C1 Privileged Access 22 1 read-write ICACHE0 ICACHE0 Privileged Access 10 1 read-write LDMA LDMA Privileged Access 13 1 read-write LDMAXBAR LDMAXBAR Privileged Access 14 1 read-write LFRCO LFRCO Privileged Access 7 1 read-write LFXO LFXO Privileged Access 6 1 read-write MSC MSC Privileged Access 9 1 read-write PRS PRS Privileged Access 11 1 read-write SYSCFG SYSCFG Privileged Access 25 1 read-write SYSCFGCFGNS SYSCFGCFGNS Privileged Access 24 1 read-write TIMER0 TIMER0 Privileged Access 15 1 read-write TIMER1 TIMER1 Privileged Access 16 1 read-write TIMER2 TIMER2 Privileged Access 17 1 read-write TIMER3 TIMER3 Privileged Access 18 1 read-write TIMER4 TIMER4 Privileged Access 19 1 read-write ULFRCO ULFRCO Privileged Access 8 1 read-write USART0 USART0 Privileged Access 20 1 read-write PPUPATD1 Set peripheral bits to 1 to mark as privileged access only 0x44 -1 read-write n 0x0 0x0 ACMP0 ACMP0 Privileged Access 11 1 read-write ACMP1 ACMP1 Privileged Access 12 1 read-write AMUXCP0 AMUXCP0 Privileged Access 13 1 read-write DMEM DMEM Privileged Access 3 1 read-write EUSART0 EUSART0 Privileged Access 22 1 read-write HFRCO1 HFRCO1 Privileged Access 17 1 read-write HFXO0 HFXO0 Privileged Access 18 1 read-write I2C0 I2C0 Privileged Access 19 1 read-write IADC0 IADC0 Privileged Access 10 1 read-write KEYSCAN KEYSCAN Privileged Access 2 1 read-write LCD LCD Privileged Access 1 1 read-write LCDRF LCDRF Privileged Access 4 1 read-write LESENSE LESENSE Privileged Access 16 1 read-write LETIMER0 LETIMER0 Privileged Access 9 1 read-write PCNT PCNT Privileged Access 15 1 read-write PFMXPPRF PFMXPPRF Privileged Access 5 1 read-write SEMAILBOX SEMAILBOX Privileged Access 23 1 read-write SMU SMU Privileged Access 7 1 read-write SMUCFGNS SMUCFGNS Privileged Access 8 1 read-write SYSRTC SYSRTC Privileged Access 0 1 read-write VDAC0 VDAC0 Privileged Access 14 1 read-write WDOG0 WDOG0 Privileged Access 20 1 read-write WDOG1 WDOG1 Privileged Access 21 1 read-write PPUSATD0 Set peripheral bits to 1 to mark as secure access only 0x60 -1 read-write n 0x0 0x0 BURAM BURAM Secure Access 26 1 read-write BURTC BURTC Secure Access 21 1 read-write CHIPTESTCTRL CHIPTESTCTRL Secure Access 23 1 read-write CMU CMU Secure Access 2 1 read-write DCDC DCDC Secure Access 28 1 read-write DPLL0 DPLL0 Secure Access 5 1 read-write EMU EMU Secure Access 1 1 read-write EUSART1 EUSART1 Secure Access 30 1 read-write EUSART2 EUSART2 Secure Access 31 1 read-write FSRCO FSRCO Secure Access 4 1 read-write GPCRC GPCRC Secure Access 27 1 read-write GPIO GPIO Secure Access 12 1 read-write HFRCO0 HFRCO0 Secure Access 3 1 read-write HOSTMAILBOX HOSTMAILBOX Secure Access 29 1 read-write I2C1 I2C1 Secure Access 22 1 read-write ICACHE0 ICACHE0 Secure Access 10 1 read-write LDMA LDMA Secure Access 13 1 read-write LDMAXBAR LDMAXBAR Secure Access 14 1 read-write LFRCO LFRCO Secure Access 7 1 read-write LFXO LFXO Secure Access 6 1 read-write MSC MSC Secure Access 9 1 read-write PRS PRS Secure Access 11 1 read-write SYSCFG SYSCFG Secure Access 25 1 read-write SYSCFGCFGNS SYSCFGCFGNS Secure Access 24 1 read-write TIMER0 TIMER0 Secure Access 15 1 read-write TIMER1 TIMER1 Secure Access 16 1 read-write TIMER2 TIMER2 Secure Access 17 1 read-write TIMER3 TIMER3 Secure Access 18 1 read-write TIMER4 TIMER4 Secure Access 19 1 read-write ULFRCO ULFRCO Secure Access 8 1 read-write USART0 USART0 Secure Access 20 1 read-write PPUSATD1 Set peripheral bits to 1 to mark as secure access only 0x64 -1 read-write n 0x0 0x0 ACMP0 ACMP0 Secure Access 11 1 read-write ACMP1 ACMP1 Secure Access 12 1 read-write AMUXCP0 AMUXCP0 Secure Access 13 1 read-write DMEM DMEM Secure Access 3 1 read-write EUSART0 EUSART0 Secure Access 22 1 read-write HFRCO1 HFRCO1 Secure Access 17 1 read-write HFXO0 HFXO0 Secure Access 18 1 read-write I2C0 I2C0 Secure Access 19 1 read-write IADC0 IADC0 Secure Access 10 1 read-write KEYSCAN KEYSCAN Secure Access 2 1 read-write LCD LCD Secure Access 1 1 read-write LCDRF LCDRF Secure Access 4 1 read-write LESENSE LESENSE Secure Access 16 1 read-write LETIMER0 LETIMER0 Secure Access 9 1 read-write PCNT PCNT Secure Access 15 1 read-write PFMXPPRF PFMXPPRF Secure Access 5 1 read-write SEMAILBOX SEMAILBOX Secure Access 23 1 read-write SMU SMU Secure Access 7 1 read-write SMUCFGNS SMUCFGNS Secure Access 8 1 read-write SYSRTC SYSRTC Secure Access 0 1 read-write VDAC0 VDAC0 Secure Access 14 1 read-write WDOG0 WDOG0 Secure Access 20 1 read-write WDOG1 WDOG1 Secure Access 21 1 read-write STATUS No Description 0x4 -1 read-only n 0x0 0x0 SMULOCK SMU Lock 0 1 read-only UNLOCKED 0 LOCKED 1 SMUPRGERR SMU Programming Error 1 1 read-only SMU_S_CFGNS SMU_S_CFGNS Registers SMU_S_CFGNS 0x0 0x0 0x1000 registers n SMU_SECURE 0 SMU_PRIVILEGED 1 BMPUNSPATD0 No Description 0x150 -1 read-write n 0x0 0x0 LDMA MCU LDMA privileged mode 2 1 read-write RADIOAES RADIO AES DMA privileged mode 0 1 read-write RADIOSUBSYSTEM RADIO subsystem masters privileged mode 1 1 read-write RFECA0 RFECA0 privileged mode 3 1 read-write RFECA1 RFECA1 privileged mode 4 1 read-write SEEXTDMA SEEXTDMA privileged mode 5 1 read-write NSIEN No Description 0x10 -1 read-write n 0x0 0x0 PPUNSINST PPUNS Instruction Interrupt Enable 2 1 read-write PPUNSPRIV PPUNS Privilege Interrupt Enable 0 1 read-write NSIF No Description 0xC -1 read-write n 0x0 0x0 PPUNSINST PPUNS Instruction Interrupt Flag 2 1 read-write PPUNSPRIV PPUNS Privilege Interrupt Flag 0 1 read-write NSLOCK No Description 0x8 -1 write-only n 0x0 0x0 SMUNSLOCKKEY 0 24 write-only UNLOCK Unlocks Registers 11325013 NSSTATUS No Description 0x4 -1 read-only n 0x0 0x0 SMUNSLOCK SMUNS Lock 0 1 read-only UNLOCKED 0 LOCKED 1 PPUNSFS No Description 0x140 -1 read-only n 0x0 0x0 PPUFSPERIPHID Peripheral I 0 8 read-only PPUNSPATD0 Set peripheral bits to 1 to mark as privileged access only 0x40 -1 read-write n 0x0 0x0 BURAM BURAM Privileged Access 26 1 read-write BURTC BURTC Privileged Access 21 1 read-write CHIPTESTCTRL CHIPTESTCTRL Privileged Access 23 1 read-write CMU CMU Privileged Access 2 1 read-write DCDC DCDC Privileged Access 28 1 read-write DPLL0 DPLL0 Privileged Access 5 1 read-write EMU EMU Privileged Access 1 1 read-write EUSART1 EUSART1 Privileged Access 30 1 read-write EUSART2 EUSART2 Privileged Access 31 1 read-write FSRCO FSRCO Privileged Access 4 1 read-write GPCRC GPCRC Privileged Access 27 1 read-write GPIO GPIO Privileged Access 12 1 read-write HFRCO0 HFRCO0 Privileged Access 3 1 read-write HOSTMAILBOX HOSTMAILBOX Privileged Access 29 1 read-write I2C1 I2C1 Privileged Access 22 1 read-write ICACHE0 ICACHE0 Privileged Access 10 1 read-write LDMA LDMA Privileged Access 13 1 read-write LDMAXBAR LDMAXBAR Privileged Access 14 1 read-write LFRCO LFRCO Privileged Access 7 1 read-write LFXO LFXO Privileged Access 6 1 read-write MSC MSC Privileged Access 9 1 read-write PRS PRS Privileged Access 11 1 read-write SCRATCHPAD SCRATCHPAD Privileged Access 0 1 read-write SYSCFG SYSCFG Privileged Access 25 1 read-write SYSCFGCFGNS SYSCFGCFGNS Privileged Access 24 1 read-write TIMER0 TIMER0 Privileged Access 15 1 read-write TIMER1 TIMER1 Privileged Access 16 1 read-write TIMER2 TIMER2 Privileged Access 17 1 read-write TIMER3 TIMER3 Privileged Access 18 1 read-write TIMER4 TIMER4 Privileged Access 19 1 read-write ULFRCO ULFRCO Privileged Access 8 1 read-write USART0 USART0 Privileged Access 20 1 read-write PPUNSPATD1 Set peripheral bits to 1 to mark as privileged access only 0x44 -1 read-write n 0x0 0x0 ACMP0 ACMP0 Privileged Access 11 1 read-write ACMP1 ACMP1 Privileged Access 12 1 read-write AMUXCP0 AMUXCP0 Privileged Access 13 1 read-write DMEM DMEM Privileged Access 3 1 read-write EUSART0 EUSART0 Privileged Access 22 1 read-write HFRCO1 HFRCO1 Privileged Access 17 1 read-write HFXO0 HFXO0 Privileged Access 18 1 read-write I2C0 I2C0 Privileged Access 19 1 read-write IADC0 IADC0 Privileged Access 10 1 read-write KEYSCAN KEYSCAN Privileged Access 2 1 read-write LCD LCD Privileged Access 1 1 read-write LCDRF LCDRF Privileged Access 4 1 read-write LESENSE LESENSE Privileged Access 16 1 read-write LETIMER0 LETIMER0 Privileged Access 9 1 read-write PCNT PCNT Privileged Access 15 1 read-write PFMXPPRF PFMXPPRF Privileged Access 5 1 read-write SEMAILBOX SEMAILBOX Privileged Access 23 1 read-write SMU SMU Privileged Access 7 1 read-write SMUCFGNS SMUCFGNS Privileged Access 8 1 read-write SYSRTC SYSRTC Privileged Access 0 1 read-write VDAC0 VDAC0 Privileged Access 14 1 read-write WDOG0 WDOG0 Privileged Access 20 1 read-write WDOG1 WDOG1 Privileged Access 21 1 read-write SYSCFG_NS SYSCFG_NS Registers SYSCFG_NS 0x0 0x0 0x1000 registers n SYSCFG 20 SW0 57 SW1 58 SW2 59 SW3 60 CFGSYSTIC Configure the source of the system tick for the M33. 0x24 -1 read-write n 0x0 0x0 SYSTICEXTCLKEN SysTick External Clock Enable 0 1 read-write CHIPREV Read to get the chip revision programmed by feature configuration. 0x18 -1 read-write n 0x0 0x0 FAMILY Chip Family value 6 6 read-write MAJOR Chip Revision Major value 0 6 read-write MINOR Chip Revision Minor value 12 8 read-write CHIPREVHW Read to get the hard-wired chip revision. 0x14 -1 read-write n 0x0 0x0 FAMILY Hardwired Chip Family value 6 6 read-write MAJOR Hardwired Chip Revision Major value 0 6 read-write MINOR Hardwired Chip Revision Minor value 12 8 read-write CTRL Configure to provide general RAM configuration. 0x200 -1 read-write n 0x0 0x0 ADDRFAULTEN Invalid Address Bus Fault Response Enabl 0 1 read-write CLKDISFAULTEN Disabled Clkbus Bus Fault Enable 1 1 read-write RAMECCERRFAULTEN Two bit ECC error bus fault response ena 5 1 read-write DMEM0PORTMAPSEL Configure DMEM0 port remap selection. 0x41C -1 read-write n 0x0 0x0 AHBSRWPORTSEL AHBSRW portmap selection 2 1 read-write LDMAPORTSEL LDMA portmap selection 0 1 read-write SRWAESPORTSEL SRWAES portmap selection 1 1 read-write SRWECA0PORTSEL SRWECA0 portmap selection 3 1 read-write SRWECA1PORTSEL SRWECA1 portmap selection 4 1 read-write DMEM0RETNCTRL Configure to provide general RAM retention configuration. 0x208 -1 read-write n 0x0 0x0 RAMRETNCTRL DMEM0 blockset retention control 0 3 read-write ALLON None of the RAM blocks powered down 0 BLK3 Power down RAM block 3 (address range 0x2000C000-0x20010000) 4 BLK2TO3 Power down RAM blocks 3 and above (address range 0x20008000-0x20010000) 6 BLK1TO3 Power down RAM blocks 1 and above (address range 0x20004000-0x20010000) 7 ICACHERAMRETNCTRL Configure Host ICACHERAM retention configuration. 0x418 -1 read-write n 0x0 0x0 RAMRETNCTRL ICACHERAM Retention control 0 1 read-write ALLON None of the Host ICACHE RAM blocks powered down 0 ALLOFF Power down all Host ICACHE RAM blocks 1 IEN Write to enable interrupts. 0xC -1 read-write n 0x0 0x0 FPDZC FPU Divide by zero Interrupt Enable 9 1 read-write FPIDC FPU Input denormal Interrupt Enable 12 1 read-write FPIOC FPU Invalid Operation Interrupt Enable 8 1 read-write FPIXC FPU Inexact Interrupt Enable 13 1 read-write FPOFC FPU Overflow Interrupt Enable 11 1 read-write FPUFC FPU Underflow Interrupt Enable 10 1 read-write FRCRAMERR1B FRCRAM Error 1-bit Interrupt Enable 28 1 read-write FRCRAMERR2B FRCRAM Error 2-bit Interrupt Enable 29 1 read-write SEQRAMERR1B SEQRAM Error 1-bit Interrupt Enable 24 1 read-write SEQRAMERR2B SEQRAM Error 2-bit Interrupt Enable 25 1 read-write SW0 Software Interrupt Enable 0 1 read-write SW1 Software Interrupt Enable 1 1 read-write SW2 Software Interrupt Enable 2 1 read-write SW3 Software Interrupt Enable 3 1 read-write IF Read to get system status. 0x8 -1 read-write n 0x0 0x0 FPDZC FPU Divide by zero interrupt flag 9 1 read-write FPIDC FPU Input denormal interrupt flag 12 1 read-write FPIOC FPU Invalid Operation interrupt flag 8 1 read-write FPIXC FPU Inexact interrupt flag 13 1 read-write FPOFC FPU Overflow interrupt flag 11 1 read-write FPUFC FPU Underflow interrupt flag 10 1 read-write FRCRAMERR1B FRCRAM Error 1-bit Interrupt Flag 28 1 read-write FRCRAMERR2B FRCRAM Error 2-bit Interrupt Flag 29 1 read-write SEQRAMERR1B SEQRAM Error 1-bit Interrupt Flag 24 1 read-write SEQRAMERR2B SEQRAM Error 2-bit Interrupt Flag 25 1 read-write SW0 Software Interrupt Flag 0 1 read-write SW1 Software Interrupt Flag 1 1 read-write SW2 Software Interrupt Flag 2 1 read-write SW3 Software Interrupt Flag 3 1 read-write IPVERSION No Description 0x4 -1 read-only n 0x0 0x0 IPVERSION New BitField 0 32 read-only RAMBIASCONF Configure RAM bias configure bits. 0x30C -1 read-write n 0x0 0x0 RAMBIASCTRL RAM Bias Control 0 4 read-write No None 0 VSB100 Voltage Source Bias 100mV 1 VSB200 Voltage Source Bias 200mV 2 VSB300 Voltage Source Bias 300mV 4 VSB400 Voltage Source Bias 400mV 8 ROOTDATA0 Generic data space for user to pass to root, e.g., address of struct in mem 0x600 -1 read-write n 0x0 0x0 DATA Data 0 32 read-write ROOTDATA1 Generic data space for user to pass to root, e.g., address of struct in mem 0x604 -1 read-write n 0x0 0x0 DATA Data 0 32 read-write ROOTLOCKSTATUS This register returns the status of the SE managed locks. 0x608 -1 read-only n 0x0 0x0 BUSLOCK Bus Lock 0 1 read-only EFUSEUNLOCKED E-Fuse Unlocked 31 1 read-only MFRLOCK Manufacture Lock 2 1 read-only REGLOCK Register Lock 1 1 read-only ROOTDBGLOCK Root Debug Lock 8 1 read-only USERDBGAPLOCK User Debug Access Port Lock 16 1 read-only USERDBGLOCK User Invasive Debug Lock 17 1 read-only USERNIDLOCK User Non-invasive Debug Lock 18 1 read-only USERSPIDLOCK User Secure Invasive Debug Lock 19 1 read-only USERSPNIDLOCK User Secure Non-invasive Debug Lock 20 1 read-only ROOTSESWVERSION SE Software version 0x60C -1 read-write n 0x0 0x0 SWVERSION SW Version 0 32 read-write SYSCFG_NS_CFGNS SYSCFG_NS_CFGNS Registers SYSCFG_NS_CFGNS 0x0 0x0 0x1000 registers n SYSCFG 20 SW0 57 SW1 58 SW2 59 SW3 60 CFGNSTCALIB Configure to define the system tick for the M33. 0x1C -1 read-write n 0x0 0x0 NOREF No Reference 25 1 read-write REF Reference clock is implemented 0 NOREF Reference clock is not implemented 1 SKEW Skew 24 1 read-write TENMS Ten Milliseconds 0 24 read-write ROOTNSDATA0 Generic data space for user to pass to root, e.g., address of struct in mem 0x600 -1 read-write n 0x0 0x0 DATA Data 0 32 read-write ROOTNSDATA1 Generic data space for user to pass to root, e.g., address of struct in mem 0x604 -1 read-write n 0x0 0x0 DATA Data 0 32 read-write SYSCFG_S SYSCFG_S Registers SYSCFG_S 0x0 0x0 0x1000 registers n SYSCFG 20 SW0 57 SW1 58 SW2 59 SW3 60 CFGSYSTIC Configure the source of the system tick for the M33. 0x24 -1 read-write n 0x0 0x0 SYSTICEXTCLKEN SysTick External Clock Enable 0 1 read-write CHIPREV Read to get the chip revision programmed by feature configuration. 0x18 -1 read-write n 0x0 0x0 FAMILY Chip Family value 6 6 read-write MAJOR Chip Revision Major value 0 6 read-write MINOR Chip Revision Minor value 12 8 read-write CHIPREVHW Read to get the hard-wired chip revision. 0x14 -1 read-write n 0x0 0x0 FAMILY Hardwired Chip Family value 6 6 read-write MAJOR Hardwired Chip Revision Major value 0 6 read-write MINOR Hardwired Chip Revision Minor value 12 8 read-write CTRL Configure to provide general RAM configuration. 0x200 -1 read-write n 0x0 0x0 ADDRFAULTEN Invalid Address Bus Fault Response Enabl 0 1 read-write CLKDISFAULTEN Disabled Clkbus Bus Fault Enable 1 1 read-write RAMECCERRFAULTEN Two bit ECC error bus fault response ena 5 1 read-write DMEM0PORTMAPSEL Configure DMEM0 port remap selection. 0x41C -1 read-write n 0x0 0x0 AHBSRWPORTSEL AHBSRW portmap selection 2 1 read-write LDMAPORTSEL LDMA portmap selection 0 1 read-write SRWAESPORTSEL SRWAES portmap selection 1 1 read-write SRWECA0PORTSEL SRWECA0 portmap selection 3 1 read-write SRWECA1PORTSEL SRWECA1 portmap selection 4 1 read-write DMEM0RETNCTRL Configure to provide general RAM retention configuration. 0x208 -1 read-write n 0x0 0x0 RAMRETNCTRL DMEM0 blockset retention control 0 3 read-write ALLON None of the RAM blocks powered down 0 BLK3 Power down RAM block 3 (address range 0x2000C000-0x20010000) 4 BLK2TO3 Power down RAM blocks 3 and above (address range 0x20008000-0x20010000) 6 BLK1TO3 Power down RAM blocks 1 and above (address range 0x20004000-0x20010000) 7 ICACHERAMRETNCTRL Configure Host ICACHERAM retention configuration. 0x418 -1 read-write n 0x0 0x0 RAMRETNCTRL ICACHERAM Retention control 0 1 read-write ALLON None of the Host ICACHE RAM blocks powered down 0 ALLOFF Power down all Host ICACHE RAM blocks 1 IEN Write to enable interrupts. 0xC -1 read-write n 0x0 0x0 FPDZC FPU Divide by zero Interrupt Enable 9 1 read-write FPIDC FPU Input denormal Interrupt Enable 12 1 read-write FPIOC FPU Invalid Operation Interrupt Enable 8 1 read-write FPIXC FPU Inexact Interrupt Enable 13 1 read-write FPOFC FPU Overflow Interrupt Enable 11 1 read-write FPUFC FPU Underflow Interrupt Enable 10 1 read-write FRCRAMERR1B FRCRAM Error 1-bit Interrupt Enable 28 1 read-write FRCRAMERR2B FRCRAM Error 2-bit Interrupt Enable 29 1 read-write SEQRAMERR1B SEQRAM Error 1-bit Interrupt Enable 24 1 read-write SEQRAMERR2B SEQRAM Error 2-bit Interrupt Enable 25 1 read-write SW0 Software Interrupt Enable 0 1 read-write SW1 Software Interrupt Enable 1 1 read-write SW2 Software Interrupt Enable 2 1 read-write SW3 Software Interrupt Enable 3 1 read-write IF Read to get system status. 0x8 -1 read-write n 0x0 0x0 FPDZC FPU Divide by zero interrupt flag 9 1 read-write FPIDC FPU Input denormal interrupt flag 12 1 read-write FPIOC FPU Invalid Operation interrupt flag 8 1 read-write FPIXC FPU Inexact interrupt flag 13 1 read-write FPOFC FPU Overflow interrupt flag 11 1 read-write FPUFC FPU Underflow interrupt flag 10 1 read-write FRCRAMERR1B FRCRAM Error 1-bit Interrupt Flag 28 1 read-write FRCRAMERR2B FRCRAM Error 2-bit Interrupt Flag 29 1 read-write SEQRAMERR1B SEQRAM Error 1-bit Interrupt Flag 24 1 read-write SEQRAMERR2B SEQRAM Error 2-bit Interrupt Flag 25 1 read-write SW0 Software Interrupt Flag 0 1 read-write SW1 Software Interrupt Flag 1 1 read-write SW2 Software Interrupt Flag 2 1 read-write SW3 Software Interrupt Flag 3 1 read-write IPVERSION No Description 0x4 -1 read-only n 0x0 0x0 IPVERSION New BitField 0 32 read-only RAMBIASCONF Configure RAM bias configure bits. 0x30C -1 read-write n 0x0 0x0 RAMBIASCTRL RAM Bias Control 0 4 read-write No None 0 VSB100 Voltage Source Bias 100mV 1 VSB200 Voltage Source Bias 200mV 2 VSB300 Voltage Source Bias 300mV 4 VSB400 Voltage Source Bias 400mV 8 ROOTDATA0 Generic data space for user to pass to root, e.g., address of struct in mem 0x600 -1 read-write n 0x0 0x0 DATA Data 0 32 read-write ROOTDATA1 Generic data space for user to pass to root, e.g., address of struct in mem 0x604 -1 read-write n 0x0 0x0 DATA Data 0 32 read-write ROOTLOCKSTATUS This register returns the status of the SE managed locks. 0x608 -1 read-only n 0x0 0x0 BUSLOCK Bus Lock 0 1 read-only EFUSEUNLOCKED E-Fuse Unlocked 31 1 read-only MFRLOCK Manufacture Lock 2 1 read-only REGLOCK Register Lock 1 1 read-only ROOTDBGLOCK Root Debug Lock 8 1 read-only USERDBGAPLOCK User Debug Access Port Lock 16 1 read-only USERDBGLOCK User Invasive Debug Lock 17 1 read-only USERNIDLOCK User Non-invasive Debug Lock 18 1 read-only USERSPIDLOCK User Secure Invasive Debug Lock 19 1 read-only USERSPNIDLOCK User Secure Non-invasive Debug Lock 20 1 read-only ROOTSESWVERSION SE Software version 0x60C -1 read-write n 0x0 0x0 SWVERSION SW Version 0 32 read-write SYSCFG_S_CFGNS SYSCFG_S_CFGNS Registers SYSCFG_S_CFGNS 0x0 0x0 0x1000 registers n SYSCFG 20 SW0 57 SW1 58 SW2 59 SW3 60 CFGNSTCALIB Configure to define the system tick for the M33. 0x1C -1 read-write n 0x0 0x0 NOREF No Reference 25 1 read-write REF Reference clock is implemented 0 NOREF Reference clock is not implemented 1 SKEW Skew 24 1 read-write TENMS Ten Milliseconds 0 24 read-write ROOTNSDATA0 Generic data space for user to pass to root, e.g., address of struct in mem 0x600 -1 read-write n 0x0 0x0 DATA Data 0 32 read-write ROOTNSDATA1 Generic data space for user to pass to root, e.g., address of struct in mem 0x604 -1 read-write n 0x0 0x0 DATA Data 0 32 read-write SYSRTC0_NS SYSRTC0_NS Registers SYSRTC0_NS 0x0 0x0 0x1000 registers n CFG No Description 0xC -1 read-write n 0x0 0x0 DEBUGRUN Debug Mode Run Enable 0 1 read-write DISABLE SYSRTC is frozen in debug mode 0 ENABLE SYSRTC is running in debug mode 1 CMD No Description 0x10 -1 write-only n 0x0 0x0 START Start SYSRTC 0 1 write-only STOP Stop SYSRTC 1 1 write-only CNT No Description 0x18 -1 read-write n 0x0 0x0 CNT Counter Value 0 32 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN SYSRTC Enable 0 1 read-write GRP0_CAP0VALUE No Description 0x54 -1 read-only n 0x0 0x0 CAP0VALUE Capture 0 Value 0 32 read-only GRP0_CMP0VALUE No Description 0x4C -1 read-write n 0x0 0x0 CMP0VALUE Compare 0 Value 0 32 read-write GRP0_CMP1VALUE No Description 0x50 -1 read-write n 0x0 0x0 CMP1VALUE Compare 1 Value 0 32 read-write GRP0_CTRL No Description 0x48 -1 read-write n 0x0 0x0 CAP0EDGE Capture 0 Edge Select 9 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 CAP0EN Capture 0 Enable 2 1 read-write CMP0CMOA Compare 0 Compare Match Output Action 3 3 read-write CLEAR Cleared on the next cycle 0 SET Set on the next cycle 1 PULSE Set on the next cycle, cleared on the cycle after 2 TOGGLE Inverted on the next cycle 3 CMPIF Export this channel's CMP IF 4 CMP0EN Compare 0 Enable 0 1 read-write CMP1CMOA Compare 1 Compare Match Output Action 6 3 read-write CLEAR Cleared on the next cycle 0 SET Set on the next cycle 1 PULSE Set on the next cycle, cleared on the cycle after 2 TOGGLE Inverted on the next cycle 3 CMPIF Export this channel's CMP IF 4 CMP1EN Compare 1 Enable 1 1 read-write GRP0_IEN No Description 0x44 -1 read-write n 0x0 0x0 CAP0 Capture 0 Interrupt Enable 3 1 read-write CMP0 Compare 0 Interrupt Enable 1 1 read-write CMP1 Compare 1 Interrupt Enable 2 1 read-write OVF Overflow Interrupt Enable 0 1 read-write GRP0_IF No Description 0x40 -1 read-write n 0x0 0x0 CAP0 Capture 0 Interrupt Flag 3 1 read-write CMP0 Compare 0 Interrupt Flag 1 1 read-write CMP1 Compare 1 Interrupt Flag 2 1 read-write OVF Overflow Interrupt Flag 0 1 read-write GRP0_SYNCBUSY No Description 0x58 -1 read-only n 0x0 0x0 CMP0VALUE Sync busy for CMP0VALUE register 1 1 read-only CMP1VALUE Sync busy for CMP1VALUE register 2 1 read-only CTRL Sync busy for CTRL register 0 1 read-only IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP VERSION 0 32 read-only LOCK No Description 0x20 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write to unlock SYSRTC lockable registers 18294 STATUS No Description 0x14 -1 read-only n 0x0 0x0 LOCKSTATUS Lock Status 1 1 read-only UNLOCKED SYSRTC registers are unlocked 0 LOCKED SYSRTC registers are locked 1 RUNNING SYSRTC running status 0 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only SYNCBUSY No Description 0x1C -1 read-only n 0x0 0x0 CNT Sync busy for CNT bitfield 2 1 read-only START Sync busy for START bitfield 0 1 read-only STOP Sync busy for STOP bitfield 1 1 read-only SYSRTC0_S SYSRTC0_S Registers SYSRTC0_S 0x0 0x0 0x1000 registers n CFG No Description 0xC -1 read-write n 0x0 0x0 DEBUGRUN Debug Mode Run Enable 0 1 read-write DISABLE SYSRTC is frozen in debug mode 0 ENABLE SYSRTC is running in debug mode 1 CMD No Description 0x10 -1 write-only n 0x0 0x0 START Start SYSRTC 0 1 write-only STOP Stop SYSRTC 1 1 write-only CNT No Description 0x18 -1 read-write n 0x0 0x0 CNT Counter Value 0 32 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN SYSRTC Enable 0 1 read-write GRP0_CAP0VALUE No Description 0x54 -1 read-only n 0x0 0x0 CAP0VALUE Capture 0 Value 0 32 read-only GRP0_CMP0VALUE No Description 0x4C -1 read-write n 0x0 0x0 CMP0VALUE Compare 0 Value 0 32 read-write GRP0_CMP1VALUE No Description 0x50 -1 read-write n 0x0 0x0 CMP1VALUE Compare 1 Value 0 32 read-write GRP0_CTRL No Description 0x48 -1 read-write n 0x0 0x0 CAP0EDGE Capture 0 Edge Select 9 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 CAP0EN Capture 0 Enable 2 1 read-write CMP0CMOA Compare 0 Compare Match Output Action 3 3 read-write CLEAR Cleared on the next cycle 0 SET Set on the next cycle 1 PULSE Set on the next cycle, cleared on the cycle after 2 TOGGLE Inverted on the next cycle 3 CMPIF Export this channel's CMP IF 4 CMP0EN Compare 0 Enable 0 1 read-write CMP1CMOA Compare 1 Compare Match Output Action 6 3 read-write CLEAR Cleared on the next cycle 0 SET Set on the next cycle 1 PULSE Set on the next cycle, cleared on the cycle after 2 TOGGLE Inverted on the next cycle 3 CMPIF Export this channel's CMP IF 4 CMP1EN Compare 1 Enable 1 1 read-write GRP0_IEN No Description 0x44 -1 read-write n 0x0 0x0 CAP0 Capture 0 Interrupt Enable 3 1 read-write CMP0 Compare 0 Interrupt Enable 1 1 read-write CMP1 Compare 1 Interrupt Enable 2 1 read-write OVF Overflow Interrupt Enable 0 1 read-write GRP0_IF No Description 0x40 -1 read-write n 0x0 0x0 CAP0 Capture 0 Interrupt Flag 3 1 read-write CMP0 Compare 0 Interrupt Flag 1 1 read-write CMP1 Compare 1 Interrupt Flag 2 1 read-write OVF Overflow Interrupt Flag 0 1 read-write GRP0_SYNCBUSY No Description 0x58 -1 read-only n 0x0 0x0 CMP0VALUE Sync busy for CMP0VALUE register 1 1 read-only CMP1VALUE Sync busy for CMP1VALUE register 2 1 read-only CTRL Sync busy for CTRL register 0 1 read-only IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP VERSION 0 32 read-only LOCK No Description 0x20 -1 write-only n 0x0 0x0 LOCKKEY Configuration Lock Key 0 16 write-only UNLOCK Write to unlock SYSRTC lockable registers 18294 STATUS No Description 0x14 -1 read-only n 0x0 0x0 LOCKSTATUS Lock Status 1 1 read-only UNLOCKED SYSRTC registers are unlocked 0 LOCKED SYSRTC registers are locked 1 RUNNING SYSRTC running status 0 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only SYNCBUSY No Description 0x1C -1 read-only n 0x0 0x0 CNT Sync busy for CNT bitfield 2 1 read-only START Sync busy for START bitfield 0 1 read-only STOP Sync busy for STOP bitfield 1 1 read-only TIMER0_NS TIMER0_NS Registers TIMER0_NS 0x0 0x0 0x1000 registers n TIMER0 4 CC0_CFG No Description 0x60 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC0_ICF No Description 0x74 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 32 read-only CC0_ICOF No Description 0x78 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 32 read-only CC0_OC No Description 0x68 -1 read-write n 0x0 0x0 OC Output Compare Value 0 32 read-write CC0_OCB No Description 0x70 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 32 read-write CC1_CFG No Description 0x80 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC1_CTRL No Description 0x84 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC1_ICF No Description 0x94 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 32 read-only CC1_ICOF No Description 0x98 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 32 read-only CC1_OC No Description 0x88 -1 read-write n 0x0 0x0 OC Output Compare Value 0 32 read-write CC1_OCB No Description 0x90 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 32 read-write CC2_CFG No Description 0xA0 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC2_CTRL No Description 0xA4 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC2_ICF No Description 0xB4 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 32 read-only CC2_ICOF No Description 0xB8 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 32 read-only CC2_OC No Description 0xA8 -1 read-write n 0x0 0x0 OC Output Compare Value 0 32 read-write CC2_OCB No Description 0xB0 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 32 read-write CFG No Description 0x4 -1 read-write n 0x0 0x0 ATI Always Track Inputs 16 1 read-write CLKSEL Clock Source Select 8 2 read-write PRESCEM01GRPACLK Prescaled EM01GRPACLK 0 CC1 Compare/Capture Channel 1 Input 1 TIMEROUF Timer is clocked by underflow(down-count) or overflow(up-count) in the lower numbered neighbor Timer 2 DEBUGRUN Debug Mode Run Enable 6 1 read-write HALT Timer is halted in debug mode 0 RUN Timer is running in debug mode 1 DISSYNCOUT Disable Timer Start/Stop/Reload output 11 1 read-write EN Timer can start/stop/reload other timers with SYNC bit set 0 DIS Timer cannot start/stop/reload other timers with SYNC bit set 1 DMACLRACT DMA Request Clear on Active 7 1 read-write MODE Timer Mode 0 2 read-write UP Up-count mode 0 DOWN Down-count mode 1 UPDOWN Up/down-count mode 2 QDEC Quadrature decoder mode 3 OSMEN One-shot Mode Enable 4 1 read-write PRESC Prescaler Setting 18 10 read-write DIV1 No prescaling 0 DIV2 Prescale by 2 1 DIV1024 Prescale by 1024 1023 DIV128 Prescale by 128 127 DIV16 Prescale by 16 15 DIV256 Prescale by 256 255 DIV4 Prescale by 4 3 DIV32 Prescale by 32 31 DIV512 Prescale by 512 511 DIV64 Prescale by 64 63 DIV8 Prescale by 8 7 QDM Quadrature Decoder Mode Selection 5 1 read-write X2 X2 mode selected 0 X4 X4 mode selected 1 RETIMEEN PWM output retimed enable 10 1 read-write DISABLE PWM outputs are not re-timed. 0 ENABLE PWM outputs are re-timed. 1 RSSCOIST Reload-Start Sets COIST 17 1 read-write SYNC Timer Start/Stop/Reload Synchronization 3 1 read-write DISABLE Timer operation is unaffected by other timers. 0 ENABLE Timer may be started, stopped and re-loaded from other timer instances. 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start Timer 0 1 write-only STOP Stop Timer 1 1 write-only CNT No Description 0x24 -1 read-write n 0x0 0x0 CNT Counter Value 0 32 read-write CTRL No Description 0x8 -1 read-write n 0x0 0x0 FALLA Timer Falling Input Edge Action 2 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 RISEA Timer Rising Input Edge Action 0 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 X2CNT 2x Count Mode 4 1 read-write DTCFG No Description 0xE0 -1 read-write n 0x0 0x0 DTAR DTI Always Run 9 1 read-write DTDAS DTI Automatic Start-up Functionality 1 1 read-write NORESTART No DTI restart on debugger exit 0 RESTART DTI restart on debugger exit 1 DTEN DTI Enable 0 1 read-write DTFATS DTI Fault Action on Timer Stop 10 1 read-write DTPRSEN DTI PRS Source Enable 11 1 read-write DTCTRL No Description 0xEC -1 read-write n 0x0 0x0 DTCINV DTI Complementary Output Invert. 0 1 read-write DTIPOL DTI Inactive Polarity 1 1 read-write DTFAULT No Description 0xF4 -1 read-only n 0x0 0x0 DTDBGF DTI Debugger Fault 2 1 read-only DTEM23F DTI EM23 Entry Fault 4 1 read-only DTLOCKUPF DTI Lockup Fault 3 1 read-only DTPRS0F DTI PRS 0 Fault 0 1 read-only DTPRS1F DTI PRS 1 Fault 1 1 read-only DTFAULTC No Description 0xF8 -1 write-only n 0x0 0x0 DTDBGFC DTI Debugger Fault Clear 2 1 write-only DTEM23FC DTI EM23 Fault Clear 4 1 write-only DTLOCKUPFC DTI Lockup Fault Clear 3 1 write-only DTPRS0FC DTI PRS0 Fault Clear 0 1 write-only DTPRS1FC DTI PRS1 Fault Clear 1 1 write-only DTFCFG No Description 0xE8 -1 read-write n 0x0 0x0 DTDBGFEN DTI Debugger Fault Enable 26 1 read-write DTEM23FEN DTI EM23 Fault Enable 28 1 read-write DTFA DTI Fault Action 16 2 read-write NONE No action on fault 0 INACTIVE Set outputs inactive 1 CLEAR Clear outputs 2 TRISTATE Tristate outputs 3 DTLOCKUPFEN DTI Lockup Fault Enable 27 1 read-write DTPRS0FEN DTI PRS 0 Fault Enable 24 1 read-write DTPRS1FEN DTI PRS 1 Fault Enable 25 1 read-write DTLOCK No Description 0xFC -1 write-only n 0x0 0x0 DTILOCKKEY DTI Lock Key 0 16 write-only UNLOCK Write to unlock TIMER DTI registers 52864 DTOGEN No Description 0xF0 -1 read-write n 0x0 0x0 DTOGCC0EN DTI CCn Output Generation Enable 0 1 read-write DTOGCC1EN DTI CCn Output Generation Enable 1 1 read-write DTOGCC2EN DTI CCn Output Generation Enable 2 1 read-write DTOGCDTI0EN DTI CDTIn Output Generation Enable 3 1 read-write DTOGCDTI1EN DTI CDTIn Output Generation Enable 4 1 read-write DTOGCDTI2EN DTI CDTIn Output Generation Enable 5 1 read-write DTTIMECFG No Description 0xE4 -1 read-write n 0x0 0x0 DTFALLT DTI Fall-time 16 6 read-write DTPRESC DTI Prescaler Setting 0 10 read-write DTRISET DTI Rise-time 10 6 read-write EN No Description 0x30 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Timer Module Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 CC0 CC0 Interrupt Enable 4 1 read-write CC1 CC1 Interrupt Enable 5 1 read-write CC2 CC2 Interrupt Enable 6 1 read-write DIRCHG Direction Change Detect Interrupt Enable 2 1 read-write ICFOF0 ICFOF0 Interrupt Enable 20 1 read-write ICFOF1 ICFOF1 Interrupt Enable 21 1 read-write ICFOF2 ICFOF2 Interrupt Enable 22 1 read-write ICFUF0 ICFUF0 Interrupt Enable 24 1 read-write ICFUF1 ICFUF1 Interrupt Enable 25 1 read-write ICFUF2 ICFUF2 Interrupt Enable 26 1 read-write ICFWLFULL0 ICFWLFULL0 Interrupt Enable 16 1 read-write ICFWLFULL1 ICFWLFULL1 Interrupt Enable 17 1 read-write ICFWLFULL2 ICFWLFULL2 Interrupt Enable 18 1 read-write OF Overflow Interrupt Enable 0 1 read-write UF Underflow Interrupt Enable 1 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 CC0 Capture Compare Channel 0 Interrupt Flag 4 1 read-write CC1 Capture Compare Channel 1 Interrupt Flag 5 1 read-write CC2 Capture Compare Channel 2 Interrupt Flag 6 1 read-write DIRCHG Direction Change Detect Interrupt Flag 2 1 read-write ICFOF0 Input Capture FIFO overflow 20 1 read-write ICFOF1 Input Capture FIFO overflow 21 1 read-write ICFOF2 Input Capture FIFO overflow 22 1 read-write ICFUF0 Input capture FIFO underflow 24 1 read-write ICFUF1 Input capture FIFO underflow 25 1 read-write ICFUF2 Input capture FIFO underflow 26 1 read-write ICFWLFULL0 Input Capture Watermark Level Full 16 1 read-write ICFWLFULL1 Input Capture Watermark Level Full 17 1 read-write ICFWLFULL2 Input Capture Watermark Level Full 18 1 read-write OF Overflow Interrupt Flag 0 1 read-write UF Underflow Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Timer Lock Key 0 16 write-only UNLOCK Write to unlock TIMER registers 52864 STATUS No Description 0x10 -1 read-only n 0x0 0x0 CCPOL0 CCn Polarity 24 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL1 CCn Polarity 25 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL2 CCn Polarity 26 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 DIR Direction 1 1 read-only UP Counting up 0 DOWN Counting down 1 DTILOCKSTATUS DTI lock status 5 1 read-only UNLOCKED DTI registers are unlocked 0 LOCKED DTI registers are locked 1 ICFEMPTY0 Input capture fifo empty 16 1 read-only ICFEMPTY1 Input capture fifo empty 17 1 read-only ICFEMPTY2 Input capture fifo empty 18 1 read-only OCBV0 Output Compare Buffer Valid 8 1 read-only OCBV1 Output Compare Buffer Valid 9 1 read-only OCBV2 Output Compare Buffer Valid 10 1 read-only RUNNING Running 0 1 read-only SYNCBUSY Sync Busy 6 1 read-only TIMERLOCKSTATUS Timer lock status 4 1 read-only UNLOCKED TIMER registers are unlocked 0 LOCKED TIMER registers are locked 1 TOPBV TOP Buffer Valid 2 1 read-only TOP No Description 0x1C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 32 read-write TOPB No Description 0x20 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 32 read-write TIMER0_S TIMER0_S Registers TIMER0_S 0x0 0x0 0x1000 registers n TIMER0 4 CC0_CFG No Description 0x60 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC0_ICF No Description 0x74 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 32 read-only CC0_ICOF No Description 0x78 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 32 read-only CC0_OC No Description 0x68 -1 read-write n 0x0 0x0 OC Output Compare Value 0 32 read-write CC0_OCB No Description 0x70 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 32 read-write CC1_CFG No Description 0x80 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC1_CTRL No Description 0x84 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC1_ICF No Description 0x94 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 32 read-only CC1_ICOF No Description 0x98 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 32 read-only CC1_OC No Description 0x88 -1 read-write n 0x0 0x0 OC Output Compare Value 0 32 read-write CC1_OCB No Description 0x90 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 32 read-write CC2_CFG No Description 0xA0 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC2_CTRL No Description 0xA4 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC2_ICF No Description 0xB4 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 32 read-only CC2_ICOF No Description 0xB8 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 32 read-only CC2_OC No Description 0xA8 -1 read-write n 0x0 0x0 OC Output Compare Value 0 32 read-write CC2_OCB No Description 0xB0 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 32 read-write CFG No Description 0x4 -1 read-write n 0x0 0x0 ATI Always Track Inputs 16 1 read-write CLKSEL Clock Source Select 8 2 read-write PRESCEM01GRPACLK Prescaled EM01GRPACLK 0 CC1 Compare/Capture Channel 1 Input 1 TIMEROUF Timer is clocked by underflow(down-count) or overflow(up-count) in the lower numbered neighbor Timer 2 DEBUGRUN Debug Mode Run Enable 6 1 read-write HALT Timer is halted in debug mode 0 RUN Timer is running in debug mode 1 DISSYNCOUT Disable Timer Start/Stop/Reload output 11 1 read-write EN Timer can start/stop/reload other timers with SYNC bit set 0 DIS Timer cannot start/stop/reload other timers with SYNC bit set 1 DMACLRACT DMA Request Clear on Active 7 1 read-write MODE Timer Mode 0 2 read-write UP Up-count mode 0 DOWN Down-count mode 1 UPDOWN Up/down-count mode 2 QDEC Quadrature decoder mode 3 OSMEN One-shot Mode Enable 4 1 read-write PRESC Prescaler Setting 18 10 read-write DIV1 No prescaling 0 DIV2 Prescale by 2 1 DIV1024 Prescale by 1024 1023 DIV128 Prescale by 128 127 DIV16 Prescale by 16 15 DIV256 Prescale by 256 255 DIV4 Prescale by 4 3 DIV32 Prescale by 32 31 DIV512 Prescale by 512 511 DIV64 Prescale by 64 63 DIV8 Prescale by 8 7 QDM Quadrature Decoder Mode Selection 5 1 read-write X2 X2 mode selected 0 X4 X4 mode selected 1 RETIMEEN PWM output retimed enable 10 1 read-write DISABLE PWM outputs are not re-timed. 0 ENABLE PWM outputs are re-timed. 1 RSSCOIST Reload-Start Sets COIST 17 1 read-write SYNC Timer Start/Stop/Reload Synchronization 3 1 read-write DISABLE Timer operation is unaffected by other timers. 0 ENABLE Timer may be started, stopped and re-loaded from other timer instances. 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start Timer 0 1 write-only STOP Stop Timer 1 1 write-only CNT No Description 0x24 -1 read-write n 0x0 0x0 CNT Counter Value 0 32 read-write CTRL No Description 0x8 -1 read-write n 0x0 0x0 FALLA Timer Falling Input Edge Action 2 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 RISEA Timer Rising Input Edge Action 0 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 X2CNT 2x Count Mode 4 1 read-write DTCFG No Description 0xE0 -1 read-write n 0x0 0x0 DTAR DTI Always Run 9 1 read-write DTDAS DTI Automatic Start-up Functionality 1 1 read-write NORESTART No DTI restart on debugger exit 0 RESTART DTI restart on debugger exit 1 DTEN DTI Enable 0 1 read-write DTFATS DTI Fault Action on Timer Stop 10 1 read-write DTPRSEN DTI PRS Source Enable 11 1 read-write DTCTRL No Description 0xEC -1 read-write n 0x0 0x0 DTCINV DTI Complementary Output Invert. 0 1 read-write DTIPOL DTI Inactive Polarity 1 1 read-write DTFAULT No Description 0xF4 -1 read-only n 0x0 0x0 DTDBGF DTI Debugger Fault 2 1 read-only DTEM23F DTI EM23 Entry Fault 4 1 read-only DTLOCKUPF DTI Lockup Fault 3 1 read-only DTPRS0F DTI PRS 0 Fault 0 1 read-only DTPRS1F DTI PRS 1 Fault 1 1 read-only DTFAULTC No Description 0xF8 -1 write-only n 0x0 0x0 DTDBGFC DTI Debugger Fault Clear 2 1 write-only DTEM23FC DTI EM23 Fault Clear 4 1 write-only DTLOCKUPFC DTI Lockup Fault Clear 3 1 write-only DTPRS0FC DTI PRS0 Fault Clear 0 1 write-only DTPRS1FC DTI PRS1 Fault Clear 1 1 write-only DTFCFG No Description 0xE8 -1 read-write n 0x0 0x0 DTDBGFEN DTI Debugger Fault Enable 26 1 read-write DTEM23FEN DTI EM23 Fault Enable 28 1 read-write DTFA DTI Fault Action 16 2 read-write NONE No action on fault 0 INACTIVE Set outputs inactive 1 CLEAR Clear outputs 2 TRISTATE Tristate outputs 3 DTLOCKUPFEN DTI Lockup Fault Enable 27 1 read-write DTPRS0FEN DTI PRS 0 Fault Enable 24 1 read-write DTPRS1FEN DTI PRS 1 Fault Enable 25 1 read-write DTLOCK No Description 0xFC -1 write-only n 0x0 0x0 DTILOCKKEY DTI Lock Key 0 16 write-only UNLOCK Write to unlock TIMER DTI registers 52864 DTOGEN No Description 0xF0 -1 read-write n 0x0 0x0 DTOGCC0EN DTI CCn Output Generation Enable 0 1 read-write DTOGCC1EN DTI CCn Output Generation Enable 1 1 read-write DTOGCC2EN DTI CCn Output Generation Enable 2 1 read-write DTOGCDTI0EN DTI CDTIn Output Generation Enable 3 1 read-write DTOGCDTI1EN DTI CDTIn Output Generation Enable 4 1 read-write DTOGCDTI2EN DTI CDTIn Output Generation Enable 5 1 read-write DTTIMECFG No Description 0xE4 -1 read-write n 0x0 0x0 DTFALLT DTI Fall-time 16 6 read-write DTPRESC DTI Prescaler Setting 0 10 read-write DTRISET DTI Rise-time 10 6 read-write EN No Description 0x30 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Timer Module Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 CC0 CC0 Interrupt Enable 4 1 read-write CC1 CC1 Interrupt Enable 5 1 read-write CC2 CC2 Interrupt Enable 6 1 read-write DIRCHG Direction Change Detect Interrupt Enable 2 1 read-write ICFOF0 ICFOF0 Interrupt Enable 20 1 read-write ICFOF1 ICFOF1 Interrupt Enable 21 1 read-write ICFOF2 ICFOF2 Interrupt Enable 22 1 read-write ICFUF0 ICFUF0 Interrupt Enable 24 1 read-write ICFUF1 ICFUF1 Interrupt Enable 25 1 read-write ICFUF2 ICFUF2 Interrupt Enable 26 1 read-write ICFWLFULL0 ICFWLFULL0 Interrupt Enable 16 1 read-write ICFWLFULL1 ICFWLFULL1 Interrupt Enable 17 1 read-write ICFWLFULL2 ICFWLFULL2 Interrupt Enable 18 1 read-write OF Overflow Interrupt Enable 0 1 read-write UF Underflow Interrupt Enable 1 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 CC0 Capture Compare Channel 0 Interrupt Flag 4 1 read-write CC1 Capture Compare Channel 1 Interrupt Flag 5 1 read-write CC2 Capture Compare Channel 2 Interrupt Flag 6 1 read-write DIRCHG Direction Change Detect Interrupt Flag 2 1 read-write ICFOF0 Input Capture FIFO overflow 20 1 read-write ICFOF1 Input Capture FIFO overflow 21 1 read-write ICFOF2 Input Capture FIFO overflow 22 1 read-write ICFUF0 Input capture FIFO underflow 24 1 read-write ICFUF1 Input capture FIFO underflow 25 1 read-write ICFUF2 Input capture FIFO underflow 26 1 read-write ICFWLFULL0 Input Capture Watermark Level Full 16 1 read-write ICFWLFULL1 Input Capture Watermark Level Full 17 1 read-write ICFWLFULL2 Input Capture Watermark Level Full 18 1 read-write OF Overflow Interrupt Flag 0 1 read-write UF Underflow Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Timer Lock Key 0 16 write-only UNLOCK Write to unlock TIMER registers 52864 STATUS No Description 0x10 -1 read-only n 0x0 0x0 CCPOL0 CCn Polarity 24 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL1 CCn Polarity 25 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL2 CCn Polarity 26 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 DIR Direction 1 1 read-only UP Counting up 0 DOWN Counting down 1 DTILOCKSTATUS DTI lock status 5 1 read-only UNLOCKED DTI registers are unlocked 0 LOCKED DTI registers are locked 1 ICFEMPTY0 Input capture fifo empty 16 1 read-only ICFEMPTY1 Input capture fifo empty 17 1 read-only ICFEMPTY2 Input capture fifo empty 18 1 read-only OCBV0 Output Compare Buffer Valid 8 1 read-only OCBV1 Output Compare Buffer Valid 9 1 read-only OCBV2 Output Compare Buffer Valid 10 1 read-only RUNNING Running 0 1 read-only SYNCBUSY Sync Busy 6 1 read-only TIMERLOCKSTATUS Timer lock status 4 1 read-only UNLOCKED TIMER registers are unlocked 0 LOCKED TIMER registers are locked 1 TOPBV TOP Buffer Valid 2 1 read-only TOP No Description 0x1C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 32 read-write TOPB No Description 0x20 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 32 read-write TIMER1_NS TIMER1_NS Registers TIMER1_NS 0x0 0x0 0x1000 registers n TIMER1 5 CC0_CFG No Description 0x60 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC0_ICF No Description 0x74 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC0_ICOF No Description 0x78 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC0_OC No Description 0x68 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC0_OCB No Description 0x70 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC1_CFG No Description 0x80 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC1_CTRL No Description 0x84 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC1_ICF No Description 0x94 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC1_ICOF No Description 0x98 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC1_OC No Description 0x88 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC1_OCB No Description 0x90 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC2_CFG No Description 0xA0 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC2_CTRL No Description 0xA4 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC2_ICF No Description 0xB4 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC2_ICOF No Description 0xB8 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC2_OC No Description 0xA8 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC2_OCB No Description 0xB0 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CFG No Description 0x4 -1 read-write n 0x0 0x0 ATI Always Track Inputs 16 1 read-write CLKSEL Clock Source Select 8 2 read-write PRESCEM01GRPACLK Prescaled EM01GRPACLK 0 CC1 Compare/Capture Channel 1 Input 1 TIMEROUF Timer is clocked by underflow(down-count) or overflow(up-count) in the lower numbered neighbor Timer 2 DEBUGRUN Debug Mode Run Enable 6 1 read-write HALT Timer is halted in debug mode 0 RUN Timer is running in debug mode 1 DISSYNCOUT Disable Timer Start/Stop/Reload output 11 1 read-write EN Timer can start/stop/reload other timers with SYNC bit set 0 DIS Timer cannot start/stop/reload other timers with SYNC bit set 1 DMACLRACT DMA Request Clear on Active 7 1 read-write MODE Timer Mode 0 2 read-write UP Up-count mode 0 DOWN Down-count mode 1 UPDOWN Up/down-count mode 2 QDEC Quadrature decoder mode 3 OSMEN One-shot Mode Enable 4 1 read-write PRESC Prescaler Setting 18 10 read-write DIV1 No prescaling 0 DIV2 Prescale by 2 1 DIV1024 Prescale by 1024 1023 DIV128 Prescale by 128 127 DIV16 Prescale by 16 15 DIV256 Prescale by 256 255 DIV4 Prescale by 4 3 DIV32 Prescale by 32 31 DIV512 Prescale by 512 511 DIV64 Prescale by 64 63 DIV8 Prescale by 8 7 QDM Quadrature Decoder Mode Selection 5 1 read-write X2 X2 mode selected 0 X4 X4 mode selected 1 RETIMEEN PWM output retimed enable 10 1 read-write DISABLE PWM outputs are not re-timed. 0 ENABLE PWM outputs are re-timed. 1 RSSCOIST Reload-Start Sets COIST 17 1 read-write SYNC Timer Start/Stop/Reload Synchronization 3 1 read-write DISABLE Timer operation is unaffected by other timers. 0 ENABLE Timer may be started, stopped and re-loaded from other timer instances. 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start Timer 0 1 write-only STOP Stop Timer 1 1 write-only CNT No Description 0x24 -1 read-write n 0x0 0x0 CNT Counter Value 0 16 read-write CTRL No Description 0x8 -1 read-write n 0x0 0x0 FALLA Timer Falling Input Edge Action 2 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 RISEA Timer Rising Input Edge Action 0 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 X2CNT 2x Count Mode 4 1 read-write DTCFG No Description 0xE0 -1 read-write n 0x0 0x0 DTAR DTI Always Run 9 1 read-write DTDAS DTI Automatic Start-up Functionality 1 1 read-write NORESTART No DTI restart on debugger exit 0 RESTART DTI restart on debugger exit 1 DTEN DTI Enable 0 1 read-write DTFATS DTI Fault Action on Timer Stop 10 1 read-write DTPRSEN DTI PRS Source Enable 11 1 read-write DTCTRL No Description 0xEC -1 read-write n 0x0 0x0 DTCINV DTI Complementary Output Invert. 0 1 read-write DTIPOL DTI Inactive Polarity 1 1 read-write DTFAULT No Description 0xF4 -1 read-only n 0x0 0x0 DTDBGF DTI Debugger Fault 2 1 read-only DTEM23F DTI EM23 Entry Fault 4 1 read-only DTLOCKUPF DTI Lockup Fault 3 1 read-only DTPRS0F DTI PRS 0 Fault 0 1 read-only DTPRS1F DTI PRS 1 Fault 1 1 read-only DTFAULTC No Description 0xF8 -1 write-only n 0x0 0x0 DTDBGFC DTI Debugger Fault Clear 2 1 write-only DTEM23FC DTI EM23 Fault Clear 4 1 write-only DTLOCKUPFC DTI Lockup Fault Clear 3 1 write-only DTPRS0FC DTI PRS0 Fault Clear 0 1 write-only DTPRS1FC DTI PRS1 Fault Clear 1 1 write-only DTFCFG No Description 0xE8 -1 read-write n 0x0 0x0 DTDBGFEN DTI Debugger Fault Enable 26 1 read-write DTEM23FEN DTI EM23 Fault Enable 28 1 read-write DTFA DTI Fault Action 16 2 read-write NONE No action on fault 0 INACTIVE Set outputs inactive 1 CLEAR Clear outputs 2 TRISTATE Tristate outputs 3 DTLOCKUPFEN DTI Lockup Fault Enable 27 1 read-write DTPRS0FEN DTI PRS 0 Fault Enable 24 1 read-write DTPRS1FEN DTI PRS 1 Fault Enable 25 1 read-write DTLOCK No Description 0xFC -1 write-only n 0x0 0x0 DTILOCKKEY DTI Lock Key 0 16 write-only UNLOCK Write to unlock TIMER DTI registers 52864 DTOGEN No Description 0xF0 -1 read-write n 0x0 0x0 DTOGCC0EN DTI CCn Output Generation Enable 0 1 read-write DTOGCC1EN DTI CCn Output Generation Enable 1 1 read-write DTOGCC2EN DTI CCn Output Generation Enable 2 1 read-write DTOGCDTI0EN DTI CDTIn Output Generation Enable 3 1 read-write DTOGCDTI1EN DTI CDTIn Output Generation Enable 4 1 read-write DTOGCDTI2EN DTI CDTIn Output Generation Enable 5 1 read-write DTTIMECFG No Description 0xE4 -1 read-write n 0x0 0x0 DTFALLT DTI Fall-time 16 6 read-write DTPRESC DTI Prescaler Setting 0 10 read-write DTRISET DTI Rise-time 10 6 read-write EN No Description 0x30 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Timer Module Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 CC0 CC0 Interrupt Enable 4 1 read-write CC1 CC1 Interrupt Enable 5 1 read-write CC2 CC2 Interrupt Enable 6 1 read-write DIRCHG Direction Change Detect Interrupt Enable 2 1 read-write ICFOF0 ICFOF0 Interrupt Enable 20 1 read-write ICFOF1 ICFOF1 Interrupt Enable 21 1 read-write ICFOF2 ICFOF2 Interrupt Enable 22 1 read-write ICFUF0 ICFUF0 Interrupt Enable 24 1 read-write ICFUF1 ICFUF1 Interrupt Enable 25 1 read-write ICFUF2 ICFUF2 Interrupt Enable 26 1 read-write ICFWLFULL0 ICFWLFULL0 Interrupt Enable 16 1 read-write ICFWLFULL1 ICFWLFULL1 Interrupt Enable 17 1 read-write ICFWLFULL2 ICFWLFULL2 Interrupt Enable 18 1 read-write OF Overflow Interrupt Enable 0 1 read-write UF Underflow Interrupt Enable 1 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 CC0 Capture Compare Channel 0 Interrupt Flag 4 1 read-write CC1 Capture Compare Channel 1 Interrupt Flag 5 1 read-write CC2 Capture Compare Channel 2 Interrupt Flag 6 1 read-write DIRCHG Direction Change Detect Interrupt Flag 2 1 read-write ICFOF0 Input Capture FIFO overflow 20 1 read-write ICFOF1 Input Capture FIFO overflow 21 1 read-write ICFOF2 Input Capture FIFO overflow 22 1 read-write ICFUF0 Input capture FIFO underflow 24 1 read-write ICFUF1 Input capture FIFO underflow 25 1 read-write ICFUF2 Input capture FIFO underflow 26 1 read-write ICFWLFULL0 Input Capture Watermark Level Full 16 1 read-write ICFWLFULL1 Input Capture Watermark Level Full 17 1 read-write ICFWLFULL2 Input Capture Watermark Level Full 18 1 read-write OF Overflow Interrupt Flag 0 1 read-write UF Underflow Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Timer Lock Key 0 16 write-only UNLOCK Write to unlock TIMER registers 52864 STATUS No Description 0x10 -1 read-only n 0x0 0x0 CCPOL0 CCn Polarity 24 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL1 CCn Polarity 25 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL2 CCn Polarity 26 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 DIR Direction 1 1 read-only UP Counting up 0 DOWN Counting down 1 DTILOCKSTATUS DTI lock status 5 1 read-only UNLOCKED DTI registers are unlocked 0 LOCKED DTI registers are locked 1 ICFEMPTY0 Input capture fifo empty 16 1 read-only ICFEMPTY1 Input capture fifo empty 17 1 read-only ICFEMPTY2 Input capture fifo empty 18 1 read-only OCBV0 Output Compare Buffer Valid 8 1 read-only OCBV1 Output Compare Buffer Valid 9 1 read-only OCBV2 Output Compare Buffer Valid 10 1 read-only RUNNING Running 0 1 read-only SYNCBUSY Sync Busy 6 1 read-only TIMERLOCKSTATUS Timer lock status 4 1 read-only UNLOCKED TIMER registers are unlocked 0 LOCKED TIMER registers are locked 1 TOPBV TOP Buffer Valid 2 1 read-only TOP No Description 0x1C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 16 read-write TOPB No Description 0x20 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 16 read-write TIMER1_S TIMER1_S Registers TIMER1_S 0x0 0x0 0x1000 registers n TIMER1 5 CC0_CFG No Description 0x60 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC0_ICF No Description 0x74 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC0_ICOF No Description 0x78 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC0_OC No Description 0x68 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC0_OCB No Description 0x70 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC1_CFG No Description 0x80 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC1_CTRL No Description 0x84 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC1_ICF No Description 0x94 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC1_ICOF No Description 0x98 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC1_OC No Description 0x88 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC1_OCB No Description 0x90 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC2_CFG No Description 0xA0 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC2_CTRL No Description 0xA4 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC2_ICF No Description 0xB4 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC2_ICOF No Description 0xB8 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC2_OC No Description 0xA8 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC2_OCB No Description 0xB0 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CFG No Description 0x4 -1 read-write n 0x0 0x0 ATI Always Track Inputs 16 1 read-write CLKSEL Clock Source Select 8 2 read-write PRESCEM01GRPACLK Prescaled EM01GRPACLK 0 CC1 Compare/Capture Channel 1 Input 1 TIMEROUF Timer is clocked by underflow(down-count) or overflow(up-count) in the lower numbered neighbor Timer 2 DEBUGRUN Debug Mode Run Enable 6 1 read-write HALT Timer is halted in debug mode 0 RUN Timer is running in debug mode 1 DISSYNCOUT Disable Timer Start/Stop/Reload output 11 1 read-write EN Timer can start/stop/reload other timers with SYNC bit set 0 DIS Timer cannot start/stop/reload other timers with SYNC bit set 1 DMACLRACT DMA Request Clear on Active 7 1 read-write MODE Timer Mode 0 2 read-write UP Up-count mode 0 DOWN Down-count mode 1 UPDOWN Up/down-count mode 2 QDEC Quadrature decoder mode 3 OSMEN One-shot Mode Enable 4 1 read-write PRESC Prescaler Setting 18 10 read-write DIV1 No prescaling 0 DIV2 Prescale by 2 1 DIV1024 Prescale by 1024 1023 DIV128 Prescale by 128 127 DIV16 Prescale by 16 15 DIV256 Prescale by 256 255 DIV4 Prescale by 4 3 DIV32 Prescale by 32 31 DIV512 Prescale by 512 511 DIV64 Prescale by 64 63 DIV8 Prescale by 8 7 QDM Quadrature Decoder Mode Selection 5 1 read-write X2 X2 mode selected 0 X4 X4 mode selected 1 RETIMEEN PWM output retimed enable 10 1 read-write DISABLE PWM outputs are not re-timed. 0 ENABLE PWM outputs are re-timed. 1 RSSCOIST Reload-Start Sets COIST 17 1 read-write SYNC Timer Start/Stop/Reload Synchronization 3 1 read-write DISABLE Timer operation is unaffected by other timers. 0 ENABLE Timer may be started, stopped and re-loaded from other timer instances. 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start Timer 0 1 write-only STOP Stop Timer 1 1 write-only CNT No Description 0x24 -1 read-write n 0x0 0x0 CNT Counter Value 0 16 read-write CTRL No Description 0x8 -1 read-write n 0x0 0x0 FALLA Timer Falling Input Edge Action 2 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 RISEA Timer Rising Input Edge Action 0 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 X2CNT 2x Count Mode 4 1 read-write DTCFG No Description 0xE0 -1 read-write n 0x0 0x0 DTAR DTI Always Run 9 1 read-write DTDAS DTI Automatic Start-up Functionality 1 1 read-write NORESTART No DTI restart on debugger exit 0 RESTART DTI restart on debugger exit 1 DTEN DTI Enable 0 1 read-write DTFATS DTI Fault Action on Timer Stop 10 1 read-write DTPRSEN DTI PRS Source Enable 11 1 read-write DTCTRL No Description 0xEC -1 read-write n 0x0 0x0 DTCINV DTI Complementary Output Invert. 0 1 read-write DTIPOL DTI Inactive Polarity 1 1 read-write DTFAULT No Description 0xF4 -1 read-only n 0x0 0x0 DTDBGF DTI Debugger Fault 2 1 read-only DTEM23F DTI EM23 Entry Fault 4 1 read-only DTLOCKUPF DTI Lockup Fault 3 1 read-only DTPRS0F DTI PRS 0 Fault 0 1 read-only DTPRS1F DTI PRS 1 Fault 1 1 read-only DTFAULTC No Description 0xF8 -1 write-only n 0x0 0x0 DTDBGFC DTI Debugger Fault Clear 2 1 write-only DTEM23FC DTI EM23 Fault Clear 4 1 write-only DTLOCKUPFC DTI Lockup Fault Clear 3 1 write-only DTPRS0FC DTI PRS0 Fault Clear 0 1 write-only DTPRS1FC DTI PRS1 Fault Clear 1 1 write-only DTFCFG No Description 0xE8 -1 read-write n 0x0 0x0 DTDBGFEN DTI Debugger Fault Enable 26 1 read-write DTEM23FEN DTI EM23 Fault Enable 28 1 read-write DTFA DTI Fault Action 16 2 read-write NONE No action on fault 0 INACTIVE Set outputs inactive 1 CLEAR Clear outputs 2 TRISTATE Tristate outputs 3 DTLOCKUPFEN DTI Lockup Fault Enable 27 1 read-write DTPRS0FEN DTI PRS 0 Fault Enable 24 1 read-write DTPRS1FEN DTI PRS 1 Fault Enable 25 1 read-write DTLOCK No Description 0xFC -1 write-only n 0x0 0x0 DTILOCKKEY DTI Lock Key 0 16 write-only UNLOCK Write to unlock TIMER DTI registers 52864 DTOGEN No Description 0xF0 -1 read-write n 0x0 0x0 DTOGCC0EN DTI CCn Output Generation Enable 0 1 read-write DTOGCC1EN DTI CCn Output Generation Enable 1 1 read-write DTOGCC2EN DTI CCn Output Generation Enable 2 1 read-write DTOGCDTI0EN DTI CDTIn Output Generation Enable 3 1 read-write DTOGCDTI1EN DTI CDTIn Output Generation Enable 4 1 read-write DTOGCDTI2EN DTI CDTIn Output Generation Enable 5 1 read-write DTTIMECFG No Description 0xE4 -1 read-write n 0x0 0x0 DTFALLT DTI Fall-time 16 6 read-write DTPRESC DTI Prescaler Setting 0 10 read-write DTRISET DTI Rise-time 10 6 read-write EN No Description 0x30 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Timer Module Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 CC0 CC0 Interrupt Enable 4 1 read-write CC1 CC1 Interrupt Enable 5 1 read-write CC2 CC2 Interrupt Enable 6 1 read-write DIRCHG Direction Change Detect Interrupt Enable 2 1 read-write ICFOF0 ICFOF0 Interrupt Enable 20 1 read-write ICFOF1 ICFOF1 Interrupt Enable 21 1 read-write ICFOF2 ICFOF2 Interrupt Enable 22 1 read-write ICFUF0 ICFUF0 Interrupt Enable 24 1 read-write ICFUF1 ICFUF1 Interrupt Enable 25 1 read-write ICFUF2 ICFUF2 Interrupt Enable 26 1 read-write ICFWLFULL0 ICFWLFULL0 Interrupt Enable 16 1 read-write ICFWLFULL1 ICFWLFULL1 Interrupt Enable 17 1 read-write ICFWLFULL2 ICFWLFULL2 Interrupt Enable 18 1 read-write OF Overflow Interrupt Enable 0 1 read-write UF Underflow Interrupt Enable 1 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 CC0 Capture Compare Channel 0 Interrupt Flag 4 1 read-write CC1 Capture Compare Channel 1 Interrupt Flag 5 1 read-write CC2 Capture Compare Channel 2 Interrupt Flag 6 1 read-write DIRCHG Direction Change Detect Interrupt Flag 2 1 read-write ICFOF0 Input Capture FIFO overflow 20 1 read-write ICFOF1 Input Capture FIFO overflow 21 1 read-write ICFOF2 Input Capture FIFO overflow 22 1 read-write ICFUF0 Input capture FIFO underflow 24 1 read-write ICFUF1 Input capture FIFO underflow 25 1 read-write ICFUF2 Input capture FIFO underflow 26 1 read-write ICFWLFULL0 Input Capture Watermark Level Full 16 1 read-write ICFWLFULL1 Input Capture Watermark Level Full 17 1 read-write ICFWLFULL2 Input Capture Watermark Level Full 18 1 read-write OF Overflow Interrupt Flag 0 1 read-write UF Underflow Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Timer Lock Key 0 16 write-only UNLOCK Write to unlock TIMER registers 52864 STATUS No Description 0x10 -1 read-only n 0x0 0x0 CCPOL0 CCn Polarity 24 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL1 CCn Polarity 25 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL2 CCn Polarity 26 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 DIR Direction 1 1 read-only UP Counting up 0 DOWN Counting down 1 DTILOCKSTATUS DTI lock status 5 1 read-only UNLOCKED DTI registers are unlocked 0 LOCKED DTI registers are locked 1 ICFEMPTY0 Input capture fifo empty 16 1 read-only ICFEMPTY1 Input capture fifo empty 17 1 read-only ICFEMPTY2 Input capture fifo empty 18 1 read-only OCBV0 Output Compare Buffer Valid 8 1 read-only OCBV1 Output Compare Buffer Valid 9 1 read-only OCBV2 Output Compare Buffer Valid 10 1 read-only RUNNING Running 0 1 read-only SYNCBUSY Sync Busy 6 1 read-only TIMERLOCKSTATUS Timer lock status 4 1 read-only UNLOCKED TIMER registers are unlocked 0 LOCKED TIMER registers are locked 1 TOPBV TOP Buffer Valid 2 1 read-only TOP No Description 0x1C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 16 read-write TOPB No Description 0x20 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 16 read-write TIMER2_NS TIMER2_NS Registers TIMER2_NS 0x0 0x0 0x1000 registers n TIMER2 6 CC0_CFG No Description 0x60 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC0_ICF No Description 0x74 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC0_ICOF No Description 0x78 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC0_OC No Description 0x68 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC0_OCB No Description 0x70 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC1_CFG No Description 0x80 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC1_CTRL No Description 0x84 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC1_ICF No Description 0x94 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC1_ICOF No Description 0x98 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC1_OC No Description 0x88 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC1_OCB No Description 0x90 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC2_CFG No Description 0xA0 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC2_CTRL No Description 0xA4 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC2_ICF No Description 0xB4 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC2_ICOF No Description 0xB8 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC2_OC No Description 0xA8 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC2_OCB No Description 0xB0 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CFG No Description 0x4 -1 read-write n 0x0 0x0 ATI Always Track Inputs 16 1 read-write CLKSEL Clock Source Select 8 2 read-write PRESCEM01GRPACLK Prescaled EM01GRPACLK 0 CC1 Compare/Capture Channel 1 Input 1 TIMEROUF Timer is clocked by underflow(down-count) or overflow(up-count) in the lower numbered neighbor Timer 2 DEBUGRUN Debug Mode Run Enable 6 1 read-write HALT Timer is halted in debug mode 0 RUN Timer is running in debug mode 1 DISSYNCOUT Disable Timer Start/Stop/Reload output 11 1 read-write EN Timer can start/stop/reload other timers with SYNC bit set 0 DIS Timer cannot start/stop/reload other timers with SYNC bit set 1 DMACLRACT DMA Request Clear on Active 7 1 read-write MODE Timer Mode 0 2 read-write UP Up-count mode 0 DOWN Down-count mode 1 UPDOWN Up/down-count mode 2 QDEC Quadrature decoder mode 3 OSMEN One-shot Mode Enable 4 1 read-write PRESC Prescaler Setting 18 10 read-write DIV1 No prescaling 0 DIV2 Prescale by 2 1 DIV1024 Prescale by 1024 1023 DIV128 Prescale by 128 127 DIV16 Prescale by 16 15 DIV256 Prescale by 256 255 DIV4 Prescale by 4 3 DIV32 Prescale by 32 31 DIV512 Prescale by 512 511 DIV64 Prescale by 64 63 DIV8 Prescale by 8 7 QDM Quadrature Decoder Mode Selection 5 1 read-write X2 X2 mode selected 0 X4 X4 mode selected 1 RETIMEEN PWM output retimed enable 10 1 read-write DISABLE PWM outputs are not re-timed. 0 ENABLE PWM outputs are re-timed. 1 RSSCOIST Reload-Start Sets COIST 17 1 read-write SYNC Timer Start/Stop/Reload Synchronization 3 1 read-write DISABLE Timer operation is unaffected by other timers. 0 ENABLE Timer may be started, stopped and re-loaded from other timer instances. 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start Timer 0 1 write-only STOP Stop Timer 1 1 write-only CNT No Description 0x24 -1 read-write n 0x0 0x0 CNT Counter Value 0 16 read-write CTRL No Description 0x8 -1 read-write n 0x0 0x0 FALLA Timer Falling Input Edge Action 2 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 RISEA Timer Rising Input Edge Action 0 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 X2CNT 2x Count Mode 4 1 read-write DTCFG No Description 0xE0 -1 read-write n 0x0 0x0 DTAR DTI Always Run 9 1 read-write DTDAS DTI Automatic Start-up Functionality 1 1 read-write NORESTART No DTI restart on debugger exit 0 RESTART DTI restart on debugger exit 1 DTEN DTI Enable 0 1 read-write DTFATS DTI Fault Action on Timer Stop 10 1 read-write DTPRSEN DTI PRS Source Enable 11 1 read-write DTCTRL No Description 0xEC -1 read-write n 0x0 0x0 DTCINV DTI Complementary Output Invert. 0 1 read-write DTIPOL DTI Inactive Polarity 1 1 read-write DTFAULT No Description 0xF4 -1 read-only n 0x0 0x0 DTDBGF DTI Debugger Fault 2 1 read-only DTEM23F DTI EM23 Entry Fault 4 1 read-only DTLOCKUPF DTI Lockup Fault 3 1 read-only DTPRS0F DTI PRS 0 Fault 0 1 read-only DTPRS1F DTI PRS 1 Fault 1 1 read-only DTFAULTC No Description 0xF8 -1 write-only n 0x0 0x0 DTDBGFC DTI Debugger Fault Clear 2 1 write-only DTEM23FC DTI EM23 Fault Clear 4 1 write-only DTLOCKUPFC DTI Lockup Fault Clear 3 1 write-only DTPRS0FC DTI PRS0 Fault Clear 0 1 write-only DTPRS1FC DTI PRS1 Fault Clear 1 1 write-only DTFCFG No Description 0xE8 -1 read-write n 0x0 0x0 DTDBGFEN DTI Debugger Fault Enable 26 1 read-write DTEM23FEN DTI EM23 Fault Enable 28 1 read-write DTFA DTI Fault Action 16 2 read-write NONE No action on fault 0 INACTIVE Set outputs inactive 1 CLEAR Clear outputs 2 TRISTATE Tristate outputs 3 DTLOCKUPFEN DTI Lockup Fault Enable 27 1 read-write DTPRS0FEN DTI PRS 0 Fault Enable 24 1 read-write DTPRS1FEN DTI PRS 1 Fault Enable 25 1 read-write DTLOCK No Description 0xFC -1 write-only n 0x0 0x0 DTILOCKKEY DTI Lock Key 0 16 write-only UNLOCK Write to unlock TIMER DTI registers 52864 DTOGEN No Description 0xF0 -1 read-write n 0x0 0x0 DTOGCC0EN DTI CCn Output Generation Enable 0 1 read-write DTOGCC1EN DTI CCn Output Generation Enable 1 1 read-write DTOGCC2EN DTI CCn Output Generation Enable 2 1 read-write DTOGCDTI0EN DTI CDTIn Output Generation Enable 3 1 read-write DTOGCDTI1EN DTI CDTIn Output Generation Enable 4 1 read-write DTOGCDTI2EN DTI CDTIn Output Generation Enable 5 1 read-write DTTIMECFG No Description 0xE4 -1 read-write n 0x0 0x0 DTFALLT DTI Fall-time 16 6 read-write DTPRESC DTI Prescaler Setting 0 10 read-write DTRISET DTI Rise-time 10 6 read-write EN No Description 0x30 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Timer Module Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 CC0 CC0 Interrupt Enable 4 1 read-write CC1 CC1 Interrupt Enable 5 1 read-write CC2 CC2 Interrupt Enable 6 1 read-write DIRCHG Direction Change Detect Interrupt Enable 2 1 read-write ICFOF0 ICFOF0 Interrupt Enable 20 1 read-write ICFOF1 ICFOF1 Interrupt Enable 21 1 read-write ICFOF2 ICFOF2 Interrupt Enable 22 1 read-write ICFUF0 ICFUF0 Interrupt Enable 24 1 read-write ICFUF1 ICFUF1 Interrupt Enable 25 1 read-write ICFUF2 ICFUF2 Interrupt Enable 26 1 read-write ICFWLFULL0 ICFWLFULL0 Interrupt Enable 16 1 read-write ICFWLFULL1 ICFWLFULL1 Interrupt Enable 17 1 read-write ICFWLFULL2 ICFWLFULL2 Interrupt Enable 18 1 read-write OF Overflow Interrupt Enable 0 1 read-write UF Underflow Interrupt Enable 1 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 CC0 Capture Compare Channel 0 Interrupt Flag 4 1 read-write CC1 Capture Compare Channel 1 Interrupt Flag 5 1 read-write CC2 Capture Compare Channel 2 Interrupt Flag 6 1 read-write DIRCHG Direction Change Detect Interrupt Flag 2 1 read-write ICFOF0 Input Capture FIFO overflow 20 1 read-write ICFOF1 Input Capture FIFO overflow 21 1 read-write ICFOF2 Input Capture FIFO overflow 22 1 read-write ICFUF0 Input capture FIFO underflow 24 1 read-write ICFUF1 Input capture FIFO underflow 25 1 read-write ICFUF2 Input capture FIFO underflow 26 1 read-write ICFWLFULL0 Input Capture Watermark Level Full 16 1 read-write ICFWLFULL1 Input Capture Watermark Level Full 17 1 read-write ICFWLFULL2 Input Capture Watermark Level Full 18 1 read-write OF Overflow Interrupt Flag 0 1 read-write UF Underflow Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Timer Lock Key 0 16 write-only UNLOCK Write to unlock TIMER registers 52864 STATUS No Description 0x10 -1 read-only n 0x0 0x0 CCPOL0 CCn Polarity 24 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL1 CCn Polarity 25 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL2 CCn Polarity 26 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 DIR Direction 1 1 read-only UP Counting up 0 DOWN Counting down 1 DTILOCKSTATUS DTI lock status 5 1 read-only UNLOCKED DTI registers are unlocked 0 LOCKED DTI registers are locked 1 ICFEMPTY0 Input capture fifo empty 16 1 read-only ICFEMPTY1 Input capture fifo empty 17 1 read-only ICFEMPTY2 Input capture fifo empty 18 1 read-only OCBV0 Output Compare Buffer Valid 8 1 read-only OCBV1 Output Compare Buffer Valid 9 1 read-only OCBV2 Output Compare Buffer Valid 10 1 read-only RUNNING Running 0 1 read-only SYNCBUSY Sync Busy 6 1 read-only TIMERLOCKSTATUS Timer lock status 4 1 read-only UNLOCKED TIMER registers are unlocked 0 LOCKED TIMER registers are locked 1 TOPBV TOP Buffer Valid 2 1 read-only TOP No Description 0x1C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 16 read-write TOPB No Description 0x20 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 16 read-write TIMER2_S TIMER2_S Registers TIMER2_S 0x0 0x0 0x1000 registers n TIMER2 6 CC0_CFG No Description 0x60 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC0_ICF No Description 0x74 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC0_ICOF No Description 0x78 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC0_OC No Description 0x68 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC0_OCB No Description 0x70 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC1_CFG No Description 0x80 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC1_CTRL No Description 0x84 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC1_ICF No Description 0x94 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC1_ICOF No Description 0x98 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC1_OC No Description 0x88 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC1_OCB No Description 0x90 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC2_CFG No Description 0xA0 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC2_CTRL No Description 0xA4 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC2_ICF No Description 0xB4 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC2_ICOF No Description 0xB8 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC2_OC No Description 0xA8 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC2_OCB No Description 0xB0 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CFG No Description 0x4 -1 read-write n 0x0 0x0 ATI Always Track Inputs 16 1 read-write CLKSEL Clock Source Select 8 2 read-write PRESCEM01GRPACLK Prescaled EM01GRPACLK 0 CC1 Compare/Capture Channel 1 Input 1 TIMEROUF Timer is clocked by underflow(down-count) or overflow(up-count) in the lower numbered neighbor Timer 2 DEBUGRUN Debug Mode Run Enable 6 1 read-write HALT Timer is halted in debug mode 0 RUN Timer is running in debug mode 1 DISSYNCOUT Disable Timer Start/Stop/Reload output 11 1 read-write EN Timer can start/stop/reload other timers with SYNC bit set 0 DIS Timer cannot start/stop/reload other timers with SYNC bit set 1 DMACLRACT DMA Request Clear on Active 7 1 read-write MODE Timer Mode 0 2 read-write UP Up-count mode 0 DOWN Down-count mode 1 UPDOWN Up/down-count mode 2 QDEC Quadrature decoder mode 3 OSMEN One-shot Mode Enable 4 1 read-write PRESC Prescaler Setting 18 10 read-write DIV1 No prescaling 0 DIV2 Prescale by 2 1 DIV1024 Prescale by 1024 1023 DIV128 Prescale by 128 127 DIV16 Prescale by 16 15 DIV256 Prescale by 256 255 DIV4 Prescale by 4 3 DIV32 Prescale by 32 31 DIV512 Prescale by 512 511 DIV64 Prescale by 64 63 DIV8 Prescale by 8 7 QDM Quadrature Decoder Mode Selection 5 1 read-write X2 X2 mode selected 0 X4 X4 mode selected 1 RETIMEEN PWM output retimed enable 10 1 read-write DISABLE PWM outputs are not re-timed. 0 ENABLE PWM outputs are re-timed. 1 RSSCOIST Reload-Start Sets COIST 17 1 read-write SYNC Timer Start/Stop/Reload Synchronization 3 1 read-write DISABLE Timer operation is unaffected by other timers. 0 ENABLE Timer may be started, stopped and re-loaded from other timer instances. 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start Timer 0 1 write-only STOP Stop Timer 1 1 write-only CNT No Description 0x24 -1 read-write n 0x0 0x0 CNT Counter Value 0 16 read-write CTRL No Description 0x8 -1 read-write n 0x0 0x0 FALLA Timer Falling Input Edge Action 2 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 RISEA Timer Rising Input Edge Action 0 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 X2CNT 2x Count Mode 4 1 read-write DTCFG No Description 0xE0 -1 read-write n 0x0 0x0 DTAR DTI Always Run 9 1 read-write DTDAS DTI Automatic Start-up Functionality 1 1 read-write NORESTART No DTI restart on debugger exit 0 RESTART DTI restart on debugger exit 1 DTEN DTI Enable 0 1 read-write DTFATS DTI Fault Action on Timer Stop 10 1 read-write DTPRSEN DTI PRS Source Enable 11 1 read-write DTCTRL No Description 0xEC -1 read-write n 0x0 0x0 DTCINV DTI Complementary Output Invert. 0 1 read-write DTIPOL DTI Inactive Polarity 1 1 read-write DTFAULT No Description 0xF4 -1 read-only n 0x0 0x0 DTDBGF DTI Debugger Fault 2 1 read-only DTEM23F DTI EM23 Entry Fault 4 1 read-only DTLOCKUPF DTI Lockup Fault 3 1 read-only DTPRS0F DTI PRS 0 Fault 0 1 read-only DTPRS1F DTI PRS 1 Fault 1 1 read-only DTFAULTC No Description 0xF8 -1 write-only n 0x0 0x0 DTDBGFC DTI Debugger Fault Clear 2 1 write-only DTEM23FC DTI EM23 Fault Clear 4 1 write-only DTLOCKUPFC DTI Lockup Fault Clear 3 1 write-only DTPRS0FC DTI PRS0 Fault Clear 0 1 write-only DTPRS1FC DTI PRS1 Fault Clear 1 1 write-only DTFCFG No Description 0xE8 -1 read-write n 0x0 0x0 DTDBGFEN DTI Debugger Fault Enable 26 1 read-write DTEM23FEN DTI EM23 Fault Enable 28 1 read-write DTFA DTI Fault Action 16 2 read-write NONE No action on fault 0 INACTIVE Set outputs inactive 1 CLEAR Clear outputs 2 TRISTATE Tristate outputs 3 DTLOCKUPFEN DTI Lockup Fault Enable 27 1 read-write DTPRS0FEN DTI PRS 0 Fault Enable 24 1 read-write DTPRS1FEN DTI PRS 1 Fault Enable 25 1 read-write DTLOCK No Description 0xFC -1 write-only n 0x0 0x0 DTILOCKKEY DTI Lock Key 0 16 write-only UNLOCK Write to unlock TIMER DTI registers 52864 DTOGEN No Description 0xF0 -1 read-write n 0x0 0x0 DTOGCC0EN DTI CCn Output Generation Enable 0 1 read-write DTOGCC1EN DTI CCn Output Generation Enable 1 1 read-write DTOGCC2EN DTI CCn Output Generation Enable 2 1 read-write DTOGCDTI0EN DTI CDTIn Output Generation Enable 3 1 read-write DTOGCDTI1EN DTI CDTIn Output Generation Enable 4 1 read-write DTOGCDTI2EN DTI CDTIn Output Generation Enable 5 1 read-write DTTIMECFG No Description 0xE4 -1 read-write n 0x0 0x0 DTFALLT DTI Fall-time 16 6 read-write DTPRESC DTI Prescaler Setting 0 10 read-write DTRISET DTI Rise-time 10 6 read-write EN No Description 0x30 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Timer Module Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 CC0 CC0 Interrupt Enable 4 1 read-write CC1 CC1 Interrupt Enable 5 1 read-write CC2 CC2 Interrupt Enable 6 1 read-write DIRCHG Direction Change Detect Interrupt Enable 2 1 read-write ICFOF0 ICFOF0 Interrupt Enable 20 1 read-write ICFOF1 ICFOF1 Interrupt Enable 21 1 read-write ICFOF2 ICFOF2 Interrupt Enable 22 1 read-write ICFUF0 ICFUF0 Interrupt Enable 24 1 read-write ICFUF1 ICFUF1 Interrupt Enable 25 1 read-write ICFUF2 ICFUF2 Interrupt Enable 26 1 read-write ICFWLFULL0 ICFWLFULL0 Interrupt Enable 16 1 read-write ICFWLFULL1 ICFWLFULL1 Interrupt Enable 17 1 read-write ICFWLFULL2 ICFWLFULL2 Interrupt Enable 18 1 read-write OF Overflow Interrupt Enable 0 1 read-write UF Underflow Interrupt Enable 1 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 CC0 Capture Compare Channel 0 Interrupt Flag 4 1 read-write CC1 Capture Compare Channel 1 Interrupt Flag 5 1 read-write CC2 Capture Compare Channel 2 Interrupt Flag 6 1 read-write DIRCHG Direction Change Detect Interrupt Flag 2 1 read-write ICFOF0 Input Capture FIFO overflow 20 1 read-write ICFOF1 Input Capture FIFO overflow 21 1 read-write ICFOF2 Input Capture FIFO overflow 22 1 read-write ICFUF0 Input capture FIFO underflow 24 1 read-write ICFUF1 Input capture FIFO underflow 25 1 read-write ICFUF2 Input capture FIFO underflow 26 1 read-write ICFWLFULL0 Input Capture Watermark Level Full 16 1 read-write ICFWLFULL1 Input Capture Watermark Level Full 17 1 read-write ICFWLFULL2 Input Capture Watermark Level Full 18 1 read-write OF Overflow Interrupt Flag 0 1 read-write UF Underflow Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Timer Lock Key 0 16 write-only UNLOCK Write to unlock TIMER registers 52864 STATUS No Description 0x10 -1 read-only n 0x0 0x0 CCPOL0 CCn Polarity 24 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL1 CCn Polarity 25 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL2 CCn Polarity 26 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 DIR Direction 1 1 read-only UP Counting up 0 DOWN Counting down 1 DTILOCKSTATUS DTI lock status 5 1 read-only UNLOCKED DTI registers are unlocked 0 LOCKED DTI registers are locked 1 ICFEMPTY0 Input capture fifo empty 16 1 read-only ICFEMPTY1 Input capture fifo empty 17 1 read-only ICFEMPTY2 Input capture fifo empty 18 1 read-only OCBV0 Output Compare Buffer Valid 8 1 read-only OCBV1 Output Compare Buffer Valid 9 1 read-only OCBV2 Output Compare Buffer Valid 10 1 read-only RUNNING Running 0 1 read-only SYNCBUSY Sync Busy 6 1 read-only TIMERLOCKSTATUS Timer lock status 4 1 read-only UNLOCKED TIMER registers are unlocked 0 LOCKED TIMER registers are locked 1 TOPBV TOP Buffer Valid 2 1 read-only TOP No Description 0x1C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 16 read-write TOPB No Description 0x20 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 16 read-write TIMER3_NS TIMER3_NS Registers TIMER3_NS 0x0 0x0 0x1000 registers n TIMER3 7 CC0_CFG No Description 0x60 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC0_ICF No Description 0x74 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC0_ICOF No Description 0x78 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC0_OC No Description 0x68 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC0_OCB No Description 0x70 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC1_CFG No Description 0x80 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC1_CTRL No Description 0x84 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC1_ICF No Description 0x94 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC1_ICOF No Description 0x98 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC1_OC No Description 0x88 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC1_OCB No Description 0x90 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC2_CFG No Description 0xA0 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC2_CTRL No Description 0xA4 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC2_ICF No Description 0xB4 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC2_ICOF No Description 0xB8 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC2_OC No Description 0xA8 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC2_OCB No Description 0xB0 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CFG No Description 0x4 -1 read-write n 0x0 0x0 ATI Always Track Inputs 16 1 read-write CLKSEL Clock Source Select 8 2 read-write PRESCEM01GRPACLK Prescaled EM01GRPACLK 0 CC1 Compare/Capture Channel 1 Input 1 TIMEROUF Timer is clocked by underflow(down-count) or overflow(up-count) in the lower numbered neighbor Timer 2 DEBUGRUN Debug Mode Run Enable 6 1 read-write HALT Timer is halted in debug mode 0 RUN Timer is running in debug mode 1 DISSYNCOUT Disable Timer Start/Stop/Reload output 11 1 read-write EN Timer can start/stop/reload other timers with SYNC bit set 0 DIS Timer cannot start/stop/reload other timers with SYNC bit set 1 DMACLRACT DMA Request Clear on Active 7 1 read-write MODE Timer Mode 0 2 read-write UP Up-count mode 0 DOWN Down-count mode 1 UPDOWN Up/down-count mode 2 QDEC Quadrature decoder mode 3 OSMEN One-shot Mode Enable 4 1 read-write PRESC Prescaler Setting 18 10 read-write DIV1 No prescaling 0 DIV2 Prescale by 2 1 DIV1024 Prescale by 1024 1023 DIV128 Prescale by 128 127 DIV16 Prescale by 16 15 DIV256 Prescale by 256 255 DIV4 Prescale by 4 3 DIV32 Prescale by 32 31 DIV512 Prescale by 512 511 DIV64 Prescale by 64 63 DIV8 Prescale by 8 7 QDM Quadrature Decoder Mode Selection 5 1 read-write X2 X2 mode selected 0 X4 X4 mode selected 1 RETIMEEN PWM output retimed enable 10 1 read-write DISABLE PWM outputs are not re-timed. 0 ENABLE PWM outputs are re-timed. 1 RSSCOIST Reload-Start Sets COIST 17 1 read-write SYNC Timer Start/Stop/Reload Synchronization 3 1 read-write DISABLE Timer operation is unaffected by other timers. 0 ENABLE Timer may be started, stopped and re-loaded from other timer instances. 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start Timer 0 1 write-only STOP Stop Timer 1 1 write-only CNT No Description 0x24 -1 read-write n 0x0 0x0 CNT Counter Value 0 16 read-write CTRL No Description 0x8 -1 read-write n 0x0 0x0 FALLA Timer Falling Input Edge Action 2 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 RISEA Timer Rising Input Edge Action 0 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 X2CNT 2x Count Mode 4 1 read-write DTCFG No Description 0xE0 -1 read-write n 0x0 0x0 DTAR DTI Always Run 9 1 read-write DTDAS DTI Automatic Start-up Functionality 1 1 read-write NORESTART No DTI restart on debugger exit 0 RESTART DTI restart on debugger exit 1 DTEN DTI Enable 0 1 read-write DTFATS DTI Fault Action on Timer Stop 10 1 read-write DTPRSEN DTI PRS Source Enable 11 1 read-write DTCTRL No Description 0xEC -1 read-write n 0x0 0x0 DTCINV DTI Complementary Output Invert. 0 1 read-write DTIPOL DTI Inactive Polarity 1 1 read-write DTFAULT No Description 0xF4 -1 read-only n 0x0 0x0 DTDBGF DTI Debugger Fault 2 1 read-only DTEM23F DTI EM23 Entry Fault 4 1 read-only DTLOCKUPF DTI Lockup Fault 3 1 read-only DTPRS0F DTI PRS 0 Fault 0 1 read-only DTPRS1F DTI PRS 1 Fault 1 1 read-only DTFAULTC No Description 0xF8 -1 write-only n 0x0 0x0 DTDBGFC DTI Debugger Fault Clear 2 1 write-only DTEM23FC DTI EM23 Fault Clear 4 1 write-only DTLOCKUPFC DTI Lockup Fault Clear 3 1 write-only DTPRS0FC DTI PRS0 Fault Clear 0 1 write-only DTPRS1FC DTI PRS1 Fault Clear 1 1 write-only DTFCFG No Description 0xE8 -1 read-write n 0x0 0x0 DTDBGFEN DTI Debugger Fault Enable 26 1 read-write DTEM23FEN DTI EM23 Fault Enable 28 1 read-write DTFA DTI Fault Action 16 2 read-write NONE No action on fault 0 INACTIVE Set outputs inactive 1 CLEAR Clear outputs 2 TRISTATE Tristate outputs 3 DTLOCKUPFEN DTI Lockup Fault Enable 27 1 read-write DTPRS0FEN DTI PRS 0 Fault Enable 24 1 read-write DTPRS1FEN DTI PRS 1 Fault Enable 25 1 read-write DTLOCK No Description 0xFC -1 write-only n 0x0 0x0 DTILOCKKEY DTI Lock Key 0 16 write-only UNLOCK Write to unlock TIMER DTI registers 52864 DTOGEN No Description 0xF0 -1 read-write n 0x0 0x0 DTOGCC0EN DTI CCn Output Generation Enable 0 1 read-write DTOGCC1EN DTI CCn Output Generation Enable 1 1 read-write DTOGCC2EN DTI CCn Output Generation Enable 2 1 read-write DTOGCDTI0EN DTI CDTIn Output Generation Enable 3 1 read-write DTOGCDTI1EN DTI CDTIn Output Generation Enable 4 1 read-write DTOGCDTI2EN DTI CDTIn Output Generation Enable 5 1 read-write DTTIMECFG No Description 0xE4 -1 read-write n 0x0 0x0 DTFALLT DTI Fall-time 16 6 read-write DTPRESC DTI Prescaler Setting 0 10 read-write DTRISET DTI Rise-time 10 6 read-write EN No Description 0x30 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Timer Module Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 CC0 CC0 Interrupt Enable 4 1 read-write CC1 CC1 Interrupt Enable 5 1 read-write CC2 CC2 Interrupt Enable 6 1 read-write DIRCHG Direction Change Detect Interrupt Enable 2 1 read-write ICFOF0 ICFOF0 Interrupt Enable 20 1 read-write ICFOF1 ICFOF1 Interrupt Enable 21 1 read-write ICFOF2 ICFOF2 Interrupt Enable 22 1 read-write ICFUF0 ICFUF0 Interrupt Enable 24 1 read-write ICFUF1 ICFUF1 Interrupt Enable 25 1 read-write ICFUF2 ICFUF2 Interrupt Enable 26 1 read-write ICFWLFULL0 ICFWLFULL0 Interrupt Enable 16 1 read-write ICFWLFULL1 ICFWLFULL1 Interrupt Enable 17 1 read-write ICFWLFULL2 ICFWLFULL2 Interrupt Enable 18 1 read-write OF Overflow Interrupt Enable 0 1 read-write UF Underflow Interrupt Enable 1 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 CC0 Capture Compare Channel 0 Interrupt Flag 4 1 read-write CC1 Capture Compare Channel 1 Interrupt Flag 5 1 read-write CC2 Capture Compare Channel 2 Interrupt Flag 6 1 read-write DIRCHG Direction Change Detect Interrupt Flag 2 1 read-write ICFOF0 Input Capture FIFO overflow 20 1 read-write ICFOF1 Input Capture FIFO overflow 21 1 read-write ICFOF2 Input Capture FIFO overflow 22 1 read-write ICFUF0 Input capture FIFO underflow 24 1 read-write ICFUF1 Input capture FIFO underflow 25 1 read-write ICFUF2 Input capture FIFO underflow 26 1 read-write ICFWLFULL0 Input Capture Watermark Level Full 16 1 read-write ICFWLFULL1 Input Capture Watermark Level Full 17 1 read-write ICFWLFULL2 Input Capture Watermark Level Full 18 1 read-write OF Overflow Interrupt Flag 0 1 read-write UF Underflow Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Timer Lock Key 0 16 write-only UNLOCK Write to unlock TIMER registers 52864 STATUS No Description 0x10 -1 read-only n 0x0 0x0 CCPOL0 CCn Polarity 24 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL1 CCn Polarity 25 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL2 CCn Polarity 26 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 DIR Direction 1 1 read-only UP Counting up 0 DOWN Counting down 1 DTILOCKSTATUS DTI lock status 5 1 read-only UNLOCKED DTI registers are unlocked 0 LOCKED DTI registers are locked 1 ICFEMPTY0 Input capture fifo empty 16 1 read-only ICFEMPTY1 Input capture fifo empty 17 1 read-only ICFEMPTY2 Input capture fifo empty 18 1 read-only OCBV0 Output Compare Buffer Valid 8 1 read-only OCBV1 Output Compare Buffer Valid 9 1 read-only OCBV2 Output Compare Buffer Valid 10 1 read-only RUNNING Running 0 1 read-only SYNCBUSY Sync Busy 6 1 read-only TIMERLOCKSTATUS Timer lock status 4 1 read-only UNLOCKED TIMER registers are unlocked 0 LOCKED TIMER registers are locked 1 TOPBV TOP Buffer Valid 2 1 read-only TOP No Description 0x1C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 16 read-write TOPB No Description 0x20 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 16 read-write TIMER3_S TIMER3_S Registers TIMER3_S 0x0 0x0 0x1000 registers n TIMER3 7 CC0_CFG No Description 0x60 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC0_ICF No Description 0x74 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC0_ICOF No Description 0x78 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC0_OC No Description 0x68 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC0_OCB No Description 0x70 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC1_CFG No Description 0x80 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC1_CTRL No Description 0x84 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC1_ICF No Description 0x94 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC1_ICOF No Description 0x98 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC1_OC No Description 0x88 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC1_OCB No Description 0x90 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC2_CFG No Description 0xA0 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC2_CTRL No Description 0xA4 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC2_ICF No Description 0xB4 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC2_ICOF No Description 0xB8 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC2_OC No Description 0xA8 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC2_OCB No Description 0xB0 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CFG No Description 0x4 -1 read-write n 0x0 0x0 ATI Always Track Inputs 16 1 read-write CLKSEL Clock Source Select 8 2 read-write PRESCEM01GRPACLK Prescaled EM01GRPACLK 0 CC1 Compare/Capture Channel 1 Input 1 TIMEROUF Timer is clocked by underflow(down-count) or overflow(up-count) in the lower numbered neighbor Timer 2 DEBUGRUN Debug Mode Run Enable 6 1 read-write HALT Timer is halted in debug mode 0 RUN Timer is running in debug mode 1 DISSYNCOUT Disable Timer Start/Stop/Reload output 11 1 read-write EN Timer can start/stop/reload other timers with SYNC bit set 0 DIS Timer cannot start/stop/reload other timers with SYNC bit set 1 DMACLRACT DMA Request Clear on Active 7 1 read-write MODE Timer Mode 0 2 read-write UP Up-count mode 0 DOWN Down-count mode 1 UPDOWN Up/down-count mode 2 QDEC Quadrature decoder mode 3 OSMEN One-shot Mode Enable 4 1 read-write PRESC Prescaler Setting 18 10 read-write DIV1 No prescaling 0 DIV2 Prescale by 2 1 DIV1024 Prescale by 1024 1023 DIV128 Prescale by 128 127 DIV16 Prescale by 16 15 DIV256 Prescale by 256 255 DIV4 Prescale by 4 3 DIV32 Prescale by 32 31 DIV512 Prescale by 512 511 DIV64 Prescale by 64 63 DIV8 Prescale by 8 7 QDM Quadrature Decoder Mode Selection 5 1 read-write X2 X2 mode selected 0 X4 X4 mode selected 1 RETIMEEN PWM output retimed enable 10 1 read-write DISABLE PWM outputs are not re-timed. 0 ENABLE PWM outputs are re-timed. 1 RSSCOIST Reload-Start Sets COIST 17 1 read-write SYNC Timer Start/Stop/Reload Synchronization 3 1 read-write DISABLE Timer operation is unaffected by other timers. 0 ENABLE Timer may be started, stopped and re-loaded from other timer instances. 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start Timer 0 1 write-only STOP Stop Timer 1 1 write-only CNT No Description 0x24 -1 read-write n 0x0 0x0 CNT Counter Value 0 16 read-write CTRL No Description 0x8 -1 read-write n 0x0 0x0 FALLA Timer Falling Input Edge Action 2 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 RISEA Timer Rising Input Edge Action 0 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 X2CNT 2x Count Mode 4 1 read-write DTCFG No Description 0xE0 -1 read-write n 0x0 0x0 DTAR DTI Always Run 9 1 read-write DTDAS DTI Automatic Start-up Functionality 1 1 read-write NORESTART No DTI restart on debugger exit 0 RESTART DTI restart on debugger exit 1 DTEN DTI Enable 0 1 read-write DTFATS DTI Fault Action on Timer Stop 10 1 read-write DTPRSEN DTI PRS Source Enable 11 1 read-write DTCTRL No Description 0xEC -1 read-write n 0x0 0x0 DTCINV DTI Complementary Output Invert. 0 1 read-write DTIPOL DTI Inactive Polarity 1 1 read-write DTFAULT No Description 0xF4 -1 read-only n 0x0 0x0 DTDBGF DTI Debugger Fault 2 1 read-only DTEM23F DTI EM23 Entry Fault 4 1 read-only DTLOCKUPF DTI Lockup Fault 3 1 read-only DTPRS0F DTI PRS 0 Fault 0 1 read-only DTPRS1F DTI PRS 1 Fault 1 1 read-only DTFAULTC No Description 0xF8 -1 write-only n 0x0 0x0 DTDBGFC DTI Debugger Fault Clear 2 1 write-only DTEM23FC DTI EM23 Fault Clear 4 1 write-only DTLOCKUPFC DTI Lockup Fault Clear 3 1 write-only DTPRS0FC DTI PRS0 Fault Clear 0 1 write-only DTPRS1FC DTI PRS1 Fault Clear 1 1 write-only DTFCFG No Description 0xE8 -1 read-write n 0x0 0x0 DTDBGFEN DTI Debugger Fault Enable 26 1 read-write DTEM23FEN DTI EM23 Fault Enable 28 1 read-write DTFA DTI Fault Action 16 2 read-write NONE No action on fault 0 INACTIVE Set outputs inactive 1 CLEAR Clear outputs 2 TRISTATE Tristate outputs 3 DTLOCKUPFEN DTI Lockup Fault Enable 27 1 read-write DTPRS0FEN DTI PRS 0 Fault Enable 24 1 read-write DTPRS1FEN DTI PRS 1 Fault Enable 25 1 read-write DTLOCK No Description 0xFC -1 write-only n 0x0 0x0 DTILOCKKEY DTI Lock Key 0 16 write-only UNLOCK Write to unlock TIMER DTI registers 52864 DTOGEN No Description 0xF0 -1 read-write n 0x0 0x0 DTOGCC0EN DTI CCn Output Generation Enable 0 1 read-write DTOGCC1EN DTI CCn Output Generation Enable 1 1 read-write DTOGCC2EN DTI CCn Output Generation Enable 2 1 read-write DTOGCDTI0EN DTI CDTIn Output Generation Enable 3 1 read-write DTOGCDTI1EN DTI CDTIn Output Generation Enable 4 1 read-write DTOGCDTI2EN DTI CDTIn Output Generation Enable 5 1 read-write DTTIMECFG No Description 0xE4 -1 read-write n 0x0 0x0 DTFALLT DTI Fall-time 16 6 read-write DTPRESC DTI Prescaler Setting 0 10 read-write DTRISET DTI Rise-time 10 6 read-write EN No Description 0x30 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Timer Module Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 CC0 CC0 Interrupt Enable 4 1 read-write CC1 CC1 Interrupt Enable 5 1 read-write CC2 CC2 Interrupt Enable 6 1 read-write DIRCHG Direction Change Detect Interrupt Enable 2 1 read-write ICFOF0 ICFOF0 Interrupt Enable 20 1 read-write ICFOF1 ICFOF1 Interrupt Enable 21 1 read-write ICFOF2 ICFOF2 Interrupt Enable 22 1 read-write ICFUF0 ICFUF0 Interrupt Enable 24 1 read-write ICFUF1 ICFUF1 Interrupt Enable 25 1 read-write ICFUF2 ICFUF2 Interrupt Enable 26 1 read-write ICFWLFULL0 ICFWLFULL0 Interrupt Enable 16 1 read-write ICFWLFULL1 ICFWLFULL1 Interrupt Enable 17 1 read-write ICFWLFULL2 ICFWLFULL2 Interrupt Enable 18 1 read-write OF Overflow Interrupt Enable 0 1 read-write UF Underflow Interrupt Enable 1 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 CC0 Capture Compare Channel 0 Interrupt Flag 4 1 read-write CC1 Capture Compare Channel 1 Interrupt Flag 5 1 read-write CC2 Capture Compare Channel 2 Interrupt Flag 6 1 read-write DIRCHG Direction Change Detect Interrupt Flag 2 1 read-write ICFOF0 Input Capture FIFO overflow 20 1 read-write ICFOF1 Input Capture FIFO overflow 21 1 read-write ICFOF2 Input Capture FIFO overflow 22 1 read-write ICFUF0 Input capture FIFO underflow 24 1 read-write ICFUF1 Input capture FIFO underflow 25 1 read-write ICFUF2 Input capture FIFO underflow 26 1 read-write ICFWLFULL0 Input Capture Watermark Level Full 16 1 read-write ICFWLFULL1 Input Capture Watermark Level Full 17 1 read-write ICFWLFULL2 Input Capture Watermark Level Full 18 1 read-write OF Overflow Interrupt Flag 0 1 read-write UF Underflow Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Timer Lock Key 0 16 write-only UNLOCK Write to unlock TIMER registers 52864 STATUS No Description 0x10 -1 read-only n 0x0 0x0 CCPOL0 CCn Polarity 24 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL1 CCn Polarity 25 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL2 CCn Polarity 26 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 DIR Direction 1 1 read-only UP Counting up 0 DOWN Counting down 1 DTILOCKSTATUS DTI lock status 5 1 read-only UNLOCKED DTI registers are unlocked 0 LOCKED DTI registers are locked 1 ICFEMPTY0 Input capture fifo empty 16 1 read-only ICFEMPTY1 Input capture fifo empty 17 1 read-only ICFEMPTY2 Input capture fifo empty 18 1 read-only OCBV0 Output Compare Buffer Valid 8 1 read-only OCBV1 Output Compare Buffer Valid 9 1 read-only OCBV2 Output Compare Buffer Valid 10 1 read-only RUNNING Running 0 1 read-only SYNCBUSY Sync Busy 6 1 read-only TIMERLOCKSTATUS Timer lock status 4 1 read-only UNLOCKED TIMER registers are unlocked 0 LOCKED TIMER registers are locked 1 TOPBV TOP Buffer Valid 2 1 read-only TOP No Description 0x1C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 16 read-write TOPB No Description 0x20 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 16 read-write TIMER4_NS TIMER4_NS Registers TIMER4_NS 0x0 0x0 0x1000 registers n TIMER4 8 CC0_CFG No Description 0x60 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC0_ICF No Description 0x74 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC0_ICOF No Description 0x78 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC0_OC No Description 0x68 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC0_OCB No Description 0x70 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC1_CFG No Description 0x80 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC1_CTRL No Description 0x84 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC1_ICF No Description 0x94 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC1_ICOF No Description 0x98 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC1_OC No Description 0x88 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC1_OCB No Description 0x90 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC2_CFG No Description 0xA0 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC2_CTRL No Description 0xA4 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC2_ICF No Description 0xB4 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC2_ICOF No Description 0xB8 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC2_OC No Description 0xA8 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC2_OCB No Description 0xB0 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CFG No Description 0x4 -1 read-write n 0x0 0x0 ATI Always Track Inputs 16 1 read-write CLKSEL Clock Source Select 8 2 read-write PRESCEM01GRPACLK Prescaled EM01GRPACLK 0 CC1 Compare/Capture Channel 1 Input 1 TIMEROUF Timer is clocked by underflow(down-count) or overflow(up-count) in the lower numbered neighbor Timer 2 DEBUGRUN Debug Mode Run Enable 6 1 read-write HALT Timer is halted in debug mode 0 RUN Timer is running in debug mode 1 DISSYNCOUT Disable Timer Start/Stop/Reload output 11 1 read-write EN Timer can start/stop/reload other timers with SYNC bit set 0 DIS Timer cannot start/stop/reload other timers with SYNC bit set 1 DMACLRACT DMA Request Clear on Active 7 1 read-write MODE Timer Mode 0 2 read-write UP Up-count mode 0 DOWN Down-count mode 1 UPDOWN Up/down-count mode 2 QDEC Quadrature decoder mode 3 OSMEN One-shot Mode Enable 4 1 read-write PRESC Prescaler Setting 18 10 read-write DIV1 No prescaling 0 DIV2 Prescale by 2 1 DIV1024 Prescale by 1024 1023 DIV128 Prescale by 128 127 DIV16 Prescale by 16 15 DIV256 Prescale by 256 255 DIV4 Prescale by 4 3 DIV32 Prescale by 32 31 DIV512 Prescale by 512 511 DIV64 Prescale by 64 63 DIV8 Prescale by 8 7 QDM Quadrature Decoder Mode Selection 5 1 read-write X2 X2 mode selected 0 X4 X4 mode selected 1 RETIMEEN PWM output retimed enable 10 1 read-write DISABLE PWM outputs are not re-timed. 0 ENABLE PWM outputs are re-timed. 1 RSSCOIST Reload-Start Sets COIST 17 1 read-write SYNC Timer Start/Stop/Reload Synchronization 3 1 read-write DISABLE Timer operation is unaffected by other timers. 0 ENABLE Timer may be started, stopped and re-loaded from other timer instances. 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start Timer 0 1 write-only STOP Stop Timer 1 1 write-only CNT No Description 0x24 -1 read-write n 0x0 0x0 CNT Counter Value 0 16 read-write CTRL No Description 0x8 -1 read-write n 0x0 0x0 FALLA Timer Falling Input Edge Action 2 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 RISEA Timer Rising Input Edge Action 0 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 X2CNT 2x Count Mode 4 1 read-write DTCFG No Description 0xE0 -1 read-write n 0x0 0x0 DTAR DTI Always Run 9 1 read-write DTDAS DTI Automatic Start-up Functionality 1 1 read-write NORESTART No DTI restart on debugger exit 0 RESTART DTI restart on debugger exit 1 DTEN DTI Enable 0 1 read-write DTFATS DTI Fault Action on Timer Stop 10 1 read-write DTPRSEN DTI PRS Source Enable 11 1 read-write DTCTRL No Description 0xEC -1 read-write n 0x0 0x0 DTCINV DTI Complementary Output Invert. 0 1 read-write DTIPOL DTI Inactive Polarity 1 1 read-write DTFAULT No Description 0xF4 -1 read-only n 0x0 0x0 DTDBGF DTI Debugger Fault 2 1 read-only DTEM23F DTI EM23 Entry Fault 4 1 read-only DTLOCKUPF DTI Lockup Fault 3 1 read-only DTPRS0F DTI PRS 0 Fault 0 1 read-only DTPRS1F DTI PRS 1 Fault 1 1 read-only DTFAULTC No Description 0xF8 -1 write-only n 0x0 0x0 DTDBGFC DTI Debugger Fault Clear 2 1 write-only DTEM23FC DTI EM23 Fault Clear 4 1 write-only DTLOCKUPFC DTI Lockup Fault Clear 3 1 write-only DTPRS0FC DTI PRS0 Fault Clear 0 1 write-only DTPRS1FC DTI PRS1 Fault Clear 1 1 write-only DTFCFG No Description 0xE8 -1 read-write n 0x0 0x0 DTDBGFEN DTI Debugger Fault Enable 26 1 read-write DTEM23FEN DTI EM23 Fault Enable 28 1 read-write DTFA DTI Fault Action 16 2 read-write NONE No action on fault 0 INACTIVE Set outputs inactive 1 CLEAR Clear outputs 2 TRISTATE Tristate outputs 3 DTLOCKUPFEN DTI Lockup Fault Enable 27 1 read-write DTPRS0FEN DTI PRS 0 Fault Enable 24 1 read-write DTPRS1FEN DTI PRS 1 Fault Enable 25 1 read-write DTLOCK No Description 0xFC -1 write-only n 0x0 0x0 DTILOCKKEY DTI Lock Key 0 16 write-only UNLOCK Write to unlock TIMER DTI registers 52864 DTOGEN No Description 0xF0 -1 read-write n 0x0 0x0 DTOGCC0EN DTI CCn Output Generation Enable 0 1 read-write DTOGCC1EN DTI CCn Output Generation Enable 1 1 read-write DTOGCC2EN DTI CCn Output Generation Enable 2 1 read-write DTOGCDTI0EN DTI CDTIn Output Generation Enable 3 1 read-write DTOGCDTI1EN DTI CDTIn Output Generation Enable 4 1 read-write DTOGCDTI2EN DTI CDTIn Output Generation Enable 5 1 read-write DTTIMECFG No Description 0xE4 -1 read-write n 0x0 0x0 DTFALLT DTI Fall-time 16 6 read-write DTPRESC DTI Prescaler Setting 0 10 read-write DTRISET DTI Rise-time 10 6 read-write EN No Description 0x30 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Timer Module Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 CC0 CC0 Interrupt Enable 4 1 read-write CC1 CC1 Interrupt Enable 5 1 read-write CC2 CC2 Interrupt Enable 6 1 read-write DIRCHG Direction Change Detect Interrupt Enable 2 1 read-write ICFOF0 ICFOF0 Interrupt Enable 20 1 read-write ICFOF1 ICFOF1 Interrupt Enable 21 1 read-write ICFOF2 ICFOF2 Interrupt Enable 22 1 read-write ICFUF0 ICFUF0 Interrupt Enable 24 1 read-write ICFUF1 ICFUF1 Interrupt Enable 25 1 read-write ICFUF2 ICFUF2 Interrupt Enable 26 1 read-write ICFWLFULL0 ICFWLFULL0 Interrupt Enable 16 1 read-write ICFWLFULL1 ICFWLFULL1 Interrupt Enable 17 1 read-write ICFWLFULL2 ICFWLFULL2 Interrupt Enable 18 1 read-write OF Overflow Interrupt Enable 0 1 read-write UF Underflow Interrupt Enable 1 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 CC0 Capture Compare Channel 0 Interrupt Flag 4 1 read-write CC1 Capture Compare Channel 1 Interrupt Flag 5 1 read-write CC2 Capture Compare Channel 2 Interrupt Flag 6 1 read-write DIRCHG Direction Change Detect Interrupt Flag 2 1 read-write ICFOF0 Input Capture FIFO overflow 20 1 read-write ICFOF1 Input Capture FIFO overflow 21 1 read-write ICFOF2 Input Capture FIFO overflow 22 1 read-write ICFUF0 Input capture FIFO underflow 24 1 read-write ICFUF1 Input capture FIFO underflow 25 1 read-write ICFUF2 Input capture FIFO underflow 26 1 read-write ICFWLFULL0 Input Capture Watermark Level Full 16 1 read-write ICFWLFULL1 Input Capture Watermark Level Full 17 1 read-write ICFWLFULL2 Input Capture Watermark Level Full 18 1 read-write OF Overflow Interrupt Flag 0 1 read-write UF Underflow Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Timer Lock Key 0 16 write-only UNLOCK Write to unlock TIMER registers 52864 STATUS No Description 0x10 -1 read-only n 0x0 0x0 CCPOL0 CCn Polarity 24 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL1 CCn Polarity 25 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL2 CCn Polarity 26 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 DIR Direction 1 1 read-only UP Counting up 0 DOWN Counting down 1 DTILOCKSTATUS DTI lock status 5 1 read-only UNLOCKED DTI registers are unlocked 0 LOCKED DTI registers are locked 1 ICFEMPTY0 Input capture fifo empty 16 1 read-only ICFEMPTY1 Input capture fifo empty 17 1 read-only ICFEMPTY2 Input capture fifo empty 18 1 read-only OCBV0 Output Compare Buffer Valid 8 1 read-only OCBV1 Output Compare Buffer Valid 9 1 read-only OCBV2 Output Compare Buffer Valid 10 1 read-only RUNNING Running 0 1 read-only SYNCBUSY Sync Busy 6 1 read-only TIMERLOCKSTATUS Timer lock status 4 1 read-only UNLOCKED TIMER registers are unlocked 0 LOCKED TIMER registers are locked 1 TOPBV TOP Buffer Valid 2 1 read-only TOP No Description 0x1C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 16 read-write TOPB No Description 0x20 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 16 read-write TIMER4_S TIMER4_S Registers TIMER4_S 0x0 0x0 0x1000 registers n TIMER4 8 CC0_CFG No Description 0x60 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC0_CTRL No Description 0x64 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC0_ICF No Description 0x74 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC0_ICOF No Description 0x78 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC0_OC No Description 0x68 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC0_OCB No Description 0x70 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC1_CFG No Description 0x80 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC1_CTRL No Description 0x84 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC1_ICF No Description 0x94 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC1_ICOF No Description 0x98 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC1_OC No Description 0x88 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC1_OCB No Description 0x90 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CC2_CFG No Description 0xA0 -1 read-write n 0x0 0x0 COIST Compare Output Initial State 4 1 read-write FILT Digital Filter 20 1 read-write DISABLE Digital Filter Disabled 0 ENABLE Digital Filter Enabled 1 ICFWL Input Capture FIFO watermark level 21 1 read-write INSEL Input Selection 17 2 read-write PIN TIMERnCCx pin is selected 0 PRSSYNC Synchornous PRS selected 1 PRSASYNCLEVEL Asynchronous Level PRS selected 2 PRSASYNCPULSE Asynchronous Pulse PRS selected 3 MODE CC Channel Mode 0 2 read-write OFF Compare/Capture channel turned off 0 INPUTCAPTURE Input Capture 1 OUTPUTCOMPARE Output Compare 2 PWM Pulse-Width Modulation 3 PRSCONF PRS Configuration 19 1 read-write PULSE Each CC event will generate a one EM01GRPACLK cycle high pulse 0 LEVEL The PRS channel will follow CC out 1 CC2_CTRL No Description 0xA4 -1 read-write n 0x0 0x0 CMOA Compare Match Output Action 8 2 read-write NONE No action on compare match 0 TOGGLE Toggle output on compare match 1 CLEAR Clear output on compare match 2 SET Set output on compare match 3 COFOA Counter Overflow Output Action 10 2 read-write NONE No action on counter overflow 0 TOGGLE Toggle output on counter overflow 1 CLEAR Clear output on counter overflow 2 SET Set output on counter overflow 3 CUFOA Counter Underflow Output Action 12 2 read-write NONE No action on counter underflow 0 TOGGLE Toggle output on counter underflow 1 CLEAR Clear output on counter underflow 2 SET Set output on counter underflow 3 ICEDGE Input Capture Edge Select 24 2 read-write RISING Rising edges detected 0 FALLING Falling edges detected 1 BOTH Both edges detected 2 NONE No edge detection, signal is left as it is 3 ICEVCTRL Input Capture Event Control 26 2 read-write EVERYEDGE PRS output pulse and interrupt flag set on every capture 0 EVERYSECONDEDGE PRS output pulse and interrupt flag set on every second capture 1 RISING PRS output pulse and interrupt flag set on rising edge only (if ICEDGE = BOTH) 2 FALLING PRS output pulse and interrupt flag set on falling edge only (if ICEDGE = BOTH) 3 OUTINV Output Invert 2 1 read-write CC2_ICF No Description 0xB4 -1 read-only n 0x0 0x0 ICF Input Capture FIFO 0 16 read-only CC2_ICOF No Description 0xB8 -1 read-only n 0x0 0x0 ICOF Input Capture FIFO Overflow 0 16 read-only CC2_OC No Description 0xA8 -1 read-write n 0x0 0x0 OC Output Compare Value 0 16 read-write CC2_OCB No Description 0xB0 -1 read-write n 0x0 0x0 OCB Output Compare Value Buffer 0 16 read-write CFG No Description 0x4 -1 read-write n 0x0 0x0 ATI Always Track Inputs 16 1 read-write CLKSEL Clock Source Select 8 2 read-write PRESCEM01GRPACLK Prescaled EM01GRPACLK 0 CC1 Compare/Capture Channel 1 Input 1 TIMEROUF Timer is clocked by underflow(down-count) or overflow(up-count) in the lower numbered neighbor Timer 2 DEBUGRUN Debug Mode Run Enable 6 1 read-write HALT Timer is halted in debug mode 0 RUN Timer is running in debug mode 1 DISSYNCOUT Disable Timer Start/Stop/Reload output 11 1 read-write EN Timer can start/stop/reload other timers with SYNC bit set 0 DIS Timer cannot start/stop/reload other timers with SYNC bit set 1 DMACLRACT DMA Request Clear on Active 7 1 read-write MODE Timer Mode 0 2 read-write UP Up-count mode 0 DOWN Down-count mode 1 UPDOWN Up/down-count mode 2 QDEC Quadrature decoder mode 3 OSMEN One-shot Mode Enable 4 1 read-write PRESC Prescaler Setting 18 10 read-write DIV1 No prescaling 0 DIV2 Prescale by 2 1 DIV1024 Prescale by 1024 1023 DIV128 Prescale by 128 127 DIV16 Prescale by 16 15 DIV256 Prescale by 256 255 DIV4 Prescale by 4 3 DIV32 Prescale by 32 31 DIV512 Prescale by 512 511 DIV64 Prescale by 64 63 DIV8 Prescale by 8 7 QDM Quadrature Decoder Mode Selection 5 1 read-write X2 X2 mode selected 0 X4 X4 mode selected 1 RETIMEEN PWM output retimed enable 10 1 read-write DISABLE PWM outputs are not re-timed. 0 ENABLE PWM outputs are re-timed. 1 RSSCOIST Reload-Start Sets COIST 17 1 read-write SYNC Timer Start/Stop/Reload Synchronization 3 1 read-write DISABLE Timer operation is unaffected by other timers. 0 ENABLE Timer may be started, stopped and re-loaded from other timer instances. 1 CMD No Description 0xC -1 write-only n 0x0 0x0 START Start Timer 0 1 write-only STOP Stop Timer 1 1 write-only CNT No Description 0x24 -1 read-write n 0x0 0x0 CNT Counter Value 0 16 read-write CTRL No Description 0x8 -1 read-write n 0x0 0x0 FALLA Timer Falling Input Edge Action 2 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 RISEA Timer Rising Input Edge Action 0 2 read-write NONE No action 0 START Start counter without reload 1 STOP Stop counter without reload 2 RELOADSTART Reload and start counter 3 X2CNT 2x Count Mode 4 1 read-write DTCFG No Description 0xE0 -1 read-write n 0x0 0x0 DTAR DTI Always Run 9 1 read-write DTDAS DTI Automatic Start-up Functionality 1 1 read-write NORESTART No DTI restart on debugger exit 0 RESTART DTI restart on debugger exit 1 DTEN DTI Enable 0 1 read-write DTFATS DTI Fault Action on Timer Stop 10 1 read-write DTPRSEN DTI PRS Source Enable 11 1 read-write DTCTRL No Description 0xEC -1 read-write n 0x0 0x0 DTCINV DTI Complementary Output Invert. 0 1 read-write DTIPOL DTI Inactive Polarity 1 1 read-write DTFAULT No Description 0xF4 -1 read-only n 0x0 0x0 DTDBGF DTI Debugger Fault 2 1 read-only DTEM23F DTI EM23 Entry Fault 4 1 read-only DTLOCKUPF DTI Lockup Fault 3 1 read-only DTPRS0F DTI PRS 0 Fault 0 1 read-only DTPRS1F DTI PRS 1 Fault 1 1 read-only DTFAULTC No Description 0xF8 -1 write-only n 0x0 0x0 DTDBGFC DTI Debugger Fault Clear 2 1 write-only DTEM23FC DTI EM23 Fault Clear 4 1 write-only DTLOCKUPFC DTI Lockup Fault Clear 3 1 write-only DTPRS0FC DTI PRS0 Fault Clear 0 1 write-only DTPRS1FC DTI PRS1 Fault Clear 1 1 write-only DTFCFG No Description 0xE8 -1 read-write n 0x0 0x0 DTDBGFEN DTI Debugger Fault Enable 26 1 read-write DTEM23FEN DTI EM23 Fault Enable 28 1 read-write DTFA DTI Fault Action 16 2 read-write NONE No action on fault 0 INACTIVE Set outputs inactive 1 CLEAR Clear outputs 2 TRISTATE Tristate outputs 3 DTLOCKUPFEN DTI Lockup Fault Enable 27 1 read-write DTPRS0FEN DTI PRS 0 Fault Enable 24 1 read-write DTPRS1FEN DTI PRS 1 Fault Enable 25 1 read-write DTLOCK No Description 0xFC -1 write-only n 0x0 0x0 DTILOCKKEY DTI Lock Key 0 16 write-only UNLOCK Write to unlock TIMER DTI registers 52864 DTOGEN No Description 0xF0 -1 read-write n 0x0 0x0 DTOGCC0EN DTI CCn Output Generation Enable 0 1 read-write DTOGCC1EN DTI CCn Output Generation Enable 1 1 read-write DTOGCC2EN DTI CCn Output Generation Enable 2 1 read-write DTOGCDTI0EN DTI CDTIn Output Generation Enable 3 1 read-write DTOGCDTI1EN DTI CDTIn Output Generation Enable 4 1 read-write DTOGCDTI2EN DTI CDTIn Output Generation Enable 5 1 read-write DTTIMECFG No Description 0xE4 -1 read-write n 0x0 0x0 DTFALLT DTI Fall-time 16 6 read-write DTPRESC DTI Prescaler Setting 0 10 read-write DTRISET DTI Rise-time 10 6 read-write EN No Description 0x30 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN Timer Module Enable 0 1 read-write IEN No Description 0x18 -1 read-write n 0x0 0x0 CC0 CC0 Interrupt Enable 4 1 read-write CC1 CC1 Interrupt Enable 5 1 read-write CC2 CC2 Interrupt Enable 6 1 read-write DIRCHG Direction Change Detect Interrupt Enable 2 1 read-write ICFOF0 ICFOF0 Interrupt Enable 20 1 read-write ICFOF1 ICFOF1 Interrupt Enable 21 1 read-write ICFOF2 ICFOF2 Interrupt Enable 22 1 read-write ICFUF0 ICFUF0 Interrupt Enable 24 1 read-write ICFUF1 ICFUF1 Interrupt Enable 25 1 read-write ICFUF2 ICFUF2 Interrupt Enable 26 1 read-write ICFWLFULL0 ICFWLFULL0 Interrupt Enable 16 1 read-write ICFWLFULL1 ICFWLFULL1 Interrupt Enable 17 1 read-write ICFWLFULL2 ICFWLFULL2 Interrupt Enable 18 1 read-write OF Overflow Interrupt Enable 0 1 read-write UF Underflow Interrupt Enable 1 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 CC0 Capture Compare Channel 0 Interrupt Flag 4 1 read-write CC1 Capture Compare Channel 1 Interrupt Flag 5 1 read-write CC2 Capture Compare Channel 2 Interrupt Flag 6 1 read-write DIRCHG Direction Change Detect Interrupt Flag 2 1 read-write ICFOF0 Input Capture FIFO overflow 20 1 read-write ICFOF1 Input Capture FIFO overflow 21 1 read-write ICFOF2 Input Capture FIFO overflow 22 1 read-write ICFUF0 Input capture FIFO underflow 24 1 read-write ICFUF1 Input capture FIFO underflow 25 1 read-write ICFUF2 Input capture FIFO underflow 26 1 read-write ICFWLFULL0 Input Capture Watermark Level Full 16 1 read-write ICFWLFULL1 Input Capture Watermark Level Full 17 1 read-write ICFWLFULL2 Input Capture Watermark Level Full 18 1 read-write OF Overflow Interrupt Flag 0 1 read-write UF Underflow Interrupt Flag 1 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version ID 0 32 read-only LOCK No Description 0x2C -1 write-only n 0x0 0x0 LOCKKEY Timer Lock Key 0 16 write-only UNLOCK Write to unlock TIMER registers 52864 STATUS No Description 0x10 -1 read-only n 0x0 0x0 CCPOL0 CCn Polarity 24 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL1 CCn Polarity 25 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 CCPOL2 CCn Polarity 26 1 read-only LOWRISE CC0 polarity low level/rising edge 0 HIGHFALL CC0 polarity high level/falling edge 1 DIR Direction 1 1 read-only UP Counting up 0 DOWN Counting down 1 DTILOCKSTATUS DTI lock status 5 1 read-only UNLOCKED DTI registers are unlocked 0 LOCKED DTI registers are locked 1 ICFEMPTY0 Input capture fifo empty 16 1 read-only ICFEMPTY1 Input capture fifo empty 17 1 read-only ICFEMPTY2 Input capture fifo empty 18 1 read-only OCBV0 Output Compare Buffer Valid 8 1 read-only OCBV1 Output Compare Buffer Valid 9 1 read-only OCBV2 Output Compare Buffer Valid 10 1 read-only RUNNING Running 0 1 read-only SYNCBUSY Sync Busy 6 1 read-only TIMERLOCKSTATUS Timer lock status 4 1 read-only UNLOCKED TIMER registers are unlocked 0 LOCKED TIMER registers are locked 1 TOPBV TOP Buffer Valid 2 1 read-only TOP No Description 0x1C -1 read-write n 0x0 0x0 TOP Counter Top Value 0 16 read-write TOPB No Description 0x20 -1 read-write n 0x0 0x0 TOPB Counter Top Buffer Register 0 16 read-write ULFRCO_NS ULFRCO_NS Registers ULFRCO_NS 0x0 0x0 0x1000 registers n ULFRCO 25 IEN No Description 0x18 -1 read-write n 0x0 0x0 NEGEDGE Enable Negative Edge Interrupt 2 1 read-write POSEDGE Enable Positive Edge Interrupt 1 1 read-write RDY Enable Ready Interrupt 0 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 NEGEDGE Negative Edge Interrupt Flag 2 1 read-write POSEDGE Positive Edge Interrupt Flag 1 1 read-write RDY Ready Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION ULFRCO IP version 0 32 read-only STATUS No Description 0x8 -1 read-only n 0x0 0x0 ENS Enable Status 16 1 read-only RDY Ready Status 0 1 read-only ULFRCO_S ULFRCO_S Registers ULFRCO_S 0x0 0x0 0x1000 registers n ULFRCO 25 IEN No Description 0x18 -1 read-write n 0x0 0x0 NEGEDGE Enable Negative Edge Interrupt 2 1 read-write POSEDGE Enable Positive Edge Interrupt 1 1 read-write RDY Enable Ready Interrupt 0 1 read-write IF No Description 0x14 -1 read-write n 0x0 0x0 NEGEDGE Negative Edge Interrupt Flag 2 1 read-write POSEDGE Positive Edge Interrupt Flag 1 1 read-write RDY Ready Interrupt Flag 0 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION ULFRCO IP version 0 32 read-only STATUS No Description 0x8 -1 read-only n 0x0 0x0 ENS Enable Status 16 1 read-only RDY Ready Status 0 1 read-only USART0_NS USART0_NS Registers USART0_NS 0x0 0x0 0x1000 registers n USART0_RX 9 USART0_TX 10 CLKDIV No Description 0x1C -1 read-write n 0x0 0x0 AUTOBAUDEN AUTOBAUD detection enable 31 1 read-write DIV Fractional Clock Divider 3 20 read-write CMD No Description 0x14 -1 write-only n 0x0 0x0 CLEARRX Clear RX 11 1 write-only CLEARTX Clear TX 10 1 write-only MASTERDIS Master Disable 5 1 write-only MASTEREN Master Enable 4 1 write-only RXBLOCKDIS Receiver Block Disable 7 1 write-only RXBLOCKEN Receiver Block Enable 6 1 write-only RXDIS Receiver Disable 1 1 write-only RXEN Receiver Enable 0 1 write-only TXDIS Transmitter Disable 3 1 write-only TXEN Transmitter Enable 2 1 write-only TXTRIDIS Transmitter Tristate Disable 9 1 write-only TXTRIEN Transmitter Tristate Enable 8 1 write-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 AUTOCS Automatic Chip Select 16 1 read-write AUTOTRI Automatic TX Tristate 17 1 read-write DISABLE The output on U(S)n_TX when the transmitter is idle is defined by TXINV 0 ENABLE U(S)n_TX is tristated whenever the transmitter is idle 1 AUTOTX Always Transmit When RX Not Full 29 1 read-write BIT8DV Bit 8 Default Value 21 1 read-write BYTESWAP Byteswap In Double Accesses 28 1 read-write DISABLE Normal byte order 0 ENABLE Byte order swapped 1 CCEN Collision Check Enable 2 1 read-write DISABLE Collision check is disabled 0 ENABLE Collision check is enabled. The receiver must be enabled for the check to be performed 1 CLKPHA Clock Edge For Setup/Sample 9 1 read-write SAMPLELEADING Data is sampled on the leading edge and set-up on the trailing edge of the bus clock in synchronous mode 0 SAMPLETRAILING Data is set-up on the leading edge and sampled on the trailing edge of the bus clock in synchronous mode 1 CLKPOL Clock Polarity 8 1 read-write IDLELOW The bus clock used in synchronous mode has a low base value 0 IDLEHIGH The bus clock used in synchronous mode has a high base value 1 CSINV Chip Select Invert 15 1 read-write DISABLE Chip select is active low 0 ENABLE Chip select is active high 1 CSMA Action On Slave-Select In Master Mode 11 1 read-write NOACTION No action taken 0 GOTOSLAVEMODE Go to slave mode 1 ERRSDMA Halt DMA On Error 22 1 read-write DISABLE Framing and parity errors have no effect on DMA requests from the USART 0 ENABLE DMA requests from the USART are blocked while the PERR or FERR interrupt flags are set 1 ERRSRX Disable RX On Error 23 1 read-write DISABLE Framing and parity errors have no effect on receiver 0 ENABLE Framing and parity errors disable the receiver 1 ERRSTX Disable TX On Error 24 1 read-write DISABLE Received framing and parity errors have no effect on transmitter 0 ENABLE Received framing and parity errors disable the transmitter 1 LOOPBK Loopback Enable 1 1 read-write DISABLE The receiver is connected to and receives data from U(S)n_RX 0 ENABLE The receiver is connected to and receives data from U(S)n_TX 1 MPAB Multi-Processor Address-Bit 4 1 read-write MPM Multi-Processor Mode 3 1 read-write DISABLE The 9th bit of incoming frames has no special function 0 ENABLE An incoming frame with the 9th bit equal to MPAB will be loaded into the receive buffer regardless of RXBLOCK and will result in the MPAB interrupt flag being set 1 MSBF Most Significant Bit First 10 1 read-write DISABLE Data is sent with the least significant bit first 0 ENABLE Data is sent with the most significant bit first 1 MVDIS Majority Vote Disable 30 1 read-write OVS Oversampling 5 2 read-write X16 Regular UART mode with 16X oversampling in asynchronous mode 0 X8 Double speed with 8X oversampling in asynchronous mode 1 X6 6X oversampling in asynchronous mode 2 X4 Quadruple speed with 4X oversampling in asynchronous mode 3 RXINV Receiver Input Invert 13 1 read-write DISABLE Input is passed directly to the receiver 0 ENABLE Input is inverted before it is passed to the receiver 1 SCMODE SmartCard Mode 18 1 read-write SCRETRANS SmartCard Retransmit 19 1 read-write SKIPPERRF Skip Parity Error Frames 20 1 read-write SMSDELAY Synchronous Master Sample Delay 31 1 read-write SSSEARLY Synchronous Slave Setup Early 25 1 read-write SYNC USART Synchronous Mode 0 1 read-write DISABLE The USART operates in asynchronous mode 0 ENABLE The USART operates in synchronous mode 1 TXBIL TX Buffer Interrupt Level 12 1 read-write EMPTY TXBL and the TXBL interrupt flag are set when the transmit buffer becomes empty. TXBL is cleared when the buffer becomes nonempty. 0 HALFFULL TXBL and TXBLIF are set when the transmit buffer goes from full to half-full or empty. TXBL is cleared when the buffer becomes full. 1 TXINV Transmitter output Invert 14 1 read-write DISABLE Output from the transmitter is passed unchanged to U(S)n_TX 0 ENABLE Output from the transmitter is inverted before it is passed to U(S)n_TX 1 CTRLX No Description 0x5C -1 read-write n 0x0 0x0 CLKPRSEN PRS CLK Enable 15 1 read-write CTSEN CTS Function enabled 2 1 read-write DISABLE Ingore CTS 0 ENABLE Stop transmitting when CTS is negated 1 CTSINV CTS Pin Inversion 1 1 read-write DISABLE The USn_CTS pin is low true 0 ENABLE The USn_CTS pin is high true 1 DBGHALT Debug halt 0 1 read-write DISABLE Continue to transmit until TX buffer is empty 0 ENABLE Negate RTS to stop link partner's transmission during debug HALT. NOTE** The core clock should be equal to or faster than the peripheral clock otherwise, each single step could transmit multiple frames instead of just transmitting one frame. 1 RTSINV RTS Pin Inversion 3 1 read-write DISABLE The USn_RTS pin is low true 0 ENABLE The USn_RTS pin is high true 1 RXPRSEN PRS RX Enable 7 1 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 EN USART Enable 0 1 read-write FRAME No Description 0xC -1 read-write n 0x0 0x0 DATABITS Data-Bit Mode 0 4 read-write FOUR Each frame contains 4 data bits 1 THIRTEEN Each frame contains 13 data bits 10 FOURTEEN Each frame contains 14 data bits 11 FIFTEEN Each frame contains 15 data bits 12 SIXTEEN Each frame contains 16 data bits 13 FIVE Each frame contains 5 data bits 2 SIX Each frame contains 6 data bits 3 SEVEN Each frame contains 7 data bits 4 EIGHT Each frame contains 8 data bits 5 NINE Each frame contains 9 data bits 6 TEN Each frame contains 10 data bits 7 ELEVEN Each frame contains 11 data bits 8 TWELVE Each frame contains 12 data bits 9 PARITY Parity-Bit Mode 8 2 read-write NONE Parity bits are not used 0 EVEN Even parity are used. Parity bits are automatically generated and checked by hardware. 2 ODD Odd parity is used. Parity bits are automatically generated and checked by hardware. 3 STOPBITS Stop-Bit Mode 12 2 read-write HALF The transmitter generates a half stop bit. Stop-bits are not verified by receiver 0 ONE One stop bit is generated and verified 1 ONEANDAHALF The transmitter generates one and a half stop bit. The receiver verifies the first stop bit 2 TWO The transmitter generates two stop bits. The receiver checks the first stop-bit only 3 I2SCTRL No Description 0x54 -1 read-write n 0x0 0x0 DELAY Delay on I2S data 4 1 read-write DMASPLIT Separate DMA Request For Left/Right Data 3 1 read-write EN Enable I2S Mode 0 1 read-write FORMAT I2S Word Format 8 3 read-write W32D32 32-bit word, 32-bit data 0 W32D24M 32-bit word, 32-bit data with 8 lsb masked 1 W32D24 32-bit word, 24-bit data 2 W32D16 32-bit word, 16-bit data 3 W32D8 32-bit word, 8-bit data 4 W16D16 16-bit word, 16-bit data 5 W16D8 16-bit word, 8-bit data 6 W8D8 8-bit word, 8-bit data 7 JUSTIFY Justification of I2S Data 2 1 read-write LEFT Data is left-justified 0 RIGHT Data is right-justified 1 MONO Stero or Mono 1 1 read-write IEN No Description 0x4C -1 read-write n 0x0 0x0 CCF Collision Check Fail Interrupt Enable 12 1 read-write FERR Framing Error Interrupt Enable 9 1 read-write MPAF Multi-Processor Address Frame Interrupt 10 1 read-write PERR Parity Error Interrupt Enable 8 1 read-write RXDATAV RX Data Valid Interrupt Enable 2 1 read-write RXFULL RX Buffer Full Interrupt Enable 3 1 read-write RXOF RX Overflow Interrupt Enable 4 1 read-write RXUF RX Underflow Interrupt Enable 5 1 read-write SSM Slave-Select In Master Mode Interrupt Fl 11 1 read-write TCMP0 Timer comparator 0 Interrupt Enable 14 1 read-write TCMP1 Timer comparator 1 Interrupt Enable 15 1 read-write TCMP2 Timer comparator 2 Interrupt Enable 16 1 read-write TXBL TX Buffer Level Interrupt Enable 1 1 read-write TXC TX Complete Interrupt Enable 0 1 read-write TXIDLE TX Idle Interrupt Enable 13 1 read-write TXOF TX Overflow Interrupt Enable 6 1 read-write TXUF TX Underflow Interrupt Enable 7 1 read-write IF No Description 0x48 -1 read-write n 0x0 0x0 CCF Collision Check Fail Interrupt Flag 12 1 read-write FERR Framing Error Interrupt Flag 9 1 read-write MPAF Multi-Processor Address Frame Interrupt 10 1 read-write PERR Parity Error Interrupt Flag 8 1 read-write RXDATAV RX Data Valid Interrupt Flag 2 1 read-write RXFULL RX Buffer Full Interrupt Flag 3 1 read-write RXOF RX Overflow Interrupt Flag 4 1 read-write RXUF RX Underflow Interrupt Flag 5 1 read-write SSM Slave-Select In Master Mode Interrupt Fl 11 1 read-write TCMP0 Timer comparator 0 Interrupt Flag 14 1 read-write TCMP1 Timer comparator 1 Interrupt Flag 15 1 read-write TCMP2 Timer comparator 2 Interrupt Flag 16 1 read-write TXBL TX Buffer Level Interrupt Flag 1 1 read-write TXC TX Complete Interrupt Flag 0 1 read-write TXIDLE TX Idle Interrupt Flag 13 1 read-write TXOF TX Overflow Interrupt Flag 6 1 read-write TXUF TX Underflow Interrupt Flag 7 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only IRCTRL No Description 0x50 -1 read-write n 0x0 0x0 IREN Enable IrDA Module 0 1 read-write IRFILT IrDA RX Filter 3 1 read-write DISABLE No filter enabled 0 ENABLE Filter enabled. IrDA pulse must be high for at least 5 consecutive clock cycles to be detected 1 IRPW IrDA TX Pulse Width 1 2 read-write ONE IrDA pulse width is 1/16 for OVS=0 and 1/8 for OVS=1 0 TWO IrDA pulse width is 2/16 for OVS=0 and 2/8 for OVS=1 1 THREE IrDA pulse width is 3/16 for OVS=0 and 3/8 for OVS=1 2 FOUR IrDA pulse width is 4/16 for OVS=0 and 4/8 for OVS=1 3 RXDATA No Description 0x24 -1 read-only n 0x0 0x0 RXDATA RX Data 0 8 read-only RXDATAX No Description 0x20 -1 read-only n 0x0 0x0 FERR Data Framing Error 15 1 read-only PERR Data Parity Error 14 1 read-only RXDATA RX Data 0 9 read-only RXDATAXP No Description 0x30 -1 read-only n 0x0 0x0 FERRP Data Framing Error Peek 15 1 read-only PERRP Data Parity Error Peek 14 1 read-only RXDATAP RX Data Peek 0 9 read-only RXDOUBLE No Description 0x2C -1 read-only n 0x0 0x0 RXDATA0 RX Data 0 0 8 read-only RXDATA1 RX Data 1 8 8 read-only RXDOUBLEX No Description 0x28 -1 read-only n 0x0 0x0 FERR0 Data Framing Error 0 15 1 read-only FERR1 Data Framing Error 1 31 1 read-only PERR0 Data Parity Error 0 14 1 read-only PERR1 Data Parity Error 1 30 1 read-only RXDATA0 RX Data 0 0 9 read-only RXDATA1 RX Data 1 16 9 read-only RXDOUBLEXP No Description 0x34 -1 read-only n 0x0 0x0 FERRP0 Data Framing Error 0 Peek 15 1 read-only FERRP1 Data Framing Error 1 Peek 31 1 read-only PERRP0 Data Parity Error 0 Peek 14 1 read-only PERRP1 Data Parity Error 1 Peek 30 1 read-only RXDATAP0 RX Data 0 Peek 0 9 read-only RXDATAP1 RX Data 1 Peek 16 9 read-only STATUS No Description 0x18 -1 read-only n 0x0 0x0 MASTER SPI Master Mode 2 1 read-only RXBLOCK Block Incoming Data 3 1 read-only RXDATAV RX Data Valid 7 1 read-only RXDATAVRIGHT RX Data Right 11 1 read-only RXENS Receiver Enable Status 0 1 read-only RXFULL RX FIFO Full 8 1 read-only RXFULLRIGHT RX Full of Right Data 12 1 read-only TIMERRESTARTED The USART Timer restarted itself 14 1 read-only TXBDRIGHT TX Buffer Expects Double Right Data 9 1 read-only TXBL TX Buffer Level 6 1 read-only TXBSRIGHT TX Buffer Expects Single Right Data 10 1 read-only TXBUFCNT TX Buffer Count 16 2 read-only TXC TX Complete 5 1 read-only TXENS Transmitter Enable Status 1 1 read-only TXIDLE TX Idle 13 1 read-only TXTRI Transmitter Tristated 4 1 read-only TIMECMP0 No Description 0x60 -1 read-write n 0x0 0x0 RESTARTEN Restart Timer on TCMP0 24 1 read-write DISABLE Disable the timer restarting on TCMP0 0 ENABLE Enable the timer restarting on TCMP0 1 TCMPVAL Timer comparator 0. 0 8 read-write TSTART Timer start source 16 3 read-write DISABLE Comparator 0 is disabled 0 TXEOF Comparator 0 and timer are started at TX end of frame 1 TXC Comparator 0 and timer are started at TX Complete 2 RXACT Comparator 0 and timer are started at RX going going Active (default: low) 3 RXEOF Comparator 0 and timer are started at RX end of frame 4 TSTOP Source used to disable comparator 0 20 3 read-write TCMP0 Comparator 0 is disabled when the counter equals TCMPVAL and triggers a TCMP0 event 0 TXST Comparator 0 is disabled at TX start TX Engine 1 RXACT Comparator 0 is disabled on RX going going Active (default: low) 2 RXACTN Comparator 0 is disabled on RX going Inactive 3 TIMECMP1 No Description 0x64 -1 read-write n 0x0 0x0 RESTARTEN Restart Timer on TCMP1 24 1 read-write DISABLE Disable the timer restarting on TCMP1 0 ENABLE Enable the timer restarting on TCMP1 1 TCMPVAL Timer comparator 1. 0 8 read-write TSTART Timer start source 16 3 read-write DISABLE Comparator 1 is disabled 0 TXEOF Comparator 1 and timer are started at TX end of frame 1 TXC Comparator 1 and timer are started at TX Complete 2 RXACT Comparator 1 and timer are started at RX going going Active (default: low) 3 RXEOF Comparator 1 and timer are started at RX end of frame 4 TSTOP Source used to disable comparator 1 20 3 read-write TCMP1 Comparator 1 is disabled when the counter equals TCMPVAL and triggers a TCMP1 event 0 TXST Comparator 1 is disabled at TX start TX Engine 1 RXACT Comparator 1 is disabled on RX going going Active (default: low) 2 RXACTN Comparator 1 is disabled on RX going Inactive 3 TIMECMP2 No Description 0x68 -1 read-write n 0x0 0x0 RESTARTEN Restart Timer on TCMP2 24 1 read-write DISABLE Disable the timer restarting on TCMP2 0 ENABLE Enable the timer restarting on TCMP2 1 TCMPVAL Timer comparator 2. 0 8 read-write TSTART Timer start source 16 3 read-write DISABLE Comparator 2 is disabled 0 TXEOF Comparator 2 and timer are started at TX end of frame 1 TXC Comparator 2 and timer are started at TX Complete 2 RXACT Comparator 2 and timer are started at RX going going Active (default: low) 3 RXEOF Comparator 2 and timer are started at RX end of frame 4 TSTOP Source used to disable comparator 2 20 3 read-write TCMP2 Comparator 2 is disabled when the counter equals TCMPVAL and triggers a TCMP2 event 0 TXST Comparator 2 is disabled at TX start TX Engine 1 RXACT Comparator 2 is disabled on RX going going Active (default: low) 2 RXACTN Comparator 2 is disabled on RX going Inactive 3 TIMING No Description 0x58 -1 read-write n 0x0 0x0 CSHOLD Chip Select Hold 28 3 read-write ZERO Disable CS being asserted after the end of transmission 0 ONE CS is asserted for 1 baud-times after the end of transmission 1 TWO CS is asserted for 2 baud-times after the end of transmission 2 THREE CS is asserted for 3 baud-times after the end of transmission 3 SEVEN CS is asserted for 7 baud-times after the end of transmission 4 TCMP0 CS is asserted after the end of transmission for TCMPVAL0 baud-times 5 TCMP1 CS is asserted after the end of transmission for TCMPVAL1 baud-times 6 TCMP2 CS is asserted after the end of transmission for TCMPVAL2 baud-times 7 CSSETUP Chip Select Setup 20 3 read-write ZERO CS is not asserted before start of transmission 0 ONE CS is asserted for 1 baud-times before start of transmission 1 TWO CS is asserted for 2 baud-times before start of transmission 2 THREE CS is asserted for 3 baud-times before start of transmission 3 SEVEN CS is asserted for 7 baud-times before start of transmission 4 TCMP0 CS is asserted before the start of transmission for TCMPVAL0 baud-times 5 TCMP1 CS is asserted before the start of transmission for TCMPVAL1 baud-times 6 TCMP2 CS is asserted before the start of transmission for TCMPVAL2 baud-times 7 ICS Inter-character spacing 24 3 read-write ZERO There is no space between charcters 0 ONE Create a space of 1 baud-times before start of transmission 1 TWO Create a space of 2 baud-times before start of transmission 2 THREE Create a space of 3 baud-times before start of transmission 3 SEVEN Create a space of 7 baud-times before start of transmission 4 TCMP0 Create a space of before the start of transmission for TCMPVAL0 baud-times 5 TCMP1 Create a space of before the start of transmission for TCMPVAL1 baud-times 6 TCMP2 Create a space of before the start of transmission for TCMPVAL2 baud-times 7 TXDELAY TX frame start delay 16 3 read-write DISABLE Disable - TXDELAY in USARTn_CTRL can be used for legacy 0 ONE Start of transmission is delayed for 1 baud-times 1 TWO Start of transmission is delayed for 2 baud-times 2 THREE Start of transmission is delayed for 3 baud-times 3 SEVEN Start of transmission is delayed for 7 baud-times 4 TCMP0 Start of transmission is delayed for TCMPVAL0 baud-times 5 TCMP1 Start of transmission is delayed for TCMPVAL1 baud-times 6 TCMP2 Start of transmission is delayed for TCMPVAL2 baud-times 7 TRIGCTRL No Description 0x10 -1 read-write n 0x0 0x0 AUTOTXTEN AUTOTX Trigger Enable 6 1 read-write RXATX0EN Enable Receive Trigger after TX end of f 10 1 read-write RXATX1EN Enable Receive Trigger after TX end of f 11 1 read-write RXATX2EN Enable Receive Trigger after TX end of f 12 1 read-write RXTEN Receive Trigger Enable 4 1 read-write TXARX0EN Enable Transmit Trigger after RX End of 7 1 read-write TXARX1EN Enable Transmit Trigger after RX End of 8 1 read-write TXARX2EN Enable Transmit Trigger after RX End of 9 1 read-write TXTEN Transmit Trigger Enable 5 1 read-write TXDATA No Description 0x3C -1 write-only n 0x0 0x0 TXDATA TX Data 0 8 write-only TXDATAX No Description 0x38 -1 write-only n 0x0 0x0 RXENAT Enable RX After Transmission 15 1 write-only TXBREAK Transmit Data As Break 13 1 write-only TXDATAX TX Data 0 9 write-only TXDISAT Clear TXEN After Transmission 14 1 write-only TXTRIAT Set TXTRI After Transmission 12 1 write-only UBRXAT Unblock RX After Transmission 11 1 write-only TXDOUBLE No Description 0x44 -1 write-only n 0x0 0x0 TXDATA0 TX Data 0 8 write-only TXDATA1 TX Data 8 8 write-only TXDOUBLEX No Description 0x40 -1 write-only n 0x0 0x0 RXENAT0 Enable RX After Transmission 15 1 write-only RXENAT1 Enable RX After Transmission 31 1 write-only TXBREAK0 Transmit Data As Break 13 1 write-only TXBREAK1 Transmit Data As Break 29 1 write-only TXDATA0 TX Data 0 9 write-only TXDATA1 TX Data 16 9 write-only TXDISAT0 Clear TXEN After Transmission 14 1 write-only TXDISAT1 Clear TXEN After Transmission 30 1 write-only TXTRIAT0 Set TXTRI After Transmission 12 1 write-only TXTRIAT1 Set TXTRI After Transmission 28 1 write-only UBRXAT0 Unblock RX After Transmission 11 1 write-only UBRXAT1 Unblock RX After Transmission 27 1 write-only USART0_S USART0_S Registers USART0_S 0x0 0x0 0x1000 registers n USART0_RX 9 USART0_TX 10 CLKDIV No Description 0x1C -1 read-write n 0x0 0x0 AUTOBAUDEN AUTOBAUD detection enable 31 1 read-write DIV Fractional Clock Divider 3 20 read-write CMD No Description 0x14 -1 write-only n 0x0 0x0 CLEARRX Clear RX 11 1 write-only CLEARTX Clear TX 10 1 write-only MASTERDIS Master Disable 5 1 write-only MASTEREN Master Enable 4 1 write-only RXBLOCKDIS Receiver Block Disable 7 1 write-only RXBLOCKEN Receiver Block Enable 6 1 write-only RXDIS Receiver Disable 1 1 write-only RXEN Receiver Enable 0 1 write-only TXDIS Transmitter Disable 3 1 write-only TXEN Transmitter Enable 2 1 write-only TXTRIDIS Transmitter Tristate Disable 9 1 write-only TXTRIEN Transmitter Tristate Enable 8 1 write-only CTRL No Description 0x8 -1 read-write n 0x0 0x0 AUTOCS Automatic Chip Select 16 1 read-write AUTOTRI Automatic TX Tristate 17 1 read-write DISABLE The output on U(S)n_TX when the transmitter is idle is defined by TXINV 0 ENABLE U(S)n_TX is tristated whenever the transmitter is idle 1 AUTOTX Always Transmit When RX Not Full 29 1 read-write BIT8DV Bit 8 Default Value 21 1 read-write BYTESWAP Byteswap In Double Accesses 28 1 read-write DISABLE Normal byte order 0 ENABLE Byte order swapped 1 CCEN Collision Check Enable 2 1 read-write DISABLE Collision check is disabled 0 ENABLE Collision check is enabled. The receiver must be enabled for the check to be performed 1 CLKPHA Clock Edge For Setup/Sample 9 1 read-write SAMPLELEADING Data is sampled on the leading edge and set-up on the trailing edge of the bus clock in synchronous mode 0 SAMPLETRAILING Data is set-up on the leading edge and sampled on the trailing edge of the bus clock in synchronous mode 1 CLKPOL Clock Polarity 8 1 read-write IDLELOW The bus clock used in synchronous mode has a low base value 0 IDLEHIGH The bus clock used in synchronous mode has a high base value 1 CSINV Chip Select Invert 15 1 read-write DISABLE Chip select is active low 0 ENABLE Chip select is active high 1 CSMA Action On Slave-Select In Master Mode 11 1 read-write NOACTION No action taken 0 GOTOSLAVEMODE Go to slave mode 1 ERRSDMA Halt DMA On Error 22 1 read-write DISABLE Framing and parity errors have no effect on DMA requests from the USART 0 ENABLE DMA requests from the USART are blocked while the PERR or FERR interrupt flags are set 1 ERRSRX Disable RX On Error 23 1 read-write DISABLE Framing and parity errors have no effect on receiver 0 ENABLE Framing and parity errors disable the receiver 1 ERRSTX Disable TX On Error 24 1 read-write DISABLE Received framing and parity errors have no effect on transmitter 0 ENABLE Received framing and parity errors disable the transmitter 1 LOOPBK Loopback Enable 1 1 read-write DISABLE The receiver is connected to and receives data from U(S)n_RX 0 ENABLE The receiver is connected to and receives data from U(S)n_TX 1 MPAB Multi-Processor Address-Bit 4 1 read-write MPM Multi-Processor Mode 3 1 read-write DISABLE The 9th bit of incoming frames has no special function 0 ENABLE An incoming frame with the 9th bit equal to MPAB will be loaded into the receive buffer regardless of RXBLOCK and will result in the MPAB interrupt flag being set 1 MSBF Most Significant Bit First 10 1 read-write DISABLE Data is sent with the least significant bit first 0 ENABLE Data is sent with the most significant bit first 1 MVDIS Majority Vote Disable 30 1 read-write OVS Oversampling 5 2 read-write X16 Regular UART mode with 16X oversampling in asynchronous mode 0 X8 Double speed with 8X oversampling in asynchronous mode 1 X6 6X oversampling in asynchronous mode 2 X4 Quadruple speed with 4X oversampling in asynchronous mode 3 RXINV Receiver Input Invert 13 1 read-write DISABLE Input is passed directly to the receiver 0 ENABLE Input is inverted before it is passed to the receiver 1 SCMODE SmartCard Mode 18 1 read-write SCRETRANS SmartCard Retransmit 19 1 read-write SKIPPERRF Skip Parity Error Frames 20 1 read-write SMSDELAY Synchronous Master Sample Delay 31 1 read-write SSSEARLY Synchronous Slave Setup Early 25 1 read-write SYNC USART Synchronous Mode 0 1 read-write DISABLE The USART operates in asynchronous mode 0 ENABLE The USART operates in synchronous mode 1 TXBIL TX Buffer Interrupt Level 12 1 read-write EMPTY TXBL and the TXBL interrupt flag are set when the transmit buffer becomes empty. TXBL is cleared when the buffer becomes nonempty. 0 HALFFULL TXBL and TXBLIF are set when the transmit buffer goes from full to half-full or empty. TXBL is cleared when the buffer becomes full. 1 TXINV Transmitter output Invert 14 1 read-write DISABLE Output from the transmitter is passed unchanged to U(S)n_TX 0 ENABLE Output from the transmitter is inverted before it is passed to U(S)n_TX 1 CTRLX No Description 0x5C -1 read-write n 0x0 0x0 CLKPRSEN PRS CLK Enable 15 1 read-write CTSEN CTS Function enabled 2 1 read-write DISABLE Ingore CTS 0 ENABLE Stop transmitting when CTS is negated 1 CTSINV CTS Pin Inversion 1 1 read-write DISABLE The USn_CTS pin is low true 0 ENABLE The USn_CTS pin is high true 1 DBGHALT Debug halt 0 1 read-write DISABLE Continue to transmit until TX buffer is empty 0 ENABLE Negate RTS to stop link partner's transmission during debug HALT. NOTE** The core clock should be equal to or faster than the peripheral clock otherwise, each single step could transmit multiple frames instead of just transmitting one frame. 1 RTSINV RTS Pin Inversion 3 1 read-write DISABLE The USn_RTS pin is low true 0 ENABLE The USn_RTS pin is high true 1 RXPRSEN PRS RX Enable 7 1 read-write EN No Description 0x4 -1 read-write n 0x0 0x0 EN USART Enable 0 1 read-write FRAME No Description 0xC -1 read-write n 0x0 0x0 DATABITS Data-Bit Mode 0 4 read-write FOUR Each frame contains 4 data bits 1 THIRTEEN Each frame contains 13 data bits 10 FOURTEEN Each frame contains 14 data bits 11 FIFTEEN Each frame contains 15 data bits 12 SIXTEEN Each frame contains 16 data bits 13 FIVE Each frame contains 5 data bits 2 SIX Each frame contains 6 data bits 3 SEVEN Each frame contains 7 data bits 4 EIGHT Each frame contains 8 data bits 5 NINE Each frame contains 9 data bits 6 TEN Each frame contains 10 data bits 7 ELEVEN Each frame contains 11 data bits 8 TWELVE Each frame contains 12 data bits 9 PARITY Parity-Bit Mode 8 2 read-write NONE Parity bits are not used 0 EVEN Even parity are used. Parity bits are automatically generated and checked by hardware. 2 ODD Odd parity is used. Parity bits are automatically generated and checked by hardware. 3 STOPBITS Stop-Bit Mode 12 2 read-write HALF The transmitter generates a half stop bit. Stop-bits are not verified by receiver 0 ONE One stop bit is generated and verified 1 ONEANDAHALF The transmitter generates one and a half stop bit. The receiver verifies the first stop bit 2 TWO The transmitter generates two stop bits. The receiver checks the first stop-bit only 3 I2SCTRL No Description 0x54 -1 read-write n 0x0 0x0 DELAY Delay on I2S data 4 1 read-write DMASPLIT Separate DMA Request For Left/Right Data 3 1 read-write EN Enable I2S Mode 0 1 read-write FORMAT I2S Word Format 8 3 read-write W32D32 32-bit word, 32-bit data 0 W32D24M 32-bit word, 32-bit data with 8 lsb masked 1 W32D24 32-bit word, 24-bit data 2 W32D16 32-bit word, 16-bit data 3 W32D8 32-bit word, 8-bit data 4 W16D16 16-bit word, 16-bit data 5 W16D8 16-bit word, 8-bit data 6 W8D8 8-bit word, 8-bit data 7 JUSTIFY Justification of I2S Data 2 1 read-write LEFT Data is left-justified 0 RIGHT Data is right-justified 1 MONO Stero or Mono 1 1 read-write IEN No Description 0x4C -1 read-write n 0x0 0x0 CCF Collision Check Fail Interrupt Enable 12 1 read-write FERR Framing Error Interrupt Enable 9 1 read-write MPAF Multi-Processor Address Frame Interrupt 10 1 read-write PERR Parity Error Interrupt Enable 8 1 read-write RXDATAV RX Data Valid Interrupt Enable 2 1 read-write RXFULL RX Buffer Full Interrupt Enable 3 1 read-write RXOF RX Overflow Interrupt Enable 4 1 read-write RXUF RX Underflow Interrupt Enable 5 1 read-write SSM Slave-Select In Master Mode Interrupt Fl 11 1 read-write TCMP0 Timer comparator 0 Interrupt Enable 14 1 read-write TCMP1 Timer comparator 1 Interrupt Enable 15 1 read-write TCMP2 Timer comparator 2 Interrupt Enable 16 1 read-write TXBL TX Buffer Level Interrupt Enable 1 1 read-write TXC TX Complete Interrupt Enable 0 1 read-write TXIDLE TX Idle Interrupt Enable 13 1 read-write TXOF TX Overflow Interrupt Enable 6 1 read-write TXUF TX Underflow Interrupt Enable 7 1 read-write IF No Description 0x48 -1 read-write n 0x0 0x0 CCF Collision Check Fail Interrupt Flag 12 1 read-write FERR Framing Error Interrupt Flag 9 1 read-write MPAF Multi-Processor Address Frame Interrupt 10 1 read-write PERR Parity Error Interrupt Flag 8 1 read-write RXDATAV RX Data Valid Interrupt Flag 2 1 read-write RXFULL RX Buffer Full Interrupt Flag 3 1 read-write RXOF RX Overflow Interrupt Flag 4 1 read-write RXUF RX Underflow Interrupt Flag 5 1 read-write SSM Slave-Select In Master Mode Interrupt Fl 11 1 read-write TCMP0 Timer comparator 0 Interrupt Flag 14 1 read-write TCMP1 Timer comparator 1 Interrupt Flag 15 1 read-write TCMP2 Timer comparator 2 Interrupt Flag 16 1 read-write TXBL TX Buffer Level Interrupt Flag 1 1 read-write TXC TX Complete Interrupt Flag 0 1 read-write TXIDLE TX Idle Interrupt Flag 13 1 read-write TXOF TX Overflow Interrupt Flag 6 1 read-write TXUF TX Underflow Interrupt Flag 7 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only IRCTRL No Description 0x50 -1 read-write n 0x0 0x0 IREN Enable IrDA Module 0 1 read-write IRFILT IrDA RX Filter 3 1 read-write DISABLE No filter enabled 0 ENABLE Filter enabled. IrDA pulse must be high for at least 5 consecutive clock cycles to be detected 1 IRPW IrDA TX Pulse Width 1 2 read-write ONE IrDA pulse width is 1/16 for OVS=0 and 1/8 for OVS=1 0 TWO IrDA pulse width is 2/16 for OVS=0 and 2/8 for OVS=1 1 THREE IrDA pulse width is 3/16 for OVS=0 and 3/8 for OVS=1 2 FOUR IrDA pulse width is 4/16 for OVS=0 and 4/8 for OVS=1 3 RXDATA No Description 0x24 -1 read-only n 0x0 0x0 RXDATA RX Data 0 8 read-only RXDATAX No Description 0x20 -1 read-only n 0x0 0x0 FERR Data Framing Error 15 1 read-only PERR Data Parity Error 14 1 read-only RXDATA RX Data 0 9 read-only RXDATAXP No Description 0x30 -1 read-only n 0x0 0x0 FERRP Data Framing Error Peek 15 1 read-only PERRP Data Parity Error Peek 14 1 read-only RXDATAP RX Data Peek 0 9 read-only RXDOUBLE No Description 0x2C -1 read-only n 0x0 0x0 RXDATA0 RX Data 0 0 8 read-only RXDATA1 RX Data 1 8 8 read-only RXDOUBLEX No Description 0x28 -1 read-only n 0x0 0x0 FERR0 Data Framing Error 0 15 1 read-only FERR1 Data Framing Error 1 31 1 read-only PERR0 Data Parity Error 0 14 1 read-only PERR1 Data Parity Error 1 30 1 read-only RXDATA0 RX Data 0 0 9 read-only RXDATA1 RX Data 1 16 9 read-only RXDOUBLEXP No Description 0x34 -1 read-only n 0x0 0x0 FERRP0 Data Framing Error 0 Peek 15 1 read-only FERRP1 Data Framing Error 1 Peek 31 1 read-only PERRP0 Data Parity Error 0 Peek 14 1 read-only PERRP1 Data Parity Error 1 Peek 30 1 read-only RXDATAP0 RX Data 0 Peek 0 9 read-only RXDATAP1 RX Data 1 Peek 16 9 read-only STATUS No Description 0x18 -1 read-only n 0x0 0x0 MASTER SPI Master Mode 2 1 read-only RXBLOCK Block Incoming Data 3 1 read-only RXDATAV RX Data Valid 7 1 read-only RXDATAVRIGHT RX Data Right 11 1 read-only RXENS Receiver Enable Status 0 1 read-only RXFULL RX FIFO Full 8 1 read-only RXFULLRIGHT RX Full of Right Data 12 1 read-only TIMERRESTARTED The USART Timer restarted itself 14 1 read-only TXBDRIGHT TX Buffer Expects Double Right Data 9 1 read-only TXBL TX Buffer Level 6 1 read-only TXBSRIGHT TX Buffer Expects Single Right Data 10 1 read-only TXBUFCNT TX Buffer Count 16 2 read-only TXC TX Complete 5 1 read-only TXENS Transmitter Enable Status 1 1 read-only TXIDLE TX Idle 13 1 read-only TXTRI Transmitter Tristated 4 1 read-only TIMECMP0 No Description 0x60 -1 read-write n 0x0 0x0 RESTARTEN Restart Timer on TCMP0 24 1 read-write DISABLE Disable the timer restarting on TCMP0 0 ENABLE Enable the timer restarting on TCMP0 1 TCMPVAL Timer comparator 0. 0 8 read-write TSTART Timer start source 16 3 read-write DISABLE Comparator 0 is disabled 0 TXEOF Comparator 0 and timer are started at TX end of frame 1 TXC Comparator 0 and timer are started at TX Complete 2 RXACT Comparator 0 and timer are started at RX going going Active (default: low) 3 RXEOF Comparator 0 and timer are started at RX end of frame 4 TSTOP Source used to disable comparator 0 20 3 read-write TCMP0 Comparator 0 is disabled when the counter equals TCMPVAL and triggers a TCMP0 event 0 TXST Comparator 0 is disabled at TX start TX Engine 1 RXACT Comparator 0 is disabled on RX going going Active (default: low) 2 RXACTN Comparator 0 is disabled on RX going Inactive 3 TIMECMP1 No Description 0x64 -1 read-write n 0x0 0x0 RESTARTEN Restart Timer on TCMP1 24 1 read-write DISABLE Disable the timer restarting on TCMP1 0 ENABLE Enable the timer restarting on TCMP1 1 TCMPVAL Timer comparator 1. 0 8 read-write TSTART Timer start source 16 3 read-write DISABLE Comparator 1 is disabled 0 TXEOF Comparator 1 and timer are started at TX end of frame 1 TXC Comparator 1 and timer are started at TX Complete 2 RXACT Comparator 1 and timer are started at RX going going Active (default: low) 3 RXEOF Comparator 1 and timer are started at RX end of frame 4 TSTOP Source used to disable comparator 1 20 3 read-write TCMP1 Comparator 1 is disabled when the counter equals TCMPVAL and triggers a TCMP1 event 0 TXST Comparator 1 is disabled at TX start TX Engine 1 RXACT Comparator 1 is disabled on RX going going Active (default: low) 2 RXACTN Comparator 1 is disabled on RX going Inactive 3 TIMECMP2 No Description 0x68 -1 read-write n 0x0 0x0 RESTARTEN Restart Timer on TCMP2 24 1 read-write DISABLE Disable the timer restarting on TCMP2 0 ENABLE Enable the timer restarting on TCMP2 1 TCMPVAL Timer comparator 2. 0 8 read-write TSTART Timer start source 16 3 read-write DISABLE Comparator 2 is disabled 0 TXEOF Comparator 2 and timer are started at TX end of frame 1 TXC Comparator 2 and timer are started at TX Complete 2 RXACT Comparator 2 and timer are started at RX going going Active (default: low) 3 RXEOF Comparator 2 and timer are started at RX end of frame 4 TSTOP Source used to disable comparator 2 20 3 read-write TCMP2 Comparator 2 is disabled when the counter equals TCMPVAL and triggers a TCMP2 event 0 TXST Comparator 2 is disabled at TX start TX Engine 1 RXACT Comparator 2 is disabled on RX going going Active (default: low) 2 RXACTN Comparator 2 is disabled on RX going Inactive 3 TIMING No Description 0x58 -1 read-write n 0x0 0x0 CSHOLD Chip Select Hold 28 3 read-write ZERO Disable CS being asserted after the end of transmission 0 ONE CS is asserted for 1 baud-times after the end of transmission 1 TWO CS is asserted for 2 baud-times after the end of transmission 2 THREE CS is asserted for 3 baud-times after the end of transmission 3 SEVEN CS is asserted for 7 baud-times after the end of transmission 4 TCMP0 CS is asserted after the end of transmission for TCMPVAL0 baud-times 5 TCMP1 CS is asserted after the end of transmission for TCMPVAL1 baud-times 6 TCMP2 CS is asserted after the end of transmission for TCMPVAL2 baud-times 7 CSSETUP Chip Select Setup 20 3 read-write ZERO CS is not asserted before start of transmission 0 ONE CS is asserted for 1 baud-times before start of transmission 1 TWO CS is asserted for 2 baud-times before start of transmission 2 THREE CS is asserted for 3 baud-times before start of transmission 3 SEVEN CS is asserted for 7 baud-times before start of transmission 4 TCMP0 CS is asserted before the start of transmission for TCMPVAL0 baud-times 5 TCMP1 CS is asserted before the start of transmission for TCMPVAL1 baud-times 6 TCMP2 CS is asserted before the start of transmission for TCMPVAL2 baud-times 7 ICS Inter-character spacing 24 3 read-write ZERO There is no space between charcters 0 ONE Create a space of 1 baud-times before start of transmission 1 TWO Create a space of 2 baud-times before start of transmission 2 THREE Create a space of 3 baud-times before start of transmission 3 SEVEN Create a space of 7 baud-times before start of transmission 4 TCMP0 Create a space of before the start of transmission for TCMPVAL0 baud-times 5 TCMP1 Create a space of before the start of transmission for TCMPVAL1 baud-times 6 TCMP2 Create a space of before the start of transmission for TCMPVAL2 baud-times 7 TXDELAY TX frame start delay 16 3 read-write DISABLE Disable - TXDELAY in USARTn_CTRL can be used for legacy 0 ONE Start of transmission is delayed for 1 baud-times 1 TWO Start of transmission is delayed for 2 baud-times 2 THREE Start of transmission is delayed for 3 baud-times 3 SEVEN Start of transmission is delayed for 7 baud-times 4 TCMP0 Start of transmission is delayed for TCMPVAL0 baud-times 5 TCMP1 Start of transmission is delayed for TCMPVAL1 baud-times 6 TCMP2 Start of transmission is delayed for TCMPVAL2 baud-times 7 TRIGCTRL No Description 0x10 -1 read-write n 0x0 0x0 AUTOTXTEN AUTOTX Trigger Enable 6 1 read-write RXATX0EN Enable Receive Trigger after TX end of f 10 1 read-write RXATX1EN Enable Receive Trigger after TX end of f 11 1 read-write RXATX2EN Enable Receive Trigger after TX end of f 12 1 read-write RXTEN Receive Trigger Enable 4 1 read-write TXARX0EN Enable Transmit Trigger after RX End of 7 1 read-write TXARX1EN Enable Transmit Trigger after RX End of 8 1 read-write TXARX2EN Enable Transmit Trigger after RX End of 9 1 read-write TXTEN Transmit Trigger Enable 5 1 read-write TXDATA No Description 0x3C -1 write-only n 0x0 0x0 TXDATA TX Data 0 8 write-only TXDATAX No Description 0x38 -1 write-only n 0x0 0x0 RXENAT Enable RX After Transmission 15 1 write-only TXBREAK Transmit Data As Break 13 1 write-only TXDATAX TX Data 0 9 write-only TXDISAT Clear TXEN After Transmission 14 1 write-only TXTRIAT Set TXTRI After Transmission 12 1 write-only UBRXAT Unblock RX After Transmission 11 1 write-only TXDOUBLE No Description 0x44 -1 write-only n 0x0 0x0 TXDATA0 TX Data 0 8 write-only TXDATA1 TX Data 8 8 write-only TXDOUBLEX No Description 0x40 -1 write-only n 0x0 0x0 RXENAT0 Enable RX After Transmission 15 1 write-only RXENAT1 Enable RX After Transmission 31 1 write-only TXBREAK0 Transmit Data As Break 13 1 write-only TXBREAK1 Transmit Data As Break 29 1 write-only TXDATA0 TX Data 0 9 write-only TXDATA1 TX Data 16 9 write-only TXDISAT0 Clear TXEN After Transmission 14 1 write-only TXDISAT1 Clear TXEN After Transmission 30 1 write-only TXTRIAT0 Set TXTRI After Transmission 12 1 write-only TXTRIAT1 Set TXTRI After Transmission 28 1 write-only UBRXAT0 Unblock RX After Transmission 11 1 write-only UBRXAT1 Unblock RX After Transmission 27 1 write-only VDAC0_NS VDAC0_NS Registers VDAC0_NS 0x0 0x0 0x1000 registers n VDAC 55 CFG No Description 0xC -1 read-write n 0x0 0x0 BIASKEEPWARM Bias Keepwarm Mode Enable 24 1 read-write CH0PRESCRST Channel 0 Start Reset Prescaler 3 1 read-write NORESETPRESC Prescaler not reset on channel 0 start 0 RESETPRESC Prescaler reset on channel 0 start 1 DBGHALT Debug Halt 27 1 read-write NORMAL Continue operation as normal during debug mode 0 HALT Complete the current conversion and then halt during debug mode 1 DIFF Differential Mode 0 1 read-write SINGLEENDED Single ended output 0 DIFFERENTIAL Differential output 1 DMAWU VDAC DMA Wakeup 25 1 read-write ONDEMANDCLK Always allow clk_dac 26 1 read-write PRESC Prescaler Setting for DAC clock 7 7 read-write REFRESHPERIOD Refresh Timer Overflow Period 20 3 read-write CYCLES2 All channels with enabled refresh are refreshed every 2 CLK_REFRESH cycles 0 CYCLES4 All channels with enabled refresh are refreshed every 4 CLK_REFRESH cycles 1 CYCLES8 All channels with enabled refresh are refreshed every 8 CLK_REFRESH cycles 2 CYCLES16 All channels with enabled refresh are refreshed every 16 CLK_REFRESH cycles 3 CYCLES32 All channels with enabled refresh are refreshed every 32 CLK_REFRESH cycles 4 CYCLES64 All channels with enabled refresh are refreshed every 64 CLK_REFRESH cycles 5 CYCLES128 All channels with enabled refresh are refreshed every 128 CLK_REFRESH cycles 6 CYCLES256 All channels with enabled refresh are refreshed every 256 CLK_REFRESH cycles 7 REFRSEL Reference Selection 4 2 read-write V125 Internal 1.25 V bandgap reference 0 V25 Internal 2.5 V bandgap reference 1 VDD AVDD reference 2 EXT External pin reference 3 SINEMODE Sine Mode 1 1 read-write DISSINEMODE Sine mode disabled. Sine reset to 0 degrees 0 ENSINEMODE Sine mode enabled 1 SINERESET Sine Wave Reset When inactive 2 1 read-write TIMEROVRFLOWPERIOD Internal Timer Overflow Period 16 3 read-write CYCLES2 The Timer overflows every 2 Prescaled CLK_DAC cycles 0 CYCLES4 The Timer overflows every 4 Prescaled CLK_DAC cycles 1 CYCLES8 The Timer overflows every 8 Prescaled CLK_DAC cycles 2 CYCLES16 The Timer overflows every 16 Prescaled CLK_DAC cycles 3 CYCLES32 The Timer overflows every 32 Prescaled CLK_DAC cycles 4 CYCLES64 The Timer overflows every 64 Prescaled CLK_DAC cycles 5 WARMUPTIME DAC Warmup Time 28 3 read-write CH0CFG No Description 0x14 -1 read-write n 0x0 0x0 CONVMODE Channel 0 Conversion Mode 0 1 read-write CONTINUOUS DAC channel 0 is set in continuous mode 0 SAMPLEOFF DAC channel 0 is set in sample/shut off mode 1 FIFODVL Channel 0 FIFO Low Watermark 11 2 read-write HIGHCAPLOADEN Channel 0 High Cap Load Mode Enable 14 1 read-write KEEPWARM Channel 0 Keepwarm Mode Enable 16 1 read-write POWERMODE Channel 0 Power Mode 2 1 read-write HIGHPOWER Default is High Power Mode 0 LOWPOWER Set this bit for Low Power Mode 1 REFRESHSOURCE Channel 0 Refresh Source 8 2 read-write NONE No Refresh Source Selected for Channel 0. 0 REFRESHTIMER Channel 0 Refresh triggered by Refresh Timer Overflow 1 SYNCPRS Channel 0 Refresh triggered by Sync PRS. PRS Trigger should have the same clock group as VDAC. 2 ASYNCPRS Channel 0 Refresh triggered by Async PRS 3 TRIGMODE Channel 0 Trigger Mode 4 3 read-write NONE No Conversion Trigger Source Selected for Channel 0 0 SW Channel 0 is triggered by Channel 0 FIFO (CH0F) write 1 SYNCPRS Channel 0 is triggered by Sync PRS input. PRS Trigger should have the same clock group as VDAC. 2 LESENSE Channel 0 is triggered by LESENSE 3 INTERNALTIMER Channel 0 is triggered by Internal Timer Overflow 4 ASYNCPRS Channel 0 is triggered by Async PRS input 5 CH0F No Description 0x28 -1 write-only n 0x0 0x0 DATA Channel 0 Data 0 12 write-only CH1CFG No Description 0x18 -1 read-write n 0x0 0x0 CONVMODE Channel 1 Conversion Mode 0 1 read-write CONTINUOUS DAC channel 1 is set in continuous mode 0 SAMPLEOFF DAC channel 1 is set in sample/shut off mode 1 FIFODVL Channel 1 FIFO Low Watermark 11 2 read-write HIGHCAPLOADEN Channel 1 High Cap Load Mode Enable 14 1 read-write KEEPWARM Channel 1 Keepwarm Mode Enable 16 1 read-write POWERMODE Channel 1 Power Mode 2 1 read-write HIGHPOWER Default is High Power Mode 0 LOWPOWER Set this bit for Low Power Mode 1 REFRESHSOURCE Channel 1 Refresh Source 8 2 read-write NONE No Refresh Source Selected 0 REFRESHTIMER CH1 Refresh Triggered by Refresh Timer Overflow 1 SYNCPRS CH1 Refresh Triggered by Sync PRS. PRS Trigger should have the same clock group as VDAC. 2 ASYNCPRS CH1 Refresh Triggered by Async PRS 3 TRIGMODE Channel 1 Trigger Mode 4 3 read-write NONE No Conversion Trigger Source Selected for Channel 1 0 SW Channel 1 is triggered by Channel 1 FIFO (CH1F) write 1 SYNCPRS Channel 1 is triggered by Sync PRS input.PRS Trigger should have the same clock group as VDAC. 2 INTERNALTIMER Channel 1 is triggered by Internal Timer Overflow 4 ASYNCPRS Channel 1 is triggered by Async PRS input 5 CH1F No Description 0x2C -1 write-only n 0x0 0x0 DATA Channel 1 Data 0 12 write-only CMD No Description 0x1C -1 write-only n 0x0 0x0 CH0DIS DAC Channel 0 Disable 1 1 write-only CH0EN DAC Channel 0 Enable 0 1 write-only CH0FIFOFLUSH CH0 WFIFO Flush 8 1 write-only CH1DIS DAC Channel 1 Disable 5 1 write-only CH1EN DAC Channel 1 Enable 4 1 write-only CH1FIFOFLUSH CH1 WFIFO Flush 9 1 write-only SINEMODESTART Start Sine Wave Generation 10 1 write-only SINEMODESTOP Stop Sine Wave Generation 11 1 write-only EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN VDAC Module Enable 0 1 read-write DISABLE Disable 0 ENABLE Enable 1 IEN No Description 0x24 -1 read-write n 0x0 0x0 ABUSALLOCERR ABUS Allocation Error Interrupt Flag 18 1 read-write ABUSINPUTCONFLICT ABUS Input Conflict Interrupt Flag 26 1 read-write CH0CD CH0 Conversion Done Interrupt Flag 0 1 read-write CH0DVL CH0 Data Valid Level Interrupt Flag 20 1 read-write CH0OF CH0 Data Overflow Interrupt Flag 4 1 read-write CH0UF CH0 Data Underflow Interrupt Flag 8 1 read-write CH1CD CH1 Conversion Done Interrupt Flag 1 1 read-write CH1DVL CH1 Data Valid Level Interrupt Flag 21 1 read-write CH1OF CH1 Data Overflow Interrupt Flag 5 1 read-write CH1UF CH1 Data Underflow Interrupt Flag 9 1 read-write IF No Description 0x20 -1 read-write n 0x0 0x0 ABUSALLOCERR ABUS Port Allocation Error Flag 18 1 read-write ABUSINPUTCONFLICT ABUS Input Conflict Error Flag 26 1 read-write CH0CD CH0 Conversion Done Interrupt Flag 0 1 read-write CH0DVL CH0 Data Valid Level Interrupt Flag 20 1 read-write CH0OF CH0 Data Overflow Interrupt Flag 4 1 read-write CH0UF CH0 Data Underflow Interrupt Flag 8 1 read-write CH1CD CH1 Conversion Done Interrupt Flag 1 1 read-write CH1DVL CH1 Data Valid Level Interrupt Flag 21 1 read-write CH1OF CH1 Data Overflow Interrupt Flag 5 1 read-write CH1UF CH1 Data Underflow Interrupt Flag 9 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only OUTCTRL No Description 0x30 -1 read-write n 0x0 0x0 ABUSPINSELCH0 CH0 ABUS Pin Select 15 6 read-write ABUSPINSELCH1 CH1 ABUS Pin Select 25 6 read-write ABUSPORTSELCH0 CH0 ABUS Port Select 12 3 read-write NONE No GPIO Selected for CH0 ABUS Output 0 PORTA Port A Selected 1 PORTB Port B Selected 2 PORTC Port C Selected 3 PORTD Port D Selected 4 ABUSPORTSELCH1 CH1 ABUS Port Select 22 3 read-write NONE No GPIO Selected for CH1 ABUS Output 0 PORTA Port A Selected 1 PORTB Port B Selected 2 PORTC Port C Selected 3 PORTD Port D Selected 4 AUXOUTENCH0 CH0 Alternative Output Enable 4 1 read-write AUXOUTENCH1 CH1 Alternative Output Enable 5 1 read-write MAINOUTENCH0 CH0 Main Output Enable 0 1 read-write MAINOUTENCH1 CH1 Main Output Enable 1 1 read-write SHORTCH0 CH1 Main and Alternative Output Short 8 1 read-write SHORTCH1 CH0 Main and Alternative Output Short 9 1 read-write OUTTIMERCFG No Description 0x34 -1 read-write n 0x0 0x0 CH0OUTHOLDTIME CH0 Output Hold Time 0 10 read-write CH1OUTHOLDTIME CH1 Output Hold Time 15 10 read-write STATUS No Description 0x10 -1 read-only n 0x0 0x0 ABUSALLOCERR ABUS Allocation Error Status 30 1 read-only ABUSINPUTCONFLICT ABUS Input Conflict Status 28 1 read-only CH0CURRENTSTATE Channel 0 Current Status 19 1 read-only CH0ENS Channel 0 Enabled Status 0 1 read-only CH0FIFOCNT Channel 0 FIFO Valid Count 12 3 read-only CH0FIFOEMPTY Channel 0 FIFO Empty Status 22 1 read-only CH0FIFOFLBUSY CH0 WFIFO Flush Sync Busy 26 1 read-only CH0FIFOFULL Channel 0 FIFO Full Status 8 1 read-only CH0WARM Channel 0 Warmed Status 4 1 read-only CH1CURRENTSTATE Channel 1 Current Status 20 1 read-only CH1ENS Channel 1 Enabled Status 1 1 read-only CH1FIFOCNT Channel 1 FIFO Valid Count 15 3 read-only CH1FIFOEMPTY Channel 1 FIFO Empty Status 23 1 read-only CH1FIFOFLBUSY CH1 WFIFO Flush Sync Busy 27 1 read-only CH1FIFOFULL Channel 1 FIFO Full Status 9 1 read-only CH1WARM Channel 1 Warmed Status 5 1 read-only SINEACTIVE Sine Wave Output Status on Channel 29 1 read-only SYNCBUSY Sync Busy Combined 31 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only VDAC0_S VDAC0_S Registers VDAC0_S 0x0 0x0 0x1000 registers n VDAC 55 CFG No Description 0xC -1 read-write n 0x0 0x0 BIASKEEPWARM Bias Keepwarm Mode Enable 24 1 read-write CH0PRESCRST Channel 0 Start Reset Prescaler 3 1 read-write NORESETPRESC Prescaler not reset on channel 0 start 0 RESETPRESC Prescaler reset on channel 0 start 1 DBGHALT Debug Halt 27 1 read-write NORMAL Continue operation as normal during debug mode 0 HALT Complete the current conversion and then halt during debug mode 1 DIFF Differential Mode 0 1 read-write SINGLEENDED Single ended output 0 DIFFERENTIAL Differential output 1 DMAWU VDAC DMA Wakeup 25 1 read-write ONDEMANDCLK Always allow clk_dac 26 1 read-write PRESC Prescaler Setting for DAC clock 7 7 read-write REFRESHPERIOD Refresh Timer Overflow Period 20 3 read-write CYCLES2 All channels with enabled refresh are refreshed every 2 CLK_REFRESH cycles 0 CYCLES4 All channels with enabled refresh are refreshed every 4 CLK_REFRESH cycles 1 CYCLES8 All channels with enabled refresh are refreshed every 8 CLK_REFRESH cycles 2 CYCLES16 All channels with enabled refresh are refreshed every 16 CLK_REFRESH cycles 3 CYCLES32 All channels with enabled refresh are refreshed every 32 CLK_REFRESH cycles 4 CYCLES64 All channels with enabled refresh are refreshed every 64 CLK_REFRESH cycles 5 CYCLES128 All channels with enabled refresh are refreshed every 128 CLK_REFRESH cycles 6 CYCLES256 All channels with enabled refresh are refreshed every 256 CLK_REFRESH cycles 7 REFRSEL Reference Selection 4 2 read-write V125 Internal 1.25 V bandgap reference 0 V25 Internal 2.5 V bandgap reference 1 VDD AVDD reference 2 EXT External pin reference 3 SINEMODE Sine Mode 1 1 read-write DISSINEMODE Sine mode disabled. Sine reset to 0 degrees 0 ENSINEMODE Sine mode enabled 1 SINERESET Sine Wave Reset When inactive 2 1 read-write TIMEROVRFLOWPERIOD Internal Timer Overflow Period 16 3 read-write CYCLES2 The Timer overflows every 2 Prescaled CLK_DAC cycles 0 CYCLES4 The Timer overflows every 4 Prescaled CLK_DAC cycles 1 CYCLES8 The Timer overflows every 8 Prescaled CLK_DAC cycles 2 CYCLES16 The Timer overflows every 16 Prescaled CLK_DAC cycles 3 CYCLES32 The Timer overflows every 32 Prescaled CLK_DAC cycles 4 CYCLES64 The Timer overflows every 64 Prescaled CLK_DAC cycles 5 WARMUPTIME DAC Warmup Time 28 3 read-write CH0CFG No Description 0x14 -1 read-write n 0x0 0x0 CONVMODE Channel 0 Conversion Mode 0 1 read-write CONTINUOUS DAC channel 0 is set in continuous mode 0 SAMPLEOFF DAC channel 0 is set in sample/shut off mode 1 FIFODVL Channel 0 FIFO Low Watermark 11 2 read-write HIGHCAPLOADEN Channel 0 High Cap Load Mode Enable 14 1 read-write KEEPWARM Channel 0 Keepwarm Mode Enable 16 1 read-write POWERMODE Channel 0 Power Mode 2 1 read-write HIGHPOWER Default is High Power Mode 0 LOWPOWER Set this bit for Low Power Mode 1 REFRESHSOURCE Channel 0 Refresh Source 8 2 read-write NONE No Refresh Source Selected for Channel 0. 0 REFRESHTIMER Channel 0 Refresh triggered by Refresh Timer Overflow 1 SYNCPRS Channel 0 Refresh triggered by Sync PRS. PRS Trigger should have the same clock group as VDAC. 2 ASYNCPRS Channel 0 Refresh triggered by Async PRS 3 TRIGMODE Channel 0 Trigger Mode 4 3 read-write NONE No Conversion Trigger Source Selected for Channel 0 0 SW Channel 0 is triggered by Channel 0 FIFO (CH0F) write 1 SYNCPRS Channel 0 is triggered by Sync PRS input. PRS Trigger should have the same clock group as VDAC. 2 LESENSE Channel 0 is triggered by LESENSE 3 INTERNALTIMER Channel 0 is triggered by Internal Timer Overflow 4 ASYNCPRS Channel 0 is triggered by Async PRS input 5 CH0F No Description 0x28 -1 write-only n 0x0 0x0 DATA Channel 0 Data 0 12 write-only CH1CFG No Description 0x18 -1 read-write n 0x0 0x0 CONVMODE Channel 1 Conversion Mode 0 1 read-write CONTINUOUS DAC channel 1 is set in continuous mode 0 SAMPLEOFF DAC channel 1 is set in sample/shut off mode 1 FIFODVL Channel 1 FIFO Low Watermark 11 2 read-write HIGHCAPLOADEN Channel 1 High Cap Load Mode Enable 14 1 read-write KEEPWARM Channel 1 Keepwarm Mode Enable 16 1 read-write POWERMODE Channel 1 Power Mode 2 1 read-write HIGHPOWER Default is High Power Mode 0 LOWPOWER Set this bit for Low Power Mode 1 REFRESHSOURCE Channel 1 Refresh Source 8 2 read-write NONE No Refresh Source Selected 0 REFRESHTIMER CH1 Refresh Triggered by Refresh Timer Overflow 1 SYNCPRS CH1 Refresh Triggered by Sync PRS. PRS Trigger should have the same clock group as VDAC. 2 ASYNCPRS CH1 Refresh Triggered by Async PRS 3 TRIGMODE Channel 1 Trigger Mode 4 3 read-write NONE No Conversion Trigger Source Selected for Channel 1 0 SW Channel 1 is triggered by Channel 1 FIFO (CH1F) write 1 SYNCPRS Channel 1 is triggered by Sync PRS input.PRS Trigger should have the same clock group as VDAC. 2 INTERNALTIMER Channel 1 is triggered by Internal Timer Overflow 4 ASYNCPRS Channel 1 is triggered by Async PRS input 5 CH1F No Description 0x2C -1 write-only n 0x0 0x0 DATA Channel 1 Data 0 12 write-only CMD No Description 0x1C -1 write-only n 0x0 0x0 CH0DIS DAC Channel 0 Disable 1 1 write-only CH0EN DAC Channel 0 Enable 0 1 write-only CH0FIFOFLUSH CH0 WFIFO Flush 8 1 write-only CH1DIS DAC Channel 1 Disable 5 1 write-only CH1EN DAC Channel 1 Enable 4 1 write-only CH1FIFOFLUSH CH1 WFIFO Flush 9 1 write-only SINEMODESTART Start Sine Wave Generation 10 1 write-only SINEMODESTOP Stop Sine Wave Generation 11 1 write-only EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disablement busy status 1 1 read-only EN VDAC Module Enable 0 1 read-write DISABLE Disable 0 ENABLE Enable 1 IEN No Description 0x24 -1 read-write n 0x0 0x0 ABUSALLOCERR ABUS Allocation Error Interrupt Flag 18 1 read-write ABUSINPUTCONFLICT ABUS Input Conflict Interrupt Flag 26 1 read-write CH0CD CH0 Conversion Done Interrupt Flag 0 1 read-write CH0DVL CH0 Data Valid Level Interrupt Flag 20 1 read-write CH0OF CH0 Data Overflow Interrupt Flag 4 1 read-write CH0UF CH0 Data Underflow Interrupt Flag 8 1 read-write CH1CD CH1 Conversion Done Interrupt Flag 1 1 read-write CH1DVL CH1 Data Valid Level Interrupt Flag 21 1 read-write CH1OF CH1 Data Overflow Interrupt Flag 5 1 read-write CH1UF CH1 Data Underflow Interrupt Flag 9 1 read-write IF No Description 0x20 -1 read-write n 0x0 0x0 ABUSALLOCERR ABUS Port Allocation Error Flag 18 1 read-write ABUSINPUTCONFLICT ABUS Input Conflict Error Flag 26 1 read-write CH0CD CH0 Conversion Done Interrupt Flag 0 1 read-write CH0DVL CH0 Data Valid Level Interrupt Flag 20 1 read-write CH0OF CH0 Data Overflow Interrupt Flag 4 1 read-write CH0UF CH0 Data Underflow Interrupt Flag 8 1 read-write CH1CD CH1 Conversion Done Interrupt Flag 1 1 read-write CH1DVL CH1 Data Valid Level Interrupt Flag 21 1 read-write CH1OF CH1 Data Overflow Interrupt Flag 5 1 read-write CH1UF CH1 Data Underflow Interrupt Flag 9 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IPVERSION 0 32 read-only OUTCTRL No Description 0x30 -1 read-write n 0x0 0x0 ABUSPINSELCH0 CH0 ABUS Pin Select 15 6 read-write ABUSPINSELCH1 CH1 ABUS Pin Select 25 6 read-write ABUSPORTSELCH0 CH0 ABUS Port Select 12 3 read-write NONE No GPIO Selected for CH0 ABUS Output 0 PORTA Port A Selected 1 PORTB Port B Selected 2 PORTC Port C Selected 3 PORTD Port D Selected 4 ABUSPORTSELCH1 CH1 ABUS Port Select 22 3 read-write NONE No GPIO Selected for CH1 ABUS Output 0 PORTA Port A Selected 1 PORTB Port B Selected 2 PORTC Port C Selected 3 PORTD Port D Selected 4 AUXOUTENCH0 CH0 Alternative Output Enable 4 1 read-write AUXOUTENCH1 CH1 Alternative Output Enable 5 1 read-write MAINOUTENCH0 CH0 Main Output Enable 0 1 read-write MAINOUTENCH1 CH1 Main Output Enable 1 1 read-write SHORTCH0 CH1 Main and Alternative Output Short 8 1 read-write SHORTCH1 CH0 Main and Alternative Output Short 9 1 read-write OUTTIMERCFG No Description 0x34 -1 read-write n 0x0 0x0 CH0OUTHOLDTIME CH0 Output Hold Time 0 10 read-write CH1OUTHOLDTIME CH1 Output Hold Time 15 10 read-write STATUS No Description 0x10 -1 read-only n 0x0 0x0 ABUSALLOCERR ABUS Allocation Error Status 30 1 read-only ABUSINPUTCONFLICT ABUS Input Conflict Status 28 1 read-only CH0CURRENTSTATE Channel 0 Current Status 19 1 read-only CH0ENS Channel 0 Enabled Status 0 1 read-only CH0FIFOCNT Channel 0 FIFO Valid Count 12 3 read-only CH0FIFOEMPTY Channel 0 FIFO Empty Status 22 1 read-only CH0FIFOFLBUSY CH0 WFIFO Flush Sync Busy 26 1 read-only CH0FIFOFULL Channel 0 FIFO Full Status 8 1 read-only CH0WARM Channel 0 Warmed Status 4 1 read-only CH1CURRENTSTATE Channel 1 Current Status 20 1 read-only CH1ENS Channel 1 Enabled Status 1 1 read-only CH1FIFOCNT Channel 1 FIFO Valid Count 15 3 read-only CH1FIFOEMPTY Channel 1 FIFO Empty Status 23 1 read-only CH1FIFOFLBUSY CH1 WFIFO Flush Sync Busy 27 1 read-only CH1FIFOFULL Channel 1 FIFO Full Status 9 1 read-only CH1WARM Channel 1 Warmed Status 5 1 read-only SINEACTIVE Sine Wave Output Status on Channel 29 1 read-only SYNCBUSY Sync Busy Combined 31 1 read-only SWRST No Description 0x8 -1 read-write n 0x0 0x0 RESETTING Software reset busy status 1 1 read-only SWRST Software reset command 0 1 write-only WDOG0_NS WDOG0_NS Registers WDOG0_NS 0x0 0x0 0x1000 registers n WDOG0 43 CFG No Description 0x8 -1 read-write n 0x0 0x0 CLRSRC WDOG Clear Source 0 1 read-write SW A write to the clear bit will clear the WDOG counter 0 PRSSRC0 A rising edge on the PRS Source 0 will clear the WDOG counter 1 DEBUGRUN Debug Mode Run 5 1 read-write DISABLE WDOG timer is frozen in debug mode 0 ENABLE WDOG timer is running in debug mode 1 EM1RUN EM1 Run 1 1 read-write DISABLE WDOG timer is frozen in EM2. 0 ENABLE WDOG timer is running in EM2. 1 EM2RUN EM2 Run 2 1 read-write DISABLE WDOG timer is frozen in EM2. 0 ENABLE WDOG timer is running in EM2. 1 EM3RUN EM3 Run 3 1 read-write DISABLE WDOG timer is frozen in EM3. 0 ENABLE WDOG timer is running in EM3. 1 EM4BLOCK EM4 Block 4 1 read-write DISABLE EM4 can be entered by software. See EMU for detailed description. 0 ENABLE EM4 cannot be entered by software. 1 PERSEL WDOG Timeout Period Select 16 4 read-write SEL0 Timeout period of 9 wdog cycles 0 SEL1 Timeout period of 17 wdog cycles 1 SEL10 Timeout period of 8k wdog cycles 10 SEL11 Timeout period of 16k wdog cycles 11 SEL12 Timeout period of 32k wdog cycles 12 SEL13 Timeout period of 64k wdog cycles 13 SEL14 Timeout period of 128k wdog cycles 14 SEL15 Timeout period of 256k wdog cycles 15 SEL2 Timeout period of 33 wdog cycles 2 SEL3 Timeout period of 65 wdog cycles 3 SEL4 Timeout period of 129 wdog cycles 4 SEL5 Timeout period of 257 wdog cycles 5 SEL6 Timeout period of 513 wdog cycles 6 SEL7 Timeout period of 1k wdog cycles 7 SEL8 Timeout period of 2k wdog cycles 8 SEL9 Timeout period of 4k wdog cycles 9 PRS0MISSRSTEN PRS Src0 Missing Event WDOG Reset 9 1 read-write PRS1MISSRSTEN PRS Src1 Missing Event WDOG Reset 10 1 read-write WARNSEL WDOG Warning Period Select 24 2 read-write DIS Disable 0 SEL1 Warning timeout is 25% of the Timeout. 1 SEL2 Warning timeout is 50% of the Timeout. 2 SEL3 Warning timeout is 75% of the Timeout. 3 WDOGRSTDIS WDOG Reset Disable 8 1 read-write EN A timeout will cause a WDOG reset 0 DIS A timeout will not cause a WDOG reset 1 WINSEL WDOG Illegal Window Select 28 3 read-write DIS Disabled. 0 SEL1 Window timeout is 12.5% of the Timeout. 1 SEL2 Window timeout is 25% of the Timeout. 2 SEL3 Window timeout is 37.5% of the Timeout. 3 SEL4 Window timeout is 50% of the Timeout. 4 SEL5 Window timeout is 62.5% of the Timeout. 5 SEL6 Window timeout is 75.5% of the Timeout. 6 SEL7 Window timeout is 87.5% of the Timeout. 7 CMD No Description 0xC -1 write-only n 0x0 0x0 CLEAR WDOG Timer Clear 0 1 write-only UNCHANGED WDOG timer is unchanged. 0 CLEARED WDOG timer is cleared to 0. 1 EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disabling busy status 1 1 read-only EN Module Enable 0 1 read-write IEN No Description 0x1C -1 read-write n 0x0 0x0 PEM0 PRS Src0 Event Missing Interrupt Enable 3 1 read-write PEM1 PRS Src1 Event Missing Interrupt Enable 4 1 read-write TOUT WDOG Timeout Interrupt Enable 0 1 read-write WARN WDOG Warning Timeout Interrupt Enable 1 1 read-write WIN WDOG Window Interrupt Enable 2 1 read-write IF No Description 0x18 -1 read-write n 0x0 0x0 PEM0 PRS Src0 Event Missing Interrupt Flag 3 1 read-write PEM1 PRS Src1 Event Missing Interrupt Flag 4 1 read-write TOUT WDOG Timeout Interrupt Flag 0 1 read-write WARN WDOG Warning Timeout Interrupt Flag 1 1 read-write WIN WDOG Window Interrupt Flag 2 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x20 -1 write-only n 0x0 0x0 LOCKKEY WDOG Configuration Lock 0 16 write-only LOCK Lock WDOG lockable registers 0 UNLOCK Unlock WDOG lockable registers 44008 STATUS No Description 0x14 -1 read-only n 0x0 0x0 LOCK WDOG Configuration Lock Status 31 1 read-only UNLOCKED All WDOG lockable registers are unlocked. 0 LOCKED All WDOG lockable registers are locked. 1 SYNCBUSY No Description 0x24 -1 read-only n 0x0 0x0 CMD Sync Busy for Cmd Register 0 1 read-only WDOG0_S WDOG0_S Registers WDOG0_S 0x0 0x0 0x1000 registers n WDOG0 43 CFG No Description 0x8 -1 read-write n 0x0 0x0 CLRSRC WDOG Clear Source 0 1 read-write SW A write to the clear bit will clear the WDOG counter 0 PRSSRC0 A rising edge on the PRS Source 0 will clear the WDOG counter 1 DEBUGRUN Debug Mode Run 5 1 read-write DISABLE WDOG timer is frozen in debug mode 0 ENABLE WDOG timer is running in debug mode 1 EM1RUN EM1 Run 1 1 read-write DISABLE WDOG timer is frozen in EM2. 0 ENABLE WDOG timer is running in EM2. 1 EM2RUN EM2 Run 2 1 read-write DISABLE WDOG timer is frozen in EM2. 0 ENABLE WDOG timer is running in EM2. 1 EM3RUN EM3 Run 3 1 read-write DISABLE WDOG timer is frozen in EM3. 0 ENABLE WDOG timer is running in EM3. 1 EM4BLOCK EM4 Block 4 1 read-write DISABLE EM4 can be entered by software. See EMU for detailed description. 0 ENABLE EM4 cannot be entered by software. 1 PERSEL WDOG Timeout Period Select 16 4 read-write SEL0 Timeout period of 9 wdog cycles 0 SEL1 Timeout period of 17 wdog cycles 1 SEL10 Timeout period of 8k wdog cycles 10 SEL11 Timeout period of 16k wdog cycles 11 SEL12 Timeout period of 32k wdog cycles 12 SEL13 Timeout period of 64k wdog cycles 13 SEL14 Timeout period of 128k wdog cycles 14 SEL15 Timeout period of 256k wdog cycles 15 SEL2 Timeout period of 33 wdog cycles 2 SEL3 Timeout period of 65 wdog cycles 3 SEL4 Timeout period of 129 wdog cycles 4 SEL5 Timeout period of 257 wdog cycles 5 SEL6 Timeout period of 513 wdog cycles 6 SEL7 Timeout period of 1k wdog cycles 7 SEL8 Timeout period of 2k wdog cycles 8 SEL9 Timeout period of 4k wdog cycles 9 PRS0MISSRSTEN PRS Src0 Missing Event WDOG Reset 9 1 read-write PRS1MISSRSTEN PRS Src1 Missing Event WDOG Reset 10 1 read-write WARNSEL WDOG Warning Period Select 24 2 read-write DIS Disable 0 SEL1 Warning timeout is 25% of the Timeout. 1 SEL2 Warning timeout is 50% of the Timeout. 2 SEL3 Warning timeout is 75% of the Timeout. 3 WDOGRSTDIS WDOG Reset Disable 8 1 read-write EN A timeout will cause a WDOG reset 0 DIS A timeout will not cause a WDOG reset 1 WINSEL WDOG Illegal Window Select 28 3 read-write DIS Disabled. 0 SEL1 Window timeout is 12.5% of the Timeout. 1 SEL2 Window timeout is 25% of the Timeout. 2 SEL3 Window timeout is 37.5% of the Timeout. 3 SEL4 Window timeout is 50% of the Timeout. 4 SEL5 Window timeout is 62.5% of the Timeout. 5 SEL6 Window timeout is 75.5% of the Timeout. 6 SEL7 Window timeout is 87.5% of the Timeout. 7 CMD No Description 0xC -1 write-only n 0x0 0x0 CLEAR WDOG Timer Clear 0 1 write-only UNCHANGED WDOG timer is unchanged. 0 CLEARED WDOG timer is cleared to 0. 1 EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disabling busy status 1 1 read-only EN Module Enable 0 1 read-write IEN No Description 0x1C -1 read-write n 0x0 0x0 PEM0 PRS Src0 Event Missing Interrupt Enable 3 1 read-write PEM1 PRS Src1 Event Missing Interrupt Enable 4 1 read-write TOUT WDOG Timeout Interrupt Enable 0 1 read-write WARN WDOG Warning Timeout Interrupt Enable 1 1 read-write WIN WDOG Window Interrupt Enable 2 1 read-write IF No Description 0x18 -1 read-write n 0x0 0x0 PEM0 PRS Src0 Event Missing Interrupt Flag 3 1 read-write PEM1 PRS Src1 Event Missing Interrupt Flag 4 1 read-write TOUT WDOG Timeout Interrupt Flag 0 1 read-write WARN WDOG Warning Timeout Interrupt Flag 1 1 read-write WIN WDOG Window Interrupt Flag 2 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x20 -1 write-only n 0x0 0x0 LOCKKEY WDOG Configuration Lock 0 16 write-only LOCK Lock WDOG lockable registers 0 UNLOCK Unlock WDOG lockable registers 44008 STATUS No Description 0x14 -1 read-only n 0x0 0x0 LOCK WDOG Configuration Lock Status 31 1 read-only UNLOCKED All WDOG lockable registers are unlocked. 0 LOCKED All WDOG lockable registers are locked. 1 SYNCBUSY No Description 0x24 -1 read-only n 0x0 0x0 CMD Sync Busy for Cmd Register 0 1 read-only WDOG1_NS WDOG1_NS Registers WDOG1_NS 0x0 0x0 0x1000 registers n WDOG1 44 CFG No Description 0x8 -1 read-write n 0x0 0x0 CLRSRC WDOG Clear Source 0 1 read-write SW A write to the clear bit will clear the WDOG counter 0 PRSSRC0 A rising edge on the PRS Source 0 will clear the WDOG counter 1 DEBUGRUN Debug Mode Run 5 1 read-write DISABLE WDOG timer is frozen in debug mode 0 ENABLE WDOG timer is running in debug mode 1 EM1RUN EM1 Run 1 1 read-write DISABLE WDOG timer is frozen in EM2. 0 ENABLE WDOG timer is running in EM2. 1 EM2RUN EM2 Run 2 1 read-write DISABLE WDOG timer is frozen in EM2. 0 ENABLE WDOG timer is running in EM2. 1 EM3RUN EM3 Run 3 1 read-write DISABLE WDOG timer is frozen in EM3. 0 ENABLE WDOG timer is running in EM3. 1 EM4BLOCK EM4 Block 4 1 read-write DISABLE EM4 can be entered by software. See EMU for detailed description. 0 ENABLE EM4 cannot be entered by software. 1 PERSEL WDOG Timeout Period Select 16 4 read-write SEL0 Timeout period of 9 wdog cycles 0 SEL1 Timeout period of 17 wdog cycles 1 SEL10 Timeout period of 8k wdog cycles 10 SEL11 Timeout period of 16k wdog cycles 11 SEL12 Timeout period of 32k wdog cycles 12 SEL13 Timeout period of 64k wdog cycles 13 SEL14 Timeout period of 128k wdog cycles 14 SEL15 Timeout period of 256k wdog cycles 15 SEL2 Timeout period of 33 wdog cycles 2 SEL3 Timeout period of 65 wdog cycles 3 SEL4 Timeout period of 129 wdog cycles 4 SEL5 Timeout period of 257 wdog cycles 5 SEL6 Timeout period of 513 wdog cycles 6 SEL7 Timeout period of 1k wdog cycles 7 SEL8 Timeout period of 2k wdog cycles 8 SEL9 Timeout period of 4k wdog cycles 9 PRS0MISSRSTEN PRS Src0 Missing Event WDOG Reset 9 1 read-write PRS1MISSRSTEN PRS Src1 Missing Event WDOG Reset 10 1 read-write WARNSEL WDOG Warning Period Select 24 2 read-write DIS Disable 0 SEL1 Warning timeout is 25% of the Timeout. 1 SEL2 Warning timeout is 50% of the Timeout. 2 SEL3 Warning timeout is 75% of the Timeout. 3 WDOGRSTDIS WDOG Reset Disable 8 1 read-write EN A timeout will cause a WDOG reset 0 DIS A timeout will not cause a WDOG reset 1 WINSEL WDOG Illegal Window Select 28 3 read-write DIS Disabled. 0 SEL1 Window timeout is 12.5% of the Timeout. 1 SEL2 Window timeout is 25% of the Timeout. 2 SEL3 Window timeout is 37.5% of the Timeout. 3 SEL4 Window timeout is 50% of the Timeout. 4 SEL5 Window timeout is 62.5% of the Timeout. 5 SEL6 Window timeout is 75.5% of the Timeout. 6 SEL7 Window timeout is 87.5% of the Timeout. 7 CMD No Description 0xC -1 write-only n 0x0 0x0 CLEAR WDOG Timer Clear 0 1 write-only UNCHANGED WDOG timer is unchanged. 0 CLEARED WDOG timer is cleared to 0. 1 EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disabling busy status 1 1 read-only EN Module Enable 0 1 read-write IEN No Description 0x1C -1 read-write n 0x0 0x0 PEM0 PRS Src0 Event Missing Interrupt Enable 3 1 read-write PEM1 PRS Src1 Event Missing Interrupt Enable 4 1 read-write TOUT WDOG Timeout Interrupt Enable 0 1 read-write WARN WDOG Warning Timeout Interrupt Enable 1 1 read-write WIN WDOG Window Interrupt Enable 2 1 read-write IF No Description 0x18 -1 read-write n 0x0 0x0 PEM0 PRS Src0 Event Missing Interrupt Flag 3 1 read-write PEM1 PRS Src1 Event Missing Interrupt Flag 4 1 read-write TOUT WDOG Timeout Interrupt Flag 0 1 read-write WARN WDOG Warning Timeout Interrupt Flag 1 1 read-write WIN WDOG Window Interrupt Flag 2 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x20 -1 write-only n 0x0 0x0 LOCKKEY WDOG Configuration Lock 0 16 write-only LOCK Lock WDOG lockable registers 0 UNLOCK Unlock WDOG lockable registers 44008 STATUS No Description 0x14 -1 read-only n 0x0 0x0 LOCK WDOG Configuration Lock Status 31 1 read-only UNLOCKED All WDOG lockable registers are unlocked. 0 LOCKED All WDOG lockable registers are locked. 1 SYNCBUSY No Description 0x24 -1 read-only n 0x0 0x0 CMD Sync Busy for Cmd Register 0 1 read-only WDOG1_S WDOG1_S Registers WDOG1_S 0x0 0x0 0x1000 registers n WDOG1 44 CFG No Description 0x8 -1 read-write n 0x0 0x0 CLRSRC WDOG Clear Source 0 1 read-write SW A write to the clear bit will clear the WDOG counter 0 PRSSRC0 A rising edge on the PRS Source 0 will clear the WDOG counter 1 DEBUGRUN Debug Mode Run 5 1 read-write DISABLE WDOG timer is frozen in debug mode 0 ENABLE WDOG timer is running in debug mode 1 EM1RUN EM1 Run 1 1 read-write DISABLE WDOG timer is frozen in EM2. 0 ENABLE WDOG timer is running in EM2. 1 EM2RUN EM2 Run 2 1 read-write DISABLE WDOG timer is frozen in EM2. 0 ENABLE WDOG timer is running in EM2. 1 EM3RUN EM3 Run 3 1 read-write DISABLE WDOG timer is frozen in EM3. 0 ENABLE WDOG timer is running in EM3. 1 EM4BLOCK EM4 Block 4 1 read-write DISABLE EM4 can be entered by software. See EMU for detailed description. 0 ENABLE EM4 cannot be entered by software. 1 PERSEL WDOG Timeout Period Select 16 4 read-write SEL0 Timeout period of 9 wdog cycles 0 SEL1 Timeout period of 17 wdog cycles 1 SEL10 Timeout period of 8k wdog cycles 10 SEL11 Timeout period of 16k wdog cycles 11 SEL12 Timeout period of 32k wdog cycles 12 SEL13 Timeout period of 64k wdog cycles 13 SEL14 Timeout period of 128k wdog cycles 14 SEL15 Timeout period of 256k wdog cycles 15 SEL2 Timeout period of 33 wdog cycles 2 SEL3 Timeout period of 65 wdog cycles 3 SEL4 Timeout period of 129 wdog cycles 4 SEL5 Timeout period of 257 wdog cycles 5 SEL6 Timeout period of 513 wdog cycles 6 SEL7 Timeout period of 1k wdog cycles 7 SEL8 Timeout period of 2k wdog cycles 8 SEL9 Timeout period of 4k wdog cycles 9 PRS0MISSRSTEN PRS Src0 Missing Event WDOG Reset 9 1 read-write PRS1MISSRSTEN PRS Src1 Missing Event WDOG Reset 10 1 read-write WARNSEL WDOG Warning Period Select 24 2 read-write DIS Disable 0 SEL1 Warning timeout is 25% of the Timeout. 1 SEL2 Warning timeout is 50% of the Timeout. 2 SEL3 Warning timeout is 75% of the Timeout. 3 WDOGRSTDIS WDOG Reset Disable 8 1 read-write EN A timeout will cause a WDOG reset 0 DIS A timeout will not cause a WDOG reset 1 WINSEL WDOG Illegal Window Select 28 3 read-write DIS Disabled. 0 SEL1 Window timeout is 12.5% of the Timeout. 1 SEL2 Window timeout is 25% of the Timeout. 2 SEL3 Window timeout is 37.5% of the Timeout. 3 SEL4 Window timeout is 50% of the Timeout. 4 SEL5 Window timeout is 62.5% of the Timeout. 5 SEL6 Window timeout is 75.5% of the Timeout. 6 SEL7 Window timeout is 87.5% of the Timeout. 7 CMD No Description 0xC -1 write-only n 0x0 0x0 CLEAR WDOG Timer Clear 0 1 write-only UNCHANGED WDOG timer is unchanged. 0 CLEARED WDOG timer is cleared to 0. 1 EN No Description 0x4 -1 read-write n 0x0 0x0 DISABLING Disabling busy status 1 1 read-only EN Module Enable 0 1 read-write IEN No Description 0x1C -1 read-write n 0x0 0x0 PEM0 PRS Src0 Event Missing Interrupt Enable 3 1 read-write PEM1 PRS Src1 Event Missing Interrupt Enable 4 1 read-write TOUT WDOG Timeout Interrupt Enable 0 1 read-write WARN WDOG Warning Timeout Interrupt Enable 1 1 read-write WIN WDOG Window Interrupt Enable 2 1 read-write IF No Description 0x18 -1 read-write n 0x0 0x0 PEM0 PRS Src0 Event Missing Interrupt Flag 3 1 read-write PEM1 PRS Src1 Event Missing Interrupt Flag 4 1 read-write TOUT WDOG Timeout Interrupt Flag 0 1 read-write WARN WDOG Warning Timeout Interrupt Flag 1 1 read-write WIN WDOG Window Interrupt Flag 2 1 read-write IPVERSION No Description 0x0 -1 read-only n 0x0 0x0 IPVERSION IP Version 0 32 read-only LOCK No Description 0x20 -1 write-only n 0x0 0x0 LOCKKEY WDOG Configuration Lock 0 16 write-only LOCK Lock WDOG lockable registers 0 UNLOCK Unlock WDOG lockable registers 44008 STATUS No Description 0x14 -1 read-only n 0x0 0x0 LOCK WDOG Configuration Lock Status 31 1 read-only UNLOCKED All WDOG lockable registers are unlocked. 0 LOCKED All WDOG lockable registers are locked. 1 SYNCBUSY No Description 0x24 -1 read-only n 0x0 0x0 CMD Sync Busy for Cmd Register 0 1 read-only