\n
address_offset : 0x0 Bytes (0x0)
size : 0x2C byte (0x0)
mem_usage : registers
protection :
address_offset : 0x30 Bytes (0x0)
size : 0x4 byte (0x0)
mem_usage : registers
protection :
address_offset : 0x40 Bytes (0x0)
size : 0x2C byte (0x0)
mem_usage : registers
protection :
address_offset : 0x70 Bytes (0x0)
size : 0x4 byte (0x0)
mem_usage : registers
protection :
address_offset : 0x80 Bytes (0x0)
size : 0x2C byte (0x0)
mem_usage : registers
protection :
address_offset : 0xB0 Bytes (0x0)
size : 0x4 byte (0x0)
mem_usage : registers
protection :
address_offset : 0xC0 Bytes (0x0)
size : 0x2C byte (0x0)
mem_usage : registers
protection :
address_offset : 0xF0 Bytes (0x0)
size : 0x4 byte (0x0)
mem_usage : registers
protection :
address_offset : 0x440 Bytes (0x0)
size : 0x8 byte (0x0)
mem_usage : registers
protection :
address_offset : 0x800 Bytes (0x0)
size : 0x100 byte (0x0)
mem_usage : registers
protection :
PA I/O Mode Control
address_offset : 0x0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
MODE0 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 0 - 1 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE1 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 2 - 3 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE2 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 4 - 5 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE3 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 6 - 7 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE4 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 8 - 9 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE5 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 10 - 11 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE6 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 12 - 13 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE7 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 14 - 15 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE8 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 16 - 17 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE9 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 18 - 19 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE10 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 20 - 21 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE11 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 22 - 23 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE12 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 24 - 25 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE13 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 26 - 27 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE14 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 28 - 29 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
MODE15 : Port A-D I/O Pin[n] Mode Control
Determine each I/O mode of Px.n pins.
bits : 30 - 31 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n is in Input mode
#01 : 1
Px.n is in Push-pull Output mode
#10 : 2
Px.n is in Open-drain Output mode
#11 : 3
Px.n is in Quasi-bidirectional mode
End of enumeration elements list.
PA Pin Value
address_offset : 0x10 Bytes (0x0)
size : -1 bit
access : read-only
reset_value : 0x0
reset_Mask : 0x0
PIN0 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 0 - 0 (1 bit)
access : read-only
PIN1 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 1 - 1 (1 bit)
access : read-only
PIN2 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 2 - 2 (1 bit)
access : read-only
PIN3 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 3 - 3 (1 bit)
access : read-only
PIN4 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 4 - 4 (1 bit)
access : read-only
PIN5 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 5 - 5 (1 bit)
access : read-only
PIN6 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 6 - 6 (1 bit)
access : read-only
PIN7 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 7 - 7 (1 bit)
access : read-only
PIN8 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 8 - 8 (1 bit)
access : read-only
PIN9 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 9 - 9 (1 bit)
access : read-only
PIN10 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 10 - 10 (1 bit)
access : read-only
PIN11 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 11 - 11 (1 bit)
access : read-only
PIN12 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 12 - 12 (1 bit)
access : read-only
PIN13 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 13 - 13 (1 bit)
access : read-only
PIN14 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 14 - 14 (1 bit)
access : read-only
PIN15 : Port A-D Pin[n] Pin Value
Each bit of the register reflects the actual status of the respective Px.n pin. If the bit is 1, it indicates the corresponding pin status is high else the pin status is low.
Note:
bits : 15 - 15 (1 bit)
access : read-only
PA De-bounce Enable Control Register
address_offset : 0x14 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
DBEN0 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 0 - 0 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN1 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 1 - 1 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN2 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 2 - 2 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN3 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 3 - 3 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN4 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 4 - 4 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN5 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 5 - 5 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN6 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 6 - 6 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN7 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 7 - 7 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN8 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 8 - 8 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN9 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 9 - 9 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN10 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 10 - 10 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN11 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 11 - 11 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN12 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 12 - 12 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN13 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 13 - 13 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN14 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 14 - 14 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
DBEN15 : Port A-D Pin[n] Input Signal De-bounce Enable Bit
The DBEN[n] bit is used to enable the de-bounce function for each corresponding bit. If the input signal pulse width cannot be sampled by continuous two de-bounce sample cycle, the input signal transition is seen as the signal bounce and will not trigger the interrupt. The de-bounce clock source is controlled by DBCLKSRC (GPIO_DBCTL [4]), one de-bounce sample cycle period is controlled by DBCLKSEL (GPIO_DBCTL [3:0]).
bits : 15 - 15 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n de-bounce function Disabled
#1 : 1
Px.n de-bounce function Enabled
End of enumeration elements list.
PA Interrupt Trigger Type Control
address_offset : 0x18 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
TYPE0 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 0 - 0 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE1 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 1 - 1 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE2 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 2 - 2 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE3 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 3 - 3 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE4 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 4 - 4 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE5 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 5 - 5 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE6 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 6 - 6 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE7 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 7 - 7 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE8 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 8 - 8 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE9 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 9 - 9 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE10 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 10 - 10 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE11 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 11 - 11 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE12 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 12 - 12 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE13 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 13 - 13 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE14 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 14 - 14 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
TYPE15 : Port A-D Pin[n] Edge or Level Detection Interrupt Trigger Type Control
TYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger. If the interrupt is by edge trigger, the trigger source can be controlled by de-bounce. If the interrupt is by level trigger, the input source is sampled by one HCLK clock and generates the interrupt.
bits : 15 - 15 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge trigger interrupt
#1 : 1
Level trigger interrupt
End of enumeration elements list.
PA Interrupt Enable Control Register
address_offset : 0x1C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
FLIEN0 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 0 - 0 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN1 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 1 - 1 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN2 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 2 - 2 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN3 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 3 - 3 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN4 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 4 - 4 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN5 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 5 - 5 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN6 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 6 - 6 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN7 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 7 - 7 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN8 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 8 - 8 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN9 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 9 - 9 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN10 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 10 - 10 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN11 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 11 - 11 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN12 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 12 - 12 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN13 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 13 - 13 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN14 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 14 - 14 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
FLIEN15 : Port A-D Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit
The FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the FLIEN (Px_INTEN[n]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at low level.
If the interrupt is edge trigger(TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from high to low.
bits : 15 - 15 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level low or high to low interrupt Disabled
#1 : 1
Px.n level low or high to low interrupt Enabled
End of enumeration elements list.
RHIEN0 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 16 - 16 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN1 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 17 - 17 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN2 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 18 - 18 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN3 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 19 - 19 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN4 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 20 - 20 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN5 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 21 - 21 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN6 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 22 - 22 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN7 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 23 - 23 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN8 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 24 - 24 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN9 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 25 - 25 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN10 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 26 - 26 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN11 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 27 - 27 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN12 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 28 - 28 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN13 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 29 - 29 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN14 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 30 - 30 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
RHIEN15 : Port A-D Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit
The RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin. Set bit to 1 also enable the pin wake-up function.
When setting the RHIEN (Px_INTEN[n+16]) bit to 1 :
If the interrupt is level trigger (TYPE (Px_INTTYPE[n]) bit is set to 1), the input Px.n pin will generate the interrupt while this pin state is at high level.
If the interrupt is edge trigger (TYPE (Px_INTTYPE[n]) bit is set to 0), the input Px.n pin will generate the interrupt while this pin state changed from low to high.
bits : 31 - 31 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n level high or low to high interrupt Disabled
#1 : 1
Px.n level high or low to high interrupt Enabled
End of enumeration elements list.
PA Interrupt Source Flag
address_offset : 0x20 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
INTSRC0 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 0 - 0 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC1 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 1 - 1 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC2 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 2 - 2 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC3 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 3 - 3 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC4 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 4 - 4 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC5 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 5 - 5 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC6 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 6 - 6 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC7 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 7 - 7 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC8 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 8 - 8 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC9 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 9 - 9 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC10 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 10 - 10 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC11 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 11 - 11 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC12 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 12 - 12 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC13 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 13 - 13 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC14 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 14 - 14 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
INTSRC15 : Port A-D Pin[n] Interrupt Source Flag
Write Operation :
bits : 15 - 15 (1 bit)
access : read-write
Enumeration:
#0 : 0
No action.
No interrupt at Px.n
#1 : 1
Clear the corresponding pending interrupt.
Px.n generates an interrupt
End of enumeration elements list.
PA Input Schmitt Trigger Enable Register
address_offset : 0x24 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
SMTEN0 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 0 - 0 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN1 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 1 - 1 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN2 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 2 - 2 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN3 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 3 - 3 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN4 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 4 - 4 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN5 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 5 - 5 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN6 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 6 - 6 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN7 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 7 - 7 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN8 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 8 - 8 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN9 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 9 - 9 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN10 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 10 - 10 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN11 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 11 - 11 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN12 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 12 - 12 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN13 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 13 - 13 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN14 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 14 - 14 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
SMTEN15 : Port A-D Pin[n] Input Schmitt Trigger Enable Bit
bits : 15 - 15 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n input schmitt trigger function Disabled
#1 : 1
Px.n input schmitt trigger function Enabled
End of enumeration elements list.
PA High Slew Rate Control Register
address_offset : 0x28 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
HSREN0 : Port A-D Pin[n] High Slew Rate Control
bits : 0 - 1 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN1 : Port A-D Pin[n] High Slew Rate Control
bits : 2 - 3 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN2 : Port A-D Pin[n] High Slew Rate Control
bits : 4 - 5 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN3 : Port A-D Pin[n] High Slew Rate Control
bits : 6 - 7 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN4 : Port A-D Pin[n] High Slew Rate Control
bits : 8 - 9 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN5 : Port A-D Pin[n] High Slew Rate Control
bits : 10 - 11 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN6 : Port A-D Pin[n] High Slew Rate Control
bits : 12 - 13 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN7 : Port A-D Pin[n] High Slew Rate Control
bits : 14 - 15 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN8 : Port A-D Pin[n] High Slew Rate Control
bits : 16 - 17 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN9 : Port A-D Pin[n] High Slew Rate Control
bits : 18 - 19 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN10 : Port A-D Pin[n] High Slew Rate Control
bits : 20 - 21 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN11 : Port A-D Pin[n] High Slew Rate Control
bits : 22 - 23 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN12 : Port A-D Pin[n] High Slew Rate Control
bits : 24 - 25 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN13 : Port A-D Pin[n] High Slew Rate Control
bits : 26 - 27 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN14 : Port A-D Pin[n] High Slew Rate Control
bits : 28 - 29 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
HSREN15 : Port A-D Pin[n] High Slew Rate Control
bits : 30 - 31 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n output with normal slew rate mode
#01 : 1
Px.n output with high slew rate mode
#10 : 2
Px.n output with fast slew rate mode
#11 : 3
Reserved. Do not use
End of enumeration elements list.
PA Pull-up and Pull-down Selection Register
address_offset : 0x30 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PUSEL0 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 0 - 1 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL1 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 2 - 3 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL2 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 4 - 5 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL3 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 6 - 7 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL4 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 8 - 9 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL5 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 10 - 11 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL6 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 12 - 13 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL7 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 14 - 15 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL8 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 16 - 17 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL9 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 18 - 19 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL10 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 20 - 21 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL11 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 22 - 23 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL12 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 24 - 25 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL13 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 26 - 27 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL14 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 28 - 29 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PUSEL15 : Port A-D Pin[n] Pull-up and Pull-down Enable Register
Determine each I/O Pull-up/pull-down of Px.n pins.
bits : 30 - 31 (2 bit)
access : read-write
Enumeration:
#00 : 0
Px.n pull-up and pull- down disable
#01 : 1
Px.n pull-up enable
#10 : 2
Px.n pull-down enable
#11 : 3
Px.n pull-up and pull-down disable
End of enumeration elements list.
PA Digital Input Path Disable Control
address_offset : 0x4 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
DINOFF0 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 16 - 16 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF1 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 17 - 17 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF2 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 18 - 18 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF3 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 19 - 19 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF4 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 20 - 20 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF5 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 21 - 21 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF6 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 22 - 22 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF7 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 23 - 23 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF8 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 24 - 24 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF9 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 25 - 25 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF10 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 26 - 26 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF11 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 27 - 27 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF12 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 28 - 28 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF13 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 29 - 29 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF14 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 30 - 30 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
DINOFF15 : Port A-D Pin[n] Digital Input Path Disable Control
Each of these bits is used to control if the digital input path of corresponding Px.n pin is disabled. If input is analog signal, users can disable Px.n digital input path to avoid input current leakage.
bits : 31 - 31 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n digital input path Enabled
#1 : 1
Px.n digital input path Disabled (digital input tied to low)
End of enumeration elements list.
PB I/O Mode Control
address_offset : 0x40 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PB Digital Input Path Disable Control
address_offset : 0x44 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
Interrupt De-bounce Control Register
address_offset : 0x440 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
DBCLKSEL : De-bounce Sampling Cycle Selection
bits : 0 - 3 (4 bit)
access : read-write
Enumeration:
#0000 : 0
Sample interrupt input once per 1 clocks
#0001 : 1
Sample interrupt input once per 2 clocks
#0010 : 2
Sample interrupt input once per 4 clocks
#0011 : 3
Sample interrupt input once per 8 clocks
#0100 : 4
Sample interrupt input once per 16 clocks
#0101 : 5
Sample interrupt input once per 32 clocks
#0110 : 6
Sample interrupt input once per 64 clocks
#0111 : 7
Sample interrupt input once per 128 clocks
#1000 : 8
Sample interrupt input once per 256 clocks
#1001 : 9
Sample interrupt input once per 2*256 clocks
#1010 : 10
Sample interrupt input once per 4*256 clocks
#1011 : 11
Sample interrupt input once per 8*256 clocks
#1100 : 12
Sample interrupt input once per 16*256 clocks
#1101 : 13
Sample interrupt input once per 32*256 clocks
#1110 : 14
Sample interrupt input once per 64*256 clocks
#1111 : 15
Sample interrupt input once per 128*256 clocks
End of enumeration elements list.
DBCLKSRC : De-bounce Counter Clock Source Selection
bits : 4 - 4 (1 bit)
access : read-write
Enumeration:
#0 : 0
De-bounce counter clock source is the HCLK
#1 : 1
De-bounce counter clock source is the 10 kHz internal low speed RC oscillator (LIRC)
End of enumeration elements list.
ICLKON : Interrupt Clock on Mode
Note: It is recommended to disable this bit to save system power if no special application concern.
bits : 5 - 5 (1 bit)
access : read-write
Enumeration:
#0 : 0
Edge detection circuit is active only if I/O pin corresponding RHIEN (Px_INTEN[n+16])/FLIEN (Px_INTEN[n]) bit is set to 1
#1 : 1
All I/O pins edge detection circuit is always active after reset
End of enumeration elements list.
Interrupt Status Register
address_offset : 0x444 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PAINTSTS : Port A Interrupt Status (Read Only)
bits : 0 - 0 (1 bit)
access : read-only
Enumeration:
#0 : 0
No interrupt at PA.n
#1 : 1
PA.n generates an interrupt
End of enumeration elements list.
PBINTSTS : Port B Interrupt Status (Read Only)
bits : 1 - 1 (1 bit)
access : read-only
Enumeration:
#0 : 0
No interrupt at PB.n
#1 : 1
PB.n generates an interrupt
End of enumeration elements list.
PCINTSTS : Port C Interrupt Status (Read Only)
bits : 2 - 2 (1 bit)
access : read-only
Enumeration:
#0 : 0
No interrupt at PC.n
#1 : 1
PC.n generates an interrupt
End of enumeration elements list.
PDINTSTS : Port D Interrupt Status (Read Only)
bits : 3 - 3 (1 bit)
access : read-only
Enumeration:
#0 : 0
No interrupt at PD.n
#1 : 1
PD.n generates an interrupt
End of enumeration elements list.
PB Data Output Value
address_offset : 0x48 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PB Data Output Write Mask
address_offset : 0x4C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PB Pin Value
address_offset : 0x50 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PB De-bounce Enable Control Register
address_offset : 0x54 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PB Interrupt Trigger Type Control
address_offset : 0x58 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PB Interrupt Enable Control Register
address_offset : 0x5C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PB Interrupt Source Flag
address_offset : 0x60 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PB Input Schmitt Trigger Enable Register
address_offset : 0x64 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PB High Slew Rate Control Register
address_offset : 0x68 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PB Pull-up and Pull-down Selection Register
address_offset : 0x70 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PA Data Output Value
address_offset : 0x8 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
DOUT0 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 0 - 0 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT1 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 1 - 1 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT2 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 2 - 2 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT3 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 3 - 3 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT4 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 4 - 4 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT5 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 5 - 5 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT6 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 6 - 6 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT7 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 7 - 7 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT8 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 8 - 8 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT9 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 9 - 9 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT10 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 10 - 10 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT11 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 11 - 11 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT12 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 12 - 12 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT13 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 13 - 13 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT14 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 14 - 14 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
DOUT15 : Port A-D Pin[n] Output Value
Each of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode.
bits : 15 - 15 (1 bit)
access : read-write
Enumeration:
#0 : 0
Px.n will drive Low if the Px.n pin is configured as Push-pull output, Open-drain output or Quasi-bidirectional mode
#1 : 1
Px.n will drive High if the Px.n pin is configured as Push-pull output or Quasi-bidirectional mode
End of enumeration elements list.
PC I/O Mode Control
address_offset : 0x80 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x800 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PDIO : GPIO Px.N Pin Data Input/Output
Writing this bit can control one GPIO pin output value.
bits : 0 - 0 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding GPIO pin set to low
#1 : 1
Corresponding GPIO pin set to high
End of enumeration elements list.
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x804 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x808 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x80C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x810 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x814 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x818 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x81C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x820 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x824 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x828 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x82C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x830 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x834 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x838 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PA.n Pin Data Input/Output Register
address_offset : 0x83C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PC Digital Input Path Disable Control
address_offset : 0x84 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x840 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x844 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x848 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x84C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x850 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x854 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x858 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x85C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x860 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x864 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x868 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x86C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x870 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x874 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x878 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PB.n Pin Data Input/Output Register
address_offset : 0x87C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PC Data Output Value
address_offset : 0x88 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x880 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x884 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x888 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x88C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x890 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x894 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x898 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x89C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x8A0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x8A4 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x8A8 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x8AC Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x8B0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x8B4 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x8B8 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PC.n Pin Data Input/Output Register
address_offset : 0x8BC Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PC Data Output Write Mask
address_offset : 0x8C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8C0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8C4 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8C8 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8CC Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8D0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8D4 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8D8 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8DC Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8E0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8E4 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8E8 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8EC Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8F0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8F4 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8F8 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
GPIO PD.n Pin Data Input/Output Register
address_offset : 0x8FC Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PC Pin Value
address_offset : 0x90 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PC De-bounce Enable Control Register
address_offset : 0x94 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PC Interrupt Trigger Type Control
address_offset : 0x98 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PC Interrupt Enable Control Register
address_offset : 0x9C Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PC Interrupt Source Flag
address_offset : 0xA0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PC Input Schmitt Trigger Enable Register
address_offset : 0xA4 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PC High Slew Rate Control Register
address_offset : 0xA8 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PC Pull-up and Pull-down Selection Register
address_offset : 0xB0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PA Data Output Write Mask
address_offset : 0xC Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
DATMSK0 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 0 - 0 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK1 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 1 - 1 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK2 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 2 - 2 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK3 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 3 - 3 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK4 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 4 - 4 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK5 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 5 - 5 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK6 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 6 - 6 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK7 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 7 - 7 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK8 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 8 - 8 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK9 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 9 - 9 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK10 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 10 - 10 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK11 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 11 - 11 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK12 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 12 - 12 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK13 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 13 - 13 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK14 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 14 - 14 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
DATMSK15 : Port A-D Pin[n] Data Output Write Mask
These bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit. When the DATMSK (Px_DATMSK[n]) bit is set to 1, the corresponding DOUT (Px_DOUT[n]) bit is protected. If the write signal is masked, writing data to the protect bit is ignored.
bits : 15 - 15 (1 bit)
access : read-write
Enumeration:
#0 : 0
Corresponding DOUT (Px_DOUT[n]) bit can be updated
#1 : 1
Corresponding DOUT (Px_DOUT[n]) bit protected
End of enumeration elements list.
PD I/O Mode Control
address_offset : 0xC0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PD Digital Input Path Disable Control
address_offset : 0xC4 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PD Data Output Value
address_offset : 0xC8 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PD Data Output Write Mask
address_offset : 0xCC Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PD Pin Value
address_offset : 0xD0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PD De-bounce Enable Control Register
address_offset : 0xD4 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PD Interrupt Trigger Type Control
address_offset : 0xD8 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PD Interrupt Enable Control Register
address_offset : 0xDC Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PD Interrupt Source Flag
address_offset : 0xE0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PD Input Schmitt Trigger Enable Register
address_offset : 0xE4 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PD High Slew Rate Control Register
address_offset : 0xE8 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
PD Pull-up and Pull-down Selection Register
address_offset : 0xF0 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0
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