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GINT0

Peripheral Memory Blocks

address_offset : 0x0 Bytes (0x0)
size : 0xFFF byte (0x0)
mem_usage : registers
protection : not protected

Registers

CTRL

PORT_ENA[%s] (PORT_ENA[2])

PORT_POL0

PORT_POL1

PORT_POL2

PORT_POL[%s] (PORT_POL[0])

PORT_ENA0

PORT_ENA1

PORT_ENA2

PORT_POL[%s] (PORT_POL[1])

PORT_ENA[%s] (PORT_ENA[0])

PORT_POL[%s] (PORT_POL[2])

PORT_ENA[%s] (PORT_ENA[1])


CTRL

GPIO grouped interrupt control register
address_offset : 0x0 Bytes (0x0)
access : read-write
reset_value : 0x0
reset_Mask : 0x0

CTRL CTRL read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 INT COMB TRIG RESERVED

INT : Group interrupt status. This bit is cleared by writing a one to it. Writing zero has no effect.
bits : 0 - 0 (1 bit)

Enumeration: ENUM

0 : NO_INTERRUPT_REQUEST

No interrupt request is pending.

1 : INTERRUPT_REQUEST_IS

Interrupt request is active.

End of enumeration elements list.

COMB : Combine enabled inputs for group interrupt
bits : 1 - 2 (2 bit)

Enumeration: ENUM

0 : OR_FUNCTIONALITY_A_

OR functionality: A grouped interrupt is generated when any one of the enabled inputs is active (based on its programmed polarity).

1 : AND_FUNCTIONALITY_A

AND functionality: An interrupt is generated when all enabled bits are active (based on their programmed polarity).

End of enumeration elements list.

TRIG : Group interrupt trigger
bits : 2 - 4 (3 bit)

Enumeration: ENUM

0 : EDGE_TRIGGERED

Edge-triggered

1 : LEVEL_TRIGGERED

Level-triggered

End of enumeration elements list.

RESERVED : Reserved
bits : 3 - 34 (32 bit)


PORT_ENA[%s] (PORT_ENA[2])

GPIO grouped interrupt port enable register
address_offset : 0x10C Bytes (0x0)
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_ENA[%s] PORT_ENA[%s] read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ENA0 ENA1 ENA2 ENA3 ENA4 ENA5 ENA6 ENA7 ENA8 ENA9 ENA10 ENA11 ENA12 ENA13 ENA14 ENA15 ENA16 ENA17 ENA18 ENA19 ENA20 ENA21 ENA22 ENA23 ENA24 ENA25 ENA26 ENA27 ENA28 ENA29 ENA30 ENA31

ENA0 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 0 - 0 (1 bit)

ENA1 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 1 - 2 (2 bit)

ENA2 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 2 - 4 (3 bit)

ENA3 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 3 - 6 (4 bit)

ENA4 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 4 - 8 (5 bit)

ENA5 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 5 - 10 (6 bit)

ENA6 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 6 - 12 (7 bit)

ENA7 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 7 - 14 (8 bit)

ENA8 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 8 - 16 (9 bit)

ENA9 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 9 - 18 (10 bit)

ENA10 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 10 - 20 (11 bit)

ENA11 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 11 - 22 (12 bit)

ENA12 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 12 - 24 (13 bit)

ENA13 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 13 - 26 (14 bit)

ENA14 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 14 - 28 (15 bit)

ENA15 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 15 - 30 (16 bit)

ENA16 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 16 - 32 (17 bit)

ENA17 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 17 - 34 (18 bit)

ENA18 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 18 - 36 (19 bit)

ENA19 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 19 - 38 (20 bit)

ENA20 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 20 - 40 (21 bit)

ENA21 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 21 - 42 (22 bit)

ENA22 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 22 - 44 (23 bit)

ENA23 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 23 - 46 (24 bit)

ENA24 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 24 - 48 (25 bit)

ENA25 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 25 - 50 (26 bit)

ENA26 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 26 - 52 (27 bit)

ENA27 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 27 - 54 (28 bit)

ENA28 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 28 - 56 (29 bit)

ENA29 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 29 - 58 (30 bit)

ENA30 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 30 - 60 (31 bit)

ENA31 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 31 - 62 (32 bit)


PORT_POL0

GPIO grouped interrupt port 0 polarity register
address_offset : 0x20 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_POL0 PORT_POL0 read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 POL0 POL1 POL2 POL3 POL4 POL5 POL6 POL7 POL8 POL9 POL10 POL11 POL12 POL13 POL14 POL15 POL16 POL17 POL18 POL19 POL20 POL21 POL22 POL23 POL24 POL25 POL26 POL27 POL28 POL29 POL30 POL31

POL0 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 0 - 0 (1 bit)

POL1 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 1 - 2 (2 bit)

POL2 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 2 - 4 (3 bit)

POL3 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 3 - 6 (4 bit)

POL4 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 4 - 8 (5 bit)

POL5 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 5 - 10 (6 bit)

POL6 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 6 - 12 (7 bit)

POL7 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 7 - 14 (8 bit)

POL8 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 8 - 16 (9 bit)

POL9 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 9 - 18 (10 bit)

POL10 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 10 - 20 (11 bit)

POL11 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 11 - 22 (12 bit)

POL12 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 12 - 24 (13 bit)

POL13 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 13 - 26 (14 bit)

POL14 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 14 - 28 (15 bit)

POL15 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 15 - 30 (16 bit)

POL16 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 16 - 32 (17 bit)

POL17 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 17 - 34 (18 bit)

POL18 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 18 - 36 (19 bit)

POL19 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 19 - 38 (20 bit)

POL20 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 20 - 40 (21 bit)

POL21 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 21 - 42 (22 bit)

POL22 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 22 - 44 (23 bit)

POL23 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 23 - 46 (24 bit)

POL24 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 24 - 48 (25 bit)

POL25 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 25 - 50 (26 bit)

POL26 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 26 - 52 (27 bit)

POL27 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 27 - 54 (28 bit)

POL28 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 28 - 56 (29 bit)

POL29 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 29 - 58 (30 bit)

POL30 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 30 - 60 (31 bit)

POL31 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 31 - 62 (32 bit)


PORT_POL1

GPIO grouped interrupt port 0 polarity register
address_offset : 0x24 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_POL1 PORT_POL1 read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 POL0 POL1 POL2 POL3 POL4 POL5 POL6 POL7 POL8 POL9 POL10 POL11 POL12 POL13 POL14 POL15 POL16 POL17 POL18 POL19 POL20 POL21 POL22 POL23 POL24 POL25 POL26 POL27 POL28 POL29 POL30 POL31

POL0 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 0 - 0 (1 bit)

POL1 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 1 - 2 (2 bit)

POL2 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 2 - 4 (3 bit)

POL3 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 3 - 6 (4 bit)

POL4 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 4 - 8 (5 bit)

POL5 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 5 - 10 (6 bit)

POL6 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 6 - 12 (7 bit)

POL7 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 7 - 14 (8 bit)

POL8 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 8 - 16 (9 bit)

POL9 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 9 - 18 (10 bit)

POL10 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 10 - 20 (11 bit)

POL11 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 11 - 22 (12 bit)

POL12 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 12 - 24 (13 bit)

POL13 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 13 - 26 (14 bit)

POL14 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 14 - 28 (15 bit)

POL15 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 15 - 30 (16 bit)

POL16 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 16 - 32 (17 bit)

POL17 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 17 - 34 (18 bit)

POL18 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 18 - 36 (19 bit)

POL19 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 19 - 38 (20 bit)

POL20 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 20 - 40 (21 bit)

POL21 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 21 - 42 (22 bit)

POL22 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 22 - 44 (23 bit)

POL23 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 23 - 46 (24 bit)

POL24 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 24 - 48 (25 bit)

POL25 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 25 - 50 (26 bit)

POL26 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 26 - 52 (27 bit)

POL27 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 27 - 54 (28 bit)

POL28 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 28 - 56 (29 bit)

POL29 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 29 - 58 (30 bit)

POL30 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 30 - 60 (31 bit)

POL31 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 31 - 62 (32 bit)


PORT_POL2

GPIO grouped interrupt port 0 polarity register
address_offset : 0x28 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_POL2 PORT_POL2 read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 POL0 POL1 POL2 POL3 POL4 POL5 POL6 POL7 POL8 POL9 POL10 POL11 POL12 POL13 POL14 POL15 POL16 POL17 POL18 POL19 POL20 POL21 POL22 POL23 POL24 POL25 POL26 POL27 POL28 POL29 POL30 POL31

POL0 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 0 - 0 (1 bit)

POL1 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 1 - 2 (2 bit)

POL2 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 2 - 4 (3 bit)

POL3 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 3 - 6 (4 bit)

POL4 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 4 - 8 (5 bit)

POL5 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 5 - 10 (6 bit)

POL6 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 6 - 12 (7 bit)

POL7 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 7 - 14 (8 bit)

POL8 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 8 - 16 (9 bit)

POL9 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 9 - 18 (10 bit)

POL10 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 10 - 20 (11 bit)

POL11 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 11 - 22 (12 bit)

POL12 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 12 - 24 (13 bit)

POL13 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 13 - 26 (14 bit)

POL14 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 14 - 28 (15 bit)

POL15 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 15 - 30 (16 bit)

POL16 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 16 - 32 (17 bit)

POL17 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 17 - 34 (18 bit)

POL18 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 18 - 36 (19 bit)

POL19 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 19 - 38 (20 bit)

POL20 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 20 - 40 (21 bit)

POL21 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 21 - 42 (22 bit)

POL22 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 22 - 44 (23 bit)

POL23 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 23 - 46 (24 bit)

POL24 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 24 - 48 (25 bit)

POL25 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 25 - 50 (26 bit)

POL26 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 26 - 52 (27 bit)

POL27 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 27 - 54 (28 bit)

POL28 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 28 - 56 (29 bit)

POL29 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 29 - 58 (30 bit)

POL30 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 30 - 60 (31 bit)

POL31 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 31 - 62 (32 bit)


PORT_POL[%s] (PORT_POL[0])

GPIO grouped interrupt port 0 polarity register
address_offset : 0x40 Bytes (0x0)
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_POL[%s] PORT_POL[%s] read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 POL0 POL1 POL2 POL3 POL4 POL5 POL6 POL7 POL8 POL9 POL10 POL11 POL12 POL13 POL14 POL15 POL16 POL17 POL18 POL19 POL20 POL21 POL22 POL23 POL24 POL25 POL26 POL27 POL28 POL29 POL30 POL31

POL0 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 0 - 0 (1 bit)

POL1 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 1 - 2 (2 bit)

POL2 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 2 - 4 (3 bit)

POL3 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 3 - 6 (4 bit)

POL4 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 4 - 8 (5 bit)

POL5 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 5 - 10 (6 bit)

POL6 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 6 - 12 (7 bit)

POL7 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 7 - 14 (8 bit)

POL8 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 8 - 16 (9 bit)

POL9 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 9 - 18 (10 bit)

POL10 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 10 - 20 (11 bit)

POL11 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 11 - 22 (12 bit)

POL12 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 12 - 24 (13 bit)

POL13 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 13 - 26 (14 bit)

POL14 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 14 - 28 (15 bit)

POL15 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 15 - 30 (16 bit)

POL16 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 16 - 32 (17 bit)

POL17 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 17 - 34 (18 bit)

POL18 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 18 - 36 (19 bit)

POL19 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 19 - 38 (20 bit)

POL20 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 20 - 40 (21 bit)

POL21 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 21 - 42 (22 bit)

POL22 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 22 - 44 (23 bit)

POL23 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 23 - 46 (24 bit)

POL24 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 24 - 48 (25 bit)

POL25 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 25 - 50 (26 bit)

POL26 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 26 - 52 (27 bit)

POL27 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 27 - 54 (28 bit)

POL28 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 28 - 56 (29 bit)

POL29 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 29 - 58 (30 bit)

POL30 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 30 - 60 (31 bit)

POL31 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 31 - 62 (32 bit)


PORT_ENA0

GPIO grouped interrupt port enable register
address_offset : 0x40 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_ENA0 PORT_ENA0 read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ENA0 ENA1 ENA2 ENA3 ENA4 ENA5 ENA6 ENA7 ENA8 ENA9 ENA10 ENA11 ENA12 ENA13 ENA14 ENA15 ENA16 ENA17 ENA18 ENA19 ENA20 ENA21 ENA22 ENA23 ENA24 ENA25 ENA26 ENA27 ENA28 ENA29 ENA30 ENA31

ENA0 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 0 - 0 (1 bit)

ENA1 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 1 - 2 (2 bit)

ENA2 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 2 - 4 (3 bit)

ENA3 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 3 - 6 (4 bit)

ENA4 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 4 - 8 (5 bit)

ENA5 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 5 - 10 (6 bit)

ENA6 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 6 - 12 (7 bit)

ENA7 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 7 - 14 (8 bit)

ENA8 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 8 - 16 (9 bit)

ENA9 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 9 - 18 (10 bit)

ENA10 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 10 - 20 (11 bit)

ENA11 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 11 - 22 (12 bit)

ENA12 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 12 - 24 (13 bit)

ENA13 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 13 - 26 (14 bit)

ENA14 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 14 - 28 (15 bit)

ENA15 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 15 - 30 (16 bit)

ENA16 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 16 - 32 (17 bit)

ENA17 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 17 - 34 (18 bit)

ENA18 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 18 - 36 (19 bit)

ENA19 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 19 - 38 (20 bit)

ENA20 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 20 - 40 (21 bit)

ENA21 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 21 - 42 (22 bit)

ENA22 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 22 - 44 (23 bit)

ENA23 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 23 - 46 (24 bit)

ENA24 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 24 - 48 (25 bit)

ENA25 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 25 - 50 (26 bit)

ENA26 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 26 - 52 (27 bit)

ENA27 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 27 - 54 (28 bit)

ENA28 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 28 - 56 (29 bit)

ENA29 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 29 - 58 (30 bit)

ENA30 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 30 - 60 (31 bit)

ENA31 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 31 - 62 (32 bit)


PORT_ENA1

GPIO grouped interrupt port enable register
address_offset : 0x44 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_ENA1 PORT_ENA1 read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ENA0 ENA1 ENA2 ENA3 ENA4 ENA5 ENA6 ENA7 ENA8 ENA9 ENA10 ENA11 ENA12 ENA13 ENA14 ENA15 ENA16 ENA17 ENA18 ENA19 ENA20 ENA21 ENA22 ENA23 ENA24 ENA25 ENA26 ENA27 ENA28 ENA29 ENA30 ENA31

ENA0 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 0 - 0 (1 bit)

ENA1 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 1 - 2 (2 bit)

ENA2 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 2 - 4 (3 bit)

ENA3 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 3 - 6 (4 bit)

ENA4 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 4 - 8 (5 bit)

ENA5 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 5 - 10 (6 bit)

ENA6 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 6 - 12 (7 bit)

ENA7 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 7 - 14 (8 bit)

ENA8 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 8 - 16 (9 bit)

ENA9 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 9 - 18 (10 bit)

ENA10 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 10 - 20 (11 bit)

ENA11 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 11 - 22 (12 bit)

ENA12 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 12 - 24 (13 bit)

ENA13 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 13 - 26 (14 bit)

ENA14 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 14 - 28 (15 bit)

ENA15 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 15 - 30 (16 bit)

ENA16 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 16 - 32 (17 bit)

ENA17 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 17 - 34 (18 bit)

ENA18 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 18 - 36 (19 bit)

ENA19 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 19 - 38 (20 bit)

ENA20 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 20 - 40 (21 bit)

ENA21 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 21 - 42 (22 bit)

ENA22 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 22 - 44 (23 bit)

ENA23 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 23 - 46 (24 bit)

ENA24 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 24 - 48 (25 bit)

ENA25 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 25 - 50 (26 bit)

ENA26 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 26 - 52 (27 bit)

ENA27 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 27 - 54 (28 bit)

ENA28 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 28 - 56 (29 bit)

ENA29 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 29 - 58 (30 bit)

ENA30 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 30 - 60 (31 bit)

ENA31 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 31 - 62 (32 bit)


PORT_ENA2

GPIO grouped interrupt port enable register
address_offset : 0x48 Bytes (0x0)
size : -1 bit
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_ENA2 PORT_ENA2 read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ENA0 ENA1 ENA2 ENA3 ENA4 ENA5 ENA6 ENA7 ENA8 ENA9 ENA10 ENA11 ENA12 ENA13 ENA14 ENA15 ENA16 ENA17 ENA18 ENA19 ENA20 ENA21 ENA22 ENA23 ENA24 ENA25 ENA26 ENA27 ENA28 ENA29 ENA30 ENA31

ENA0 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 0 - 0 (1 bit)

ENA1 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 1 - 2 (2 bit)

ENA2 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 2 - 4 (3 bit)

ENA3 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 3 - 6 (4 bit)

ENA4 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 4 - 8 (5 bit)

ENA5 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 5 - 10 (6 bit)

ENA6 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 6 - 12 (7 bit)

ENA7 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 7 - 14 (8 bit)

ENA8 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 8 - 16 (9 bit)

ENA9 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 9 - 18 (10 bit)

ENA10 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 10 - 20 (11 bit)

ENA11 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 11 - 22 (12 bit)

ENA12 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 12 - 24 (13 bit)

ENA13 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 13 - 26 (14 bit)

ENA14 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 14 - 28 (15 bit)

ENA15 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 15 - 30 (16 bit)

ENA16 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 16 - 32 (17 bit)

ENA17 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 17 - 34 (18 bit)

ENA18 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 18 - 36 (19 bit)

ENA19 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 19 - 38 (20 bit)

ENA20 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 20 - 40 (21 bit)

ENA21 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 21 - 42 (22 bit)

ENA22 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 22 - 44 (23 bit)

ENA23 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 23 - 46 (24 bit)

ENA24 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 24 - 48 (25 bit)

ENA25 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 25 - 50 (26 bit)

ENA26 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 26 - 52 (27 bit)

ENA27 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 27 - 54 (28 bit)

ENA28 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 28 - 56 (29 bit)

ENA29 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 29 - 58 (30 bit)

ENA30 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 30 - 60 (31 bit)

ENA31 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 31 - 62 (32 bit)


PORT_POL[%s] (PORT_POL[1])

GPIO grouped interrupt port 0 polarity register
address_offset : 0x64 Bytes (0x0)
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_POL[%s] PORT_POL[%s] read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 POL0 POL1 POL2 POL3 POL4 POL5 POL6 POL7 POL8 POL9 POL10 POL11 POL12 POL13 POL14 POL15 POL16 POL17 POL18 POL19 POL20 POL21 POL22 POL23 POL24 POL25 POL26 POL27 POL28 POL29 POL30 POL31

POL0 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 0 - 0 (1 bit)

POL1 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 1 - 2 (2 bit)

POL2 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 2 - 4 (3 bit)

POL3 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 3 - 6 (4 bit)

POL4 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 4 - 8 (5 bit)

POL5 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 5 - 10 (6 bit)

POL6 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 6 - 12 (7 bit)

POL7 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 7 - 14 (8 bit)

POL8 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 8 - 16 (9 bit)

POL9 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 9 - 18 (10 bit)

POL10 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 10 - 20 (11 bit)

POL11 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 11 - 22 (12 bit)

POL12 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 12 - 24 (13 bit)

POL13 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 13 - 26 (14 bit)

POL14 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 14 - 28 (15 bit)

POL15 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 15 - 30 (16 bit)

POL16 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 16 - 32 (17 bit)

POL17 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 17 - 34 (18 bit)

POL18 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 18 - 36 (19 bit)

POL19 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 19 - 38 (20 bit)

POL20 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 20 - 40 (21 bit)

POL21 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 21 - 42 (22 bit)

POL22 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 22 - 44 (23 bit)

POL23 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 23 - 46 (24 bit)

POL24 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 24 - 48 (25 bit)

POL25 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 25 - 50 (26 bit)

POL26 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 26 - 52 (27 bit)

POL27 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 27 - 54 (28 bit)

POL28 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 28 - 56 (29 bit)

POL29 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 29 - 58 (30 bit)

POL30 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 30 - 60 (31 bit)

POL31 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 31 - 62 (32 bit)


PORT_ENA[%s] (PORT_ENA[0])

GPIO grouped interrupt port enable register
address_offset : 0x80 Bytes (0x0)
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_ENA[%s] PORT_ENA[%s] read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ENA0 ENA1 ENA2 ENA3 ENA4 ENA5 ENA6 ENA7 ENA8 ENA9 ENA10 ENA11 ENA12 ENA13 ENA14 ENA15 ENA16 ENA17 ENA18 ENA19 ENA20 ENA21 ENA22 ENA23 ENA24 ENA25 ENA26 ENA27 ENA28 ENA29 ENA30 ENA31

ENA0 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 0 - 0 (1 bit)

ENA1 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 1 - 2 (2 bit)

ENA2 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 2 - 4 (3 bit)

ENA3 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 3 - 6 (4 bit)

ENA4 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 4 - 8 (5 bit)

ENA5 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 5 - 10 (6 bit)

ENA6 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 6 - 12 (7 bit)

ENA7 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 7 - 14 (8 bit)

ENA8 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 8 - 16 (9 bit)

ENA9 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 9 - 18 (10 bit)

ENA10 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 10 - 20 (11 bit)

ENA11 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 11 - 22 (12 bit)

ENA12 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 12 - 24 (13 bit)

ENA13 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 13 - 26 (14 bit)

ENA14 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 14 - 28 (15 bit)

ENA15 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 15 - 30 (16 bit)

ENA16 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 16 - 32 (17 bit)

ENA17 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 17 - 34 (18 bit)

ENA18 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 18 - 36 (19 bit)

ENA19 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 19 - 38 (20 bit)

ENA20 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 20 - 40 (21 bit)

ENA21 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 21 - 42 (22 bit)

ENA22 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 22 - 44 (23 bit)

ENA23 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 23 - 46 (24 bit)

ENA24 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 24 - 48 (25 bit)

ENA25 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 25 - 50 (26 bit)

ENA26 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 26 - 52 (27 bit)

ENA27 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 27 - 54 (28 bit)

ENA28 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 28 - 56 (29 bit)

ENA29 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 29 - 58 (30 bit)

ENA30 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 30 - 60 (31 bit)

ENA31 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 31 - 62 (32 bit)


PORT_POL[%s] (PORT_POL[2])

GPIO grouped interrupt port 0 polarity register
address_offset : 0x8C Bytes (0x0)
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_POL[%s] PORT_POL[%s] read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 POL0 POL1 POL2 POL3 POL4 POL5 POL6 POL7 POL8 POL9 POL10 POL11 POL12 POL13 POL14 POL15 POL16 POL17 POL18 POL19 POL20 POL21 POL22 POL23 POL24 POL25 POL26 POL27 POL28 POL29 POL30 POL31

POL0 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 0 - 0 (1 bit)

POL1 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 1 - 2 (2 bit)

POL2 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 2 - 4 (3 bit)

POL3 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 3 - 6 (4 bit)

POL4 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 4 - 8 (5 bit)

POL5 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 5 - 10 (6 bit)

POL6 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 6 - 12 (7 bit)

POL7 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 7 - 14 (8 bit)

POL8 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 8 - 16 (9 bit)

POL9 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 9 - 18 (10 bit)

POL10 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 10 - 20 (11 bit)

POL11 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 11 - 22 (12 bit)

POL12 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 12 - 24 (13 bit)

POL13 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 13 - 26 (14 bit)

POL14 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 14 - 28 (15 bit)

POL15 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 15 - 30 (16 bit)

POL16 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 16 - 32 (17 bit)

POL17 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 17 - 34 (18 bit)

POL18 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 18 - 36 (19 bit)

POL19 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 19 - 38 (20 bit)

POL20 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 20 - 40 (21 bit)

POL21 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 21 - 42 (22 bit)

POL22 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 22 - 44 (23 bit)

POL23 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 23 - 46 (24 bit)

POL24 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 24 - 48 (25 bit)

POL25 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 25 - 50 (26 bit)

POL26 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 26 - 52 (27 bit)

POL27 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 27 - 54 (28 bit)

POL28 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 28 - 56 (29 bit)

POL29 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 29 - 58 (30 bit)

POL30 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 30 - 60 (31 bit)

POL31 : Configure pin polarity of port m pins for group interrupt. Bit n corresponds to pin PIOm_n of port m. 0 = the pin is active LOW. If the level on this pin is LOW, the pin contributes to the group interrupt. 1 = the pin is active HIGH. If the level on this pin is HIGH, the pin contributes to the group interrupt.
bits : 31 - 62 (32 bit)


PORT_ENA[%s] (PORT_ENA[1])

GPIO grouped interrupt port enable register
address_offset : 0xC4 Bytes (0x0)
access : read-write
reset_value : 0x0
reset_Mask : 0x0

PORT_ENA[%s] PORT_ENA[%s] read-write 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Resets to Resets to 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ENA0 ENA1 ENA2 ENA3 ENA4 ENA5 ENA6 ENA7 ENA8 ENA9 ENA10 ENA11 ENA12 ENA13 ENA14 ENA15 ENA16 ENA17 ENA18 ENA19 ENA20 ENA21 ENA22 ENA23 ENA24 ENA25 ENA26 ENA27 ENA28 ENA29 ENA30 ENA31

ENA0 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 0 - 0 (1 bit)

ENA1 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 1 - 2 (2 bit)

ENA2 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 2 - 4 (3 bit)

ENA3 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 3 - 6 (4 bit)

ENA4 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 4 - 8 (5 bit)

ENA5 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 5 - 10 (6 bit)

ENA6 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 6 - 12 (7 bit)

ENA7 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 7 - 14 (8 bit)

ENA8 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 8 - 16 (9 bit)

ENA9 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 9 - 18 (10 bit)

ENA10 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 10 - 20 (11 bit)

ENA11 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 11 - 22 (12 bit)

ENA12 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 12 - 24 (13 bit)

ENA13 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 13 - 26 (14 bit)

ENA14 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 14 - 28 (15 bit)

ENA15 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 15 - 30 (16 bit)

ENA16 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 16 - 32 (17 bit)

ENA17 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 17 - 34 (18 bit)

ENA18 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 18 - 36 (19 bit)

ENA19 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 19 - 38 (20 bit)

ENA20 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 20 - 40 (21 bit)

ENA21 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 21 - 42 (22 bit)

ENA22 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 22 - 44 (23 bit)

ENA23 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 23 - 46 (24 bit)

ENA24 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 24 - 48 (25 bit)

ENA25 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 25 - 50 (26 bit)

ENA26 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 26 - 52 (27 bit)

ENA27 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 27 - 54 (28 bit)

ENA28 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 28 - 56 (29 bit)

ENA29 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 29 - 58 (30 bit)

ENA30 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 30 - 60 (31 bit)

ENA31 : Enable port 0 pin for group interrupt. Bit n corresponds to pin Pm_n of port m. 0 = the port 0 pin is disabled and does not contribute to the grouped interrupt. 1 = the port 0 pin is enabled and contributes to the grouped interrupt.
bits : 31 - 62 (32 bit)



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