RESERVED

These 7 bits represents major revision ID. For TIC12400-Q1 the major revision ID is 2h.

These 4 bits represents minor revision ID. For TIC12400-Q1 the minor revision ID is 0h

RESERVED

0h = Default factory setting is successfully loaded upon device initialization or the event status got cleared after a READ command was executed on the INT_STAT register.

1h = An error is detected when loading factory settings into the device upon device initialization.

During device initialization, factory settings are programmed into the device to allow proper device operation. The device performs a self-check after the device is programmed to diagnose whether correct settings are loaded. If the self-check returns an error, the CHK_FAIL bit is flagged to logic 1 along with the POR bit. The host controller is then recommended to initiate a software reset (see section Software Reset) to re-initialize the device and allow correct settings to be re-programmed.

0h = No ADC self-diagnostic error is detected or the event status got cleared after a READ command was executed on the INT_STAT register.

1h = ADC self-diagnostic error is detected.

The ADC Self-Diagnostic feature (see section ADC Self-Diagnostic) can be activated to monitor the integrity of the internal ADC. The ADC_DIAG bit is flagged to logic 1 if an ADC error is diagnosed.

0h = No wetting current error is detected, or the event status got cleared after a READ command was executed on the INT_STAT register.

1h = Wetting current error is detected.

The Wetting Current Diagnostic feature (see section Wetting Current Diagnostic) can be activated to monitor the integrity of the internal current sources or sinks. The WET_DIAG bit is flagged to logic 1 if a wetting current error is diagnosed.

0h = No V_S voltage state change occurred with respect to VS1_THRES2A or VS1_THRES2B or the status got cleared after a READ command was executed on the INT_STAT register.

1h = V_S voltage state change occurred with respect to VS1_THRES2A or VS1_THRES2B.

The VS1 interrupt bit indicates whether V_S voltage state change occurred with respect to thresholds VS1_THRES2A and VS1_THRES2B if the V_S Measurement feature (see section VS Measurement) is activated.

0h = No V_S voltage state change occurred with respect to VS0_THRES2A or VS0_THRES2B or the status got cleared after a READ command was executed on the INT_STAT register.

1h = V_S voltage state change occurred with respect to VS0_THRES2A or VS0_THRES2B.

The VS0 interrupt bit indicates whether V_S voltage state change occurred with respect to thresholds VS0_THRES2A and VS0_THRES2B if the V_S Measurement feature (see section VS Measurement) is activated.

0h = CRC calculation is running, not started, or was acknowledged after a READ command was executed on the INT_STAT register.

1h = CRC calculation is finished.

CRC calculation (see section Cyclic Redundancy Check (CRC)) can be triggered to make sure correct register values are programmed into the device. Once the calculation is completed, the CRC_CALC bit is flagged to logic 1 to indicate completion of the calculation, and the result can then be accessed from the CRC (offset = 3h) register.

0h = No under-voltage condition occurred or cleared on the V_S pin, or the event status got cleared after a READ command was executed on the INT_STAT register.

1h = Under-voltage condition occurred or cleared on the V_S pin.

When the UV bit is flagged to logic 1, it indicates the Under-Voltage (UV) event has occurred. The bit is also flagged to logic 1 when the event clears. For more details about the UV operation, please refer to section VS under-voltage (UV) condition.

0h = No over-voltage condition occurred or cleared on the V_S pin, or the event status got cleared after a READ command was executed on the INT_STAT register.

1h = Over-voltage condition occurred or cleared on the V_S pin.

When the OV bit is flagged to logic 1, it indicates the Over-Voltage (OV) event has occurred. The bit is also flagged to logic 1 when the event clears. For more details about the OV operation, please refer to section VS over-voltage (OV) condition.

0h = No temperature warning event occurred or the event status got cleared after a READ command was executed on the INT_STAT register.

1h = Temperature warning event occurred or cleared.

When the TW bit is flagged to logic 1, it indicates the temperature warning event has occurred. The bit is also flagged to logic 1 when the event clears. For more details about the temperature warning operation, please refer to section Temperature Warning (TW)

0h = No temperature Shutdown event occurred or the event status got cleared after a READ command was executed on the INT_STAT register.

1h = Temperature Shutdown event occurred or cleared.

When the TSD bit is flagged to logic 1, it indicates the temperature shutdown event has occurred. The bit is also flagged to logic 1 when the event clears. For more details about the temperature shutdown operation, please refer to section Temperature shutdown (TSD)

0h = No switch state change occurred or the status got cleared after a READ command was executed on the INT_STAT register.

1h = Switch state change occurred.

The Switch State Change (SSC) bit indicates whether input threshold crossing has occurred from switch inputs IN0 to IN23. This bit is also flagged to logic 1 after the first polling cycle is completed after device polling is triggered.

0h = No parity error occurred in the last received SI stream or the error status got cleared after a READ command was executed on the INT_STAT register.

1h = Parity error occurred.

When the PRTY_FAIL bit is flagged to logic 1, it indicates the last SPI responder in (SI) transaction has a parity error. The device uses odd parity. If the total number of ones in the received data (including the parity bit) is an even number, the received data is discarded. The value of this register bit is mirrored to the PRTY_FLAG SPI status flag.

0h = 32 clock pulse during a CS = low sequence was detected or the error status got cleared after a READ command was executed on the INT_STAT register.

1h = SPI error occurred

When the SPI_FAIL bit is flagged to logic 1, it indicates the last SPI responder in (SI) transaction is invalid. To program a complete word, 32 bits of information must be entered into the device. The SPI logic counts the number of bits clocked into the IC and enables data latching only if exactly 32 bits have been clocked in. In case the word length exceeds or does not meet the required length, the SPI_FAIL bit is flagged to logic 1, and the data received is considered invalid. The value of this register bit is mirrored to the SPI_FLAG SPI status flag. Note the SPI_FAIL bit is not flagged if SCLK is not present.

0h = no Power-On-Reset (POR) event occurred or the status got cleared after a READ command was executed on the INT_STAT register.

1h = Power-On-Reset (POR) event occurred.

The Power-On-Reset (POR) interrupt bit indicates whether a reset event has occurred. A reset event sets the registers to their default values and re-initializes the device state machine. This bit is asserted after a successful power-on-reset, hardware reset, or software reset. The value of this register bit is mirrored to the POR SPI status flag.

Reserved

CRC-16-CCITT calculation result: Bit1: LSB of CRC Bit16: MSB or CRC

Reserved

0h = No error is identified from ADC self-diagnostic.

1h = An error is identified from ADC self-diagnostic.

0h = Current sink on IN3 is operational.

1h = Current sink on IN3 is abnormal.

0h = Current sink on IN2 is operational.

1h = Current sink on IN2 is abnormal.

0h = Current source on IN1 is operational.

1h = Current source on IN1 is abnormal.

0h = Current source on IN0 is operational.

1h = Current source on IN0 is abnormal.

0h = V_S voltage is below threshold VS1_THRES2A.

1h = V_S voltage is below threshold VS1_THRES2B and equal to or above threshold VS1_THRES2A.

2h = V_S voltage is equal to or above threshold VS1_THRES2B.

3h = N/A.

0h = V_S voltage is below threshold VS0_THRES2A.

1h = V_S voltage is below threshold VS0_THRES2B and equal to or above threshold VS0_THRES2A.

2h = V_S voltage is equal to or above threshold VS0_THRES2B.

3h = N/A

0h = V_S voltage is above the under-voltage condition threshold.

1h = V_S voltage is below the under-voltage condition threshold.

0h = V_S voltage is below the over-voltage condition threshold.

1h = V_S voltage is above the over-voltage condition threshold.

0h = Device junction temperature is below the temperature warning threshold T_TW.

1h = Device junction temperature is above the temperature warning threshold T_TW.

0h = Device junction temperature is below the temperature shutdown threshold T_TSD.

1h = Device junction temperature is above the temperature shutdown threshold T_TSD.

0h = Input IN23 is below the comparator threshold.

1h = Input IN23 is above the comparator threshold.

0h = Input IN22 is below the comparator threshold.

1h = Input IN22 is above the comparator threshold.

0h = Input IN21 is below the comparator threshold.

1h = Input IN21 is above the comparator threshold.

0h = Input IN20 is below the comparator threshold.

1h = Input IN20 is above the comparator threshold.

0h = Input IN19 is below the comparator threshold

1h = Input IN19 is above the comparator threshold

0h = Input IN18 is below the comparator threshold

1h = Input IN18 is above the comparator threshold

0h = Input IN17 is below the comparator threshold

1h = Input IN17 is above the comparator threshold

0h = Input IN16 is below the comparator threshold

1h = Input IN16 is above the comparator threshold

0h = Input IN15 is below the comparator threshold

1h = Input IN15 is above the comparator threshold

0h = Input IN14 is below the comparator threshold

1h = Input IN14 is above the comparator threshold

0h = Input IN13 is below the comparator threshold

1h = Input IN13 is above the comparator threshold

0h = Input IN12 is below the comparator threshold

1h = Input IN12 is above the comparator threshold

0h = Input IN11 is below the comparator threshold

1h = Input IN11 is above the comparator threshold

0h = Input IN10 is below the comparator threshold

1h = Input IN10 is above the comparator threshold

0h = Input IN9 is below the comparator threshold

1h = Input IN9 is above the comparator threshold

0h = Input IN8 is below the comparator threshold

1h = Input IN8 is above the comparator threshold

0h = Input IN7 is below the comparator threshold

1h = Input IN7 is above the comparator threshold

0h = Input IN6 is below the comparator threshold

1h = Input IN6 is above the comparator threshold

0h = Input IN5 is below the comparator threshold

1h = Input IN5 is above the comparator threshold

0h = Input IN4 is below the comparator threshold

1h = Input IN4 is above the comparator threshold

0h = Input IN3 is below the comparator threshold

1h = Input IN3 is above the comparator threshold

0h = Input IN2 is below the comparator threshold

1h = Input IN2 is above the comparator threshold

0h = Input IN1 is below the comparator threshold

1h = Input IN1 is above the comparator threshold

0h = Input IN0 is below the comparator threshold

1h = Input IN0 is above the comparator threshold

0h = Input IN17 is below threshold 2A

1h = Input IN17 is below threshold 2B and equal to or above threshold 2A

2h = Input IN17 is equal to or above threshold 2B

3h = N/A

0h = Input IN16 is below threshold 2A

1h = Input IN16 is below threshold 2B and equal to or above threshold 2A

2h = Input IN16 is equal to or above threshold 2B

3h = N/A

0h = Input IN15 is below threshold 2A

1h = Input IN15 is below threshold 2B and equal to or above threshold 2A

2h = Input IN15 is equal to or above threshold 2B

3h = N/A

0h = Input IN14 is below threshold 2A

1h = Input IN14 is below threshold 2B and equal to or above threshold 2A

2h = Input IN14 is equal to or above threshold 2B

3h = N/A

0h = Input IN13 is below threshold 2A

1h = Input IN13 is below threshold 2B and equal to or above threshold 2A

2h = Input IN13 is equal to or above threshold 2B

3h = N/A

0h = Input IN12 is below threshold 2A

1h = Input IN12 is below threshold 2B and equal to or above threshold 2A

2h = Input IN12 is equal to or above threshold 2B

3h = N/A

0h = Input IN11 is below configured threshold

1h = Input IN11 is above configured threshold

0h = Input IN10 is below configured threshold

1h = Input IN10 is above configured threshold

0h = Input IN9 is below configured threshold

1h = Input IN9 is above configured threshold

0h = Input IN8 is below configured threshold

1h = Input IN8 is above configured threshold

0h = Input IN7 is below configured threshold

1h = Input IN7 is above configured threshold

0h = Input IN6 is below configured threshold

1h = Input IN6 is above configured threshold

0h = Input IN5 is below configured threshold

1h = Input IN5 is above configured threshold

0h = Input IN4 is below configured threshold

1h = Input IN4 is above configured threshold

0h = Input IN3 is below configured threshold

1h = Input IN3 is above configured threshold

0h = Input IN2 is below configured threshold

1h = Input IN2 is above configured threshold

0h = Input IN1 is below configured threshold

1h = Input IN1 is above configured threshold

0h = Input IN0 is below configured threshold

1h = Input IN0 is above configured threshold

Reserved

0h = Input IN23 is below threshold 3A

1h = Input IN23 is below threshold 3B and equal to or above threshold 3A

2h = Input IN23 is below threshold 3C and equal to or above threshold 3B

3h = Input IN23 is below threshold THRES8 and equal to or above threshold 3C

4h = Input IN23 is below threshold THRES9 and equal to or above threshold THRES8

5h = Input IN23 is equal to or above threshold THRES9

0h = Input IN22 is below threshold 3A

1h = Input IN22 is below threshold 3B and equal to or above threshold 3A

2h = Input IN22 is below threshold 3C and equal to or above threshold 3B

3h = Input IN22 is equal to or above threshold 3C

0h = Input IN21 is below threshold 3A

1h = Input IN21 is below threshold 3B and equal to or above threshold 3A

2h = Input IN21 is below threshold 3C and equal to or above threshold 3B

3h = Input IN21 is equal to or above threshold 3C

0h = Input IN20 is below threshold 3A

1h = Input IN20 is below threshold 3B and equal to or above threshold 3A

2h = Input IN20 is below threshold 3C and equal to or above threshold 3B

3h = Input IN20 is equal to or above threshold 3C

0h = Input IN19 is below threshold 3A

1h = Input IN19 is below threshold 3B and equal to or above threshold 3A

2h = Input IN19 is below threshold 3C and equal to or above threshold 3B

3h = Input IN19 is equal to or above threshold 3C

0h = Input is IN18 is below threshold 3A

1h = Input is IN18 is below threshold 3B and equal to or above threshold 3A

2h = Input is IN18 is below threshold 3C and equal to or above threshold 3B

3h = Input is IN18 is equal to or above threshold 3C

0h = Input IN13 is below threshold while IN9 pulled to GND

1h = Input IN13 is above threshold while IN9 pulled to GND

0h = Input IN13 is below threshold while IN8 pulled to GND

1h = Input IN13 is above threshold while IN8 pulled to GND

0h = Input IN13 is below threshold while IN7 pulled to GND

1h = Input IN13 is above threshold while IN7 pulled to GND

0h = Input IN13 is below threshold while IN6 pulled to GND

1h = Input IN13 is above threshold while IN6 pulled to GND

0h = Input IN13 is below threshold while IN5 pulled to GND

1h = Input IN13 is above threshold while IN5 pulled to GND

0h = Input IN13 is below threshold while IN4 pulled to GND

1h = Input IN13 is above threshold while IN4 pulled to GND

0h = Input IN12 is below threshold while IN9 pulled to GND

1h = Input IN12 is above threshold while IN9 pulled to GND

0h = Input IN12 is below threshold while IN8 pulled to GND.

1h = Input IN12 is above threshold while IN8 pulled to GND.

0h = Input IN12 is below threshold while IN7 pulled to GND.

1h = Input IN12 is above threshold while IN7 pulled to GND.

0h = Input IN12 is below threshold while IN6 pulled to GND.

1h = Input IN12 is above threshold while IN6 pulled to GND.

0h = Input IN12 is below threshold while IN5 pulled to GND.

1h = Input IN12 is above threshold while IN5 pulled to GND.

0h = Input IN12 is below threshold while IN4 pulled to GND.

1h = Input IN12 is above threshold while IN4 pulled to GND.

0h = Input IN11 is below threshold while IN9 pulled to GND.

1h = Input IN11 is above threshold while IN9 pulled to GND.

0h = Input IN11 is below threshold while IN8 pulled to GND.

1h = Input IN11 is above threshold while IN8 pulled to GND.

0h = Input IN11 is below threshold while IN7 pulled to GND.

1h = Input IN11 is above threshold while IN7 pulled to GND.

0h = Input IN11 is below threshold while IN6 pulled to GND.

1h = Input IN11 is above threshold while IN6 pulled to GND.

0h = Input IN11 is below threshold while IN5 pulled to GND.

1h = Input IN11 is above threshold while IN5 pulled to GND.

0h = Input IN11 is below threshold while IN4 pulled to GND.

1h = Input IN11 is above threshold while IN4 pulled to GND.

0h = Input IN10 is below threshold while IN9 pulled to GND.

1h = Input IN10 is above threshold while IN9 pulled to GND.

0h = Input IN10 is below threshold while IN8 pulled to GND.

1h = Input IN10 is above threshold while IN8 pulled to GND.

0h = Input IN10 is below threshold while IN7 pulled to GND.

1h = Input IN10 is above threshold while IN7 pulled to GND.

0h = Input IN10 is below threshold while IN6 pulled to GND.

1h = Input IN10 is above threshold while IN6 pulled to GND.

0h = Input IN10 is below threshold while IN5 pulled to GND.

1h = Input IN10 is above threshold while IN5 pulled to GND.

0h = Input IN10 is below threshold while IN4 pulled to GND.

1h = Input IN10 is above threshold while IN4 pulled to GND.

0h = Input IN11 below threshold THRES_COM

1h = Input IN11 equal to or above threshold THRES_COM

0h = Input IN10 below threshold THRES_COM

1h = Input IN10 equal to or above threshold THRES_COM

0h = Input IN9 below threshold THRES_COM

1h = Input IN9 equal to or above threshold THRES_COM

0h = Input IN8 below threshold THRES_COM

1h = Input IN8 equal to or above threshold THRES_COM

0h = Input IN7 below threshold THRES_COM

1h = Input IN7 equal to or above threshold THRES_COM

0h = Input IN6 below threshold THRES_COM

1h = Input IN6 equal to or above threshold THRES_COM

0h = Input IN5 below threshold THRES_COM

1h = Input IN5 equal to or above threshold THRES_COM

0h = Input IN4 below threshold THRES_COM

1h = Input IN4 equal to or above threshold THRES_COM

0h = Input IN3 below threshold THRES_COM

1h = Input IN3 equal to or above threshold THRES_COM

0h = Input IN2 below threshold THRES_COM

1h = Input IN2 equal to or above threshold THRES_COM

0h = Input IN1 below threshold THRES_COM

1h = Input IN1 equal to or above threshold THRES_COM

0h = Input IN0 below threshold THRES_COM

1h = Input IN0 equal to or above threshold THRES_COM

0h = Input IN15 below threshold while IN9 pulled to GND

1h = Input IN15 above threshold while IN9 pulled to GND

0h = Input IN15 below threshold while IN8 pulled to GND

1h = Input IN15 above threshold while IN8 pulled to GND

0h = Input IN15 below threshold while IN7 pulled to GND

1h = Input IN15 above threshold while IN7 pulled to GND

0h = Input IN15 below threshold while IN6 pulled to GND

1h = Input IN15 above threshold while IN6 pulled to GND

0h = Input IN15 below threshold while IN5 pulled to GND

1h = Input IN15 above threshold while IN5 pulled to GND

0h = Input IN15 below threshold while IN4 pulled to GND

1h = Input IN15 above threshold while IN4 pulled to GND

0h = Input IN14 below threshold while IN9 pulled to GND

1h = Input IN14 above threshold while IN9 pulled to GND

0h = Input IN14 below threshold while IN8 pulled to GND

1h = Input IN14 above threshold while IN8 pulled to GND

0h = Input IN14 below threshold while IN7 pulled to GND

1h = Input IN14 above threshold while IN7 pulled to GND

0h = Input IN14 below threshold while IN6 pulled to GND

1h = Input IN14 above threshold while IN6 pulled to GND

0h = Input IN14 below threshold while IN5 pulled to GND

1h = Input IN14 above threshold while IN5 pulled to GND

0h = Input IN14 below threshold while IN4 pulled to GND

1h = Input IN14 above threshold while IN4 pulled to GND

Reserved

10-bits value of IN1

Bit 10: LSB

Bit 19: MSB

10-bits value of IN0

Bit 0: LSB

Bit 9: MSB

Reserved

10-bits value of IN5

Bit 10: LSB

Bit 19: MSB

10-bits value of IN4

Bit 0: LSB

Bit 9: MSB

Reserved

10-bits value of IN9

Bit 10: LSB

Bit 19: MSB

10-bits value of IN8

Bit 0: LSB

Bit 9: MSB

Reserved

10-bits value of IN13

Bit 10: LSB

Bit 19: MSB

10-bits value of IN12

Bit 0: LSB

Bit 9: MSB

Reserved

10-bits value of IN17

Bit 10: LSB

Bit 19: MSB

10-bits value of IN16

Bit 0: LSB

Bit 9: MSB

Reserved

10-bits value of IN21

Bit 10: LSB

Bit 19: MSB

10-bits value of IN20

Bit 0: LSB

Bit 9: MSB

Reserved

10-bits value of the ADC self-diagnosis

Bit 10: LSB

Bit 19: MSB

10-bits value of V_S measurement

Bit 0: LSB

Bit 9: MSB

0h = Use voltage divider factor of 3 for the V_S measurement

1h = Use voltage divider factor of 10 for the V_S measurement

For detailed descriptions for the ADC self-diagnostic feature, refer to section ADC Self-Diagnostic

0h = Disable ADC self-diagnostic feature

1h = Enable ADC self-diagnostic feature

0h = Disable wetting current diagnostic for input IN3

1h = Enable wetting current diagnostic for input IN3

0h = Disable wetting current diagnostic for input IN2

1h = Enable wetting current diagnostic for input IN2

0h = Disable wetting current diagnostic for input IN1

1h = Enable wetting current diagnostic for input IN1

0h = Disable wetting current diagnostic for input IN0

1h = Enable wetting current diagnostic for input IN0

For detailed descriptions for the V_S measurement, refer to section VS Measurement.

0h = Disable V_S measurement at the end of every polling cycle

1h = Enable V_S measurement at the end of every polling cycle

0h = Enable wetting current reduction (to 2 mA) for 10 mA and 15 mA settings upon TW event for all inputs enabled with CSI.

1h = Disable wetting current reduction (to 2 mA) for 10 mA and 15 mA settings upon TW event for all inputs enabled with CSI.

For detailed descriptions for the detection filter, refer to section Detection Filter.

0h = every sample is valid and taken for threshold evaluation

1h = 2 consecutive and equal samples required to be valid data

2h = 3 consecutive and equal samples required to be valid data

3h = 4 consecutive and equal samples required to be valid data

0h = Enable wetting current reduction (to 2 mA) for 10 mA and 15 mA settings upon TW event for all inputs enabled with CSO.

1h = Disable wetting current reduction (to 2 mA) for 10 mA and 15 mA settings upon TW event for all inputs enabled with CSO.

For detailed descriptions for the INT pin assertion scheme, refer to section Interrupt Generation and /INT Assertion.

0h = INT pin assertion scheme set to static

1h = INT pin assertion scheme set to dynamic

When the TRIGGER bit is set to logic 1, normal device operation (wetting current activation and polling) starts. To stop device operation and keep the device in an idle state, de-assert this bit to 0. After device normal operation is triggered, if at any time the device setting needs to be re-configured, the microcontroller is required to first set the bit TRIGGER to logic 0 to stop device operation. Once the re-configuration is completed, the microcontroller can set the TRIGGER bit back to logic 1 to re-start device operation. If re-configuration is done on the fly without first stopping the device operation, false switch status could be reported and accidental interrupt might be issued. The following register bits are the exception and can be configured when TRIGGER bit is set to logic 1:

• TRIGGER (bit 11 of the CONFIG register)
• CRC_T (bit 9 of the CONFIG register)
• RESET (bit 0 of the CONFIG register)
• The CCP_CFG1 register

0h = Stop TIC12400-Q1 from normal operation.

1h = Trigger TIC12400-Q1 from normal operation.

0h = Polling disabled. Device operates in continuous mode.

1h = Polling enabled and the device operates in one of the polling modes.

Set this bit to 1 to trigger a CRC calculation on all the configuration register bits. Once triggered, it is strongly recommended the SPI controller does not change the content of the configuration registers until the CRC calculation is completed to avoid erroneous CRC calculation result. The TIC12400-Q1 sets the CRC_CALC interrupt bit and asserts the INT pin low when the CRC calculation is completed. The calculated result will be available in the CRC register. This bit self-clears back to 0 after CRC calculation is executed.

0h = no CRC calculation triggered.

1h = trigger CRC calculation.

0h = 64 μs

1h = 128 μs

2h = 192 μs

3h = 256 μs

4h = 320 μs

5h = 384 μs

6h = 448 μs

7h = 512 μs

8h = 640 μs

9h = 768 μs

Ah = 896 μs

Bh = 1024 μs

Ch = 2048 μs

Dh-15h = 512 μs (most frequently-used setting)

0h = 2 ms

1h = 4 ms

2h = 8 ms

3h = 16 ms

4h = 32 ms

5h = 48 ms

6h = 64 ms

7h = 128 ms

8h = 256 ms

9h = 512 ms

Ah = 1024 ms

Bh = 2048 ms

Ch = 4096 ms

Dh-15h = 8 ms (most frequently-used setting)

0h = No reset.

1h = Trigger software reset of the device.

0h = Input channel IN23 disabled. Polling sequence skips this channel

1h = Input channel IN23 enabled.

0h = Input channel IN22 disabled. Polling sequence skips this channel

1h = Input channel IN22 enabled.

0h = Input channel IN21 disabled. Polling sequence skips this channel

1h = Input channel IN21 enabled.

0h = Input channel IN20 disabled. Polling sequence skips this channel

1h = Input channel IN20 enabled.

0h = Input channel IN19 disabled. Polling sequence skips this channel

1h = Input channel IN19 enabled.

0h = Input channel IN18 disabled. Polling sequence skips this channel

1h = Input channel IN18 enabled.

0h = Input channel IN17 disabled. Polling sequence skips this channel

1h = Input channel IN17 enabled.

0h = Input channel IN16 disabled. Polling sequence skips this channel

1h = Input channel IN16 enabled.

0h = Input channel IN15 disabled. Polling sequence skips this channel

1h = Input channel IN15 enabled.

0h = Input channel IN14 disabled. Polling sequence skips this channel

1h = Input channel IN14 enabled.

0h = Input channel IN13 disabled. Polling sequence skips this channel

1h = Input channel IN13 enabled.

0h = Input channel IN12 disabled. Polling sequence skips this channel

1h = Input channel IN12 enabled.

0h = Input channel IN11 disabled. Polling sequence skips this channel

1h = Input channel IN11 enabled.

0h = Input channel IN10 disabled. Polling sequence skips this channel

1h = Input channel IN10 enabled.

0h = Input channel IN9 disabled. Polling sequence skips this channel

1h = Input channel IN9 enabled.

0h = Input channel IN8 disabled. Polling sequence skips this channel

1h = Input channel IN8 enabled.

0h = Input channel IN7 disabled. Polling sequence skips this channel

1h = Input channel IN7 enabled.

0h = Input channel IN6 disabled. Polling sequence skips this channel

1h = Input channel IN6 enabled.

0h = Input channel IN5 disabled. Polling sequence skips this channel

1h = Input channel IN5 enabled.

0h = Input channel IN4 disabled. Polling sequence skips this channel

1h = Input channel IN4 enabled.

0h = Input channel IN3 disabled. Polling sequence skips this channel

1h = Input channel IN3 enabled.

0h = Input channel IN2 disabled. Polling sequence skips this channel

1h = Input channel IN2 enabled.

0h = Input channel IN1 disabled. Polling sequence skips this channel

1h = Input channel IN1 enabled.

0h = Input channel IN0 disabled. Polling sequence skips this channel

1h = Input channel IN0 enabled.

Reserved

0h = Current Source (CSO) selected

1h = Current Sink (CSI) selected

0h = Current Source (CSO) selected

1h = Current Sink (CSI) selected

0h = Current Source (CSO) selected

1h = Current Sink (CSI) selected

0h = Current Source (CSO) selected

1h = Current Sink (CSI) selected

0h = Current Source (CSO) selected

1h = Current Sink (CSI) selected

0h = Current Source (CSO) selected

1h = Current Sink (CSI) selected

0h = Current Source (CSO) selected

1h = Current Sink (CSI) selected

0h = Current Source (CSO) selected

1h = Current Sink (CSI) selected

0h = Current Source (CSO) selected

1h = Current Sink (CSI) selected

0h = Current Source (CSO) selected

1h = Current Sink (CSI) selected

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

Reserved

0h = Enable wetting current auto-scaling (to 2 mA) in continuous mode for 10 mA and 15 mA settings upon switch closure for all inputs enabled with CSI

1h = Disable wetting current auto-scaling (to 2 mA) in continuous mode for 10 mA and 15 mA settings upon switch closure for all inputs enabled with CS

For detailed descriptions for the wetting current auto-scaling, refer to section Wetting Current Auto-Scaling.

0h = Enable wetting current auto-scaling (to 2 mA) in continuous mode for 10 mA and 15 mA settings upon switch closure for all inputs enabled with CSO

1h = Disable wetting current auto-scaling (to 2 mA) in continuous mode for 10 mA and 15 mA settings upon switch closure for all inputs enabled with CSO

For detailed descriptions for the wetting current auto-scaling, refer to section Wetting Current Auto-Scaling.

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

0h = no wetting current

1h = 1 mA (typical) wetting current

2h = 2 mA (typical) wetting current

3h = 5 mA (typical) wetting current

4h = 10 mA (typical) wetting current

5h-7h = 15 mA (typical) wetting current

Reserved

Wetting current activation time in CCP mode

0h = 64 μs

1h = 128 μs

2h = 192 μs

3h = 256 μs

4h = 320 μs

5h = 384 μs

6h = 448 μs

7h = 512 μs

Wetting current setting for IN18 to IN23 in CCP mode

0h = 10 mA (typical) wetting current

1h = 15 mA (typical) wetting current

Wetting current setting for IN12 to IN17 in CCP mode

0h = 10 mA (typical) wetting current

1h = 15 mA (typical) wetting current

Wetting current setting for IN6 to IN11 in CCP mode

0h = 10 mA (typical) wetting current

1h = 15 mA (typical) wetting current

Wetting current setting for IN0 to IN5 in CCP mode

0h = 10 mA (typical) wetting current

1h = 15 mA (typical) wetting current

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

0h = no CCP wetting current

1h = CCP wetting current activated

Reserved

These 2 bits configure the comparator thresholds for input channels IN20 to IN23.

0h = comparator threshold set to 2 V

1h = comparator threshold set to 2.7 V

2h = comparator threshold set to 3 V

3h = comparator threshold set to 4 V

These 2 bits configure the comparator thresholds for input channels IN16 to IN19.

0h = comparator threshold set to 2 V

1h = comparator threshold set to 2.7 V

2h = comparator threshold set to 3 V

3h = comparator threshold set to 4 V

These 2 bits configure the comparator thresholds for input channels IN12 to IN15.

0h = comparator threshold set to 2 V

1h = comparator threshold set to 2.7 V

2h = comparator threshold set to 3 V

3h = comparator threshold set to 4 V

These 2 bits configure the comparator thresholds for input channels IN8 to IN11.

0h = comparator threshold set to 2 V

1h = comparator threshold set to 2.7 V

2h = comparator threshold set to 3 V

3h = comparator threshold set to 4 V

These 2 bits configure the comparator thresholds for input channels IN4 to IN7

0h = comparator threshold set to 2 V

1h = comparator threshold set to 2.7 V

2h = comparator threshold set to 3 V

3h = comparator threshold set to 4 V

These 2 bits configure the comparator thresholds for input channels IN0 to IN3

0h = comparator threshold set to 2 V

1h = comparator threshold set to 2.7 V

2h = comparator threshold set to 3 V

3h = comparator threshold set to 4 V

0h = no interrupt generation for IN11.

1h = interrupt generation on rising edge above THRES_COMP_IN8_IN11 for IN11.

2h = interrupt generation on falling edge below THRES_COMP_IN8_IN11 for IN11.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN8_IN11 for IN11.

0h = no interrupt generation for IN10

1h = interrupt generation on rising edge above THRES_COMP_IN8_IN11 for IN10.

2h = interrupt generation on falling edge below THRES_COMP_IN8_IN11 for IN10.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN8_IN11 for IN10.

0h = no interrupt generation for IN9.

1h = interrupt generation on rising edge above THRES_COMP_IN8_IN11 for IN9.

2h = interrupt generation on falling edge below THRES_COMP_IN8_IN11 for IN9.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN8_IN11 for IN9.

0h = no interrupt generation for IN8.

1h = interrupt generation on rising edge above THRES_COMP_IN8_IN11 for IN8.

2h = interrupt generation on falling edge below THRES_COMP_IN8_IN11 for IN8.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN8_IN11 for IN8.

0h = no interrupt generation for IN7.

1h = interrupt generation on rising edge above THRES_COMP_IN4_IN7 for IN7.

2h = interrupt generation on falling edge below THRES_COMP_IN4_IN7 for IN7.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN4_IN7 for IN7.

0h = no interrupt generation for IN6.

1h = interrupt generation on rising edge above THRES_COMP_IN4_IN7 for IN6.

2h = interrupt generation on falling edge below THRES_COMP_IN4_IN7 for IN6.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN4_IN7 for IN6.

0h = no interrupt generation for IN5.

1h = interrupt generation on rising edge above THRES_COMP_IN4_IN7 for IN5.

2h = interrupt generation on falling edge below THRES_COMP_IN4_IN7 for IN5.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN4_IN7 for IN5.

0h = no interrupt generation for IN4.

1h = interrupt generation on rising edge above THRES_COMP_IN4_IN7 for IN4.

2h = interrupt generation on falling edge below THRES_COMP_IN4_IN7 for IN4.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN4_IN7 for IN4.

0h = no interrupt generation for IN3.

1h = interrupt generation on rising edge above THRES_COMP_IN0_IN3 for IN3.

2h = interrupt generation on falling edge below THRES_COMP_IN0_IN3 for IN3.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN0_IN3 for IN3.

0h = no interrupt generation for IN2.

1h = interrupt generation on rising edge above THRES_COMP_IN0_IN3 for IN2.

2h = interrupt generation on falling edge below THRES_COMP_IN0_IN3 for IN2.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN0_IN3 for IN2.

0h = no interrupt generation for IN1.

1h = interrupt generation on rising edge above THRES_COMP_IN0_IN3 for IN1.

2h = interrupt generation on falling edge below THRES_COMP_IN0_IN3 for IN1.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN0_IN3 for IN1.

0h = no interrupt generation for IN0.

1h = interrupt generation on rising edge above THRES_COMP_IN0_IN3 for IN0.

2h = interrupt generation on falling edge below THRES_COMP_IN0_IN3 for IN0.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN0_IN3 for IN0.

0h = no interrupt generation for IN23.

1h = interrupt generation on rising edge above THRES_COMP_IN20_IN23 for IN23.

2h = interrupt generation on falling edge below THRES_COMP_IN20_IN23 for IN23.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN20_IN23 for IN23.

0h = no interrupt generation for IN22.

1h = interrupt generation on rising edge above THRES_COMP_IN20_IN23 for IN22.

2h = interrupt generation on falling edge below THRES_COMP_IN20_IN23 for IN22.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN20_IN23 for IN22.

0h = no interrupt generation for IN21.

1h = interrupt generation on rising edge above THRES_COMP_IN20_IN23 for IN21.

2h = interrupt generation on falling edge below THRES_COMP_IN20_IN23 for IN21.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN20_IN23 for IN21.

0h = no interrupt generation for IN20.

1h = interrupt generation on rising edge above THRES_COMP_IN20_IN23 for IN20.

2h = interrupt generation on falling edge below THRES_COMP_IN20_IN23 for IN20.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN20_IN23 for IN20.

0h = no interrupt generation for IN19.

1h = interrupt generation on rising edge above THRES_COMP_IN16_IN19 for IN19.

2h = interrupt generation on falling edge below THRES_COMP_IN16_IN19 for IN19.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN16_IN19 for IN19.

0h = no interrupt generation for IN18.

1h = interrupt generation on rising edge above THRES_COMP_IN16_IN19 for IN18.

2h = interrupt generation on falling edge below THRES_COMP_IN16_IN19 for IN18.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN16_IN19 for IN18.

0h = no interrupt generation for IN17.

1h = interrupt generation on rising edge above THRES_COMP_IN16_IN19 for IN17.

2h = interrupt generation on falling edge below THRES_COMP_IN16_IN19 for IN17.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN16_IN19 for IN17.

0h = no interrupt generation for IN16.

1h = interrupt generation on rising edge above THRES_COMP_IN16_IN19 for IN16.

2h = interrupt generation on falling edge below THRES_COMP_IN16_IN19 for IN16.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN16_IN19 for IN16.

0h = no interrupt generation for IN15.

1h = interrupt generation on rising edge above THRES_COMP_IN12_IN15 for IN15.

2h = interrupt generation on falling edge below THRES_COMP_IN12_IN15 for IN15.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN12_IN15 for IN15.

0h = no interrupt generation for IN14.

1h = interrupt generation on rising edge above THRES_COMP_IN12_IN15 for IN14.

2h = interrupt generation on falling edge below THRES_COMP_IN12_IN15 for IN14.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN12_IN15 for IN14.

0h = no interrupt generation for IN13.

1h = interrupt generation on rising edge above THRES_COMP_IN12_IN15 for IN13.

2h = interrupt generation on falling edge below THRES_COMP_IN12_IN15 for IN13.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN12_IN15 for IN13.

0h = no interrupt generation for IN12.

1h = interrupt generation on rising edge above THRES_COMP_IN12_IN15 for IN12.

2h = interrupt generation on falling edge below THRES_COMP_IN12_IN15 for IN12.

3h = interrupt generation on falling and rising edge of THRES_COMP_IN12_IN15 for IN12.

Reserved

0h = INT pin assertion due to ADC error disabled.

1h = INT pin assertion due to ADC error enabled.

0h = INT pin assertion due to wetting current error disabled.

1h = INT pin assertion due to wetting current error enabled.

0h = INT pin assertion due to VS1 threshold crossing disabled.

1h = INT pin assertion due to VS1 threshold crossing enabled.

0h = INT pin assertion due to VS0 threshold crossing disabled.

1h = INT pin assertion due to VS0 threshold crossing enabled.

0h = INT pin assertion due to CRC calculation completion disabled.

1h = INT pin assertion due to CRC calculation completion enabled.

0h = INT pin assertion due to UV event disabled.

1h = INT pin assertion due to UV event enabled.

0h = INT pin assertion due to OV event disabled.

1h = INT pin assertion due to OV event enabled.

0h = INT pin assertion due to TW event disabled.

1h = INT pin assertion due to TW event enabled.

0h = INT pin assertion due to TSD event disabled.

1h = INT pin assertion due to TSD event enabled.

0h = INT pin assertion due to SSC event disabled.

1h = INT pin assertion due to SSC event enabled.

0h = INT pin assertion due to parity fail event disabled.

1h = INT pin assertion due to parity fail event enabled.

0h = INT pin assertion due to SPI fail event disabled.

1h = INT pin assertion due to SPI fail event enabled.

0h = no interrupt generation for IN11.

1h = interrupt generation on rising edge above THRESx for IN11.

2h = interrupt generation on falling edge below THRESx for IN11.

3h = interrupt generation on falling and rising edge of THRESx for IN11.

0h = no interrupt generation for IN10.

1h = interrupt generation on rising edge above THRESx for IN10.

2h = interrupt generation on falling edge below THRESx for IN10.

3h = interrupt generation on falling and rising edge of THRESx for IN10.

0h = no interrupt generation for IN9.

1h = interrupt generation on rising edge above THRESx for IN9.

2h = interrupt generation on falling edge below THRESx for IN9.

3h = interrupt generation on falling and rising edge of THRESx for IN9.

0h = no interrupt generation for IN8.

1h = interrupt generation on rising edge above THRESx for IN8.

2h = interrupt generation on falling edge below THRESx for IN8.

3h = interrupt generation on falling and rising edge of THRESx for IN8.

0h = no interrupt generation for IN7.

1h = interrupt generation on rising edge above THRESx for IN7.

2h = interrupt generation on falling edge below THRESx for IN7.

3h = interrupt generation on falling and rising edge of THRESx for IN7.

0h = no interrupt generation for IN6.

1h = interrupt generation on rising edge above THRESx for IN6.

2h = interrupt generation on falling edge below THRESx for IN6.

3h = interrupt generation on falling and rising edge of THRESx for IN6.

0h = no interrupt generation for IN5.

1h = interrupt generation on rising edge above THRESx for IN5.

2h = interrupt generation on falling edge below THRESx for IN5.

3h = interrupt generation on falling and rising edge of THRESx for IN5.

0h = no interrupt generation for IN4.

1h = interrupt generation on rising edge above THRESx for IN4.

2h = interrupt generation on falling edge below THRESx for IN4.

3h = interrupt generation on falling and rising edge of THRESx for IN4.

0h = no interrupt generation for IN3.

1h = interrupt generation on rising edge above THRESx for IN3.

2h = interrupt generation on falling edge below THRESx for IN3.

3h = interrupt generation on falling and rising edge of THRESx for IN3.

0h = no interrupt generation for IN2.

1h = interrupt generation on rising edge above THRESx for IN2.

2h = interrupt generation on falling edge below THRESx for IN2.

3h = interrupt generation on falling and rising edge of THRESx for IN2.

0h = no interrupt generation for IN1.

1h = interrupt generation on rising edge above THRESx for IN1.

2h = interrupt generation on falling edge below THRESx for IN1.

3h = interrupt generation on falling and rising edge of THRESx for IN1.

0h = no interrupt generation for IN0.

1h = interrupt generation on rising edge above THRESx for IN0.

2h = interrupt generation on falling edge below THRESx for IN0.

3h = interrupt generation on falling and rising edge of THRESx for IN0.

xx00: no interrupt generation for IN17 w.r.t. THRES2A.

xx01: interrupt generation on rising edge above THRES2A for IN17.

xx10: interrupt generation on falling edge below THRES2A for IN17.

xx11: interrupt generation on falling and rising edge of THRES2A for IN17.

00xx: no interrupt generation for IN17 w.r.t. THRES2B.

01xx: interrupt generation on rising edge above THRES2B for IN17.

10xx: interrupt generation on falling edge below THRES2B for IN17.

11xx: interrupt generation on falling and rising edge of THRES2B for IN17.

xx00: no interrupt generation for IN16 w.r.t. THRES2A.

xx01: interrupt generation on rising edge above THRES2A for IN16.

xx10: interrupt generation on falling edge below THRES2A for IN16.

xx11: interrupt generation on falling and rising edge of THRES2A for IN16.

00xx: no interrupt generation for IN16 w.r.t. THRES2B.

01xx: interrupt generation on rising edge above THRES2B for IN16.

10xx: interrupt generation on falling edge below THRES2B for IN16.

11xx: interrupt generation on falling and rising edge of THRES2B for IN16.

xx00: no interrupt generation for IN15 w.r.t. THRES2A.

xx01: interrupt generation on rising edge above THRES2A for IN15.

xx10: interrupt generation on falling edge below THRES2A for IN15.

xx11: interrupt generation on falling and rising edge of THRES2A for IN15.

00xx: no interrupt generation for IN15 w.r.t. THRES2B.

01xx: interrupt generation on rising edge above THRES2B for IN15.

10xx: interrupt generation on falling edge below THRES2B for IN15.

11xx: interrupt generation on falling and rising edge of THRES2B for IN15.

xx00: no interrupt generation for IN14 w.r.t. THRES2A.

xx01: interrupt generation on rising edge above THRES2A for IN14.

xx10: interrupt generation on falling edge below THRES2A for IN14.

xx11: interrupt generation on falling and rising edge of THRES2A for IN14.

00xx: no interrupt generation for IN14 w.r.t. THRES2B.

01xx: interrupt generation on rising edge above THRES2B for IN14.

10xx: interrupt generation on falling edge below THRES2B for IN14.

11xx: interrupt generation on falling and rising edge of THRES2B for IN14.

xx00: no interrupt generation for IN13 w.r.t. THRES2A.

xx01: interrupt generation on rising edge above THRES2A for IN13.

xx10: interrupt generation on falling edge below THRES2A for IN13.

xx11: interrupt generation on falling and rising edge of THRES2A for IN13.

00xx: no interrupt generation for IN13 w.r.t. THRES2B.

01xx: interrupt generation on rising edge above THRES2B for IN13.

10xx: interrupt generation on falling edge below THRES2B for IN13.

11xx: interrupt generation on falling and rising edge of THRES2B for IN13.

xx00: no interrupt generation for IN12 w.r.t. THRES2A.

xx01: interrupt generation on rising edge above THRES2A for IN12.

xx10: interrupt generation on falling edge below THRES2A for IN12.

xx11: interrupt generation on falling and rising edge of THRES2A for IN12.

00xx: no interrupt generation for IN12 w.r.t. THRES2B.

01xx: interrupt generation on rising edge above THRES2B for IN12.

10xx: interrupt generation on falling edge below THRES2B for IN12.

11xx: interrupt generation on falling and rising edge of THRES2B for IN12.

xxxx00: no interrupt generation for IN21 w.r.t. THRES3A

xxxx01: interrupt generation on rising edge above THRES3A for IN21

xxxx10: interrupt generation on falling edge below THRES3A for IN21

xxxx11: interrupt generation on falling and rising edge of THRES3A for IN21

xx00xx: no interrupt generation for IN21 w.r.t. THRES3B

xx01xx: interrupt generation on rising edge above THRES3B for IN21

xx10xx: interrupt generation on falling edge below THRES3B for IN21

xx11xx: interrupt generation on falling and rising edge of THRES3B for IN21

00xxxx: no interrupt generation for IN21 w.r.t. THRES3C

01xxxx: interrupt generation on rising edge above THRES3C for IN21

10xxxx: interrupt generation on falling edge below THRES3C for IN21

11xxxx: interrupt generation on falling and rising edge of THRES3C for IN21

xxxx00: no interrupt generation for IN20 w.r.t. THRES3A

xxxx01: interrupt generation on rising edge above THRES3A for IN20

xxxx10: interrupt generation on falling edge below THRES3A for IN20

xxxx11: interrupt generation on falling and rising edge of THRES3A for IN20

xx00xx: no interrupt generation for IN20 w.r.t. THRES3B

xx01xx: interrupt generation on rising edge above THRES3B for IN20

xx10xx: interrupt generation on falling edge below THRES3B for IN20

xx11xx: interrupt generation on falling and rising edge of THRES3B for IN20

00xxxx: no interrupt generation for IN20 w.r.t. THRES3C

01xxxx: interrupt generation on rising edge above THRES3C for IN20

10xxxx: interrupt generation on falling edge below THRES3C for IN20

11xxxx: interrupt generation on falling and rising edge of THRES3C for IN20

xxxx00: no interrupt generation for IN19 w.r.t. THRES3A

xxxx01: interrupt generation on rising edge above THRES3A for IN19

xxxx10: interrupt generation on falling edge below THRES3A for IN19

xxxx11: interrupt generation on falling and rising edge of THRES3A for IN19

xx00xx: no interrupt generation for IN19 w.r.t. THRES3B

xx01xx: interrupt generation on rising edge above THRES3B for IN19

xx10xx: interrupt generation on falling edge below THRES3B for IN19

xx11xx: interrupt generation on falling and rising edge of THRES3B for IN19

00xxxx: no interrupt generation for IN19 w.r.t. THRES3C

01xxxx: interrupt generation on rising edge above THRES3C for IN19

10xxxx: interrupt generation on falling edge below THRES3C for IN19

11xxxx: interrupt generation on falling and rising edge of THRES3C for IN19

xxxx00: no interrupt generation for IN18 w.r.t. THRES3A

xxxx01: interrupt generation on rising edge above THRES3A for IN18

xxxx10: interrupt generation on falling edge below THRES3A for IN18

xxxx11: interrupt generation on falling and rising edge of THRES3A for IN18

xx00xx: no interrupt generation for IN18 w.r.t. THRES3B

xx01xx: interrupt generation on rising edge above THRES3B for IN18

xx10xx: interrupt generation on falling edge below THRES3B for IN18

xx11xx: interrupt generation on falling and rising edge of THRES3B for IN18

00xxxx: no interrupt generation for IN18 w.r.t. THRES3C

01xxxx: interrupt generation on rising edge above THRES3C for IN18

10xxxx: interrupt generation on falling edge below THRES3C for IN18

11xxxx: interrupt generation on falling and rising edge of THRES3C for IN18

xx00: no interrupt generation for V_S w.r.t. VS1_THRES2A.

xx01: interrupt generation on rising edge above VS1_THRES2A for V_S.

xx10: interrupt generation on falling edge below VS1_THRES2A for V_S.

xx11: interrupt generation on falling and rising edge of VS1_THRES2A for V_S.

00xx: no interrupt generation for V_S w.r.t. VS1_THRES2B.

01xx: interrupt generation on rising edge above VS1_THRES2B for V_S.

10xx: interrupt generation on falling edge below VS1_THRES2B for V_S.

11xx: interrupt generation on falling and rising edge of VS1_THRES2B for V_S.

xx00: no interrupt generation for V_S w.r.t. VS0_THRES2A.

xx01: interrupt generation on rising edge above VS0_THRES2A for V_S.

xx10: interrupt generation on falling edge below VS0_THRES2A for V_S.

xx11: interrupt generation on falling and rising edge of VS0_THRES2A for VS.

00xx: no interrupt generation for V_S w.r.t. VS0_THRES2B.

01xx: interrupt generation on rising edge above VS0_THRES2B for V_S.

10xx: interrupt generation on falling edge below VS0_THRES2B for V_S.

11xx: interrupt generation on falling and rising edge of VS0_THRES2B for V_S.

xxxxxxxx00: no interrupt generation for IN23 w.r.t. THRES3A.

xxxxxxxx01: interrupt generation on rising edge above THRES3A for IN23.

xxxxxxxx10: interrupt generation on falling edge below THRES3A for IN23.

xxxxxxxx11: interrupt generation on falling and rising edge of THRES3A for IN23.

xxxxxx00xx: no interrupt generation for IN23 w.r.t. THRES3B.

xxxxxx01xx: interrupt generation on rising edge above THRES3B for IN23.

xxxxxx10xx: interrupt generation on falling edge below THRES3B for IN23.

xxxxxx11xx: interrupt generation on falling and rising edge of THRES3B for IN23.

xxxx00xxxx: no interrupt generation for IN23 w.r.t. THRES3C.

xxxx01xxxx: interrupt generation on rising edge above THRES3C for IN23.

xxxx10xxxx: interrupt generation on falling edge below THRES3C for IN23.

xxxx11xxxx: interrupt generation on falling and rising edge of THRES3C for IN23.

xx00xxxxxx: no interrupt generation for IN23 w.r.t. THRES8.

xx01xxxxxx: interrupt generation on rising edge above THRES8 for IN23.

xx10xxxxxx: interrupt generation on falling edge below THRES8 for IN23.

xx11xxxxxx: interrupt generation on falling and rising edge of THRES8 for IN23.

00xxxxxxxx: no interrupt generation for IN23 w.r.t. THRES9.

01xxxxxxxx: interrupt generation on rising edge above THRES9 for IN23.

10xxxxxxxx: interrupt generation on falling edge below THRES9 for IN23.

11xxxxxxxx: interrupt generation on falling and rising edge of THRES9 for IN23.

xxxx00: no interrupt generation for IN22 w.r.t. THRES3A.

xxxx01: interrupt generation on rising edge above THRES3A for IN22.

xxxx10: interrupt generation on falling edge below THRES3A for IN22.

xxxx11: interrupt generation on falling and rising edge of THRES3A for IN22.

xx00xx: no interrupt generation for IN22 w.r.t. THRES3B.

xx01xx: interrupt generation on rising edge above THRES3B for IN22.

xx10xx: interrupt generation on falling edge below THRES3B for IN22.

xx11xx: interrupt generation on falling and rising edge of THRES3B for IN22.

00xxxx: no interrupt generation for IN22 w.r.t. THRES3C.

01xxxx: interrupt generation on rising edge above THRES3C for IN22.

10xxxx: interrupt generation on falling edge below THRES3C for IN22.

11xxxx: interrupt generation on falling and rising edge of THRES3C for IN22.

Reserved

10-bits value of threshold 1:

Bit10: LSB

Bit19: MSB

10-bits value of threshold 0

Bit0: LSB

Bit9: MSB