SBAA475 January 2021 ADS7957-Q1

4 Pin Failure Mode Analysis (Pin FMA)

This section provides a Failure Mode Analysis (FMA) for the pins of the ADS7957-Q1. The failure modes covered in this document include the typical pin-by-pin failure scenarios:

Pin short-circuited to Ground (see Table 4-2)
Pin open-circuited (see Table 4-3)
Pin short-circuited to an adjacent pin (see Table 4-4)
Pin short-circuited to supply (see Table 4-5)

Table 4-2 through Table 4-5 also indicate how these pin conditions can affect the device as per the failure effects classification in Table 4-1.

Table 4-1 TI Classification of Failure Effects

Class	Failure Effects
A	Potential device damage that affects functionality
B	No device damage, but loss of functionality
C	No device damage, but performance degradation
D	No device damage, no impact to functionality or performance

Figure 4-1 shows the ADS7957-Q1 pin diagram. For a detailed description of the device pins please refer to the Pin Configuration and Functions section in the ADS7957-Q1 data sheet.

Figure 4-1 Pin Diagram

Following are the assumptions of use and the device configuration assumed for the pin FMA in this section:

+VA and +VBD use the same supply voltage.
AGND, REFM and BDGND use the same GND.
RC filters on every analog input, CHx. Series resistors are sized to limit the input currents into the analog inputs to <10mA in all circumstances, e.g. also in case device is unpowered and input signal is applied.
Device is the only slave on the SPI bus.

Table 4-2 Pin FMA for Device Pins Short-Circuited to Ground

Pin Name	Pin No.	Description of Potential Failure Effect(s)	Failure Effect Class
GPIO2	1	GPIO2 configured as digital output: GPIO2 stuck low. Increase in supply current when GPIO2 tries to drive high. Device damage may be plausible.	A
GPIO2	1	GPIO2 configured as digital input: GPIO2 stuck low. Readback value of GPIO2 will be 0b.	B
GPIO3	2	GPIO3 configured as digital output: GPIO3 stuck low. Increase in supply current when GPIO3 tries to drive high. Device damage may be plausible.	A
GPIO3	2	GPIO3 configured as digital input: GPIO3 stuck low. Readback value of GPIO3 will be 0b.	B
REFM	3	No effect. Normal operation.	D
REFP	4	Reference voltage to the ADC will be 0 V as REFP = REFM = Ground. Incorrect conversion result for all channels. Conversion result for all channels will be close to 0x3FF.	B
+VA	5	Device unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
AGND	6	No effect. Normal operation.	D
MXO	7	Conversion results for all channels will be close to 0x000. Multiplexer's analog inputs CH15-CH0 will be connected to Ground through MXO. Increase in current sourced from the analog inputs.	B
AINP	8	External amplifier used between MXO and AINP: Conversion results for all channels will be close to 0x000. External amplifier's output will be connected to Ground.	B
AINP	8	MXO directly connected to AINP: Conversion results for all channels will be close to 0x000. Multiplexer's analog inputs CH15-CH0 will be connected to Ground through MXO and there will be increase in current sourced from the external circuits driving the analog inputs.	B
AINM	9	No effect. Normal operation.	D
AGND	10	No effect. Normal operation.	D
CH15	11	Conversion result for this analog input channel will be close to 0x000.	B
CH14	12	Conversion result for this analog input channel will be close to 0x000.	B
CH13	13	Conversion result for this analog input channel will be close to 0x000.	B
CH12	14	Conversion result for this analog input channel will be close to 0x000.	B
CH11	15	Conversion result for this analog input channel will be close to 0x000.	B
CH10	16	Conversion result for this analog input channel will be close to 0x000.	B
CH9	17	Conversion result for this analog input channel will be close to 0x000.	B
CH8	18	Conversion result for this analog input channel will be close to 0x000.	B
AGND	19	No effect. Normal operation.	D
AGND	20	No effect. Normal operation.	D
CH7	21	Conversion result for this analog input channel will be close to 0x000.	B
CH6	22	Conversion result for this analog input channel will be close to 0x000.	B
CH5	23	Conversion result for this analog input channel will be close to 0x000.	B
CH4	24	Conversion result for this analog input channel will be close to 0x000.	B
CH3	25	Conversion result for this analog input channel will be close to 0x000.	B
CH2	26	Conversion result for this analog input channel will be close to 0x000.	B
CH1	27	Conversion result for this analog input channel will be close to 0x000.	B
CH0	28	Conversion result for this analog input channel will be close to 0x000.	B
+VA	29	Device unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
AGND	30	No effect. Normal operation.	D
CS	31	CS stuck low. No SPI communication with the device possible.	B
SCLK	32	SCLK stuck low. No SPI communication with the device possible.	B
SDI	33	SDI stuck low. Device configuration cannot be modified. Device will remain in previously configured state until reset condition occurs. Device will remain in default configuration after power-up.	B
SDO	34	SDO stuck low. No data readback possible from the device. Increase in supply current when device tries to drive SDO high. Device damage may be plausible.	A
BDGND	35	No effect. Normal operation.	D
+VBD	36	Digital interface not powered up. No SPI communication with device possible. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
GPIO0	37	GPIO0 configured as digital output: GPIO0 stuck low. Increase in supply current when GPIO0 tries to drive high. Device damage may be plausible.	A
GPIO0	37	GPIO0 configured as digital input: GPIO0 stuck low. Readback value of GPIO0 will be 0b.	B
GPIO1	38	GPIO1 configured as digital output: GPIO1 stuck low. Increase in supply current when GPIO1 tries to drive high. Device damage may be plausible.	A
GPIO1	38	GPIO1 configured as digital input: GPIO1 stuck low. Readback value of GPIO1 will be 0b.	B

Table 4-3 Pin FMA for Device Pins Open-Circuited

Pin Name	Pin No.	Description of Potential Failure Effect(s)	Failure Effect Class
GPIO2	1	GPIO2 configured as digital output: No logic signaling between GPIO2 and external circuit possible. Otherwise normal operation.	B
GPIO2	1	GPIO2 configured as digital input: Readback value of GPIO2 will be unknown.	B
GPIO3	2	GPIO3 configured as digital output: No logic signaling between GPIO3 and external circuit possible. Otherwise normal operation.	B
GPIO3	2	GPIO3 configured as digital input: Readback value of GPIO3 will be unknown.	B
REFM	3	Incorrect conversion result for all channels. The ADC reference will connect to ground internally through REFM pin ESD diode. Increased gain error for all channels due to reference voltage drop across ESD diode.	B
REFP	4	Incorrect and unknown conversion result for all channels. Unknown reference voltage to the ADC. The reference circuit may power-up through internal circuit to Power.	B
+VA	5	Device functionality unknown. Device unpowered and not functional if all external analog pins are held low. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible. Device may power up through internal ESD diodes to +VA if voltages above the device's power-on reset threshold are present on any of the analog pins.	A
AGND	6	Device functionality unknown. Device may be unpowered or connect to ground internally through alternate pin ESD diode and power up.	B
MXO	7	External amplifier used between MXO and AINP: Multiplexer's analog inputs CH15-CH0 cannot be connected to the external amplifier's input. Conversion results for all channels will depend on the output voltage of the amplifier driving AINP.	B
MXO	7	MXO directly connected to AINP: Multiplexer's analog inputs CH15-CH0 cannot be connected to the ADC's input. Conversion results for all channels will be unknown.	B
AINP	8	Conversion results for all channels will be unknown.	B
AINM	9	Conversion results for all channels will be unknown.	B
AGND	10	Device functionality unknown. Device may be unpowered or connect to ground internally through alternate pin ESD diode and power up.	B
CH15	11	Conversion result for this analog input channel will be unknown.	B
CH14	12	Conversion result for this analog input channel will be unknown.	B
CH13	13	Conversion result for this analog input channel will be unknown.	B
CH12	14	Conversion result for this analog input channel will be unknown.	B
CH11	15	Conversion result for this analog input channel will be unknown.	B
CH10	16	Conversion result for this analog input channel will be unknown.	B
CH9	17	Conversion result for this analog input channel will be unknown.	B
CH8	18	Conversion result for this analog input channel will be unknown.	B
AGND	19	Device functionality unknown. Device may be unpowered or connect to ground internally through alternate pin ESD diode and power up.	B
AGND	20	Device functionality unknown. Device may be unpowered or connect to ground internally through alternate pin ESD diode and power up.	B
CH7	21	Conversion result for this analog input channel will be unknown.	B
CH6	22	Conversion result for this analog input channel will be unknown.	B
CH5	23	Conversion result for this analog input channel will be unknown.	B
CH4	24	Conversion result for this analog input channel will be unknown.	B
CH3	25	Conversion result for this analog input channel will be unknown.	B
CH2	26	Conversion result for this analog input channel will be unknown.	B
CH1	27	Conversion result for this analog input channel will be unknown.	B
CH0	28	Conversion result for this analog input channel will be unknown.	B
+VA	29	Device functionality unknown. Device unpowered and not functional if all external analog pins are held low. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible. Device may power up through internal ESD diodes to +VA if voltages above the device's power-on reset threshold are present on any of the analog pins.	A
AGND	30	Device functionality unknown. Device may be unpowered or connect to ground internally through alternate pin ESD diode and power up.	B
CS	31	State of CS undetermined. No SPI communication with the device possible.	B
SCLK	32	State of SCLK undetermined. No SPI communication with the device possible.	B
SDI	33	State of SDI undetermined. Device configuration cannot be modified. Device will remain in previously configured state until reset condition occurs. Device will remain in default configuration after power-up.	B
SDO	34	No data readback possible from the device.	B
BDGND	35	Device functionality unknown. Digital interface may be unpowered or power up internally through alternate pin ESD diode to Ground. SPI communication may not be possible with the device.	B
+VBD	36	Digital interface not powered up if all external digital pins are held low. No SPI communication with device possible. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible. Digital interface may power up through internal ESD diodes to DVDD if voltages above the device's power-on reset threshold are present on any of the digital pins.	A
GPIO0	37	GPIO0 configured as digital output: No logic signaling between GPIO0 and external circuit possible. Otherwise normal operation.	B
GPIO0	37	GPIO0 configured as digital input: Readback value of GPIO0 will be unknown.	B
GPIO1	38	GPIO1 configured as digital output: No logic signaling between GPIO1 and external circuit possible. Otherwise normal operation.	B
GPIO1	38	GPIO1 configured as digital input: Readback value of GPIO1 will be unknown.	B

Table 4-4 Pin FMA for Device Pins Short-Circuited to Adjacent Pin

Pin Name	Pin No.	Shorted to	Description of Potential Failure Effect(s)	Failure Effect Class
GPIO2	1	GPIO3	GPIO2 configured as digital output and GPIO3 as digital output: Output voltage level unknown. Increase in supply current when GPIO2 tries to drive low and GPIO3 tries to drive high and vice versa. Device damage may be plausible.	A
			GPIO2 configured as digital output and GPIO3 as digital input: Readback value of GPIO3 will depend on the output drive on GPIO2.	B
			GPIO2 configured as digital input and GPIO3 as digital output: Readback value of GPIO2 will depend on the output drive on GPIO3.	B
			GPIO2 configured as digital input and GPIO3 as digital input: Readback value of GPIO2 and GPIO3 will be the same.	B
GPIO3	2	REFM	GPIO3 configured as digital output: GPIO3 stuck low. Increase in supply current when GPIO3 tries to drive high. Device damage may be plausible.	A
GPIO3	2	REFM	GPIO3 configured as digital input: GPIO3 stuck low. Readback value of GPIO3 will be 0b.	B
REFM	3	REFP	Incorrect conversion result for all channels. Conversion result will be close to 0x3FF for all channels. Reference voltage to the ADC will be 0 V as REFP = REFM = Ground.	B
REFP	4	+VA	Incorrect conversion result for all channels. Higher gain error for all channels because reference to the ADC is different from the intended REFP voltage. Reference voltage out of specification in case +VA > 3 V.	B
+VA	5	AGND	Device unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
AGND	6	MXO	Conversion results for all channels will be close to 0x000. Multiplexer's analog inputs CH15-CH0 will be connected to Ground through MXO. Increase in current sourced from the analog inputs.	B
MXO	7	AINP	External amplifier used between MXO and AINP: The external amplifier is bypassed. Increased gain error in conversion results if the external amplifier is configured for gain > 1. Conversion results for all channels may have higher error if there are ADC input settling errors when driving AINP directly with MXO.	B
MXO	7	AINP	MXO directly connected to AINP: No effect. Normal operation.	D
AINP	8	AINM	Conversion results for all channels will be close to 0x000.	B
AINM	9	AGND	No effect. Normal operation.	D
AGND	10	CH15	Conversion result for CH15 will be close to 0x000.	B
CH15	11	CH14	Conversion results for CH15 and CH14 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH14	12	CH13	Conversion results for CH14 and CH13 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH13	13	CH12	Conversion results for CH13 and CH12 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH12	14	CH11	Conversion results for CH12 and CH11 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH11	15	CH10	Conversion results for CH11 and CH10 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH10	16	CH9	Conversion results for CH10 and CH9 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH9	17	CH8	Conversion results for CH9 and CH8 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH8	18	AGND	Conversion result for CH8 will be close to 0x000.	B
AGND	19	–	Not considered. Corner pin.	–
AGND	20	CH7	Conversion result for CH7 will be close to 0x000.	B
CH7	21	CH6	Conversion results for CH7 and CH6 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH6	22	CH5	Conversion results for CH6 and CH5 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH5	23	CH4	Conversion results for CH5 and CH4 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH4	24	CH3	Conversion results for CH4 and CH3 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH3	25	CH2	Conversion results for CH3 and CH2 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH2	26	CH1	Conversion results for CH2 and CH1 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH1	27	CH0	Conversion results for CH1 and CH0 will be the same. The conversion results may be incorrect depending on the external drive circuits.	B
CH0	28	+VA	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH0	28	+VA	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
+VA	29	AGND	Device unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
AGND	30	CS	CS stuck low. No SPI communication with the device possible.	B
CS	31	SCLK	SPI communication corrupted. No SPI communication with the device possible.	B
SCLK	32	SDI	SPI communication corrupted. No SPI communication with the device possible.	B
SDI	33	SDO	SPI communication corrupted. No SPI communication with the device possible. Increase in supply current when host tries to drive SDI low while device tries to drive SDO high and vice versa. Device damage may be plausible.	A
SDO	34	BDGND	SDO stuck low. No data readback possible from the device. Increase in supply current when device tries to drive SDO high. Device damage may be plausible.	A
BDGND	35	+VBD	Digital interface not powered up. No SPI communication with device possible. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
+VBD	36	GPIO0	GPIO0 configured as digital output: GPIO0 stuck high. Increase in supply current when GPIO0 tries to drive low. Device damage may be plausible.	A
+VBD	36	GPIO0	GPIO0 configured as digital input: GPIO0 stuck high. Readback value of GPIO0 will be 1b.	B
GPIO0	37	GPIO1	GPIO0 configured as digital output and GPIO1 as digital output: Increase in supply current when GPIO0 tries to drive low and GPIO1 tries to drive high and vice versa. Device damage may be plausible.	A
			GPIO0 configured as digital output and GPIO1 as digital input: Readback value of GPIO1 will depend on the output drive on GPIO0.	B
			GPIO0 configured as digital input and GPIO1 as digital output: Readback value of GPIO0 will depend on the output drive on GPIO1.	B
			GPIO0 configured as digital input and GPIO1 as digital input: Readback value of GPIO0 and GPIO1 will be the same.	B
GPIO1	38	–	Not considered. Corner pin.	–

Table 4-5 Pin FMA for Device Pins Short-Circuited to supply

Pin Name	Pin No.	Description of Potential Failure Effect(s)	Failure Effect Class
GPIO2	1	GPIO2 configured as digital output: GPIO2 stuck high. Increase in supply current when GPIO2 tries to drive low. Device damage may be plausible.	A
GPIO2	1	GPIO2 configured as digital input: GPIO2 stuck high. Readback value of GPIO2 will be 1b.	B
GPIO3	2	GPIO3 configured as digital output: GPIO3 stuck high. Increase in supply current when GPIO3 tries to drive low. Device damage may be plausible.	A
GPIO3	2	GPIO3 configured as digital input: GPIO3 stuck high. Readback value of GPIO3 will be 1b.	B
REFM	3	Incorrect conversion result for all channels. The ADC reference will connect to ground internally through REFM pin ESD diode. Increased gain error for all channels due to reference voltage drop across ESD diode. Increase in supply current through ESD to Ground from REFM pin. Device damage may be plausible.	A
REFP	4	Incorrect conversion result for all channels. Higher gain error for all channels because reference to the ADC is different from the intended REFP voltage. Reference voltage out of specification in case +VA > 3 V.	B
+VA	5	No effect. Normal operation.	D
AGND	6	Device unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
MXO	7	Multiplexer's analog inputs CH15-CH0 will be connected to Power through MXO. Increase in current sinked by the external circuits driving the analog inputs. Device configured for range 1: Conversion results for all channels will be close to 0x3FF. Device configured for range 2: Conversion results for all channels will correspond to (+VA / (2xVREF)) * 1023.	B
AINP	8	If MXO is directly connected to AINP, multiplexer's analog inputs CH15-CH0 will be connected to Power through MXO and there will be increase in current sinked by the external circuits driving the analog inputs. Device configured for range 1: Conversion results for all channels will be close to 0x3FF. Device configured for range 2: Conversion results for all channels will correspond to (+VA / (2xVREF)) * 1023.	B
AINM	9	Conversion result for all channels will be close to 0x000.	B
AGND	10	Device unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
CH15	11	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH15	11	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH14	12	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH14	12	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH13	13	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH13	13	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH12	14	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH12	14	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH11	15	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH11	15	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH10	16	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH10	16	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH9	17	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH9	17	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH8	18	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH8	18	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
AGND	19	Device unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
AGND	20	Device unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
CH7	21	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH7	21	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH6	22	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH6	22	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH5	23	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH5	23	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH4	24	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH4	24	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH3	25	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH3	25	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH2	26	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH2	26	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH1	27	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH1	27	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
CH0	28	Device configured for range 1: Conversion result for this analog input channel will be close to 0x3FF.	B
CH0	28	Device configured for range 2: Conversion result for this analog input channel will correspond to (+VA / (2xVREF)) * 1023.	B
+VA	29	No effect. Normal operation.	D
AGND	30	Device unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
CS	31	CS stuck high. No SPI communication with the device possible. SDO will be Hi-Z.	B
SCLK	32	SCLK stuck high. No SPI communication with the device possible.	B
SDI	33	SDI stuck high. Device configuration cannot be modified. Device will remain in previously configured state until reset condition occurs. Device will remain in default configuration after power-up.	B
SDO	34	SDO stuck high. No data readback possible from the device. Increase in supply current when device tries to drive SDO low. Device damage may be plausible.	A
BDGND	35	Device unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.	A
+VBD	36	No effect. Normal operation.	D
GPIO0	37	GPIO0 configured as digital output: GPIO0 stuck high. Increase in supply current when GPIO2 tries to drive low. Device damage may be plausible.	A
GPIO0	37	GPIO0 configured as digital input: GPIO0 stuck high. Readback value of GPIO0 will be 1b.	B
GPIO1	38	GPIO1 configured as digital output: GPIO1 stuck high. Increase in supply current when GPIO1 tries to drive low. Device damage may be plausible.	A
GPIO1	38	GPIO1 configured as digital input: GPIO1 stuck high. Readback value of GPIO1 will be 1b.	B