SFFSB41 May   2026 ISO6431 , ISO6431-Q1

 

  1.   1
  2.   Trademarks
  3. 1Overview
  4. 2Functional Safety Failure In Time (FIT) Rates
    1. 2.1 DW-16 Wide-SOIC Package
    2. 2.2 DFP-16 Wide-SSOP Package
    3. 2.3 DBQ-16 SSOP Package
  5. 3Failure Mode Distribution (FMD)
  6. 4Pin Failure Mode Analysis (Pin FMA)
    1. 4.1 DW-16 Wide-SOIC, DFP-16 Wide-SSOP, and DBQ-16 SSOP Packages
  7. 5Revision History

DW-16 Wide-SOIC, DFP-16 Wide-SSOP, and DBQ-16 SSOP Packages

Figure 4-1 shows the ISO6431 and ISO6431-Q1 pin diagram for the DW-16 Wide-SOIC, DFP-16 Wide-SSOP, and DBQ-16 SSOP packages. For a detailed description of the device pins, see the Pin Configuration and Functions section in the ISO6431 and ISO6431-Q1 datasheet.

ISO6431 ISO6431-Q1 Pin Diagram (DW-16 Wide-SOIC, DFP-16 Wide-SSOP, and
                                    DBQ-16 SSOP Packages) Figure 4-1 Pin Diagram (DW-16 Wide-SOIC, DFP-16 Wide-SSOP, and DBQ-16 SSOP Packages)
Table 4-2 Pin FMA for Device Pins Short-Circuited to Ground, Open-Circuited, Short-Circuited to Adjacent Pin, and Short-Circuited to Supply
Pin Name Pin Number Potential Failure Mode Description of Potential Failure Effects Failure Effect Class
VCC1 1 Short-Circuited to Ground (Side-1) The device has no power on side-1 (the supply input is shorted to ground). The outputs of OUTA, OUTB, and OUTC are at the default logic state. The output state of OUTD is undetermined. Observe that the absolute maximum ratings for all pins of the device are met; otherwise, damage to the device is possible. This short circuit potentially causes high current to flow between the two GND1 pins (pin2 and pin8); potentially damaging the device. A
VCC1 1 Open-Circuited The device has no power on side-1 (the supply input is open). The outputs of OUTA, OUTB, and OUTC are at the default logic state. The output state of OUTD is undetermined. Observe that the absolute maximum ratings for all pins of the device are met; otherwise, damage to the device is possible. A
VCC1 1 Short-Circuited to Pin2 (GND1) The device has no power on side-1 (the supply input is shorted to ground). The outputs of OUTA, OUTB, and OUTC are at the default logic state. The output state of OUTD is undetermined. Observe that the absolute maximum ratings for all pins of the device are met; otherwise, damage to the device is possible. This short circuit potentially causes high current to flow between the two GND1 pins (pin2 and pin8); potentially damaging the device. A
VCC1 1 Short-Circuited to Supply (Side-1) The device continues to function as expected. Normal operation. D
GND1 2 Short-Circuited to Ground (Side-1) The device continues to function as expected. Normal operation. D
GND1 2 Open-Circuited The device receives return ground through pin 8 (GND1). Normal operation. D
GND1 2 Short-Circuited to Pin3 (INA) The input signal is shorted to ground, so the output of OUTA is stuck low. Communication through channel A is corrupted. B
GND1 2 Short-Circuited to Supply (Side-1) The device has no power on side-1 (the supply input is shorted to ground). The outputs of OUTA, OUTB, and OUTC are at the default logic state. The output state of OUTD is undetermined. Observe that the absolute maximum ratings for all pins of the device are met; otherwise, damage to the device is possible. This short circuit potentially causes high current to flow between the two GND1 pins (pin2 and pin8); potentially damaging the device. A
INA 3 Short-Circuited to Ground (Side-1) The input signal is shorted to ground, so the output of OUTA is stuck low. Communication through channel A is corrupted. B
INA 3 Open-Circuited Communication through channel A is not possible. The output of OUTA is at the default state (weak internal pullup or pulldown to the default state). B
INA 3 Short-Circuited to Pin4 (INB) Communication is corrupted for either channel or both channels. B
INA 3 Short-Circuited to Supply (Side-1) The input signal is shorted to supply, so the output of OUTA is stuck high. Communication through channel A is corrupted. B
INB 4 Short-Circuited to Ground (Side-1) The input signal is shorted to ground, so the output of OUTB is stuck low. Communication through channel B is corrupted. B
INB 4 Open-Circuited Communication through channel B is not possible. The output of OUTB is at the default state (weak internal pullup or pulldown to the default state). B
INB 4 Short-Circuited to Pin5 (OUTC) Communication is corrupted for either channel or both channels. With an opposite logic state on both channels, high current can flow between the signals on INB, supply, and ground in OUTC and possibly cause damage to the device. A
INB 4 Short-Circuited to Supply (Side-1) The input signal is shorted to supply, so the output of OUTB is stuck high. Communication through channel B is corrupted. B
OUTC 5 Short-Circuited to Ground (Side-1) The output of OUTC is shorted to ground. Communication through channel C is corrupted. Damage to the device is possible if INC is driven high for an extended period of time. A
OUTC 5 Open-Circuited The output state of OUTC is undetermined. Communication through channel C is corrupted. B
OUTC 5 Short-Circuited to Pin6 (NC) The device continues to function as expected. Normal operation. D
OUTC 5 Short-Circuited to Supply (Side-1) OUTC is stuck high. Communication through channel C is corrupted. Damage to the device is possible if INC is driven low for an extended period of time. A
NC 6 Short-Circuited to Ground (Side-1) The device continues to function as expected. Normal operation. D
NC 6 Open-Circuited The device continues to function as expected. Normal operation. D
NC 6 Short-Circuited to Pin7 (EN1) The device continues to function as expected. Normal operation. D
NC 6 Short-Circuited to Supply (Side-1) The device continues to function as expected. Normal operation. D
EN1 7 Short-Circuited to Ground (Side-1) EN1 is stuck low, so the output buffer for OUTD is not enabled. Communication is corrupted for channel D. B
EN1 7 Open-Circuited Control on the input of EN1 is lost. EN1 has a weak internal pullup to VCC1. Communication on channel D continues normally since the weak internal pullup to VCC1 on EN1 enables the output buffer for OUTD. B
EN1 7 Short-Circuited to Pin8 (GND1) EN1 is stuck low, so the output buffer for OUTD is not enabled. Communication is corrupted for channel D. B
EN1 7 Short-Circuited to Supply (Side-1) Control on the input of EN1 is lost since EN1 is shorted to a logic high. Communication on channel D continues normally since the high on EN1 enables the output buffer for OUTD. B
GND1 8 Short-Circuited to Ground (Side-1) The device continues to function as expected. Normal operation. D
GND1 8 Open-Circuited The device receives return ground through pin 2 (GND1). Normal operation. D
GND1 8 Short-Circuited to Pin9 (N/A) Not applicable (N/A), corner pin. N/A
GND1 8 Short-Circuited to Supply (Side-1) The device has no power on side-1 (the supply input is shorted to ground). The outputs of OUTA, OUTB, and OUTC are at the default logic state. The output state of OUTD is undetermined. Observe that the absolute maximum ratings for all pins of the device are met; otherwise, damage to the device is possible. This short circuit potentially causes high current to flow between the two GND1 pins (pin2 and pin8); potentially damaging the device. A
GND2 9 Short-Circuited to Ground (Side-2) The device continues to function as expected. Normal operation. D
GND2 9 Open-Circuited The device receives return ground through pin 15 (GND2). Normal operation. D
GND2 9 Short-Circuited to Pin10 (EN2) EN2 is stuck low, so the output buffers for OUTA, OUTB, and OUTC are not enabled. Communication is corrupted for channels A, B, and C. B
GND2 9 Short-Circuited to Supply (Side-2) The device has no power on side-2 (the supply input is shorted to ground). The output of OUTD is at the default logic state. The output states of OUTA, OUTB, and OUTC are undetermined. Observe that the absolute maximum ratings for all pins of the device are met; otherwise, damage to the device is possible. This short circuit potentially causes high current to flow between the two GND2 pins (pin9 and pin15); potentially damaging the device. A
EN2 10 Short-Circuited to Ground (Side-2) EN2 is stuck low so the output buffers for OUTA, OUTB, and OUTC are not enabled. Communication is corrupted for channels A, B, and C. B
EN2 10 Open-Circuited Control on the input of EN2 is lost. EN2 has a weak internal pullup to VCC2. Communication on channels A, B, and C continues normally since the weak internal pullup to VCC2 on EN2 enables the output buffers for OUTA, OUTB, and OUTC. B
EN2 10 Short-Circuited to Pin11 (NC) The device continues to function as expected. Normal operation. D
EN2 10 Short-Circuited to Supply (Side-2) Control on the input of EN2 is lost since EN2 is shorted to a logic high. Communication from the on channels A, B, and C continues normally since the high on EN2 enables the output buffers for OUTA, OUTB, and OUTC. B
NC 11 Short-Circuited to Ground (Side-2) The device continues to function as expected. Normal operation. D
NC 11 Open-Circuited The device continues to function as expected. Normal operation. D
NC 11 Short-Circuited to Pin12 (INC) The device continues to function as expected. Normal operation. D
NC 11 Short-Circuited to Supply (Side-2) The device continues to function as expected. Normal operation. D
INC 12 Short-Circuited to Ground (Side-2) The input signal is shorted to ground, so the output of OUTC is stuck low. Communication through channel C is corrupted. B
INC 12 Open-Circuited Communication through channel C is not possible. The output of OUTC is at the default state (weak internal pullup or pulldown to the default state). B
INC 12 Short-Circuited to Pin13 (OUTB) Communication is corrupted for either channel or both channels. With an opposite logic state on both channels, high current can flow between the signals on INC, supply, and ground in OUTB and possibly cause damage to the device. A
INC 12 Short-Circuited to Supply (Side-2) The input signal is shorted to supply, so the output of OUTC is stuck high. Communication through channel C is corrupted. B
OUTB 13 Short-Circuited to Ground (Side-2) The output of OUTB is shorted to ground. Communication through channel B is corrupted. Damage to the device is possible if INB is driven high for an extended period of time. A
OUTB 13 Open-Circuited The state of the OUTB output is undetermined. Communication through channel B is corrupted. B
OUTB 13 Short-Circuited to Pin14 (OUTA) Communication is corrupted for either channel or both channels. With an opposite logic state on both channels, high current can flow between the pins, supply, and ground and possibly cause damage to the device. A
OUTB 13 Short-Circuited to Supply (Side-2) The output of OUTB is stuck high. Communication through channel B is corrupted. Device damage is possible if INB is driven low for an extended period of time. A
OUTA 14 Short-Circuited to Ground (Side-2) The output of OUTA is shorted to ground. Communication through channel A is corrupted. Damage to the device is possible if INA is driven high for an extended period of time. A
OUTA 14 Open-Circuited The state of the OUTA output is undetermined. Communication through channel A is corrupted. B
OUTA 14 Short-Circuited to Pin15 (GND2) The output of OUTA is shorted to ground. Communication through channel A is corrupted. Damage to the device is possible if INA is driven high for an extended period of time. A
OUTA 14 Short-Circuited to Supply (Side-2) The output of OUTA is stuck high. Communication through channel A is corrupted. Device damage is possible if INA is driven low for an extended period of time. A
GND2 15 Short-Circuited to Ground (Side-2) The device continues to function as expected. Normal operation. D
GND2 15 Open-Circuited The device receives return ground through pin 9 (GND2). Normal operation. D
GND2 15 Short-Circuited to Pin16 (VCC2) The device has no power on side-2 (the supply input is shorted to ground). The output of OUTD is at the default logic state. The output states of OUTA, OUTB, and OUTC are undetermined. Observe that the absolute maximum ratings for all pins of the device are met; otherwise, damage to the device is possible. This short circuit potentially causes high current to flow between the two GND2 pins (pin9 and pin15); potentially damaging the device. A
GND2 15 Short-Circuited to Supply (Side-2) The device has no power on side-2 (the supply input is shorted to ground). The output of OUTD is at the default logic state. The output states of OUTA, OUTB, and OUTC are undetermined. Observe that the absolute maximum ratings for all pins of the device are met; otherwise, damage to the device is possible. This short circuit potentially causes high current to flow between the two GND2 pins (pin9 and pin15); potentially damaging the device. A
VCC2 16 Short-Circuited to Ground (Side-2) The device has no power on side-2 (the supply input is shorted to ground). The output of OUTD is at the default logic state. The output states of OUTA, OUTB, and OUTC are undetermined. Observe that the absolute maximum ratings for all pins of the device are met; otherwise, damage to the device is possible. This short circuit potentially causes high current to flow between the two GND2 pins (pin9 and pin15); potentially damaging the device. A
VCC2 16 Open-Circuited The device has no power on side-2 (the supply input is open). The output of OUTD is at the default logic state. The output states of OUTA, OUTB, and OUTC are undetermined. Observe that the absolute maximum ratings for all pins of the device are met; otherwise, damage to the device is possible. A
VCC2 16 Short-Circuited to Pin1 (N/A) Not applicable (N/A), corner pin. N/A
VCC2 16 Short-Circuited to Supply (Side-2) The device continues to function as expected. Normal operation. D