SLVAEP3A February   2020  – November 2020 TPS57114C-Q1

 

  1.   Trademarks
  2. 1Overview
  3. 2Functional Safety Failure In Time (FIT) Rates
  4. 3Failure Mode Distribution (FMD)
  5. 4Pin Failure Mode Analysis (Pin FMA)
  6. 5Revision History

Pin Failure Mode Analysis (Pin FMA)

This section provides a Failure Mode Analysis (FMA) for the pins of the TPS57114C-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 VIN (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
ClassFailure Effects
APotential device damage that affects functionality
BNo device damage, but loss of functionality
CNo device damage, but performance degradation
DNo device damage, no impact to functionality or performance

Figure 4-1 shows the TPS57114C-Q1 pin diagram. For a detailed description of the device pins please refer to the Pin Configuration and Functions section in the TPS57114C-Q1 data sheet.

GUID-558433A8-DD3B-4A8A-A8CA-9D8D470314EC-low.gif Figure 4-1 Pin Diagram

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

  • Assumption the device is running in the typical application, please refer to the 'Simplified Schematics' on the

    1st page in the TPS57114C-Q1 datasheet.

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
VIN 1 Device does not power up, no output voltage B
VIN 2 Device does not power up, no output voltage B
GND 3 Normal operation D
GND 4 Normal operation D
AGND 5 Normal operation D
VSENSE 6 100% duty cycle operation, no regulated output voltage. Output voltage will follow the input voltage and go low periodically during refresh cycles of the bootstrap capacitor B
COMP 7 0% duty cycle operation, no output voltage B
RT/CLK 8 Device is not switching, no output voltage B
SS/TR 9 Device does not turn on, no output voltage B
PH 10 Potential device damage A
PH 11 Potential device damage A
PH 12 Potential device damage A
BOOT 13 Damage the VIN to BOOT path A
PWRGD 14 PWRGD signal is always low, output voltage is regulated as programmed B
EN 15 Device is disabled, no output voltage B
VIN 16 Device does not power up, no output voltage B
Table 4-3 Pin FMA for Device Pins Open-Circuited
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
VIN 1 Normal operation, pins 2 and 16 are still connected C
VIN 2 Normal operation, pins 1 and 16 are still connected C
GND 3 Normal operation, pin 4 is still connected C
GND 4 Normal operation, pin 3 is still connected C
AGND 5 Normal operation, potential jitter issues C
VSENSE 6 100% or 0% duty cycle operation, no regulated output voltage. Output voltage will either follow the input voltage and go low periodically during refresh cycles of the bootstrap capacitor or no output voltage B
COMP 7 No loop compensation, output voltage can oscillate B
RT/CLK 8 Very low switching frequency operation B
SS/TR 9 No softstart function, output voltage is regulated as programmed C
PH 10 Normal operation, pins 11 and 12 are still connected C
PH 11 Normal operation, pins 10 and 12 are still connected C
PH 12 Normal operation, pins 10 and 11 are still connected C
BOOT 13 Boot capacitor is not charged, high side switch cannot be turned on, no output voltage B
PWRGD 14 PWRGD signal is not available, output voltage is regulated as programmed B
EN 15 EN pin is internally pulled up, device cannot be disabled, output voltage is regulated as programmed B
VIN 16 Normal operation, pins 1 and 2 are still connected C
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
VIN 1 2 Normal operation D
VIN 2 3 Device does not power up, no output voltage B
GND 3 4 Normal operation D
GND 4 5 Normal operation D
AGND 5 6 100% duty cycle operation, no regulated output voltage. Output voltage will follow the input voltage and go low periodically during refresh cycles of the bootstrap capacitor B
VSENSE 6 7 No loop compensation, can cause output voltage oscillating. Oscillation frequency cannot be predicted. B
COMP 7 8 Device will not start properly, no output voltage or too low output voltage B
RT/CLK 8 9 tracking driven by RT/CLK voltage, low voltage at the output B
SS/TR 9 10 Potential device damage, no output voltage A
PH 10 11 Normal operation D
PH 11 12 Normal operation D
PH 12 13 Boot capacitor is not charged, high side switch cannot be turned on, no output voltage B
BOOT 13 14 Potential device damage A
PWRGD 14 15 Potential device damage A
EN 15 16 Device cannot be disabled, output voltage is regulated as programmed C
VIN 16 1 Normal operation D
Table 4-5 Pin FMA for Device Pins Short-Circuited to VIN
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
VIN 1 Normal operation D
VIN 2 Normal operation D
GND 3 Device does not power up, no output voltage B
GND 4 Device does not power up, no output voltage B
AGND 5 Device does not power up, no output voltage B
VSENSE 6 Potential device damage A
COMP 7 Potential device damage A
RT/CLK 8 Device is not switching, no output voltage B
SS/TR 9 Potential device damage A
PH 10 Potential device damage A
PH 11 Potential device damage A
PH 12 Potential device damage A
BOOT 13 Boot capacitor is not charged, high side switch cannot be turned on, no output voltage B
PWRGD 14 Potential device damage A
EN 15 Device cannot be disabled, output voltage is regulated as programmed C
VIN 16 Normal operation D