SFFS663 september   2023 LMQ64480-Q1 , LMQ644A0-Q1 , LMQ644A2-Q1

 

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

Pin Failure Mode Analysis (Pin FMA)

This section provides a Failure Mode Analysis (FMA) for the pins of the LMQ644xx-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, Figure 4-2, and Figure 4-3 show the LMQ644xx-Q1 pin diagrams. For a detailed description of the device pins please refer to the Pin Configuration and Functions section in the LMQ644xx-Q1 data sheet.

GUID-3C741E8A-FD01-4C19-9EEB-374F3A37EDA2-low.svg Figure 4-1 Dual Pin Diagram
GUID-EBAA293F-A98A-4A28-96AE-DFE13521ABB4-low.svg Figure 4-2 Single Primary Pin Diagram
GUID-5EC7DCD0-8A4B-4967-9376-3BDCBFBBA3AC-low.svg Figure 4-3 Single Secondary Pin Diagram

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

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
VIN2 1 VOUT = 0 V B
CB2 2 VOUT = 0 V B
SW2 3 Potential Damage to HS FET A
PGND3 4 Normal Operation D
SW1 5 Potential Damage to HS FET A
CB1 6 VOUT = 0 V B
VIN1 7 VOUT = 0 V B
SERIES_CAP1 8 Series Capacitor is shorted internally. Device bypassing capacitance will increase as two series capacitors becomes single capacitor. D
PGND1 9 Normal Operation D
SYNC 10 Normal operation for PFM mode. C
PG1 11 Loss of Power Good Flag B
MODE 11 Normal operation for PFM mode. C
EN1 12 Device is Disabled C
BIAS/VOSNS1 13 VOUT1 = 0V short circuit B
FB1 14 If configured as 3.3V fixed, normal operation. If configured for other Vout, then Vout1 will be out of specification and output 3.3V B
VCC 15 Device is Disabled B
AGND 16 Normal Operation D
RT 17 VOUT = 0 V. No switching. B
FB2 18 If configured as 3.3V fixed, normal operation. If configured for other Vout, then Vout2 will be out of specification and output 3.3V B
SS 18 VOUT = 0 V B
VOSNS2 19 VOUT2 = 0V if FB2=VCC or GND. B/C
COMP 19 VOUT = 0 V B
EN2 20 Second Channel is disabled B
CONFIG 21 Device is Configured as Dual Output Voltage B
PG2 22 Loss of Power Good Flag B
SYNCOUT 22 If primary, secondary and tertiary devices will not switch. If secondary, tertiary device will not switch. If tertiary, no effect B
PGND2 23 Normal Operation D
SERIES_CAP2 24 Series Capacitor is shorted internally. Device bypassing capacitance will increase as two series capacitors becomes single capacitor. D
PGND 25 Normal Operation D
Table 4-3 Pin FMA for Device Pins Open-Circuited
Pin Name Pin No Description of Potential Failure Effect(s) Failure Effect Class
VIN2 1 VOUT2 = 0V B
CB2 2 VOUT2 will collapse under load as FET gate voltage is not enough to fully enhance. Damage may occur if current is pulled from switch. A
SW2 3 VOUT2 = 0V B
PGND3 4 Normal Operation D
SW1 5 VOUT1 = 0V B
CB1 6 VOUT1 will collapse under load as FET gate voltage is not enough to fully enhance. Damage may occur if current is pulled from switch. A
VIN1 7 VOUT1 = 0V B
SERIES_CAP1 8 Normal Operation D
PGND1 9 Normal Operation D
SYNC 10 Device can toggle between PFM and PWM modes C
PG1 11 Loss of Power Good Flag B
MODE 11 Device can toggle between PFM and PWM modes C
EN1 12 Loss of Disable Function C
BIAS/VOSNS1 13 If in fixed output configuration, Vout >> than set point. If in adjustable Vout configuration, slight increase in input current. B
FB1 14 Part configuration will be randomly selected between Fixed 5V or Adjustable. B/C
VCC 15 Part can turn on and off as VCC uvlo is triggered. B
AGND 16 Normal Operation D
RT 17 VOUT = 0 V. No switching. B
FB2 18 Part configuration will be randomly selected between Fixed 5V or Adjustable. B/C
SS 18 Fast Soft Start D
VOSNS2 19 If in fixed output configuration, Vout >> than set point. B
COMP 19 Device can have oscillations on VOUT B
EN2 20 Loss of Disable Function C
CONFIG 21 VOUT = 0 V. No switching. B
PG2 22 Loss of Power Good Flag B
SYNCOUT 22 If primary, secondary and tertiary devices will not switch. If secondary, tertiary device will not switch. If tertiary, no effect B
PGND2 23 Normal Operation D
SERIES_CAP2 24 Normal Operation D
PGND 25 Normal Operation D
Table 4-4 Pin FMA for Device Pins Short-Circuited to Adjacent Pin
Pin Name Pin No Description of Potential Failure Effect(s) Failure Effect Class
VIN2 1 Boot driver will be damaged A
CB2 2 VOUT2 = 0 B
SW2 3 Potential Damage to HS FET A
PGND3 4 Potential Damage to HS FET A
SW1 5 VOUT1 = 0 B
CB1 6 Boot driver will be damaged A
VIN1 7 Series Capacitor is shorted internally. Device bypassing capacitance will increase as two series capacitors becomes single capacitor. D
SERIES_CAP1 8 Series Capacitor is shorted internally. Device bypassing capacitance will increase as two series capacitors becomes single capacitor. D
PGND1 9 Normal operation for AUTO mode. C
SYNC 10 For PG < 5.5V. Device will start in PFM and transition to PWM after start up. For PG > 5.5V damage may occur. For mode, part might enter PFWM of PWM mode based on SYNC logic A
PG1 11 For EN < 20V. Device damage could occur if PG FET current limit is exceed. For EN > 20V, PGOOD FET can be damaged. A
MODE 11 For EN < 20V. Normal Operation For EN > 20V, PGOOD FET can be damaged. A
EN1 12 For EN < 5V. Output voltage out of range. For EN > 5V, device damge can occur if current is not limited A
BIAS/VOSNS1 13 If configured as 3.3V fixed, normal operation. If configured for other Vout, then Vout1 will be out of specification and output 3.3V B
FB1 14 If configured as 5V fixed, normal operation. If configured for other Vout, then Vout1 will be out of specification and output 5V B
VCC 15 Vout1 = Vout 2 = 0V B
AGND 16 VOUT = 0 V. No switching. B
RT 17 Switching Frequency and output voltage will be incorrect. B
FB2 18 If FB2 is grounded, Vout2 >> than set point. If FB2 is VCC then VCC will be pulled to 5V, no damage should occur. If FB2 is resistor divider the Vout will be 3.3Vout and see a load from the FB resistance to ground. B
SS 18 Fast Soft Start C
VOSNS2 19 VOUT2 >> than set point B
COMP 19 EN > 5.5V. Damage of comparator if not current limited. A
EN2 20 EN2 < 5.5V. Device is Configured as Dual Output Voltage. EN2 > 5.5 damge if not current limited A
CONFIG 21 Device is Configured as Dual Output Voltage B
PG2 22 Loss of Power Good Flag B
SYNCOUT 22 If primary, secondary and tertiary devices will not switch. If secondary, tertiary device will not switch. If tertiary, no effect B
PGND2 23 Normal Operation D
SERIES_CAP2 24 Series Capacitor is shorted internally. Device bypassing capacitance will increase as two series capacitors becomes single capacitor. D
PGND 25 Series Capacitor is shorted internally. Device bypassing capacitance will increase as two series capacitors becomes single capacitor. D
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
VIN2 1 Normal Operation D
CB2 2 Boot driver will be damaged A
SW2 3 Potential Damage to LS FET A
PGND3 4 VOUT = 0 V B
SW1 5 Potential Damage to LS FET A
CB1 6 Boot driver will be damaged A
VIN1 7 Normal Operation D
SERIES_CAP1 8 Series Capacitor is shorted internally. Device bypassing capacitance will increase as two series capacitors becomes single capacitor. D
PGND1 9 VOUT = 0 V B
SYNC 10 Potential Damage for VIN > 5.5V A
PG1 11 Loss of Power Good Flag. Potential Damage if not current limited A
MODE 11 Normal operation for PWM mode. Potential Damage for VIN > 5.5V A
EN1 12 Device is enabled C
BIAS/VOSNS1 13 Potential damage from permanent short across converter A
FB1 14 Potential Damage for VIN > 5.5V A
VCC 15 Potential Damage for VIN > 5.5V A
AGND 16 VOUT = 0 V B
RT 17 Potential Damage for VIN > 5.5V A
FB2 18 Potential Damage for VIN > 5.5V A
SS 18 Potential Damage for VIN > 5.5V A
VOSNS2 19 Potential Damage for VIN > 5.5V A
COMP 19 Potential Damage for VIN > 5.5V A
EN2 20 Second Channel is enabled C
CONFIG 21 Potential Damage for VIN > 5.5V A
PG2 22 Potential Damage for VIN > 20V or lower if not current limited A
SYNCOUT 22 Potential Damage for VIN > 5.5V or lower if not current limited A
PGND2 23 VOUT = 0 V B
SERIES_CAP2 24 Series Capacitor is shorted internally. Device bypassing capacitance will increase as two series capacitors becomes single capacitor. D
PGND 25 VOUT = 0 V B