SFFS012 February 2024 LM7480-Q1

4 Pin Failure Mode Analysis (Pin FMA)

This section provides a Failure Mode Analysis (FMA) for the pins of the LM7480-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 LM7480-Q1 pin diagram. For a detailed description of the device pins please refer to the Pin Configuration and Functions section in the LM7480-Q1 data sheet.

Figure 4-1 Pin Diagram

The pin FMA is provided under the assumption that the device is operating under the specified ranges within the Recommended Operating Conditions section of the data sheet.

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
DGATE	1	Device will damage due to internal conduction. External DGATE FET can also damage due to maximum VGS rating violation.	A
A	2	Input supply shorted to ground. Device will not be functional.	B
VSNS	3	Input supply monitoring feature will not be available.	B
SW	4	No device damage is expected if VSNS is floating. Device will get damaged if VSNS connected to A.	A
OV	5	Overvoltage protection functionality will be disabled.	B
EN/UVLO	6	Device will be in shutdown mode.	B
GND	7	No impact on the device functionality.	D
HGATE	8	HGATE gate drive will be off.	B
OUT	9	No device damage is expected. External FET VGS(max) rating can exceed and damage external FET.	D
VS	10	Device will not power up.	B
CAP	11	Device will damage due to internal conduction between VS and CAP.	A
C	12	Linear regulation and reverse current blocking functionality will not be available. Device quiescent current can increase.	B

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

Pin Name	Pin No.	Description of Potential Failure Effect(s)	Failure Effect Class
DGATE	1	External FET will be off as DGATE drive is open.	B
A	2	DGATE drive will be off.	B
VSNS	3	Input supply monitoring feature will not be available.	B
SW	4	Input supply monitoring feature will not be available.	B
OV	5	Overvoltage functionality is not controlled, it can turn HGATE ON/OFF.	B
EN/UVLO	6	Device will be in shutdown mode due to internal pull-down on EN/UVLO pin.	B
GND	7	Device will not power up.	B
HGATE	8	HGATE FET will be off as HGATE gate drive is open.	B
OUT	9	HGATE FET will not be able to turn off as OUT is floating.	B
VS	10	Device will not power up.	B
CAP	11	DGATE and HGATE may turn on and off as part can enter CP UVLO cycle due to insufficient decoupling cap.	B
C	12	DGATE drive will be off in case of LM74800-Q1. DGATE drive will remain on in case of LM74801-Q1.	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
DGATE	1	A	DGATE FET is always off as external FET GATE to SOURCE is shorted.	B
A	2	VSNS	No impact on device functionality.	D
VSNS	3	SW	Input supply monitoring feature will always be available.	B
SW	4	OV	HGATE will turn off provided SW pin voltage is higher than overvoltage comparator threshold.	B
OV	5	EN/UVLO	HGATE will be on/off based on EN/UVLO voltage level being lower/higher than overvoltage comparator threshold.	B
EN/UVLO	6	—	No impact on device operation.	D
GND	7	HGATE	HGATE will be pulled low and external FET will be off.	B
HGATE	8	OUT	HGATE FET will be off as FET GATE to SOURCE is shorted.	B
OUT	9	VS	HGATE FET gets bypassed. Overvoltage protection and load disconnect functionality will not be available.	B
VS	10	CAP	Charge pump will not power up. DGATE and HGATE drive will remain off.	B
CAP	11	C	Charge pump will not come up. DGATE and HGATE drives will be off.	B
C	12	—	No impact on device operation.	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
DGATE	1	DGATE FET is always off as external FET GATE to SOURCE is shorted.	B
A	2	No impact on device operation.	D
VSNS	3	No impact on device operation.	D
SW	4	Input supply monitoring feature will always be available.	B
OV	5	HGATE will be off due to overvoltage comparator input higher than overvoltage threshold.	B
EN/UVLO	6	Device will be always on. Undervoltage functionality will not be available.	B
GND	7	Input supply shorted to ground. Device will not power up.	B
HGATE	8	HGATE gate drive will be off and device quiescent current can increase.	B
OUT	9	Input is shorted to output. Device functionality will not be available.	B
VS	10	DGATE FET is shorted. Reverse polarity and reverse current blocking feature is not available.	B
CAP	11	Charge pump will not power up. DGATE and HGATE drive will remain off.	B
C	12	Linear regulation and reverse current blocking functionality will not be available.	B