SFFS364 May   2022 TPS4811-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)

4 Pin Failure Mode Analysis (Pin FMA)

This section provides a Failure Mode Analysis (FMA) for the pins of the TPS4811x-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 4-2)
  • Pin short-circuited to an adjacent pin (see Table 4-2)
  • Pin short-circuited to supply (see Table 4-2)

Table 4-2 through Table 4-2 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 TPS4811x-Q1 pin diagram. For a detailed description of the device pins please refer to the Pin Configuration and Functions section in the TPS4811x-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:

  • Follow the data sheet recommendation for operating conditions, external component selection, and PCB layout.
Table 4-2 Pin FMA for Device Pins Short-Circuited to Ground
Pin NamePin No.Description of Potential Failure Effect(s)Failure Effect Class

EN/UVLO

1Normal operation. The device is disabled.B
OV2TPS48110-Q1 Only. OV functionality is disabled.B

INP_G

2

TPS48111-Q1 Only. Normal operation. The G output is low and the external precharge FET is off.

B

INP

3Normal operation. The PD output is low and the external FET is off.B

FLT_T

4

Overtemperature fault diagnostic cannot be reported.

B

FLT_I

5Overcurrent fault diagnostic cannot be reported.

B

GND

6

Normal operation

D

IMON

7

IMON output cannot be reported.B

IWRN

8

Overcurrent does not get detected, hence overcurrent protection gets disabled.B

TMR

9

Overcurrent does not get detected, hence overcurrent protection gets disabled.

B

DIODE

10

Overtemperature does not get detected, hence overtemperature protection gets disabled.B

N.C

11TPS48110-Q1 Only. No effect.

D

G

11

TPS48111-Q1 only. With G grounded, if the pin voltage between SRC and G exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on ESD circuit.

A

BST

12

Gate Driver supply does not come up. FETs remain OFF.

B

SRC

13

Short-to-GND protection kicks in

B

PD

14

With PD grounded, if the pin voltage between SRC and PD exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on ESD circuit.

A

PU

15

Gate Driver supply gets short circuited. FETs remain OFF.

B

CS-

17

Short circuit of input supply

B

CS+

18

With CS+ grounded, if the pin voltage between CS+ and CS– exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on ESD circuit.

A

ISCP

19

With ISCP grounded, if the pin voltage between ISCP and CS– exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on ESD circuit.

A

VS

20

Device supply grounded. Device does not power up.

B

Table 4-3 Pin FMA for Device Pins Open-Circuited
Pin NamePin No.Description of Potential Failure Effect(s)Failure Effect Class

EN/UVLO

1

Internal pulldown brings EN/UVLO to low, disabling the device.

B
OV2TPS48110-Q1 only. OV functionality gets disabled as OV gets internally pulled down to 0 V.

B

INP_G

2

TPS48111-Q1 only. Internal pulldown brings INP_G to low, pulling G output low.

B

INP

3Internal pulldown brings INP to low, pulling PD output low.B

FLT_T

4Overtemperature fault diagnostic cannot be reported.B

FLT_I

5Overcurrent fault diagnostic cannot be reported.

B

GND

6

Device does not power up and is disabled.

B

IMON

7

IMON voltage can get clamped to internal supply of 6.5 V.

B

IWRN

8

IWRN voltage can get clamped to internal supply of 4.5 V.B

TMR

9

Overcurrent response time and auto-retry duration gets reduced to device minimum setting.C

DIODE

10

Overtemperature protection gets disabled.B

N.C

11

No effect

D

G

11

G output does not get controlled.

B

BST

12

External FET may get turned ON and OFF repetitively due to no capacitor connection at BST pin.

B

SRC

13

The external FET does turn OFF as the FET's source got disconnected from the internal pulldown driver.B

PD

14

The external FET does not turn OFF as the FET's GATE disconnected from the internal pulldown driver.B

PU

15

The external FET does not turn ON as the FET's GATE disconnected from the internal pullup driver.

B

CS-

17

CS– gets internally clamped to CS+ minus two diode drops. If IWRN feature is used, then the external FET may not turn ON due to false overcurrent detection.

B

CS+

18

IMON and overcurrent protection features get disabled.

B

ISCP

19

Short-circuit protection feature gets disabled.

B

VS

20

Device does not get powered up and is disabled.

B

Table 4-4 Pin FMA for Device Pins Short-Circuited to Adjacent Pin
Pin NamePin No.

Shorted to

Description of Potential Failure Effect(s)Failure Effect Class

EN/UVLO

1

2 (OV)

TPS48110-Q1 only. When EN/UVLO is driven high then based on the EN/UVLO level the device may detect the OV event and turn off the external FET. B
EN/UVLO

1

2 (INP_G)

TPS48111-Q1 only. When EN/UVLO is driven high then based on the EN/UVLO level INP_G may get detected high and G may go high turning ON the external precharge FET.

B

OV2

3 (INP)

TPS48110-Q1 only. When INP is driven high then based on INP level the device may detect the OV event and turn off the external FET.B

INP_G

2

3 (INP)

TPS48111-Q1 only. Both PU/PD and G are controlled together.

B

INP

3

4 (FLT_T)

When an overtemperature fault occurs, then INP gets pulled low and stays latched off in this state.

B

FLT_T

4

5 (FLT_I)

FLT_T and FLT_I gets ORd together.

B

FLT_I

5

6 (GND)

Overcurrent fault does not get indicated.

B

GND

6

7 (IMON)

IMON output does not get reported.B

IMON

7

8 (IWRN)

IMON output range and IWRN set point gets changed based on the total bias currents flowing through the IMON and IWRN resistors.

C

IWRN

8

9 (TMR)

TMR and IWRN thresholds get affected. External FET shuts off at a different threshold than set by IWRN. During an overcurrent fault, TMR feature become inactive and the device is in latch-off mode.

C

TMR

9

10 (DIODE)

Auto-retry feature is disabled. Overtemperature feature may give false errors and cause the external FET to turn OFF.

B

N.C

11

12 (BST)

TPS48110-Q1 only. No effect.

D

G

11

12 (BST)

TPS48111-Q1 only. When INP_G is driven low, BST (Gate driver supply) gets loaded through the internal G pulldown switch. Gate driver UVLO hits resulting in turning off the external FETs.

B

BST

12

13 (SRC)

Gate drive supply gets shorted and external FETs do not turn ON.B
SRC

13

14 (PD)

Shorting of the pulldown switch (between PD and SRC) of the internal gate driver. External FET remains OFF.B

PD

14

15 (PU)

Turn ON and OFF speeds of the external FETs may get impacted.

C

CS-

17

18 (CS+)

Bypasses the external current sense resistor. IMON, OCP features get disabled.

B

CS+

18

19 (ISCP)

Short-circuit threshold gets reduced.

C

ISCP

19

20 (VS)

Short-circuit protection gets set to minimum setting.

C

Table 4-5 Pin FMA for Device Pins Short-Circuited to supply
Pin NamePin No.Description of Potential Failure Effect(s)Failure Effect Class

EN/UVLO

1If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

OV2If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

INP_G

2

If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

INP

3If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

FLT_T

4If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

FLT_I

5If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

GND

6

Supply power is bypassed and device doe not turn on.B

IMON

7

If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

IWRN

8

If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

TMR

9

If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

DIODE

10

If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

N.C

11TPS48110-Q1 only. No effect.

D

G

11

TPS48111-Q1 only. If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

BST

12

If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

SRC

13

Output stuck on to supply

B

PD

14

If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

PU

15

If pin voltage exceeds the pin data sheet range, it may cause device damage due to voltage breakdown on the ESD circuit.

A

CS-

17

In the application, the external sense resistor gets bypassed and IMON, overcurrent and short-circuit protection do not work.

A

CS+

18

IMON and IWRN outputs get saturated. External FET may get turned OFF.

B

ISCP

19

Short-circuit protection gets set to minimum setting.

C

VS

20

No effect

D