SCDA023B April   2020  – January 2022 TMUX1308-Q1 , TMUX1309-Q1

 

  1.   Trademarks
  2. 1Overview
  3. 2Functional Safety Failure In Time (FIT) Rates
    1. 2.1 TSSOP, SOT-23-THIN, and WQFN Packages
  4. 3Failure Mode Distribution (FMD)
  5. 4Pin Failure Mode Analysis (Pin FMA)
    1. 4.1 TMUX1308-Q1 TSSOP and SOT-23-THIN Package
    2. 4.2 TMUX1308-Q1 WQFN Package
    3. 4.3 TMUX1309-Q1 TSSOP and SOT-23-THIN Package
    4. 4.4 TMUX1309-Q1 WQFN Package
  6. 5Revision History

TMUX1308-Q1 WQFN Package

The figure below shows the TMUX1308-Q1 pin diagram for the WQFN package. For a detailed description of the device pins please refer to the Pin Configuration and Functions section in the TMUX1308-Q1 and TMUX1309-Q1 data sheet.

Figure 4-3 Pin Diagram for TMUX1308-Q1 in WQFN Package
Table 4-6 Pin FMA for Device Pins Short-Circuited to Ground

Pin Name

Pin No.

Description of Potential Failure Effect(s)

Failure Effect Class

S4

1

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

S6

2

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

D

3

Corruption of signal passed onto the S pins. If there is no limiting resistor in the switch path, then device damage is possible.

A

S7

4

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

S5

5

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

EN

6

EN stuck low. Can no longer disable the device without power down.

B

N.C.

7

No effect, unconnected pin.

D

GND

8

No effect, normal operation.

D

A2

9

Address stuck low. Cannot control switch states.

B

A1

10

Address stuck low. Cannot control switch states.

B

A0

11

Address stuck low. Cannot control switch states.

B

S3

12

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

S0

13

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

S1

14

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

S2

15

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

VDD

16

Device is unpowered. Device is not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage is possible.

A

Thermal pad

No effect, normal operation.

D

Table 4-7 Pin FMA for Device Pins Open-Circuited

Pin Name

Pin No.

Description of potential failure effect(s)

Failure effect class

S4

1

Corruption of signal passed onto the D pin.

B

S6

2

Corruption of signal passed onto the D pin.

B

D

3

Corruption of signal passed onto the S pins.

B

S7

4

Corruption of signal passed onto the D pin.

B

S5

5

Corruption of signal passed onto the D pin.

B

EN

6

Control of the EN pin is lost. Cannot disable switch. Will default to switches disabled.

B

N.C.

7

No effect, unconnected pin.

D

GND

8

Device is unpowered. Device is not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage is possible.

A

A2

9

Control of the address pin is lost. Cannot control switch.

B

A1

10

Control of the address pin is lost. Cannot control switch.

B

A0

11

Control of the address pin is lost. Cannot control switch.

B

S3

12

Corruption of signal passed onto the D pin.

B

S0

13

Corruption of signal passed onto the D pin.

B

S1

14

Corruption of signal passed onto the D pin.

B

S2

15

Corruption of signal passed onto the D pin.

B

VDD

16

Device is unpowered. Device is not functional.

B

Thermal pad

No effect, normal operation.

D

Table 4-8 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

S4

1

S6

Possible corruption of signal passed onto the D pin.

B

S6

2

D

Possible corruption of signal passed onto the SX and D pin.

B

D

3

S7

Possible corruption of signal passed onto the SX and D pin.

B

S7

4

S5

Possible corruption of signal passed onto the D pin.

B

S5

5

EN

Possible corruption of signal passed onto the D pin. Switch state will be undefined.

B

EN

6

N.C.

No connect pin electrically floating, no effect.

D

N.C.

7

GND

No connect pin electrically floating, no effect.

D

GND

8

A2

Not considered, corner pin.

D

A2

9

A1

Loss of control of switch state.

B

A1

10

A0

Loss of control of switch state.

B

A0

11

S3

Possible corruption of signal passed onto the D pin. Loss of control of switch state.

B

S3

12

S0

Possible corruption of signal passed onto the D pin.

B

S0

13

S1

Possible corruption of signal passed onto the D pin.

B

S1

14

S2

Possible corruption of signal passed onto the D pin.

B

S2

15

VDD

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

VDD

16

S4

Not considered, corner pin.

D

Table 4-9 Pin FMA for Device Pins Short-Circuited to VDD

Pin Name

Pin No.

Description of potential failure effect(s)

Failure effect class

S4

1

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

S6

2

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

D

3

Corruption of signal passed onto the S pins. If there is no limiting resistor in the switch path, then device damage is possible.

A

S7

4

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

S5

5

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

EN

6

EN stuck high. Can no longer enable the device.

B

N.C.

7

No effect, unconnected pin.

D

GND

8

Device is unpowered. Device is not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible.

A

A2

9

Address stuck high. Cannot control switch states.

B

A1

10

Address stuck high. Cannot control switch states.

B

A0

11

Address stuck high. Cannot control switch states.

B

S3

12

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

S0

13

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

S1

14

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

S2

15

Corruption of signal passed onto the D pin. If there is no limiting resistor in the switch path, then device damage is possible.

A

VDD

16

No effect, normal operation.

D

Thermal pad

No connect pin electrically floating, no effect.

D