SFFS816 March   2024 TMUX4051-Q1 , TMUX4052-Q1

 

  1.   1
  2.   Trademarks
  3. 1Overview
  4. 2Functional Safety Failure In Time (FIT) Rates
    1. 2.1 TSSOP Package
    2. 2.2 SOT-23-THIN Package
    3. 2.3 WQFN Package
  5. 3Failure Mode Distribution (FMD)
  6. 4Pin Failure Mode Analysis (Pin FMA)
    1. 4.1 TMUX4051-Q1: TSSOP and SOT-23-THIN Packages
    2. 4.2 TMUX4051-Q1: WQFN Package
    3. 4.3 TMUX4052-Q1: TSSOP and SOT-23-THIN Packages
    4. 4.4 TMUX4052-Q1: WQFN Package

TMUX4052-Q1: TSSOP and SOT-23-THIN Packages

Figure 4-4 and Figure 4-5 show the TMUX4052-Q1 pin diagram for the TSSOP and SOT-23-THIN packages. For a detailed description of the device pins, see the Pin Configuration and Functions section in the TMUX405x-Q1 data sheet.

Figure 4-4 Pin Diagram (TSSOP) Package
Figure 4-5 Pin Diagram (SOT-23-THIN) Package
Table 4-12 Pin FMA for Device Pins Short-Circuited to Ground
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
S0B 1 Corruption of signal passed onto the DB pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S2B 2 Corruption of signal passed onto the DB pin. If there is no limiting resistor in the switch path, then device damage is possible. A
DB 3 Corruption of signal passed onto the SxB pins. If there is no limiting resistor in the switch path, then device damage is possible. A
S3B 4 Corruption of signal passed onto the DB pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S1B 5 Corruption of signal passed onto the DB 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
VSS 7 There is no effect; this is normal operation, if the switch path signal voltages are positive. Possible damage to the device if the switch path signal voltages are negative. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be possible. A
GND 8 No effect, normal operation. D
A1 9 Address stuck low. Cannot control switch. B
A0 10 Address stuck low. Cannot control switch. B
S3A 11 Corruption of signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S0A 12 Corruption of signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
DA 13 Corruption of signal passed onto the SxA pins. If there is no limiting resistor in the switch path, then device damage is possible. A
S1A 14 Corruption of signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S2A 15 Corruption of signal passed onto the DA 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 may be possible. A
Table 4-13 Pin FMA for Device Open-Circuited
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
S0B 1 Corruption of the signal passed onto the DB pin. B
S2B 2 Corruption of the signal passed onto the DB pin. B
DB 3 Corruption of the signal passed onto the SxB pins. B
S3B 4 Corruption of the signal passed onto the DB pin. B
S1B 5 Corruption of the signal passed onto the DB pin. B
EN 6 Loss of control of the EN pin. Cannot turn off the device. B
VSS 7 Device is unpowered and not functional. B
GND 8 Device unpowered. Device not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage is possible. A
A1 9 Control of the address pin is lost. Cannot control switch. B
A0 10 Control of the address pin is lost. Cannot control switch. B
S3A 11 Corruption of the signal passed onto the DA pin. B
S0A 12 Corruption of the signal passed onto the DA pin. B
DA 13 Corruption of the signal passed onto the SxA pins. B
S1A 14 Corruption of the signal passed onto the DA pin. B
S2A 15 Corruption of the signal passed onto the DA pin. B
VDD 16 Device is unpowered. Device is not functional. B
Table 4-14 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
S0B 1 S2B Possible corruption of the signal passed onto the DB pin. B
S2B 2 DB Possible corruption of the signal passed onto the SxB and DB pin. B
DB 3 S3B Possible corruption of the signal passed onto the SxB and DB pin. B
S3B 4 S1B Possible corruption of the signal passed onto the DB pin. B
S1B 5 EN Possible corruption of the signal passed onto the DB pin. Switch state will be undefined. B
EN 6 VSS Possible damage to device if the signal voltage is negative. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be possible. A
VSS 7 GND Possible damage to device if the signal voltage is negative. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be possible. A
GND 8 A1 Not considered, corner pin. D
A1 9 A0 Control of the address pin is lost. Cannot control switch. B
A0 10 S3A Possible corruption of the signal passed onto the DA pin. Control of the address pin is lost. Cannot control switch. B
S3A 11 S0A Possible corruption of the signal passed onto the DA pin. B
S0A 12 DA Possible corruption of the signal passed onto the SxA and DA pin. B
DA 13 S1A Possible corruption of the signal passed onto the SxA and DA pin. B
S1A 14 S2A Possible corruption of the signal passed onto the DA pin. B
S2A 15 VDD Corruption of the signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
VDD 16 S0B Not considered, corner pin. D
Table 4-15 Pin FMA for Device Pins Short-Circuited to VDD
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
S0B 1 Corruption of signal passed onto the DB pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S2B 2 Corruption of signal passed onto the DB pin. If there is no limiting resistor in the switch path, then device damage is possible. A
DB 3 Corruption of signal passed onto the SxB pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S3B 4 Corruption of signal passed onto the DB pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S1B 5 Corruption of signal passed onto the DB 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
VSS 7 Device is unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be possible. A
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 possible. A
A1 9 Address stuck high. Cannot control switch. B
A0 10 Address stuck high. Cannot control switch. B
S3A 11 Corruption of signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S0A 12 Corruption of signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
DA 13 Corruption of signal passed onto the SxA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S1A 14 Corruption of signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S2A 15 Corruption of signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
VDD 16 No effect, normal operation. D
Table 4-16 Pin FMA for Device Pins Short-Circuited to VSS
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
S0B 1 Corruption of the signal passed onto the DB pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S2B 2 Corruption of the signal passed onto the DB pin. If there is no limiting resistor in the switch path, then device damage is possible. A
DB 3 Corruption of the signal passed onto the SxB pins. If there is no limiting resistor in the switch path, then device damage is possible. A
S3B 4 Corruption of the signal passed onto the DB pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S1B 5 Corruption of the signal passed onto the DB pin. If there is no limiting resistor in the switch path, then device damage is possible. A
EN 6 Possible damage to the device if the signal voltage is negative. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be possible. A
VSS 7 No effect, normal operation. D
GND 8 Possible damage to the device if signal voltage is negative. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage is possible. A
A1 9 Possible damage to the device if the signal voltage is negative. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be possible. A
A0 10 Possible damage to the device if the signal voltage is negative. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be possible. A
S3A 11 Corruption of the signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S0A 12 Corruption of the signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
DA 13 Corruption of the signal passed onto the SxA pins. If there is no limiting resistor in the switch path, then device damage is possible. A
S1A 14 Corruption of the signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
S2A 15 Corruption of the signal passed onto the DA pin. If there is no limiting resistor in the switch path, then device damage is possible. A
VDD 16 Possible damage to the device if the signal voltage is negative. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be possible. A