SFFS146 November   2021 TCAN11623-Q1 , TCAN11625-Q1

 

  1.   Trademarks
  2. 1Overview
  3. 2Functional Safety Failure In Time (FIT) Rates
    1. 2.1 TCAN11623-Q1 DMT Package
    2. 2.2 TCAN11625-Q1 DMT Package
  4. 3Failure Mode Distribution (FMD)
  5. 4Pin Failure Mode Analysis (Pin FMA)
    1. 4.1 TCAN11623-Q1 DMT Package
    2. 4.2 TCAN11625-Q1 DMT Package

4.1 TCAN11623-Q1 DMT Package

Figure 4-1 shows the TCAN11623-Q1 pin diagram for the DMT package. For a detailed description of the device pins please refer to the Pin Configuration and Functions section in the TCAN11623-Q1 data sheet.

Figure 4-1 Pin Diagram (TCAN11623-Q1 DMT) Package
Table 4-2 Pin FMA for Device Pins Short-Circuited to Ground
Pin NamePin No.Description of Potential Failure Effect(s)Failure Effect Class
TXD1Device will enter dominant timeout mode. Unable to transmit data from processor to CAN busB
GND2NoneD
VFLT3Internal power rail held to ground, which results in unpowered device and high ISUP current. No communication with device or CAN bus possibleB
RXD4Transceiver output biased dominant. Unable to send data from CAN bus to processorB
VIO5Digital pins unpowered, high IIO current. No communication between device and processor possibleB
TS6Transceiver status output held at ground. Unable to signal ready transceiver to processorB
INH7INH will not function, excessive VSUP current and not able to perform power enable functionB
VLDO38Shorting LDO output to ground could cause device to enter thermal shutdown due to short circuit current.B
WAKE9

Will not be able to transition to high, which will not allow device to recognize a local wake up function

B
VSUP10Device unpowered, high ISUP currentB
nRST 11 Device held in reset. No communication with device or CAN bus possible B
CANL 12 VO(REC) spec violated. Degraded EMC performance C
CANH 13 Device cannot drive dominant to the bus, no communication possible B
nSLP 14 Part held in sleep mode. Part will not wake up, resulting in CAN bus communication failure B
Table 4-3 Pin FMA for Device Pins Open-Circuited
Pin NamePin No.Description of Potential Failure Effect(s)Failure Effect Class
TXD1Unable to trtansmit data from processor to CAN busB
GND2Device is unpoweredB
VFLT3Degraded EMC performance due to no capacitanceC
RXD4Unable to send data from CAN bus to processorB
VIO5Digital pins unpowered. No communication between device and processor possibleB
TS6Transceiver status output held at ground. Unable to signal ready transceiver to processorB
INH7INH will not be able to perform system power enable functrionB
VLDO38Open circuit on LDO could cause devices relying on this 3.3 V supply to go unpoweredB
WAKE9Will not be able to transition, which will not allow device to recognize a local wake up functionB
VSUP10Device is unpoweredB
nRST 11 Processor will be unable to reset the device. B
CANL 12 Device cannot drive dominant to the bus, unable to communicate B
CANH 13 Device cannot drive dominant to the bus, unable to communicate B
nSLP 14 Processor will be unable to put the device into low-power sleep mode B
Table 4-4 Pin FMA for Device Pins Short-Circuited to Adjacent Pin
Pin NamePin No.Shorted toDescription of Potential Failure Effect(s)Failure Effect Class
TXD1GNDDevice will enter dominant time out mode. Unable to transmit data from processor to CAN busB
GND2VFLTInternal power rail held to ground, which results in unpowered device and high ISUP current. No communication with device or CAN bus possible.B
VFLT3RXDRXD output biased recessive, unable to communication bus data to processorB
RXD4VIORXD output biased recessive, unable to communication bus data to processorB
VIO5TSTransceiver status output held at VIO. Unable to signal ready transceiver to processorB
TS6INHAbsolute maximum violation, pin may be damaged. Unable to communicate from transceiver status to processorA
VLDO38WAKEDevice will wake itself when transitioned to sleep mode, as supply is powered down.B
WAKE9VSUPAbsolute maximum violation, WAKE pin may be damagedA
VSUP10nRSTAbsolute maximum violation, nRST pin may be damagedA
nRST 11 CANL Device would be reset every time bus is dominant. No communication possible B
CANL 12 CANH Bus biased recessive, no communication possible. IOS current may be reached on CANH/CANL B
CANH 13 nSLP Device could be put to sleep when bus is recessive. No communication possible B
Table 4-5 Pin FMA for Device Pins Short-Circuited to VSUP supply
Pin NamePin No.Description of Potential Failure Effect(s)Failure Effect Class
TXD1

Absolute maximum violation, pin may be damaged. Unable to communicate from processor to CAN bus

A
GND2Device unpowered, high ISUP current, may damage deviceA
VFLT3Absolute maximum violation, device may be damaged.A
RXD4Absolute maximum violation, pin may be damaged. Unable to communicate from CAN bus to processorA
VIO5Absolute maximum violation, pin may be damaged.A
TS6Absolute maximum violation, pin may be damaged.A
INH7INH will be biased on and will not be able to turn offB
VLDO38Absolute maximum violation, device may be damaged.A
WAKE9Processor will be unable to toggle wake pin. No local wake possible.B
VSUP10NoneD
nRST 11 Absolute maximum violation, pin may be damaged. A
CANL 12

RXD biased recessive, no communication from CAN bus to processor possible. IOS current may be reached

 B
CANH 13 VO(REC) spec violated. May degrade EMC performance C
nSLP 14 Absolute maximum violation, pin may be damaged. A
Table 4-6 Pin FMA for Device Pins Short-Circuited to VLDO3 supply
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
TXD 1 TXD will be held high, no communication from processor to CAN bus possible B
GND 2 Device unpowered, high VLDO3 current, may enter thermal shutdown B
VFLTR 3 Excessive current from internal rail, may enter thermal shutdown B
RXD 4 RXD will be held high, no communication from CAN bus to processor possible B
VIO 5 Potential for high VCCOUT current, may enter thermal shutdown B
TS 6 Held high, unable to signal transceiver state to processor B
INH 7 Absolute maximum violation, device may be damaged A
VLDO3 8 None D
WAKE 9 Processor will be unable to toggle wake pin. No local wake possible B
VSUP 10 Absolute maximum violation, device may be damaged A
nRST 11 Held high, unable to reset processor B
CANL 12 RXD biased recessive, no communication from CAN bus to processor possible. IOS current may be reached B
CANH 13 VO(REC) spec violated. May degrade EMC performance C
nSLP 14 Held high, unable to put device to sleep B
Table 4-7 Pin FMA for Device Pins Short-Circuited to VIO supply
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
TXD 1 TXD will be held high, no communication from processor to CAN bus possible B
GND 2 Device unpowered, communication not possible B
VFLTR 3 Excessive current from internal rail, may enter thermal shutdown B
RXD 4 RXD will be held high, no communication from CAN bus to processor possible B
VIO 5 None D
TS 6 Held high, unable to signal transceiver state to processor B
INH 7 Absolute maximum violation, device may be damaged A
VLDO3 8 Excessive current from VLDO3, may enter thermal shutdown B
WAKE 9 Processor will be unable to toggle wake pin. No local wake possible B
VSUP 10 Absolute maximum violation, device may be damaged A
nRST 11 Held high, unable to reset processor B
CANL 12 RXD biased recessive, no communication from CAN bus to processor possible. IOS current may be reached B
CANH 13 VO(REC) spec violated. May degrade EMC performance C
nSLP 14 Held high, unable to put device to sleep B