SFFS286 September   2021 TLVH431B-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)

2 Functional Safety Failure In Time (FIT) Rates

This section provides Functional Safety Failure In Time (FIT) rates for TLVH431B-Q1 based on two different industry-wide used reliability standards:

  • Table 2-1 provides FIT rates based on IEC TR 62380 / ISO 26262 part 11 for the DBV package.
  • Table 2-2 provides FIT rates based on IEC TR 62380 / ISO 26262 part 11 for the DBZ package.
  • Table 2-3 provides FIT rates based on the Siemens Norm SN 29500-2 for both DBV and DBZ packages.
Table 2-1 Component Failure Rates for the DBV package per IEC TR 62380 / ISO 26262 Part 11
FIT IEC TR 62380 / ISO 26262FIT (Failures Per 109 Hours)
Total Component FIT Rate5
Die FIT Rate3
Package FIT Rate2
Table 2-2 Component Failure Rates for the DBZ package per IEC TR 62380 / ISO 26262 Part 11
FIT IEC TR 62380 / ISO 26262 FIT (Failures Per 109 Hours)
Total Component FIT Rate 4
Die FIT Rate 3
Package FIT Rate 1

The failure rate and mission profile information in Table 2-1 and Table 2-2 comes from the Reliability data handbook IEC TR 62380 / ISO 26262 part 11:

  • Mission Profile: Motor Control from Table 11
  • Power dissipation: 50 mW
  • Climate type: World-wide Table 8
  • Package factor (lambda 3): Table 17b
  • Substrate Material: FR4
  • EOS FIT rate assumed: 0 FIT
Table 2-3 Component Failure Rates for the DBV and DBZ package per Siemens Norm SN 29500-2
TABLECATEGORYREFERENCE FIT RATEREFERENCE VIRTUAL TJ
5CMOS, BICMOS
Digital, analog / mixed		20 FIT55°C

The Reference FIT Rate and Reference Virtual TJ (junction temperature) in Table 2-3 come from the Siemens Norm SN 29500-2 tables 1 through 5. Failure rates under operating conditions are calculated from the reference failure rate and virtual junction temperature using conversion information in SN 29500-2 section 4.