SFFS265 November   2021 ADS130B04-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)

3 Failure Mode Distribution (FMD)

The failure mode distribution estimation for the ADS130B04-Q1 in Table 3-1 comes from the combination of common failure modes listed in standards such as IEC 61508 and ISO 26262, the ratio of sub-circuit function size and complexity and from best engineering judgment.

The failure modes listed in this section reflect random failure events and do not include failures due to misuse or overstress.

Table 3-1 Die Failure Modes and Distribution
Die Failure Modes Failure Mode Distribution (%)

Incorrect conversion result of individual ADC(1).

(For example, ADC output code at positive or negative full scale, at 0 V, undetermined, or otherwise incorrect.)

 35%
SPI communication error 10%

Register bit error leading to incorrect device configuration.

(Device behavior depends on which user or internal register bit is affected.)

 10%
Gain error of individual ADC out of specification(1) 10%
Offset error of individual ADC out of specification(1) 5%
Noise of conversion result of individual ADC out of specification(1) 5%
INL of individual ADC out of specification(1) 5%

Gain error, INL, or noise of conversion results of all four ADCs out of specification because of common circuitry.

(Common circuitry includes internal supplies, voltage reference, bias current generator, and clock.)

 5%

Oscillator fault leading to incorrect data rate.

(For example, oscillator frequency too high or low, oscillator output stuck-at)

 5%
ADC output code bit stuck-at 5%
Device behavior undetermined 5%
(1) The failure mode percentage provided is for the sum of all four ADCs. For a single ADC divide the failure mode percentage by 4x.