A pragmatic approach to automatic test generation and failure isolation of analog systems
Abstract
Analog automatic test generation generally requires modeling and simulation at the component level and continuous failure modes over a certain range of parameter values. As a result, most analog automatic test generation and fault isolation techniques demand a large computational capability on the ATE or off-line computers. Any practical analog automatic test generation solution must eventually address this problem. All analog automatic test generation techniques presently under investigation assume the availability of all or certain designated nodes as test points for stimulus injection and/or response measurement. This assumption suggests the possibility of GO-NO-GO tests to fault isolate to a 'primitive,' which may contain several circuit components. The 'complementary signal' design suggested by Schreiber, appears well suited for providing an effective GO-NO-GO test; the signal and its response are determined by the poles and zeros of the circuit.
- Publication:
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IEEE Transactions on Circuits Systems
- Pub Date:
- July 1979
- Bibcode:
- 1979ITCS...26..584W
- Keywords:
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- Analog Circuits;
- Automatic Test Equipment;
- Computerized Simulation;
- Electronic Equipment Tests;
- Fail-Safe Systems;
- System Failures;
- Circuit Reliability;
- Component Reliability;
- Failure Analysis;
- Failure Modes;
- Performance Prediction;
- Quality Control;
- Reliability Engineering;
- Electronics and Electrical Engineering