Test Frequency Compaction for Fault Detection in Analog Circuits Using Sensitivity Analysis

In this paper, we present a methodology to test faults induced by large deviations in components in analog circuits through multi-frequency test based on sensitivity analysis. Final compaction of the test frequencies is done using a covering table optimization method. Test Frequency compaction and choice of observation points are based on a novel notation of fault equivalence and sensitivity curves. Our case study shows this method can effectively minimize the sinusoid test frequencies to separate the fault-free and faulty operations of the circuit under test for all faulty components.

[1]  Mehrdad Nourani,et al.  Asymmetric aging of clock networks in power efficient designs , 2014, Fifteenth International Symposium on Quality Electronic Design.

[2]  Charles E. Stroud,et al.  Benchmark circuits for analog and mixed-signal testing , 1999, Proceedings IEEE Southeastcon'99. Technology on the Brink of 2000 (Cat. No.99CH36300).

[3]  Bozena Kaminska,et al.  Analog circuit fault diagnosis based on sensitivity computation and functional testing , 1992, IEEE Design & Test of Computers.

[4]  Hao Luo,et al.  Aging and leakage tradeoff in VLSI circuits , 2015, 2015 10th International Design & Test Symposium (IDT).

[5]  Camelia Hora,et al.  Diagnosis of Local Spot Defects in Analog Circuits , 2012, IEEE Transactions on Instrumentation and Measurement.

[6]  Ingo Wegener,et al.  The complexity of Boolean functions , 1987 .

[7]  Bozena Kaminska,et al.  Analog circuit testing based on sensitivity computation and new circuit modeling , 1993, Proceedings of IEEE International Test Conference - (ITC).

[8]  V. C. Prasad,et al.  Selection of test nodes for analog fault diagnosis in dictionary approach , 2000, IEEE Trans. Instrum. Meas..

[9]  Pierre Duhamel,et al.  Automatic test generation techniques for analog circuits and systems: A review , 1979 .