模拟电路新的测试性分析和多频测试集压缩方法

2016 Fourth International Japan-Egypt Conference on Electronics, Communications and Computers (JEC-ECC) Pub Date : 2016-07-25 DOI:10.1109/JEC-ECC.2016.7518961

M. S. Saleh, M. El-Mahlawy, Hossam E. Abou-Bakr Hassan

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引用次数: 5

摘要

本文提出了一种新的模拟电路可测试性分析方法。参数故障的可观测性是通过确定一个适当的测试信号来评估的，该信号使目标故障处的正常电路和故障电路之间的误差最大化。提出了一种通过确定决策矩阵的基来优化多频测试集的有效方法。决策矩阵从测试信号的频率集计算，从可测试性分析中提取。通过计算每个测试信号的总故障覆盖率对该集合进行排序。模拟测试问题被表述为从一个初始测试集中选择一个最优子集，这个初始测试集中是根据给定故障集中的故障覆盖率和故障分离来定义的。将该方法应用于模拟基准电路[1]的测试，并与已有的测试方法进行了比较。结果表明了该方法的优越性。

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New testability analysis and multi-frequency test set compaction method for analogue circuits

In this paper, the new testability analysis method of analogue circuits is presented. The observability of parametric faults is evaluated by determining a proper test signal that maximizes the error between the good and the faulty circuit at a target fault. The efficient method to optimize the multi-frequency test set by determining the basis of the decision matrix is presented. The decision matrix is calculated from the frequency set of the test signal, extracted from the testability analysis. This set is ranked by calculating the total fault coverage of each test signal. The analog test problem is formulated as selecting an optimal subset from an initial test set defined in terms of fault coverage and fault separation on a given fault set. The presented method is applied to test some analogue benchmark circuits [1] and compared with previous published testing methods. The results show the superiority of our presented method.

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来源期刊

2016 Fourth International Japan-Egypt Conference on Electronics, Communications and Computers (JEC-ECC)

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