Testing a PWM circuit using functional fault models and compact test vectors for operational amplifiers

Proceedings of the Ninth Asian Test Symposium Pub Date : 2000-12-04 DOI:10.1109/ATS.2000.893609

J. Calvano, V. Alves, M. Lubaszewski

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Abstract

The use of analog VLSI technology on ordinary but complex electronic products has in the test one of its last frontiers. The design for testability paradigm should allow the test plan implementation early in the design cycle. However, in a successful test strategy, fault simulation should be carried out in order to evaluate appropriate test patterns, fault grade, etc. This way adequate fault models must be established. This paper shows the suitability and the straightforward consequences on testing of complex analog circuits when using OpAmp functional fault macromodels. Due to the lack of fault models, suitable for operational amplifiers fault simulation, we propose methodology for functional fault modeling and a method for test pattern generation. A fault dictionary for OpAmps is built and a procedure for compact test vector construction is proposed. The method is used to detect OpAmp faults in a pulse width modulator. The obtained results show that the proposed method is able to verify high level OpAmp requirements, such as open loop gain, slew-rate and CMMR, with good compromise between fault modeling and the analog circuit simulation complexity.

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测试PWM电路使用功能故障模型和紧凑的测试向量运算放大器

在普通但复杂的电子产品上使用模拟超大规模集成电路技术是其最后的前沿之一。可测试性设计范例应该允许在设计周期的早期实现测试计划。然而，在一个成功的测试策略中，为了评估合适的测试模式、故障等级等，应该进行故障模拟。这样就必须建立适当的故障模型。本文展示了使用OpAmp功能故障宏模型测试复杂模拟电路的适用性和直接后果。由于缺乏适合运放故障仿真的故障模型，本文提出了功能故障建模方法和测试模式生成方法。建立了OpAmps的故障字典，提出了一种紧凑测试向量构造方法。该方法用于检测脉宽调制器中的OpAmp故障。仿真结果表明，该方法能够满足高电平OpAmp对开环增益、自旋速率和CMMR的要求，并能很好地兼顾故障建模和模拟电路仿真复杂度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Ninth Asian Test Symposium

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