电流测试法和电压测试法的缺陷检测能力比较

Proceedings IEEE European Test Workshop Pub Date : 2000-05-23 DOI:10.1109/ETW.2000.873796

B. Kruseman

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引用次数: 21

摘要

测试随机逻辑的工业默认方法是通过扫描链应用卡住故障测试模式。这种测试方法可称为静态电压测试。第二种众所周知的方法是 I/sub DDQ/静置，可称为静态电流测试。第二种方法特别适用于检测电阻短路。对于深亚微米技术，新的缺陷机制开始变得重要。尤其是开路缺陷，由于静态测试方法不太适合检测这些缺陷，因此开路缺陷是一种非常令人担忧的缺陷类型。延迟故障测试和瞬态电流测试等动态测试方法可以填补测试套件中的这一空白。本文概述了上述测试方法，包括深亚微米技术所需的一些基于电流的新测试方法及其缺陷检测能力。

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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Comparison of defect detection capabilities of current-based and voltage-based test methods

The industrial default to test random logic is based on stuck-at fault test patterns applied via scan-chains. This test-method can be described as static voltage testing. A second well-known method is I/sub DDQ/ resting, which can be described as static current testing. This second method is especially suited for detecting resistive shorts. For deep sub-micron technologies new defect mechanisms start to become important. Especially, opens are a much feared type of defect since static test methods are less suited to detect these defects. Dynamic test methods such as delay-fault testing and transient current testing could fill this gap in the test suite. The paper gives an overview of the aforementioned test-methods including some of the new current-based test methods necessary for deep submicron technologies and their defect detection capabilities.

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Proceedings IEEE European Test Workshop

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