测试策略对浮栅故障参数的敏感性

1997 Proceedings Second Annual IEEE International Conference on Innovative Systems in Silicon Pub Date : 1997-10-08 DOI:10.1109/ICISS.1997.630259

M. Renovell, Y. Bertrand, F. Azais

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引用次数: 4

摘要

本文从静电压、动电压和静电流三种策略对浮栅故障的可检测性进行了研究。结果表明，缺陷的行为取决于两类参数:可预测参数和不可预测参数(多晶硅-体电容)。结果表明，浮门故障可引起异常逻辑值、附加延迟或静态电流(I/sub DDQ/)增加。因此，任何测试策略都能够检测到浮动门故障，每个故障在给定的不可预测参数范围内。然后证明了测试策略效率评价的基本准则是考虑相应的区间。

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Test strategy sensitivity to floating gate fault parameter

This paper studies the detectability of floating gate faults considering static voltage, dynamic voltage and static current strategies. It is shown that the behavior of the defect depends on two classes of parameters: the predictable and unpredictable parameters (polysilicon-to-bulk capacitance). It is shown that a floating gate fault can induce abnormal logic values, additional delays or increased static current (I/sub DDQ/). Consequently, any test strategy is able to detect floating gate faults, each one for a given range of the unpredictable parameter. It is then demonstrated that the fundamental criterion for test strategy efficiency evaluation is the consideration of the corresponding intervals.

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1997 Proceedings Second Annual IEEE International Conference on Innovative Systems in Silicon

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