非晶硅TFT电路的极低压测试

2009 Asian Test Symposium Pub Date : 2009-11-23 DOI:10.1109/ATS.2009.68

Shiue-Tsung Shen, Weihsing Liu, En-Hua Ma, C. Li, I. Cheng

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引用次数: 1

摘要

本文介绍了基于非晶硅薄膜晶体管(a-Si TFT)技术的数字NMOS电路的极低压测试。提出的VLV测试是一种经济的替代方案，因为前者是非破坏性的，可以在短时间内轻松地在常规ATE上进行。两种不同设计风格的140个被测电路(CUT)在玻璃基板上采用8mm a-Si TFT技术实现。所有CUT都在标称电压(10V)和极低电压(7V)下进行测试，然后在30V下进行200秒的电压应力测试。逃避标称电压(NV)测试的7个不可靠的CUT被VLV测试成功捕获，并且没有被NV测试捕获但逃避VLV测试的CUT。结果表明，VLV测试比NV测试在筛选不可靠的a-Si TFT电路方面更有效。

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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Very-Low-Voltage Testing of Amorphous Silicon TFT Circuits

This paper presents Very-low-voltage (VLV) testing for digital NMOS circuits based on amorphous silicon thin film transistor (a-Si TFT) technology. The proposed VLV testing is an economic alternative to burn-in because the former is non-destructive and can be easily performed on regular ATE in a short time. 140 circuits under test (CUT) of two different design styles are implemented in 8mm a-Si TFT technology on the glass substrate. All CUT are tested both at nominal voltage (10V) and very low voltage (7V), followed by a 200 second voltage stress at 30V. Seven unreliable CUT that escape nominal voltage (NV) testing are successfully caught by VLV testing and there is no CUT that is caught by NV testing but escapes VLV testing. The results indicate that VLV testing is more effective than NV testing in screening out unreliable a-Si TFT circuits.

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2009 Asian Test Symposium

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