用于分析CMOS SRAM电池冷失效的新型电池分离技术

ICSE'98. 1998 IEEE International Conference on Semiconductor Electronics. Proceedings (Cat. No.98EX187) Pub Date : 1998-11-24 DOI:10.1109/SMELEC.1998.781151

Yit-Wooi Lim, T. Yeoh

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引用次数: 3

摘要

CMOS SRAM电池在室温环境下不容易进行冷失效分析。然而，利用特征分析方法，可以通过直接测量隔离SRAM单元的晶体管参数来识别晶体管失效单元。用于特征分析的细胞分离技术足够灵敏，可以捕获SRAM细胞冷失效的异常电特征。将该技术应用于两层金属晶圆工艺的SRAM单元冷失效分析。SRAM单元及其晶体管在物理上和电上是隔离的，没有任何问题。分析了测试过程中SRAM单元冷故障在单位地址“1”处卡死的故障特征。确定了N+漏极漏电和阈值电压下降是冷失效的根本原因。

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Novel cell isolation technique for the analysis of CMOS SRAM cell cold failure

CMOS SRAM cell cold failure analysis is not easily performed under a room temperature environment. However, by using the signature analysis method, the transistor failure cell can be identified by directly measuring the transistor parameters from the isolated SRAM cell. The cell isolation technique for signature analysis is sensitive enough to capture the abnormal electrical signature of the SRAM cell cold failure. The technique was used on the analysis of SRAM cell cold failure from a 2-layer metal fab process. The SRAM cell and its transistors were physically and electrically isolated without any problem. The failure signature of the SRAM cell cold failure which failed stuck at "1" at a single bit address during testing, was successfully analyzed. N+ drain junction leakage and threshold voltage degradation was identified as the root cause of the cold failure.

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来源期刊

ICSE'98. 1998 IEEE International Conference on Semiconductor Electronics. Proceedings (Cat. No.98EX187)

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