短长度铜互连电迁移寿命预测的背应力模型

2008 IEEE International Reliability Physics Symposium Pub Date : 2008-07-09 DOI:10.1109/RELPHY.2008.4558988

Yi-Lung Cheng, S.Y. Lee, C. Chiu, K. Wu

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引用次数: 9

摘要

在高级电路中，短长度的电迁移寿命对提高电流限制是一个有益的影响。提高电流极限的一种方法是考虑Blech效应。本文报道了65nm和45nm铜互连中由于Blech效应引起的电迁移阈值。通过改变金属长度和应力电流密度来确定临界积(jL)c。在较低的应力电流、较短的金属引线和65 nm工艺条件下获得较高的(jL)c值。最后，将临界积(jL)c作为加速电磁长度因子，用于预测寿命。结果表明，在65 nm和45 nm工艺下，小于5 μ m的短引线的寿命分别比250 μ m金属引线的寿命至少高9.52倍和1.45倍。

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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Back stress model on electromigration lifetime prediction in short length copper interconnects

The short length on the electromigration lifetime is a useful effect to increase current limits in advanced circuits. A way to increase current limit is to consider the Blech effect. The electromigration threshold due to Blech effect in copper interconnect for 65 nm and 45 nm technology is reported in this study. The critical product (jL)c was determined by varying the metal length and stress current density. The higher (jL)c value is obtained for lower stress current, shorter metal lead and 65 nm technology with higher hardness ILD. Finally, this critical product (jL)c as the accelerated EM length factor was used to predict the lifetime. It is shown that the lifetimes of short leads with less than 5 mum have at least 9.52 and 1.45 times higher than that of 250 mum metal lead for 65 nm and 45 nm technology, respectively.

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2008 IEEE International Reliability Physics Symposium

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