Electromigration modelling of void nucleation in open Cu-TSVs

2015 16th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems Pub Date : 2015-04-19 DOI:10.1109/EUROSIME.2015.7103100

M. Rovitto, W. Zisser, H. Ceric, T. Grasser

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Abstract

Recently, Through Silicon Vias (TSVs) have attracted much attention in three-dimensional (3D) integration technology due to their function as vertical connections of the different stacked semiconductor dies. Since electromigration (EM) will continue to be a key reliability issue in modern structures, the prediction of the EM failure behavior is a crucial necessity. Traditionally, Black's equation has been used from the early times of EM investigations for the estimation of the interconnect time to failure. In this work we investigate the applicability of Black's equation to open copper TSV structures using TCAD. TCAD can significantly contribute to the comprehension of EM failure mechanisms, in particular for the understanding of the early failure mode dominated by the void nucleation mechanism. The simulation procedure is applied to an open copper TSV technology in order to find the sites where void formation is most likely to occur. The time to failure is determined as the time needed to reach the stress threshold for void nucleation. Simulations are carried out for different current densities and successfully fitted to Black's equation. In this way, we have shown that failure development in studied TSV structures obeys Black's equation.

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开放cu - tsv中空穴成核的电迁移模拟

近年来，通过硅通孔(tsv)由于其作为不同堆叠半导体晶片的垂直连接而在三维集成技术中引起了广泛的关注。由于电迁移(EM)将继续成为现代结构中一个关键的可靠性问题，因此电迁移失效行为的预测是至关重要的。传统上，从电磁研究的早期开始，就使用布莱克方程来估计互连到失效的时间。在这项工作中，我们研究了布莱克方程在使用TCAD打开铜TSV结构中的适用性。TCAD有助于理解电磁破坏机制，特别是对以空穴成核机制为主的早期破坏模式的理解。为了找到最有可能形成空洞的位置，将模拟程序应用于开放式铜TSV技术。破坏的时间由达到空洞成核的应力阈值所需的时间决定。在不同的电流密度下进行了模拟，并成功地拟合了布莱克方程。通过这种方法，我们证明了所研究的TSV结构的破坏发展遵循布莱克方程。

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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2015 16th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems

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