热、机械循环载荷下电子封装中铜线键的寿命研究

A. Mazloum-Nejadari, M. Lederer, G. Khatibi, B. Czerny, L. Weiss, J. Nicolics
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引用次数: 2

摘要

在本研究中,讨论了嵌入式铜线键的LQFP (Low Profile Quad Flat Exposed Pad)热循环(TC)的模拟和实验研究结果。本研究的重点是分析钉头上方热影响区(HAZ)在高塑性应变下的循环热载荷和机械载荷,该热影响区可能导致封装中金属键的疲劳失效。从而与前人研究中得到的多轴力学试验结果进行对比[1]。事实上,这两种方法的生命周期图显示出明显的相关性。在实验和理论层面上都发现了令人信服的一致性。所描述的加速试验方法可作为测定芯片上不同位置的导线键合寿命的快速试验。此外,我们的测试方法得出的结论,使改进包装设计。
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Investigation on the Lifetime of Copper Wire Bonds in Electronic Packages under Thermal and Mechanical Cyclic Loading
In this study, the results of simulative and experimental investigations regarding thermal cycling (TC) of a LQFP (Low Profile Quad Flat Exposed Pad) with embedded copper wire bonds are discussed. The focus of this study is to analyze cyclic thermal and mechanical loading at high plastic strain in the heat affected zone (HAZ) above the nail-head, which may lead to fatigue failure of wire bonds in the packages. Thereby, a comparison with multiaxial mechanical test results obtained in a previous study will be drawn [1]. Indeed, the lifetime diagrams for these two methods show a clear correlation. Convincing agreement was found on experimental and on theoretical level. The described accelerated test method can be used as a rapid test for the determination of the lifetimes of wire bonds at various positions on the chip. Moreover, our testing method leads to conclusions, which enable improvements of package design.
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