Reliability analysis of 3D CSP MEMS and IC under thermal cycle-impact coupled multi-physics loads

Shuye Zhang, Jianhao Xu, Shang Zhang, P. He, Mingjia Sun, Jianqun Yang, Xingji Li, K. Paik
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Abstract

In this paper, reliability analysis of 3D CSP MEMS and IC under thermal cycle-impact coupled multi-physics loads was investigated. COMSOL Multiphysics, a finite element software, was used to analyze the mechanical behavior of our device under a −55°C/125°C thermal cycling and 1500G@1ms with half-sine pulse impact coupled load. MEMS chip was bonded on a silicon interposer by solder balls. An application specific integrated circuit (ASIC) for the signal processing was placed on the interposer beneath the MEMS. Combining the effects of thermal stress and impact loads, we hope to find out the failure modes of interconnect structures including solder joints and whole device. The deformation and stress distribution of the overall device will be carried out for layout optimization of interconnect structures.
热循环冲击耦合多物理场载荷下三维CSP MEMS和IC的可靠性分析
本文研究了三维CSP MEMS和集成电路在热循环冲击耦合多物理场载荷下的可靠性分析。利用有限元软件COMSOL Multiphysics分析了该器件在- 55°C/125°C热循环和1500G@1ms半正弦脉冲冲击耦合载荷下的力学行为。用焊料球将MEMS芯片粘接在硅中间层上。用于信号处理的专用集成电路(ASIC)被放置在MEMS下面的中间层上。结合热应力和冲击载荷的影响,我们希望找出互连结构包括焊点和整个器件的破坏模式。将对整个装置进行变形和应力分布,以优化互连结构的布局。
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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