采用各向同性导电胶的陶瓷封装/中间层互连的数值研究

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.2015.7103144

R. Hamou, Per Dalsjø, C. Dørum, S. Helland, H. Kristiansen, M. Taklo, J. Gakkestad

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引用次数: 0

摘要

本研究的目的是研究使用环氧基各向同性导电胶粘剂(ICA)将硅3D系统芯片(SoC)安装在陶瓷16焊盘无引线芯片载体(LCC)上的适用性。本文给出并讨论了通过实现胶粘剂的粘弹性得到的热力学有限元模拟结果。本文考虑了一种基于proony级数的广义Maxwell模型。我们分析了ICA互连中产生的应变和应力作为两种高和低工作温度下粘合剂几何形状的函数。目标是确定固化粘合剂的最佳体积和几何形状，以最小化衬垫和粘合剂之间的界面应力。目标是通过精心设计，降低热应力引起的裂纹萌生和扩展的风险。

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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Numerical investigation of ceramic package/ interposer interconnects using isotropic conductive adhesive

The aim of this study is to investigate the applicability of using an epoxy based isotropic conductive adhesive (ICA), to mount a silicon 3D system-on chip (SoC) in a ceramic 16 pad leadless chip carrier (LCC). We present and discuss thermo-mechanical FEA simulation results obtained by implementing the viscoelastic properties of the adhesive. A generalized Maxwell model using Prony series was considered in this study. We analyse the generated strain and stress in the ICA interconnect as a function of the adhesive geometry for two high and low operating temperatures. The goal is to define an optimal volume and geometry of the cured adhesive with respect to minimized stress at the interfaces between the pads and the adhesive. The target is to reduce the risk of crack initiation and propagation caused by thermal stress by careful design.

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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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