Thermal deformations of CSP assembly during temperature cycling and power cycling

International Symposium on Electronic Materials and Packaging (EMAP2000) (Cat. No.00EX458) Pub Date : 2000-11-30 DOI:10.1109/EMAP.2000.904179

S. Ham, M. S. Cho, S. Lee

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引用次数: 34

Abstract

In this paper, thermal deformations of CSP assemblies during temperature cycling and power cycling were investigated using high sensitivity moire interferometry and finite element analysis. To observe the thermal deformations during thermal cycling, a moire test was performed for isothermal loading conditions from 125/spl deg/C to 25/spl deg/C. In the case of power cycling, the actual operating conditions were simulated by using a thermal chip in the package, and the real-time moire interferometry technique was used to measure the steady-state thermal deformation. The results show that the assembly bends in the opposite direction in power cycling as compared to its bending during temperature cycling. In addition, test results obtained from the moire interferometry technique were compared with predicted values obtained from finite element analysis. It is shown that the deformation values predicted from finite element analysis have good agreement with those obtained from the test. The FEM results show that the shear deformations of solder joints are almost same, but the normal deformations are fundamentally different between temperature cycling and power cycling.

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CSP组件在温度循环和功率循环过程中的热变形

本文采用高灵敏度云纹干涉法和有限元法研究了CSP组件在温度循环和功率循环过程中的热变形。为了观察热循环过程中的热变形，在125 ~ 25℃等温加载条件下进行了云纹试验。在功率循环情况下，采用封装内的热芯片模拟实际工作条件，并采用实时云纹干涉测量技术测量稳态热变形。结果表明，与温度循环时的弯曲相比，功率循环时的弯曲方向相反。此外，还将云纹干涉法得到的试验结果与有限元分析得到的预测值进行了比较。结果表明，有限元预测的变形值与试验结果吻合较好。有限元分析结果表明，温度循环和功率循环对焊点的剪切变形影响不大，而法向变形则存在根本差异。

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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International Symposium on Electronic Materials and Packaging (EMAP2000) (Cat. No.00EX458)

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