Study on thermal design due to downsizing of power module using coupled electrical-thermal-mechanical analysis

2012 14th International Conference on Electronic Materials and Packaging (EMAP) Pub Date : 2012-12-01 DOI:10.1109/EMAP.2012.6507917

Yasutaka Yamada, Qiang Yu, Tomohiro Takahashi, Y. Takagi

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引用次数: 3

Abstract

Recently, with the development of power electronics technology, the power modules have been used extensively and the demand for downsizing. At our laboratory, the power assist to support knee moving has been developing. And this product also uses power module to improve energy efficiency. The problem of the power module is thermal fatigue of the junction area between SiC chip and substrate. When downsize the power module, thermal design become more important because it gets more difficult to release heat produced in the module. In this study, assuming practical use of power assist, proposing a model of power module under power cycle test that allows further downsizing and reducing weight was conducted. And thermal design of power module was evaluated by using coupled electrical-thermal-mechanical analysis. The analysis using Finite Element Method (FEM) was operated to evaluate non-uniform temperature distribution in power module was estimated. Based on the results, the model of power module is proposed as effective solution for downsizing without reducing the reliability.

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基于电-热-力耦合分析的功率模块小型化热设计研究

近年来，随着电力电子技术的发展，功率模块的应用越来越广泛，小型化的需求也越来越大。在我们的实验室里，支持膝盖运动的动力辅助装置一直在开发中。并且本产品还采用了电源模块，提高了能效。功率模块的主要问题是SiC芯片与衬底之间结区的热疲劳。当电源模块小型化时，散热设计变得更加重要，因为模块产生的热量更难释放。在本研究中，假设功率辅助的实际应用，提出了一个功率循环测试下的功率模块模型，允许进一步缩小和减轻重量。采用电-热-力耦合分析方法对电源模块的热设计进行了评价。采用有限元法对功率模块内温度分布的非均匀性进行了评估。在此基础上，提出了在不降低可靠性的前提下实现电源模块小型化的有效方法。

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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2012 14th International Conference on Electronic Materials and Packaging (EMAP)

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