基于速率和温度相关非弹性材料数据的硅和碳化硅半导体器件在各种加速测试条件下的参数化模拟研究

2021 27th International Workshop on Thermal Investigations of ICs and Systems (THERMINIC) Pub Date : 2021-09-23 DOI:10.1109/THERMINIC52472.2021.9626522

F. Forndran, J. Heilmann, M. Metzler, M. Leicht, B. Wunderle

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引用次数: 2

摘要

与采用硅基技术的标准功率模块相比，在电动汽车应用的功率模块中使用碳化硅和氮化镓等宽带隙半导体材料，具有更高的功率密度和更高的工作温度。这需要新的包装材料，如烧结银，它能够应付更高的热机械应力。在本研究中，提出了硅和碳化硅作为模具材料的比较有限元模拟。此外，所用的材料数据来自拉伸试验，烧结银的粘塑性行为用Anand模型建模。

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A Parametric Simulative Study for Si and SiC Semiconductor Devices Under Various Accelerated Testing Conditions Using Rate- and Temperature Dependent Inelastic Material Data

The usage of wide-bandgap semiconductor material such as silicon carbide and gallium nitride for power modules in electric vehicle applications is accompanied by higher power densities and higher operating temperatures compared to standard power modules employing silicon-based technology. This demands for new packaging materials like sintered silver which is able to cope with the higher thermo-mechanical stress. Within this study, comparative finite element simulations for silicon and silicon carbide as die material are presented. In addition, the material data used is gained from tensile tests and the viscoplastic behavior of sintered silver is modeled with the Anand model.

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2021 27th International Workshop on Thermal Investigations of ICs and Systems (THERMINIC)

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