Transient thermal management of SiC power modules by an in-built thermal buffer layer

IF 0.2 Q4 AREA STUDIES

Asia-Pacific Journal-Japan Focus Pub Date : 2022-10-28 DOI:10.1109/ITECAsia-Pacific56316.2022.9942153

Weiyu Tang, Junye Li, Junliang Lu, Zan Wu, Kuang Sheng

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Abstract

A numerical investigation has been conducted to improve the transient thermal performance of SiC modules during varied loads, and phase change materials is utilized as a thermal buffer layer and integrated into SiC modules under SiC MOSFETs. The influences of PCM on the instantaneous overload capacity and temperature fluctuation during power cycle have been explored. As for the overload capacity, PCM could protect SiC modules from over-heating under a 1.5 per unit heat flux as high as 500 W/cm2 for over 10 s, which is critical for safety of power system under the short-circuit faults. While for power cycles, SiC modules exhibits a much lower temperature swings when tp < 20 s, and the maximum reduction could achieve 12 K. Additionally, the geometries of PCM containers makes a great differences on the transient temperature responses of PCM-integrated modules, and special attention should been given to balance the heat absorption and thermal resistance of PCM. In the present work, a container with branch-like fins shows the best thermal performance for both overload conditions and power cycles.

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基于内置热缓冲层的SiC功率模块瞬态热管理

为了改善SiC模块在不同负载下的瞬态热性能，采用相变材料作为热缓冲层，并将其集成到SiC mosfet下的SiC模块中。探讨了PCM对电力循环过程中瞬时过载能力和温度波动的影响。在过载能力方面，PCM可以在高达500 W/cm2的1.5单位热流密度下保护SiC模块过热超过10 s，这对短路故障下电力系统的安全至关重要。而对于电源周期，当tp < 20 s时，SiC模块显示出更低的温度波动，最大降低可达到12 K。此外，PCM容器的几何形状对PCM集成模块的瞬态温度响应有很大影响，应特别注意平衡PCM的吸热和热阻。在本研究中，具有分支状翅片的容器在过载条件和功率循环下都表现出最佳的热性能。

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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来源期刊

Asia-Pacific Journal-Japan Focus AREA STUDIES-

CiteScore

1.20

自引率

0.00%

发文量