功率半导体器件结温和导通电压状态监测研究进展

Q1 Engineering

Chinese Journal of Electrical Engineering Pub Date : 2025-06-01 DOI:10.23919/CJEE.2025.000144

Xinming Yu;Jie Kong;Ning Wang;Kaichen Zhang;Frede Blaabjerg;Dao Zhou

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引用次数: 0

摘要

在电力电子应用中，状态监测方法的选择对结温评估的精度和复杂性有重要影响，结温评估对电力半导体器件的可靠性评估至关重要。本研究从分析最先进的功率半导体器件的失效机制开始。结温测量方法可分为三种不同的方法：基于热图像的方法、基于热模型的方法和基于温度敏感电参数（TSEP）的方法。全面比较了它们各自的优缺点。此外，对导通电压降的状态监测进行了总结和基准测试。导通状态电压和结温测量在标准三相变换器中进行了实验验证，该变换器提供了优越的测量精度和快速的动态响应特性。此外，本研究扩展到宽禁带半导体中TSEP的测量方法。

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A Review on Junction Temperature and ON-state Voltage Condition Monitoring of Power Semiconductor Devices

In power electronics applications, the selection of condition monitoring methods significantly affects both the precision and complexity of the junction temperature evaluation, which is essential for the reliability assessment of power semiconductor devices. This study begins with a failure mechanism analysis of state-of-the-art power semiconductor devices. Junction temperature measurement methods can be categorized into three distinct approaches: thermal image-based, thermal model-based, and temperature-sensitive electrical parameter (TSEP)-based methods. Their respective advantages and disadvantages are comprehensively compared. Moreover, condition monitoring of the ON-state voltage drop is summarized and benchmarked. ON-state voltage and junction temperature measurements are experimentally demonstrated in a standard three-phase converter, which provides superior measurement accuracy and rapid dynamic response characteristics. Additionally, this investigation is extended to measurement methods for TSEP in wide-bandgap semiconductors.

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