Degradation state analysis of the IGBT module based on apparent junction temperature

IF 8.7 1区 工程技术 Q1 ENERGY & FUELS Protection and Control of Modern Power Systems Pub Date : 2023-10-27 DOI:10.1186/s41601-023-00327-5
Guoqing Xu, Lingfeng Shao, Xiaoyan Xu, Shen Li
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Abstract

Abstract The multi-chip parallel insulated gate bipolar transistor (IGBT) is the core device in large-capacity power electronic equipment, but its operational reliability is of considerable concern to industry. The application of IGBT online degradation state analysis technology can be beneficial to the improvement of system reliability. The failure mechanism of IGBT devices is discussed in this paper, and a technique for analyzing the degradation state of IGBT based on apparent junction temperature is proposed. First, the distortion consistency of the voltage rise time in various failures is discussed, and the junction temperature dependence of the voltage rise time is then demonstrated. Subsequently, an apparent junction temperature model based on the voltage rise time is established (the fitting accuracy is as high as 94.3%). From the high-frequency model in the switching process of the device, an online extraction technology of key parameters (e.g., voltage rise time) is developed. Finally, an experimental platform for IGBT degradation state estimation is established, and the feasibility of IGBT degradation state estimation based on apparent junction temperature is proved, especially the degradation of bonding-wire and the gate-oxide-layer. The experimental results show that the proposed IGBT degradation state estimation technique based on apparent junction temperature is a reliable online estimation method with non-contact, high accuracy, and comprehensiveness.
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基于表观结温的IGBT模块退化状态分析
摘要多芯片并联绝缘栅双极晶体管(IGBT)是大容量电力电子设备的核心器件,其运行可靠性一直是业界关注的问题。IGBT在线退化状态分析技术的应用有利于系统可靠性的提高。本文讨论了IGBT器件的失效机理,提出了一种基于视结温度的IGBT器件退化状态分析方法。首先,讨论了各种故障下电压上升时间的畸变一致性,然后证明了电压上升时间对结温的依赖关系。随后,建立了基于电压上升时间的表观结温模型,拟合精度高达94.3%。从器件开关过程中的高频模型出发,开发了一种关键参数(如电压上升时间)的在线提取技术。最后,建立了IGBT退化状态估计的实验平台,验证了基于表观结温的IGBT退化状态估计的可行性,特别是结合线和栅极氧化层的退化。实验结果表明,基于表观结温的IGBT退化状态估计技术是一种可靠的非接触、高精度、全面的在线估计方法。
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来源期刊
CiteScore
20.10
自引率
8.20%
发文量
43
审稿时长
4 weeks
期刊介绍: Protection and Control of Modern Power Systems (PCMP) is the first international modern power system protection and control journal originated in China. The journal is dedicated to presenting top-level academic achievements in this field and aims to provide a platform for international researchers and engineers, with a special focus on authors from China, to maximize the papers' impact worldwide and contribute to the development of the power industry. PCMP is sponsored by Xuchang Ketop Electrical Research Institute and is edited and published by Power System Protection and Control Press. PCMP focuses on advanced views, techniques, methodologies, and experience in the field of protection and control of modern power systems to showcase the latest technological achievements. However, it is important to note that the journal will cease to be published by SpringerOpen as of 31 December 2023. Nonetheless, it will continue in cooperation with a new publisher.
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