Mitigating EMI Noise in Propagation Paths: Review of Parasitic and Coupling Effects in Power Electronic Packages, Filters, and Systems

IF 5 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Niu Jia;Lingxiao Xue;Han Cui
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引用次数: 0

Abstract

The wide applications of wide-bandgap (WBG) devices in power electronics systems bring benefits in higher switching speed, frequency, and power density, but also cause severe electromagnetic interference (EMI) issues. While many EMI mitigation methods are available to reduce the noise generated from the source (i.e., switching WBG devices), it is equally important to analyze and control the EMI propagation paths. In WBG systems, the parasitic and coupling effects become dominant due to the high switching frequency and the compact system size, which creates uncontrolled propagation paths that degrade the systems’ EMI performance significantly. Therefore, it is crucial to investigate the parasitic and coupling effects and develop corresponding mitigation techniques. This review focuses on analyzing the EMI propagation paths to provide a comprehensive guideline to identify possible parasitics and couplings in the power module package level, EMI filter level, and the power electronics system level. The corresponding mitigation techniques for common-mode and differential-mode conducted EMI as well as radiated EMI are summarized, and the remaining challenges and future research topics are also discussed for all three levels in the conclusion.
降低传播路径中的 EMI 噪声:回顾电力电子封装、滤波器和系统中的寄生和耦合效应
宽带隙(WBG)器件在电力电子系统中的广泛应用带来了更高的开关速度、频率和功率密度,但也造成了严重的电磁干扰(EMI)问题。虽然有许多 EMI 缓解方法可用于降低源(即开关 WBG 器件)产生的噪声,但分析和控制 EMI 传播路径同样重要。在 WBG 系统中,由于开关频率高、系统尺寸小,寄生效应和耦合效应成为主要因素,从而产生了不可控的传播路径,显著降低了系统的 EMI 性能。因此,研究寄生和耦合效应并开发相应的缓解技术至关重要。本综述侧重于分析 EMI 传播路径,为识别电源模块封装级、EMI 滤波器级和电力电子系统级中可能存在的寄生和耦合提供全面指导。总结了针对共模和差模传导 EMI 以及辐射 EMI 的相应减缓技术,并在结论中讨论了所有三个层面的剩余挑战和未来研究课题。
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
CiteScore
8.60
自引率
0.00%
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0
审稿时长
8 weeks
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