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拓扑与电路 ★ 5.0

一种结合有源Y电容的混合型EMI滤波器用于共模噪声抑制

A Hybrid EMI Filter Incorporating Active Y-Capacitor for Common-Mode Noise Mitigation

查看原文 · IEEE Xplore DOI: 10.1109/TPEL.2025.10790865
作者 Hong Li · Siyi Wang · Daozhen He · Zhenyu Zhao · Wenzhe Su
期刊 IEEE Transactions on Power Electronics
出版日期 2024年12月
技术分类 拓扑与电路
相关度评分 ★★★★★ 5.0 / 5.0
关键词 功率变换器 电磁干扰 混合电磁干扰滤波器 有源Y电容 共模噪声
语言:

中文摘要

随着开关速度和功率密度的提高,功率变换器的电磁干扰(EMI)问题日益严重。尽管无源EMI滤波器(PEF)因其有效性而在工程领域得到广泛应用,但其体积庞大的元件,如扼流圈和X电容,阻碍了功率变换器功率密度的提升。现有的混合EMI滤波器(HEF)是将有源EMI滤波器(AEF)与PEF相结合,以降低功率变换器中的宽频带EMI噪声。然而,由于AEF的增益带宽积以及PEF中的寄生参数,现有的HEF在降低高频EMI噪声方面也面临巨大挑战,并且体积仍然较大。因此,本文提出了一种包含有源Y电容的HEF(AY - HEF),用于有效抑制宽频带内的共模(CM)噪声。所提出的AY - HEF能够有效扩展AEF的上截止频率,并在30 MHz处实现15 dB的衰减。以同步降压变换器为例,实验结果验证了所提出的AY - HEF的有效性,在150 kHz至30 MHz的频率范围内,CM噪声降低了10 - 30 dB,与PEF相比,HEF的体积减小了76%。因此,本文为功率变换器提供了一种新颖且紧凑的HEF拓扑结构,这对于实现高功率密度是必要的。

English Abstract

With the increase in switching speed and power density, the electromagnetic interference (EMI) issues of power converters become more and more serious. Although passive EMI filters (PEFs) have been widely used in engineering fields due to their effectiveness, their bulky components, such as chokes and X-capacitors, hinder the enhancement of power density of power converters. Existing hybrid EMI filters (HEFs) is to combine active EMI filters (AEFs) and PEFs for reducing the wide frequency-band EMI noise in power converters. However, due to the gain-bandwidth product of AEF and the parasitic parameters in PEFs, the existing HEFs also face a big challenge to reduce high-frequency EMI noise and also have bulky volume. Therefore, in this article, an HEF incorporating active Y-capacitor (AY-HEF) is proposed for effectively mitigating common-mode (CM) noise in the wide frequency band. The proposed AY-HEF can effectively extend the upper cutoff frequency of AEF and achieve 15 dB attenuation at 30 MHz. Taking a synchronous buck converter as an example, the experimental results validate the effectiveness of the proposed AY-HEF, there is 10-30 dB CM noise reduction across the frequency range from 150 kHz to 30 MHz, and the volume of HEF is reduced by 76% comparing PEF. Therefore, this article provides a new and compact HEF topology for power converters, which is needed to achieve high power density.
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SunView 深度解读

从阳光电源的业务视角来看,这项混合EMI滤波技术具有重要的战略价值。在光伏逆变器和储能变流器领域,随着SiC、GaN等宽禁带半导体器件的广泛应用,开关频率不断提升以实现更高功率密度,但随之而来的高频电磁干扰问题日益严峻,成为制约产品小型化和性能优化的关键瓶颈。

该论文提出的主动Y电容混合滤波方案(AY-HEF)直击行业痛点。传统无源EMI滤波器体积庞大,占据逆变器15-20%的空间和成本,而该技术通过主动-无源混合架构,在150kHz-30MHz宽频段实现10-30dB的共模噪声抑制,同时将滤波器体积缩减76%。这对阳光电源推进逆变器和储能系统的高功率密度设计具有直接价值,特别是在户用光伏、工商业储能等对体积敏感的应用场景。

从技术成熟度评估,该方案基于同步Buck变换器验证,拓扑相对成熟,但向大功率三相系统扩展仍需验证。主动滤波电路的增益带宽积限制、在30MHz高频段仅15dB衰减,以及长期可靠性问题是工程化的主要挑战。此外,主动电路引入的额外功耗、成本以及在宽温度范围(-40℃至85℃)下的稳定性需要深入评估。

建议阳光电源将此技术纳入预研规划,重点关注在新一代SiC逆变器平台的适配性。可先在中小功率产品(如户用逆变器、便携式储能)试点验证,积累工程数据后再向大功率系统推广。同时需关注EMC标准演进趋势,确保技术方案的前瞻性和合规性,为产品差异化竞争构建技术护城河。