Influence of High-Frequency Near-Field Coupling Between Magnetic Components on EMI Filter Design

Wang R.; Blanchette H.F.; Mu M.; Boroyevich D.; Mattavelli P.

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Influence of High-Frequency Near-Field Coupling Between Magnetic Components on EMI Filter Design

机译：磁性元件之间的高频近场耦合对EMI滤波器设计的影响

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摘要

This study presents a detailed analysis of magnetic component coupling and its influence on electromagnetic interference filter design. In contrast with other literature, the novelty of this paper reveals that magnetic coupling should be divided into two categories: low-frequency coupling and high-frequency coupling. It is proven that coupling is frequency related and high-frequency near-field stray flux distribution can be differ dramatically from low-frequency condition. The change of the near-field stray flux distribution is caused by displacement current from stray capacitors. By using the Biot–Savart equation, high-frequency near-field distribution can be well predicted and matched with experimental results. In addition, single stage differential mode (DM) LC filters are utilized to demonstrate the influence of high-frequency coupling.

机译：这项研究对磁性元件耦合及其对电磁干扰滤波器设计的影响进行了详细分析。与其他文献相比，本文的新颖性揭示了磁耦合应分为两类：低频耦合和高频耦合。事实证明，耦合与频率有关，并且高频近场杂散通量分布可能与低频条件有很大差异。近场杂散通量分布的变化是由杂散电容器产生的位移电流引起的。通过使用Biot–Savart方程，可以很好地预测高频近场分布并将其与实验结果相匹配。此外，单级差模（DM）LC滤波器用于演示高频耦合的影响。

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来源
《Power Electronics, IEEE Transactions on》 |2013年第10期|4568-4579|共12页
作者
Wang R.; Blanchette H.F.; Mu M.; Boroyevich D.; Mattavelli P.;
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作者单位

Center for Power Electronics Systems , Virginia Polytechnic Institute and State University, Blacksburg, VA , USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Couplings; Electromagnetic interference; Magnetic flux; Magnetic noise; Magnetic separation; Magnetic shielding; Resonant frequency; Electromagnetic interference (EMI) filter; magnetic coupling; mutual coupling; near-field probe;

机译：联轴器;电磁干扰;磁通量;磁噪声;磁选;磁屏蔽;共振频率电磁干扰（EMI）滤波器;磁耦合相互耦合近场探头;
入库时间 2022-08-17 13:23:43

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1. Potential of Interresonator Tapped-In Coupling in the Design of Compact Miniaturized Electromagnetic Interference (EMI) Filters [J] . Mohajer-Iravani B., EL Sabbagh M. A. Electromagnetic Compatibility, IEEE Transactions on . 2010,第1期

机译：紧凑型微型电磁干扰（EMI）滤波器设计中谐振器间的耦合耦合潜力
2. Mechanism of Near-Field Coupling Between Noise Source and EMI Filter in Power Electronic Converter and Its Required Shielding [J] . Takahashi Keita, Murata Yuichiro, Tsubaki Yusuke, IEEE Transactions on Electromagnetic Compatibility . 2019,第5期

机译：电力电子变换器中噪声源与EMI滤波器的近场耦合机理及所需的屏蔽
3. Circuit Analysis of an EMI Filter for the Prediction of its Magnetic Near-Field Emissions [J] . Labarre C. Electromagnetic Compatibility, IEEE Transactions on . 2012,第2期

机译：EMI滤波器的电路分析，以预测其电磁近场发射
4. Influence of high-frequency near-field coupling between magnetic components on EMI filter design [C] . Wang, Ruxi, Fortin Blanchette, Handy, Mu, Mingkai, Annual IEEE Applied Power Electronics Conference and Exposition;APEC 2013 . 2013

机译：磁性元件之间的高频近场耦合对EMI滤波器设计的影响
5. Optimizing winding designs for high-frequency magnetic components [D] . Pollock, Jennifer D. 2008

机译：优化高频磁性元件的绕组设计
6. RF Head Coil Design with Improved RF Magnetic Near-Fields Uniformity for Magnetic Resonance Imaging (MRI) Systems [O] . Sung-Min Sohn, Lance DelaBarre, Anand Gopinath, -1

机译：具有改进的RF电磁近场均匀性的RF头线圈设计用于磁共振成像（MRI）系统
7. High Speed/High Frequency Technology and EMC. High-speed/high-frequency components and EMC. EMI Suppression Filters for High-Speed, High-Frequency Circuits. [O] . Hidetoshi YAMAMOTO 1997

机译：高速/高频技术和EMC。高速/高频分量和EMC。 EMI抑制滤波器用于高速，高频电路。

Influence of High-Frequency Near-Field Coupling Between Magnetic Components on EMI Filter Design

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