Differential mode (DM) current ripple EMI noise analysis for three-phase Vienna type rectifiers

2016 Asia-Pacific International Symposium on Electromagnetic Compatibility (APEMC) Pub Date : 2016-05-17 DOI:10.1109/APEMC.2016.7522922

Rajib Goswami, Shuo Wang

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引用次数: 2

Abstract

For a Vienna rectifier, the phase-leg's pulsating voltage is the source for the input current ripple and Electromagnetic Interference (EMI) noise. Double Fourier integral transform is commonly used to determine the harmonic spectrum of the phase-leg voltage so as to predict EMI noise. For three-phase, three-level rectifiers, like the Vienna rectifier, this process can be very cumbersome and can vary depending on the modulation scheme used. Moreover it doesn't give direct estimate of the current spectrum which is needed for filter design as the limits of noise current spectra are given in many EMI standards. Hence, for designing the filter for the DM noise, detailed analysis of the DM ripple current is very important. In this paper, the DM ripple current in Vienna type rectifiers using a dual stacked carrier based modulation scheme is investigated and the technique to predict the worst current ripple is developed. Based on this worst current ripple, the method of finding the attenuation requirements for EMI filter design is also described. Simulations were conducted to validate the worst current ripple predicted using the proposed technique.

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三相维也纳整流器的差分模式(DM)电流纹波EMI噪声分析

对于维也纳整流器，相腿的脉动电压是输入电流纹波和电磁干扰(EMI)噪声的来源。双傅立叶积分变换通常用于确定相腿电压的谐波谱，从而预测电磁干扰噪声。对于像维也纳整流器这样的三相三电平整流器，这个过程可能非常麻烦，并且可以根据所使用的调制方案而变化。此外，由于许多EMI标准中都给出了噪声电流谱的极限，因此无法给出滤波器设计所需的电流谱的直接估计。因此，在设计DM噪声滤波器时，对DM纹波电流的详细分析是非常重要的。本文研究了采用双叠载调制方案的维也纳整流器中的DM纹波电流，并提出了预测最坏纹波电流的方法。在此基础上，给出了EMI滤波器设计中衰减要求的计算方法。通过仿真验证了该方法预测的最坏电流纹波。

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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2016 Asia-Pacific International Symposium on Electromagnetic Compatibility (APEMC)

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