减少 WBG 逆变器源头的 EMI:扩频调制和辅助开关脚技术的比较研究

IF 2 3区 计算机科学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Markeljan Fishta;Erica Raviola;Franco Fiori
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引用次数: 0

摘要

开关转换器需要有效的电磁干扰(EMI)滤波器,以符合传导发射法规。然而,这些滤波器往往因昂贵、笨重而带来巨大挑战。最新一代基于宽带隙 (WBG) 的功率转换器进一步加剧了这一问题。通过传导 EMI 缓解技术,可以减少滤波器的尺寸,从而解决源头(尤其是低频)的辐射问题。扩频调制(SSM)不需要对硬件进行任何改动,因此越来越受到人们的关注。本文研究了 SSM 在西电东送牵引逆变器中的有效性,在这种逆变器中,开关频率保持在几十千赫兹。此外,还研究了使用附加开关脚来降低电磁干扰的方法。对这两种技术及其在共模 (CM) 传导 EMI 抑制方面的有效性进行了比较分析。实验结果表明,减少 CM 传导 EMI 是可行的。实验发现,在 SSM 的情况下,160 kHz 的 EMI 峰值降低了 2 dB,而在附加脚的情况下,降低了 25 dB。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EMI Reduction at the Source in WBG Inverters: A Comparative Study of Spread-Spectrum Modulation and Auxiliary Switching Leg Techniques
Effective electromagnetic interference (EMI) filters are required by switching converters to comply with conducted emission regulations. However, these filters often pose significant challenges, being expensive, bulky, and heavy. Such an issue is further aggravated with the latest generation of wide band gap (WBG)-based power converters. Reduction of the filter size can be achieved through conducted EMI mitigation techniques that address emissions at the source, particularly at low frequencies. Spread-spectrum modulation (SSM) has gained increasing interest to mitigate EMI, as it does not require any hardware alterations. This article investigates the effectiveness of the SSM in case of WBG traction inverters, where the switching frequency remains in the tens of kilohertz. In addition, the use of an additional switching leg to reduce the EMI was also investigated. A comparative analysis of these two techniques and their effectiveness in the common mode (CM) conducted EMI suppression is carried out. Experimental results are provided demonstrating the feasible CM conducted EMI reduction. It was found that the EMI peak at 160 kHz decreased by 2 dB in the SSM case and by 25 dB in the additional leg case.
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来源期刊
CiteScore
4.80
自引率
19.00%
发文量
235
审稿时长
2.3 months
期刊介绍: IEEE Transactions on Electromagnetic Compatibility publishes original and significant contributions related to all disciplines of electromagnetic compatibility (EMC) and relevant methods to predict, assess and prevent electromagnetic interference (EMI) and increase device/product immunity. The scope of the publication includes, but is not limited to Electromagnetic Environments; Interference Control; EMC and EMI Modeling; High Power Electromagnetics; EMC Standards, Methods of EMC Measurements; Computational Electromagnetics and Signal and Power Integrity, as applied or directly related to Electromagnetic Compatibility problems; Transmission Lines; Electrostatic Discharge and Lightning Effects; EMC in Wireless and Optical Technologies; EMC in Printed Circuit Board and System Design.
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