Improved Vector Sequence Modulation Strategy for Suppressing Conducted EMI in Three-Phase PMSMs

IF 2 3区 计算机科学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Haiyang Gao;Wentao Zhang;Yongxiang Xu;Jibin Zou
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引用次数: 0

Abstract

Two-level three-phase voltage-source inverters are widely used in permanent magnet synchronous motor-drive systems. Using pulsewidth modulation (PWM) for control will generate a common-mode voltage (CMV), which acts on the stray capacitance of the motor to ground and generates common-mode leakage current, increasing the conducted electromagnetic interference (EMI). In this regard, this article proposes an improved vector sequence PWM that suppresses the amplitude of the CMV while reducing the conducted EMI caused by PWM without increasing system volume and cost. The vector action sequence and PWM waveforms of the proposed strategy within each sector are presented. The high-frequency harmonics of the CMV generated by the proposed strategy and the impact of deadtime on the proposed strategy have been analyzed. The switching loss of the proposed strategy has been calculated. Compared with other modulation strategies, the proposed improved vector sequence PWM can effectively reduce the conducted EMI. The experimental results have been provided to verify the effectiveness of the proposed strategy in suppressing CMV amplitude and conducted EMI.
抑制三相 PMSM 传导电磁干扰的改进型矢量序列调制策略
两电平三相电压源逆变器广泛应用于永磁同步电机驱动系统。使用脉宽调制(PWM)进行控制会产生共模电压(CMV),CMV 作用于电机对地的杂散电容并产生共模泄漏电流,从而增加传导电磁干扰(EMI)。为此,本文提出了一种改进的矢量序列 PWM,它能抑制 CMV 的幅值,同时在不增加系统体积和成本的情况下减少 PWM 引起的传导 EMI。文中介绍了所提策略在每个扇区内的矢量动作序列和 PWM 波形。分析了拟议策略产生的 CMV 高频谐波以及死区时间对拟议策略的影响。计算了拟议策略的开关损耗。与其他调制策略相比,拟议的改进型矢量序列 PWM 能有效降低传导 EMI。实验结果验证了所提策略在抑制 CMV 振幅和传导 EMI 方面的有效性。
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
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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