A DC link switch-based common mode voltage reduction scheme in PWM inverter drives

Jian-Xin Shen, Wei Sun, Xiangqian Huang
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Abstract

Conventional pulse width modulation (PWM) methods for inverter application have the drawback of common mode voltage (CMV) issues, mainly due to the zero states when all the motor phases are clamped to the DC source or ground. A new three-phase voltage source inverter topology is proposed in this paper. The topology employs two switches on the DC link. A forced zero state (FZS) can be obtained when the DC-link switches are turned off. With the proposed topology, FZS space vector PWM (FZS-SVPWM) and FZS discontinuous PWM (FZS-DPWM) can be derived from conventional SVPWM and DPWM, respectively. The FZS-SVPWM and FZS-DPWM methods are effective in the CMV reduction aspect, whilst have the advantage of lower current ripple and acoustic noise than the existing reduced CMV PWM methods. Moreover, an FZS optimized PWM (FZSOPWM) is also proposed to improve performance. Simulation and experiment results validate the CMV and common mode current (CMC) reduction effect as well as the acoustic noise performance. The proposed topology is effective when both the low CMV/CMC and the low current ripple or acoustic noise are highly required.
基于直流链路开关的PWM逆变器共模降压方案
传统的脉宽调制(PWM)方法在逆变器应用中有共模电压(CMV)问题的缺点,主要是由于当所有电机相位被箝位到直流电源或地时处于零状态。本文提出了一种新的三相电压源逆变器拓扑结构。该拓扑在直流链路上使用两台交换机。当直流链路开关关闭时,可以获得强制零状态(FZS)。利用该拓扑结构,FZS空间矢量PWM (FZS-SVPWM)和FZS不连续PWM (FZS-DPWM)可分别由传统的SVPWM和DPWM衍生而来。FZS-SVPWM和FZS-DPWM方法在减小CMV方面是有效的,同时比现有的减小CMV PWM方法具有更小的电流纹波和噪声。此外,还提出了一种FZS优化PWM (FZSOPWM)来提高性能。仿真和实验结果验证了CMV和共模电流(CMC)的降低效果以及噪声性能。当对低CMV/CMC和低电流纹波或噪声要求很高时,所提出的拓扑结构是有效的。
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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