A new simplified and uniform space vector PWM method for N-level inverters

2008 3rd IEEE Conference on Industrial Electronics and Applications Pub Date : 2008-06-03 DOI:10.1109/ICIEA.2008.4582514

Zixin Li, Ping-Jian Wang, Haibin Zhu, Yao-hua Li

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引用次数: 4

Abstract

For two-level inverters, the conventional space vector PWM (SVPWM) method is not very difficult to implement. However, it becomes more and more complex and even can't be realized as the level number of the inverter increases. Therefore, carrier based SPWM are much more preferred in many cases. In this paper, a new simplified and uniform SVPWM method for N-level(N ges 2) inverters is presented from a new point of view. The state of each switch device of the inverter can be determined directly and easily without much calculation, unlike the conventional SVPWM algorithm which needs to determine the position of the voltage space vector and the adjacent vectors. The advantage of the new method is that the realization of SVPWM is greatly simplified and the complexity of the new method increases little as the number of inverter level increases. For multi-level inverters, the neutral-point potential problem can also be resolved easily using the new method. Computer simulations on R-L and PMSM load and experiment on a 400 Hz power supply show that the new algorithm is effective and easy to implement not only for two-level inverters but also for multi-level inverters.

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n电平逆变器的简化均匀空间矢量PWM新方法

对于双电平逆变器，传统的空间矢量PWM (SVPWM)方法实现起来并不困难。然而，随着逆变器电平数的增加，它变得越来越复杂，甚至无法实现。因此，在许多情况下，基于载波的SPWM更受欢迎。本文从一个新的角度提出了一种简化的、统一的N电平逆变器SVPWM方法。不像传统的SVPWM算法需要确定电压空间矢量和相邻矢量的位置，可以直接方便地确定逆变器各开关器件的状态，而无需进行大量的计算。该方法的优点是大大简化了SVPWM的实现，并且随着逆变器电平数的增加，新方法的复杂度几乎没有增加。对于多级逆变器，该方法也可以很容易地解决中性点电位问题。仿真结果表明，该算法不仅适用于两电平逆变器，而且适用于多电平逆变器，且易于实现。

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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2008 3rd IEEE Conference on Industrial Electronics and Applications

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