新颖的18电平多电平逆变器电压控制

S. Mekhilef, M. Kadir
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引用次数: 0

摘要

本文提出了一种采用新颖控制方法的三级十八电平逆变器设计方案。逆变器由高压、中压、低压三级串联组成。高压级是由一个三相,六开关传统逆变器。中、低压级由h桥单元构成的三电平逆变器组成。所提出的控制策略假设一个参考输入电压矢量,目标是在每个采样时间内使逆变器在一种状态下运行,以产生最接近该参考电压的矢量。控制概念是基于在60°间隔的两轴坐标系中表示参考电压。在本系统中,逆变器矢量的尺寸是逆变器直流电压的整数倍,逆变器矢量用逆变器开关变量的表达式很直观。因此,开关信号可以通过简单的定点计算得到。提出了该控制策略的方法,定义了变换后的逆变器矢量及其与开关变量的关系,并描述了实现过程。测试结果验证了该策略在计算效率方面的有效性,以及逆变器在低开关损耗的情况下产生极低畸变电压的能力。
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Novel voltage control of 18 level multilevel inverter
This paper presents a three-stage eighteen-level inverter design with a novel control method. The inverter consists of a series connected main high-voltage, medium-voltage and low-voltage stages. The high voltage stage is made of a three-phase, six-switch conventional inverter. The medium and low voltage stages are made of three-level inverters constructed by H-bridge units. The proposed control strategy assumes a reference input voltage vector and aims to operate the inverter in one state per sampling time to produce the nearest vector to that reference. The control concept is based on representing the reference voltage in 60°-spaced two axis coordinate system. In this system, the inverter vectors' dimensions are integer multiples of the inverter's dc voltage and the expression of the inverter's vectors in terms of its switching variables is straightforward. Consequently, the switching signals can be obtained by simple fixed-point calculations. The approach of the proposed control strategy has been presented, the transformed inverter vectors and their relation to the switching variables have been defined, and the implementation process has been described. The test results verify the effectiveness of the proposed strategy in terms of computational efficiency as well as the capability of the inverter to produce very low distorted voltage with low switching losses.
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