The experimental performance of a multi-level AC-DC power electronic converter for PMG-based WECSs

2017 IEEE/IAS 53rd Industrial and Commercial Power Systems Technical Conference (I&CPS) Pub Date : 2017-05-06 DOI:10.1109/ICPS.2017.7945112

S. Saleh, X. F. S. Onge, J. D. McLeod, W. M. McGivney

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引用次数: 8

Abstract

This paper experimentally tests a new multi-level generator-side ac-dc power electronic converter (PEC) for applications in permanent magnet generator (PMG)-based wind energy conversion systems (WECSs). The tested generator-side PEC is designed as a cascaded H-bridge multi-level PEC, and is fed by one 3φ supply. The used H-bridge cells are modified such that each cell is composed of a forward half-bridge and a backward half-bridge. The forward half-bridge produces a dc voltage, while the backward half-bridge provides a path for the current to flow to the next H-bridge cell (connected in series). The new multi-level ac-dc PEC is implemented for experimental testing as a generator-side ac-dc PEC in a 7.5 kW PMG-based WECS. The tested acdc PEC is operated using switching signals that are generated by the sinusoidal level-shifted pulse width modulation strategy. Experimental test results demonstrate reduced harmonic distortion in input currents, efficient and high quality power transfer from the PMG to the dc link, and high input power factor.

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基于pmg的wcs多级交直流电力电子变换器的实验性能

本文对一种新型多级发电机侧交直流电力电子变换器(PEC)进行了实验测试，用于基于永磁发电机(PMG)的风能转换系统(wecs)。所测试的发电机侧PEC设计为级联h桥多级PEC，并由一个3φ电源供电。所使用的h桥单元经过修改，使得每个单元由前向半桥和后向半桥组成。向前半桥产生直流电压，而向后半桥为电流流向下一个h桥单元(串联连接)提供路径。在7.5 kW pmg型wcs中，作为发电机侧交流直流PEC进行了实验测试。测试的acdc PEC使用由正弦电平移脉宽调制策略产生的开关信号进行操作。实验测试结果表明，该电路降低了输入电流的谐波失真，实现了从PMG到直流链路的高效、高质量的功率传输，并且具有较高的输入功率因数。

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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2017 IEEE/IAS 53rd Industrial and Commercial Power Systems Technical Conference (I&CPS)

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