基于多相发生器的六相间接矩阵变换器电能质量分析

Chabi S. Sanni, A. Mpanda, A. El Hajjaji
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引用次数: 1

摘要

如今,多相电机驱动器在许多应用中被考虑,特别是在中大功率应用中。本文研究了六相-三相间接矩阵变换器的拓扑结构。基于整流级的12个双向开关和逆变级的6个单开关,设计了矩阵变换器。它的一端与高性能、容错多相永磁同步发电机(PMSG)相连,另一端与电网相连。在文献中,最常见的mc是三相型,关于多输入转换器(N>3)的论文并不常见。本文研究了在六相MC中可以推导出的支持向量机的所有可能配置,以确定调制指标,从而评估电压传递比。在纯感性负载上进行了仿真,并对MC的输入电流进行了THD分析,以显示所研究的配置对系统的影响。
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Power Quality Analysis of Six Phase Indirect Matrix Converter Based on Multi Phase Generator
Nowadays, multiphase machine drives are considered in many applications, especially for medium and highpower applications. This paper focuses on the topology of the six to three phase (hexaphase) indirect matrix converter (IMC). The matrix converter (MC) is designed based on twelve bidirectional switches for the rectifier stage and six single switches for the inverter stage. It is interfaced to a high-performance, fault-tolerant multiphase permanent magnet synchronous generator (PMSG) on one side and to the grid on the other side. In the literature, the most common MCs are of the three-phase type and papers on multiple input converters (N>3) are not common. This paper deals with all possible configurations of SVM that can be deduced in a hexaphase MC to determine the modulation indexes and then to assess the VTR (Voltage Transfer Ratio). Simulations are performed on a pure inductive load and THD analysis are performed on the input currents of the MC to show the impact of the studied configurations on the system.
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来源期刊
Renewable Energy and Power Quality Journal
Renewable Energy and Power Quality Journal Energy-Energy Engineering and Power Technology
CiteScore
0.70
自引率
0.00%
发文量
147
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