用于感应电机驱动的单相到三相多电平矩阵变换器($1\乘以3 \ \mathrm{M}^{2}\mathrm{C}$

2020 IEEE International Conference on Power Systems Technology (POWERCON) Pub Date : 2020-09-14 DOI:10.1109/POWERCON48463.2020.9230558

M. Waghmare, B. Umre, M. Aware, Anup Kumar, Shubhangi A. Yerkal

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引用次数: 0

摘要

本文介绍了单相到三相多电平矩阵变换器($1\乘以3 \ \mathrm{M}^{2}\mathrm{C}$)。该转换器将单相电源直接连接到三相负载，不需要任何储能装置(电池)或任何重型直流链路电容器。整个系统保证了传统矩阵变换器的平衡运行和单位功率因数(UPF)等特性。为了便于分析，在$1\ × 3 \ \mathrm{M}^{2}\mathrm{C}$>提供的仿真环境中对三相异步电动机进行建模。$1\ × 3 \ mathm {M}^{2}\ mathm {C}$>由源侧电流源整流器(CSR)和负载侧三相三电平二极管箝位逆变器(3L-DCI)组成。为了简化$1\ × 3 \ mathm {M}^{2}\ mathm {C}$>调制的复杂性，本文提出了以解耦方式控制CSR和多电平3L-DCI的完整调制方案。本文在MATLAB/Simulink环境下对$1\ × 3 \ \mathrm{M}^{2}\mathrm{C}$>驱动三相异步电动机的性能进行了分析，并与两电平矩阵变换器进行了比较，给出了有效的结果。

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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Single-phase to Three-phase Multilevel Matrix Converter ($1\times 3 \ \mathrm{M}^{2}\mathrm{C}$) for Induction Motor Drive

Single-phase to Three-phase Multilevel Matrix Converter ($1\times 3 \ \mathrm{M}^{2}\mathrm{C}$) is presented in this paper. This converter connects a single-phase supply to a three-phase load directly with absence of any energy storage device (battery) or any heavy dc-link capacitor. The whole system promises the characteristics of the conventional matrix converter like balance operation and unity power factor (UPF). For analysis purpose a three-phase induction motor is modeled in simulation environment supplied by $1\times 3 \ \mathrm{M}^{2}\mathrm{C}$>. The $1\times 3 \ \mathrm{M}^{2}\mathrm{C}$> consists of source side current source rectifier (CSR), and load side three-phase three-level diode clamped inverter (3L-DCI). Complete modulation scheme to control the CSR and multilevel 3L-DCI in decoupled manner in order to simplify complexities of modulation of the $1\times 3 \ \mathrm{M}^{2}\mathrm{C}$> is presented in this paper. The performance of $1\times 3 \ \mathrm{M}^{2}\mathrm{C}$> driven three-phase induction motor is analyzed in MATLAB/Simulink environment and compared it with two level matrix converter with valid results are also given in the paper.

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来源期刊

2020 IEEE International Conference on Power Systems Technology (POWERCON)

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