Single-Phase Mains Fed Three-Phase Induction Motor Drive Using Improved Power Quality Direct AC–AC Converter

IF 7.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Industry Applications Pub Date : 2023-03-24 DOI:10.1109/OJIA.2023.3279776

Tabish Nazir Mir;Bhim Singh;Abdul Hamid Bhat;Marco Rivera;Patrick Wheeler

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Abstract

This article presents an alternative ac–ac converter topology and its control for low-speed three-phase induction motor drives fed from single-phase ac mains. The proposed matrix converter based drive system eliminates the dc link capacitor, thus facilitating high power density and system reliability. The primary challenge in controlling a

$1\phi$

$3\phi$

matrix converter is to navigate the discrepancy of instantaneous power across the

$1\phi$

grid and

$3\phi$

load via a direct ac–ac converter. In order to address this concern, it is proposed to use mathematical modeling of the motor and input LC filter for state selection, in order to deliver improved current waveforms. Enhanced performance is demonstrated through simulations, and further validated using experimental results. Particularly improved power quality performance is achieved at low motor speeds, where precise low-speed sensorless operation is ensured through suitable speed observer.

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采用改进电能质量的直接交流-交流转换器的单相市电供电三相感应电动机驱动

本文介绍了一种可供选择的交流-交流变换器拓扑结构及其对单相交流电源供电的低速三相感应电动机驱动器的控制。所提出的基于矩阵变换器的驱动系统消除了直流链路电容器，从而促进了高功率密度和系统可靠性。控制$1\phi$到$3\phi$矩阵转换器的主要挑战是通过直接交流-交流转换器处理$1\phi$grid和$3\phi$load之间的瞬时功率差异。为了解决这一问题，建议使用电机和输入LC滤波器的数学建模进行状态选择，以提供改进的电流波形。通过仿真验证了增强的性能，并使用实验结果进一步验证了这一点。在低电机速度下实现了特别改进的电能质量性能，其中通过合适的速度观测器确保了精确的低速无传感器操作。

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IEEE Open Journal of Industry Applications

CiteScore

13.50

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