直接矩阵变换器在固定开关频率下无功功率降低的预测电压控制

2021 IEEE International Conference on Automation/XXIV Congress of the Chilean Association of Automatic Control (ICA-ACCA) Pub Date : 2021-03-22 DOI:10.1109/ICAACCA51523.2021.9465334

D. Rojas, M. Rivera, S. Toledo, P. Wheeler

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引用次数: 1

摘要

经典的预测控制实现会产生可变的开关频率，从而在矩阵变换器拓扑结构中产生输入滤波器谐振，影响系统性能。基于固定开关频率(M2PC)的调制模型，研究将预测控制应用于直接矩阵变换器(DMC)以提高其功率因数。M2PC技术允许在控制输入电流和无功功率的同时控制DMC的输出波形。系统的离散时间模型以及输入和输出滤波器参数用于预测电源侧无功功率和输出波形在DMC的每个有效开关状态下的行为。利用Matlab/Simulink的仿真结果验证了该策略的最佳性能。

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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Predictive Voltage Control at Fixed Switching Frequency with Reduced Reactive Power in a Direct Matrix Converter

Classical predictive control implementations generate variable switching frequency which could produce input filter resonances in matrix converters topologies, affecting system performance. This paper considers the application of predictive control to a Direct Matrix Converter (DMC) in order to improve the power factor based on a modulated model with a fixed switching frequency (M2PC). The M2PC technique allows control of the output waveforms of the DMC at the same time as controlling the input current and reactive power. The discrete time model of the system as well as the input and output filter parameters are used to predict the behaviour of supply side reactive power and output waveforms for each valid switching state of the DMC. The simulation results from Matlab/Simulink are used to confirm the optimal performance of this strategy.

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2021 IEEE International Conference on Automation/XXIV Congress of the Chilean Association of Automatic Control (ICA-ACCA)

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