有源前端整流器的模型预测控制:鲁棒性分析

2023 International Conference on Electrical, Computer and Communication Engineering (ECCE) Pub Date : 2023-02-23 DOI:10.1109/ECCE57851.2023.10101487

Redoy Hossain, Md. Nadim Hossain, Aditta Chowdhury, K. Hasan, M. R. T. Hossain

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引用次数: 0

摘要

本文采用模型预测控制方法对有源前端整流器进行鲁棒性分析。多年来，不同的机制已应用于控制有源前端整流器。本文设计并控制了整流器，而不需要PI控制器。通过评估各种系统条件下的总谐波失真(THD)、开关频率和电压偏差来分析模型的鲁棒性。所选择的方法在离散周期内执行，不需要外部调制器。通过引入动态参考，使其在功率控制上具有灵活性。还提供了实际电源和参考电压，而无需使用额外的控制回路。分析了总谐波失真、开关频率和电压的变化规律，并在MATLAB Simulink中对系统进行了设计和研究。仿真结果表明，该方法可以更快、更准确地确定无功功率和动态电压。针对不同的荷载类型，对该方法进行了分析，验证了其有效性。该整流器的实际应用将在未来引起人们的兴趣。

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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Model Predictive Control of an Active Front End Rectifier: Robustness Analysis

This paper represents the robustness analysis of active front end rectifier by model predictive control. Over the year different mechanisms have been applied for controlling the active front end rectifier. In our paper, the rectifier has been designed and controlled without the need of PI controller. The model's robustness is analyzed by evaluating total harmonic distortion (THD), switching frequency and voltage deviation for various system conditions. The chosen method performs in a discrete periods and requires no external modulators. By applying dynamic references, it shows flexibility in power control. Real power source and voltage references are also provided without using extra control loop. Variation of total harmonic distortion, switching frequency and voltage has been analyzed and the system has been designed and investigated in MATLAB Simulink. Simulation findings indicate a faster and more appropriate determination of reactive power and dynamic voltage. The proposed method also have been analyzed for different load types to validate its efficacy. Practical implementation of this rectifier will be of interest in future.

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来源期刊

2023 International Conference on Electrical, Computer and Communication Engineering (ECCE)

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