Adaptive Switching Algorithm for Shunt Active Power filter with Model Predictive Control

Proceedings of ‏The 4th International Conference on Modern Research in Science, Engineering and Technology Pub Date : 2021-03-05 DOI:10.33422/4th.msetconf.2021.03.07

Akram ElHelbawy

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Abstract

The Algorithmic controllers have been widely adopted for power converter applications as in Model Predictive control and adaptive control. Algorithmic controllers are usually functioning with restrictions for electronic component protection. This article presents algorithmic control for modulating the switching frequency of power converters to reduce both switching losses and switching frequency. A low volt converter for shunt active power filter is used as an application for showing the effect of adaptive switching. Least Mean Square Adaptive Linear Neuron (ADALINE LMS) is proposed as algorithmic adaptive switching for model predictive controllers used with power converter applications. The proposed technique shows the reliability of limiting the switching frequency, interfacing it with model predictive control. The new technique is applicable on electrical grid and aircraft applications. THD is kept within a stable acceptable limit <5% with less switching frequency. The technique is designed and simulated on MATLAB SIMULINK and results are verified.

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模型预测控制并联有源滤波器的自适应开关算法

算法控制器已广泛应用于功率变换器的模型预测控制和自适应控制。算法控制器通常具有电子元件保护的限制。本文提出了一种调制功率变换器开关频率的算法控制，以降低开关损耗和开关频率。以并联型有源电力滤波器低压变换器为例，展示了自适应开关的效果。提出了最小均方自适应线性神经元(ADALINE LMS)作为功率变换器模型预测控制器的自适应切换算法。该方法结合模型预测控制，证明了限制开关频率的可靠性。该技术可应用于电网和飞机上。THD保持在<5%的稳定可接受范围内，开关频率较小。在MATLAB SIMULINK中对该技术进行了设计和仿真，并对结果进行了验证。

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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Proceedings of ‏The 4th International Conference on Modern Research in Science, Engineering and Technology

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