Design of a New Duty Cycle Modulation to Improve the Energy Quality of an Insulated Production System

European Journal of Electrical Engineering Pub Date : 2021-08-31 DOI:10.18280/ejee.230404

Clément Kengnou Donfack, Charles Hubert Kom, J. Mandeng, Félix Pauné

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引用次数: 1

Abstract

In this article, we propose a new strategy for controlling three-phase inverters of renewable energy sources, based on the Duty Cycle Modulatiom (DCM) control using the Park and Fortescue transformation (DCM-dq-dih). Our goals in setting and using this strategy are, on the one hand, to induce a lower harmonic rate as compared to the SPWM (Sinusoidal Pulse Width Modulation) strategy and on the other hand, this control technique enables the inverter to deliver balanced voltages, be it in the event of load unbalance. Our design is built on the basis of the known mode of DCM control of single-phase inverters. Thus, the control of our three-phase inverter is carried out by three DCM modules whose set-points come from the direct, reverse and homopolar strings reconstructed in a Park landmark. This new strategy was tested on the MATLAB Simulink environment for a load of 160 kW. The test results show a reduced Total Harmonic Distorsion (THD) of 2.7 times compared to the THD produced by the SPWM control strategy. In addition, regulation of the symmetrical components during load unbalance is ensured so that the inverter always delivers constant and balanced voltages.

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一种新型占空比调制的设计以提高绝缘生产系统的电能质量

本文提出了一种基于Park和Fortescue变换(DCM-dq-dih)占空比调制(DCM)控制的可再生能源三相逆变器控制新策略。我们设置和使用这种策略的目标是，一方面，与SPWM(正弦脉冲宽度调制)策略相比，诱导更低的谐波率，另一方面，这种控制技术使逆变器能够提供平衡电压，无论是在负载不平衡的情况下。我们的设计是建立在已知的单相逆变器的DCM控制模式的基础上。因此，我们的三相逆变器的控制由三个DCM模块进行，其设定点来自公园地标中重建的正、反和同极串。在MATLAB Simulink环境下对该策略进行了160 kW负载的测试。测试结果表明，与SPWM控制策略相比，总谐波失真(THD)降低了2.7倍。此外，在负载不平衡时，对称元件的调节保证了逆变器始终提供恒定和平衡的电压。

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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European Journal of Electrical Engineering

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