Simulation and Analysis of Adaptive ControlMethod Employed for Matrix Converter

M. Kumar, U. Reddy, J.N.Ch, R. Shekar
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Abstract

Since discovered, electrical energy became one of the world’s fastest growing energy technologies. Efficient and stable utilization of electrical energy is one of the most important problem. The major phenomena that effects on the quality of power supply is the harmonics caused by different loads connected to the grid, which are usually converters based on power electronic components. These are the main causes for the deterioration of power quality. This paper presents the harmonic compensation of linear loads fed by matrix converter and the performance of two types of controllers(namely, Adaptive Fuzzy control and Adaptive Neural Fuzzy Inference system) are compared, during balanced supply and abnormal grid conditions. The sinusoidal nature of output currents were preserved by using PWM method and optimum Venturini method employed for matrix converter.
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矩阵变换器自适应控制方法的仿真与分析
自发现以来,电能成为世界上发展最快的能源技术之一。高效、稳定地利用电能是其中一个重要问题。影响供电质量的主要现象是接入电网的不同负载所产生的谐波,这些负载通常是基于电力电子元件的变流器。这些都是导致电能质量恶化的主要原因。本文比较了在供电平衡和电网异常情况下,矩阵变换器对线性负荷的谐波补偿以及两种控制器(自适应模糊控制和自适应神经模糊推理系统)的性能。采用PWM方法和矩阵变换器的最优文丘里尼方法保持了输出电流的正弦特性。
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