采用Cuk变换器和EMI滤波器的单相整流系统的设计与性能分析

2015 International Conference on Advances in Electrical Engineering (ICAEE) Pub Date : 2015-12-01 DOI:10.1109/ICAEE.2015.7506852

Md. Khurshedul Islam, Md Nurul Azim Talukdar, M. I. Mahmud, S. Mostafa

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引用次数: 2

摘要

随着电力电子器件和绿色能源的快速发展，对直流设备的需求日益增加。但是大多数发电系统以交流的形式发电，因此强烈建议一个有效的整流系统将交流转换成直流。对传统的交直流转换系统进行深入研究，发现其存在着高THD、低功率因数、低稳压等问题。本文对整流系统进行了分析。在每个系统中，变流器通过整流器供电，输出通过滤波器。观察到它们对电压、功率和THD波形的后续影响。在全桥整流器中，THD的量是如此之高。本文用常规滤波器(LC)分析了功率因数不佳和THD量过高的传统升压PFC变换器。因此，升压变换器被cuk变换器所取代，并分析了在不允许的THD量范围内的各种常规滤波器的响应。最后，从整流系统的角度出发，本文提出了一种由cuk变换器和EMI滤波器组成的高效整流系统。对于带有EMI滤波器的cuk变换器，可以看到THD量大大降低，功率因数优于以前的传统升压变换器。在MATLAB Simulink环境下对所有电路进行了仿真，得到了预期的输出。

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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Design and performance analysis of a single phase rectification system by using Cuk converter and EMI filter

The demand of DC equipments are increasing day by day due to rapid development of power electronics devices and green energy. But most of the power generating systems engenders power in the form of AC. Consequently an efficient rectification system is strongly recommended to convert AC into DC. A close study of usual AC to DC conversion system arises a number of problems such as high THD, low power factor, low voltage regulation etc. This paper offers an analysis of rectification systems. In every system converters are fed through the rectifier and output has taken through a filter. Their subsequent effect on the voltage, power and THD waveforms have observed. In full-bridge rectifier, the amount of THD is so high. Here a conventional boost PFC converter is analyzed with a regular filter (LC) in which the power factor is not better and amount of THD is so high. So the boost converter is replaced by cuk converter and responses are analyzed for various regular filters in which amounts of THD were not in permissible limit. Finally in favor of a rectification system this paper presents an efficient rectification system amalgamated of cuk converter and EMI filter. In case of cuk converter with EMI filter, it is seen that the amount of THD is greatly low and power factor is better than the previous traditional boost converter. All the circuits are simulated in MATLAB Simulink environment and the desired outputs have obtained.

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2015 International Conference on Advances in Electrical Engineering (ICAEE)

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