Analysis of Buck, Boost, and Flyback Topologies Using for Active Power Factor Correction

2021 International Conference on Intelligent Technology, System and Service for Internet of Everything (ITSS-IoE) Pub Date : 2021-11-01 DOI:10.1109/ITSS-IoE53029.2021.9615337
Afshin Balal, Miguel Herrera, Yao Lung Chuang, Shahab Balali
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引用次数: 2

Abstract

Rectifier circuits made up of diodes are used in quite a few applications, including Uninterrupted Power Supply (UPS), Switch Mode Power Supply (SMPS), and battery energy storage to convert the AC voltage to the DC voltage. However, the low power factor issue, which causes high current harmonics, is the major disadvantage of this diode rectifier. The need for high-power components with low total harmonic distortion (THD) and high PF is growing. This article aims to investigate three techniques for achieving a PF close to one utilizing buck, boost, and flyback topologies as active power factor correction APFC methods.
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用于有源功率因数校正的降压、升压和反激拓扑分析
由二极管组成的整流电路用于相当多的应用,包括不间断电源(UPS),开关模式电源(SMPS)和电池储能,以将交流电压转换为直流电压。然而,导致高电流谐波的低功率因数问题是这种二极管整流器的主要缺点。对低总谐波失真(THD)和高PF的大功率元件的需求日益增长。本文旨在研究利用降压、升压和反激拓扑作为有源功率因数校正APFC方法实现接近1的PF的三种技术。
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2021 International Conference on Intelligent Technology, System and Service for Internet of Everything (ITSS-IoE)
2021 International Conference on Intelligent Technology, System and Service for Internet of Everything (ITSS-IoE)
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