Two-Switch Zeta-Based Single-Phase Rectifier With Inherent Power Decoupling And No Extra Buffer Circuit

Robson de Souza Donato, Marlius Hudson de Aguiar, Roniel Ferreira Cruz, M. Vitorino, M. B. de Rossiter Corrêa
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引用次数: 1

Abstract

In some single-phase systems, power decoupling is necessary to balance the difference between constant power at load side and double-frequency ripple power at AC side. The application of active power decoupling methods aim to smooth this power oscillatory component, but, in general, these methods require the addition of many semiconductor devices and/or energy storage components, which is not lined up with achieving low cost, high efficiency and high power quality. This paper presents the analysis of a new single-phase rectifier based on zeta topology with power decoupling function and power factor correction using only two active switches and without extra reactive components. Its behavior is based on three stages of operation in a switching period, such that the power oscillating component is stored in one of the inherent zeta inductor. The theoretical foundation that justifies its operation is presented, as well as the simulation and experimental results to validate the applied concepts.
基于zeta的双开关单相整流器,具有固有的功率去耦和无额外缓冲电路
在某些单相系统中,为了平衡负载侧恒功率与交流侧双频纹波功率之间的差值,需要进行功率去耦。有源功率去耦方法的应用旨在平滑这种功率振荡元件,但一般来说,这些方法需要添加许多半导体器件和/或储能元件,这与实现低成本、高效率和高功率质量是不一致的。本文分析了一种基于zeta拓扑的新型单相整流器,该整流器具有功率去耦功能和功率因数校正功能,仅使用两个有源开关,无需额外的无功元件。它的行为是基于在一个开关周期的三个阶段的操作,这样的功率振荡分量被存储在一个固有的zeta电感。给出了其运行的理论基础,并通过仿真和实验验证了其应用概念。
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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