Design and analysis of Push-pull-Flyback interleaved converters for photovoltaic system

Linss T. Alex, V. Jaikrishna, S. S. Dash, R. Sridhar
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引用次数: 4

Abstract

The ease of expansion of power system and lowered cost made the use of modular converters in Renewable Energy System more common. Different configurations are implemented depending on the applications. Control strategies like fuzzy logic, droop method and charge control scheme are developed for achieving sharing of current and voltages among the converters. In this paper new modularization architecture is proposed with two different converters i.e., Push-pull and Flyback converters. This architecture has the full benefit of modularization through the sharing of current and voltage. Simulation analysis and experimental prototypes are built and tested to ratify the sharing of input and output current and voltages of proposed architecture.
光伏系统推挽反激交错变换器的设计与分析
电力系统的易扩容性和低成本使得模块化变流器在可再生能源系统中的应用越来越普遍。根据应用程序实现不同的配置。为了实现变流器之间的电流和电压共享,提出了模糊逻辑、下垂法和电荷控制等控制策略。本文提出了一种采用推挽式和反激式两种不同变换器的模块化结构。这种架构通过共享电流和电压,充分发挥了模块化的优势。建立了仿真分析和实验样机并进行了测试,以验证所提出结构的输入输出电流和电压的共享性。
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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