PERFORMANCE ANALYSIS OF STANDALONE SOLAR GENERATION SYSTEM WITH FUZZY AND ZVS CONVERTER

Volume IV Issue II, February 2019 Pub Date : 2019-02-15 DOI:10.30780/IJTRS.V04.I02.003

S. Gaur, Prakash Bahrani, Raunak . Jangid

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引用次数: 1

Abstract

Saurabh Singh Gaur, Prakash Bahrani, Raunak Jangid E-Mail Id: saurabh050292@gmail.com Department of Electrical Engineering, AITS, Udaipur, Rajasthan (India) AbstractThis present work focuses on the development of resonant converter (DC –DC converter) for solar energy conversion system (SECS). It accentuations on plan and exhibiting periods of the distinctive constituents of the SECS like the rudimentary model of zero voltage switching (ZVS) converter, inverter, fuzzy logic controller, best maximum power point tracking system utilizing MATLAB/Simulink. Here, a resonant converter represents the static and dynamic characteristics of an actual solar irradiance have been developed for simulation tests. The irradiance and temperature changes circumstances are performed using the resonant converter, which consist of PV system, whose control is implemented using Fuzzy logic control unit and MATLAB/ Simulink. This PV module can achieve maximum power using Perturb & Obserb algorithm. Under various abnormal conditions like change in irradiance and temperature, step change in irradiance etc. The control system is executed on a fuzzy logic control unit. Speculative outcomes are exhibited utilizing a 200W model of SECS to demonstrate the better aftereffects of the propelled framework and their control under steadystate and dynamic conditions.

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带有模糊和ZVS转换器的独立太阳能发电系统性能分析

Saurabh Singh Gaur, Prakash Bahrani, Raunak Jangid e -邮件Id: saurabh050292@gmail.com印度AITS电气工程系摘要本文主要研究用于太阳能转换系统(SECS)的谐振变换器(DC -DC变换器)的研制。重点介绍了零电压开关(ZVS)变换器、逆变器、模糊逻辑控制器的基本模型、利用MATLAB/Simulink的最佳最大功率点跟踪系统等SECS的独特组成部分的计划和展示周期。在这里，谐振变换器代表了一个实际太阳辐照度的静态和动态特性，已开发用于模拟测试。利用由光伏系统组成的谐振变换器来实现辐照度和温度的变化情况，其控制采用模糊逻辑控制单元和MATLAB/ Simulink实现。该光伏模块可以通过Perturb & ob塞族算法实现最大功率。在各种异常情况下，如辐照度和温度的变化，辐照度的阶跃变化等。控制系统在模糊逻辑控制单元上执行。利用200W的SECS模型展示了推测结果，以证明在稳态和动态条件下推进框架及其控制的更好的后效应。

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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Volume IV Issue II, February 2019

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