采用恒压控制方法的静态负载集中式太阳能光伏系统

S. Alagammal, N. Prabha, I. Aarthy
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引用次数: 7

摘要

由于环境的变化,替代能源,如太阳能,总是互补的。太阳能和风能等能源的发电越来越重要,其中光伏转换由于其作为电源的潜力而成为研究的主要焦点。本文介绍了太阳能光伏系统的高升压隔离高效单开关DC-DC变换器的恒压控制方法,该方法使变换器的输出保持恒定,而不受辐照度变化的影响。恒压控制方法采用光伏系统阵列作为其能量来源。太阳能光伏系统的输出是非线性的,并且依赖于温度和辐照度,而面板电压和电流随辐照度的变化而变化。恒压控制方法总是以这样一种方式工作,即试图将转换器电压恒定地保持在用户设定的参考电压上。本系统采用高阶单开关隔离DC-DC变换器,通过改变占空比来连续监测电压,以保持变换器电压始终恒定。作为提高性能的一种方法,进行了开环和闭环分析,其中闭环分析使用PI控制器来实现其性能。在MATLAB中实现了该模型,该模型接受辐照度作为输入,从变换器输出恒压,并通过原型模型的实验结果验证了所提变换器拓扑结构的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Centralized Solar PV Systems for Static Loads Using Constant Voltage Control Method
The alternative energy resources, like solar, are always complementary due to environmental changes. Energy generation with the sources such as solar and wind is gaining importance and of that photovoltaic conversion is the main focus of researches due to its promising potential as the electrical source. This paper presents the constant voltage method of control where the output of the converter is maintained constant irrespective of the variations in the irradiance with the high step-up isolated efficient single switch DC-DC converter for the solar PV systems. Constant voltage method of control uses the array of photovoltaic systems as its energy source. The output of the Solar PV systems is nonlinear and has its dependency on temperature and irradiance by which the panel voltage and current varies with the variation in irradiance. Constant voltage control method always operates in such a way that the converter voltage is tried to be maintained constantly to the reference voltage which is set by the user. The system used here utilizes high step single switch isolated DC-DC converter and monitors the voltage continuously by varying the duty cycle to maintain the converter voltage always constant. As a way of improving the performance, both the open and closed loop analysis is done where the closed loop analysis uses the PI controller for its performance. The model is implemented in MATLAB and it accepts the irradiance as the input and outputs the constant voltage from the converter and the feasibility of the proposed converter topology is confirmed with experimental results of the prototype model.
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