Modelling and implementation of a photovoltaic system through improved voltage control mechanism

International Journal of Power Electronics and Drive Systems (IJPEDS) Pub Date : 2024-03-01 DOI:10.11591/ijpeds.v15.i1.pp412-421

Shukurillo Usmonov, Atif Iqbal, A. Saleem, Kholiddinov Ilkhombek Khosiljonovich, Uzbekov Mirsoli Odiljanovich, Eraliev Khojiakbar Abdinabi Ugli, Mamadaliev Musulmonkul Imomali Ugli

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Abstract

Renewable energy dependence is increasing daily due to the decaying of conventional energy sources. Another primary reason is the increment of pollution as well as global warming. Various alternate energy sources are being used to replace conventional ones. Among them, the prominent photovoltaic source provides clean and green energy. This research focuses on energy production through the photovoltaic source. The photovoltaic cells combination is used along with the boost converter to get the maximal power output. The maximum power point tracker was designed and implemented to obtain the optimal power from the photovoltaic cells, which do not provide the desired results. Therefore, the voltage control method is an alternative to the maximum power point tracker. Both methodologies compared at different intensities of solar light. The load is attached to the photovoltaic output to test its reliability and smooth performance. The system is designed using MATLAB simulation, and the desired results are obtained.

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通过改进的电压控制机制建立和实施光伏系统模型

由于传统能源的衰减，对可再生能源的依赖与日俱增。另一个主要原因是污染加剧和全球变暖。各种替代能源正被用来取代传统能源。其中，最突出的是光伏能源，它能提供清洁的绿色能源。本研究的重点是通过光伏能源生产能源。光伏电池与升压转换器结合使用，以获得最大功率输出。为了从光伏电池中获得最佳功率，设计并实施了最大功率点跟踪器，但并没有达到预期效果。因此，电压控制方法是最大功率点跟踪器的替代方法。这两种方法在不同的太阳光强度下进行了比较。负载被连接到光伏输出上，以测试其可靠性和平稳性能。该系统使用 MATLAB 仿真进行设计，并获得了预期结果。

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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International Journal of Power Electronics and Drive Systems (IJPEDS)

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