Fast indirect GMPPT method for PV systems under uniform and partial shading conditions

Q4 Engineering Nigerian Journal of Technological Development Pub Date : 2024-03-11 DOI:10.4314/njtd.v21i1.1931

K. Ameur, A. Hadjaissa, N. Abouchabana, A. Rabehi

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Abstract

Under Partial Shading Conditions (PSCs), conventional MPPT techniques fail to locate the Global Maximum Power Point (GMPP) for PV generators, and when PSCs change suddenly and repetitively, several GMPP tracking techniques takes time to find or miss the target. To overcome these shortcomings, this paper proposes a new and fast technique that can identify and catch very quickly the GMPP. Due to the use of a PID controller, the PV system is improved in terms of response time and becomes very fast. On the other hand, the proposed algorithm is developed upon other known algorithms and enhanced in order to identify the occurrence of PSCs and to find the GMPP. The measured points during identification and searching process are reduced which increases the power efficiency of the PV system. The time required for the algorithm to catch the GMPP is minimized by 25% compared with other works. To examine the performance of the system a hard scenario, that contains several uniform and partial shading conditions, is used. The simulation is implemented in Matlab/Simulink. The obtained results show clearly the advantage of the proposed technique over others.

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均匀和部分遮阳条件下光伏系统的快速间接 GMPPT 方法

在部分遮光条件（PSCs）下，传统的 MPPT 技术无法定位光伏发电机的全局最大功率点（GMPP），而且当 PSCs 突然重复变化时，几种 GMPP 跟踪技术需要时间才能找到或错过目标。为了克服这些缺点，本文提出了一种新的快速技术，可以快速识别和捕捉 GMPP。由于使用了 PID 控制器，光伏系统的响应时间得到了改善，变得非常快。另一方面，所提出的算法是在其他已知算法的基础上发展并增强的，目的是识别 PSC 的发生并找到 GMPP。在识别和搜索过程中减少了测量点，从而提高了光伏系统的功率效率。与其他作品相比，该算法捕捉 GMPP 所需的时间减少了 25%。为了检验该系统的性能，我们使用了一个包含多种均匀和部分遮光条件的困难场景。模拟在 Matlab/Simulink 中实现。获得的结果清楚地表明，与其他技术相比，所提出的技术更具优势。

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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