Performance Comparison of Maximum Power Point Tracking Method of Human Psychology Optimization (HPO), Artificial Bee Colony (ABC) and Fuzzy Logic Controller (FLC) on Flyback Converter Under Partial Shading Condition

M. Z. Efendi, Mochammad Rody Dwirantono, S. Suhariningsih, L. Raharja
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Abstract

Maximum Power Point Tracking (MPPT) is a method to track the power point of an energy source with the intention to generate maximum power. The surface of the Solar Panel has the possibility of being blocked when it receives sunlight. The barrier can be in the shape of shadows of objects that are nearby solar panels. The problem causes the power generated to be not optimal and makes more than one MPPT peak on the characteristics of P-V. This paper compares several methods of MPPT such as Human Psychology Optimization (HPO), Artificial Bee Colony (ABC), and Fuzzy logic Controller (FLC) under partial shading conditions, the comparison of three method by simulation. This algorithm hooks up to a flyback converter to provide MPP. From the results of MPPT accuracy in partial shading situations, the ABC and HPO approach methods can achieve GMPP with more than 82.22 % accuracy. For convergence, ABC needs extra time to discover GMPP. From the results, the Fuzzy approach can track however nevertheless trapped on LMPP.
部分遮阳条件下反激变换器上人类心理优化(HPO)、人工蜂群(ABC)和模糊逻辑控制器(FLC)最大功率点跟踪方法的性能比较
最大功率点跟踪(MPPT)是一种跟踪电源功率点的方法,目的是产生最大功率。太阳能电池板的表面在接受阳光照射时有被遮挡的可能。屏障的形状可以是太阳能电池板附近物体的阴影。该问题导致产生的功率不是最优的,并且在P-V特性上产生多个MPPT峰值。本文比较了人类心理优化(Human Psychology Optimization, HPO)、人工蜂群(Artificial Bee Colony, ABC)和模糊逻辑控制器(Fuzzy logic Controller, FLC)在部分遮光条件下的几种MPPT方法,并通过仿真对三种方法进行了比较。该算法连接到反激变换器以提供MPP。从部分遮阳情况下的MPPT精度结果来看,ABC和HPO方法可以达到82.22%以上的GMPP精度。为了收敛,ABC需要额外的时间来发现GMPP。从结果来看,模糊方法可以跟踪被困在LMPP上的粒子。
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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