Comparative Analysis of P&O and IC MPPT Techniques under Different Atmospheric Conditions

Mustafa Sacid Endiz
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Abstract

Solar photovoltaic (PV) systems have rapidly become a significant energy supply in the world over the last two decades. PV energy has demonstrated its importance among the other renewable energy sources concerning the greenhouse gas emissions and several negative impacts of other energy sources. According to the solar irradiation and ambient temperature, the output power of the PV panels can be of various values. Therefore, different types of power electronics strategies have been used to extract the maximum energy from the PV panels. Maximum Power Point Tracking (MPPT) strategy is the most used technique for PV systems. In this study, the comparative analysis of Perturb and Observe (P&O) and Incremental Conduction (IC) MPPT techniques are performed under different atmospheric conditions. The performance of the P&O and IC techniques is observed in the simulation environment using Matlab/Simulink model. Based on the tracking time and the fluctuation at the output of the PV system, two MPPT techniques are compared. The advantages, disadvantages, and limitations are discussed. The proposed PV system can properly track the maximum power point for both MPPT techniques. The IC technique offers a reduction of the steady-state oscillation and has a better response time to find the maximum power point at the start of the simulation.
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不同大气条件下P&O和IC MPPT技术的对比分析
在过去的二十年里,太阳能光伏系统迅速成为世界上重要的能源供应。在其他可再生能源中,光伏能源在温室气体排放和其他能源的一些负面影响方面已经证明了它的重要性。根据太阳辐照度和环境温度,光伏板的输出功率可以有不同的值。因此,不同类型的电力电子策略被用于从光伏板中提取最大的能量。最大功率点跟踪(MPPT)策略是光伏系统中最常用的技术。在本研究中,对不同大气条件下的扰动观测(P&O)和增量传导(IC) MPPT技术进行了比较分析。利用Matlab/Simulink模型在仿真环境中观察了P&O和IC技术的性能。基于跟踪时间和光伏系统输出端的波动,比较了两种MPPT技术。讨论了其优点、缺点和局限性。所提出的光伏系统可以正确跟踪两种MPPT技术的最大功率点。集成电路技术减少了稳态振荡,并且在模拟开始时具有更好的响应时间来找到最大功率点。
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