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Simulation and Experimental Validation of Hill-Climbing Algorithm for Maximum Power Point Tracking of Solar Photovoltaic Plant
Variation of solar irradiances plays an important role in changing the parameters of a photovoltaic (PV) module. This communication includes a mathematical model, system design, control algorithm and experimental set-up to obtain the maximum power point on P–V and I–V curves of an array. Discussions have been done on all the units of the system and a simulation model developed in MATLAB software using the proposed method. The resultant system is capable of tracking maximum power point without steady-state oscillations and errors in changing environmental conditions. The feasibility and improved functionality of the proposed system have been tested successfully in the laboratory.
Keywords
Hill-Climbing Algorithm, Maximum Power Point Tracking, Photovoltaic Solar System.
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