Voltage band based global MPPT controller for photovoltaic systems

• Published in: Solar energy Vol. 98; pp. 322 - 334
• Main Authors: Gokmen, Nuri, Karatepe, Engin, Ugranli, Faruk, Silvestre, Santiago
• Format: Journal Article Publication
• Language: English
• Published: Kidlington Elsevier Ltd 01.12.2013; Elsevier; Pergamon Press Inc
• Subjects: Algorithms; Applied sciences; Bypass diodes; Components electrònics; Diodes; Direct energy conversion and energy accumulation; Díodes; Electric currents; Electrical engineering. Electrical power engineering; Electrical machines; Electrical power engineering; Energia fotovoltaica; Energia solar fotovoltaica; Energies; Energy; Enginyeria electrònica; Equipments, installations and applications; Exact sciences and technology; Global MPPT; Natural energy; Non-uniform irradiance; Photoelectric conversion; Photovoltaic array; Photovoltaic cells; Photovoltaic conversion; Photovoltaic power; Regulation and control; Simulation; Solar energy; Solar radiation; Àrees temàtiques de la UPC; Global MPPT; Non-uniform irradiance; Bypass diodes; Photovoltaic array; Diode; Control system; Photovoltaic system; Irradiance; Experimental study; Algorithm; Energy characteristic; Bypass; Maximum power point tracking; Electric power; Optimal operation; System simulation; Peak power
• ISSN: 0038-092X; 1471-1257
• DOI: 10.1016/j.solener.2013.09.025

•This paper presents a new global maximum power point tracking (MPPT) algorithm for PV systems.•This algorithm takes into account the number of bypass diodes in a PV string.•This paper states that the global MPP can be tracked by considering only the possible voltage bands.•The possible voltage bands can be found simply by using the proposed analytical equation.•The effectiveness of proposed method has been validated by simulation and experimental studies. This paper presents a new maximum power point tracking algorithm for PV systems useful in case of non-uniform irradiance conditions. This algorithm takes into account the number of bypass diodes in a PV string to calculate the voltage bands associated with the peak power points that appear in the power–voltage characteristic of the PV system. The main contribution of this study is to state that the global maximum power point can be tracked by considering only the possible voltage bands which can be found by using the proposed analytical equation in a simple manner. The algorithm is based in the evaluation and analysis of these voltage bands and in the selection of the PV system voltage related to the maximum power point of work. The proposed algorithm has been validated by means of simulation and also in an experimental study.