OPTIMISATION DE LA PUISSANCE  D’UN GPV A L’AIDE DE LA METHODE DE ‘PERTURB & OBSERVE’

BELKAS, AYOUB; HAMOUR, ABD EL MOUMEN

dc.contributor.author	BELKAS, AYOUB
dc.contributor.author	HAMOUR, ABD EL MOUMEN
dc.date.accessioned	2023-10-09T08:59:07Z
dc.date.available	2023-10-09T08:59:07Z
dc.date.issued	2023
dc.identifier.uri	https://di.univ-blida.dz/jspui/handle/123456789/25410
dc.description	4.629.1.164/ P95	fr_FR
dc.description.abstract	The current-voltage characteristic of a PV module is subject to variations depending on climatic conditions, resulting in a nonconstant power output. This means that the power generated depends heavily on the conditions to which the PV module is exposed. In order to maximize power generation at any time, photovoltaic systems generally use MPPT (Maximum Power Point Trackers). The function of these devices is to search for the point of operation where the power output is maximum and to maintain operation at that level, using a specific algorithm. The literature offers a wide range of control algorithms to search for the maximum power point. In this study, simulation results are obtained for the algorithms "perturb and Observe", "Fuzzy logic" and "Variable step size P&O" using MATLAB. The rest of this work we studied the different types of choppers (dc/ dc converter).	fr_FR
dc.language.iso	fr	fr_FR
dc.publisher	blida 1	fr_FR
dc.subject	Photovoltaic, MPPT, chopper, P&O, fuzzy logic, variable step size P&O.	fr_FR
dc.title	OPTIMISATION DE LA PUISSANCE D’UN GPV A L’AIDE DE LA METHODE DE ‘PERTURB & OBSERVE’	fr_FR
dc.type	Other	fr_FR