Predictive direct power control for photovoltaic grid connected system

dc.contributor.author	Barra, Kamel
dc.contributor.author	Rahem, Djamel
dc.date.accessioned	2022-04-28T03:41:59Z
dc.date.available	2022-04-28T03:41:59Z
dc.date.issued	2013
dc.description.abstract	The paper presents an improved predictive power control for a photovoltaic conversion chain connected to a grid based on finite states space model of the converter. The proposed control algorithm selects the switching state of the inverter that minimizes the error between active and reactive power predictions to their computed values for all different voltage vectors. The optimal voltage vector that minimizes a cost function is then applied to the output of the power converter. Once the proposed predictive strategy is validated, a multilevel converter is then used to improve and highlight the obtained results. The proposed predictive control strategy uses only one sample time prediction and it is very intuitive since it is very simple and provides best performances compared to other modulation techniques.	ar
dc.identifier.uri	http://hdl.handle.net/123456789/13071
dc.language.iso	en	ar
dc.publisher	ELSelsevier	ar
dc.subject	Photovoltaic grid conversion chain	ar
dc.subject	Predictive control	ar
dc.subject	Finite states-space model	ar
dc.subject	Cost function	ar
dc.subject	Multilevel converter	ar
dc.title	Predictive direct power control for photovoltaic grid connected system	ar
dc.title.alternative	An approach based on multilevel converters.	ar
dc.type	Article	ar

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