New Model and Sliding mode control of a three phase grid connected photovoltaic system without DC-DC Converter

BAHRI Hicham; Aboulfatah Mohamed; Guisser M’hamed; Elhasan Abdelmounim; El Malah Mohammed; Adekanle simon

Proceedings of the Third International Conference on Computing and Wireless Communication Systems, ICCWCS 2019, April 24-25, 2019, Faculty of Sciences, Ibn Tofaïl University -Kénitra- Morocco

Research Article

New Model and Sliding mode control of a three phase grid connected photovoltaic system without DC-DC Converter

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@INPROCEEDINGS{10.4108/eai.24-4-2019.2284092,
    author={BAHRI  Hicham and Aboulfatah  Mohamed and Guisser  M’hamed and Elhasan  Abdelmounim and El Malah  Mohammed and Adekanle  simon},
    title={New Model and Sliding mode control of a three phase grid connected photovoltaic system without DC-DC Converter},
    proceedings={Proceedings of the Third International Conference on Computing and Wireless Communication Systems, ICCWCS 2019, April 24-25, 2019, Faculty of Sciences, Ibn Tofa\~{n}l University -K\^{e}nitra- Morocco},
    publisher={EAI},
    proceedings_a={ICCWCS},
    year={2019},
    month={5},
    keywords={inverter maximum power point trackers unity power factor photovoltaic generator power conversion harmonics pulse width modulation converters reactive power compensation nonlinear load},
    doi={10.4108/eai.24-4-2019.2284092}
}

BAHRI Hicham
Aboulfatah Mohamed
Guisser M’hamed
Elhasan Abdelmounim
El Malah Mohammed
Adekanle simon
Year: 2019
New Model and Sliding mode control of a three phase grid connected photovoltaic system without DC-DC Converter
ICCWCS
EAI
DOI: 10.4108/eai.24-4-2019.2284092

BAHRI Hicham¹^,*, Aboulfatah Mohamed¹, Guisser M’hamed¹, Elhasan Abdelmounim¹, El Malah Mohammed¹, Adekanle simon¹

1: Laboratory ASTI, FST-Settat, University Hassan I

*Contact email: hbahri.inf@gmail.com

Abstract

This paper presents a new model and an advanced control strategy of a three phase grid connected photovoltaic system without DC-DC converter. The novel model is characterized by decoupled inputs and high relative degree of the outputs. A sliding mode control without chattering phenomena based on this new model is applied in order to control the system to track the maximum power point produced by the photovoltaic generator PVG, convert all this power to active power and compensate the harmonic components and reactive power caused by nonlinear load if it is connected to the PV system. This controller is able to realize all these objectives with a high dynamic performance in presence of changing atmospheric conditions, system’s disturbance and with any kind of load or without load. Simulation results demonstrate efficient performance and robustness of the proposed strategy.

Keywords: inverter maximum power point trackers unity power factor photovoltaic generator power conversion harmonics pulse width modulation converters reactive power compensation nonlinear load

Published: 2019-05-23
Publisher: EAI

: http://dx.doi.org/10.4108/eai.24-4-2019.2284092