Performance Analysis of the Multi-Level Boost Converter (MLBC) connected in a Photovoltaic System

Nacer Bouderres; Abdelhak Djellad; Djallel  Kerdoun; Azzeddine Dekhane; Issam Attoui; Sofiane Chiheb

doi:10.54966/jreen.v1i1.1038

Revue des Énergies Renouvelables (Jun 2022)

Performance Analysis of the Multi-Level Boost Converter (MLBC) connected in a Photovoltaic System

Nacer Bouderres,
Abdelhak Djellad,
Djallel Kerdoun,
Azzeddine Dekhane,
Issam Attoui,
Sofiane Chiheb

Affiliations

Nacer Bouderres: Department of Electrotechnics, University of Mentouri Brothers, Laboratory of Electrical Engineering of Constantine (LGEC), Constantine, Algeria
Abdelhak Djellad: Department of Engineering, The Higher School of Industrial Technologies, Annaba, Algeria
Djallel Kerdoun: Department of Electrotechnics, University of Mentouri Brothers, Laboratory of Electrical Engineering of Constantine (LGEC), Constantine, Algeria
Azzeddine Dekhane: Department of Engineering, The Higher School of Industrial Technologies, Annaba, Algeria
Issam Attoui: Research center in Industrial Technologies -CRTI-, Annaba, Algeria
Sofiane Chiheb: Department of Engineering, The Higher School of Industrial Technologies, Annaba, Algeria

DOI: https://doi.org/10.54966/jreen.v1i1.1038

Abstract

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The paper concentrates on a comparison between two DC/DC converters topologies, the conventional Boost and the Multi Level Boost Converter (MLBC), for connecting into PV systems. Several performance criteria are included as part of this comparison process for both converters under varying climatic conditions (irradiation and/or temperature). The DC/DC converters' function is to serve as an interface between PV generator and load. We apply MPPT (Maximum Power Point Tracking) control with duty cycle adjustment using PWM technique for extracting the highest achievable output power from PV generator. The multilevel boost converter (MLBC), which is capable of monitoring and maintaining an equal voltage on all N output levels, along with controlling the input current. MATLAB/Simulink simulation results highlight the performance of the Multi-Level Boost Converter (MLBC) converter topology, to match the GPV voltage to the load.

Published in Revue des Énergies Renouvelables

ISSN: 1112-2242 (Print); 2716-8247 (Online)
Publisher: Renewable Energy Development Center (CDER)
Country of publisher: Algeria
LCC subjects: Technology: Mechanical engineering and machinery: Renewable energy sources
Website: https://revue.cder.dz/index.php/rer

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