Asynchronous Machine Controlled by A Series Multi-Cells Converter Using FOPID Controller Tuning with ALO


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Authors

  • Mohamed Redha SKENDER Medea University
  • Ahmed MEDJBER Medea University
  • Fethia HAMIDIA Medea University
  • Amel ABBADI Medea University
  • Abdelhalim TLEMCANI Medea University

Keywords:

Nonlinear Control, İnverter, Series Multi-Cells Converter, Fractional Order PID- Antlions Optimization Algorithm, Algorithm, Chopper, Asynchronous Machine

Abstract

This article focuses on a configuration based on multi-cells converters, reducing harmonic
distortion. It introduces a fractional-order PID controller optimized by the Antlions optimization algorithm
(ALO) for efficient system control in multi-cell converters. The paper's objective is to apply this control
scheme to a multi-cell converter connected to an asynchronous machine, offering an effective solution for
speed regulation.

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Author Biographies

Mohamed Redha SKENDER, Medea University

Department of Electrical Engineering/ Renewable Energy and Materials Laboratory (REML), Algeria

Ahmed MEDJBER, Medea University

Department of Electrical Engineering/ Renewable Energy and Materials Laboratory(REML), Algeria

Fethia HAMIDIA, Medea University

Electrical Engineering/ Laboratory of Electrical Engineering and Automatics (LREA), Algeria

Amel ABBADI, Medea University

Electrical Engineering/ Laboratory of Electrical Engineering and Automatics (LREA),  Algeria

Abdelhalim TLEMCANI, Medea University

Electrical Engineering/ Laboratory of Electrical Engineering and Automatics (LREA),  Algeria

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Published

2024-03-18

How to Cite

SKENDER, M. R., MEDJBER, A., HAMIDIA, F., ABBADI, A., & TLEMCANI, A. (2024). Asynchronous Machine Controlled by A Series Multi-Cells Converter Using FOPID Controller Tuning with ALO . International Journal of Advanced Natural Sciences and Engineering Researches, 8(2), 641–647. Retrieved from https://as-proceeding.com/index.php/ijanser/article/view/1767

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