A practical fast acting control scheme for fuzzy logic-based voltage stabilization control

A practical fast acting control scheme for fuzzy logic-based voltage stabilization control

This paper presents a simplified control model for stabilizing a load voltage using a switched reactor in parallel with a fixed capacitor of static VAR compensator. Two IGBT’s are used to control the reactance of the switched reactor. A uniform pulse width modulation is used for controlling the two...

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Main Authors: El-Kholy E.E., El-Sabbe A., Shokralla S.S., El-Hefnawy Nancy A.
Format: Article
Language:English
Published: Faculty of Technical Sciences in Cacak 2005-01-01
Series:Serbian Journal of Electrical Engineering
Subjects:
VAR compensator
reactive power control
load voltage stabilization
fuzzy logic control
Online Access:http://www.doiserbia.nb.rs/img/doi/1451-4869/2005/1451-48690501005E.pdf
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spelling doaj-745b252009ec4c4cb9c126c435285f052020-11-24T23:24:12ZengFaculty of Technical Sciences in CacakSerbian Journal of Electrical Engineering1451-48692217-71832005-01-012152010.2298/SJEE0501005E1451-48690501005EA practical fast acting control scheme for fuzzy logic-based voltage stabilization controlEl-Kholy E.E.0El-Sabbe A.1Shokralla S.S.2El-Hefnawy Nancy A.3Menoufiya University - Faculty of Engineering - Electrical Engineering Department, Shebin El-Kom, EgyptistaistaistaThis paper presents a simplified control model for stabilizing a load voltage using a switched reactor in parallel with a fixed capacitor of static VAR compensator. Two IGBT’s are used to control the reactance of the switched reactor. A uniform pulse width modulation is used for controlling the two switches. The compensator has a simple control circuit and structure. A complete modeling and numerical simulation for the proposed systems are presented. A high speed Digital Signal Processor is used for implementing proportional integral (PI) and fuzzy load voltage controllers. Experimental results indicate the superiority of fuzzy logic control over the conventional proportional-integral control method. Simulation results are reported and proved to be in good agreement with the relevant experimental results.http://www.doiserbia.nb.rs/img/doi/1451-4869/2005/1451-48690501005E.pdfVAR compensatorreactive power controlload voltage stabilizationfuzzy logic control
collection DOAJ
language English
format Article
sources DOAJ
author El-Kholy E.E.
El-Sabbe A.
Shokralla S.S.
El-Hefnawy Nancy A.
spellingShingle El-Kholy E.E.
El-Sabbe A.
Shokralla S.S.
El-Hefnawy Nancy A.
A practical fast acting control scheme for fuzzy logic-based voltage stabilization control
Serbian Journal of Electrical Engineering
VAR compensator
reactive power control
load voltage stabilization
fuzzy logic control
author_facet El-Kholy E.E.
El-Sabbe A.
Shokralla S.S.
El-Hefnawy Nancy A.
author_sort El-Kholy E.E.
title A practical fast acting control scheme for fuzzy logic-based voltage stabilization control
title_short A practical fast acting control scheme for fuzzy logic-based voltage stabilization control
title_full A practical fast acting control scheme for fuzzy logic-based voltage stabilization control
title_fullStr A practical fast acting control scheme for fuzzy logic-based voltage stabilization control
title_full_unstemmed A practical fast acting control scheme for fuzzy logic-based voltage stabilization control
title_sort practical fast acting control scheme for fuzzy logic-based voltage stabilization control
publisher Faculty of Technical Sciences in Cacak
series Serbian Journal of Electrical Engineering
issn 1451-4869
2217-7183
publishDate 2005-01-01
description This paper presents a simplified control model for stabilizing a load voltage using a switched reactor in parallel with a fixed capacitor of static VAR compensator. Two IGBT’s are used to control the reactance of the switched reactor. A uniform pulse width modulation is used for controlling the two switches. The compensator has a simple control circuit and structure. A complete modeling and numerical simulation for the proposed systems are presented. A high speed Digital Signal Processor is used for implementing proportional integral (PI) and fuzzy load voltage controllers. Experimental results indicate the superiority of fuzzy logic control over the conventional proportional-integral control method. Simulation results are reported and proved to be in good agreement with the relevant experimental results.
topic VAR compensator
reactive power control
load voltage stabilization
fuzzy logic control
url http://www.doiserbia.nb.rs/img/doi/1451-4869/2005/1451-48690501005E.pdf
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AT elsabbea practicalfastactingcontrolschemeforfuzzylogicbasedvoltagestabilizationcontrol
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