Active and Reactive Power Control Strategy for Grid-Connected Six-Phase Generator by Using Multi-Modular Matrix Converters

Active and Reactive Power Control Strategy for Grid-Connected Six-Phase Generator by Using Multi-Modular Matrix Converters

This paper proposes an active and reactive power control strategy based on predictive control approaches applied to gridconnected renewable energy systems. To accomplish this a multi-modular matrix converter topologies are used in combination with a simple but efficient grid synchronization strategy...

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Main Authors: David Caballero, Federico Gavilán, Edgar Maqueda, Raúl Gregor, Jorge Rodas, Derlis Gregor, Sergio Toledo, Marco Rivera
Format: Article
Language:English
Published: International Institute of Informatics and Cybernetics 2016-12-01
Series:Journal of Systemics, Cybernetics and Informatics
Subjects:
Predictive control
matrix converters
renewable energy systems
multiphase induction generator
Online Access:http://www.iiisci.org/Journal/CV$/sci/pdfs/SA728JB16.pdf
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spelling doaj-b484a2c458dc4b5bbd47d0fa6b7ca46f2020-11-24T22:14:33ZengInternational Institute of Informatics and CyberneticsJournal of Systemics, Cybernetics and Informatics1690-45242016-12-011465761Active and Reactive Power Control Strategy for Grid-Connected Six-Phase Generator by Using Multi-Modular Matrix ConvertersDavid CaballeroFederico GavilánEdgar MaquedaRaúl GregorJorge RodasDerlis GregorSergio ToledoMarco RiveraThis paper proposes an active and reactive power control strategy based on predictive control approaches applied to gridconnected renewable energy systems. To accomplish this a multi-modular matrix converter topologies are used in combination with a simple but efficient grid synchronization strategy. The theoretical performance analysis is performed considering a six-phase wind energy generator system interconnected with the grid. Results based on a MATLAB/Simulink simulation environment are discussed and the most relevant characteristics of the proposed control technique are highlighted considering the total harmonic distortion and the mean squared error as a parameters of performance.http://www.iiisci.org/Journal/CV$/sci/pdfs/SA728JB16.pdf Predictive controlmatrix convertersrenewable energy systemsmultiphase induction generator
collection DOAJ
language English
format Article
sources DOAJ
author David Caballero
Federico Gavilán
Edgar Maqueda
Raúl Gregor
Jorge Rodas
Derlis Gregor
Sergio Toledo
Marco Rivera
spellingShingle David Caballero
Federico Gavilán
Edgar Maqueda
Raúl Gregor
Jorge Rodas
Derlis Gregor
Sergio Toledo
Marco Rivera
Active and Reactive Power Control Strategy for Grid-Connected Six-Phase Generator by Using Multi-Modular Matrix Converters
Journal of Systemics, Cybernetics and Informatics
Predictive control
matrix converters
renewable energy systems
multiphase induction generator
author_facet David Caballero
Federico Gavilán
Edgar Maqueda
Raúl Gregor
Jorge Rodas
Derlis Gregor
Sergio Toledo
Marco Rivera
author_sort David Caballero
title Active and Reactive Power Control Strategy for Grid-Connected Six-Phase Generator by Using Multi-Modular Matrix Converters
title_short Active and Reactive Power Control Strategy for Grid-Connected Six-Phase Generator by Using Multi-Modular Matrix Converters
title_full Active and Reactive Power Control Strategy for Grid-Connected Six-Phase Generator by Using Multi-Modular Matrix Converters
title_fullStr Active and Reactive Power Control Strategy for Grid-Connected Six-Phase Generator by Using Multi-Modular Matrix Converters
title_full_unstemmed Active and Reactive Power Control Strategy for Grid-Connected Six-Phase Generator by Using Multi-Modular Matrix Converters
title_sort active and reactive power control strategy for grid-connected six-phase generator by using multi-modular matrix converters
publisher International Institute of Informatics and Cybernetics
series Journal of Systemics, Cybernetics and Informatics
issn 1690-4524
publishDate 2016-12-01
description This paper proposes an active and reactive power control strategy based on predictive control approaches applied to gridconnected renewable energy systems. To accomplish this a multi-modular matrix converter topologies are used in combination with a simple but efficient grid synchronization strategy. The theoretical performance analysis is performed considering a six-phase wind energy generator system interconnected with the grid. Results based on a MATLAB/Simulink simulation environment are discussed and the most relevant characteristics of the proposed control technique are highlighted considering the total harmonic distortion and the mean squared error as a parameters of performance.
topic Predictive control
matrix converters
renewable energy systems
multiphase induction generator
url http://www.iiisci.org/Journal/CV$/sci/pdfs/SA728JB16.pdf
work_keys_str_mv AT davidcaballero activeandreactivepowercontrolstrategyforgridconnectedsixphasegeneratorbyusingmultimodularmatrixconverters
AT federicogavilan activeandreactivepowercontrolstrategyforgridconnectedsixphasegeneratorbyusingmultimodularmatrixconverters
AT edgarmaqueda activeandreactivepowercontrolstrategyforgridconnectedsixphasegeneratorbyusingmultimodularmatrixconverters
AT raulgregor activeandreactivepowercontrolstrategyforgridconnectedsixphasegeneratorbyusingmultimodularmatrixconverters
AT jorgerodas activeandreactivepowercontrolstrategyforgridconnectedsixphasegeneratorbyusingmultimodularmatrixconverters
AT derlisgregor activeandreactivepowercontrolstrategyforgridconnectedsixphasegeneratorbyusingmultimodularmatrixconverters
AT sergiotoledo activeandreactivepowercontrolstrategyforgridconnectedsixphasegeneratorbyusingmultimodularmatrixconverters
AT marcorivera activeandreactivepowercontrolstrategyforgridconnectedsixphasegeneratorbyusingmultimodularmatrixconverters
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