MEHRASA, Majid; GODINA, Radu; POURESMAEIL, Edris; VECHIU, Ionel; RODRÍGUEZ, Rubén; CATALÃO, João

POURESMAEIL, Edris
ESTIA INSTITUTE OF TECHNOLOGY

Langue

Communication dans un congrès

Ce document a été publié dans

ISGT Europe 2017 Proceedings, IEEE International Conference on Innovative Smart Grid Technologies (ISGT Europe 2017), 2017-09-26, Turin.

Résumé en anglais

This paper deals with a synchronous active proportional resonant-based (SAPR) control technique for interfaced converters, enhancing the stable operation of the power grid under high penetration of distributed generation sources. By considering the grid specifications and load currents, both d and q axis of converter currents are obtained in terms of active and reactive power and also angular speed using small-signal linearization method. Then, swing equation is analyzed in detail to achieve the reference current components in the current control loop of the interfaced converter. By using the obtained swing equation and a non-ideal proportional resonant (PR) controller, a new control technique is proposed, which introduces the behavior of synchronous power generators based on power electronic converters in distributed generation (DG) technology. The effectiveness of the proposed control technique is verified through stringent simulation studies in MATLAB/SIMULINK. Index Terms—Distributed generation (DG), synchronous active PR-based (SAPR), synchronous power generator.< Réduire

Mots clés en anglais

Distributed generation (DG)

Synchronous active PR-based (SAPR)

Synchronous power generator.

URI

https://oskar-bordeaux.fr/handle/20.500.12278/186128

Projet Européen

Smart and Sustainable Insular Electricity Grids Under Large-Scale Renewable Integration

Unités de recherche

ESTIA - Recherche

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Synchronous Active Proportional Resonant-Based Control Technique for High Penetration of Distributed Generation Units into Power Grids