Voltage behind Reactance Model of the Doubly Fed Induction Generator using Space Vectors

José M. Aller, José A. Restrepo, Julio C. Viola

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

In this paper, a method is proposed to develop the Voltage Behind Reactance (VBR) model of the doubly fed induction generator (DFIG) by applying space vectors. Two reference frames are used, one for the stator and the other for the rotor, to maintain the respective ports. This type of model is useful when simulations are to be performed using circuit analysis tools such as ATP-EMTP, Simulink, PSIM or similar. To demonstrate the validity of the VBR model of the DFIG machine, the results obtained by performing this modeling in ATPDraw and Simulink are compared with simple cases where the rotor is short-circuited, including an external impedance or applying voltage sources at different frequencies. The results obtained from the simulations demonstrate the validity of the model and the simplicity of its derivation using the space vector framework.

Original languageEnglish
Title of host publicationETCM 2021 - 5th Ecuador Technical Chapters Meeting
EditorsMonica Karel Huerta, Sebastian Quevedo, Carlos Monsalve
PublisherInstitute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)9781665441414
DOIs
StatePublished - 12 Oct 2021
Event5th IEEE Ecuador Technical Chapters Meeting, ETCM 2021 - Cuenca, Ecuador
Duration: 12 Oct 202115 Oct 2021

Publication series

NameETCM 2021 - 5th Ecuador Technical Chapters Meeting

Conference

Conference5th IEEE Ecuador Technical Chapters Meeting, ETCM 2021
Country/TerritoryEcuador
CityCuenca
Period12/10/2115/10/21

Bibliographical note

Funding Information:
The authors wish to express their gratitude to the Univer-sidad Politécnica Salesiana - Sede Cuenca and the Energy Research Group (GIE), for the financial support to this project.

Publisher Copyright:
© 2021 IEEE.

Keywords

  • Circuit faults
  • Electromagnetic modeling
  • Electromagnetic transients
  • EMTP
  • Energy conversion
  • Induction motors
  • Machine vector control

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