SIMULATION ANALYSIS OF DFIG CHARACTERISTICS UNDER d–q CONTROL STRATEGIES IN STATOR-VOLTAGE-ORIENTED FRAME

S. Li and T.A. Haskew

References

  1. [1] R. Zavadil, N. Miller, A. Ellis, & E. Muljadi, Making connec-tions: wind generation challenges and progress, IEEE Powerand Energy Magazine, 3 (6), 2005, 27–37.
  2. [2] S. Muller, M. Deicke, & R.W. De Doncker, Doubly fed in-duction generator systems for wind turbines, IEEE IndustryApplications Magazine, 8 (3), 2002, 26–33.
  3. [3] A. Petersson, T. Petru, & T. Thiringer, Grid disturbanceresponse of wind turbines equipped with induction generatorand doubly-fed induction generator, Proc. 2003 IEEE PESGeneral Meeting, Toronto, Canada, 2003.
  4. [4] J.G. Slootweg, S.W.H. De Haan, H. Polinder, & W.L. King,General model for representing variable speed wind turbinesin power system dynamics simulations, IEEE Transactions onPower Systems, 18 (1), 2003, 144–151.
  5. [5] J. Feltes, Y. Kazachkov, & R. Zavadil, Modeling wind farms forpower system stability studies, Proc. 2003 IEEE PES GeneralMeeting, Toronto, Canada, 2003.
  6. [6] S. Smith, R. Todd, M. Barnes, & P.J. Tavner, Improved energyconversion for doubly-fed wind generators, IEEE Transactionson Industry Applications, 42 (6), 2006, 1421–1428.
  7. [7] I. Cadirci & M. Ermis, Double-output induction generatoroperating at subsynchronous and supersynchronous speeds:steady-state performance optimisation and wind-energy re-covery, IEE Proceedings Electric Power Applications, 139 (5),1992, 429–442.
  8. [8] M.S. Vicatos & J.A. Tegopoulos, Steady state analysis ofa doubly-fed induction generator under synchronous opera-tion, IEEE Transactions on Energy Conversion, 4 (3), 1989,495–501.
  9. [9] A.D. Hansen, F. Iov, P. Sørensen, & F. Blaabjerg, Overallcontrol strategy of variable speed doubly-fed induction gen-erator wind turbine, Proc. 2004 Nordic Wind Power Conf.,Gotheborg, Sweden, 2004.
  10. [10] R. Pena, J.C. Clare, & G.M. Asher, Doubly fed induction gen-erator using back-to-back PWM converters and its applicationto variable speed wind-energy generation, IEE ProceedingsElectric Power Applications, 143 (3), 1996, 231–241.
  11. [11] B. Hopfensperger, D.J. Atkinson, & R.A. Lakin, Stator-flux-oriented control of a double-fed induction machine with andwithout position encoder, IEE Proceedings Electric PowerApplications, 147 (4), 2000, 241–250.
  12. [12] W. Leonhard, Control of electrical drives (Berlin, Germany:Springer-Verlag, 1996).
  13. [13] N. Mohan, T.M. Undeland, & W.P. Robbins, Power electronics:converters, applications, and design (New York, NY: JohnWiley & Sons Inc., 2002).
  14. [14] N. Mohan, Advanced electric drives – analysis, modeling andcontrol using simulink (Minneapolis, MN: Minnesota PowerElectronics Research & Education, 2001).
  15. [15] S.J. Chapman, Electric machinery fundamentals (New York,NY: The McGraw-Hill Companies, 1999).
  16. [16] S. Li & S. Sinha, A simulation analysis of double-fed inductiongenerator for wind energy conversion using PSpice, Proc. 2006IEEE PES General Meeting, Montr´eal, Qu´ebec, Canada, 2006.114
  17. [17] R.D. Youssef, Integration of offshore wind farms into the localdistribution network, http://www.consumer.gov.uk/energy/renewables/publications/pubs_wind.shtml (accessed Nov.2005).
  18. [18] S. Li & T. Haskew, Simulation study of fixed speed wind energyconversion system and compensation using PSpice, Proc. 9thIASTED Int. Conf. on Power and Energy Systems, Clearwater,FL, 2007.
  19. [19] The MathWorks, SimPowerSystems 4.5: Model and simulateelectrical power systems, http://www.mathworks.com/prod-ucts/simpower/ (accessed Oct. 2007).

Important Links:

Go Back