Main Article Content

Abstract

 This paper presents a generalized model, by which the dynamic and steady-state behaviour of the Brushless Doubly-Fed Induction Machine (BDFIM) can be precisely predicted. The investigated doubly-fed machine has two sets of three-phase stator windings with different pole numbers. The rotor is a squirrel-cage type with a simple modification in order to support the two air-gap rotating fields that are produced by the stator windings and have different pole numbers. The machine model is derived in the qdo-axis variables. The qdoaxes are attached to rotor and hence, it rotates at the rotor speed (

Keywords

Brushless doubly-fed machine Dynamic modelling Steady-state modelling Generalized theory Induction machine Self-cascaded Speed control Variable speed drives

Article Details

How to Cite
Allam, S. M., Azmy, A. M., & El-Khazendar, M. A. (2010). A General Model for Describing the Performance of Brushless Doubly-Fed Induction Machines. The Journal of Engineering Research [TJER], 7(2), 1–9. https://doi.org/10.24200/tjer.vol7iss2pp1-9

References

  1. Allam, S.M., Azmy, A.M., Khater, M.M. and El- Khazendar, M.A., 2008, "A Generalized Dynamic Model for Brushless Doubly-fed Induction Machines," Engineering Research Journal (ERJ), Vol. 31(4), pp. 345- 54, Minoufiya University, Faculty of Engineering, Shebin El-Kom, Egypt, ISSN 1110-118.
  2. Boger, M.S. and Wallace, A.K., 1995, "Performance Capability Analysis of the Brushless Doubly-fed Machine as a Wind Generator," Seventh International Conference on Electrical Machines and Drives, (Conf. Publ. No. 412), pp. 458-461.
  3. Boger, M.S., Wallace, A.K., Spee, R. and Li, R., 1996, "Investigation of Appropriate Pole Number Combinations for Brushless Doubly-fed Machines Applied to Pump Drives," IEEE Transactions on Industry Applications, Vol. 32(1), pp. 189-194.
  4. Boger, M.S., Wallace, A.K., Spee, R. and Li, R., 1995, "General Pole Number Model of the Brushless Doubly-fed Machine," IEEE Transactions on Industry Applications, Vol. 31(5), pp. 1022-1028.
  5. Li, R., Wallace, A.K., Spee, R. and Wang, Y., 1991, "Two-axis Model Development of Cage-rotor Brushless Doubly-fed Machines," IEEE Transactions on Energy Conversion, Vol. 6(3), pp. 453-460.
  6. Liang, F., Xu, L. and Lipo, T.A., 1991, "d-q Analysis of a Variable Speed Doubly ac Excited Reluctance Motor," Electrical Machines and Power Systems, Vol. 19(2), pp. 125-138.
  7. Munoz, A.R. and Lipo, T.A. 2000, "Dual Stator Winding Induction Machine Drive," IEEE Transactions on Industry Applications," Vol. 36(5), pp. 1369-1379.
  8. Wang, F., Zhang, F. and Xu, L., 2002, "Parameter and Performance Comparison of Doubly-fed Brushless Machines with Cage and Reluctance Rotors," IEEE Transactions on Industry Applications, Vol. 38(5), pp. 1237-1243.
  9. Williamson, S., Ferreira, A.C. and Wallace, A.K., 1997, "Generalized Theory of the Brushless Doubly-fed Machine. Part 1: Analysis," IEE Proc.-Electr. Power Appl., Vol. 144(2), pp. 111-122.
  10. Xu, L., Liang, F. and Lipo, T.A., 1991, "Transient Model of a Doubly Excited Reluctance Motor," IEEE Transactions on Energy Conversion, Vol. 6(1), pp. 126-133.
  11. Zaiping, P., Yanfeng, Z. and Nagrial, M.H., 1998, "Review and Future Application of Brushless Doubly-fed Machine," The 1998 International Conference on Communication, Computer & Power, pp. 306-311