Spice-based flux-linkage model for switched reluctance motors

R.-L. Lin; J.-F. Chen; H.-P. Chi

Spice-based flux-linkage model for switched reluctance motors

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Spice-based flux-linkage model for switched reluctance motors

Author(s): R.-L. Lin ; J.-F. Chen ; H.-P. Chi
DOI: 10.1049/ip-epa:20050177

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Author(s): R.-L. Lin ¹ ; J.-F. Chen ¹ ; H.-P. Chi ¹
- Affiliations: 1: Department of Electrical Engineering, National Cheng Chung University, Tainan, Republic of China
Source: Volume 152, Issue 6, November 2005, p. 1468 – 1476
DOI: 10.1049/ip-epa:20050177 , Print ISSN 1350-2352, Online ISSN 1359-7043

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This paper presents a Spice-based flux-linkage model for the switched-reluctance motor (SRM). At present, most of the conventional methods require numerous data points of flux-linkage corresponding to rotor position and phase current to build a model, but this is time-ineffective. In the proposed method, the flux linkage is represented by a limited number of Fourier series terms. The coefficients of the Fourier series are determined by using the Froelich function. The proposed method allows the model to be built with a minimal number of static-characteristic data points, which are simply obtained through finite-element analysis (FEA); this allows for easy implementation and high computational efficiency. With the proposed Spice-based model, the converters of SRM drive system can be designed on the platform of Spice. The proposed model is validated with the experimental results.

References

1. 1)
  - O. Ichinokura , S. Suyama , T. Watanabe , H.J. Guo . A new calculation model of switched reluctance motor for use on Spice. IEEE Trans. Magn. , 4 , 2834 - 2836
2. 2)
  - J. Faiz , J. Raddadi , J.W. Finch . Spice-based dynamic analysis of a switched reluctance motor with multiple teeth per stator pole. IEEE Trans. Magn. , 4 , 1780 - 1788
3. 3)
  - T.J.E. Miller , M. McGilp . Nonlinear theory of the switched reluctance motor for rapid computer-aided design. IEE Proc. , 337 - 347
4. 4)
  - Mahdavi, J., Suresh, G., Fahimi, B., Ehsani, M.: `Dynamic modeling of non-linear SRM drive with PSPICE', IEEE IAS'97, p. 661–667.
5. 5)
  - T. Tsukii , K. Nakamura , O. Ichinokura . SPICE simulation of SRM considering nonlinear magnetization characteristics. Electr. Eng. Jpn. , 1 , 50 - 56
6. 6)
  - O. Ichinokura , T. Kikuchi , K. Nakamura , T. Watanabe , H.J. Guo . Dynamic simulation model of switched reluctance generator. IEEE Trans. Magn. , 5 , 3253 - 3255
7. 7)
  - C. Roux , M.M. Morcos . A simple model for switched reluctance motors. IEEE Power Eng. Rev. , 49 - 52
8. 8)
  - T.J.E. Miller . (1993) Switched reluctance motors and their control.
9. 9)
  - N. Sadowsky , Y. Lefevre , C.G.C. Neves , R. Carlson . Finite elements coupled to electrical circuit equations in the simulation of switched reluctance drives: attention to mechanical behaviour. IEEE Trans. Magn. , 3 , 1086 - 1089
10. 10)
  - D.W.J. Pulle . New data base for switched reluctance drive simulation. IEE Proc.-B , 6 , 331 - 337
11. 11)
  - O. Ichinokura , T. Onda , M. Kimura , T. Watanabe , T. Yanada , H.J. Guo . Analysis of dynamic characteristics of switched reluctance motor based on SPICE. IEEE Trans. Magn. , 4 , 2147 - 2149
12. 12)
  - Giesselmann, M.G.: `Dynamic modeling of switched reluctance machines with PSPICE for WINDOWS', 1996Energy Conversion Engineering Conf. Proc. 31st Intersociety, Aug. 1996, 1, p. 298–303.
13. 13)
  - G. Franceschini , S. Pirani , M. Rinaldi , C. Tassini . Spice-assisted simulation of controlled electric drives: an application to switched reluctance drives. IEEE Trans. Ind. Appl. , 6 , 1103 - 1110
14. 14)
  - Fahimi, B., Suresh, G., Mahdavi, J., Ehsani, M.: `A new approach to model switched reluctance motor drive application to dynamic performance prediction, control and design', Proc. IEEE PESC'98, p. 2097–2102.
15. 15)
  - F. Soares , P.J. Costa Branco . Simulation of a 6/4 switched reluctance motor based on Matlab/Simulink environment. IEEE Trans. Aerosp. Electron. Syst. , 3 , 989 - 1009
16. 16)
  - Andrade, D.A., Krishnan, R.: `Characterization of switched reluctance machines using Fourier series approach', Proc. of IEEE-IAS 2001, p. 48–54.
17. 17)
  - Y. Xu , D.A. Torrey . Study of the mutually coupled switched reluctance machine using the finite element-circuit coupled method. IEE Proc. Elect. Power Appl. , 2 , 81 - 86
18. 18)
  - Nakamura, K., Kimura, K., Ichinokura, O.: `Electric and magnetic simultaneous transient analysis method of switched reluctance motor for use on SPICE', 2003Power Electronics and Drive Systems, Nov. 2003, 2, p. 1614–1618.
19. 19)
  - Ye, Z.Z., Martin, T.W., Balda, J.C.: `Modeling and nonlinear control of a switched reluctance motor to minimize torque ripple', 2000IEEE Int. Conf. Systems, Man, and Cybernetics, p. 3471–3478.
20. 20)
  - C. Roux , M.M. Morcos . On the use of a simplified model for switched reluctance motors. IEEE Trans. Energy Convers. , 3 , 400 - 405
21. 21)
  - Moreira, J.C.: `Torque ripple minimization in switched reluctance motors via bi-cubic spline interpolation', Proc. IEEE PESC'92, p. 851–856.
22. 22)
  - K.N. Srinivas , R. Arumugam . Dynamic characterization of switched reluctance motor by computer-aided design and electromagnetic transient simulation. IEEE Trans. Magn. , 3 , 1806 - 1812

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Spice-based flux-linkage model for switched reluctance motors

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