A detailed dynamic model for single-phase shaded pole induction motors

Mathematical modeling of single-phase shaded pole induction motor (SPIM), despite its simple construction, is rather complicated. This paper proposes dynamic modeling of SPIM using winding function approach. The core loss is also included by considering an appropriate resistance in parallel to the stator main winding. No-load test results along with Genetic Algorithm (GA) are used for more exact estimation of required parameters of the motor. Correctness of modeling and simulation process is verified by comparison to experimental results. In particular, this model helps to study SPIM performance due to the stator loops position and resistance as well as the rotor bars skewing and resistance.

[1]  Mehmet Akbaba,et al.  An improved computational technique of the inductance parameters of reluctance augmented shaded-pole motors using finite element method , 1992 .

[2]  Thomas Nondahl,et al.  Equivalent Circuit Model for a Shaded-Pole Induction Motor: II. One Shading Coil with a Stepped Air Gap , 1981, IEEE Transactions on Power Apparatus and Systems.

[3]  Jawad Faiz,et al.  Unified winding function approach for dynamic simulation of different kinds of eccentricity faults in cage induction machines , 2009 .

[4]  G. A. Cooper,et al.  Steady-state characteristics of a shaded-pole motor by finite element analysis , 1994 .

[5]  J. M. Gojko,et al.  Skew and linear rise of MMF across slot modelling-winding function approach , 1999 .

[6]  J. Penman,et al.  Dynamic simulation of dynamic eccentricity in induction machines-winding function approach , 2000 .

[7]  Bhag Guru Revolving-Field Analysis of a Shaded-Pole Motor , 1983, IEEE Transactions on Power Apparatus and Systems.

[8]  J. Varga,et al.  Analysis of the characteristics of single phase shaded pole induction motor with two short-circuited auxiliary phases , 1997 .

[9]  Jawad Faiz,et al.  Analysis of Shaded Pole Induction Motors Considering Asymmetrical Flux Distribution and Saturation Effects , 1996 .

[10]  Mehmet Akbaba,et al.  Field distribution and iron loss computation in reluctance augmented shaded-pole motors using finite element method , 1992 .

[11]  Hamid A. Toliyat,et al.  A method for dynamic simulation of air-gap eccentricity in induction machines , 1996 .

[12]  P. H. Trickey Performance Calculations on Shaded Pole Motors , 1947, Transactions of the American Institute of Electrical Engineers.

[13]  Vasilija Sarac,et al.  DYNAMIC EVALUATION OF SHADED-POLE MOTOR MODELS OPTIMIZED BY USING THE METHOD OF GENETIC ALGORITHMS , 2005 .

[14]  S. S. L. Chang,et al.  Equivalent Circuits and Their Application in Designing Shaded Pole Motors , 1951, Transactions of the American Institute of Electrical Engineers.

[15]  M.A. Rahman,et al.  Performance prediction of shaded pole induction motors , 1989, Conference Record of the IEEE Industry Applications Society Annual Meeting,.

[16]  J. Faiz,et al.  Extension of winding function theory for nonuniform air gap in electric machinery , 2002 .

[17]  P. H. Trickey An Analysis of the Shaded Pole Motor , 1936, Transactions of the American Institute of Electrical Engineers.