Impact of load on winding inductances of permanent magnet generators with multiple damping circuits using energy perturbation

A computer-aided method for determining the impact of load on winding inductances and other machine parameters of permanent magnet generators with multiple damping circuits is presented. The method is general in nature so that it can be applied to detailed computer-aided design processes of permanent magnet generator systems. The method is based on use of the abc frame of reference for development of the necessary state equations. >

[1]  Thomas W. Nehl,et al.  Dynamic Simulation of Radially Oriented Permanent Magnet-Type Electronically Operated Synchronous Machines with Parameters Obtained from Finite Element Field Solutions , 1982, IEEE Transactions on Industry Applications.

[2]  N. Demerdash,et al.  Determination of Saturated Values of Rotating Machinery Incremental and Apparent Inductances by an Energy Perturbation Method , 1982, IEEE Transactions on Power Apparatus and Systems.

[3]  M. E. Talaat A New Approach to the Calculation of Synchronous Machine Reactances - Part II [includes discussion] , 1956, Transactions of the American Institute of Electrical Engineers. Part III: Power Apparatus and Systems.

[4]  Nabeel A. O. Demerdash,et al.  Determination of winding inductances in ferrite type permanent magnet electric machinery by finite elements , 1982 .

[5]  M.A. Rahman,et al.  Dynamic Performance Analysis of Permanet Magnet Synchronous Motors Magnet Synchronous Motors , 1984, IEEE Transactions on Power Apparatus and Systems.

[6]  E. Richter,et al.  Line start permanent magnet motors with different materials , 1984 .

[7]  A. A. Arkadan,et al.  Modeling of transients in permanent magnet generators with multiple damping circuits using the natural abc frame of reference , 1988 .

[8]  M. A. Rahman,et al.  Dynamic Performance Analysis of Permanent Magnet Synchronous Motors , 1984, IEEE Power Engineering Review.

[9]  A. A. Arkadan,et al.  Computer-aided dynamic performance prediction of electronically switched loads-permanent magnet generator systems , 1989, 20th Annual IEEE Power Electronics Specialists Conference.

[10]  G.A.J. Amaratunga,et al.  Optimum Magnetic Circuit Configurations for Permanent Magnet Aerospace Generators , 1985, IEEE Transactions on Aerospace and Electronic Systems.

[11]  G. Slemon,et al.  Effects of samarium cobalt permanent magnet on the performance of polyphase hysteresis-reluctance motors , 1984 .