1. Excitation Winding Short-Circuits in Hybrid Excitation Permanent Magnet Motor.
- Author
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Li, G. J., Hloui, S., Ojeda, J., Hoang, E., Lecrivain, M., Gabsi, M., and Zhu, Z. Q.
- Subjects
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PERMANENT magnet motors , *SHORT circuits , *ELECTRIC windings , *FINITE element method , *ELECTRIC currents - Abstract
This paper presents two short-circuit fault models of a hybrid excitation flux switching permanent magnet machine, i.e., excitation phase short-circuit and interturn short-circuit in excitation windings. Two-dimensional finite element (FE) method is used to calculate the major parameters, such as armature and excitation inductances, which are not only functions of rotor position, but also of armature and excitation currents. Moreover, in case of short-circuits, the variations of armature and excitation currents are often significant. This in turn leads to an important change in winding inductances. Therefore, in order to precisely predict machine performance under short-circuit conditions, the use of inductances versus rotor position and RMS currents is essential. With the obtained FE results, two MATLAB/Simulink-based models are established. Then, the previously mentioned short-circuits have been studied and their influences on electromagnetic performances, such as armature and excitation currents, speed and torque, armature and excitation copper losses, stator and rotor core iron losses, as well as permanent magnet (PM) eddy current losses are analyzed. Experiments have been carried out to validate the simulations. [ABSTRACT FROM PUBLISHER]
- Published
- 2014
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