This paper presents a parallel analytical computation of synchronous reluctance machines. It is based on two different analytical models, which take into account the geometry, the winding configuration and the material used. Through such models, it is possible to accurately estimate the performance of the motor, in particular regarding the torque capability, the torque ripple, the efficiency, power factor and also the efficiency map in the torque/power vs speed plane. The models were tested against finite element analysis for three different operating conditions, proving to be quite accurate in a much shorter amount of time. © 2018 IEEE. ; Peer Reviewed ; Postprint (published version)
A parallel analytical computation of synchronous reluctance machine
2018-01-01
Miscellaneous
Electronic Resource
English
Synchronous machinery , Efficiency , Electric motors , Synchronous reluctance machine , Torque capability , Analytical model , Winding configuration , Torque , Motors elèctrics , Analytical computations , Electric machinery , Torque ripples , Finite elements , Power factors , Different operating conditions , Torque ripple Analytical models , Àrees temàtiques de la UPC::Enginyeria elèctrica , Efficiency maps , Finite element method
DDC: | 629 |