Abstract
The doubly fed magnetic geared motor, which has dual AC windings, can be operated with different frequencies in the inner and outer windings. However, the inner and outer windings have different numbers of pole pairs to meet the pole combination derived by the magnetic gearing effect, and hence undesirable space harmonic components of the magnetic flux are produced at the air gaps. These space harmonics affect the iron losses at each core, and the resultant iron loss and efficiency are varied by the frequencies of the inner and outer windings. Thus, in this paper, first, the effect of the space harmonic components of the air gap magnetic flux density in the inner stator, outer stator, and the modulating pieces is separately investigated. In addition, the iron loss characteristics of each ferromagnetic material are presented according to the frequency combinations in the inner and outer windings. Secondly, the iron loss maps and the efficiency maps according to the frequency conditions of the inner and outer windings are drawn, and the causes of the characteristic differences in each map are analyzed. Thirdly, the frequency control sequence and the roles of the inner and outer windings as the armature and field parts are changed, and the analysis of the iron loss map and efficiency map is repeated. Finally, the results in the inner-armature case and the outer-armature case are compared with each other, and the possibility of improving the overall operating efficiency over the multiple operating points by using the individual frequency control and frequency combination selection is proved.
Highlights
The magnetic geared motor, which is devised from the magnetic gear, has been widely reported in direct-drive system and low-speed, high-torque applications
The operating principle and the division of the operating region are presented based on the individual frequency control in the inner and outer windings
The iron loss and efficiency characteristics are compared for three cases of different winding frequency conditions where the frequency control sequence of the inner and outer windings are defined and the inner and outer windings are operated as the armature and field parts, respectively
Summary
The magnetic geared motor, which is devised from the magnetic gear, has been widely reported in direct-drive system and low-speed, high-torque applications. The speed of the PM rotor is reduced by the ratio of the pole numbers of the winding and the PMs, and the output torque is inversely increased by the same ratio Due to these characteristics, many studies on the magnetic geared motor have focused on low-speed, high-torque applications, and there are continued efforts to replace the power transmission of an electric vehicle (EV) consisting of the. Sci. 2020, 10, x FOR PEER REVIEW and the PMs, and the output torque is inversely increased by the same ratio Due to these characteristics, many studies on the magnetic geared motor have focused on low-speed, high-torque applications, and there are continued efforts to replace the power transmission of an electric vehicle synchronous machine and a mechanical gear with a magnetic [2,3,4,5,6,7,8,9].
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