Sage Journals: Discover world-class research

Abstract

We propose a magnetic-geared motor with controllable step-out torque. The operational principle which controls the step-out torque using DC currents is described. The controllable step-out torque characteristics are computed using finite element method. In addition, the load characteristics under vector control are also computed using finite element method. Two inherent characteristics are observed in this analysis result. One is that this magnetic-geared motor can generate the torque more than the step-out torque. The other is that the phase angle difference between the rotors when both rotors step out is around 30 deg. In this paper, the mechanism of these inherent characteristics is investigated by finite element method, and these inherent characteristics are verified by carrying out measurements on a prototype.

Keywords

Magnetic-geared motor controllable step-out torque phase angle difference

Get full access to this article

View all access options for this article.

References

Zhang

Luo1

Huang

and Decker

, Design and experimental verification of variable flux permanent magnet vernier machine using time-stepping finite element method, Progress In Electromagnetics Research C129 (2023), 115–126.

Chau

K.T.

and Cheng

, Analysis, design and experimental verification of afield-modulated permanent-magnet machine for direct-drive wind turbines, IET Electr. Power Appl.9(2) (2015), 150–159, doi:10.1049/iet-epa.2014.0156.

Wong

Bird

Modaresahmadi

and Williams

, Comparative analysis of a coaxial magnetic gear with a flux concentration rotor and consequent pole rotor typology, IEEE Trans. Magn.54(11) (2018), 8208105.

Zhang

Liu

and Chen

, A novel coaxial magnetic gear and its integration with permanent-magnet brushless motor, IEEE Trans. Magn.52(7) (2016), 8203304.

Lee

Jeong

and Park

, A study on the reduction of cogging torque for the skew of a magnetic geared synchronous motor, IEEE Trans. Magn.55(2) (2019), 8100505.

Ren

Qum

and Pei

, Back EMF harmonic analysis of permanent magnet magnetic geared machine, IEEE Trans. Industrial Electronics67(8) (2020), 6248–6258.

Hazra

Kamat

Bhattacharya

Ouyang

and Englebretson

, Power conversion with a magnetically-geared permanent magnet generator for low-speed wave energy converter, IEEE Trans. Industry Applications56(5) (2020), 5308–5318.

Ito

and Nakamura

, Investigation of magnetic interaction of IPM-type magnetic-geared motor, IEEE Trans. Magn.57(2) (2021), 8202005.

Lim

J.-H.

Jeong

Lee

H.-W.

Lee

J.-B.

Lim

J.-S.

and Park

C.-B.

, Design and analysis of the 45 kW-class magnetic geared permanent magnet synchronous motor for traction of tram vehicles, Appl. Sci.11 (2021), 6360.

10.

Morimoto

Hirata

Niguchi

and Ohno

, Design and analysis of magnetic-geared motor with field windings, IEEE Transactions on Magnetics50(11) (2014), doi:10.1109/TMAG.2014.2320526.

11.

Okamoto

Niguchi

and Hirata

, Proposal of a magnetic-geared motor with controllable maximum, in: Proceedings of the 2022 International Conference on Electrical Machines and Systems (ICEMS2022), 2022, Paper ID: 1570815204. doi:10.1109/ICEMS56177.2022.9982835.

12.

Niguchi

Hirata

and Kohara

, Characteristics of a wide power band variable flux reluctance motor, in: Proceedings of the XII International Conference on Electrical Machines (ICEM), 2016, doi:10.1109/ICELMACH.2016.7732524.

Finite element analysis and experimental verifications of low-speed rotor torque of magnetic-geared motor with permanent magnets only in stator

Abstract

Keywords

Get full access to this article

References