Comparative study of dual 3‐phase permanent magnet machines with coil span of two slot‐pitches
In this study, the electromagnetic performances of dual 3-phase permanent magnet (PM) machines with coil span of two slot-pitches are comparatively investigated. It mainly focuses on two PM machines with different slot/pole number combinations (Ns/2p), that is, the 24-slot/10-pole and 24-slot/14-pole machines (2p = Ns/2 ± 2). First, winding configurations are illustrated for these two dual 3-phase machines with 30° angle displacement. Then, the winding factor, back electromotive force, average torque, torque ripple, iron and PM losses, short-circuit (SC) current, and PM irreversible demagnetisation are analysed and compared for both machines on the conditions of healthy operation and one set of three-phase fault, that is, SC or open circuit (OC), respectively. The comparative results show that on healthy condition the 14-pole PM machine has a slightly larger torque output. Besides, on 3-phase OC condition, the 14-pole machine also performs better over-rating torque capability. In terms of iron and PM losses, the 10-pole machine has smaller iron losses but larger PM losses than the 14-pole machine. Moreover, on 3-phase SC condition, the 14-pole machine has a significantly lower risk of PM irreversible demagnetisation than the 10-pole machine, although both machines have very similar SC currents. Finally, the 24-slot/10- and 14-pole dual 3-phase PM machines are both prototyped and some tests are carried out for validation.
History
Citation
Feng, J., et al.: Comparative study of dual 3-phase permanent magnet machines with coil span of two slot-pitches. IET Electr. Power Appl. 16(12), 1426–1438 (2022). https://doi.org/10.1049/elp2.12154Author affiliation
COLLEGE OF SCIENCE AND ENGINEERING/School of EngineeringVersion
- VoR (Version of Record)
Published in
IET Electric Power ApplicationsVolume
16Issue
12Pagination
1426 - 1438Publisher
Institution of Engineering and Technology (IET)issn
1751-8660eissn
1751-8679Acceptance date
2021-10-18Copyright date
2021Available date
2024-02-29Publisher DOI
Language
enPublisher version
Deposited by
Dr Yang XiaoDeposit date
2024-02-01Data Access Statement
The authors elect to not share date.Rights Retention Statement
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