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Effect of Phase Shift on Inductance and Short-Circuit Current in Dual Three-Phase 48-Slot/22-Pole Permanent-Magnet Machines

Yuhua Sun, Wenxiang Zhao, Jinghua Ji, Junqiang Zheng, Xinxin Song

2021IEEE Transactions on Industrial Electronics39 citationsDOI

Abstract

This article investigates the effects of phase shift on the inductance and short-circuit current (SCC) in permanent-magnet (PM) machines with dual three-phase winding configurations. First, the relationship between the phase shifts and slot/pole combinations, for the dual three-phase winding configurations, is discussed. Second, analytical expressions of the inductance are derived for the 48-slot/22-pole PM machines with different phase shifts based on the winding function theory. Afterwards, the SCC amplitude of different phase shifts is comparatively analyzed. The investigation reveals that the 7.5° and 30° configurations have great significance to improve the self-inductance value. Thereby, the 30° configuration has comparable SCC amplitude compared to the 7.5° counterpart, while being lower than the 15° configuration one. Moreover, the 30° configuration exhibits lower eddy-current loss and preferable torque performance than its counterparts. Furthermore, the finite-element method is used to calculate electromagnetic performances for evaluation. Finally, some experiments on the prototype machine are carried out for validation.

Topics & Concepts

InductanceMagnetAmplitudePhase (matter)Electromagnetic coilCurrent (fluid)Equivalent series inductancePhysicsControl theory (sociology)TorqueDual (grammatical number)Electrical engineeringTopology (electrical circuits)MechanicsComputer scienceVoltageEngineeringOpticsThermodynamicsLiteratureArtControl (management)Artificial intelligenceQuantum mechanicsElectric Motor Design and AnalysisMultilevel Inverters and ConvertersMagnetic Properties and Applications
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