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Influence of Armature Reaction on Magnetic-Field-Shifting Effect in Asymmetric Interior Permanent Magnet Machines

Yang Xiao, Z. Q. Zhu, G.W. Jewell, J.T. Chen, Di Wu, Liming Gong

2021IEEE Transactions on Energy Conversion21 citationsDOI

Abstract

Asymmetric interior permanent magnet (AIPM) rotor topologies can achieve torque enhancement in IPM synchronous machines without the increase of PM usage due to utilizing magnetic-field-shifting (MFS) effect by reducing the current angle difference between maximum PM and reluctance torque components. This paper investigates the influence of armature reaction on MFS effect in AIPM machines. A general model of IPM machines considering MFS effect is analytically developed and the AIPM and IPM machines using the same stator, rotor diameter and total PM amount are comparatively studied. It shows that the armature reaction affects the MFS effect in both AIPM and IPM machines and the influence is more significant in AIPM machine. The relationships between MFS effects in PM flux-linkage and inductance characteristics and current angles for maximum PM and reluctance torque components are revealed. It confirms that the change of current angles of torque components is due to the MFS effect in PM flux-linkage and inductance characteristics in both AIPM and IPM machines. Besides, the developed machine model considering MFS effect is verified by finite element analysis. Finally, a small-scale AIPM machine prototype is fabricated and measured to validate the finite element analysis.

Topics & Concepts

Armature (electrical engineering)Flux linkageInductanceMagnetTorqueStatorFinite element methodMagnetic reluctanceControl theory (sociology)Magnetic fluxMagnetic fieldDirect torque controlEngineeringComputer scienceMechanical engineeringPhysicsElectrical engineeringVoltageStructural engineeringInduction motorControl (management)Artificial intelligenceThermodynamicsQuantum mechanicsElectric Motor Design and AnalysisMagnetic Bearings and Levitation DynamicsMagnetic Properties and Applications
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