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Research on Interturn Short-Circuit Characteristic of the High-Speed Permanent-Magnet Machine With Gramme-Ring Windings

Yuan Wan, Nan Meng, Yuqi Jia, Lingfeng Zhu

2022IEEE Transactions on Magnetics11 citationsDOI

Abstract

The conventional lap-winding high-speed permanent-magnet synchronous machine (HSPMSM) usually has a large interturn short-circuit (ITSC) current, seriously threatening the reliability. This article founds that the SC coil of the gramme-ring-winding HSPMSM is wound around the stator yoke, so the inductance of SC coil is considerable large and thus will cause a great reduction of ITSC current. The types of ITSC faults were first analyzed for a multistrand-gramme-ring-winding HSPMSM, and then, the ITSC characteristics and influencing factors were investigated based on finite-element (FE) method. The distribution of flux density is quite different from normal state, the SC current is far lower than that of the lap-winding HSPMSM, and the inductance of SC coil is fluctuant with rotation of rotor. By theoretical analysis of the inductance, the methods of increasing the height of stator yoke and using high-permeability CoFe alloy were proposed to further reduce the SC current. In addition, decreasing the strands number is beneficial to reduce the SC current density.

Topics & Concepts

Yoke (aeronautics)StatorElectromagnetic coilInductanceMagnetMaterials scienceRotor (electric)Current densityMagnetomotive forceShort circuitTorque densityElectrical engineeringComputer scienceMechanical engineeringPhysicsEngineeringVoltageFly-by-wireQuantum mechanicsControl systemElectric Motor Design and AnalysisMagnetic Properties and ApplicationsMagnetic Bearings and Levitation Dynamics
Research on Interturn Short-Circuit Characteristic of the High-Speed Permanent-Magnet Machine With Gramme-Ring Windings | Litcius