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Investigation of Winding Configuration on Electromagnetic Vibration in Modular Dual Three-Phase PM Machine

Wenxiang Zhao, Qingjun He, Wei Tian, Yuhua Sun, Jinghua Ji

2023IEEE Transactions on Industrial Electronics26 citationsDOI

Abstract

This article investigates the effect of winding configuration on the electromagnetic vibration of the 48-slot/8-pole modular dual three-phase (DTP) permanent magnet (PM) machine. First, two winding topologies are discussed based on the phase shift principle, and their phase shift angles are 30° and 60°, respectively. Second, the armature magnetomotive force (MMF) of different winding configurations is derived and compared. The modular DTP-PM machine with 30° phase shift produces the extra 2nd, 18th, 22nd, 26th, and 30th armature MMF harmonic components compared with the 60° phase shift one. Afterward, the electromagnetic force density and radial concentrated force of two modular DTP-PM machines are investigated. The result reveals that the modular DTP-PM machine with 30° phase shift induces the non-negligible 2nd-order vibration under the load condition. This is different from the modular DTP-PM machine with a 60° phase shift which mainly induces 0th-order vibration. Furthermore, the multiphysics field finite-element method is used to calculate the static deformation and vibration acceleration of two modular DTP-PM machines. Finally, the prototype of a 48-slot/8-pole modular DTP-PM machine with a 30° phase shift is manufactured. The experiments are conducted to validate the theoretical analysis.

Topics & Concepts

VibrationModular designDual (grammatical number)PhysicsElectromagnetic coilPhase (matter)Electrical engineeringEngineeringAcousticsComputer scienceElectronic engineeringMechanical engineeringArtQuantum mechanicsLiteratureOperating systemElectric Motor Design and AnalysisMetallurgy and Material FormingMagnetic Properties and Applications
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