Litcius/Paper detail

Torque Generation Mechanism of Dual-Permanent-Magnet-Excited Vernier Machine by Air-Gap Field Modulation Theory

Wenxiang Zhao, Qingze Hu, Jinghua Ji, Zhijian Ling, Zongwang Li

2022IEEE Transactions on Industrial Electronics30 citationsDOI

Abstract

The dual-permanent-magnet-excited Vernier (DPMEV) machine has attracted increasing interest for its high torque density. However, it is difficult to analyze due to the complex structure. In this article, the torque generation mechanism of DPMEV machines is analyzed from the perspective of magnetic field modulation. First, based on air-gap field modulation theory, the stator and rotor modulation factor models as well as armature and permanent magnet magnetomotive force (MMF) models are established, respectively. Considering the bidirectional field modulation effect of the DPMEV machine, the modulation process of MMF is derived. Then, by analyzing the modulated armature and permanent magnetic field, the torque generation mechanism is investigated. In addition, a machine with stator flux gap structure is proposed and the reasons for its torque increase are explained. Finally, a prototype of DPMEV machine is manufactured and tested to verify the effectiveness of the analytical results.

Topics & Concepts

Armature (electrical engineering)Vernier scaleTorqueMagnetStatorControl theory (sociology)Torque densityAir gap (plumbing)Magnetomotive forceElectropermanent magnetDirect torque controlEngineeringPhysicsComputer scienceMechanical engineeringElectrical engineeringPermanent magnet synchronous generatorMaterials scienceVoltageOpticsInduction motorControl (management)Artificial intelligenceComposite materialThermodynamicsElectric Motor Design and AnalysisMagnetic Properties and ApplicationsMagnetic Bearings and Levitation Dynamics