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Modeling, Optimization, and Analysis of Segmented Stator Flux Switching Linear Hybrid Excited Machine for Electric Power Train

Basharat Ullah, Faisal Khan, Shahid Hussain, Bakhtiar Khan

2022IEEE Transactions on Transportation Electrification18 citationsDOI

Abstract

This article proposes a segmented and double stator flux switching linear hybrid excited machine (SDSFSLHEM). To reduce the machine’s iron loss and overall cost, the proposed SDSFSLHEM utilizes a segmented stator. At both ends of the mover, assistant teeth compensate for the unbalance in the three-phase flux, which is a common problem in linear machines. Field excitation (FE) is used, which adds flux regulation capability to the proposed machine and allows it to operate at a wide range of speeds. A magnetic equivalent model (MEM) is used to find the best coil combination and no-load flux linkage, to reduce computational time. The leading design parameters of the machine are globally optimized by multiobjective genetic global optimization, while keeping the slot area, electric, and magnetic loadings constant. The optimization improved peak-to-peak flux linkage by 12%, thrust force by 34.7%, thrust ripples by 17.97%, and detent force by 10.07%. Compared to the flux switching permanent magnet (PM) machine proposed in the literature, the proposed machine reduces the volume of the PM by 39.18% and provides 31.2% higher thrust force and thrust density.

Topics & Concepts

Flux linkageThrustStatorElectromagnetic coilMagnetControl theory (sociology)Electric machineMagnetic fluxEngineeringComputer scienceMechanical engineeringPhysicsMagnetic fieldElectrical engineeringDirect torque controlVoltageInduction motorQuantum mechanicsControl (management)Artificial intelligenceElectric Motor Design and AnalysisMagnetic Properties and ApplicationsMagnetic Bearings and Levitation Dynamics
Modeling, Optimization, and Analysis of Segmented Stator Flux Switching Linear Hybrid Excited Machine for Electric Power Train | Litcius