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Design of a Low-Ripple Double-Modular-Stator Switched Reluctance Machine for Electric Vehicle Applications

Wenju Yan, Hao Chen, Shuo Liao, Yongqiang Liu, He Cheng

2021IEEE Transactions on Transportation Electrification54 citationsDOI

Abstract

To overcome the disadvantages of traditional switched reluctance machine (SRM) with moderate power/torque density and high torque ripple, this article proposes a novel double-stator SRM (DSSRM) with the inner and outer stators both adopting U-shaped segmental stator structure. By optimizing the polarity distribution of the inner and outer stator magnetic fields, the inner and outer stator magnetic fields are decoupled. Then, the relationships of torque ripple coefficient with the mechanical offset angles of the inner and outer rotor teeth are investigated. To optimize the mechanical offset angle and reduce the torque ripple of the motor, the initial design method is proposed, and five main parameters of the machine are optimized by the finite-element analysis. Then, the static magnetic characteristics and dynamic performance of this novel machine are simulated and analyzed. Finally, a 16/18/18/16 DSSRM is prototyped to validate the above simulation and theoretical analysis.

Topics & Concepts

Torque rippleStatorSwitched reluctance motorOffset (computer science)TorqueReluctance motorControl theory (sociology)Finite element methodRotor (electric)Torque densityRippleMagnetic reluctanceModular designComputer scienceMagnetEngineeringDirect torque controlMechanical engineeringPhysicsStructural engineeringElectrical engineeringInduction motorVoltageArtificial intelligenceProgramming languageOperating systemControl (management)ThermodynamicsElectric Motor Design and AnalysisMagnetic Bearings and Levitation DynamicsWireless Power Transfer Systems
Design of a Low-Ripple Double-Modular-Stator Switched Reluctance Machine for Electric Vehicle Applications | Litcius