November 25, 2024
Hamed Gorginpour

Hamed Gorginpour

Academic Rank: Associate professor
Address:
Degree: Ph.D in -
Phone: -
Faculty: Faculty of Intelligent Systems and Data Science

Research

Title Design and Enhanced Equivalent Magnetic Network Modeling of a Fractional-Slot Spoke-Array Vernier PM Machine With Rotor Flux Barriers
Type Article
Keywords
Equivalent magnetic network model, flux barrier, magnetic equivalent circuit, magnetic permeance, Vernier PM machine
Journal IEEE TRANSACTIONS ON ENERGY CONVERSION
DOI 10.1109/TEC.2022.3219249
Researchers Mehrage Ghods (First researcher) , Hamed Gorginpour (Second researcher) , Jawad Faiz (Third researcher) , MohammadAmin Bazrafshan (Fourth researcher) , Mohammad Sedigh Toulabi (Fifth researcher)

Abstract

The spoke-type arrangement of permanent-magnets (PMs) in rotor of Vernier-PM (VPM) machines was first introduced in a dual-stator topology to overcome low power drawback of VPM machines. However, this special structure is mostly applicable for high-power motor drives. This paper presents a fractional-slot spoke-array VPM machine with a special rotor structure for small scale electric-vehicles. The leakage flux lines tend to be aligned with the main flux routes due to special design of flux barriers in end portion of PM housings. High torque-density, low weight, torque-speed curve with a wide constant torque region, promising efficiency and power-factor are the advantages of the proposed machine. An equivalent-magnetic-network (EMN) model is established for predicting the complex behavior of flux lines and operating quantities of the proposed structure with reasonable accuracy. The contribution of the modeling method includes a special mesh cell for the air-gap permeance network to more accurately capture the flux routes, continuous positioning method for omitting spikes on post-processing waveforms due to numerical errors and a stable solving flowchart with a high convergence rate. The validity of EMN model is proved by comparing its operating waveforms with the finite-element results and experimental measurements.