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High-Torque Rotor Structure with Flux Collection Iron Core in Small Spoke Array Permanent Magnet Vernier Motor

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Abstract:

A high-torque rotor design for small spoke array permanent magnet vernier motors (PMVMs) is proposed based on a simulation using the finite element method (FEM). The roto...Show More

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Abstract:

A high-torque rotor design for small spoke array permanent magnet vernier motors (PMVMs) is proposed based on a simulation using the finite element method (FEM). The rotor structure of the spoke array PMVM is designed with a focus on the shapes of the permanent magnet and flux collection iron core. The pull-out torque calculated using the FEM is then evaluated. The high-torque rotor design, torque-increasing mechanism, and function of the flux collection iron core are discussed based on the torque equation with a focus on the counter electromotive force and synchronous reactance.

Published in: 2024 27th International Conference on Electrical Machines and Systems (ICEMS)

Date of Conference: 26-29 November 2024

Date Added to IEEE Xplore: 24 March 2025

ISBN Information:

ISSN Information:

DOI: 10.23919/ICEMS60997.2024.10921298

Conference Location: Fukuoka, Japan

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Contents

I. Introduction

For some applications (e.g., elevator hoists, machine tools, and traction machines), direct-drive systems have several advantages, such as high-resolution positioning (non-backlash), low friction loss, and no maintenance due to a lack of gears. A motor that has high torque at low speed is required for such applications. Brushless DC motors or stepping motors are typically used in traditional direct-drive systems; however, these motors have pulsating torque. Therefore, various vernier motors, which theoretically have no pulsating torque, have been developed [1]–[4]. Surface permanent magnet (PM) vernier motors (PMVMs) have been developed [5] and their voltage equations and torque equation have been derived [6]. A high-torque surface PMVM that uses a Halbach array PM and a design method for improving the power factor of surface PMVMs have been reported [7], [8]. A spoke array PMVM, whose rotor has spoke array PMs, has been proposed [9] for achieving a high power factor. The geometric factor of spoke array PM rotors has been investigated [10]–[14].

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11.

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M. Houjo, G. A. Soliman S and S. Shimomura, "Effect of Additional Permanent Magnets in Spoke Structure Permanent Magnet Vernier Machine", ICMS2019, August 2019.

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High-Torque Rotor Structure with Flux Collection Iron Core in Small Spoke Array Permanent Magnet Vernier Motor

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High-Torque Rotor Structure with Flux Collection Iron Core in Small Spoke Array Permanent Magnet Vernier Motor

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Abstract:

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I. Introduction

References

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