A hybrid analysis method for calculating the cogging torque of consequent pole hybrid excitation synchronous machine

COMPEL Pub Date : 2024-06-14 DOI:10.1108/compel-08-2023-0366
Jie Wu, Kang Wang, Ming Zhang, Leilei Guo, Yongpeng Shen, Mingjie Wang, Jitao Zhang, Vaclav Snasel
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Abstract

Purpose

When solving the cogging torque of complex electromagnetic structures, such as consequent pole hybrid excitation synchronous (CPHES) machine, traditional methods have a huge computational complexity. The notable feature of CPHES machine is the symmetric range of field-strengthening and field-weakening, but this type of machine is destined to be equipped with a complex electromagnetic structure. The purpose of this paper is to propose a hybrid analysis method to quickly and accurately solve the cogging torque of complex 3D electromagnetic structure, which is applicable to CPHES machine with different magnetic pole shapings.

Design/methodology/approach

In this paper, a hybrid method for calculating the cogging torque of CPHES machine is proposed, which considers three commonly used pole shapings. Firstly, through magnetic field analysis, the complex 3D finite element analysis (FEA) is simplified to 2D field computing. Secondly, the discretization method is used to obtain the distribution of permeance and permeance differential along the circumference of the air-gap, taking into account the effect of slots. Finally, the cogging torque of the whole motor is obtained by using the idea of modular calculation and the symmetry of the rotor structure.

Findings

This method is applicable to different pole shapings. The experimental results show that the proposed method is consistent with 3D FEA and experimental measured results, and the average calculation time is reduced from 8 h to 4 min.

Originality/value

This paper proposes a new concept for calculating cogging torque, which is a hybrid calculation of dimension reduction and discretization modules. Based on magnetic field analysis, the 3D problem is simplified into a 2D issue, reducing computational complexity. Based on the symmetry of the machine structure, a modeling method for discretized analytical models is proposed to calculate the cogging torque of the machine.

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计算后极混合励磁同步机齿槽转矩的混合分析方法
目的在求解复杂电磁结构(如随极混合励磁同步机(CPHES))的齿槽转矩时,传统方法的计算复杂度非常高。CPHES 机器的显著特点是场强和场弱的对称范围,但这种机器注定要配备复杂的电磁结构。本文旨在提出一种混合分析方法,快速准确地求解复杂三维电磁结构的齿槽转矩,该方法适用于不同磁极形状的 CPHES 机器。首先,通过磁场分析,将复杂的三维有限元分析(FEA)简化为二维磁场计算。其次,考虑到槽的影响,采用离散化方法获得磁导率和磁导率差沿气隙圆周的分布。最后,利用模块化计算的思想和转子结构的对称性,得到了整个电机的齿槽转矩。实验结果表明,提出的方法与三维有限元分析和实验测量结果一致,平均计算时间从 8 小时缩短到 4 分钟。基于磁场分析,三维问题被简化为二维问题,从而降低了计算复杂度。基于机器结构的对称性,提出了离散化分析模型的建模方法,用于计算机器的齿槽转矩。
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