Winding inductances of fractional slot surface‐mounted permanent magnet brushless machines
ISSN: 0332-1649
Article publication date: 13 November 2009
Abstract
Purpose
Permanent magnet (PM) brushless machines equipped with fractional‐slot concentrated‐windings (FSCW) have been receiving considerable attention over the past few years, due to the fact that they have short end‐windings, a high‐slot fill factor, a high efficiency and power density, and good flux‐weakening and fault‐tolerance capabilities. A key design parameter for such machines is the phase winding inductance since this has a significant impact on the performance, as well as on the magnitude of any reluctance torque. The purpose of this paper is to describe a detailed investigation of the various components of the winding inductance in machines equipped with both overlapping and non‐overlapping windings and different slot/pole number combinations. It also examines the influence of key design parameters, which affect the inductance components, with particular reference to the inductances of machines in which all the teeth are wound and those in which only alternate teeth are wound.
Design/methodology/approach
The paper analyzes and compares various inductance components which result from different winding configurations.
Findings
It is shown that the main component of the winding inductance is the relatively large slot‐leakage component. Both analytical and finite element models are employed and predicted results are validated on several prototype machines.
Originality/value
Such a thorough investigation of the various inductance components for these type of machines has not been presented before. The paper will serve as a good reference for engineers and researchers designing PM machines equipped with FECW.
Keywords
Citation
EL‐Refaie, A.M., Zhu, Z.Q., Jahns, T.M. and Howe, D. (2009), "Winding inductances of fractional slot surface‐mounted permanent magnet brushless machines", COMPEL - The international journal for computation and mathematics in electrical and electronic engineering, Vol. 28 No. 6, pp. 1590-1606. https://doi.org/10.1108/03321640910999888
Publisher
:Emerald Group Publishing Limited
Copyright © 2009, Emerald Group Publishing Limited