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Analysis and detection of turn‐to‐turn short circuit fault in a permanent magnet Vernier generator based on modified winding function.

Authors :
Arianborna, MohammadHossein
Faiz, Jawad
Ghods, Mehrage
Bazrafshan, MohammadAmin
Source :
IET Electric Power Applications (Wiley-Blackwell). Dec2021, Vol. 15 Issue 12, p1630-1647. 18p.
Publication Year :
2021

Abstract

Operation of Vernier machines is based on flux modulation. They have some advantages including maintaining the rated torque in motor applications and the rated output power in generator applications at low speeds, high torque density and relatively low torque ripple due to their magnetic gear property and fault‐tolerance. In recent years, the motor with various topologies has been developed for different applications. Therefore, analysing and monitoring different faults is essential in the design and implementation stages. This study has two main purposes. First, to introduce an accurate frequency index independent of load variations for detecting the turn‐to‐turn short circuit (TTSC) faults in the stator windings of a permanent magnet Vernier machine. Second, modelling the machine in a healthy condition and in the presence of TTSC faults to investigate its effect on machine performance and output characteristics. An analytical model is presented using the modified winding function theory under the TTSC fault by taking into account the effect of stator slots which enhances the accuracy of the air‐gap permeance function estimation. In the process of calculating the fault index, frequency components of the output characteristics of the machine are obtained from the mathematical equations of the magnetic field. It is shown that the proposed indicators are robust against load variations. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
17518660
Volume :
15
Issue :
12
Database :
Academic Search Index
Journal :
IET Electric Power Applications (Wiley-Blackwell)
Publication Type :
Academic Journal
Accession number :
153385018
Full Text :
https://doi.org/10.1049/elp2.12127