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- Title
Overview of shaft voltage and bearing current mitigation methods applied on the victim machine.
- Authors
Teshale, Adisu; Biru, Getachew
- Abstract
This paper presents a comprehensive review of mitigation approaches, with a specific focus on geometric modifications, to mitigate shaft voltage and bearing current in electric drives. While existing literature extensively covers inverter-based and coupling path-based methods, the potential of geometric modifications has been relatively underexplored. The geometric modification approach offers a cost-effective and weight-saving solution that can be incorporated during the early design phase of the machine. The review begins by outlining various mitigation techniques applied at the victim machine, including bearing insulation, ceramic ball bearings, shaft grounding, and more. Subsequently, it delves into the machine geometric modification approach, examining methods related to winding design, stator and rotor iron geometry, rotor surface insulation, and stator slot wedge modifications. The paper highlights the practical relevance of geometric modifications, emphasizing their advantages over conventional methods. The review paper aims to shed new light on the potential of geometric modifications in mitigating shaft voltage and bearing current in electric drives. By providing valuable insights into this approach, researchers and engineers can develop robust and efficient electric drive systems, advancing the field of electrical machine design and operation.
- Subjects
ELECTRIC currents; ELECTRIC drives; ELECTRIC suspension; VOLTAGE; GEOMETRIC approach; BEARINGS (Machinery); ELECTRIC machinery
- Publication
Electrical Engineering, 2024, Vol 106, Issue 2, p1727
- ISSN
0948-7921
- Publication type
Article
- DOI
10.1007/s00202-023-02075-z