1. Analytical Computation of End-Coil Leakage Inductance of Round-Rotor Synchronous Machines Field Winding
- Author
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Mauro Bortolozzi, Alberto Tessarolo, Claudio Bruzzese, Bortolozzi, Mauro, Tessarolo, Alberto, and Bruzzese, Claudio
- Subjects
Discretization ,Computer science ,Computation ,02 engineering and technology ,Topology ,01 natural sciences ,Analytical method ,leakage inductance computation ,Neumann integrals ,0103 physical sciences ,0202 electrical engineering, electronic engineering, information engineering ,Analytical methods ,field windings ,method of mirror images ,Neumann integrals, round-rotor synchronous machines ,Electrical and Electronic Engineering ,field winding ,Leakage (electronics) ,010302 applied physics ,Leakage inductance ,analytical methods ,round-rotor synchronous machines ,020208 electrical & electronic engineering ,Magnetic flux leakage ,Field coil ,Electronic, Optical and Magnetic Materials ,method of mirror image ,Inductance ,Electromagnetic coil - Abstract
The computation of end-coil leakage inductances of electric machines is a challenging task due to the complicated leakage flux 3-D distribution in the winding overhang region. In this paper, the problem of computing the field-circuit leakage inductance of round-rotor synchronous machines is addressed. The proposed method is fully analytical and descends from the symbolical solution of Neumann integrals applied to the computation of self-inductance and mutual inductance combined with the method of mirror images to account for core effects. With respect to existing analytical approaches, the methodology requires neither numerical integral solutions nor discretizing the end-coil geometry into small straight elements. The accuracy of the proposed technique for computing the mutual inductance between two single-end turns is assessed against measurements on a dedicated experimental setup. The extension of the method to the computation of the entire field-circuit end-coil leakage inductance is assessed by comparing with the 3-D finite-element analysis.
- Published
- 2016