This work investigates the establishment of steady-state eddy currents in solid and laminated salient poles and rotor rim of synchronous machines due to a periodic excitation voltage. It shows that the presence of eddy currents in the rotor magnetic circuit has the double effect of increasing the excitation winding AC-resistance and decreasing its magnetizing AC-inductance. According to that a simple analytical model is presented in here which allows a rapid rough estimation of the excitation winding AC-resistance when little information is available about the machine geometry and its electric/magnetic materials properties. The model is then verified by reproducing in frequency the excitation winding AC-resistance and the related power loss measured in two synchronous generators. Finally, the limits of reliability and applicability of the model are discussed. The model has implications for periodic field winding current control and voltage regulation in synchronous machines.
CITATION STYLE
Felicetti, R., Abrahamsson, C. J. D., & Lundin, U. (2020). The influence of eddy currents on the excitation winding impedance of solid and laminated salient pole synchronous machines. Electrical Engineering, 102(4), 2553–2566. https://doi.org/10.1007/s00202-020-01053-z
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