Title :
Magnetic vector potential based model for eddy-current loss calculation in round-wire planar windings
Author :
Acero, J. ; Alonso, R. ; Barragán, L.A. ; Burdío, J.M.
Author_Institution :
Departamento de Ingenieria Electronica y Comunicaciones, Zaragoza Univ.
Abstract :
An analytical development of the magnetic vector potential is used to investigate the losses in round-wire planar windings. The current distribution in wires is affected by the skin effect and the field created by adjacent wires (proximity effect). This field depends on the current distribution in conductors, resulting in a closed-form problem. In this paper, we obtain the vector potential outside a conductor to estimate the effect of induced currents in the field shape over the neighboring conductors. We use the results to calculate the losses in planar windings such as those in domestic induction heaters. We obtain an equivalent resistance representing the losses in windings and compare it with measurements. This solution provides an accurate analytical approach to modeling the losses in close-packed windings
Keywords :
conductors (electric); current distribution; eddy current losses; electromagnetic induction; proximity effect (superconductivity); skin effect; windings; close-packed windings; current distribution; eddy-current loss calculation; electromagnetic analysis; electromagnetic induction; equivalent circuits; equivalent resistance; impedance measurements; induced currents; induction heating; magnetic vector potential based model; proximity effect; round-wire planar windings; skin effect; Conductors; Current distribution; Electrical resistance measurement; Loss measurement; Magnetic analysis; Magnetic field measurement; Proximity effect; Shape; Skin effect; Wires; Eddy-current losses; electromagnetic analysis; electromagnetic induction; equivalent circuits; impedance measurements; induction heating;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.880399
