Title :
Finite element analysis of induced currents in axisymmetric multi-conductors connected in parallel to voltage sources
Author :
Nakata, T. ; Takahashi, N. ; Fujiwara, K. ; Niinobe, H. ; Misawa, K.
Author_Institution :
Dept. of Electr. Eng., Okayama Univ., Japan
fDate :
3/1/1990 12:00:00 AM
Abstract :
A method for analyzing induced currents, including both eddy currents and circulating currents, in axisymmetric multiconductors connected in parallel to voltage sources has been developed using the finite-elements method. The method has the advantage that the nonlinear analysis of induced currents in conductors connected to voltage sources with distorted waveforms (for example, an inverted-fed transformer) is possible. Because the method can take into account the voltage sources, the external impedances, and the nonlinearity of the core it becomes possible to analyze flux and current distributions under actual operating conditions and to design windings which produce the minimum power loss. The effectiveness of the method is illustrated by applying it to a transformer model
Keywords :
conductors (electric); eddy currents; electromagnetic induction; finite element analysis; machine windings; magnetic flux; transformer windings; axisymmetric multiconductors; circulating currents; current distributions; distorted waveforms; eddy currents; external impedances; finite-elements method; flux distributions; induced currents; inverted-fed transformer; machine windings; minimum power loss; nonlinear analysis; transformer model; voltage sources; Coils; Conductors; Eddy currents; Electric potential; Finite element methods; Impedance; Magnetic analysis; Magnetic fields; Maxwell equations; Voltage;
Journal_Title :
Magnetics, IEEE Transactions on
