Title :
Magnetic-Field Analysis on Winding Disposition of Transformer for Distributed High-Speed Train Applications
Author :
Park, Byoung-Gun ; Kim, Tae-Sung ; Lee, Kui-Jun ; Kim, Rae-young ; Hyun, Dong-seok
Author_Institution :
Electr. Eng. Dept., Hanyang Univ., Seoul, South Korea
fDate :
6/1/2010 12:00:00 AM
Abstract :
In a high-speed train application, the modularized traction converter produces the significant harmonic currents caused from the switching behavior of a power converter. These harmonic currents bring the interference among the traction equipment. One way to minimize the interference is to design the secondary windings of a power transformer decoupled magnetically as possible. This paper presents a magnetic-field analysis on a winding disposition to clarify an impact on magnetic decoupling between secondary windings, under a limited height of a train. Two winding dispositions for a single-phase shell-type transformer are constructed and simulated by a three-dimensional finite-elements method (FEM) model. The simulation results with two different winding dispositions are provided and the experiments show good agreement with the simulation results.
Keywords :
finite element analysis; harmonic analysis; magnetic fields; power transformers; railway electrification; switching convertors; traction; transformer windings; FEM model; distributed high-speed train applications; finite-elements method; harmonic currents; interference minimization; magnetic decoupling; magnetic-field analysis; modularized traction converter; power converter; single-phase shell-type transformer; transformer winding disposition; Assembly; Interference; Magnetic analysis; Magnetic cores; Magnetic flux; Power transformers; Switching converters; Traction motors; Transformer cores; Vehicles; Finite-element method; high-speed train; magnetic decoupling; shell-type transformer;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2010.2043646
