Title :
Eddy current losses in laminated transformer cores
Author :
Machado, V. Maló
Author_Institution :
Centro de Electrotecnica, Univ. Tecnica de Lisboa, Portugal
Abstract :
A finite element method, based on the variational principle, for two-dimensional field configurations is used to evaluate eddy current losses in a sheet of a laminated transformer core assumed to be a linear homogeneous conducting medium. Boundary conditions are imposed in an integral form combined with Neumann conditions. Using this approach, it is not required to evaluate integrals involving the primary entity (the magnetic field strength) in order to evaluate secondary entities (the magnetic flux or the complex power). Results show that power losses depend on geometrical parameters and on the field penetration depth. Comparison was made with results derived from the analytical approach based on the field plane configuration assumption, showing that sufficient accuracy may be obtained by applying the proposed method
Keywords :
laminations; Neumann conditions; eddy current losses; finite element method; integral boundary conditions; laminated transformer cores; linear homogeneous conducting medium; magnetic field strength; magnetic flux; power losses; two-dimensional field configurations; variational principle; Boundary conditions; Current density; Integral equations; Magnetic analysis; Magnetic domains; Magnetic fields; Magnetic flux; Magnetic losses; Transformer cores; Voltage;
Conference_Titel :
AFRICON '92 Proceedings., 3rd AFRICON Conference
Conference_Location :
Ezulwini Valley
Print_ISBN :
0-7803-0835-2
DOI :
10.1109/AFRCON.1992.624500
