Consistent finite integration approach for coupled computation of static current distributions and electromagnetic fields

Author

Bartsch, Michael ; Van Rienen, Ursula ; Weiland, Thomas

Author_Institution

CST, Darmstadt, Germany

Volume

34

Issue

5

fYear

1998

fDate

9/1/1998 12:00:00 AM

Firstpage

3098

Lastpage

3101

Abstract

The finite integration theory (FIT) is a proven consistent discretisation method for the computation of electromagnetic fields. This paper introduces the application of FIT to the calculation of static current flow fields and the coupled evaluation of magnetic fields. A consistent translation of the current density J&oarr;, which the static current solver allocates at the grid edges, to cell surfaces is presented. All analytical properties of fields and fluxes are maintained by this method. This enables the further calculation of current excited magnetostatic problems. Several applications, e.g. the current flow and the corresponding magnetic field in a semiconductor, are presented

Keywords

current density; current distribution; electromagnetic field theory; electromagnetic forces; integration; consistent discretisation method; coupled computation; current density; current excited magnetostatic problems; electromagnetic fields; finite integration theory; static current distributions; static current flow fields; Computer simulation; Current distribution; Differential equations; Distributed computing; Electromagnetic coupling; Electromagnetic fields; Magnetic fields; Magnetic flux; Magnetic semiconductors; Magnetostatics;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/20.717725

Filename

717725