Title :
Reduced vector potential formulation for FI2TD schemes
Author :
Clemens, M. ; Weiland, Thomas
Author_Institution :
Computational Electromagn. Lab., Dannstadt Univ. of Technol., Darmstadt, Germany
Abstract :
Finite integration implicit time domain (FI2TD) schemes for magneto-quasistatic problems so far have been developed for a magnetic field description based on a modified vector potential formulation. This paper introduces a reduced vector potential formulation for these schemes, where the magnetic field is additively decomposed into a source part originating from the exciting coil currents and a part resulting from the presence of eddy currents due to electric conductivity and/or the nonlinear material behaviour. Numerical tests for 3D transient problems show an improved convergence behaviour of the iterative conjugate gradient (CG) algorithm. with respect to the new formulation.
Keywords :
conjugate gradient methods; convergence of numerical methods; eddy currents; electrical conductivity; integration; magnetic fields; time-domain analysis; transient analysis; 3D transient problems; FI2TD schemes; coil currents; convergence behaviour; eddy currents; electric conductivity; finite integration implicit time domain; iterative conjugate gradient algorithm; magnetic field; magnetic field description; magneto-quasistatic problems; modified vector potential formulation; nonlinear material behaviour; reduced vector potential formulation;
Conference_Titel :
Computation in Electromagnetics, 2002. CEM 2002. The Fourth International Conference on (Ref. No. 2002/063)
DOI :
10.1049/ic:20020139
