Title :
Overrelaxing the charge iteration procedure
Author :
Aiello, G. ; Alfonzetti, S. ; Coco, S. ; Salerno, N.
Author_Institution :
Dipartimento Elettrico Elettronico e Sistemistico, Catania Univ., Italy
fDate :
5/1/1996 12:00:00 AM
Abstract :
Charge iteration is an N-dimensional (N=1,2,3) FEM procedure for the solution of unbounded electrostatic fields created by voltaged conductors. In the procedure a fictitious boundary enclosing all the conductors defines a bounded region where the unbounded problem is solved iteratively using the charge lying on conductors to improve the Dirichlet condition on the fictitious boundary. The convergence properties of charge iteration in the presence of overrelaxation are investigated. A remarkable reduction in computational effort is obtained due to the reduction in the number of iterations and the restriction of the bounded domain to the vicinity of the conductors where the unrelaxed procedure exhibits a divergent behaviour. The above advantages are illustrated by an analytical verification and by a numerical example
Keywords :
conductors (electric); convergence of numerical methods; electric fields; finite element analysis; iterative methods; Dirichlet condition; FEM procedure; bounded domain; bounded region; charge iteration procedure; computational effort reduction; conductors; convergence properties; overrelaxation; spherical conductor; unbounded electrostatic fields; unbounded problem; voltaged conductors; Boundary element methods; Code standards; Conductors; Convergence; Electrostatics; Feedback; Finite element methods; Nonuniform electric fields; Symmetric matrices; Voltage;
Journal_Title :
Magnetics, IEEE Transactions on
