Title :
Efficient FEM-Based Modal Circuit Representation of Arbitrarily Shaped Plate Pairs
Author :
Bednarz, Christian ; Mantzke, Andreas ; Leone, Marco
Author_Institution :
Theor. Electr. Eng., Otto-von-Guericke-Univ., Magdeburg, Germany
Abstract :
A novel finite element method-based technique for the calculation of all circuit parameters of an efficient broadband equivalent network representation of parallel-plane pairs with arbitrary geometry is presented. It is based on an eigenvalue analysis in combination with the solution of the quasi-static Poisson equation for the magnetic vector potential. Compared with a recently presented simple finite difference scheme, the suggested FEM approach considerably reduces the modeling and computational effort, enabling an adaptive meshing in the presence of small circular ports. The proposed approach is validated by a practical example, demonstrating the considerable computational savings and the versatility for practical applications.
Keywords :
Poisson equation; eigenvalues and eigenfunctions; equivalent circuits; finite difference methods; finite element analysis; geometry; FEM-based modal circuit representation; adaptive meshing; arbitrarily shaped plate pairs; arbitrary geometry; broadband equivalent network representation; computational savings; eigenvalue analysis; finite difference scheme; finite element method-based technique; magnetic vector potential; parallel-plane pairs; quasi-static Poisson equation; Computational modeling; Eigenvalues and eigenfunctions; Equivalent circuits; Finite element analysis; Integrated circuit modeling; Ports (Computers); Vectors; Cavity modes; equivalent circuit; finite-element method (FEM); power bus; printed circuit boards; via inductance;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2013.2294542
