Enhanced FD-TD equations for diagonal metal edges and their microwave applications

Author

Foroughipour, S.M. ; Esselle, K.P.

Author_Institution

Dept. of Electron., Macquarie Univ., North Ryde, NSW, Australia

fYear

2000

fDate

2000

Firstpage

361

Lastpage

364

Abstract

The standard FD-TD method requires a very fine grid to model singular fields in the vicinity of sharp metal edges. This is a problem for simulating microwave structures composed of thin metal sheets, such as planar transmission lines and patch antennas. We have derived improved (enhanced) FD-TD equations for diagonal metal edges by considering field singularity. With these equations, various microwave structures can be analyzed accurately using a much coarser grid. In this paper, we demonstrate the application of enhanced FD-TD equations in: (1) modeling wave propagation in diagonal microstrip lines; and (2) simulating resonance in microstrip patch antennas. The accuracy of numerical results was improved by a factor of between 4 to 10, without additional computational overhead (time or memory)

Keywords

antenna theory; electromagnetic wave propagation; finite difference time-domain analysis; microstrip antennas; microstrip lines; microwave devices; waveguide components; waveguide theory; diagonal metal edges; diagonal microstrip lines; enhanced FDTD equations; field singularity; microstrip antennas; microwave applications; microwave structures; patch antennas; planar transmission lines; resonance simulation; sharp metal edges; singular fields; thin metal sheets; wave propagation modelling; Computational modeling; Electromagnetic fields; Equations; Grid computing; Microstrip antennas; Microwave propagation; Microwave theory and techniques; Patch antennas; Planar transmission lines; Resonance;

fLanguage

English

Publisher

ieee

Conference_Titel

Microwave Conference, 2000 Asia-Pacific

Conference_Location

Sydney, NSW

Print_ISBN

0-7803-6435-X

Type

conf

DOI

10.1109/APMC.2000.925816

Filename

925816