Title :
A simple technique for minimization of ABC-induced error in the FDTD analysis of microstrip discontinuities
Author :
Ping, Xiao-Ou ; Naishadham, Krishna
Author_Institution :
Dept. of Electr. Eng., Wright State Univ., Dayton, OH, USA
Abstract :
Imperfectly absorbing truncation boundaries in the simulation of microstrip circuits by the finite-difference time-domain (FDTD) method necessitate large computational domains, imposing a significant burden on the resources. Residual boundary reflection sometimes causes serious degradation of the computed parameters (e.g. oscillatory behaviour). We introduce a simple modification of the FDTD implementation for microstrip discontinuities, wherein two sub-problems whose domains are reduced by bringing the absorbing boundary close to the circuit, are superposed to cancel the dominant boundary reflection. Computed results on transmission line and resonant type discontinuities demonstrate that significant computational savings can be achieved without compromising accuracy.<>
Keywords :
errors; finite difference time-domain analysis; microstrip discontinuities; waveguide theory; ABC-induced error minimisation; FDTD analysis; dominant boundary reflection; finite-difference time-domain method; imperfectly absorbing truncation boundaries; microstrip circuits; microstrip discontinuities; residual boundary reflection; resonant type discontinuities; simulation; transmission line discontinuities; Circuit simulation; Computational modeling; Degradation; Distributed parameter circuits; Finite difference methods; Microstrip; Minimization; Reflection; Time domain analysis; Transmission line discontinuities;
Journal_Title :
Microwave and Guided Wave Letters, IEEE
