@conference{10902/3363,
year = {2005},
month = {9},
url = {http://hdl.handle.net/10902/3363},
abstract = {The Lumped-Element Finite Difference Time-
Domain (LE-FDTD) method is an extension of the original
FDTD method that allows circuital lumped elements to be
incorporated into FDTD simulators. The Lumped-Network
(LN) FDTD technique is an improvement of the LE-FDTD
method that permits linear one-port LN to be implemented
in a systemtic way and using only a single FDTD cell.
This paper presents an extension of the LN-FDTD method
for the incorporation of linear two-port LN into the
FDTD framework. The method basically consists of describing
a two-port LN by means of its admittance matrix in
the Laplace domain. By using appropriate digital signalprocessing
methodologies a set of difference equations that
models the two-port LN behavior is derived. The new
approach has been validated by comparison with the LNFDTD
method and with the circuital simulator ADSⓇ.},
publisher = {URSI 2005, XX Simposium Nacional de la Unión Científica Internacional de Radio, Gandía},
title = {Incorporación de circuitos concentrados de dos puertas en simuladores electromagnéticos temporales basados en el método FDTD},
author = {González Rodríguez, Óscar and Pereda Fernández, José Antonio and Vegas García, Ángel},
}