Add to ORKGThe successful application of FD-TD methods to homogeneous waveguide and millimetric planar transmission lines presupposes a satisfactory answer to the problem of infinite line termination (Absorbing Boundary Condition ABC) in presence of high frequency dispersion. In the present contribution, a rigorous termination condition specific to homogeneous waveguide is analyzed, that is based on the convolution proprieties of the modal characteristic impedance of the 'accessible modes'. We evaluate, also, the efficiency of some commonly employed ABC's and to present a technique that reduces reflection error to less than 1\% for microstrip and coplanar line circuits up to and beyond 50 GHz, that is lower than the discretization and round-off errors...
FD-TD method offer, in principle, promise of great flexibility for application to waveguide disconti...
New and efficient numerical modeling concepts and procedures based on Transmission Line Matrix and F...
Numerical techniques for calculating modal fields, cutoff frequencies, and dispersion characteristic...
The successful application of FD-TD methods to homogeneous waveguide and millimetric planar transmis...
The successful application of FD-TD methods to millimetric planar transmission lines presupposes a s...
A general-purpose algorithm such as the finite-difference-time-domain technique would be useful for ...
This paper proposes an exact and mesh-efficient modal absorbing boundary termination condition (MABT...
Abstract: A new technique is proposed to take advantage of the time domain and numerical dispersion ...
Waveguide sections are now widely used both for commercial and military purposes. The trend of inves...
The frequency–domain TLM (FDTLM) method is extended to include absorbing boundary conditions. An eas...
In the Finite Differences in the Time Domain (FD-TD) technique the knowledge of the field is often u...
The application of FD-TD techniques to waveguide problems helps to obtain good information about the...
Finite Difference-Time Domain (FDTD) methods offer, in principle, promise of great flexibility for a...
The design of microwave circuits requires detailed knowledge on the electromagnetic properties of th...
FD-TD method offer, in principle, promise of great flexibility for application to waveguide disconti...
New and efficient numerical modeling concepts and procedures based on Transmission Line Matrix and F...
Numerical techniques for calculating modal fields, cutoff frequencies, and dispersion characteristic...
The successful application of FD-TD methods to homogeneous waveguide and millimetric planar transmis...
The successful application of FD-TD methods to millimetric planar transmission lines presupposes a s...
A general-purpose algorithm such as the finite-difference-time-domain technique would be useful for ...
This paper proposes an exact and mesh-efficient modal absorbing boundary termination condition (MABT...
Abstract: A new technique is proposed to take advantage of the time domain and numerical dispersion ...
Waveguide sections are now widely used both for commercial and military purposes. The trend of inves...
The frequency–domain TLM (FDTLM) method is extended to include absorbing boundary conditions. An eas...
In the Finite Differences in the Time Domain (FD-TD) technique the knowledge of the field is often u...
The application of FD-TD techniques to waveguide problems helps to obtain good information about the...
Finite Difference-Time Domain (FDTD) methods offer, in principle, promise of great flexibility for a...
The design of microwave circuits requires detailed knowledge on the electromagnetic properties of th...
FD-TD method offer, in principle, promise of great flexibility for application to waveguide disconti...
New and efficient numerical modeling concepts and procedures based on Transmission Line Matrix and F...
Numerical techniques for calculating modal fields, cutoff frequencies, and dispersion characteristic...