The embedding of microwave devices is treated by applying the finite-difference method to three-dimensional shielded structures. A program package was developed to evaluate electromagnetic fields inside arbitrary transmission-line connecting structures and to compute the scattering matrix. The air bridge, the transition through a wall, and the bond wire are examined as interconnecting structures. Detailed results are given and discussed regarding the fundamental behavior of embedding
AbstractApplication of finite-difference (FDM) and finite-element (FEM) methods for the analysis of ...
It is demonstrated that microwave structures incorporating dielectric resonators (DR) are accurately...
The current trend to migrate wireless applications to higher frequencies to obtain broader bandwidth...
Making up a microwave simulator is tried, which has an analysis method based on the finite-element m...
Structures for interconnecting active microwave semiconductor-devices, e.g. FET's and MIC's, with th...
The electromagnetic characteristics of microwave circuits can be described by the scattering matrix....
Two general methods for numerically modeling electromagnetic transmission line geometries in terms o...
A three dimensional formulation of the finite element method was developed to solve the electromagne...
129 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.The finite element method is ...
The complex nature of solving microwave circuit problems with their many varied boundary conditions,...
Disclosed are exemplary finite difference methods for electromagnetically simulating planar multilay...
Various electromagnetic wave-guiding and resonating structures are studied. The structures in questi...
Three-dimensional computations of electromagnetic fields are presented with the aid of the method of...
New and efficient numerical modeling concepts and procedures based on Transmission Line Matrix and F...
The 3D Finite-Difference Time-Domain (FDTD) method simulates structures in the time-domain using a d...
AbstractApplication of finite-difference (FDM) and finite-element (FEM) methods for the analysis of ...
It is demonstrated that microwave structures incorporating dielectric resonators (DR) are accurately...
The current trend to migrate wireless applications to higher frequencies to obtain broader bandwidth...
Making up a microwave simulator is tried, which has an analysis method based on the finite-element m...
Structures for interconnecting active microwave semiconductor-devices, e.g. FET's and MIC's, with th...
The electromagnetic characteristics of microwave circuits can be described by the scattering matrix....
Two general methods for numerically modeling electromagnetic transmission line geometries in terms o...
A three dimensional formulation of the finite element method was developed to solve the electromagne...
129 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.The finite element method is ...
The complex nature of solving microwave circuit problems with their many varied boundary conditions,...
Disclosed are exemplary finite difference methods for electromagnetically simulating planar multilay...
Various electromagnetic wave-guiding and resonating structures are studied. The structures in questi...
Three-dimensional computations of electromagnetic fields are presented with the aid of the method of...
New and efficient numerical modeling concepts and procedures based on Transmission Line Matrix and F...
The 3D Finite-Difference Time-Domain (FDTD) method simulates structures in the time-domain using a d...
AbstractApplication of finite-difference (FDM) and finite-element (FEM) methods for the analysis of ...
It is demonstrated that microwave structures incorporating dielectric resonators (DR) are accurately...
The current trend to migrate wireless applications to higher frequencies to obtain broader bandwidth...