Static and dynamic numerical techniques which are suited for the
analysis and simulation of various planar microstrip components
encountered in hybrid and monolithic microwave integrated circuits are
presented. The static analysis makes use of an excess source formulation in conjunction with an efficient mathematical treatment to
extract the discontinuity parameter...
Coplanar microstrip structures placed on dielectric substrates
are used as high frequency electro-optic modulators. The method of
lines, a mathematical technique for solving partial differential
equations, has been applied to solve for the propagation
characteristics of such a configuration.
It has been determined that simple transmission line models
are adequate...
In this thesis a numerical technique to model general microstrip asymmetric and multiple step discontinuities is presented. The method is based on a magnetic wall waveguide model that is assumed to be valid for describing the electromagnetic fields associated with the microstrip line and in the vicinity of microstrip discontinuities....
Accurate, efficient and general computational
techniques are developed to evaluate the scattering
parameters of passive microstrip components composed of
discontinuities in microstrip transmission lines on
general two layer substrates with single and two level
metallization. An open domain model is used. The
Electric Field Integral Equation is examined and the...
Layered multiconductor coupled slot and strip-slot structures are characterized by introducing the full-wave modal analysis as well as the quasi-TEM spectral domain technique. In the modal analysis, the electric and magnetic fields are constructed in terms of modal fields in different regions. Application of the boundary conditions at interfaces for...