A variational integral method in the Fourier transform domain is
used to calculate the characteristic normal mode parameters of a coupled
pair of nonsymmetrical microstrip transmission lines in an inhomogenous
dielectric medium under quasi-TEM conditions. These together with the
theory of such structures are used to show that ideal directional...
Accurate and efficient computational methods to evaluate the
quasi-TEM parameters of various planar structures such as microstrips,
coplanar lines and coplanar waveguides are developed. The characteristic
parameters of all these structures which are used extensively
in microwave integrated circuits for applications as transmission
lines and other circuit elements are computed...
The properties of linear active coupled lines consisting of
electrically long GaAs MESFET structures are investigated for possible
applications as traveling-wave broad-band amplifiers. In addition,
the nonlinear coupled Schottky lines are studied for applications as
voltage tunable circuit elements.
The analysis of the general active asymmetric coupled transmission
lines in...
An analog signal processing technique allowing arbitrary step
response is presented. A transversal structure is used with
nonuniform contradirectional coupling to provide continuous tapping.
Sinusoidal and chirp responses are presented as examples implemented
using this nonuniformly coupled microstrip structure.
The purpose of the thesis is to synthesize the major results of a continuous
research effort directed toward new applications of high speed sampling in general and Electrooptic Sampling in particular.
Equivalent time sampling of repetitive high speed signals continues to provide significant performance enhancements for present and future generations...
A numerical technique to compute the time domain response of multiconductor lossy
uniform and nonuniform lines terminated in general nonlinear elements is presented. The
technique is based on the generalized method of characteristics. The method transforms the
original system of transmission line equations into a system of ordinary differential
equations....
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...
The propagation characteristics of a new coupled fin line structure, with
asymetrical, rectangular, top and bottom housings, is evaluated by using the modal
analysis technique. The boundary Green's function of the structure, relating the surface
currents to the electric fields is derived by using this technique. The propagation
characteristics, i.e....