Title :
Cascaded active and passive quasi-optical grids
Author :
Shiroma, Wayne A. ; Bundy, Scott C. ; Hollung, Stein ; Bauernfeind, Brenda D. ; Popovic, Zoya B.
Author_Institution :
Dept. of Electr. & Comput. Eng., Colorado Univ., Boulder, CO, USA
fDate :
12/1/1995 12:00:00 AM
Abstract :
A general method for analyzing systems of cascaded grids is presented. The analysis is based on a full-wave theory for arbitrary periodic metal gratings printed on dielectrics and loaded with active and/or passive lumped devices. Each quasioptical component is characterized as a multiport network, in which two of the ports represent the free-space regions on the two sides of the grid surface, and the remaining ports are connected to the devices. This approach allows cascading of quasi-optical components using transmission-line theory. Several examples are presented which demonstrate the theory: free-space filters containing lumped capacitors and resistors; an X-band transmission-mode linear-to-circular polarization converter; an S-band voltage-controlled frequency-selective surface; and a C-band mode-selective grid oscillator
Keywords :
cascade networks; diffraction gratings; lumped parameter networks; microwave devices; multiport networks; transmission line theory; C-band mode-selective grid oscillator; S-band voltage-controlled frequency-selective surface; X-band transmission-mode linear-to-circular polarization converter; active lumped devices; cascaded grids; dielectric substrate; free-space filter; full-wave theory; multiport networks; passive lumped devices; periodic metal gratings; quasioptical components; transmission-line theory; Capacitors; Dielectric devices; Filtering theory; Filters; Frequency conversion; Gratings; Polarization; Resistors; Transmission lines; Voltage-controlled oscillators;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
