Title :
High performance microshield line components
Author :
Weller, Thomas M. ; Katehi, Linda P B ; Rebeiz, Gabriel M.
Author_Institution :
NASA/Center for Space Terahertz Technol., Michigan Univ., Ann Arbor, MI, USA
fDate :
3/1/1995 12:00:00 AM
Abstract :
Several millimeter-wave passive components have been fabricated using the microshield transmission line geometry, and their performance is presented herein. Microshield is a quasi-planar, half-shielded design which uses a thin dielectric membrane (1.5 μm) to support the conducting lines. This approach provides a nearly homogeneous, air-filled environment and thus allows extremely broad-band TEM operation. This paper examines the conductor loss and effective dielectric constant of microshield lines and presents results on transitions to conventional coplanar waveguide, right-angle bends, different stub configurations, and lowpass and bandpass filters. Experimental data is provided along with numerical results derived from an integral equation method. The microshield line is shown to be very suitable for high performance millimeter and submillimeter-wave applications
Keywords :
electromagnetic shielding; integral equations; waveguide components; waveguide theory; air-filled environment; bandpass filters; broad-band TEM operation; conducting lines; conductor loss; coplanar waveguide; effective dielectric constant; half-shielded design; integral equation method; lowpass filters; microshield transmission line geometry; millimeter-wave passive components; quasi-planar design; right-angle bends; stub configurations; submillimeter-wave applications; thin dielectric membrane; waveguide transitions; Band pass filters; Biomembranes; Conductors; Coplanar waveguides; Dielectric constant; Dielectric losses; Geometry; Millimeter wave technology; Transmission lines; Waveguide transitions;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
