Title :
A 225 GHz Circular Polarization Waveguide Duplexer Based on a Septum Orthomode Transducer Polarizer
Author :
Leal-Sevillano, Carlos A. ; Cooper, Ken B. ; Ruiz-Cruz, Jorge A. ; Montejo-Garai, Jose R. ; Rebollar, Jesus M.
Author_Institution :
Dept. de Electromagnetismo y Teor. de Circuitos, Univ. Politec. de Madrid, Madrid, Spain
Abstract :
In this paper, we present the modeling and experimental validation of an efficient, compact, and high-isolation waveguide duplexer operating at 225 GHz. While duplexers based on ferrite circulators are key components of many monostatic radar systems, at W-band frequencies and above the performance of waveguide circulators rapidly deteriorates. The design presented here uses a ferrite-free duplexing concept based on transmitting and receiving in orthogonal circular polarizations. The circular polarization is efficiently generated in waveguide using a septum orthomode transducer polarizer, leading to a compact device with a single horn antenna. The complete duplexer is designed using efficient numerical algorithms, resulting in a fabricated device with a measured 10% fractional bandwidth, a return loss better than 20 dB, isolation of 30 dB, and insertion loss below 1 dB.
Keywords :
CW radar; horn antennas; microwave circulators; numerical analysis; terahertz wave devices; transducers; waveguide antennas; waveguide polarisers; W-band frequencies; circular polarization waveguide duplexer; compact high-isolation waveguide duplexer; ferrite-free duplexing; fractional bandwidth; frequency 225 GHz; insertion loss; monostatic radar systems; numerical algorithms; orthogonal circular polarizations; return loss; septum orthomode transducer polarizer; single horn antenna; waveguide circulators; Circular polarization; duplexer; orthomode transducer; terahertz;
Journal_Title :
Terahertz Science and Technology, IEEE Transactions on
DOI :
10.1109/TTHZ.2013.2264317
