Title :
A broad-band microstrip-to-waveguide transition using quasi-Yagi antenna
Author :
Kaneda, Noriaki ; Qian, Yongxi ; Itoh, Tatsuo
Author_Institution :
Dept. of Electr. Eng., California Univ., Los Angeles, CA, USA
fDate :
12/1/1999 12:00:00 AM
Abstract :
A novel microstrip-to-waveguide transition utilizing a coplanar-strip Yagi-like antenna is presented. The compact and single-layered quasi-Yagi antenna fabricated on high dielectric-constant substrate has end-fire radiation patterns. This monolithic-microwave integrated-circuit (MMIC)-compatible antenna is inserted in the E-plane of the rectangular waveguide to launch the TE10 dominant mode. With this new scheme of excitation, compact design and low-cost fabrication is achieved without requiring multilayered substrate or backshort hermetic sealing. This transition, in addition, achieves very broad bandwidth and relatively low insertion loss. The transition´s broad-band characteristics are analyzed, and optimization guidelines for individual components of the transition are discussed in detail. A tolerance study proves that the transition is robust in mechanical alignment. The X-band transition with alumina substrate demonstrates 35% bandwidth with return loss better than -12- and -0.3-dB insertion loss at the center frequency. This transition should find wide applications due to its high compatibility with microwave-integrated-circuit/MMIC technology and very low fabrication cost
Keywords :
MMIC; Yagi antenna arrays; antenna radiation patterns; baluns; coplanar transmission lines; dipole antenna arrays; microstrip transitions; tolerance analysis; waveguide transitions; -0.3 dB; -12 dB; 8.5 to 12.5 GHz; Al2O3; MMIC-compatible antenna; TE10 dominant mode; X-band transition; alumina substrate; broad-band microstrip-to-waveguide transition; coplanar-strip Yagi-like antenna; dipole antenna; end-fire radiation patterns; fabrication cost; high dielectric-constant substrate; insertion loss; mechanical alignment; microstrip-to-CPS baluns; optimization guidelines; quasi-Yagi antenna; rectangular waveguide E-plane; return loss; tolerance study; very broad bandwidth; Antenna radiation patterns; Bandwidth; Dielectric substrates; Fabrication; Guidelines; Insertion loss; Microstrip antennas; Rectangular waveguides; Robustness; Tellurium;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
