Title :
Monolithically Integrated Corporate-Fed Cavity-Backed Antennas
Author :
Saito, Y. ; Lukic, M.V. ; Fontaine, D. ; Rollin, J.-M. ; Filipovic, D.S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Colorado, Boulder, CO, USA
Abstract :
A Ka-band monolithically integrated 4 ?? 1 corporate-fed cavity-backed patch antenna array is demonstrated in this paper. A single antenna element has four slits introduced to extend the bandwidth to about 8%. Its gain and radiation efficiency are 6.3 dBi and 97%, respectively. A rectangular ??-coaxial line based combining network is monolithically integrated with radiating elements in a slightly modified tile configuration. Specifically, to reduce the array footprint power dividers are aligned along the array axis. Combining network has height 1/2 that of the array and feed lines do not route through the antenna elements. Overall loss of the combining network is 0.5 dB at 30 GHz. Measured reflection coefficient bandwidth and maximum gain of the fabricated 4 ?? 1 corporate-fed array are 13.7% and 12.73 dBi, respectively. The array is designed and fabricated in a recently developed surface micromachining process known as PolyStrata.
Keywords :
antenna feeds; coaxial cables; micromachining; microstrip antenna arrays; millimetre wave antenna arrays; monolithic integrated circuits; power dividers; Ka-band operation; PolyStrata process; corporate-fed cavity-backed patch antenna array; footprint power divider; frequency 30 GHz; monolithically integrated antenna; rectangular ??-coaxial line; surface micromachining process; Antenna arrays; Antenna feeds; Antenna measurements; Bandwidth; Gain measurement; Micromachining; Patch antennas; Power dividers; Reflection; $mu$-rectangular coaxial line; cavity-backed patch antenna; combining network; surface micromachining;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2009.2027155
