Title :
Planar millimeter-wave antennas using SiNx-membranes on GaAs
Author :
Stotz, M. ; Gottwald, G. ; Haspeklo, H. ; Wenger, J.
Author_Institution :
High Frequency Electron., Daimler-Benz AG, Ulm, Germany
fDate :
9/1/1996 12:00:00 AM
Abstract :
Planar aperture coupled microstrip antennas for 77 GHz are demonstrated for the first time. As far as possible standard GaAs monolithic microwave/millimeter-wave integrated circuit (MMIC) technology is used to realize the antennas. The antenna patches are suspended on a thin dielectric SiNx membrane on GaAs substrate. Therefore a novel plasma-enhanced chemical vapor deposition (PECVD) process step for the fabrication of the membranes is developed and described. The single antenna patches are coupled to a microstrip line through an aperture in the ground metallization. The method of moments in spectral domain is applied to design the patches. The feed network of a 3×1 antenna array for homogeneous excitation is simulated and optimized with a microwave design system (MDS). From reflection measurements the operation frequency of this triple patch antenna is determined to be 77.6 GHz. The farfield antenna characteristics are measured in an anechoic chamber, showing good agreement between simulated and measured results and a co- to cross-polarization isolation better than 30 dB
Keywords :
antenna feeds; antenna radiation patterns; gallium arsenide; membranes; method of moments; microstrip antenna arrays; millimetre wave antenna arrays; plasma CVD; 77.6 GHz; EHF; GaAs; GaAs substrate; PECVD process; SiN-GaAs; SiNx-membranes; antenna array; chemical vapor deposition; fabrication; farfield antenna characteristics; feed network; ground metallization; homogeneous excitation; method of moments; microstrip line; microwave design system; planar MM-wave antennas; plasma-enhanced CVD; reflection measurements; spectral domain; triple patch antenna; Antenna measurements; Aperture antennas; Aperture coupled antennas; Biomembranes; Dielectric substrates; Gallium arsenide; Microstrip antennas; Microwave antenna arrays; Millimeter wave integrated circuits; Silicon compounds;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
