Title :
Micromachined Loop Antennas on Low Resistivity Silicon Substrates
Author :
Öjefors, Erik ; Kratz, Henrik ; Grenier, Katia ; Plana, Robert ; Rydberg, Anders
Author_Institution :
Dept. of Eng. Sci., Uppsala Univ.
Abstract :
The integration of K-band (20-40 GHz) full wavelength square wire- and slot-loop antennas on low resistivity (11-70 Omegacm) silicon substrates is addressed. By the use of polymer or silicon oxide/nitride membranes to support the slot or wire loop over micromachined trenches the efficiency of the antennas is enhanced while the majority of the bulk silicon within the aperture of the antenna is preserved to enable the integration of active devices. A 3.6times3.6 mm2 large slot loop antenna chip with 200 mum micromachined trench width yields 1.5 dBi gain at 29.5 GHz, while 1.0 dBi gain is obtained at 24 GHz for a wire loop antenna on a 4.5times4.5 mm2 large chip with 360 mum wide trenches
Keywords :
aperture antennas; loop antennas; micromachining; polymers; semiconductor devices; silicon compounds; slot antennas; substrates; wire antennas; 200 micron; 24 GHz; 360 micron; K-band; active device; aperture antenna; full wavelength square wire-antenna; low resistivity silicon substrates; micromachined trenches; nitride membrane; polymer; silicon oxide; slot-loop antennas; Aperture antennas; Biomembranes; Conductivity; Dielectric substrates; Frequency; K-band; Micromachining; Silicon; Slot antennas; Wire; Loop antennas; micromachining; silicon; slot antennas;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2006.886532
