Title :
Millimeter-Wave Tunable Phase Shifter on Silicon-on-Glass Technology
Author :
Ranjkesh, N. ; Basha, M. ; Abdellatif, A. ; Gigoyan, S. ; Safavi-Naeini, S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Waterloo, Waterloo, ON, Canada
Abstract :
A low-loss, low-cost, and compact fully-dielectric phase shifter integrated on the corrugated Silicon-On-Glass (SOG) platform is presented for the first time. In the corrugated SOG platform, the glass substrate below the high-resistivity silicon (Si) components is etched in a periodic configuration to reduce the insertion loss and enhance the field confinement inside the Si. Measured phase shifts of 111° and 129° are achieved by a device length of 5 mm at the frequencies of 85 and 100 GHz, respectively. At 88 GHz, the maximum insertion loss over a phase shift of 114° is only 0.6 dB.
Keywords :
dielectric devices; elemental semiconductors; etching; glass; millimetre wave circuits; millimetre wave phase shifters; silicon; Si; compact fully-dielectric phase shifter; corrugated SOG technology; corrugated silicon-on-glass technology; etching; frequency 100 GHz; frequency 85 GHz; frequency 88 GHz; insertion loss; loss 0.6 dB; millimeter-wave tunable phase shifter; phase shift measurement; size 5 mm; Dielectrics; Glass; Insertion loss; Loss measurement; Phase shifters; Silicon; Substrates; Dielectric waveguide; passive components/circuits; phase shifter;
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2015.2429074
