Title :
A 30GHz impulse radiator with on-chip antennas for high-resolution 3D imaging
Author :
Peiyu Chen ; Babakhani, Aydin
Author_Institution :
Rice Univ., Houston, TX, USA
Abstract :
This paper reports a 30-GHz impulse radiator utilizing an injection-locked asymmetric cross-coupled voltage-control-oscillator (VCO) with on-chip bow-tie antennas. The impulse radiator converts a digital trigger signal to a radiated impulse with a variable pulse-width down to 60psec with peak EIRP of 15.2dBm without using any lens. Coherent spatial pulse combining is demonstrated by using two widely spaced radiators. A timing jitter of the 216fsec for the combined signal is measured. The impulse radiator has the capability of producing 3D images with depth resolution of 33μm at 25cm of target distance in the air. The chip is implemented in a 0.13μm SiGe BiCMOS process technology. The total die area is 2.85mm2 with maximum power consumption of 106mW.
Keywords :
BiCMOS digital integrated circuits; antenna radiation patterns; bow-tie antennas; elemental semiconductors; image reconstruction; injection locked oscillators; microprocessor chips; microwave antennas; microwave oscillators; timing jitter; voltage-controlled oscillators; coherent spatial pulse; digital trigger signal; frequency 30 GHz; high-resolution 3D imaging; impulse radiator; injection-locked asymmetric cross-coupled voltage-control-oscillator; on-chip bow-tie antennas; peak EIRP; silicon germanium BiCMOS process technology; timing jitter; variable pulse-width; Broadband antennas; Image resolution; Imaging; Radar imaging; Three-dimensional displays; Voltage-controlled oscillators; 3D impulse imaging; BiCMOS; Coherent spatial pulse combining; VCO; impulse radiator;
Conference_Titel :
Radio and Wireless Symposium (RWS), 2015 IEEE
Conference_Location :
San Diego, CA
DOI :
10.1109/RWS.2015.7129717
