Title :
A SiGe-based 16-channel phased array radar system at W-Band for automotive applications
Author :
Schmalenberg, Paul ; Jae Seung Lee ; Shiozaki, Koji
Author_Institution :
Toyota Res. Inst. - North America, Toyota Motor Eng. & Manuf. North America, Inc., Ann Arbor, MI, USA
Abstract :
A phased array radar system operating at 79 GHz, appropriate for installation onto vehicles, is developed. The system includes a wide field transmitter and a receiver with a single packaged SiGe RFIC containing 16 5-bit phase shifters with variable gain amplifiers for amplitude weighting. Each phase shifter is wirebonded to a linear series fed antenna etched on an organic RF substrate. Both the transmit and receive front end are mounted onto a mobile test bed, with a control bus for the phase shifters, analog to digital converters for the radar IF signal, and signal processing software. A mobile test bed is then used to test the radar in a variety of scenarios, especially in regards to crossing pedestrians and pedestrian/vehicle separation. Measurements show that the receiver has a field of view of 110 degrees in azimuth, without sacrificing fine beam control.
Keywords :
Ge-Si alloys; elemental semiconductors; microwave phase shifters; millimetre wave radar; phased array radar; radio transceivers; radiofrequency integrated circuits; road vehicle radar; RFIC; SiGe; W band; amplitude weighting; analog to digital converters; automotive applications; control bus; fine beam control; five bit phase shifters; frequency 79 GHz; linear series fed antenna; mobile test bed; organic RF substrate; radar IF signal; receive front end; signal processing software; sixteen channel phased array radar system; transmit front end; variable gain amplifiers; wide field receiver; wide field transmitter; Delays; Microstrip; Optical switches; Radar tracking; Vehicle crash testing; Automotive radar; Millimeter wave radar; Phased arrays;
Conference_Titel :
Microwave Conference (EuMC), 2013 European
Conference_Location :
Nuremberg
