Title :
A 79 GHz Phase-Modulated 4 GHz-BW CW Radar Transmitter in 28 nm CMOS
Author :
Giannini, V. ; Guermandi, D. ; Qixian Shi ; Medra, Ahmed ; Van Thillo, W. ; Bourdoux, Andre ; Wambacq, Piet
Author_Institution :
imec, Leuven, Belgium
Abstract :
Millimeter-wave sensors perform robust and accurate remote motion sensing. We propose a 28 nm CMOS Radar TX that modulates a 79 GHz carrier with a 2 Gsps Pseudo-Noise sequence. The measured modulated output power at 79 GHz in 4 GHz BW is higher than +11 dBm (27°C), while the spurious emissions are below -20 dBc, fully satisfying the spectral mask regulations. The output RF BW where we can lock the injection-locked LO is 13 GHz. Overall, the TX draws 121 mW from a 0.9 V supply resulting in a record efficiency above 10%. More importantly, the TX is functional up to 125°C still providing more than +7 dBm output power over the same RF BW.
Keywords :
CMOS integrated circuits; CW radar; field effect MIMIC; millimetre wave detectors; millimetre wave radar; motion measurement; phase modulation; radar transmitters; remote sensing by radar; CMOS radar TX; bandwidth 4 GHz; frequency 13 GHz; frequency 79 GHz; injection-locked LO; millimeter-wave sensors; phase-modulated CW radar transmitter; power 121 mW; pseudonoise sequence; remote motion sensing; size 28 nm; spectral mask regulations; spurious emissions; temperature 27 degC; voltage 0.9 V; Bandwidth; CMOS integrated circuits; Gain; Harmonic analysis; Radar; Radar antennas; Radio frequency; 79 GHz; Automotive; CW; MIMO; domotics; harmonic rejection; injection-locked oscillator; millimeter wave; phase modulation; power amplifier; radar; robotics; short-range radars (SRR); temperature measurements; transmitter;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2014.2355819
