Title :
A 160 GHz Pulsed Radar Transceiver in 65 nm CMOS
Author :
Ginsburg, Brian P. ; Ramaswamy, Srinath M. ; Rentala, V. ; Seok, Eunyoung ; Sankaran, S. ; Haroun, Baher
Author_Institution :
Kilby Labs., Texas Instrum., Dallas, TX, USA
Abstract :
This paper presents a 160 GHz center frequency pulsed 65 nm CMOS transceiver for short range radar applications. Four phased array transceivers were implemented in a single chip with antennas implemented in a BGA package. The implemented transmitter is capable of producing pulses of 100 ps widths ( >20 GHz RF bandwidth) at a 160 GHz carrier frequency. The measured effective isotropic radiated power (EIRP) is 18.8 dBm for continuous wave outputs. The analog beam forming receiver achieves an overall gain of 42.5 dB, -14 dBm IP1dB, 7 GHz bandwidth, and a noise figure of 22.5 dB. The sliding window time-dilation baseband relaxes the output data rate and subsequent digital processing requirements. Fine grained duty cycling reduces power dissipation. The entire chip consumes 2.2 W from 1.2/1.4 V supplies in a 65 nm digital CMOS process.
Keywords :
CMOS integrated circuits; antenna phased arrays; array signal processing; ball grid arrays; integrated circuit packaging; millimetre wave integrated circuits; millimetre wave radar; phased array radar; radar receivers; radar transmitters; BGA packaging; EIRP; analog beamforming receiver; bandwidth 7 GHz; digital CMOS process; effective isotropic radiated power; fine grained duty cycling; four phased array transceiver; frequency 160 GHz; gain 42.5 dB; noise figure 22.5 dB; power 2.2 W; pulsed radar transceiver; short range radar application; single chip antenna; size 65 nm; sliding window time-dilation baseband; subsequent digital processing requirement; time 100 ps; transmitter; voltage 1.2 V; voltage 1.4 V; Arrays; Bandwidth; Logic gates; Power transmission lines; Radar; Receivers; Transceivers; CMOS; input compression point; mixer; mm-wave; noise figure; phased array; radar; wireless;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2014.2298033
