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Design of a 100-GHz Double-Sideband Low-IF CW Doppler Radar Transceiver for Micrometer Mechanical Vibration and Vital Sign Detection

Xujun Ma, Yiyang Wang, Lin Lu, Xuexue Zhang, Qin Chen, Xiaohu You, Jenshan Lin, Lianming Li

2020IEEE Transactions on Microwave Theory and Techniques48 citationsDOIOpen Access PDF

Abstract

This article presents a fully integrated 100-GHz continuous-wave Doppler radar transceiver with the double-sideband low-intermediate-frequency (IF) architecture for mechanical vibration and vital sign detection. Fabricated in a 65-nm CMOS process, the whole radar chip transceiver consumes 262 mW with a size of 0.9 mm $\times2.0$ mm. Instead of utilizing a fundamental 100-GHz voltage controlled oscillator (VCO) in the chip, a push-push frequency doubler with the 50-GHz external source is adopted to drive the transceiver. Under a dedicated design on the system architecture and circuit blocks, the chip could transmit 4-dBm saturated power ($P_{\mathrm {sat}}$ ) over 93-105 GHz with a 40-mV 1-kHz IF carrier and achieve good I/Q performance of phase mismatch <; 1° and amplitude mismatch <; 1 dB over 95-104 GHz. With a-36-dBm RF input from 99 to 104 GHz, the IF differential output amplitude varies from 470 to 680 mV. To validate the detection ability, a probe-station-based test setup is proposed. Benefiting from the short wavelength at 103 GHz, this radar system successfully detects the mechanical vibration of 1-$\mu \text{m}$ displacement from 1.5 m, the human vital-sign signal from 2 m, and even a small bullfrog's hybrid respiratory motion from 0.6 m. To the best of our knowledge, this is the first 100-GHz CMOS Doppler radar transceiver chip with the low-IF architecture for the biological vital sign detection.

Topics & Concepts

TransceiverSidebandRadarElectrical engineeringCMOSVoltage-controlled oscillatorChipDoppler radarPhysicsEngineeringRadio frequencyElectronic engineeringTelecommunicationsVoltageNon-Invasive Vital Sign MonitoringECG Monitoring and AnalysisHealthcare Technology and Patient Monitoring
Design of a 100-GHz Double-Sideband Low-IF CW Doppler Radar Transceiver for Micrometer Mechanical Vibration and Vital Sign Detection | Litcius