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A 28-nm-CMOS Based 145-GHz FMCW Radar: System, Circuits, and Characterization

Akshay Visweswaran, Kristof Vaesen, Miguel Glassée, Anirudh Kankuppe, Siddhartha Sinha, Claude Desset, Thomas Gielen, André Bourdoux, Piet Wambacq

2021IEEE Journal of Solid-State Circuits87 citationsDOI

Abstract

This article presents frequency-modulated-continuous-wave (FMCW) radars developed for the detection of vital signs and gestures using two generations of 145-GHz transceivers (TRXs) integrated in 28-nm bulk CMOS. The performance and limitations of high-frequency radars are quantified with a system-level study, and the design and performance of individual circuit blocks are presented in detail. A 145-GHz center frequency and radar operation over an RF bandwidth of 10 GHz yield a displacement responsivity of 2 π rad/mm and a windowed range resolution of 30 mm, respectively. Radar operation over a 0.1-7 m range is enabled by an effective-isotropic radiated power of 11.5 dBm and a noise figure of 8 dB. The ICs feature frequency multiplication by 9 in the transmit and receive paths, sub-arrayed dipole antennas, and neutralization of TX-RX leakage via delay control. A single TRX dissipates 500 mW from a 0.9-/1.8-V drive. The use of fast chirps (5-30- μs) mitigates the effect of 1/ f-noise at the intermediate frequency (IF). Extensive characterization results showcase state-of-the-art performance of the TRXs, while the code-domain multiple-input and multiple-output (MIMO) radars ( 1 ×4 and 4 ×4) built with them demonstrate vital-sign and gesture detections.

Topics & Concepts

RadarCMOSElectronic engineeringContinuous-wave radarElectrical engineeringComputer scienceEngineeringAcousticsTelecommunicationsPhysicsRadar imagingRadio Frequency Integrated Circuit DesignMicrowave Imaging and Scattering AnalysisFull-Duplex Wireless Communications
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