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A MEMS-CMOS Microsystem for Contact-Less Temperature Measurements

Elisabetta Moisello, Michele Vaiana, Maria Eloisa Castagna, Giuseppe Bruno, Igor Brouk, Y. Nemirovsky, P. Malcovati, Edoardo Bonizzoni

2021IEEE Transactions on Circuits and Systems I Regular Papers12 citationsDOI

Abstract

This paper presents a microsystem suitable for contact-less human body temperature measurements, as well as for presence, motion and proximity detection. It consists of a 130-nm CMOS-SOI MEMS (Micro-Electro Mechanical System) thermal sensor, referred to as &#x201C;TMOS&#x201D;, and its 130-nm CMOS interface circuit. The TMOS, based on a micromachined transistor, being an active device, features advantages in terms of internal gain: with optimal biasing, indeed, the TMOS achieves 274-<inline-formula> <tex-math notation="LaTeX">$\mu \text{V}/^\circ \text{C}$ </tex-math></inline-formula> input-referred sensitivity at 3-cm distance and 50.33&#x00B0; field-of-view (FOV), outperforming thermopile detectors. The sensor and the interface circuit, featuring a chopper-stabilized-based analog readout with a 12-bit SAR ADC (Successive Approximation Register Analog-to-Digital Converter), were mounted in the same package and extensively measured: the microsystem achieves repeatability and &#x00B1;0.17&#x00B0;C precision, thus satisfying the requirements for contact-less human body temperature measurements; furthermore, its performance as presence, motion and proximity detector was also verified.

Topics & Concepts

MicrosystemCMOSDetectorThermopileChopperMicroelectromechanical systemsBiasingElectronic engineeringMaterials sciencePMOS logicElectrical engineeringOptoelectronicsPhysicsTransistorEngineeringVoltageOpticsNanotechnologyInfraredAdvanced MEMS and NEMS TechnologiesCCD and CMOS Imaging SensorsMechanical and Optical Resonators
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