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A 174.7-dB FoM, 2<sup>nd</sup>-Order VCO-Based ExG-to-Digital Front-End Using a Multi-Phase Gated-Inverted-Ring Oscillator Quantizer

Corentin Pochet, Jiannan Huang, Patrick Mercier, Drew Hall

2021IEEE Transactions on Biomedical Circuits and Systems37 citationsDOI

Abstract

This paper presents a second-order voltage-controlled oscillator (VCO)-based front-end for the direct digitization of biopotential signals. This work addresses the non-linearity of VCO-based ADC architectures with a mismatch resilient, multi-phase quantizer, a gated-inverted-ring oscillator (GIRO), achieving >110-dB SFDR. Leveraging the time-domain encoding of the first integrator, the ADC's power is dynamically scaled with the input amplitude enabling up to 35% power savings in the absence of motion artifacts or interference. An auxiliary input-impedance booster increases the ADC's input impedance to 50 MΩ across the entire bandwidth. Fabricated in a 65-nm CMOS process, this ADC achieves 92.3-dB SNDR in a 1 kHz BW while consuming 5.8 µW for a 174.7 dB Schreier FoM.

Topics & Concepts

CMOSElectronic engineeringElectrical impedanceComputer scienceElectrical engineeringPower (physics)PhysicsBooster (rocketry)Encoding (memory)AmplitudeConvertersEngineeringOutput impedanceLocal oscillatorPower consumptionVoltageNoise shapingImpedance matchingDigitizationSuccessive approximation ADCFrequency modulationLow-power electronicsCapacitorMicrowaveElectronic oscillatorWork (physics)Topology (electrical circuits)Analog and Mixed-Signal Circuit DesignNeuroscience and Neural EngineeringAdvancements in PLL and VCO Technologies
A 174.7-dB FoM, 2<sup>nd</sup>-Order VCO-Based ExG-to-Digital Front-End Using a Multi-Phase Gated-Inverted-Ring Oscillator Quantizer | Litcius