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A 0.2-V 30-MS/s 11b-ENOB Open-Loop VCO-Based ADC in 28-nm CMOS | IEEE Journals & Magazine | IEEE Xplore

A 0.2-V 30-MS/s 11b-ENOB Open-Loop VCO-Based ADC in 28-nm CMOS


Abstract:

We present a 0.2-V open-loop voltage-controlled oscillator (VCO)-based analog-to-digital converter (ADC) intended for IoT wireless sensor nodes. A resistor-based frequenc...Show More

Abstract:

We present a 0.2-V open-loop voltage-controlled oscillator (VCO)-based analog-to-digital converter (ADC) intended for IoT wireless sensor nodes. A resistor-based frequency-tuning scheme helps in mitigating odd-order harmonic distortion induced by the VCO nonlinear transfer characteristic. It also provides a reconfigurable input range, allowing it to exceed the supply by 2.5× (single-ended), and maintaining tolerance against ±10% supply variations. Latch, Hip-Hops, and logic gates within the frequency-to-digital converter are designed for minimum propagation delays, allowing sampling at 30 MS/s. The ADC is implemented in 28-nm CMOS and achieves a peak SNDR of 68 dB, equivalent to an ENOB of 11, over a 61-kHz bandwidth with a 1-Vpp input differential sinewave. It consumes 7 μW, resulting in a state-of-the-art Walden and Schreier FoM of 27.8 fJ/c-s and 167.4 dB, respectively.
Published in: IEEE Solid-State Circuits Letters ( Volume: 1, Issue: 9, September 2018)
Page(s): 190 - 193
Date of Publication: 21 March 2019
Electronic ISSN: 2573-9603

Funding Agency:


References

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