A 174 pW–488.3 nW 1 S/s–100 kS/s All-Dynamic Resistive Temperature Sensor With Speed/Resolution/Resistance Adaptability

Authors :: Pieter Harpe
Eugenio Cantatore
Peter Baltus
Haoming Xin
Martin Andraud
Integrated Circuits
Resource Efficient Electronics
Emerging Technologies
Center for Wireless Technology Eindhoven
Source :: IEEE Solid-State Circuits Letters, IEEE Solid-State Circuits Letters, 1(3):08340145, 70-73. Institute of Electrical and Electronics Engineers
Publication Year :: 2018
Abstract: A versatile resistive temperature sensor for Internet-of-Things is presented, based on an all-dynamic architecture. This allows efficient scaling of power with conversion rate, enables optional oversampling for an adaptable resolution, and provides efficient adaptability to different resistor values. A new double-sided measurement mode is proposed to compensate for offset, 1/f noise and nonidealities at system level. The sensor achieves a minimum power consumption of 174 pW at 1 S/s measurement rate, which scales up to 488.3 nW at 100 kS/s. It offers a nominal rms resolution of 0.61 °C and a resolution FoM as low as 1.82 pJ·°C2. ispartof: IEEE solid-state circuit letters vol:1 issue:3 pages:70-74 status: published

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