Litcius/Paper detail

Performance Verification of a Digital Interface Suitable for a Broad Class of Resistive Sensors

K Elangovan, Sagnik Dutta, Ashikhi Antony, C. S. Anoop

2020IEEE Sensors Journal26 citationsDOI

Abstract

An improved digital interface circuit for resistive sensors is proposed in this paper. The circuit offers many positive features, such as (1) use of single-reference voltage in its architecture, (2) facility to tune/preset the sensor-excitation current, even for different values of resistive sensors, (3) minimal dependence on many circuit non-ideal parameters. The working of the circuit is mathematically described in this paper, followed by its extensive error evaluation. Detailed simulation and experimental studies are performed to verify the feasibility of the interface for three different types of sensors. These studies show that the circuit can efficiently be used in temperature-monitors, magnetometers, and displacement-sensing. The maximum experimental nonlinearity observed from all of these sensor configurations does not exceed 0.06 %. Then, the extensive studies are carried out by simulation as well as experimentation to show the effect of environmental temperature changes on the proposed circuit. Finally, the proposed circuit is compared with some of the recent resistive digital interfaces.

Topics & Concepts

Resistive touchscreenElectronic engineeringComputer scienceInterface (matter)VoltageElectrical engineeringElectrical elementDigital electronicsDigital sensorsNonlinear systemElectronic circuitEngineeringPhysicsMaximum bubble pressure methodQuantum mechanicsParallel computingBubbleSensor Technology and Measurement SystemsAdvanced Sensor Technologies ResearchAnalytical Chemistry and Sensors