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Accurate Interface Schemes for Resistance Thermometers With Lead Resistance Compensation

Thomaskutty Mathew, K Elangovan, C. S. Anoop

2023IEEE Transactions on Instrumentation and Measurement18 citationsDOI

Abstract

Simple low-cost interfacing circuits for resistance thermometers are proposed in this paper. The proposed circuits are designed to provide many salient features, including simplicity of architecture, lead-wire compensation, constant-current excitation, and requirement of minimal number of analog-to-digital converters for digitization. The first of the proposed circuits uses a twin-Op-amp signal conditioner for three-wire sensor. This circuit is then modified to act as an efficient front-end for four-wire resistance thermometer, and thus negate the effect of lead-wire mismatches. The performance of the proposed circuits is extensively verified using experimental studies. Results show that the nonlinearity and relative error of the developed circuits is less than 0.05% and 0.32%, respectively, when tested with Pt1000 sensor. Finally, a comparison study is performed to show the superiority of the proposed techniques.

Topics & Concepts

InterfacingElectronic circuitCompensation (psychology)Electronic engineeringResistance thermometerWheatstone bridgeConvertersComputer scienceElectrical engineeringEngineeringVoltageResistorTemperature measurementComputer hardwarePsychologyPhysicsQuantum mechanicsPsychoanalysisSensor Technology and Measurement SystemsAdvanced Sensor Technologies ResearchMagnetic Field Sensors Techniques
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