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Fabrication and Evaluation of a Flexible MEMS-Based Microthermal Flow Sensor

Myoung-Ock Cho, Woo Jin Jang, Si‐Hyung Lim

2021Sensors18 citationsDOIOpen Access PDF

Abstract

Based on the results of computational fluid dynamics simulations, this study designed and fabricated a flexible thermal-type micro flow sensor comprising one microheater and two thermistors using a micro-electromechanical system (MEMS) process on a flexible polyimide film. The thermistors were connected to a Wheatstone bridge circuit, and the resistance difference between the thermistors resulting from the generation of a flow was converted into an output voltage signal using LabVIEW software. A mini tube flow test was conducted to demonstrate the sensor's detection of fluid velocity in gas and liquid flows. A good correlation was found between the experimental results and the simulation data. However, the results for the gas and liquid flows differed in that for gas, the output voltage increased with the fluid's velocity and decreased against the liquid's flow velocity. This study's MEMS-based flexible microthermal flow sensor achieved a resolution of 1.1 cm/s in a liquid flow and 0.64 cm/s in a gas flow, respectively, within a fluid flow velocity range of 0-40 cm/s. The sensor is suitable for many applications; however, with some adaptations to its electrical packaging, it will be particularly suitable for detecting biosignals in healthcare applications, including measuring respiration and body fluids.

Topics & Concepts

Microelectromechanical systemsFlow sensorFabricationComputer scienceFlow (mathematics)EngineeringNanotechnologySystems engineeringMaterials scienceAcousticsPhysicsMechanicsMedicinePathologyAlternative medicineAdvanced Sensor Technologies ResearchHeat Transfer and OptimizationRefrigeration and Air Conditioning Technologies
Fabrication and Evaluation of a Flexible MEMS-Based Microthermal Flow Sensor | Litcius