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Design, simulation, and testing of a tunable MEMS multi-threshold inertial switch

Qiu Xu, Rodrigo Tumolin Rocha, Yousef Algoos, Éric Féron, Mohammad I. Younis

2024Microsystems & Nanoengineering13 citationsDOIOpen Access PDF

Abstract

This paper presents a tunable multi-threshold micro-electromechanical inertial switch with adjustable threshold capability. The demonstrated device combines the advantages of accelerometers in providing quantitative acceleration measurements and g-threshold switches in saving power when in the inactive state upon experiencing acceleration below the thresholds. The designed proof-of-concept device with two thresholds consists of a cantilever microbeam and two stationary electrodes placed at different positions in the sensing direction. The adjustable threshold capability and the effect of the shock duration on the threshold acceleration are analytically investigated using a nonlinear beam model. Results are shown for the relationships among the applied bias voltage, the duration of shock impact, and the tunable threshold. The fabricated prototypes are tested using a shock-table system. The analytical results agree with the experimental results. The designed device concept is very promising for the classification of the shock and impact loads in transportation and healthcare applications.

Topics & Concepts

AccelerationAccelerometerShock (circulatory)Microelectromechanical systemsCantileverMicrobeamPower (physics)Inertial measurement unitThreshold voltageMaterials scienceElectric shockVoltageComputer scienceElectronic engineeringAcousticsElectrical engineeringEngineeringOptoelectronicsOpticsPhysicsTransistorClassical mechanicsMedicineQuantum mechanicsOperating systemInternal medicineComposite materialComputer visionAdvanced MEMS and NEMS TechnologiesMechanical and Optical ResonatorsGeophysics and Sensor Technology