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Ultrasond-Induced Haptic Sensations Via PMUTS

Sedat Pala, Zhichun Shao, Yande Peng, Liwei Lin

202118 citationsDOI

Abstract

This work presents the sense of touch via non-contact ultrasonic waves by a dual-electrode bimorph piezoelectric micromachined transducer (pMUT) array. The prototype device has 12×12 elements with circular diaphragms of 415μm in radius made of 2 μm-thick AlN. They are fabricated by a CMOS compatible micromachining process resulting a resonant frequency at 109.4 kHz. Experimentally, a best haptic sensation on human fingers is found when emitting high frequency ultrasonic waves to emulate 100 Hz signals by means of pulse width modulation with a 50% duty cycle. Strong haptic sensations are reported by volunteers under an AC peak-to-peak amplitude of 12 V up to 10 cm away from the transducers. Applications as the human-machine interfaces in biomedical, gaming, and AR/VR are a few of the MEMS uses; we present results by transmitting a series of Morse codes remotely to the skins of volunteers.

Topics & Concepts

BimorphAcousticsUltrasonic sensorMaterials scienceHaptic technologySurface micromachiningTransducerDuty cycleMicroelectromechanical systemsFrequency modulationPiezoelectricityComputer scienceVoltageOptoelectronicsElectrical engineeringRadio frequencyEngineeringPhysicsSimulationFabricationTelecommunicationsMedicineAlternative medicinePathologyTactile and Sensory InteractionsAdvanced Sensor and Energy Harvesting MaterialsGaze Tracking and Assistive Technology
Ultrasond-Induced Haptic Sensations Via PMUTS | Litcius