Finite Element Analysis for Design Optimization of MEMS Double Ended Tuning Fork Resonator

Abstract: A resonator design is very crucial for a resonant sensor since it affects the sensitivity, linearity, operational range, and resolution of the sensor. In this study, a DETF resonator is the object of analysis, to obtain a proper selection of boundary conditions and suitable structure for vibrational model. In order to achieve high Q values, proper vibrational mode selection is an important criterion for the operation of DETF resonator. This mode selection depends on the dimensional parameters, such as length, … Show more

“…55,56 Improvement of QTF design to enhance stability by designing double ended QTFs has been reported. 57 A typical QTF consists of two vibrating tines (prongs) connected at one end. 58 Each prong has a length of 3.73 mm and is 0.6 mm wide.…”

Review—Measurements of Ionizing Radiations Using Micromechanical Sensors

“…55,56 Improvement of QTF design to enhance stability by designing double ended QTFs has been reported. 57 A typical QTF consists of two vibrating tines (prongs) connected at one end. 58 Each prong has a length of 3.73 mm and is 0.6 mm wide.…”

Review—Measurements of Ionizing Radiations Using Micromechanical Sensors

Dimensional optimization and modelling of a novel double-ended-tuning-fork micro-resonator for high frequency applications

Study of MEMS DETF Resonator for Performance Evaluation Based on the Impact of TED