A combined MEMS thermal vacuum sensor with a wide pressure range

Abstract: MEMS thermal vacuum sensors have been widely applied in many academic and industry fields, and pressure range is a key performance of MEMS thermal vacuum sensors. To extend the pressure range, a combined MEMS thermal vacuum sensor that consists of two diode-type MEMS thermal vacuum sensors in series is proposed in this work. The two diode-type sensors are designed to have different areas of sensitive region and distances between sensitive region and heat sink, and their responses to the pressure are from 3.0 ×… Show more

“…In the future, the design and manufacturing of wearable fiber optic sensors must balance performance with cost-effectiveness. Advancements and innovations in technology will likely make future fiber optic sensors more efficient and cost-effective, expanding their use in clinical and rehabilitation fields [ 116 , 117 , 118 , 119 , 120 ].…”

A Review of Wearable Optical Fiber Sensors for Rehabilitation Monitoring

“…In the future, the design and manufacturing of wearable fiber optic sensors must balance performance with cost-effectiveness. Advancements and innovations in technology will likely make future fiber optic sensors more efficient and cost-effective, expanding their use in clinical and rehabilitation fields [ 116 , 117 , 118 , 119 , 120 ].…”

A Review of Wearable Optical Fiber Sensors for Rehabilitation Monitoring

Experimental and numerical study of MEMS electrothermal actuators: Comparing dynamic behavior and heat transfer process in vacuum and non-vacuum environments

Efficient and Accurate System-Level Simulation Compatible Macromodel for MEMS Diode-Based Micro-Pirani Vacuum Sensor