Title :
Silicon Carbide-Based Remote Wireless Optical Pressure Sensor
Author :
Riza, Nabeel A. ; Ghauri, Farzan ; Perez, Frank
Author_Institution :
Nuonics, Inc, Winter Park, FL
fDate :
4/1/2007 12:00:00 AM
Abstract :
Proposed is a silicon carbide (SiC) weak-lensing-effect-based wireless optical sensor that allows safe, repeatable, and accurate pressure measurement suitable for harsh environments. This completely passive front-end sensor design uses a remoted free-space optical beam that targets a single crystal SiC chip fitted as an optical window within a pressure capsule. With increasing differential capsule pressure, the SiC chip forms a weak convex mirror with a changing focal length. By monitoring the chip reflected light beam magnification, pressure in the capsule is determined. Using a 633-nm wavelength laser beam, the proposed sensor is experimentally tested at room temperature for 0- to 600-psi (0-41atm) differential pressures and a remoting distance of 2.5 m
Keywords :
integrated optics; light reflection; mirrors; optical sensors; pressure measurement; pressure sensors; remote sensing by laser beam; silicon compounds; wide band gap semiconductors; 0 to 41 atm; 0 to 600 psi; 2.5 m; 293 to 298 K; 633 nm; SiC; differential capsule pressure; free-space optical beam; laser beam; optical sensor; passive front-end sensor design; pressure measurement; pressure sensor; reflected light beam magnification; remote optical beam; remote sensor; room temperature testing; silicon carbide-based sensor; single crystal SiC chip; weak convex mirror; weak lensing effect; wireless sensor; Laser beams; Mirrors; Optical beams; Optical design; Optical sensors; Pressure measurement; Remote monitoring; Silicon carbide; Temperature sensors; Wireless sensor networks; Optical sensors; pressure sensors;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2007.893752
