Title :
Flexural beam-based fiber Bragg grating accelerometers
Author :
Todd, M.D. ; Johnson, G.A. ; Althouse, B.A. ; Vohra, S.T.
Author_Institution :
Div. of Opt. Sci., Naval Res. Lab., Washington, DC, USA
Abstract :
A flexural beam is utilized as the primary transduction mechanism for demonstrating a series of fiber Bragg grating (FBG) accelerometers. The fully packaged FBG accelerometers reported in this work have many desirable features including good acceleration sensitivity (212.5 μ/spl epsiv//g), high resonant frequencies (on the order of 1 kHz), very low cross-axis sensitivity (<1% of the primary axial responsivity), and low noise (/spl sim/1 mg//spl radic/(Hz) near 1 Hz). Arrays of such devices can be utilized in a variety of applications, including structural monitoring. Closed-form analytical formulas describing the resonant frequency and responsivity of the FBG accelerometer are provided which may be utilized to tailor the sensor performance to specific applications.
Keywords :
acceleration measurement; accelerometers; diffraction gratings; fibre optic sensors; optical design techniques; FBG accelerometer; closed-form analytical formulas; flexural beam-based fiber Bragg grating accelerometers; fully packaged FBG accelerometers; good acceleration sensitivity; high resonant frequencies; low noise; primary axial responsivity; primary transduction mechanism; resonant frequency; responsivity; sensor performance; structural monitoring; very low cross-axis sensitivity; Acceleration; Accelerometers; Bragg gratings; Capacitive sensors; Fiber gratings; Packaging; Resonant frequency; Sensor phenomena and characterization; Strain measurement; Transducers;
Journal_Title :
Photonics Technology Letters, IEEE
