Self-Mixing-Based Demodulation Technique for Dynamic Fiber Bragg Grating Strain Sensors

Author

Seat, H.C. ; Wang, Y. ; Bosch, T. ; Hu, W. ; Chen, X. ; Zhang, L.

Author_Institution

Lab. d´´Electronique, INPT-ENSEEIHT, Toulouse

fYear

2006

fDate

24-27 April 2006

Firstpage

2060

Lastpage

2065

Abstract

We report a novel demodulation scheme for the detection of small Bragg wavelength shifts in a fiber Bragg grating strain sensor by exploiting the optical feedback reflected from the grating structure back into a 1310 nm laser diode integrating a photodiode. The dynamic strain generated by a mechanical vibrator is applied transversely to the fiber Bragg grating and the desired longitudinal strain values inferred from the detected sawtooth-like optical feedback signals. Preliminary results demonstrate the feasibility of this demodulation technique for strain measurement which could be further extended to fiber Bragg grating-based sensors for the detection of different measurands in general

Keywords

Bragg gratings; demodulation; fibre optic sensors; optical fibres; photodiodes; semiconductor lasers; strain measurement; 1310 nm; Bragg wavelength shifts; dynamic fiber Bragg grating strain sensors; dynamic strain measurement; grating structure; laser diode; mechanical vibrator; optical feedback interferometry; photodiode; sawtooth-like optical feedback signals; self-mixing-based demodulation technique; Bragg gratings; Capacitive sensors; Demodulation; Diode lasers; Fiber gratings; Mechanical sensors; Optical feedback; Optical fiber sensors; Optical sensors; Strain measurement; Fiber Bragg grating sensor; dynamic strain measurement; optical feedback interferometry; self-mixing;

fLanguage

English

Publisher

ieee

Conference_Titel

Instrumentation and Measurement Technology Conference, 2006. IMTC 2006. Proceedings of the IEEE

Conference_Location

Sorrento

ISSN

1091-5281

Print_ISBN

0-7803-9359-7

Electronic_ISBN

1091-5281

Type

conf

DOI

10.1109/IMTC.2006.328456

Filename

4124719