All Fiber Distributed Vibration Sensing Using Modulated Time-Difference Pulses
Photonics Technology Letters, IEEE(2013)
摘要
An optical fiber distributed sensing system merging Mach-Zehnder interferometer (MZI) and phase-sensitive optical time domain reflectometer for vibration measurement with wide frequency response and spatial resolution is proposed and demonstrated. Two acoustic optical modulators are adopted to generate narrow and wide pulses, respectively, on both ends of sensing fiber with a time difference. Narrow pulses are used to generate Rayleigh backscattering light, which locates the vibration point, while wide pulses interfere with reference light as an MZI to obtain frequency response. To simulate the high frequency responses of crack in civil structures, the sudden break of pencils adjacent to the fiber loop has been measured. The experimental results show 5 m spatial resolution and up to 6.3 MHz frequency response with 50 ns pulse width are achieved in 1150 m sensing distance.
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关键词
Distributed optical fiber sensing,distributed optical fiber sensing,vibration measurement,crack,cracks,pencils,frequency response,fibre optic sensors,phase-sensitive otdr,acousto-optical modulation,spatial resolution,reflectometers,all fiber distributed vibration sensing,modulated time-difference pulses,phase-sensitive optical time domain reflectometer,phase-sensitive OTDR,fiber loop,time 50 ns,civil structures,pulse width,Rayleigh backscattering light,MZI,Mach-Zehnder interferometer,optical time-domain reflectometry,distance 1150 m,optical pulse generation,pulse generation,Mach-Zehnder interferometers,acoustic optical modulators,optical fiber distributed sensing system,interferometric sensors,sensing distance,distributed sensors,Rayleigh scattering
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