Raman related double-wavelength light source self-correction distributed optical fiber Raman temperature sensor

A distributed optical fiber, temperature sensor technology, applied in thermometers, thermometer testing/calibration, thermometers with physical/chemical changes, etc., can solve problems such as difficulty in artificial correction, randomness in bending and compression stretching size and position, etc. , to achieve the effect of overcoming the distortion

Inactive Publication Date: 2010-02-03
HANGZHOU TECH +1
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Problems solved by technology

[0004] However, when using temperature-measuring optical fibers and optical cables in the field, the losses caused by bending and compressive stretching of optical fibers and optical cables in various bands are different, and the size and position of bending and compressive stretching of optical fibers and optical cables are random, so it is difficult to artificially Calibration, need to adopt the method of self-calibration

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  • Raman related double-wavelength light source self-correction distributed optical fiber Raman temperature sensor
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  • Raman related double-wavelength light source self-correction distributed optical fiber Raman temperature sensor

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[0032] refer to figure 1, a Raman-correlated dual-wavelength light source self-correcting distributed fiber optic Raman temperature sensor, including a Raman-correlated dual-wavelength fiber pulse laser module composed of a drive power supply 11, an electronic switch 12, a main laser 13 and a secondary laser 14, and an integrated fiber optic wave Demultiplexer 15, two optical fiber photoelectric receiving and amplifying modules 16, 17, digital signal processor 18, display 19 and intrinsic temperature measuring fiber 20; main laser 13 and secondary in the Raman correlation dual-wavelength fiber pulse laser module The laser 14 is controlled by the electronic switch 12 to turn on the power alternately. The integrated optical fiber wavelength division multiplexer 15 has five ports, and two of the input ports are respectively connected to the output ports of the main laser 13 in the Raman-related dual-wavelength fiber pulse laser module. It is connected to the output end of the sub...

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Abstract

The invention discloses a Raman related double-wavelength light source self-correction distributed optical fiber Raman temperature sensor comprising a Raman related double-wavelength optical fiber pulse laser module, an integrated optical fiber wavelength division multiplexer, two optical fiber photoelectric receiving and amplifying modules, a digital signal processor, a display and intrinsic temperature measuring optical fiber, wherein the Raman related double-wavelength optical fiber pulse laser module comprises a driving power supply, an electronic switch, a main laser and a secondary laser. The Raman related double-wavelength light source self-correction distributed optical fiber Raman temperature sensor can correct random loss caused by bending or pressing and stretching temperature measuring optical fiber and optical cables which are used on site by self and overcomes temperature measuring errors caused by nonlinearity when an anti-stokes Raman signal channel is demodulated by astokes Raman reference path in a temperature measuring system. The Raman related double-wavelength light source self-correction distributed optical fiber Raman temperature sensor has low cost, simplestructure, good signal to noise ratio and high reliability and is suitable for monitoring online temperature in intermediate and short ranges of 100m-15km.

Description

technical field [0001] The invention relates to the technical field of optical fiber sensing, in particular to a distributed optical fiber Raman temperature sensor. Background technique [0002] In recent years, a distributed optical fiber Raman temperature sensor has been developed by using the effect of optical fiber Raman scattered light intensity modulated by temperature and the principle of optical time domain reflectance (OTDR), which can predict the temperature and the orientation of temperature changes on-site in real time, and monitor on-site It is an intrinsically safe linear temperature-sensing detector, which has been successfully applied in the fields of electric power industry, petrochemical enterprises, large-scale civil engineering and online disaster monitoring. [0003] Since the optical fiber loss in each band is different, that is, there is a spectral effect in the optical fiber loss, anti-Stokes Raman scattering light is used as the measurement temperatu...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01K11/32G01K15/00G01K11/324
Inventor 张在宣
Owner HANGZHOU TECH
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