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Apparatus for sensing demodulating double-datum length low coherent optical fiber ring network

A ring network and low-coherence technology, applied in the field of dual reference length low-coherence ring network demodulation method and its sensing device, can solve the problems of difficulty in production, increase in volume, complexity and cost, etc.

Inactive Publication Date: 2008-12-17
HARBIN ENG UNIV
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Problems solved by technology

In order to achieve simultaneous demodulation of large and small scale sensors in an optical fiber sensing system, the current method is to replace it with an optical delay structure with a long optical path scanning length, which will increase the difficulty and volume of the system exponentially; if It is necessary to maintain the measurement accuracy, measurement stability, reliability and other technical indicators of large and small sensors at the same time, and to reduce the influence of environmental factors such as temperature and vibration on the optical path scanning mechanism, which will lead to a geometric increase in the complexity and cost of the system

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  • Apparatus for sensing demodulating double-datum length low coherent optical fiber ring network
  • Apparatus for sensing demodulating double-datum length low coherent optical fiber ring network
  • Apparatus for sensing demodulating double-datum length low coherent optical fiber ring network

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Embodiment Construction

[0057] The present invention is described in more detail below in conjunction with accompanying drawing example:

[0058] figure 1 Specific embodiments of the invention are given. The low-coherence optical fiber ring network with double reference length includes wide-spectrum light source 1, photodetector 2, optical fiber 4×4 coupler 3, self-focusing lens group 401, 402, plane mirror group 501, 502, single-mode optical fiber 6, optical fiber The ring network 7, wherein the optical fiber ring network is formed by a plurality of optical fiber sensors 801, 802 connected in series. The number of fiber optic sensors 801 with an average length of 200mm is taken as 5, each length differs by 10mm, and they are connected in series end to end; the number of fiber optic sensors 802 with an average length of 200mm is also taken as 5, each length differs by 10mm, and they are also connected end to end They are connected in series; the optical reflectivity of the end face of the sensor i...

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Abstract

The invention provides a double reference length low coherent optical fiber ring network sense demodulating equipment, comprising a wide spectrum optical source, a photo detector, an optical fiber 4*4 coupler, a self-focusing lens, a pyramid plane reflector groups, a monomode fiber, an optical fiber ring network composed a plurality of optical fiber sensors with different lengths in series; the wide spectrum optical source and the photo detector are connected with the two optical fiber input ends of the optical fiber 4*4 coupler, and the other two optical fiber input ends of which are respectively connected with the self-focusing lens, which the two optical fiber output ends of the optical fiber 4*4 couple are connected with the optical fiber ring network through the monomode fiber, and the other two optical fiber output ends of which are respectively connected with the self-focusing lens. According to the invention, through the durable optical fiber ring chamber of the double reference optical path, the expansion of the optical path scanning range can be realized, and the multiplexing number of the sensors is added, which has simple structure, easy implement, high accuracy of measurement and low cost and the like.

Description

(1) Technical field [0001] The present invention relates to a measuring device, in particular to a method for demodulating a double reference length low-coherence ring network and a sensing device thereof (2) Background technology [0002] Fiber-optic interferometry systems using low-coherence light sources with broad spectra and very short coherence lengths are known as fiber-optic white-light interferometers. As a branch of interference technology, fiber optic white light interferometer is insensitive to electromagnetic interference, has high frequency response and strong environmental adaptability. The white light interference signal has a good contrast, and the optical fiber white light interference has a wide range of applications in high-precision positioning. The optical fiber in the interferometer is very thin, which has little effect on the strength of the matrix material, and can be easily embedded in the structural material. It is one of the sensors with a smart ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04B10/08H04B10/12H04B10/25
Inventor 苑立波杨军刘艳磊
Owner HARBIN ENG UNIV
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