Spectrometer based on fiber grating time domain reflection technology
A fiber grating and time-domain reflectometry technology, which is applied in the field of spectrometers and fiber grating spectrometers, can solve the problems of large instrument volume, high cost, and inability to select high-precision measurement intervals individually, so as to control instrument volume and cost and improve Measurement accuracy, simple structure, reasonable and feasible effect
Inactive Publication Date: 2013-04-24
SHANDONG UNIV
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Problems solved by technology
Due to the requirements of the optical path in the design, the volume of the instrument is large and the cost is high. At the same time, the high-precision measurement range cannot be selected individually during the design. For example, the DF-100E direct reading spectrometer produced by Yantai Dongfang Analytical Instrument Co., Ltd. belongs to this category.
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Embodiment 1
[0018] Embodiment 1 of the present invention such as figure 1 As shown, a spectrometer based on fiber grating time domain reflectometry technology includes a light source to be measured 1, an optical modulator 2, a 2×2 fiber coupler 3, a fiber grating group 5, a photodetector 9, and a signal shaping and amplifying circuit 10 , data acquisition and processing device 11, it is characterized in that light modulator 2 is positioned at the back of light source 1 to be measured, and the back of light modulator 2 is connected through optical fiber and an input end of 2*2 fiber optic coupler 3; 2*2 fiber optic coupling One output end of the device 3 is connected to the photodetector 9 through the optical fiber 8, and the other output end is connected to the fiber grating group 5 through the optical fiber 4; the other input end of the 2×2 fiber coupler 3 is connected to the photoelectric detector through the optical fiber 7. On the detector 4, the output end of the photodetector 9 is c...
Embodiment 2
[0023] Same as Embodiment 1, except that the data collection and processing device 11 is a computer.
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The invention provides a spectrometer based on a fiber grating time domain reflection technology, and belongs to the technical field of a fiber grating spectrometer. The spectrometer comprises a light source to be detected, an optical modulator, a data collecting and processing unit and the like; the spectrometer is characterized in that: the optical modulator is located behind the light source to be detected and the back side of the optical modulator is connected with one input end of a 2*2 optical fiber coupler through optical fibers; one output end of the 2*2 optical fiber coupler is connected with a fiber grating group through optical fibers and the other output end of the 2*2 optical fiber coupler is connected with a photoelectric detector through optical fibers; the other input end of the 2*2 optical fiber coupler is connected with the photoelectric detector through optical fibers; the output end of the photoelectric detector is connected with a signal reforming and amplifying circuit and the output end of the signal reforming and amplifying circuit is connected with an interface of the data collecting and processing unit; and electric signals which are sent out by the photoelectric detector are reformed and amplified and then are transmitted to the data collecting and processing unit to carry out signal processing. The spectrometer provided by the invention has the characteristics of simple and rational structure, small volume and low cost.
Description
technical field [0001] The invention relates to a spectrometer based on fiber grating time domain reflection technology, belonging to the technical field of fiber grating spectrometers. Background technique [0002] Spectral detection is widely used in laboratory and practical production applications. At present, the known spectrometers are composed of prisms or diffraction gratings, combined with photodetectors and other components. The grating spectrometer commonly used at present uses the dispersion effect of a prism or a diffraction grating to separate the spectral lines of different wavelengths from each other in position and irradiate the photodetector to obtain the spectrum of the incident light. Can have a wide spectral range. Due to the requirements of the optical path in the design, the volume of the instrument is large and the cost is high. At the same time, the high-precision measurement range cannot be selected individually during the design. For example, the ...
Claims
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IPC IPC(8): G01J3/28G01J3/18
Inventor 孙兆宗黄越刘永宁常军王照勇
Owner SHANDONG UNIV