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Uncertainty evaluation device and method of indirect full-optical path spectrum detection system

A detection system and spectral detection technology, applied in the direction of measurement devices, force/torque/work measurement instrument calibration/test, instruments, etc., can solve the measurement error and uncertainty evaluation results affecting the detection system, and cannot truly reflect the detection System measurement accuracy, high requirements for calibration devices, etc.

Active Publication Date: 2016-07-20
GENERAL ENG RES INST CHINA ACAD OF ENG PHYSICS
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Problems solved by technology

However, for the micro-structure probe of the optical fiber sensing unit, the whole system detection method has high requirements on the calibration device, and the calibration error of the calibration device will become the largest source of error, seriously affecting the measurement error of the detection system And uncertainty evaluation results, this error is caused by the calibration device and cannot truly reflect the measurement accuracy of the detection system, so the detection method of the whole system (including the pressure sensing unit) is not suitable for the optical fiber pressure detection system Evaluation of Measurement Accuracy

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  • Uncertainty evaluation device and method of indirect full-optical path spectrum detection system

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Embodiment Construction

[0074] The present invention will be further described below:

[0075] Such as figure 1 As shown, since the grating sensor 2 and the optical fiber pressure sensing unit also use the principle of wavelength modulation to demodulate the measured signal, the optical fiber pressure detection system 3 can still form a complete optical path after being connected to the grating, and the grating and the optical fiber pressure sensor are connected to the detection system The final optical transmission path is the same, and both of them reflect the real situation of the external signal by detecting the wavelength offset. The only difference is that the measured physical quantity is different, so the optical fiber grating sensor 2 can be used instead of the optical fiber pressure sensor to connect to the detection system It constitutes the optical path of the whole system.

[0076] The grating sensor 2 is only sensitive to strain and temperature. When the grating sensor 2 is in a state ...

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Abstract

The invention discloses an uncertainty evaluation device and method of an indirect full-optical path spectrum detection system. The uncertainty evaluation device includes a constant temperature oil tank, an optical fiber pressure detection system, a computer, a high-precision platinum resistor and a grating sensor. The evaluation method comprises the following steps that: test data are obtained; a measurement model is established; the uncertainty of the work straight line of the grating sensor is evaluated; and the uncertainty of the optical fiber pressure detection system is evaluated. According to the uncertainty evaluation device and method of the indirect full-optical path spectrum detection system of the invention, the grating sensor is adopted; uncertainty evaluation is performed on the measurement accuracy of picometer-level wavelength shift quantity of a non-removable wavelength modulation type optical fiber pressure detection system through adopting an indirect method; an uncertainty analysis experimental system is designed and constructed; system error sources are analyzed; a theoretical measurement model and an uncertainty analysis method are established; and the uncertainty value of system measurement errors can be obtained.

Description

technical field [0001] The invention relates to the fields of measurement and uncertainty analysis, in particular to an uncertainty evaluation device and method for an indirect all-optical path spectrum detection system. Background technique [0002] The optical fiber sensing unit senses the change of the external physical quantity, and converts the external physical quantity information into a spectral signal through the optical path. The computer supporting measurement software can finally automatically obtain the external physical quantity change information by analyzing the spectral signal. The integration of light source, optical path and spectrum analyzer (or photoelectric conversion module) is called an all-optical path spectral detection system, which is combined with a computer and test software to realize the collection and analysis of the spectral signal transmitted by the optical fiber sensing unit. The all-optical path spectrum detection system is generally not ...

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Application Information

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IPC IPC(8): G01L25/00
CPCG01L25/00
Inventor 庄志张毅黎启胜李明海胡绍全李翀
Owner GENERAL ENG RES INST CHINA ACAD OF ENG PHYSICS
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