A method and device for measuring the absolute value of temperature

A measurement method and a technology of a measurement device, which are applied in the direction of measurement devices, heat measurement, thermometers, etc., can solve the problems of long polarization-maintaining optical fiber rings, limited temperature measurement range, and high cost, and achieve simple interference structure, high measurement accuracy, and high measurement range. big effect

Inactive Publication Date: 2018-05-01
ANHUI UNIVERSITY
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Problems solved by technology

This method has the following disadvantages: (1) The traditional SAGNAC interferometer phase demodulation method is used for demodulation. Although this method can detect the variation of the phase difference, it cannot detect the absolute value of the phase difference, so it can only establish the phase difference The relationship between the amount of change and the amount of temperature change, so only the amount of change in temperature can be measured
(2) A long polarization-maintaining optical fiber ring is required (100-500m mentioned in the embodiment), and the cost is relatively high. The equivalent closed area surrounded by the optical fiber ring during winding is zero, and the production is difficult
This method has the following disadvantages: (1) Using the extreme wavelength detection method, the selection of the extreme wavelength is random at the initial temperature, and the interference series of different extreme wavelengths are different, so the expression The coefficient of the coefficient will also change. For each measurement, you need to select the extreme wavelength at the known calibration temperature, and then measure the temperature change through the change of the extreme wavelength. It is impossible to directly measure the absolute value of the unknown temperature value.
(2) The extremum wavelength cannot be changed arbitrarily (the coefficients corresponding to different extremum wavelengths are different), so the measurement range of this method is limited by the spectral width of the light source. When the selected extremum wavelength exceeds the spectral width of the light source, it cannot continue to monitor , which limits the temperature measurement range

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  • A method and device for measuring the absolute value of temperature

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Embodiment Construction

[0029] combine figure 1 , which describes a specific embodiment of the present invention in detail, but does not limit the claims of the present invention in any way.

[0030] Such as figure 1As shown, a temperature absolute value measurement device includes a light source 1, an interferometer 2 and a spectrometer 3 that use the fast axis and slow axis of the high birefringence fiber 4 to form the phase difference of the interference optical path, and the high birefringence fiber 4 is used as a temperature sensing probe , the input end of the interferometer 2 is connected to the light source 1 , and the output end is connected to the spectrometer 3 .

[0031] Wherein the interferometer 2 adopts a Sagnac ring structure, and the Sagnac ring structure includes a high birefringence fiber 4, a coupler 5, a first single-mode fiber 6 and a second single-mode fiber 7, the port A of the coupler 5 is connected to the light source 1, and the port B Connected to the spectrometer 3, the ...

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Abstract

The invention relates to the technical field of optical fiber temperature sensing, in particular to a temperature absolute value measurement method and a measurement device. The existing optical fiber interference type temperature sensor cannot measure the absolute value of temperature, and the temperature measurement range is narrow. In view of the above problems, the present invention discloses a method for measuring the absolute value of temperature, using the relationship between the birefringence and length of the high birefringence optical fiber and the external temperature to establish a relational expression where T represents the external temperature, a and b represent undetermined coefficients, and represent a reference The phase difference generated when the wavelength λ0 passes through the fast axis and the slow axis of the high birefringence fiber and B represents the birefringence of the high birefringence fiber, L represents the length of the high birefringence fiber, λN represents any extreme wavelength, and N represents any The interference series corresponding to the extreme wavelength λN, when making the device or before the first measurement, obtain the interference spectrum at different temperatures, calibrate a and b, and obtain the interference spectrum in any wavelength range during actual measurement, using the formula The absolute value of the temperature to be measured can be calculated.

Description

technical field [0001] The invention relates to the technical field of optical fiber temperature sensing, in particular to a large-range temperature absolute value measurement method and a measurement device. Background technique [0002] Optical fiber temperature sensing is an important development direction in the field of sensing. It has a very wide range of applications and has unique advantages in high electromagnetic fields, high corrosion, flammable, explosive and other areas. From the perspective of temperature sensing principle, fiber optic temperature sensors include fiber grating type, fiber intensity type and fiber interference type, etc. Among them, the temperature sensitivity of fiber optic interference temperature sensor based on the principle of interference between high birefringence fiber orthogonal polarization modes can reach 1nm / °C, much higher than the fiber grating type temperature sensor, showing a very broad application prospect. [0003] The inven...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01K11/32
CPCG01K11/32
Inventor 朱军俞本立汪辉吕亮徐峰胡姗姗
Owner ANHUI UNIVERSITY
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