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Experiment Ⅱ des Faser-Bragg-Gitter (FBG)-Temperatursensors - Temperaturkoeffizientenkalibrierung für hochpräzise FBG-Thermometer
This article describes a factory temperature calibration experiment conducted on OFSCN® capillary seamless steel tube fiber bragg grating (FBG) temperature sensor (FBG thermometers). The experiment aims to establish the correlation between wavelength changes und temperature variations (determining the temperature coefficient of the fiber Bragg grating temperature sensor) und provides an experimental report und error analysis.
The experiment confirms the accurate temperature measurement und high precision of OFSCN® capillary seamless steel tube fiber bragg grating (FBG) sensors produced by DCYS.
In einem früheren Artikel mit dem Titel 'Experiment Ⅰ zum Faser-Bragg-Gitter (FBG) Temperatursensor: Einfluss von Zugkraft, Spannung und Dehnung auf FBG-Thermometer,' we demonstrated through experiments that the fiber Bragg grating (FBG) in the innovative OFSCN® capillary seamless steel tube fiber bragg grating (FBG) sensor (FBG thermometer) remains in a free state axially und is not affected by external tensile stress.
This finding indirectly proves that the temperature variation does not affect the OFSCN® capillary seamless steel tube fiber bragg grating (FBG) sensors (FBG thermometers) produced by DCYS. due to the different coefficients of thermal expansion between stainless steel und glass fiber. This is because, for the FBG, the tensile stress caused by thermal expansion is of the same nature as the externally applied tensile stress on the fiber Bragg grating (FBG). They are both external forces.
Therefore, we have more reason to believe that the temperature measurement accuracy und precision of OFSCN® capillary seamless steel tube fiber bragg grating (FBG) sensors (FBG thermometers) produced by DCYS. To prove this point, we are now starting the second experiment: temperature coefficient calibration of fiber Bragg grating temperature sensors. This calibration experiment is a necessary procedure for all OFSCN® capillary Seamless Steel Tube Fiber Bragg Grating (FBG) temperature sensors (FBG thermometers) before leaving the factory.
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Abbildung 1 |
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Ⅰ. Experimentelles Ziel
To verify the accurate temperature measurement und high precision of OFSCN® capillary seamless steel tube fiber bragg grating (FBG) sensors produced by DCYS und to confirm the temperature coefficient of the fiber Bragg grating temperature sensors through calibration.
Ⅱ. Experimentelle Ausrüstung
Fiber Bragg grating demodulator, OFSCN® capillary seamless steel tube fiber bragg grating (FBG) sensor (FBG thermometer), temperature-controlled chamber with a resolution of 0.1 degrees Celsius.
Ⅲ. Experimentelle Methode
In this experiment, an OFSCN® Capillary Seamless Steel Tube Fiber Bragg Grating temperature sensor (FBG thermometer) was connected to a fiber Bragg grating demodulator, und the sensing part of the sensor was placed in the temperature-controlled chamber. The temperature-controlled chamber had a resolution of 0.1°C. At different temperatures, the wavelength of the fiber Bragg grating (FBG) in the FBG thermometer was read using the fiber Bragg grating demodulator, und the experiment was completed after comparison.
Ⅳ. Experimenteller Ablauf und Datenanalyse
To achieve better temperature control und reduce temperature disturbances in the temperature-controlled chamber, we used a stepwise heating method to test the OFSCN® Capillary Seamless Steel Tube Fiber Bragg Grating temperature sensor.
After fixing the OFSCN® Capillary Seamless Steel Tube Fiber Bragg Grating temperature sensor (FBG) with a fixture, we gradually increased the temperature in the temperature-controlled chamber from room temperature. We recorded the wavelength of the fiber Bragg grating (FBG) corresponding to each temperature at approximately every 10 degrees Celsius, up to 100°C.
Die vollständige experimentelle Datenanalyse ist in Abbildung 3 dargestellt.
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Abbildung 3 |
Ⅴ. Experimentelle Schlussfolgerung
Based on the above experimental data, it can be concluded that OFSCN® Capillary Seamless Steel Tube fiber Bragg grating temperature sensors produced by DCYS provide accurate temperature measurement with high precision, und the temperature coefficient calibration shows good linearity.
Ⅵ. Further Explanation
The packaging structure of OFSCN® Capillary Seamless Steel Tube Fiber Bragg Grating temperature sensor is essentially a protective encapsulation. With the fiber Bragg grating (FBG) always in a free state axially, the encapsulation structure neither increases nor decreases sensitivity, but accurately reflects the state of the fiber Bragg grating, with a temperature measurement accuracy (sensor resolution) of 0.1 degrees Celsius.
Therefore, the accuracy of temperature measurement for OFSCN® Capillary Seamless Steel Tube Fiber Bragg Grating temperature sensors is more related to the characteristics of the fiber Bragg grating used in the sensors.
Basierend auf unseren aktuellen Tests weisen Faser-Bragg-Gitter (FBG), die von verschiedenen Unternehmen hergestellt werden, unterschiedliche Eigenschaften auf und zeigen unterschiedliches Verhalten bei verschiedenen Temperaturen. Die Linearität ist jedoch insgesamt akzeptabel (unter Verwendung der Polynomanpassung), wie in Abbildung 4 gezeigt.
In the test shown in Abbildung 4, OFSCN® Capillary Seamless Steel Tube Fiber Bragg Grating temperature sensor (FBG thermometer) was used for temperature detection at 250 degrees Celsius, demonstrating accurate and highly precise temperature measurement.
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Abbildung 4 |
Our philosophy is: 'OFSCN®, make optical fiber stronger!'
DCYS is a professional manufacturer of high-precision fiber bragg grating temperature sensors, providing FBG temperature sensor calibration methods, calibration experiments, experiment reports, temperature coefficients, calibration functions and Sonstiges information; the brand of high-precision FBG temperature sensors is 'OFSCN' .