Two small-size package methods, thin stainless steel tube based package method and plating gold based package method for fiber Bragg grating(FBG) temperature sensors, are designed. The characteristics of the FBG tempe...Two small-size package methods, thin stainless steel tube based package method and plating gold based package method for fiber Bragg grating(FBG) temperature sensors, are designed. The characteristics of the FBG temperature sensors in the environment temperature between 203K and 243K are investigated. The wavelengths of the FBG temperature sensors as a function of the temperature are examined experimentally. The experiment results of the two different small-size package sensors in identical conditions are compared with each other. The transmission spectrum of the sensors is analyzed at the temperature of 273K and 213K. The temperature sensitive factors of the sensors are derived analytically and are verified by experiments. Linear fitting to the wavelength-temperature curve is carried out.展开更多
We report a method for improving temporal response of FBG-based temperature sensors.It has been demonstrated that by filling thermal conductive pastes between a sensing FBG and its package,the temporal response of the...We report a method for improving temporal response of FBG-based temperature sensors.It has been demonstrated that by filling thermal conductive pastes between a sensing FBG and its package,the temporal response of the FBG-based temperature sensor can be significantly improved while isolating the strain and vibration.展开更多
基金National Natural Science Foundation of China(50179029)
文摘Two small-size package methods, thin stainless steel tube based package method and plating gold based package method for fiber Bragg grating(FBG) temperature sensors, are designed. The characteristics of the FBG temperature sensors in the environment temperature between 203K and 243K are investigated. The wavelengths of the FBG temperature sensors as a function of the temperature are examined experimentally. The experiment results of the two different small-size package sensors in identical conditions are compared with each other. The transmission spectrum of the sensors is analyzed at the temperature of 273K and 213K. The temperature sensitive factors of the sensors are derived analytically and are verified by experiments. Linear fitting to the wavelength-temperature curve is carried out.
文摘We report a method for improving temporal response of FBG-based temperature sensors.It has been demonstrated that by filling thermal conductive pastes between a sensing FBG and its package,the temporal response of the FBG-based temperature sensor can be significantly improved while isolating the strain and vibration.
