Title :
Modeling of Thermal-Induced Rate Error for FOG With Temperature Ranging From -40 °C to 60 °C
Author :
Yonggang Zhang ; Zhongxing Gao ; Guochen Wang ; Wei Gao
Author_Institution :
Coll. of Autom., Harbin Eng. Univ., Harbin, China
Abstract :
The performance of fiber optic gyroscope (FOG) exhibits temperature dependence due to nonreciprocity phase shift in the fiber coil induced by environmental temperature variation. Research on temperature characteristic is meaningful for high precision FOG working in harsh environment. In this letter, modeling of thermal-induced rate error for FOG with environmental temperature ranging from -40°C to 60 °C is investigated. Temperature dependence of fiber refractive index, thermal expansion of the fiber, and thermal stress of the fiber coating are all considered in our model. Experiments with different temperature change rates between -40°C and 60 °C are performed to verify the effectiveness of the proposed model. Experimental results show great agreement with theoretical values.
Keywords :
fibre optic gyroscopes; optical films; refractive index; thermal expansion; thermal stresses; FOG; environmental temperature variation; fiber coating; fiber coil; fiber optic gyroscope; fiber refractive index; nonreciprocity phase shift; temperature -40 degC to 60 degC; temperature dependence; thermal expansion; thermal stress; thermal-induced rate error; Coils; Mathematical model; Optical fiber theory; Stress; Temperature distribution; Thermal expansion; Thermal stresses; Rate error; environmental temperature; fiber optic gyroscope; thermal expansion; thermal stress;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2013.2288631
