A three-dimensional magnetic field generator has been constructed taking advantage of three groups of square Helmholtz coils in order to do research on the magnetic susceptibility of optical sensors. Whether the uniformity in the center of the magnetic field is standard has to be analyzed to ensure the accuracy of test data from the optical sensor. Regarding square Helmholtz coil as four current-carrying conductor, three-dimensional space magnetic intensity and its uniformity of square Helmholtz coil were analyzed, and the result of simulating data were given. Due to that two coils may partly produce magnetic-field component possibly cancelling each other out, B<sub>x</sub>, B<sub>y</sub>, which can have an effect on the uniformity of the magnetic field, so that we need to evaluate the effects. First, we build a mathematical model of the magnetic field intensity of the square Helmholtz coil in the three-dimensional space. Then, some related analysis data and structural models of the three-dimensional uniform magnetic field of the square Helmholtz coil are given by Using the computer software MATLAB and LABVIEW. Finally, that square Helmholtz coils can be applied to study the magnetic susceptibility of optical sensors is proven to be feasible with the standardized testing environments of the magnetic susceptibility and evaluation methods proposed.
Proc. SPIE. 9297, International Symposium on Optoelectronic Technology and Application 2014: Laser and Optical Measurement Technology; and Fiber Optic Sensors
KEYWORDS: Optical fibers, Digital signal processing, Fiber optic gyroscopes, Ceramics, Field programmable gate arrays, Signal processing, Integrated circuits, Gyroscopes, Analog electronics, Digital electronics
In view of the circuit miniaturization need in project application of fiber optic gyroscope(FOG), a new integrated technical scheme adopting system in package(SIP) for signal processing circuit of FOG was put forward. At first, the principle on signal processing circuit of FOG was analyzed, and the technical scheme adopting SIP based on low-temperature co-fired substrate technology was presented according to circuit characteristic and actual condition. Secondly, under the prerequisite of the concept introduction of SIP and LTCC, the SIP prototype of signal processing circuit of FOG was trialed produced，and it passed through the debug test. This SIP modular is an overall circuit complete integrated the signal processing circuit of FOG, and only a potentiometer and EPROM do not case outside. The testing results indicate that SIP is a kind of feasible scheme that carries out miniaturization for signal processing circuit of FOG.