Research on FBG demodulation system based on DDS signal and interpolation method
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1.Robotics Institute, School of Mechanical and Automotive Engineering, Shanghai University of Engineering Science, Shanghai 201620, China; 2.Shanghai Largescale component Intelligent Manufacturing Robot Technology Collaborative Innovation Center,Shanghai 201620, China

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TP212

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    Abstract:

    To address the issue of drift and the high cost of calibration in the F-P filtering demodulation method, this paper had developed a F-P filter multi-channel resonance demodulation system using the FPGA and the fiber optic switch. The system utilizes DDS signals to generate specific triangular wave driving voltages and achieves dynamic calibration of wavelength-time by linking multiple-dimensional reference FBGs in series. Three dynamic calibration modes, including linear and quadratic relationships, are set. The FPGA-controlled fiber optic switch enables fast channel switching of modes and step-by-step acquisition of reference wavelength and wavelength signal to be measured. he average deviations in the three modes are 0.028 02 nm, 0.018 14 nm, and 0.010 9 nm, respectively, at a frequency of 100 Hz. The research results indicate that, under a unit voltage of 1 V, the deviation is reduced by over 45% compared to static calibration, improving the demodulation accuracy Improves demodulation accuracy, reduces calibration costs and addressing the issue of misjudgment caused by the proximity of the reference and measured wavelengths.

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  • Received:
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  • Online: March 27,2024
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