Yun Wang, Yutang Dai, Minghui Lu, Jianguan Tang, Minghong Yang
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引用次数: 0
Abstract
To address the increasing demand for high-precision measurement and miniaturization in FBG accelerometers, this paper proposes a high-sensitivity FBG accelerometer based on a flexural bearing. The spiral-shaped through-grooves of the flexural bearing significantly enhance the sensitivity of the diaphragm-type FBG accelerometer while inheriting its simple structure and compact size. Initially, the theoretical model of the accelerometer was derived. Subsequently, a set of optimized dimensions for the accelerometer was selected and investigated using the finite element method. Finally, the measurement performance of the accelerometer was verified through a series of calibration tests. The results showed that the accelerometer achieved a sensitivity of 379.8 pm/g (at 20 Hz) and a resonant frequency of around 230 Hz, with a cross-axis sensitivity of less than 7.3 % of the main axis. Leveraging the advantages of a compact structure, small volume, and, this novel accelerometer holds promise for expanding the application of fiber optic accelerometers.
期刊介绍:
Contributions are invited on novel achievements in all fields of measurement and instrumentation science and technology. Authors are encouraged to submit novel material, whose ultimate goal is an advancement in the state of the art of: measurement and metrology fundamentals, sensors, measurement instruments, measurement and estimation techniques, measurement data processing and fusion algorithms, evaluation procedures and methodologies for plants and industrial processes, performance analysis of systems, processes and algorithms, mathematical models for measurement-oriented purposes, distributed measurement systems in a connected world.
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