基于环管的MSRA温度补偿研究

2017 First International Conference on Electronics Instrumentation & Information Systems (EIIS) Pub Date : 2017-06-01 DOI:10.1109/EIIS.2017.8298651

Haipeng Guo, Libin Huang, Wenxiang Li, Songli Wang

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引用次数: 0

摘要

微机械硅谐振加速度计(MSRA)是高精度微加速器的一个重要研究方向。为了减轻工作环境温度对MSRA性能的影响，本文分析了环管温度特性，建立了反映环管电压与温度关系的数学模型，推导了谐振器谐振频率与环管电压的函数关系。然后，采用环管电压对谐振器谐振频率进行直接温度补偿。实验结果表明，温度补偿方法对MSRA的差分输出有良好的补偿效果，可以有效地提高MSRA的性能。

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A study on temperature compensation for the MSRA based on the ring pipe

The Micromechanical Silicon Resonant Accelerometer (MSRA) is an important research direction of the high-precision Micro-accelerator. In order to alleviate the influence of the operating ambient temperature on the performance of MSRA, this paper analyzes temperature characteristics of the ring pipe, builds the mathematical model reflecting the relationship between the voltage and temperature of the ring pipe, and derives the functional relationship between the resonator's resonant frequency and the ring pipe's voltage. Following that, the ring pipe's voltage is adopted for direct temperature compensation of the resonator's resonant frequency. Test results suggest that the temperature compensation method show favorable compensation effects as to differential output of the MSRA, and can efficiently improve the performance of the MSRA.

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2017 First International Conference on Electronics Instrumentation & Information Systems (EIIS)

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