基于FPGA进位链的铯光泵磁力仪频率测量方法
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1. 中国科学院电磁辐射与探测技术重点实验室北京100190; 2. 中国科学院大学北京100190

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TM935.1

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Frequency measurement method for optically pumped cesium vapor magnetometer based on FPGA carry chain
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1. Key Laboratory of Electromagnetic Radiation and Sensing Technology, Chinese Academy of Sciences, Beijing 100190, China; 2. University of Chinese Academy of Sciences, Beijing 100190,China

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    摘要:

    铯光泵磁力仪输出拉莫尔频率,需要通过频率测量换算得到磁场值,频率测量的精度直接关系到磁测结果的准确性。提出了一种基于FPGA进位链的铯光泵磁力仪频率测量方法。首先采用加法器将FPGA中的专用进位连线资源级联成进位链,然后基于时间内插的原理实现对拉莫尔频率的测量。与其他频率测量方法相比,该方法只需要FPGA编程即可实现,不需要额外的硬件消耗。对原理样机的测试结果表明,系统可行性好,测量精度高,以低成本、高灵活性的方式实现了铯光泵磁力仪的频率测量。

    Abstract:

    Optically pumped cesium vapor magnetometer generates larmor frequency and needs to get magnetic field values by translation of measured frequency. The precision of frequency measurement is directly related to the accuracy of measured magnetic field values. This paper presents a frequency measurement method for optically pumped cesium vapor magnetometer based on FPGA carry chain. Firstly, using the adder to connect FPGA special carry line into a carry chain, and then based on the principle of time interpolation to achieve the measurement of larmor frequency. Compared with other frequency measurement methods, the proposed method can be realized only by the FPGA programming, and requires no additional hardware cost. The test result of the prototype shows that the system is feasible and the measurement accuracy is high. Thus achieving frequency measurement of optically pumped cesium vapor magnetometer with low cost and high flexibility.

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林桐,刘辉,纪奕才,方广有.基于FPGA进位链的铯光泵磁力仪频率测量方法[J].电子测量技术,2016,39(9):102-107

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  • 在线发布日期: 2016-10-17
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