冷原子干涉可编程时序控制系统设计与实现
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TN791;TP273

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国家自然科学基金项目(12004428)、湖南省自然科学基金优秀青年项目(2021JJ20047)资助


Design and implementation of programmable timing control system for cold atom interference
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    摘要:

    时序控制系统是冷原子干涉实验、重力仪研制及应用测试必不可少的组成部分,负责协调、驱动和控制各子系统的运 行,是冷原子干涉控制的中枢单元。 针对冷原子干涉过程中高精度调节、多路同步及可灵活调控的时序控制需求,设计实现了 一套基于 ARM+FPGA 架构的冷原子干涉可编程时序控制系统,其由时序主控模块和多个从设备模块构成,具有同步触发、模拟 调制、射频驱动、信号采集和数据处理等功能。 系统测试和冷原子干涉实验结果表明,该系统时序调节精度可达 10 ns,控制精 度和多路同步精度均优于 2 ns,符合冷原子干涉时序控制应用需求,成功用于冷原子干涉重力测量。

    Abstract:

    The timing control system is an indispensable part of cold atom interference experiment, gravimeter development and application test. It is responsible for coordinating, driving and controlling the operation of each subsystem, and is the central unit of cold atom interference control. Aiming at the timing control requirements of high-precision regulation, multi-channel synchronization and flexible regulation in the process of cold atom interference, a set of programmable timing control system for cold atom interference is designed and implemented based on ARM+FPGA architecture, which is composed of timing master module and multiple slave device modules, and has the functions of synchronous trigger, analog modulation, RF drive, signal acquisition and data processing. The results of system test and cold atom interference experiment show that the timing adjustment accuracy of the system can reach 10 ns, and the control accuracy and multi-channel synchronization accuracy are better than 2 ns, which meets the application requirements of cold atom interference timing control and is successfully used in cold atom interference gravity measurement.

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苏业南,周 超,李期学,张 旭,章欢开,颜香华,朱凌晓.冷原子干涉可编程时序控制系统设计与实现[J].电子测量与仪器学报,2022,36(10):74-82

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  • 在线发布日期: 2023-03-29
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