基于扩频信号的光纤双向时间同步的研究进展

Xiangwei Zhu, H. Gong, G. Sun, K. Liang
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引用次数: 1

摘要

高精度时间同步是卫星导航、深空探测等航空工程领域的一个基本要素。使用光纤进行时频传输比使用GNSS共视和卫星双向时频传输等其他介质更准确、更稳定。频率传输是当前光纤时频传输研究的主要热点。然而,关于时间传递的研究很少,时间传递的精度一般在纳秒级。本文研究了一种基于扩频测距的双向时间传递方法。该方法不仅提高了精度,而且不需要额外的数据校验环节。介绍了工程样机的设计方案和实现过程。实验结果表明,当光纤传输距离在2km以内时,采用该方法的时间同步不确定性小于30ps。
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The research progress of two way time synchronization with fiber based on spread spectrum signal
High-precision time synchronization is a basic element in some areas of aeronautical engineering, such as satellite navigation and deep space exploration. It is more accurate and stable to use the optical fibers while performing time frequency transfer than using other media such as GNSS common view and two-way satellite time frequency transfer. The frequency transfer is the main focus of the current research in optical fiber time frequency transfer. However, there is little study on time transfer, and the accuracy of time transfer is commonly in nanosecond level. In this paper, a two way time transfer method based on spread spectrum ranging is studied. For the proposed method, the accuracy is improved and extra links for data check are not needed any more. The designing schemes and the implementation progress of the engineering prototype are presented. The experimental results indicate that the time synchronization uncertainty is less than 30ps by use of the proposed method when the optical fiber transmission distance is within 2km.
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