UTC(NIS) Steering Techniques with Few Number of Atomic Clocks

2020 8th International Japan-Africa Conference on Electronics, Communications, and Computations (JAC-ECC) Pub Date : 2020-12-14 DOI:10.1109/jac-ecc51597.2020.9355878

A. I. Mostafa, A. Zekry

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引用次数: 1

Abstract

Till now, the Coordinated Universal Time of the National Institute of Standards (UTC(NIS)), which is the Egyptian Time Scale (TS), is generated by using a single Cesium (Cs) atomic clock. But, the reliability and frequency stability of UTC(NIS) in that case are limited by those of the single Cs clock. In the near future, UTC(NIS) will be generated by using the average atomic TS (TA(NIS)) from an ensemble of Cs clocks to enhance its reliability and frequency stability. In this paper, a simulation is carried out to check the effectiveness of generating TA(NIS) from the 3 Cs clocks of NIS clock ensemble. Results from TA(NIS) simulation will be presented and discussed before it is used for UTC(NIS) generation in the real-time. Also, in this paper, the two steering techniques that are currently used for UTC(NIS) generation instead of TA(NIS) to enhance its time accuracy with respect to the international TS (UTC) are introduced. Results show that these techniques were effective and able to reduce the TS difference values (UTC-UTC(NIS)) to below ± 100 ns in the last 3 years, as recommended by the international Consultative Committee of Time and Frequency (CCTF).

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使用少量原子钟的UTC(NIS)转向技术

到目前为止，国家标准研究院的协调世界时(UTC, NIS)，即埃及时标(TS)，是使用单个铯原子钟产生的。但是，在这种情况下，UTC(NIS)的可靠性和频率稳定性受到单Cs时钟的限制。在不久的将来，UTC(NIS)将由Cs时钟集合中的平均原子TS (TA(NIS))产生，以提高其可靠性和频率稳定性。本文通过仿真验证了利用NIS时钟集成的3c时钟生成TA(NIS)的有效性。在将TA(NIS)仿真结果用于实时生成UTC(NIS)之前，将对其进行介绍和讨论。此外，本文还介绍了目前用于生成UTC(NIS)而不是TA(NIS)的两种转向技术，以提高其相对于国际TS (UTC)的时间精度。结果表明，这些技术是有效的，能够在最近3年内将TS差值(UTC-UTC(NIS))降低到±100 ns以下，符合国际时间和频率咨询委员会(CCTF)的建议。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 8th International Japan-Africa Conference on Electronics, Communications, and Computations (JAC-ECC)

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