高精度光纤微波时频传递技术

doi:10.3969/j.issn.1000-1158.2022.05.17

摘要
图/表
参考文献(39)
相关文章 (15)

全文: PDF (2752 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要光纤微波时频传递技术具备高可靠性、高稳定性、高精度以及低损耗等优点,能够为航空航天、国防建设、高速通信行业等提供高精度的时间频率参考基准。如何克服现有光纤时频传递技术中存在的时刻同步精度低、网络化和一体化技术不成熟等问题,同时还能保证系统在长距离传输时不会导致同步精度显著下降,成为光纤时频传输领域核心研究问题。综述了光纤微波时频传递研究领域的进展,从传统的时频传递技术切入,介绍了时频一体化传递新技术,并对光纤微波时频传递技术的应用前景进行了展望。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	齐苗苗
	林平卫
	潘家荣
	蒋志远

关键词 ：计量学, 时间传递, 频率传递, 光纤, 微波频率, 时频一体化传递

Abstract：Optical fiber microwave time-frequency transfer technology has the advantages of high reliability, high stability, high precision, and low loss, it can provide a high-precision time-frequency reference for aerospace, national defense construction, high-speed communications and other industries. How to overcome the problems of low time synchronization accuracy, immature networking and integration technology in the existing technology, and at the same time ensure that the system will not cause a significant decrease in synchronization accuracy during long-distance transmission, becoming a core research issues in the field of optical fiber time-frequency transmission. The research progress of optical fiber microwave time-frequency transmission is reviewed, start from the traditional time transfer and frequency transfer technology, the new technology of integrated time-frequency transfer is introduced, finally, the application prospects of optical fiber microwave time-frequency transfer technology are prospected.

Key words： metrology;time transfer frequency transfer optical fiber microwave frequency time-frequency integrated transfer

收稿日期: 2020-12-10 发布日期: 2022-05-18

PACS:

TB939

通讯作者: 潘家荣(1964-),广东湛江人,中国计量大学教授,从事食品质量与安全、同位素示踪等方面的研究工作。Email:panjr@263.net E-mail: panjr@263.net

作者简介: 齐苗苗(1994-),河北石家庄人,中国计量大学研究生,研究方向为光纤高精度时间频率传递及组网技术。Email:1025480018@qq.com

引用本文:

齐苗苗,林平卫,潘家荣,蒋志远. 高精度光纤微波时频传递技术[J]. 计量学报, 2022, 43(5): 667-674.
QI Miao-miao,LIN Ping-wei,PAN Jia-rong,JIANG Zhi-yuan. High-precision Optical Fiber Microwave Time-frequency Transfer Technology. Acta Metrologica Sinica, 2022, 43(5): 667-674.

链接本文:

http://jlxb.china-csm.org:81/Jwk_jlxb/CN/10.3969/j.issn.1000-1158.2022.05.17 或 http://jlxb.china-csm.org:81/Jwk_jlxb/CN/Y2022/V43/I5/667

Han Y T. SI Base Units and Time Measurement［J］.Acta Metrologica Sinica, 2022, 43(1): 1-6.
［2］姚跃, 虞丽娟, 曹守启, 等.基于北斗通信的河道水质监测系统设计［J］. 计量学报, 2020, 41(10): 1291-1296.
Yao Y, Yu L J, Cao S Q, et al. Design of River Water Quality Monitoring System Based on Beidou Communication［J］. Acta Metrologica Sinica, 2020, 41(10): 1291-1296.
［3］龙波, 王菊凤, 黄徐瑞晗, 等.基于NIMDO及光纤传递的高精度时间同步系统研究［J］. 计量学报, 2019, 40(5): 904-909.
Long B, Wang J F, Huang X R H, et al. Research on High Precision Time Synchronization System Based on NIMDO and Optical Fiber Transmission［J］. Acta Metrologica Sinica, 2019, 40(05): 904-909.
［4］王义遵.建设我国独立自主时间频率系统的思考［J］.宇航计测技术, 2004, 24(1): 1-10.
Wang Y Z. Thoughts on Building my country's Independent Time and Frequency System［J］. Aerospace Measurement Technology, 2004, 24(1): 1-10.
［5］王立军. 超高精度时间频率同步及其应用［J］.物理, 2014, 43(6): 360-363.
Wang L J. Ultra-high precision time and frequency synchronization and its application［J］. Physical, 2014, 43(6): 360-363.
［6］刘杰, 高静, 许冠军, 等. 基于光纤的光学频率传递研究［J］. 物理学报, 2015, 64(12): 120602.
Liu J, Gao J, Xu G J, et al. Research on optical frequency transmission based on fiber［J］. Journal of Physics, 2015, 64(12): 120602.
［7］翟海燕, 潘慧玲, 刘芙蓉, 等.光纤时间频率传递研究发展态势的文献计量分析［J］.科学观察, 2017, 12(3): 24-32.
Zhai H Y, Pan H L, Liu F R, et al. Bibliometric analysis of the development trend of optical fiber time-frequency transmission［J］. Scientific Observation, 2017, 12(3): 24-32.
［8］张安旭. 基于光纤的稳相传输技术研究［D］. 北京: 北京邮电大学, 2015.
［9］Daussy C, Lopez O, Amy-Klein A, et al. Long-distance frequency dissemination with a resolution of 10-17［J］. Physical review letters, 2005, 94(20): 203904.
［10］Hsu M T L, He Y, Shaddock D A, et al. All-digital radio-frequency signal distribution via optical fiber［J］. IEEE Photonics Technology Letters, 2012, 24(12): 1015-1017.
［11］He Y, Orr B J, Baldwin K G H, et al. Stable radio-frequency transfer over optical fiber by phase-conjugate frequency mixing［J］. Optics Express, 2013,21(16):18754-18764.
［12］陈伟亮, 李天初, 所睿, 等.标准频率信号的光纤传输及应用［J］. 计量学报, 2015, 36(6A): 124-127.
Chen W L, Li T C, Suo R, et al. Standard frequency signal transfer via fiber and its application［J］. Acta Metrologica Sinica, 2015, 36(6A): 124-127.
［13］Wang J,Chen W,Liu Q,et al.Ultrastable multiclock frequency injection and Dissemination in a Ring Fiber Network［J］.IEEE Photonics Journal,2017,9(2):1-7.
［14］Gao C, Wang B, Zhu X, et al. Dissemination stability and phase noise characteristics in a cascaded, fiber-based long-haul radio frequency dissemination network ［J］. Review of Scientific Instruments, 2015, 86(9), 093111.
［15］Qian C, Wang C, Li S, et al. Precise radio frequency dissemination viasimulated 3000km fiber re-circulating loop［J］. IEEE Photonics Technology Letters, 2017, 29(18): 1572-1575.
［16］江贤峰, 吴龟灵, 郭芳, 等.高精度时间频率信号光纤传输和复原技术的研究［J］. 全球定位系统, 2016, 41(2): 20-26.
Jiang X F, Wu G L, Guo F, et al. Research on optical fiber transmission and restoration technology of high precision time frequency signal［J］. Ball Positioning System, 2016, 41(2): 20-26.
［17］Xu K, Wu Z, Zheng J, et al. Long-term stability improvement of tunable optoelectronic oscillator using dynamic feedback compensation［J］. Optics express, 2015, 23(10), 12935-12941.
［18］Yin F, Zhang A, Dai Y, et al. Improved Phase Stabilization of a Radio-Over-Fiber Link Under Large and Fine Delay Tuning［J］. IEEE Photonics Journal, 2015, 7(4), 1-6.
［19］Imlaoka A. Kihara M. Accurate time/frequency transfer method using bidirectional WDM transmission［J］. IEEE transmission on Instrumentation and Measurement, 1998, 47(2): 537-542.
［20］丁小玉, 张宝富, 卢麟, 等. 高精度时间信号的光纤传递［J］. 激光与光电子学进展, 2010, 47: 110601.
Ding X Y, Zhang B F, Lu L, et al. High precision time transfer with optical fiber［J］. Laser & Optoelectronics Progress, 2010, 47: 110601.
［21］吴燕. 采用双向对比法的光纤时间传递系统［D］. 西安: 西安理工大学, 2014.
［22］Lopes C, Riondet B. Ultra Precise Time Dissemination System［C］.// Frequency & Time Forum, & the IEEE International Frequency Control Symposium, Joint Meeting of the European. IEEE Xplore, 1999, 296-299.
［23］黄璜, 吴龟灵, 胡亮, 等. 温度对双向时分复用光纤时间传递精度的影响［J］. 光学学报, 2015, 35(05): 105-111.
Huang H, Wu G L, Hu L, et al. Influence of Temperature on the Precision of Bidirectional TDM Based Fiber-Optic Time Transfer［J］.Acta Optica Sinica, 2015, 35(05): 105-111.
［24］朱玺. 光纤时间频率同步网络技术及应用［D］. 北京: 清华大学, 2016.
［25］Wu Z, Dai Y, Yin F, et al. Stable radio frequency phase delivery by rapid and endless post error cancellation［J］. Optics Letters, 2013, 38(7): 1098-1100.
［26］夏琳莎. 长距离光纤稳相传输技术研究［D］. 成都: 电子科技大学, 2020.
［27］崔雅洁. 基于光纤的射频信号稳相传输研究［D］. 北京: 北京邮电大学, 2018.
［28］Lopez O, Amy-Klein A, Daussy C, et al. 86-km optical link with a resolution of 2 × 10 -18 for RF frequency transfer［J］. The European Physical Journal D, 2008, 48(1): 35-41.
［29］Fujieda M, Kumagai M, Gotoh T, et al. Ultrastable frequency dissemination via optical fiber at NICT［J］. IEEE Transactions on Instrumentation and Measurement, 2009, 58(4), 1223-1228 .
［30］Kumagai M, Fujieda M, Nagano S, et al. Stable radio frequency transfer in 114 km urban optical fiber link［J］. Optics Letters, 2009, 34(19): 2949-2951.
［31］胡帆. 光纤稳频传输系统的相位补偿方案研究［D］. 北京: 北京邮电大学, 2019.
［32］吴龟灵, 陈建平.超长距离高精度光纤双向时间传递［J］. 科技导报, 2016, 34(16): 99-103.
Wu G L, Chen J P. Ultra-long distance high-precision optical fiber two-way time transfer［J］. Science and Technology Review, 2016, 34(16): 99-103.
［33］Zhou X, Chen F X. National time service center time transfer engineering over 112km fiber link. ［C］// Proceedings of the 8th China Satellite Navigation Conference, May 23-25, 2017, Shanghai, China. 2017: 72-76.
［34］曾小强. 高精度时频基准光纤传递关键技术研究［D］.成都: 电子科技大学, 2020.
［35］高超, 王波, 白钰, 等.基于光纤链路的高精度时间频率传输与同步［J］.科技导报, 2014, 32(34): 41-46.
Gao C, Wang B, Bai Y, et al. High-precision time-frequency transmission and synchronization based on optical fiber link［J］. Science and Technology Review, 2014, 32(34): 41-46.
［36］张越, 王玉琢, 张爱敏, 等.基于多路双混频时差测量仪的新频率测量系统［J］. 计量学报, 2018, 39(4): 568-571.
Zhang Y, Wang Y Z, Zhang A M, et al. New frequency measurement system based on multi-channel double-mixing time difference measuring instrument ［J］. Acta Metrologica Sinica, 2018, 39(4): 568-571.
［37］Przemysaw Krehlik, Sliwczynski L, Buczek L, et al. Fiber-Optic Joint Time and Frequency Transfer With Active Stabilization of the Propagation Delay［J］. IEEE transactions on instrumentation&measurement, 2012, 61(10): 2844-2851.
［38］林平卫. 单信道时间频率高精度传递装置: CN 201910318706.5 ［P］. 2020-08-27.
［39］林平卫. 时刻信号精确表征和传递方法: CN 201910318690.8 ［P］. 2019-08-23.