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航天器自主高精度时间管理系统设计
引用本文:王玮,陈丹,徐晓光. 航天器自主高精度时间管理系统设计[J]. 传感器与微系统, 2017, 36(7). DOI: 10.13873/J.1000-9787(2017)07-0127-03
作者姓名:王玮  陈丹  徐晓光
作者单位:中国空间技术研究院载人航天总体部,北京,100094
基金项目:国家重大科技专项工程项目
摘    要:为满足航天器长期在轨飞行期间高精度的时间同步需求,提出了一种航天器自主高精度时间管理系统,将北斗导航定位授时设备和频率综合器两种时钟源系统进行融合使用,两种时钟源系统可根据导航定位状态自主切换,在消除了频率源系统误差累积效应问题的同时,解决了导航非定位情况下时间精度急剧下降的问题.通过建立系统的误差模型,以航天器应用设计实例进行计算分析,结果表明:系统时间同步精度优于37.8μs.研究结果可以为后续航天器高精度时间管理系统设计提供参考.

关 键 词:自主时间管理  北斗导航  频率综合器  时间同步误差

Design of spacecraft autonomous high precision time management system
WANG Wei,CHEN Dan,XU Xiao-guang. Design of spacecraft autonomous high precision time management system[J]. Transducer and Microsystem Technology, 2017, 36(7). DOI: 10.13873/J.1000-9787(2017)07-0127-03
Authors:WANG Wei  CHEN Dan  XU Xiao-guang
Abstract:For high precision time synchronization demands of long term on orbit spacecraft,an autonomous high precision time management system is proposed,which combines Beidou navigation equipment clock generator and frequency synthesizer clock generator.Two clock generators can autonomously switch by states of navigation and localization,it eliminates error accumulation effect of frequency clock generator system and solves the problem for time precision falling dramatically when Beidou navigation equipment is unable to be located.By building error model for system taking an real application in spacecraft for example,to compute and analyze,which indicates that precision of the system time synchronization is prior to 37.8 μs.The result can be a reference for subsequent design of high precision time management system spacecraft.
Keywords:autonomous time management  Beidou navigation  frequency synthesizer  time synchronization error
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