文中详细介绍了此时钟授时系统的系统结构。
The paper describes the architecture of the clock timing system.
主要讨论了GPS授时系统在七号信令集中监测系统中的应用。
This paper mainly discusses the application of GPS time receiving system in signaling No.
原子频标是空间技术和授时系统的频率与时间基准,直接决定了卫星通信的质量。
Atomic frequency Standard is the frequency and time benchmark of space technology and time awarding system, directly determining the quality of satellite communications.
全球定位系统(GPS)是目前世界上精度最高的全球性导航、定位和授时系统。
Global positioning system (GPS) is now the most precise global navigating. positioning and time broadcasting system around the world.
由于具有精确的定位和授时能力,该系统还广泛的支持民用、科研以及商业应用,从空中交通管制到互联网。
The worldwide system also supports a wide range of civil, scientific and commercial functions - from air traffic control to the Internet - with precision location and timing information.
随着北斗卫星导航系统的正式运营,利用北斗无源授时服务提供的时钟作为战术跳频电台的同步参考时钟成为了可能。
As the Beidou satellite navigation system, it is possible to use the time service as the source of synchronization referrence in Tactics FH radio.
GPS技术作为一种精密的授时、测距、导航、定位系统,已经开始在交通等领域得到应用。
As a kind of new timing, measuring distance, navigation and positioning system, the technology of GPS is gradually used in traffic and other fields.
基于GPS授时的异地同步数据采集系统用于对分处异地的数据采集设备进行精确同步。
A synchronous acquisition system with GPS timing is used to accurately synchronize dada acquisition in different places.
该产品结合IC卡的信息存贮技术与GPS全球卫星定位系统的位置信息输出及授时功能。
This product combines the technology of IC Card information store and the position information outputting and time service functions of GPS.
该设备基于AT 89c51,采用软件抗干扰技术,实现授时主系统时钟与中心UT C主钟的同步。
Adopting software anti-jamming technology, this instrument is based on AT89C51 to achieve the synchronization of the clock of time service system with UTC.
方法生物节律测控及分析系统采用分布式控制方案,由测控计算机和授时因子发生仪组成。
Methods The system was a distributed digital control system consisting of a computer and zeitgeber generators.
本发明不必为每台多功能校表台都配备有GPS授时信号接收系统,节约了资源。
According to the invention, each set of multi-functional meter adjusting platform is not required to be installed with a GPS time service signal receiving system, and the resource is saved.
高精度授时是军事、电力、通信、交通等各行业系统运行的安全保障。
Precise time-service is the safty insurance in the military, electric power, communications, transportation and other industry security system operation.
全球定位系统(GPS)已在定位、导航、精确授时等领域得到了广泛应用。
GPS has been widely applied in the fields such as location, navigation and precise time-giving.
选用GN-80型GPS接收设备和单片微机进行电力系统状态变量同步采集终端的硬件设计,利用GPS的精确授时作为其同步时钟控制采样脉冲来实现同步采样。
This thesis selects model GN-80 GPS receiver and SCM to design the sampling device. The high accurate time service is used to synchronize the sample clock signal to realize synchronous sampling.
针对典型的IMA系统,提出了一种“软件授时、硬件同步”的时间同步方法,同步精度达到微秒级。
Based on a typical IMA system, a "software timing, hardware synchronizing" time synchronization method is proposed and the synchronization precision can reach microsecond level.
介绍了导航定位系统的时间基准及实现时间统一的卫星授时技术和定时技术。
The Time Standaards of navigation positioning system and Time Service of Timing by Satellite and Satellite Timing Calibration of Timing are introduced.
介绍了导航定位系统的时间基准及实现时间统一的卫星授时技术和定时技术。
The Time Standaards of navigation positioning system and Time Service of Timing by Satellite and Satellite Timing Calibration of Timing are introduced.
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