1) passive microwave relay station
微波无源中继站
1.
The measure of passive microwave relay station;
微波无源中继站的调试开通
2) passive relay station
无源中继站
3) microwave relay station
微波中继站
1.
Implementation of embedded network management agent in the microwave relay station
微波中继站中嵌入式网管Agent实现
4) passive relay station
无源中继站[台]
5) passive relay
无源中继
1.
This paper analyses the influence of the landform and atmospheric environment on microwave transmission, introduces the function and its transmission modes of passing relay technique in microwave transmission, also it sums up several notable problems in actual application of passive relaying devices.
分析了地形及大气环境对微波传输的影响,介绍了无源中继技术在微波传输中的作用及其传输方式,并总结了无源中继装置在实际应用中注意的几个问题。
2.
This paper analyses on the influence of the landform and atmospheric environment on microwave transmission, introduces the functions of passive relaying technique in microwave transmission and its transmission modes, and sums up several notable problems in actual application of passive relaying devices.
分析了地形及大气环境对微波传输的影响,介绍了无源中继技术在微波传输中的作用及其传输方式,并总结了无源中继装置在实际应用中应注意的几个问题。
6) microwave relay
微波中继
1.
The microwave relay communication system had been build at NTSC in during initial period of 1980’s.
八十年代初,根据中国科学院3262工程的要求,为了进行高精度的时间频率传递,国家授时中心在临潼与蒲城之间建立了微波中继通讯系统。
补充资料:微波中继通信
一般说来,由于地球曲面的影响以及空间传输的损耗,每隔50公里左右,就需要设置中继站,将电波放大转发而延伸。这种通信方式,也称为微波中继通信或称微波接力通信。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条