With the rapid development of optical fiber technology, the security of optical fiber link faces utmost challenge.
随着光纤技术的飞速发展,光纤链路的安全性受到了极大的挑战。
It is known that there is a slight difference of zero dispersion along an optical fiber link, because the link is concatenated with lengths of fibers.
由于光纤线路由多根光纤连接而成,因此沿整个线路零色散波长就稍有差别。
The DTX provides quick validation of fiber link performance and installation quality, fiber length, measurement of optical loss at multiple wavelengths, and polarity confirmation.
利用DTX提供了光纤链路的性能和安装质量,纤维长度,快速验证在多个波长的光损耗测量和极性确认。
With the success in linear dispersion compensation technique in optical fiber communication, a new limitation with nonlinearity will be accumulated when the length of fiber link increases.
随着线性色散补偿技术的成熟,光纤通信的另一个限制因素——非线性,将随着光纤链路的加长而积累起来。
This article selects from the FOG's structural material, the fiber optical link size estimates, as well as the FOG system error origin embarks under the vibration situation.
本文从陀螺结构材料选取,光纤环尺寸估算,以及光纤陀螺在振动的情况下系统误差的来源出发。
This article selects from the FOG's structural material, the fiber optical link size estimates, as well as the FOG system error origin embarks under the vibration situation.
本文从陀螺结构材料选取,光纤环尺寸估算,以及光纤陀螺在振动的情况下系统误差的来源出发。
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