1) all-optical signal regeneration
全光信号再生
3) signal regeneration
信号再生
1.
Based on analyzing the status of hall and offset voltage,a completely new and comparatively simple hall signal regeneration circuit was brought forward.
以霍尔电压及失调电压的状态为出发点,提出了一种更简单的霍尔信号再生电路设计方案。
4) optical regeneration
全光再生
1.
All-optical regeneration based on self-phase modulation in microstructured fiber is studied.
利用微结构光纤作为非线性介质,实现了基于自相位调制(SPM)效应的全光再生。
2.
All-optical regeneration based on self-phase modulation in a highly nonlinear microstructured fiber is proposed.
提出了利用高非线性微结构光纤自相位调制效应进行全光再生的研究方案。
5) all-optical regeneration
全光再生
1.
All-optical regeneration methods for binary phase modulated signals,which mainly focus on differential phase-shift keying(DPSK) signals,were introduced.
介绍了差分相移键控信号的全光再生技术。
2.
Furthermore,all-optical regeneration using an 80-m-long nonlinear photonic crystal fiber is demonstrated experimentally.
提出了利用高非线性光子晶体光纤(PCF)的自相位调制效应(SPM),实现对高重复率皮秒脉冲全光再生的方案,理论分析了再生器的传输特性和滤波器参量对再生特性的影响。
6) all optical regeneration
全光再生
1.
Optical clock recovery is a fundamental part of all optical regeneration technology.
随着超高速大容量的光网络的发展 ,全光再生技术成为目前的研究热点。
补充资料:光信号模式
光信号模式
optical signal mode
gLJo!飞gX.rl}〕。of了105},I光信号模式(optieal signal mode)通信。见光纤
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