Optical channel pre-emphasis equalization is experimentally researched for a 270 km 40 × 40 Gbit/s wavelength division multiplexing (WDM) transmission system with three Erbium-doped fiber amplifiers (ED- FAs)...Optical channel pre-emphasis equalization is experimentally researched for a 270 km 40 × 40 Gbit/s wavelength division multiplexing (WDM) transmission system with three Erbium-doped fiber amplifiers (ED- FAs) and Raman amplifiers concatenated as booster amplifier. The channel imbalance of the overall system changes with different sets of power launched into EDFAs. By appropriately choosing the power input to concatenated EDFAs, the output spectrum of 40 channel signal can be equalized to the most extent. The merit of benefit can be around 5.5 dB by this pre-emphasis equalization. The requirement for the gain equalizer is therefore greatly released. Then the gain imbalance of the overall system and the power imbalance of 40 channels are compared and the two almost matches, but the significant difference lies on some channels. Finally, the pump power into Raman amplifier is also optimized, and another 1.3 dB improvement of channel equaliza- tion can be further achieved.展开更多
针对高速旋转设备分布式测量需求,设计了一种单通道光纤旋转连接器(FROJ),并进行了性能测试。以此单通道FROJ为基础,采用磁光开关通过时分复用方式设计了四通道FROJ,在静态和动态条件下分别测试了其插入损耗。实验结果表明:该四通道FRO...针对高速旋转设备分布式测量需求,设计了一种单通道光纤旋转连接器(FROJ),并进行了性能测试。以此单通道FROJ为基础,采用磁光开关通过时分复用方式设计了四通道FROJ,在静态和动态条件下分别测试了其插入损耗。实验结果表明:该四通道FROJ的插入损耗小于4.5 d B,旋转变化量小于2 d B,在转速不超过600 r/min时可以实现光信号的可靠传输。展开更多
提出了一种基于光正交频分复用(orthogonal frequency division multiplexing,OFDM)技术的低功耗光纤通道网络结构,利用该网络的高频谱效率特性,设计了一种基于时域/频域二维带宽分配的节点接入方式,使得网络接入带宽能够精细调制,解决...提出了一种基于光正交频分复用(orthogonal frequency division multiplexing,OFDM)技术的低功耗光纤通道网络结构,利用该网络的高频谱效率特性,设计了一种基于时域/频域二维带宽分配的节点接入方式,使得网络接入带宽能够精细调制,解决了现有光纤通道技术中交换式拓扑网络功耗较高的问题。展开更多
基金the National Natural Science Foundation of China (60777024)
文摘Optical channel pre-emphasis equalization is experimentally researched for a 270 km 40 × 40 Gbit/s wavelength division multiplexing (WDM) transmission system with three Erbium-doped fiber amplifiers (ED- FAs) and Raman amplifiers concatenated as booster amplifier. The channel imbalance of the overall system changes with different sets of power launched into EDFAs. By appropriately choosing the power input to concatenated EDFAs, the output spectrum of 40 channel signal can be equalized to the most extent. The merit of benefit can be around 5.5 dB by this pre-emphasis equalization. The requirement for the gain equalizer is therefore greatly released. Then the gain imbalance of the overall system and the power imbalance of 40 channels are compared and the two almost matches, but the significant difference lies on some channels. Finally, the pump power into Raman amplifier is also optimized, and another 1.3 dB improvement of channel equaliza- tion can be further achieved.
文摘针对高速旋转设备分布式测量需求,设计了一种单通道光纤旋转连接器(FROJ),并进行了性能测试。以此单通道FROJ为基础,采用磁光开关通过时分复用方式设计了四通道FROJ,在静态和动态条件下分别测试了其插入损耗。实验结果表明:该四通道FROJ的插入损耗小于4.5 d B,旋转变化量小于2 d B,在转速不超过600 r/min时可以实现光信号的可靠传输。
文摘提出了一种基于光正交频分复用(orthogonal frequency division multiplexing,OFDM)技术的低功耗光纤通道网络结构,利用该网络的高频谱效率特性,设计了一种基于时域/频域二维带宽分配的节点接入方式,使得网络接入带宽能够精细调制,解决了现有光纤通道技术中交换式拓扑网络功耗较高的问题。