基于混合放大系统的超高速光传输系统中的总损耗和色散效应管理及光纤到达率升级

Govindaraj Ramkumar, Ferlin Deva Shahila, Vanitha Lingaraj, Prabhu Chandran, Vivek Chidambaram, Parimala Arumugam, Hegazy Mahmoud Ramadan
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引用次数: 0

摘要

这项工作展示了基于混合放大系统的超高光传输系统中的总损耗和色散效应管理以及光纤到达率升级。根据系统的要求,在设计高质量的传输链路时,必须在每个组件的众多相互关联的性能特征之间做出权衡。传输距离是光信号必须传输的最大距离。它影响到光学元件、光纤类型和信号放大技术的选择。可能需要使用光纤放大器或信号再生技术来补偿更远距离上的信号损耗。在选择最佳光学元件和系统布局时,对这些关键方面进行审查会有所帮助。这可确保光链路达到预期性能。传输系统中采用混合放大系统单元(EDFA/Raman/EDFA)、(EDFA/Raman)、(BFA/PDFA)和(拉曼/EDFA)来增强信号强度,提高系统性能运行效率。在传播方案中还采用了空分复用方案,以提高和控制总损耗和色散效应。随着每个光纤核心通道的链路总数的变化,研究了最佳总损耗/色散/中继器间距。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Total losses and dispersion effects management and upgrading fiber reach in ultra-high optical transmission system based on hybrid amplification system
This work demonstrated the total losses and dispersion effects management and upgrading the fiber reach in ultra-high optical transmission system based on hybrid amplification system. Based on the requirements of the system, a number of trade-offs must be made between the numerous interconnected performance characteristics of each component in the design of a high quality transmission link. The transmission distance is the greatest distance that an optical signal has to travel. It affects the choice of optical component, fiber type, and signal amplification techniques. Fiber amplifiers or signal regeneration may be required to compensate for signal loss over greater distances. Reviewing these crucial aspects helps when selecting the best optical components and system layout. This ensures the optical link performs as expected. Hybrid amplification system unit (EDFA/Raman/EDFA), (EDFA/Raman), (BFA/PDFA) and (Raman/EDFA) is employed in the transmission system to strength the signal and upgrade the system performance operation efficiency. Space division multiplexing scheme is also employed with the propagation scheme in order to upgrade and control of the total losses and dispersion effects. The optimum total losses/dispersion/repeater spacing are studied with the variations of the total number of links per fiber core channel.
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