Comparison of EDFA and Raman amplifiers effects on RZ and NRZ encoding techniques in DWDM optical network with bit rate of 80 Gb/s

Physics & Astronomy International Journal Pub Date : 2018-02-20 DOI:10.15406/paij.2018.02.00057

Seraji Fe, Kiaee Ms

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引用次数: 4

Abstract

Transmission of data through the communication networks is possible by using different methods of modulation and encoding. The aim of using these techniques is to efficiently use bandwidth and transmission of digital data by using carrier waves. There is no exception for optical communication systems in which we transmit optical pulses via the light waves. Yet, propagation of the light wave through the optical fibers would incur power loss due to different attenuation mechanisms. Such a situation will cause errors in detection of signals at the receiver end. So, to circumvent this problem, use of optical amplifiers is required. Erbium-doped fiber amplifier (EDFA) and Raman amplifier (RA) are the most popular ones, which are used widely in the optical communications systems. In this study, by simulating a DWDM optical link with a bit rate of 80 Gb/s and a link span of 80 km, the effects of EDFA and RA on NRZ and RZ encoding techniques for modulation are investigated by using Optisystem software solver and the received optical signals are analyzed by the corresponding eye-diagrams and Q-factors.

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在比特率为80gb /s的DWDM光网络中，EDFA和拉曼放大器对RZ和NRZ编码技术的影响比较

通过通信网络传输数据可以使用不同的调制和编码方法。使用这些技术的目的是利用载波有效地利用带宽和数字数据的传输。光通信系统也不例外，我们通过光波传输光脉冲。然而，由于不同的衰减机制，光波在光纤中的传播会产生功率损失。这种情况会导致接收端的信号检测出现错误。因此，为了规避这个问题，需要使用光放大器。掺铒光纤放大器(EDFA)和拉曼放大器(RA)是光通信系统中应用最为广泛的两种放大器。本文通过模拟比特率为80 Gb/s、链路长度为80 km的DWDM光链路，利用Optisystem软件求解器研究了EDFA和RA对NRZ和RZ编码技术调制的影响，并利用相应的眼图和q因子分析了接收到的光信号。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Physics & Astronomy International Journal

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