An improved chromatic dispersion compensation technique employing an optical all pass filter equaliser in a 10 Gb/s optical system

High Frequency Postgraduate Student Colloquium, 2005 Pub Date : 2005-09-05 DOI:10.1109/HFPSC.2005.1566375

W. Loedhammacakra, W. P. Ng, R. Cryan

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引用次数: 1

Abstract

The chromatic dispersion (CD) of a single mode fibre (SMF) is an important issue in a long haul optical communication system when the new generation of optical system is introduced operating at the wavelength of 1.55 /spl mu/m with the bit rate of 10 Gb/s. The CD effect will result in pulse spreading and causes inter-symbol interference (ISI). This paper proposes a promising technique to compensate CD by using an optical all pass filter (OAPF) as an equaliser. The phase response of OAPF will be designed to equalise the phase delay of SMF which is the main cause of CD. The simulation of the mathematical model of the optical system at 10 Gb/s employing the proposed OAPF will be presented. A minimum mean square error technique was used to optimise the equaliser and the simulation results show the pulse spread improvement of 33% and fully compensated were achieved at full-width half-maximum (FWHM) for 100 and 160 km of SMF. respectively. The eye diagram also shows an improvement of 32 dB in dispersion penalty when OAPF equaliser is used at a distance of 160 km.

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在10gb /s光学系统中采用全通滤波均衡器的色散补偿技术的改进

在波长为1.55 /spl mu/m、比特率为10gb /s的新一代光纤系统中，单模光纤的色散(CD)是长距离光通信系统中的一个重要问题。CD效应会导致脉冲扩散，引起码间干扰(ISI)。本文提出了一种利用光学全通滤波器(OAPF)作为均衡器来补偿CD的方法。将设计OAPF的相位响应来平衡SMF的相位延迟，SMF是导致CD的主要原因。将给出采用所提出的OAPF的光学系统在10gb /s下的数学模型仿真。采用最小均方误差技术对均衡器进行了优化，仿真结果表明，在100 km和160 km的SMF全宽半最大(FWHM)处，脉冲扩展提高了33%，并实现了完全补偿。分别。眼图还显示，当在160 km的距离上使用OAPF均衡器时，色散惩罚提高了32 dB。

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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High Frequency Postgraduate Student Colloquium, 2005

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