Enhancing the Transmission Performance of Step Index Plastic Optical Fiber

2022 5th Information Technology for Education and Development (ITED) Pub Date : 2022-11-01 DOI:10.1109/ITED56637.2022.10051295

I. Yau, S. Sani, A. D. Usman, A. Tekanyi, A. M. Abba, D. Gambo

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引用次数: 1

Abstract

The use of Plastic Optical Fiber (POF) cable has the potential to enhance broadband transmission, particularly in the indoor access network. The POF cable offers a cost-effective solution because it is much easier to install and less expensive than glass optical fiber. The biggest drawback of the POF cable is intermodal dispersion, which reduces the link bandwidth of a 100 m length of cable to approximately 40 MHz. Numerous studies are being conducted to enhance the bandwidth-length product of POF. This work seeks to minimize the intermodal dispersion of the cable by finding optimal materials for the core and cladding of the cable with the improved bandwidth-length product. The results obtained indicate that the optimal core and cladding materials have refractive indices of 1.4865 and 1.4756, respectively. The intermodal dispersion per unit length is found to be 36.169 ps/m. The bandwidth of 100 m of the improved POF cable is therefore 121.65 MHz. A RoF communication system based on the developed POF is designed using the Optisystem16 software tool. The Bit Error Rate (BER) performance of the system in terms of quality factor is evaluated. A maximum achievable POF cable length of 117 m is obtained for a transmission data rate of 1 Gbps with an acceptable quality factor of 7.0.

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提高阶跃折射率塑料光纤的传输性能

塑料光纤(POF)电缆的使用具有增强宽带传输的潜力，特别是在室内接入网中。POF电缆提供了一种经济有效的解决方案，因为它比玻璃光纤更容易安装，更便宜。POF电缆最大的缺点是多式频散，它将100米长的电缆的链路带宽减少到大约40兆赫兹。人们正在进行大量的研究来提高POF的带宽-长度乘积。这项工作旨在通过寻找具有改进带宽长度产品的电缆芯和包层的最佳材料来最大限度地减少电缆的多式联运色散。结果表明，最优芯和包层材料的折射率分别为1.4865和1.4756。单位长度的多式联运色散为36.169 ps/m。因此，改进后的POF电缆100m带宽为121.65 MHz。利用Optisystem16软件工具设计了基于所开发的POF的RoF通信系统。从质量因子的角度对系统的误码率性能进行了评价。在传输数据速率为1gbps的情况下，可实现的最大POF电缆长度为117米，可接受的质量系数为7.0。

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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来源期刊

2022 5th Information Technology for Education and Development (ITED)

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