基于双滤波器的PMMA SI-POF链路均衡

2022 IEEE International Conference on Signal Processing and Communications (SPCOM) Pub Date : 2022-07-11 DOI:10.1109/SPCOM55316.2022.9840829

Raju D. Kamble, K. Appaiah

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引用次数: 0

摘要

本文提出了一种模拟双路滤波器作为基于PMMA的阶跃折射率塑料光纤(POF)链路的均衡器。我们在理论上和实验上都证明了这种方法可以在100米的光纤中实现100 Mbit/s的传输速度。POF信道的材料特性导致长链路长度下的码间干扰信噪比显著下降。使用基于DSP的均衡，虽然有效，施加显著额外的复杂性。我们提出了一种模拟双路滤波器的设计和实现，该滤波器使用光纤建模进行调谐，以有效地补偿色散限制。实验表明，所设计的滤波器能够在很大的光纤长度和数据速率范围内成功克服色散限制。

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Biquad filter based equalization for PMMA SI-POF links

This paper proposes the use of an analog biquad filter as an equalizer for PMMA based step index plastic optical fiber (POF) links. We show both theoretically and experimentally that this approach achieves 100 Mbit/s over for 100 m of fiber. The material properties of the POF channel causes significant intersymbol interference SNR degradation for long link lengths. The use of DSP based equalization, while effective, imposes significant additional complexity. We propose the design and implementation of an analog biquad filter that is tuned using fiber modeling to effectively compensate the dispersive limitations. We show experimentally that the designed filter is able to successfully overcome the dispersion limits over a large range of fiber lengths and data rates.

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2022 IEEE International Conference on Signal Processing and Communications (SPCOM)

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