基于多核光纤和6通道vcsel和pd的150 Gbps/光纤引擎集成

SPIE OPTO Pub Date : 2016-04-18 DOI:10.1117/12.2214555

M. Karppinen, A. Tanskanen, V. Heikkinen, P. Myöhänen, N. Salminen, J. Ollila, O. Tapaninen, P. Westbergh, J. Gustavsson, A. Larsson, R. Safaisini, R. King, M. Ko, D. Kissinger, A. Çağrı Ulusoy, T. Taunay, L. Bansal, L. Grüner-Nielsen, E. Kehayas, J. Edmunds, L. Stampoulidis

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引用次数: 3

摘要

多芯光纤可以实现单根光纤的并行光数据链路，从而为提高总吞吐量和互连的集成密度提供了一种有吸引力的方法。我们研究并提出了多核发射器和接收器组件的光子集成技术和光耦合方法。这种光引擎是使用多模6芯光纤和多核优化的有源器件实现和表征的:850纳米VCSEL和PD阵列，具有圆形布局和多通道驱动器和接收器ic。它们是为25 Gbps/通道及以上的比特率而开发的，即每根光纤<150 Gbps，并且还针对具有扩展工作温度范围的坚固耐用的收发器进行了优化，适用于恶劣环境应用，包括空间。

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Integration of 150 Gbps/fiber optical engines based on multicore fibers and 6-channel VCSELs and PDs

Multicore fiber enables a parallel optic data link with a single optical fiber, thus providing an attractive way to increase the total throughput and the integration density of the interconnections. We study and present photonics integration technologies and optical coupling approaches for multicore transmitter and receiver subassemblies. Such optical engines are implemented and characterized using multimode 6-core fibers and multicore-optimized active devices: 850-nm VCSEL and PD arrays with circular layout and multi-channel driver and receiver ICs. They are developed for bit-rates of 25 Gbps/channel and beyond, i.e. <150 Gbps per fiber, and also optimized for ruggedized transceivers with extended operation temperature range, for harsh environment applications, including space.

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SPIE OPTO

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