用于高速机载光互连的具有微透镜印迹膜的低成本低损耗柔性光引擎

2012 IEEE 62nd Electronic Components and Technology Conference Pub Date : 2012-07-30 DOI:10.1109/ECTC.2012.6249035

T. Shiraishi, T. Yagisawa, T. Ikeuchi, S. Ide, K. Tanaka

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引用次数: 25

摘要

为了克服高端服务器系统的带宽瓶颈，对光互连技术的需求非常强烈。目前系统的互连速度接近10 Gb/s，超过25 Gb/s的更高速度互连正在讨论中。为了在商业生产中实现这种光互连，有必要开发成本更低、速度更快的光收发模块。我们提出了一种柔性印刷电路光学引擎(FPC-OE)，采用微透镜印迹薄膜和聚合物波导来实现低成本和高速运行。利用纳米压印技术可以低成本地制备微透镜压印膜，并能显著降低聚合物波导FPC-OE的光损耗。我们成功地演示了25 Gb/s的无差错操作，该光学收发器包含FPC-OE，微透镜印迹膜和聚合物波导。

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Cost-effective low-loss flexible optical engine with microlens-imprinted film for high-speed on-board optical interconnection

There is a strong demand for optical interconnection technology to overcome bandwidth bottlenecks in high-end server systems. The interconnection speed in present systems is approaching 10 Gb/s, and higher-speed interconnections over 25 Gb/s are being discussed. To achieve such optical interconnections in commercial production, it is necessary to develop lower-cost and higher-speed optical transceiver modules. We propose a flexible printed circuit optical engine (FPC-OE) with a microlens-imprinted film and a polymer waveguide to achieve low-cost and high-speed operation. The microlens-imprinted film can be produced at low cost by using nanoimprint technology and can drastically reduce the optical loss of the FPC-OE with polymer waveguide. We successfully demonstrated error-free operation at 25 Gb/s with the fabricated optical transceiver that contains an FPC-OE, microlens-imprinted film, and a polymer waveguide.

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