一种基于光机械振荡器的超再生光接收机

2015 28th IEEE International Conference on Micro Electro Mechanical Systems (MEMS) Pub Date : 2015-03-02 DOI:10.1109/MEMSYS.2015.7051124

T. Beyazoglu, T. Rocheleau, A. Grine, K. Grutter, Ming C. Wu, C. Nguyen

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引用次数: 4

摘要

一种检测开关键(OOK)调制光输入的超再生光接收器已经被证明，它利用自维持电光机械振荡器(EOMO)的辐射压力增益，使其振荡幅度成为耦合到振荡器的光强度的函数。与以前的电子超再生接收器不同，这种设计不需要周期性地熄灭振荡信号，从而简化了接收器的结构，提高了可实现的接收比特率。一个全功能的接收器，其紧凑的~90 μm EOMO仅由硅兼容材料组成，成功地从OOK调制的1550 nm激光输入中恢复了2 kbps的比特流。通过消除传统光学接收器中经常使用的昂贵的III-V化合物半导体材料的需求，这种基于eomo的接收器为传感器网络应用提供了更低成本的替代方案。

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A super-regenerative optical receiver based on an optomechanical oscillator

A super-regenerative optical receiver detecting on-off key (OOK) modulated light inputs has been demonstrated that harnesses the radiation-pressure gain of a self-sustained electro-opto-mechanical oscillator (EOMO) to render its oscillation amplitude a function of the intensity of light coupled into the oscillator. Unlike previous electronic super-regenerative receivers, this rendition removes the need to periodically quench the oscillation signal, which then simplifies the receiver architecture and increases the attainable receive bit rate. A fully functional receiver with a compact ~90 μm EOMO comprised only of silicon-compatible materials demonstrates successful recovery of a 2 kbps bit stream from an OOK modulated 1550 nm laser input. By removing the need for the expensive III-V compound semiconductor materials often used in conventional optical receivers, this EOMO-based receiver offers a lower cost alternative for sensor network applications.

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2015 28th IEEE International Conference on Micro Electro Mechanical Systems (MEMS)

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