Advancements in RF photonics for signal processing applications on avionic platforms

2013 IEEE Avionics, Fiber-Optics and Photonics Technology Conference (AVFOP) Pub Date : 2013-11-14 DOI:10.1109/AVFOP.2013.6661620

P. Devgan

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Abstract

The maturity of RF photonic components has reached the point where fiber optic links are being system tested to replace traditional copper coax links on avionic platforms. Many demonstrations of RF photonic links have been made with traditional and non-traditional modulation formats [1-4] to improve the RF performance of the link. While the advantages of RF photonic links in regard to size and weight are indeed important, the large instantaneous bandwidth of the fiber optic links is a key driver for the use of this technology in the airframe. As signals of interest evolve to higher frequencies, the use of RF photonics provides a path to identify and catalog these new signals. With the acceptance of the fiber optic link as a replacement to coax, the next step is to move the photonic technology to provide signal processing capability in the optical domain before converting back to an electrical signal. The current challenges are to continue to explore new photonic technologies for improved RF performance at the receive end of the link. This paper will focus on advancements in RF photonic solutions for signal processing.

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射频光子学在航空电子平台上信号处理应用的进展

射频光子元件的成熟程度已经达到了光纤链路正在进行系统测试，以取代航空电子平台上传统的铜同轴链路。为了提高链路的射频性能，已经用传统和非传统调制格式进行了许多射频光子链路的演示[1-4]。虽然射频光子链路在尺寸和重量方面的优势确实很重要，但光纤链路的大瞬时带宽是在机身上使用该技术的关键驱动因素。随着感兴趣的信号进化到更高的频率，射频光子学的使用提供了一种识别和编目这些新信号的途径。随着光纤连接被接受为同轴电缆的替代品，下一步是移动光子技术，在转换回电信号之前，在光域提供信号处理能力。当前的挑战是继续探索新的光子技术，以提高链路接收端的射频性能。本文将重点讨论射频光子解决方案在信号处理方面的进展。

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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2013 IEEE Avionics, Fiber-Optics and Photonics Technology Conference (AVFOP)

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