Microwave photonic modules for radio frequency over fiber from S-band to Ka-band

MWP 2003 Proceedings. International Topical Meeting on Microwave Photonics, 2003. Pub Date : 1900-01-01 DOI:10.1109/MWP.2003.1422889

A. Joshi, A. Paolella, X. Wang

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Abstract

Optical components for commercial and defense systems are becoming readily available due to demand in new military applications in surveillance and countermeasures and commercial applications in communications. In defense systems such as phased array antennas and fiber optic decoys, high performance is required of the optical components both in narrow band for RF and wideband in countermeasure. In commercial applications, the expected high demand of two-way fixed and mobile wireless services, the consequent need of expanding the systems capacity, and the urgency of reducing the costs, has created an opportunity for the utilization of hybrid fiber wireless transport in wireless networks. These systems offer the potential to improve services and reduce base station costs through increased bandwidth and easy of installation. System demonstrations for personal communications services operating at 1.9 GHz up through Ka Band (26 to 40 GHz) have been developed. In many of these applications the key is to integrate the optical components with the microwave circuits to reduce size, cost and improve performance particularly at millimeter wave frequencies.

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微波光子模块的无线电频率通过光纤从s波段到ka波段

由于监视和对抗方面的新军事应用以及通信方面的商业应用的需求，用于商业和国防系统的光学元件变得越来越容易获得。在相控阵天线和光纤诱饵等防御系统中，对射频的窄带和对抗的宽带光学元件都有很高的性能要求。在商业应用中，预期双向固定和移动无线服务的高需求，随之而来的扩大系统容量的需要，以及降低成本的紧迫性，为在无线网络中利用混合光纤无线传输创造了机会。这些系统通过增加带宽和易于安装，提供了改善服务和降低基站成本的潜力。已经开发了1.9 GHz至Ka频段(26至40 GHz)的个人通信业务的系统演示。在许多此类应用中，关键是将光学元件与微波电路集成在一起，以减小尺寸，降低成本并提高性能，特别是在毫米波频率下。

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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MWP 2003 Proceedings. International Topical Meeting on Microwave Photonics, 2003.

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