基于光学方法的相控阵天线波束形成

MILCOM 1986 - IEEE Military Communications Conference: Communications-Computers: Teamed for the 90's Pub Date : 1986-10-01 DOI:10.1109/MILCOM.1986.4805757

N. Jespersen, P. Herczfeld

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引用次数: 2

摘要

相控阵波束形成需要在给定的天线孔径上调整振幅锥度(主要用于副瓣电平控制)和相位锥度(用于主波束覆盖控制)。这种逐渐变细通常是通过在单个辐射元件后面采用移相器和衰减器(或放大器)来实现的。最近开发的光敏微波PIN二极管开辟了实现这种电路的可能性，这种电路可以通过光学而不是电子手段来控制。光信号(通过光纤)的含义包括减轻重量(与铜导体相比)和免受EMI/EMP效应的影响，这两者都是机载和星载应用的优先项目。将新型微波PIN二极管应用于相控阵天线波束控制电路的分析与设计。对二极管进行了表征，并将其应用于光控反射移相器的设计。

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Beamforming for Phased Array Antennas by Optical Means

Phased array beamforming requires the adjustment of both amplitude taper (primarily for side-lobe level control) and phase taper (for main beam coverage control) across a given antenna aperture. Such tapering is generally implemented by employing phase shifters and attenuators (or amplifiers) behind the individual radiating elements. Recently developed photosensitive microwave PIN diodes have opened up the possibility of realizing such circuits which can be controlled by optical rather than by electrical means. The implications of optical signalling (by fiberoptics) include reduced weight (as compared to copper conductors) and immunity from EMI/EMP effects, both of which are priority items in air- and spaceborne applications. The new microwave PIN diodes are applied in the analysis and design of beamform control circuits for phased array antennas. The diodes are characterized and applied in the design of an optically controlled reflective phase shifter.

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来源期刊

MILCOM 1986 - IEEE Military Communications Conference: Communications-Computers: Teamed for the 90's

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