Microstrip Array for Troposcatter Communications

MILCOM 1982 - IEEE Military Communications Conference - Progress in Spread Spectrum Communications Pub Date : 1982-10-01 DOI:10.1109/MILCOM.1982.4806026

A. Kelly, E. Newman

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Abstract

A high gain, multi-beam microstrip array, and associated multi-channel low noise front end, has been developed for use in experiments relating to advanced troposcatter communication techniques over the 4.4 to 5.0 GHz band. A 10-foot square antenna provides a cluster of orthogonal beams. Two smaller antennas are included. This array permits angle diversity reception, as well as experiments related to Electronic Counter-Countermeasures (ECCM). The radiating elements are wideband dual polarized slots etched in the common ground plane of a pair of microstrip substrates. Each substrate contains the feed circuitry for one polarization. The multi-channel tunable front end exhibits noise figures less than 3.8 dB. It has been designed for extremely low delay distortion, so as to minimize corruption of the signal. A tunable cavity preselector, GaAs FET LNA and thin-film image-reject mixer-preamplifier comprise each channel. The array has proven to be efficient, and capable of wideband performance. The high end performance was impacted by the choice of element spacing. Future arrays will have tighter spacing, to place the grating lobe further away from real space.

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对流层散射通信微带阵列

一种高增益，多波束微带阵列，以及相关的多通道低噪声前端，已经开发用于4.4至5.0 GHz波段的先进对流层散射通信技术的实验。一个10英尺见方的天线提供了一组正交波束。包括两个较小的天线。该阵列允许角度分集接收，以及与电子反干扰(ECCM)相关的实验。辐射元件是蚀刻在一对微带衬底的公共接平面上的宽带双极化槽。每个基板包含一个极化的馈电电路。多通道可调谐前端显示噪声数字小于3.8 dB。它被设计为极低的延迟失真，从而最大限度地减少信号的损坏。每个通道由可调谐腔预调节器、砷化镓场效应晶体管LNA和薄膜图像抑制混频器预放大器组成。该阵列已被证明是高效的，并且能够实现宽带性能。元件间距的选择对高端性能有较大影响。未来的阵列将有更紧凑的间距，使光栅瓣远离实际空间。

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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MILCOM 1982 - IEEE Military Communications Conference - Progress in Spread Spectrum Communications

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