Antenna systems for 800 MHz

32nd IEEE Vehicular Technology Conference Pub Date : 1982-05-23 DOI:10.1109/VTC.1982.1623032

W.B. Bryson

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Abstract

The assignment of the 800 MHz frequencies has brought into sharper focus the long standing requirement for omnidirectional coverage from base station antennas that are not individually mounted at the top of a dedicated tower. The cellular and trunking systems with their large number of channels at any one site must, with present state of the art transmitter combiners, use more than one transmit antenna. Since each tower has only one top; the requirement to place several antennas there becomes evident. Figures are presented illustrating the variation in pattern and gain caused by this multiplicity of antennas mounted in such candelabra arrangements of two, three and five antennas. The spacing of the antennas varies from less than two wavelengths to greater than seven wavelengths in these tower top clusters. In the past, existing large broadcast towers have been utilized as antenna mounting locations: 800 MHz systems will be no different. The top of these towers are generally not available for land mobile antennas as they are occupied by TV or FM broadcast stations. As a result, side mounting becomes absolutely necessary. The tower may be many wavelengths in width at the antenna mounting elevation. The patterns resulting from side mounting antennas on these large structures as well as smaller structures are shown.

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800兆赫的天线系统

800兆赫频率的分配使长期以来没有单独安装在专用塔顶部的基站天线的全向覆盖需求变得更加清晰。在任何一个站点具有大量信道的蜂窝和集群系统必须使用目前最先进的发射机组合器，使用多个发射天线。因为每座塔只有一个顶部;在那里放置几根天线的要求变得很明显。图中显示了由安装在这种两根、三根和五根天线的烛台布置中的天线的多重性所引起的图案和增益的变化。在这些塔顶簇中，天线的间距从小于两个波长到大于七个波长不等。过去，现有的大型广播塔已被用作天线安装位置:800兆赫系统将没有什么不同。这些塔的顶部通常不能用于地面移动天线，因为它们被电视或调频广播电台占用。因此，侧面安装成为绝对必要的。在天线安装标高处，发射塔的宽度可能有多个波长。所产生的模式，从侧面安装天线在这些大的结构以及较小的结构显示。

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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32nd IEEE Vehicular Technology Conference

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