NASA acts autotrack antenna feed system

1986 Antennas and Propagation Society International Symposium Pub Date : 1986-06-08 DOI:10.1109/APS.1986.1149804

M. Shiau, Y. Choung, C. Chen, M. Chen

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引用次数: 8

Abstract

This paper presents the spacecraft monopulse tracking feed system of the multibeam antenna (MBA) for the NASA Advanced Communication Technology Satellite (ACTS). The MBA has approximately 0.3O half-power beamwidth; the spacecraft alignment requirement is 0.025O. The feed system is designed to receive linearly polarized communication signals from 28.9 to 30.0 GHz and to provide the elevation and azimuth error tracking signals at 29.975 GHz within 0.01 O tracking accuracy. The feed system (Figure 1) utilizes a single multiflare conical horn and a multimode coupler (MMC). To provide a symmetric primary pattern for communication signals, a three-flaresection conical horn’ is utilized due to the need for simple configuration, light weight, and small size for the spacecraft. The MMC2 utilizes the lowest three circular waveguide modes, i.e., TE,,, TM,,,, and TE, to achieve the sum and two difference channels, respectively. The two difference channels are time multiplexed in the autotrack biphase modulator and then coupled to the sum channel. Theory, physical description, and experimental data of the feed system will be discussed.

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NASA采用自动跟踪天线馈电系统

介绍了NASA先进通信技术卫星(ACTS)多波束天线(MBA)的航天器单脉冲跟踪馈电系统。MBA的半功率波束宽度约为0.3;航天器对中要求为0.025°。馈电系统设计用于接收28.9 ~ 30.0 GHz的线极化通信信号，在0.01 O的跟踪精度范围内提供29.975 GHz的仰角和方位误差跟踪信号。馈电系统(图1)利用一个多耀斑锥形喇叭和一个多模耦合器(MMC)。为了为通信信号提供对称的主模式，由于需要简单的配置，重量轻，并且航天器体积小，因此使用了三喇叭口锥形喇叭。MMC2利用最低的三种圆波导模式，即TE…TM，，，，和TE，分别实现和通道和两个差通道。两个差分信道在自动跟踪双相调制器中进行时间复用，然后耦合到和信道。将讨论进料系统的理论、物理描述和实验数据。

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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1986 Antennas and Propagation Society International Symposium

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