ku波段天线闭环测试射频跟踪测试系统设计

2016 International Conference on VLSI Systems, Architectures, Technology and Applications (VLSI-SATA) Pub Date : 1900-01-01 DOI:10.1109/VLSI-SATA.2016.7593049

R. Mishra, Sowbhagya, S. Sudhakar, B. Sudeesh, A. M. Nagalakshmi, S. Udupa

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引用次数: 3

摘要

Ku波段天线是GSAT11航天器的独特特征之一。由于卫星平台的指向精度在0.1°左右，采用可操纵展开指向机构(DPM)、基于射频(RF)跟踪的测量系统和姿态与轨道控制电子(AOCE)驻留控制器实现了改进的天线指向。首次在零重力环境下对这些子系统进行了开环和闭环测试。该测试有助于评估/验证所有子系统的闭环性能，以及射频跟踪系统及其系统响应的特性。本文讨论了射频跟踪测试系统的设计方法和开发，并对其进行了改进，以使测试顺利进行，并吸取了经验教训。在这里，AOCE模拟器设计已经实现了加速产品设计周期和并行进行接口测试以及算法验证和系统表征。

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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RF tracking test system design for closed loop testing of Ku-band antenna

Ku band antennae are one of the unique features of GSAT11 spacecraft. As the pointing accuracy of the satellite platform is around 0.1°, improved antenna pointing is achieved using the steerable Deployment Pointing Mechanism (DPM), Radio Frequency (RF) Tracking based measurement system and Attitude and Orbit Control Electronics (AOCE) resident controller. Testing of these subsystems in open and closed loop has been carried out for the first time in zero-g environment. This test has been instrumental in evaluating/validating the closed loop performance of all the subsystems along with the characterization of the RF tracking system and its system response. This paper discusses the design approach and development of RF Tracking Test System and improvements carried out therein to enable smooth testing and lessons learnt. Here, AOCE simulator design has been effected for accelerating the product design cycle and in-parallel carrying out the interface testing along with the algorithmic validation and system characterization.

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来源期刊

2016 International Conference on VLSI Systems, Architectures, Technology and Applications (VLSI-SATA)

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