ACeS communications system phase noise and transient effects

2000 IEEE MTT-S International Microwave Symposium Digest (Cat. No.00CH37017) Pub Date : 2000-06-11 DOI:10.1109/MWSYM.2000.863587

L. Dayaratna, L. Ramos

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引用次数: 1

Abstract

The ACeS satellite system provides voice and data services to mobile users throughout the Asia Pacific region. The space segment of the ACeS system provides high quality signal on the ground to allow communication with small mobile terminals. The phase noise and transient performance of the overall communications system are very important performance parameters for mobile communications systems. A centralized frequency generation system was employed for generating all local oscillator frequencies for the ACeS payload. A major design criteria was to mitigate the risks associated with single event upsets (SEU), which necessitated the use of either low speed or high speed refresh circuits for each synthesizer device. The high-speed refresh option caused continuous sidebands and degraded phase noise performance on some phase-locked loop designs. This paper provides an overview of how refresh options were chosen to minimize phase noise and spurious degradation effects and also provides phase noise characterization of each local oscillator. The phase noise performance at component, subsystem and system level is also presented.

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ace通信系统相位噪声与瞬态效应

ACeS卫星系统为整个亚太地区的移动用户提供语音和数据服务。ACeS系统的空间部分在地面上提供高质量信号，以便与小型移动终端进行通信。整个通信系统的相位噪声和暂态性能是移动通信系统非常重要的性能参数。采用集中频率产生系统产生ACeS有效载荷的所有本振频率。一个主要的设计标准是减轻与单事件干扰(SEU)相关的风险，这就需要为每个合成器设备使用低速或高速刷新电路。在一些锁相环设计中，高速刷新选项会导致连续的边带和相位噪声性能下降。本文概述了如何选择刷新选项以最小化相位噪声和杂散退化效应，并提供了每个本地振荡器的相位噪声特性。给出了器件级、分系统级和系统级的相位噪声性能。

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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来源期刊

2000 IEEE MTT-S International Microwave Symposium Digest (Cat. No.00CH37017)

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