随着社会的进步和信息化技术的提高,人们对移动中通过卫星网络进行通信的需求越来越大,“动中通”技术孕育而生。运动状态下进行卫星通信的技术统称为“动中通”技术,该技术的核心是快速、稳定、可靠的伺服控制技术。其核心思想是要构造一个稳定平台,是运动载体上的天线能够不受外界扰动影响,始终保持天线的空间指向不变。伺服控制技术是当前车载“动中通”卫星通信系统应用领域的一大研究难点和热点。 本论文以车载“动中通”卫星通信系统伺服控制系统的研究为背景,探讨了天线伺服控制系统的总体设计方案、硬件设计方案、软件设计方案,详细介绍了稳定与跟踪系统的设计与实现。在硬件设计中,介绍了主控、驱动系统的基本原理与组成,以及对核心器件进行了选型;在软件部分设计中,主要分成初始化模块、卫星信息模块、姿态解算模块以及自动跟踪模块四部分。8205
关键字 动中通 伺服控制系统 硬件设计 软件设计
Title Design and Analysis of Servo system Of vehicle satellite communication in motion
Abstract
Accompanying with the progress of society and Information Technology, COTM
(communications on the move)has arisen in people’s growing demand for
communication on the move via Satellite Networks. The technology of
communication on the move via satellite networks, known as COTM, with the
core of fast, stable, reliable servo control technology, is focusing on
establishing a stable platform to ensure that the antenna on the motion
carrier is always pointing the same direction. Currently, Servo control
technology is one of hotspot as well as difficult spot in the application
area of COTM technology.
Based on the study of servo control subsystem of car carrying COTM via
satellite networks, this paper makes a research on the overall design
scheme, hardware design scheme, software design scheme of the antenna servo
control system, as well as gives a detailed introduction to the design an
implementation of the stability and tracking system. In the hardware
design, this paper introduces the basic principles and compositions of the
two system for the selection of key devices, and analyses the control theory
and algorithms of the amplified circuit module as well; about software
design, the system is mainly pided into four parts: initialization
module, module, information of satellite attitude algorithm module and the
automatic tracking module.
Keywords COTM ,Servo-control system,Hardware design,Software design
目 录
1 引 言 . 1
1.1研究背景 . 1
1.2 研究现状及未来发展 . 2
2 车载“动中通”伺服控制系统的总体设计 4
2.2 伺服控制系统的总体设计 . 5
2.3 跟踪方式的分类与选择 6
2.4 伺服控制系统的主要技术指标 . 8
3 车载“动中通”天线伺服控制系统的硬件设计 .. 9
3.1 总体设计 9
3.2 芯片和传感器等选型 .. 10
3.2.1 核心芯片C8051F120 .. 10
3.2.2 陀螺仪 . 13
3.2.3 HMR3000芯片 . 14
3.2.4 执行机构的选型(电机) . 14
3.2.5全球定位系统(GPS) 15
3.2.6 RS232模块 .. 15
3.3 伺服控制系统的工作原理 .. 17
3.4 伺服控制系统的电路图 . 18
4 车载“动中通”伺服控制系统软件设计 . 18
5 稳定系统的设计与实现 33 车载“动中通”伺服系统的设计与研究:http://www.youerw.com/tongxin/lunwen_6444.html