摘要:现代通信中,无线技术已经进入到我们的生活的方方面面。在各种工业应用环境中、对有线通讯无法到达的区域、或人类无法到达的恶劣的环境中,无线节点能够更好的发挥它的作用。无线微节点是近年来无线传感器网络应用的主要形式。无线微节点所具有的超低功耗、体积小、能在各种恶劣的环境下工作的特点,使无线微节点得到越来越广泛的应用。
本论文针对交通检测领域的无线应用问题,基于TI公司无线微节点芯片CC1101研究设计和实现了一种具有超低能耗的、实时稳定的微节点无线通信协议。论文简要介绍了协议中数据包格式的确定、传输错误的检测与处理、数据收发端的同步等问题;详细分析了使用CC1101进行无线通信时的节能设计和防冲突设计原理,对通信实现时的数据包处理、收发协议的实现等做了阐述,同时也说明了使用89C52单片机进行无线通信的软硬件设计方法;最后用一个实例展示了无线通信协议的应用。
关键词: CC1101;无线通信;协议
Abstract:In modern communication, wireless technology has been applied into all aspects of our lives. Wireless nodes can play better role in the application of various industries unable to arrive at, the area that the wired communication can not reach, or the poor environment. Wireless micro node is the main form of the application of wireless sensor networks in recent years. Wireless micro node has the Characteristics of ultra low power consumption, small volume, working in a variety of harsh environment ,whitch make it possible that the application of the wireless micro node will get more and more extensive.
In this paper, it designs and realizes a wireless communication protocol that has the character of real-time stability with low energy consumption whitch based on CC1101 chip made by TI comply for the wireless application problems on traffic detection field. This paper briefly introduces the problem of forming the protocol packet format, the determination of transmission error detection and data processing, such as synchronization of transmitter and receiver .It discribes detaily the analysis of the principle of energy-saving and the anti-collision in the use of CC1101. It also describes the processing of communication between the data packetand implementation of sending and receiving protocol, and the hardware and software design method using 89C52 microcontroller wireless communication. Finally ,it shows the application of wireless communication protocol through an example.
Keywords: CC1101 Wireless communication Protocol
近年来由于微电子技术、计算机技术和无线通信技术的进步,使得大量低功耗、多功能、低成本、对等通信的无线节点的问世成为可能。有多个节点共同构成的网络吸引了大量学者的兴趣。在环境监测、交通运输、医疗等领域的科学研究中得到广泛的应用。
无线节点通信的节点通常配备一个或多个不同的传感器,用于完成采集物理数据的任务。同时在节点上还配置了存储器、微处理器、执行器、电源和射频收发器等。与传统的无线节点不同,现在的无线节点体积小、价格便宜,但是节点的能量相对较弱。除此之外,现代无线节点常用电池来供电,并且常常工作在恶劣的环境或是工作在敌方区域,不能提供电池补给或更换,因而电源也是约束无线节点的一个重要因素。
无线节点通信的研究目标是满足上述约束条件的同时完成指定的任务。引入新的设计概念、开发或改进现有协议、开创新的应用领域、开发新的算法,都将成为无线节点通信的热点。