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基于ZigBee和MSP430无线温度控制系统设计
引用本文:曹莉,曾黄麟,乐英高. 基于ZigBee和MSP430无线温度控制系统设计[J]. 四川轻化工学院学报, 2012, 0(1): 52-55
作者姓名:曹莉  曾黄麟  乐英高
作者单位:四川理工学院人工智能四川省重点实验室,四川自贡643000
基金项目:四川省技术厅应用基础研究专项课题(2011JY0051);四川省白酒及生物技术重点实验室重点专项课题(NJ2010-01)
摘    要:将低功耗单片机MSP430与近距离低功耗无线射频芯片ZigBee—CC2430结合起来,实现了温度多点无线监测控制系统。详细介绍了硬件部分和软件部分,阐述了ZigBee组网过程。通过实验验证,系统稳定可靠,安装方便,能够有效的实现远程温度采集和控制,并且成本低廉,终端节点功耗很低,达到了数据传输安全可靠的目的。

关 键 词:温度控制系统  ZigBee技术  MSP430F149  无线通信

Wireless Temperature Control System Design Based on ZigBee and MSP430
CAO Li,ZENG Huang-lin,YUE Ying-gao. Wireless Temperature Control System Design Based on ZigBee and MSP430[J]. Journal of Sichuan Institute of Light Industry and Chemical Technology, 2012, 0(1): 52-55
Authors:CAO Li  ZENG Huang-lin  YUE Ying-gao
Affiliation:( Artificial Intelligence of Key Laboratory of Sichuan Province, Sichuan University of Science & Engineering, Zigong 643000, China)
Abstract:The low-power microcontroller MSP430 and the low-power radio frequency chips ZigBee-CC2430 are proposed to be combined together to achieve multi-point wireless temperature monitoring and controlling. The hardware and software components are described and the ZigBee network process are elaborated in detail. The experiment indicates that the system is stable and reliable, easy to install, and can be effective to realize the remote temperature gathering and controlling. Furthermore, the system is low-cost and low-power end nodes to achieve safe and reliable data transmission.
Keywords:temperature control system  ZigBee technology  MSP430F149  wireless communication
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