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基于CC2530的智能温度传感器节点设计
引用本文:巩娜,张素娟,雷勇,曹晓钟. 基于CC2530的智能温度传感器节点设计[J]. 气象科技, 2014, 42(5): 764-768
作者姓名:巩娜  张素娟  雷勇  曹晓钟
作者单位:1. 成都信息工程学院 四川 610225
2. 成都信息工程学院 四川 610225;中国气象局大气探测重点开放实验室 四川610225
3. 中国气象局气象探测中心 北京100081
摘    要:采用TI公司生产的ZigBee芯片CC2530作为主控芯片和通讯芯片,将铂电阻PT100作为温度传感器,在TI公司的Z-Stack协议栈的基础上进行采集、传输和管理等软件运行程序的编写,实现了对温度要素的采集和无线传输。硬件电路的设计和软件程序的编写充分考虑了低功耗、高可靠性的设计。整个温度传感器采用锂电池进行供电,使用太阳能电池板给锂电池进行充电,可独立在户外环境下长时间稳定运行。

关 键 词:CC2530  PT100  低功耗  温度采集  Z-Stack
收稿时间:2013-09-02
修稿时间:2014-04-14

CC2530 Based Design of Intelligent Temperature Sensor Nodes
Gong N,Zhang Sujuan,Lei Yong and Cao Xiaozhong. CC2530 Based Design of Intelligent Temperature Sensor Nodes[J]. Meteorological Science and Technology, 2014, 42(5): 764-768
Authors:Gong N  Zhang Sujuan  Lei Yong  Cao Xiaozhong
Affiliation:Gong Na Zhang Sujuan Lei Yong Cao Xiaozhong(1 Chengdu University of Information Technology, Sichuan 610225 ; 2 CMA Key Laboratory of Atmospheric Sounding-KLAS, Siehuan 610225; 3 CMA Meteorological Observation Center, Beijing 100081)
Abstract:This design adopts the CC2530 chip (one type of ZigBee chips) produced by TI Company as both master chip and communication chip, and the Platinum Resistance PT100 is used as the temperature sensor. The programing of collection, transmission, and management software is based on the Z Stack of TI company, to realize the temperature acquisition and wireless transmission. Meanwhile, the hardware circuits and software programs take full account of the low power and high reliability design. The entire temperature sensor is powered by a lithium battery, which can be charged by a solar panel, and can be used independently in a outdoor environment for a long time.
Keywords:CC2530   PT100   low power   temperature acquisition   Z stack
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