大棚温湿度远程监控系统设计(代做单片机毕业设计)
摘要:温度、湿度是大棚温室内最重要的环境因素,温湿度过低过高,都会影响室内植物的生长,所以需要确保大棚室内温湿度保持在适合植物生成的一定范围内。在温湿度采集中,传统方法则是人工的,不但浪费时间和精力,而且效率不高。为止,设计一个自动控制系统对温室的温度、湿度等温室内坏境因素进行自动控制并数字化显示尤为重要。本文充分利用单片机、传感器、通信和计算机等现在普遍应用的先进器件和技术设计一个大棚温湿度远程控制系统。本系统的控制核心是STC89C52单片机,采集元件为DHT21温湿度数字传感器,将单片机和传感器连接,用来采集、处理和记录传感器所检测的数据。通过LCD12864在监测点显示出单片机所采集到的数据,经过无限通信模块将采集到的数据远程传送到终端上位机,上位机对单片机传输来的数据进行图形显示、保存、记录和报警,根据监测点的实际情况做及时的远程处理。本系统还特别加入了人体红外感应模块,具有防盗作用。实现了对大棚温室的温度、湿度的远程监控和控制,和对温湿度监控的自动化和智能化。经过测试,在空旷的地方,传输距离可达500米以上。
关键词:STC89C52单片机; 温湿度; 远程无线传输;
Design of remote monitoring and control system for greenhouse temperature and humidity
Abstract: the temperature and humidity inside the greenhouse is one of the most important environmental factors, temperature and humidity is too low, will affect the indoor plant growth, so it is necessary to ensure that the indoor temperature and humidity shed in a suitable plant generated within a certain range. In the collection of temperature and humidity, the traditional method is artificial, not only a waste of time and energy, and the efficiency is not high. So far, it is very important to design an automatic control system to control the temperature and humidity of the greenhouse. This article fully uses the monolithic computer, the sensor, the communication and the computer and so on now widely uses the advanced device and the technology to design a greenhouse temperature and humidity remote control system. The control core of the system is STC89C52 microcontroller, the acquisition component is DHT21 temperature and humidity digital sensor, the MCU and sensor connection, used to collect, process and record the data detected by the sensor. By LCD12864 in monitoring points show the MCU to collect data, through the wireless communication module to collect the remote transmission of data to the terminal host computer, the host computer of the SCM transmission data graphics display, storage, record and alarm, according to the actual conditions of monitoring points do time remote processing. The system also has a special addition to the human body infrared induction module, which has the function of anti theft. Realize the remote monitoring and control of temperature and humidity of the greenhouse, and the automation and intelligence of the temperature and humidity monitoring. After testing, in the open place, the transmission distance of up to 500 meters.
Key words: STC89C52 MCU; temperature and humidity; remote wireless transmission.
目录
第一章 绪论---------------------------------------------11
1.1 系统的设计背景---------------------------------11
1.2 国内外的研究现状以及发展趋势-------------------11
1.3 温湿度监控在其他应用领域-----------------------12
1.4 系统设计的现实意义及主要内容-------------------13
第二章 系统的总体设计----------------------------------13
2.1 系统设计要求-----------------------------------13
2.2 系统的组成-------------------------------------13
第三章 系统硬件电路设计---------------------------------14
3.1 主机部分----------------------------------------14
3.1.1 主机的选择及概述-----------------------------15
3.1.2 无线收发模块的选择、概述及其电路设计---------16
3.1.3 串口通讯接口电路设计-------------------------19
3.1.4 大棚声光报警模块-----------------------------20
3.2 从机部分-----------------------------------------21
3.2.1 温湿度传感器的选择与电路设计------------------22
3.2.2 12864液晶显示模块电路设计--------------------25
3.2.3 按键输入模块----------------------------------26
3.2.4 人体红外感应防盗模块--------------------------26
3.2.5 从机继电器控制电路----------------------------27
第四章 主机与从机的系统软件设计--------------------------28
4.1 系统的软件开发环境--------------------------------28
4.1.1 系统的开发软件工具----------------------------28
4.1.2 系统原理图和PCB设计软件----------------------29
4.2 主机主程序的设计----------------------------------29
4.3 从机主程序的设计-----------------------------------30
第五章 上位机监控软件设计---------------------------------32
第六章 系统的调试运行-------------------------------------32
6.1 串口通讯模块的调试-------------------------------33
6.2 数据采集模块的软件调试---------------------------34
6.3 超限程报警模块的调试 ----------------------------34
6.4 NRF24L01无线收发模块的调试-----------------------35
6.5 继电器电路的调试----------------------------------36
第七章 总结与展望------------------------------------------37
7.1 总结-----------------------------------------------37
7.2 展望----------------------------------------------37
致谢--------------------------------------------------------38
参考文献----------------------------------------------------38
参考文献
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