更新时间:02-20 (刘教授)提供原创文章
摘要:单片机在电子产品中的应用已经越来越广泛,并且在很多电子产品中也将其用到温度检测和温度控制。为此本系统利用Protues仿真平台,设计了基于51单片机的温度测控和显示系统。该系统利用AT89C51单片机分别采集各个温度点的温度,实现温度显示、控制、报警等功能。它以AT89C51单片机为主控制芯片,采用数字温度传感器DS18B20实现温度的检测,测量精度可以达到0.5℃,可自行设置温度上下限。单片机将检测到的温度信号与通过键盘矩阵输入的温度上、下限进行比较,由此作出来对数码管的状态进行改变,同时进行声音报警。该系统采用了1602液晶显示模块,形象直观的显示测出的温度值。本系统还加了一个实时显示的电子时钟模块,采用了DS1302时钟芯片,也通过1602液晶进行实时显示。
关键词:Protues仿真;AT89C51;DS18B20;温度控制
Abstract:The MCU in electronic products has become increasingly widespread, and in many electronic products will also be used in temperature measurement and temperature control. To this end, this system to use Protues simulation platform, designed based on 51 single-chip temperature measurement and control and display system. The system uses AT89C51 microcontroller were collected at each temperature point temperature, temperature display, control, alarm and other functions. AT89C51 microcontroller-based control chip, a digital temperature sensor DS18B20 temperature detection, measurement accuracy can reach 0.5 ° C, and can set the lower limit temperature. Single chip will be detected by the temperature signal input through the keyboard matrix temperature, the lower limit were compared, thus making the change to the status of digital tube, at the same time to sound the alarm. The system uses a 1602 LCD module, and visually display the measured temperature value. The system also added a real-time display of the electronic clock module, using the DS1302 clock chip, real-time display through 1602.
Keywords:Protues simulation; AT89C51;DS18B20;Temperature control
单片机作为系统开发的核心器件,其系统设计包括硬件电路设计和程序设计,调试过程一般分为软件调试、硬件测试、系统调试3个过程。软件调试一般比较容易进行,但如果要进行硬件电路测试和系统调试则比较麻烦,因为要进行这2个过程必须在电路板制作完成、元器件焊接完毕之后进行,而且电路板的制作、元器件的安装、焊接费时费力。如果采用单片机系统仿真软件Proteus,则不用制作具体的电路板也能够完成以上工作,可以提高开发效率、降低开发成本、提高开发速度。本设计是基于PROTEUS仿真,设计了一种用单片机、数学温度传感器、矩阵键盘输入实现的温控系统,该系统不仅可以测得温度的数字值,而且会及时的对温度进行控制,系统具有简单方便、准确可靠,实时性强、可扩展性好等优点。