目 录
摘要....................................................................1
关键词..................................................................1
ABSTRACT................................................................1
Key Words...............................................................1
第一章 绪论.............................................................2
1.1国内外的研究现状和发展趋势.......................................2
1.2系统设计任务与要求...............................................2
第二章 设计任务分析及方案论证...........................................3
2.1设计任务要求分析.................................................3
2.2设计总体方案及其方案论证.........................................3
第三章 硬件设计.........................................................3
3.1单片机最小系统设计...............................................4
3.2传感器电路设计...................................................6
3.3显示电路设计.....................................................7
3.4光声报警电路与输出驱动电路设计..................................10
3.5按键电路设计....................................................11
第四章 软件设计........................................................11
4.1主程序设计......................................................11
4.2系统初始化子程序计..............................................12
4.3按键检测子程序设计..............................................12
4.4温湿度检测子程序设计............................................12
4.5温湿度判断子程序设计............................................12
4.6 LCD显示子程序设计..............................................13
第五章 系统测试........................................................14
5.1测试方法........................................................14
5.2测试结果........................................................15
5.3结果分析........................................................16
第六章 结束语..........................................................16
参考文献...............................................................18
致谢...................................................................19
附录I:源程序..........................................................20
附录II:电路总体原理图.................................................28
摘要:传统的温度控制是在温室大棚内部悬挂温度计,工人依据读取的温度值来调节大棚内的温度。如果仅靠人工控制既耗人力,又容易发生差错。现在,随着农业产业规模的提高,对于数量较多的大棚,传统的温度控制措施就显现出很大的局性。为此,在现代化的蔬菜大棚管理中通常有温湿度自动控制系统,以控制蔬菜大棚温度,适应生产需要。本次设计是采用MSC-51系列单片机中的AT89S51和DHT11的低成本的温湿度的检测系统。该系统电路简单、工作稳定、集成度高,调试方便,测试精度高,具有一定的实用价值。其中测温湿度控制电路由温湿度传感器和预设温度值比较报警电路组成,用户根据需要预先输入预设值,当实际测量的温湿度大于预设的温湿度数值时,发出报警信号(蜂鸣器蜂鸣)。
关键词:温度测量;湿度测量;AT89S51;DHT11
ABSTRACT:The traditional temperature control is inside the greenhouse to hang the thermometer, temperature of workers on the basis of reading to adjust the temperature in the greenhouse. If only by the artificial control consumption of manpower, and prone to errors. Now, with the improvement of agricultural industry, for the large number of greenhouse, the traditional temperature control measures will show a lot of innings. Therefore, in modern vegetable greenhouses management typically keep temperature and humidity automatic control system, to control the vegetable greenhouse temperature, meet the need of production. This design is to use MSC - 51 series single chip microcomputer AT89S51 and DHT11 temperature and humidity of the low cost of the testing system. The system circuit is simple, stable work, high integration, convenient debug, high test precision, has certain practical value. The measuring temperature and humidity control circuit is composed of temperature and humidity sensors and preset temperature to compare alarm circuit, the user input preset according to the need in advance, when the temperature and humidity of the actual measurement of the temperature and humidity is greater than the preset value, send out alarm signal (buzzer buzzer)
Key words:Temperature measurement Humidity measurement AT89S51 DHT11
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