基于单片机的热水器水温水位控制系统毕业设计论文

优秀论文 审核通过 未经允许 切勿外传

基于单片机的电热水器水温水位控制系统设计

摘 要

随着人们生活水平的提高，各种热水器的使用已相当普及。与之相配套的控制仪也相继问世。然而，目前市场上的各种热水器控制电路还与理想要求相差甚远。因此我设计了新型的热水器水温水位控制系统来满足于当今的需求，该热水器智能控制系统主要由AT89S52单片机控制、DS18B20温度传感器、独立键盘、LED数码管和报警系统组成。该系统能测量并显示水温、设置水温范围，若水温不处于所设置的水温范围则报警，同时还能对水位进行设置及加水，先设置好需要加水的水位段数，单片机会根据这个数进行判断是否加水。通过软硬件调试使以上所述功能都能正常实现。

本次设计是对水温水位控制系统的智能化改进，采用单片机对其水温水位参数进行控制，提高了电器的工作稳定性，同时引进了数字传感器对水温进行数据采集，这样也就提高了系统的控制精度，以其自身的控制精度高、稳定性好和成本低的独特优点在今后将会由广泛的实用价值，其基于单片机的改进方法也具用广泛的应用意义。

关键词：单片机；DS18B20；水温水位控制

Electric Water Heater Water Temperature-Level Control

System Based on SCM

Abstract

With the improvement of people's living standard, the use of various water the various water a new type of water nowdays. The design of solar water independent keyboard ,LED and alarm system.The system can measure and display water temperature ,set the range of water temperature,of the water temperature is not in the range of setting temperature is alarming.At the same time,you can set the water level and add water,first,need to set up the water level above the water,single-chip will determine whether add the water or not according to the number.Through be normal.

For other related parameters, it also meaning using. The revivification of the water control system is an intelligent product. To its own control of , stability and low cost of the advantages, in the future there will be a wide range of practical value.The design of the water temperature control system is to improve the intellectualized. A monolithic integrated circuits is to control the level of parameter and improve the stability of the electrical work, and meantime, What’s more, its based on single ways of improvement meaning.

Keywords: singlechip; water level’s examination; water temperature’s examination

目 录

摘 要 ..................................................................... I ABSTRACT ................................................................... III 第1章 绪论 .............................................................. - 1 - 1.1选题的意义 ......................................................... - 1 - 1.2电热水器发展现状 ................................................... - 1 - 1.3课题任务 ........................................................... - 3 - 第2章 系统设计方案 ..................................................... - 5 -

2.1设计原理 ........................................................... - 5 - 2.1.1系统原理 ....................................................... - 5 - 2.1.2子系统工作原理 ................................................. - 5 - 2.2设计方案 ........................................................... - 6 - 2.2.1系统设计方案的选择 ............................................. - 6 - 2.2.2各部件控制系统方案 ............................................. - 8 - 第3章 系统硬件设计 ................................................... - 11 - 3.1系统总体设计 ...................................................... - 11 - 3.2各单元电路设计 .................................................... - 13 - 3.2.1控制单元设计 .................................................. - 13 - 3.2.2显示单元设计 .................................................. - 19 - 3.2.3检测单元设计 .................................................. - 25 - 第4章 系统软件设计 .................................................... - 33 - 4.1主程序设计 ........................................................ - 33 - 4.2子程序设计 ........................................................ - 33 - 4.2.1温度采集 ...................................................... - 33 - 4.2.2控制按键设计 .................................................. - 34 - 4.2.3读温度 ........................................................ - 35 - 第5章 系统调试 ........................................................ - 37 - 5.1硬件调试 .......................................................... - 37 - 5.1.1调试步骤 ...................................................... - 37 - 5.1.2液位检测 ...................................................... - 37 - 5.1.3温度检测 ...................................................... - 38 - 5.2 软件调试.......................................................... - 38 - 5.2.1 PROTEUS仿真 .................................................... - 38 - 5.2.2 软件调试过程 .................................................. - 39 - 5.3系统联调 .......................................................... - 39 - 总结 ................................................................... - 43 - 参考文献 ............................................................... - 45 - 致谢 ................................................................... - 47 -

附录 .................................................................... - 49 -

本文来源：https://www.bwwdw.com/article/pazf.html