菜单
  
    通过对目前较为典型的几种温度控制系统的不同测控方法以及各自的局限性的分析总结。针对现有的几种控制方式存在的控制精度低、超调量大、稳态性能较差等缺点,设计采用电力电子技术和计算机控制技术,基于MSP430单片机,通过编程来控制硬件部分实现的温度控制系统。9744
    以实验系统的温控实现为核心,采用理论分析和仿真调试相结合的方法,对所需解决的理论和实践问题进行了讨论。首先,在硬件方面,以温度传感器DS18B20构成温度采集电路,进行温度的采集;再通过AD7934-6对数据进行A/D转换,最终系统可以与监控计算机通过RS485进行通信。在软件方面,对控制主程序、中断服务程序、采样子程序进行编写,以达到通过程序来驱动控制该温控系统的目的。最后制成的电路板及其驱动控制程序的实验结果验证了所采用的测量策略、软硬件设计的正确性。整个系统结构紧凑,操作灵活,简单可靠,功能强大,性价比高,较好的满足了现代生产和科研的需要。9744
    关键词 温度测控 实验系统 驱动程序 MSP430
    毕业设计说明书(论文)外文摘要Title     Design of Temperature and Humidity Measuring    and Controlling System—Driven Design                                            
        Abstract
    Some typical ways of temperature controlling system and the limitations of their own are summarized. According to the modem power electronics technology and controlling technology, we can design a temperature system which is based on MSP430 and controls temperature by programming. It can overcome the common disadvantages of existing temperature controlling systems, such as low control accuracy, the large amount of overshoot, poor steady-state performance.
    In order to realize the functions of the experimental temperature controlling systems the theoretical and practical problems to be solved are discussed by combing theoretical analysis with simulation experiments. Firstly, in the hardware, the temperature sensor DS18B20 is the main device of the temperature data acquisition circuit to collect temperature data and the output controlling is based on the collected data. Then using AD7934-6 to converse the data. Finally the system can communicate with the monitoring computer through RS485. In the software, to realize the purpose of driving the temperature controlling system through writing the main controlling program, interrupt service program, sampling subroutine, digital filtering program. Finally, the results of the experiment of the circuit board and its driver validate the control tactics and the design of its software and hardware .The entire system is compact, flexible, simple, reliable, powerful and cost-effective. It meets the needs of modern production and research better.
    Keywords  temperature measurement and controlling   experiment system   driver    MSP430
    目  录
    1 绪论1
    1.1 研究背景1
    1.2 研究现状与意义2
    1.3 本文主要工作4
    2 系统相关器件简介5
    2.1 MSP430系列单片机 5
    2.2 DS18B20数字温度传感器8
    2.3 IAR编译器的使用和JTAG仿真器12
    2.4 总结17
    3 系统硬件电路及原理18
    3.1 系统设计框图及原理18
    3.2 各单元电路原理图18
    3.3 总结20
    4 系统软件设计21
    4.1 单片机初始化21
    4.2 DS1820程序设计 24
    4.3 总结29
    结论31
    致谢33
    参考文献34
    附录1 系统硬件电路原理图35
    附录2 系统C语言程序代码36
    1 绪论
    1.1  研究背景
  1. 上一篇:MATLAB/SIMULINK微电网继电保护技术研究
  2. 下一篇:simulink动力电池充电技术研究仿真

  1. stc15单片机水温水压无线监...

  2. PIC16F73单片机逆变电源硬件电路设计+电路图

  3. 51单片机永磁直流无刷电动机驱动控制器设计

  4. Arduino单片机车载太阳能空气净化器设计

  5. AT89C51单片机的无线环境监测装置设计+程序

  6. STC15W404AS单片机太阳能自动浇花器的设计

  7. PIC18F4520单片机水下机器人...

  8. 江苏省某高中学生体质现状的调查研究

  9. 高警觉工作人群的元情绪...

  10. 中国传统元素在游戏角色...

  11. 现代简约美式风格在室内家装中的运用

  12. 巴金《激流三部曲》高觉新的悲剧命运

  13. C++最短路径算法研究和程序设计

  14. 上市公司股权结构对经营绩效的影响研究

  15. g-C3N4光催化剂的制备和光催化性能研究

  16. 浅析中国古代宗法制度

  17. NFC协议物理层的软件实现+文献综述

  

About

优尔论文网手机版...

主页:http://www.youerw.com

关闭返回