电机转速测量仪设计
电机转速测量仪设计(论文15000字)
摘要:随着科学技术的发展,现在的工程实践中,越来越多的场合都需要进行电机转速的测量,对测量的精度要求也越来越高。本文在参阅了大量电动电机转速测量设计的基础上,利用单片机和霍尔元件构建了一个测量电机转速的装置。该装置预期达到的要求是能够检测电机的转速并液晶显示出来,并可以通过按键来设置电机转速的上限,下限为上限的44%。当转速高出上限或低于下限时,通过蜂鸣器和二极管发出警报。本文首先简要介绍了该设计的背景和应用价值,然后详细介绍了测量电机转速装置的设计,包括硬件系统的各部分分析和软件设计的各个环节详细说明,最后给出样机和实验结果。
关键词:转速测量,单片机技术,霍尔传感器
The design of the motor speed measuring instrument
Wang Mengran 20121340006
School of Information and Control,NUIST,Nanjing 210044,China
Abstract: As the science and technology are developing rapidly, more and more occasions in modern engineering practice need to carry out the rotational speed measurement. The requirement of the accuracy grows along with this rapid development. In this paper, after doing a lot of research on the design of the rotational speed measurement, we decided to build a speed-measuring device based on the use of micro-controller and hall sensor. This device is expected to detect the rotational speed and print the figure to the LCD screen. The range of the speed can be set by two buttons, in which case the lower limit is of 44% of the higher limit. When the speed is out of range, the buzzer and the diode will give out the alarm signal to inform the users. This paper will begin with a brief introduction on the background of the design followed by the design’s application value. The paper will then lead you to the detailed design of this device including the analysis of both the hardware and software parts. Last but not the least, the paper shall show the prototype and the results of the experiment. [来源:http://www.doc163.com]
Keywords: Rotational speed measurement; Micro-controller; Hall sensor
目 录
1、绪论 1
1.1课题的背景 1
1.2研究的应用意义 1
1.3设计的要求 2
2、研究方案设计 2
2.1设计的总体方案 2
2.2系统各模块的方案设计 3
2.2.1测速传感器的选择 3
2.2.2显示模块的选择 3
2.2.3转速测量方案的选择 4
2.3方案设计的确定 5
3、硬件系统设计 5
3.1硬件总体设计 5
3.2霍尔传感器模块 7
3.2.1霍尔传感器的选择与介绍 7
3.2.2霍尔传感器测速原理 7
3.2.3霍尔传感器模块的电路连接 8
3.3单片机模块 9
3.3.1单片机模块的电路连接 9
3.3.2单片机最小系统 10
3.4 LCD显示模块 13
3.4.1 LCD的选择与简介 13
3.4.2 LCD显示模块的电路连接 13
3.5声光报警模块 14
3.5.1 元器件的选择与简介 14
3.5.2 声光报警模块的电路连接 14
3.6按键模块 15
3.7电机控制模块 15
3.8电源供电模块 16
4、软件系统设计 16
4.1使用软件介绍 16
4.2软件总体设计 17
4.3软件各部分设计 18
4.3.1测速部分设计 18
4.3.2按键部分设计 19
[资料来源:Doc163.com]
4.3.3显示部分设计 19
5、设计成果 20
5.1测量结果分析 20
5.2设计实物展示 21
6、总结 22
参考文献 23
致谢 25