基于单片机的直流电机测速、调速及显示系统设计摘要本文主要研究了利用Quick51系列单片机控制PWM信号从而实现对直流电机转速进行控制的方法。单片机具有体积小、功能强、成本低、应用面广泛等优点,可以说,智能控制与自动控制的核心就是单片机。目前,一个学习与应用单片机的高潮在全社会大规模地兴起。学习单片机的最有效方法就是理论与实践并重,本文用8051单片机自制了一个采用了专门的芯片组成了PWM信号的发生系统,并且对PWM信号的原理、产生方法以及如何通过软件编程对PWM信号占空比进行调节,从而控制其输入信号波形等均作了详细的阐述。还对直流电机的速度进行了测量和显示。关键词:单片机、PWM、调速、测速、显示系统目录摘要..................................................................................................................................................1目录..................................................................................................................................................2第一章概述..............................................................................................................................31.1概述................................................................31.2Quick51的技术简介和发展前景.........................................31.2.1SmartSOPC与Quick51.......................................................................................31.2.2Quick51特性......................................................................................................4第二章总体方案设计......................................................................................................................52.18051单片机简介......................................................62.2PWM信号发生电路设计................................................122.2.1PWM的基本原理................................................................................................122.3128*64液晶显示......................................................13第三章硬件设计与连接................................................................................................................143.1传感器电路设计.......................................................143.2信号处理电路设计.....................................................163.3存储器电路设计.......................................................173.3.1I2C总线概述......................................................................................................173.3.2存储器电路.........................................................................................................183.4显示电路设计.........................................................183.5PWM信号发生电路设计.................................................19第四章软件设计..........................................................................................................................204.1系统软件总流程图.....................................................204.2程序清单.............................................................21第五章结论与展望.......................................................................................................................31附录................................................................................................................................................32附一速度控制子程序......................................................32附二电路图............................................................
