摘要步进电机在工业领域广泛使用,其驱动电路的研究也不断深入。然而在研制过程中,如能在做出实物前仿真下必能达到事半功倍的效果。因此,使用Proteus软件进行驱动电路仿真具有一定的实际意义。61558
本文中,首先设计了步进电机的驱动电路:选择驱动75BF003三相六拍步进电机,功率放大单元采用单电压驱动电路,脉冲发生和分配单元使用单片机。设计完驱动电路后,使用Proteus软件,对单片机进行编程来实现步进电机的驱动仿真。仿真结果表明,步进电机能够实现正常的启动停止,正反转,加减速。
毕业论文关键词 步进电机 Proteus仿真 单片机
毕业设计说明书(论文)外文摘要
Title The design of the driving circuit of stepper motor speed control system
Abstract Stepper motor is widely used in the industrial field. The research on the driving circuit is also in progress.However,in the process of development,
multiplier effect would be achieved, if the simulation is conducted before making a mock-up. Therefore, there is certain practical significance using the Proteus software to simulate the driving circuit.
In this paper, the driving circuit of stepper motor is first designed. Also, Three-phase six pat stepper motor is chosen. The power amplification unit is the driving circuit with single voltage. MCU is the pulse generating and distributing unit. After the driving circuit is designed, with the Proteus software, the simulation of stepper motor is conducted. The simulation results show that, the stepper motor can work normally, start or stop working, operate clockwise or anticlockwise, and accelerate or decelerate.
Keywords stepper motor Proteus simulation microcontroller
1 绪论 1
1.1 步进电机概述 1
1.2 步进电机驱动技术发展概况 2
1.3 本课题研究的主要内容及意义 3
2 步进电机的工作原理 4
2.1 步进电机的选择 4
2.2步进电机的结构原理 5
2.3 三相六拍式步进电机 6
2.4 小步距角步进电机 6
2.5 步进电机的重要参数 7
3 功率驱动单元 8
3.1 驱动控制器的组成 8
3.2 单电压驱动电路 8
3.3 其他功放电路 10
4. 脉冲发生和分配单元 11
4.1 ATmega128单片机简介 11
4.2 Atmega128的I/O端口 13
4.3 定时器 15
4.4 光电隔离电路 17
5. Proteus仿真过程分析 17
5.1 Proteus软件简介 17
5.2 程序设计 19
5.3 仿真结果演示分析 20
结论 26
致谢 27
参考文献 28
附录 29
1 引言
ATmega128单片机步进电机调速系统驱动电路设计+电路图+程序:http://www.751com.cn/zidonghua/lunwen_67368.html