摘要为了达到控制汽车尾门一键式开启/关闭且平稳运行的目的,选择TMS320 F2812芯片作为主控芯片,通过检测到输入的有效开关门信号,进行电机转向及速度的调节。电机运转过程中,通过输入霍尔信号进行速度计算,通过改变PWM信号进行直流电机PID速度调节,让电机转动达到平稳状态。并且设计电流检测模块,防止运行中电流过大,保护电机以及人员安全。并根据系统要求,进行PCB硬件电路设计。并对设计好的硬件部分测试功能及其稳定性。最终实现整个尾门控制系统的设计。并且实际测试结果表明,该系统具有简单有效,运行稳定,响应时间短的特点,达到设计要求。83920
毕业论文关键词 电动尾门系统 直流电机调速 PID 电流检测
毕业设计说明书外文摘要
Title The Design of Electric Controller For Automobile Rear Door
Abstract In order to achieve the control of opening/closing automobile tail gate by one click and make it smooth。 I choose TMS320 F2812 chips as the main control chip and regulate motor steering and speed by detecting the valid input of opening and closing signal。 In motor operation process, the controller calculate the speed of motor through the input Holzer signal and adjust the speed of DC motor through changing the PWM signal using PID, so that the motor rotation will reach a stable state。 And the design of the current detection module can prevent the operation current from being too large and it will be able to protect the motor and personnel safety。 According to the system requirements, the PCB of hardware design is carried out。 I have tested the function and stability of the hardware design。 Finally, the design of the whole tail gate control system is realized。 And the actual test results show that the system is simple and effective with stable operation and short response time and achieve the design requirements。
Keywords electric rear door system,DC motor speed regulation,current detection ,PID control
目 次
1 绪论 1
1。1研究前景与意义 1
1。2论文主要内容安排 2
2 直流电机工作原理及调速控制方法 3
2。1有刷直流电机构造和分类 3
2。2有刷直流电机工作原理 4
2。3 直流电机驱动 4
2。4 PID控制 7
2。5直流电机的PWM调速 11
2。6编码器 11
2。7 DSP数字信号处理器 13
3 硬件设计部分 15
3。1 主控芯片TMS320F2812 15
3。2 开关信号接收部分 16
3。3 测速模块 17
3。4 电源指示灯和蜂鸣器部分 18
3。5 驱动器模块 18
3。6 保护过电流信号模块 20
3。7 PWM电平转换模块 20
3。8时钟和电源模块 21
3。9 JTAG接口模块 23
3。10 硬件实物图 23
4 控制器系统软件设计