摘要本文以“飞思卡尔”杯全国大学生智能汽车竞赛为背景,根据大赛规则,提出了基于光电导引的智能车控制系统的硬件设计方案。在本设计中,为了能让智能车直立,对车模的机械结构进行了调整。控制核心芯片采用飞思卡尔公司Coldfire MCF52233,整个硬件电路设计采用模块化思想,包括核心控制模块、电源管理模块、光电传感器模块、电机驱动模块、速度检测模块、人机接口模块和蓝牙通信模块等。为了保证系统的运行性能和可靠性,根据EMC理论设计了整套的PCB板。最后完成系统各功能模块调试以及系统联调工作。实际结果表明,系统性能优良,满足设计要求。63737
关键词 智能车 硬件设计 光电传感器 MCF52233
毕业设计说明书(论文)外文摘要
Title Design and Realization of Intelligent Vehicle for the Freescale Cup —— Hardware Design of the Photoelectric Sensor Guidance Intelligent Vehicle Control System based on 32-bit MCU
Abstract This topic is based on the eighth Freescale Cup National University intelligent car contest. According to contest rules, the hardware design of intelligent vehicle control system based on photoelectric guidance has been proposed. And mechanical structure has been adjusted in order to make intelligent vehicle upright on the car models. We use Freescale Coldfire MCF52233 as control core chip to design the entire hardware circuit based on modular thinking, including core control module, power management module, photoelectric sensor module, motor drive module, the speed detection module, human interface module and bluetooth communication module. To ensure the operation performance and reliability of the system, the entire PCB board has been designed according to EMC theory. Finally we complete debugging of every module and the whole system. Actual results show that the system performance meets the design requirements.
Keywords Smart Car Hardware Design Photoelectric sensor MCF52233
1 引言 1
1.1 课题研究背景及意义 1
1.3 智能车关键技术分析 3
1.4 “飞思卡尔”杯全国大学生智能车竞赛简介 4
1.5 本文主要研究内容和组织结构 5
2 32位光电车控制系统总体设计 6
2.1 系统设计方案 6
2.2 系统总体框图 6
2.3 系统工作原理 8
2.4 系统主要特点 9
2.5 本章小结 9
3 32位光电车控制系统硬件电路设计 10
3.1 硬件电路总体组成结构 10
3.2 电源管理模块 11
3.3 核心控制模块 14
3.4 角度传感器模块 22
3.5 光电传感器模块 24
3.6 速度传感器模块 25
3.7 电机驱动模块 27
3.8 人机接口模块 29
3.9 蓝牙通信模块