汽车防撞系统概述
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随着社会的发展,经济的进步,越来越多的汽车涌上了街头,随之带来交通事故的增多。因此汽车防撞系统受到了跟多人的重视。而由毫米波雷达、激光雷达以及CCD立体视觉系统组成的汽车防撞系统因成本高而无法应用与普通的汽车。超声波测距系统组成的汽车防撞系统,具有成本低、受外界影响小的优点,因此研究大作用距离超声波测距系统组成的汽车防撞系统具有十分重要的意义。
本文采用超声换能器组成的超声波测距系统设计实现汽车防撞系统。整个系统包括超声波发射与接收系统,单片机控制器,LED显示部分,扫描驱动部分。
关键词:汽车防撞系统超声换能器大作用距离测距系统
Abstract
With the development of social and economic progress, an increasing number of cars appear on the streets, which bring more and more traffic accidents. As a result, vehicle collision avoidance systems are paid great attention to. But the vehicle collision avoidance system composed of millimeter-wave radar, laser radar and CCD three-dimensional visual system are too expensive to be used in ordinary cars. The vehicle collision avoidance system using Ultrasonic Ranging has two great advantages, such as low cost and not subject to outside influence. So the study of vehicle collision avoidance system composed of ultrasonic ranging system is significant.
In this paper, the vehicle collision avoidance system contains ultrasonic ranging system composed of ultrasonic transducer. The system consists of Ultrasonic launching and receiving systems, SCM controller, LED display part and the scanning driver.
Keywords: Automobile collision avoidance system Ultrasonic transducer Large sensing-range Distance measurement system
第一章绪论 ................................................................................................................ - 1 -1.1研究背景与课题来源 (1)
1.1.1 各类车载测距传感器及其性能 ................................................................. - 2 -
1.1.2 课题的提出 ................................................................................................. - 2 - 1.2汽车防撞系统的现状 (4)
1.3超声波测距系统 (5)
1.3.1可变阈值与回波包络检波法 ........................................................................ - 6 -
1.3.2 基于互相关函数的时延估计法 ................................................................. - 6 -
1.3.3 谱线分析法与自适应时延估计 ................................................................. - 6 - 1.4超声波测距与定位技术的发展概况. (7)
1.5主要研究工作及内容 (7)
第二章超声波发射与接收电路................................................................................ - 9 -2.1大作用距离超声波换能器. (9)
2.1.1 超声波物理特性与换能器技术指标 ........................................................... - 9 - 2.2超声波发射电路的设计 (11)
2.2.1 推挽变换器的工作原理 ............................................................................. - 11 -
2.2.2 推挽变换器的转换效率 ............................................................................. - 12 - 2.3超声波接收电路的设计 (13)
2.3.1 低噪声前端放大器 ................................................................................... - 13 -
2.3.2 滤波放大电路与电源 ................................................................................. - 15 - 第三章超声波测距系统.......................................................................................... - 16 -3.1超声波测距算法分析 .. (16)
3.1.1 问题分析 ..................................................................................................... - 16 - 3.2超声波测距系统的实现 . (17)
3.2.1单脉冲数字相关测距 .................................................................................. - 18 - 第四章超声波测距汽车防撞系统的设计................................................................ - 19 -4.1系统硬件设计.. (19)
4.1.1系统硬件总体框图 ...................................................................................... - 19 -
4.1.2超声波发射部分 .......................................................................................... - 20 -
4.1.3超声波接收部分 .......................................................................................... - 21 -
4.1.4单片机控制部分 .......................................................................................... - 21 - 4.2系统软件设计.. (22)
4.3系统的调试与优化 (23)
总结 .............................................................................................................................. - 25 -致谢 .............................................................................................................................. - 26 -参考文献 ...................................................................................................................... - 27 -