中文摘要随着经济与工业化的飞速发展,汽车这一交通工具越来越普及,给民众带来便利的同时,道路交通事故的发生也愈发频繁,如何避免汽车碰撞事故也成为了一个全社会关注的问题。本文对汽车防撞雷达进行分析,设计了一款小型的24GHz汽车防撞雷达射频与信号处理电路。83122
本文首先介绍了该雷达射频与信号处理电路的整体框架,主要包括处理器模块,电源模块,控制模块,低频模拟放大模块,射频模块,天线模块以及接口电路模块等,其中射频模块主要选择了“单发双收”的24GHz射频芯片BGT24MTR12,处理器芯片则选择与之兼容性较好的32位ARM Cortex-M4内核的XMC4400芯片。通过对系统工作原理的分析,使用Cadence SPB 16。6 Capture CIS软件对电路的原理图进行设计,再使用Allegro软件制作了各元器件的封装,最后完成印制电路板的布局布线设计。
毕业论文关键词 汽车防撞雷达 Cadence 射频模块 中频信号 PCB设计
毕业设计说明书外文摘要
Title Design and implementation of automotive anti-collision radar circuit
Abstract With the rapid development of economy and industrialization, the car as a means of transport becomes more and more widely used。 Car brings convenience to the people, but at the same time,road traffic accidents increasingly occur。 How to avoid the accident of car collision has also received extensive concern。 The thesis aims to analysis the automotive anti-collision radar, and design a small 24 GHz automotive anti-collision radar system。
The article first introduces the overall framework of this radar signal processing circuit, mainly including the processor module, power module, control module, the low frequency analog amplifier module, RF module, antenna module and interface circuit module, etc。 We choose BGT24MTR12 as the main chip of RF module, a 24 GHz transceiver MMIC with one transmitter and two receiver units。 And we select XMC4400 as the main microprocessor based on the ARM Cortex-M4 processor core for its good compatibility。 Through the analysis of the working principle of the system, we use Cadence SPB 16。6 Capture CIS to design schematic diagram of the circuit, then use Allegro to produce various packaging of components and parts, finally complete the layout design of the printed circuit board。
Keywords automotive anti-collision radar Cadence RF module
IF signal PCB design
目录
1 引言 1
1。1 论文背景 1
1。3本文的主要工作 2
2 系统的整体设计方案与功能 3
2。1 系统整体设计方案 3
2。2 工具平台的选择 3
2。2。1 OrCAD Capture CIS设计平台 4
2。2。2 Allegro PCB Editor设计平台 4
3 系统原理图的设计 5
3。1 电源模块的设计 6
3。1。1 VCC_IN电源模块 7
3。1。2 5V电源模块 7
3。1。3 3。3V电源模块