摘要脉冲信号发生器是信号发生器的一种，可以产生重复频率、脉冲宽度及幅度均为可调的脉冲信号。随着电子技术的迅速发展，高速脉冲信号发生器已经广泛应用于通讯、测控、电子对抗、激光技术以及现代化仪器仪表等各种电子系统的测试和精确控制中。同时，脉冲信号发生器是雷达应用产生时序和控制信号的核心部分，可以通过改变雷达的不同相位实现侦查、追踪和获取目标。
本设计在分析了脉冲信号发生器的特点后，采用Altera公司的QuartusII开发软件，对CycloneII系列的EP2C35F672C6芯片进行开发，在DE2板子上通过晶振电路产生基本脉冲，利用FPGA设计并实现分频、脉宽调节和单个脉冲输出等基本控制，并可通过串口输入控制和LCD显示，从而实现一个可以进行频率和脉宽调节控制的脉冲信号发生器。9516
关键词  FPGA  VHDL语言  QuartusII平台  PWM信号
毕业设计说明书（论文）外文摘要
Title    FPGA-based Design and Implementation of Pulse  Signal Generator                                                
Abstract
The pulse signal generator is a kind of signal generator, which can produce pulses with adjustable frequency, pulse width and amplitude. With the rapid development of electronic technology, high speed pulse signal generator has been widely used in communication, monitoring and control, ECM, laser technology, modern instruments and other electronic system of testing and precise controling. At the same time, the pulse signal generator is the core part of producing timing and control signals in radar applications, by changing the different phase of radar to realize the goal of investigation, tracking, and getting targets.
After the analysis of the characteristics of the pulse signal generator,the design used the QuartusII development software by the Altera company, on CycloneII series of EP2C35F672C6 chips for development in DE2 board. Through the basic pulse generated by crystals circuitry, we used the FPGA to realize the frequency demultiplication, pulse width adjustment, the single pulse and other basic controls, and through a serial port input control and LCD display to achieve a signal pulse generator with undertake frequency and pulse width adjustment.
Keywords   FPGA   VHDL language   QuartusII platform   PWM signal
目   录
1  绪论    1
1.1  脉冲信号发生器概述    1
1.2  VHDL语言及FPGA简介    2
1.3  基于FPGA的EDA设计流程    3
1.4  QuartusII简介    4
2  系统方案分析    5
2.1  系统指标和实现方案选择    5
2.2  可变时钟源的选择    6
2.3  单脉冲信号产生方案的选择    6
2.4  输入和显示方式的选择    6
3  系统理论分析与计算    7
3.1  连续脉冲PWM信号的产生    7
3.2  单脉冲信号的产生    8
3.3  串口输入    9
3.4  LCD显示    10
4  电路与程序设计    11
4.1  电路的设计    11
4.2  程序的设计    28
5  测试方案与测试结果    29
5.1  测试方案    29
5.2  测试仪器    31
5.3  测试结果及分析    31 基于FPGA的脉冲信号发生器设计:http://www.youerw.com/tongxin/lunwen_8266.html