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1、密级: NANCHANG UNIVERSITY GONGQIN COLLEGE学 士 学 位 论 文(设 计)THESIS OF BACHELOR(20092013年)中文题目:电压控制振荡电路设计与仿真英文题目:Design and Simulation of voltage controlled oscillator circuit学 院:共青学院系 别:信息工程系专业班级:09电信本学生姓名:聂志辉学 号:8110109023指导教师:刘定军二 一 三 年 五 月学士学位论文原创性声明本人郑重声明:所呈交的论文是本人在导师的指导下独立进行研究所取得的研究成果。除了文中特别加以标注引用的内
2、容外,本论文不包含任何其他个人或集体已经发表或撰写的成果作品。对本文的研究做出重要贡献的个人和集体,均已在文中以明确方式标明。本人完全意识到本声明的法律后果由本人承担。本人签名: 日期: 南昌大学共青学院毕业设计(论文) 摘要摘 要近年来,随着无线通信技术的飞速发展,使市场对射频集成电路产生了巨大的需求。在射频电路中,压控振荡器(VCO)占有非常重要的地位,它是锁相环、时钟恢复电路以及频率综合器的重要组成电路,所以设计高性能的压控振荡器对通信系统性能的提高具有十分重要的意义。自其诞生以来就一直在通信、电子、航海航空航天及医学等领域扮演重要的角色,具有广泛的用途。在无线电技术发展的初期,它就在发
3、射机中用来产生高频载波电压,在超外差接收机中用作本机振荡器,成为发射和接收设备的基本部件。随着电子技术的迅速发展,振荡器的用途也越来越广泛,例如在无线电测量仪器中,它产生各种频段的正弦信号电压;在热加工、热处理、超声波加工和某些医疗设备中,它产生大功率的高频电能对负载加热;某些电气设备用振荡器做成的无触点开关进行控制;电子钟和电子手表中采用频率稳定度很高的振荡电路作为定时部件等。尤其在通信系统电路中,压控振荡器(VCO)是其关键部件,特别是在锁相环电路、时钟恢复电路和频率综合器电路等更是重中之重,可以毫不夸张地说在电子通信技术领域,VCO几乎与电流源和运放具有同等重要地位电压控制振荡器是如今使
4、用非常广泛的一类电子器件,为电一光转换电路、移动式手持设备等提供了很好的解决方案。本设计采用运算放大器741芯片组成的反向积分电路和滞回电压比较器,利用三极管2N222相当于电子开关的功能,控制电容的充放电时间,构成的压控振荡电路,从而实现了输入电压对输出频率变化的控制。只要改变输入端的电压,即可改变输出端的输出频率。从而达到设计的目的和要求。关键词:压控振荡器(VCO);运算放大器741;2N222I 南昌大学共青学院毕业设计(论文) ABSTRACTABSTRACTIn recent years, with the rapid development of wireless communi
5、cation technology, the market has a huge demand on radio frequency integrated circuits. In rf circuit, voltage controlled oscillator (VCO) occupies very important position, it is a phase locked loop, clock recovery circuit and key circuit of frequency synthesizers, so the design of high performance
6、for voltage-controlled oscillator is of great significance to the improvement of the performance of the communication system.Since its birth has been in communications, electronics, navigation, aerospace, and medical and other fields play an important role, has a wide range of USES. At the beginning
7、 of the radio technology development, it is used to generate high frequency carrier wave voltage in the transmitter, used as local oscillator in the superheterodyne receiver, the basic components of equipment become the transmit and receive. With the rapid development of electronic technology, the p
8、urpose of the oscillator is becoming more and more widely, such as in radio measuring instruments, it produces a variety of frequencies of sine signal voltage; In hot working, heat treatment, ultrasonic processing, and some in the medical equipment, it produces high frequency electric energy of powe
9、r on heating load; Some electrical equipment made of contactless switch to control the oscillator; Electronic clock and electronic watches in using high frequency stability of the oscillating circuit as timing components, etc. Especially in the communication system circuit, voltage controlled oscill
10、ator (VCO) is the key components, especially in the phase-locked loop circuit, clock recovery circuit and circuit of frequency synthesizers is Paramount, it is no exaggeration to say in the field of electronic communications technology, VCO with almost have the same important position and current so
11、urceVoltage controlled oscillator is now very widely used class of electronic devices for electric light conversion circuit, mobile handheld devices, etc. Provide solution. This design adopts the operational amplifier, 741 chip of backward integration circuit and the hysteresis voltage comparator, u
12、se 2 n222 triode is equivalent to the function of electronic switches, control the capacitor charge and discharge time, constitute the voltage-controlled oscillation circuit, so as to realize the input voltage to control the output frequency change. As long as you change the voltage at the input and
13、 output can change the output frequency. So as to achieve of the design requirements.Key words: voltage controlled oscillator;Operational amplifier741;2N222II南昌大学共青学院毕业设计(论文) 目录 目 录摘 要IABSTRACTII第1章 绪论11.1 振荡器概述11.2 本课题设计意义11.3 研究范围及参数21.4 应解决的主要问题2第2章 系统方案设计32.1 设计依据和要求32.2 系统的方案论证32.3 输出信号的实现比较42.
14、4 系统方案的选择和设计原理42.5 系统的总原理图5第3章 芯片的选择63.1 运算放大器63.1.1 运算放大器的简介63.1.2 运算放大器的工作原理63.1.3 运算放大器的选择83.2 比较器93.2.1 比较器的简介93.2.2 比较器与运算放大器的区别103.2.3 比较器的分类103.2.4比较器的选择10第4章 单元电路的设计114.1反相积分电路的设计114.2 滞回电压比较电路的设计12第5章 系统电路的仿真与调试155.1 仿真软件的介绍与选择155.2 系统调试主要测试仪器185.3 系统调试185.4 误差分析18总结19参考文献20致 谢21附录A电路原理图22附录B 电压和频率的关系表23附录C电路仿真图24南昌大学共青学院毕业设计(论文) 第1章 绪论第1章 绪论1.1 振荡器概述振荡器广泛应用于各行各业中,例如在无线电测量仪器中,它产生各种频段的正弦信号电压:在热加工、热处理、超声波加工和某些医疗设备中,它产生大功率的高频电能对负载加热;某些电气设备用振荡
