音频功率放大器设计报告

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1 目录 课程设计任务书 „„„„„„„„„„„„„„„„„„„2 摘要 „„„„„„„„„„„„„„„„„„„„„„„„„3 1 模电课设概述„„„„„„„„„„„„„„„„„„„„„„5 1.1设计背景 „„„„„„„„„„„„„„„„„„„„„„5 1.2音频放大类别„„„„„„„„„„„„„„„„„„„„„5 1.3设计目的及意义........................................6 1.4开发环境Multisim 10.0简要介绍.............................7 2 课程设计内容 „„„„„„„„„„„„„„„„„„„„8 2.1功放电路方案的选择 „„„„„„„„„„„„„„„„„ 8 2.2 BTL电路的组成 „„„„„„„„„„„„„„„„„„„„10 2.3 电路仿真 „„„„„„„„„„„„„„„„„„„„13 3 实物焊接及调试过程„„„„„„„„„„„„„„„„18 3.1 焊接实物 „„„„„„„„„„„„„„„„„„„„18 3.2 调试过程遇到的问题及解决方法„„„„„„„„„„„„19 4 总结与心得„„„„„„„„„„„„„„„„„„„„„„„„ 20 附录„„„„„„„„„„„„„„„„„„„„„„„„„„21 附件一 实验原理图 „„„„„„„„„„„„„„„„„„„„„„21 附录二 元件清单„„„„„„„„„„„„„„„„„„„„„„22 附录三 参考文献 „„„„„„„„„„„„„„„„„„„„„„„„23 成绩评定表„„„„„„„„„„„„„„„„„„„„„„„„„„24

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课程设计任务书 学生姓名: 专业班级: 指导教师: 工作单位:、 题 目: 音频功率放大器 初始条件:芯片:TDA2030A、 极性电容、非极性电容、可变电阻、定值电阻、扬声器、 要求完成的主要任务:

1.选择合适的功放电路,如:OCL、OTL、或BTL电路。完成对高 保真音频功率放大器的设计、装备与调试; 2.输入信号Uid≤100mv,频率响应范围30Hz-3KHz; 3.在8Ω扬声器的负载下,输出功率连续可调,最大输出功率达 到6W; 4.音频信号放大后,失真≤5%。 5.效率≥60% 时间安排: 安装调试,地点:

指导教师签名: 年 月 日 系主任(或责任教师)签名: 年 月 日 3

摘要 这学期刚学习模电课,学校要求我们完成一次课程设计任务。模电这门课程主要讲了二极管三极管几种放大电路信号运算与处理电路正弦信号产生电路直流稳压电源。功率放大器的作用是给音响放大器的负载RL扬声器提供一定的输出频率。当负载一定时希望输出的功率尽可能大输出的信号的非线性失真尽可能小效率尽可能高。功率放大器的常见电路形式有OTL电路和OCL电路。有用继承运算放大器和晶体管组成的功率放大器也有专集成电路功率放大器。本实验设计的是一个BTL功率放大器该放大器采用TDA2030A集成功放,并采用双电源电源供电。TDA2030A集成电路的特点是输出功率大,而且保护性能比较完善,其工作电压范围较广,信号失真度较小,使用两块TDA2030A组成BTL电路,输出功率可增至35W。实验用multism软件对BTL功率放大器进行仿真实现。根据电路图和给定的原件参数使用multism软件模拟电路并对其进行静态分析动态分析显示波形图计算数据等操作。 该电路由于价廉质优,使用方便,广泛应用于各种款式收录机和高保真立体声设备中。 关键字BTL、TDA2030A、功率放大、multism。 4

Abstract This semester just learning mode power class, the school requires us to completetask curriculum design.Power module this course mainly tells the diode triode  several amplifying circuit signal operation and processing circuit of the sine signal generating circuit of the DC regulated power supply.The function of power amplifier is to load RL  speaker stereo amplifier provides an output frequency of certain.When as little as possible of the efficiency as high as possible nonlinear distortion of power load is the desired output signal at the output as possible.The common form of power amplifier circuit OTL circuit and OCL circuit.Power amplifier is composed of the inheritance of operational amplifier and transistor also has special integrated circuit power amplifier.The experimental design is a BTL power amplifier at the amplifier using TDA2030A integrated amplifier, and dual power supply.Characteristics of TDA2030A integrated circuit is the output is big, and the protection performance more perfect, the working voltage scope is wide, the signal distortion is small, the use of two TDA2030A BTL circuit, the output power can be increased to 35W.Experiments using Multism software to simulation BTL power amplifier.According to the original parameters of the circuit diagram and the Multism software is used to simulate the static analysis of the circuit and display waveform of the calculated data analysis on the dynamic operation of the. The circuit with low price and high quality, easy to use, widely used in a variety of styles recorder and high-fidelity stereo equipment. Keywords  BTL, TDA2030A, power amplifier, multism. 5

一.模电课设概述 1.1 设计背景

音频放大器的目的是在产生声音的输出元件上重建输入的音频信号,信号音量和功率级都要理想——如实、有效且失真低。音频范围为约20Hz~ 20kHz,因此放大器在此范围内必须有良好的频率响应(驱动频带受限的扬声器时要小一些,如低音喇叭或高音喇叭)。根据应用的不同,功率大小差异很大,从耳机的毫瓦级到TV或PC音频的数瓦,再到“迷你”家庭立体声和汽车音响的几十瓦,直到功率更大的家用和商用音响系统的数百瓦以上,大到能满足整个电影院或礼堂的声音要求。

音频放大器的一种简单模拟实现方案是采用线性模式的晶体管,得到与输入电压成比例的输出电压。正向电压增益通常很高(至少40dB)。如果反馈环包含正向增益,则整个环增益也很高。因为高环路增益能改善性能,即能抑制由正向路径的非线性引起的失真,而且通过提高电源抑制能力(PSR)来降低电源噪声,所以经常采用反馈。

1.2音频放大器的类别 长期以来,高品质音频放大器的工作类别,只限于A类(甲类)和AB类 (甲乙类)。其原因在于过去只有电子管这样的器件,B类(乙类)电子管放大器产生的失真使它们甚至在公共广播用时都难于被人们所接受。所有的自称为高保真放大器均工作于推挽式的A类(甲类)。

随着半导体器件的出现和发展,放大器的设计得到了更多的自由。就放大器的类别而言,已不限于A类(甲类)和AB类(甲乙类),而出现了更多类别的放大器。为了使读者对此有所了解,这里仅就笔者所知的各种类别 的放大器简介如下。不过需要指出,就目前来说用于音频功率放大器的工作类别,A类(甲类)、AB类(甲乙类)和B类(乙类)这三类放大器仍覆盖着 半导体放大器的绝大多数。

(1)A类(甲类)放大器 A类(甲类)放大器,是指电流连续地流过所有输出器件的一种放大器。 这种放大器,由于避免了器件开关所产生的非线性,只要偏置和动态范围控制得当,