专业功放电路图

制作晶体管靓声甲类功放电路图制作晶体管靓声甲类功放电路许多发烧友都乐于制作功放，但多局限于一些单片集成功放如LM1875、LM3886、LM4766、TDA7294等,用这些IC制作的功放其音质要好于市面上一些中、低档功放，但与一些高档Hi-Fi功放相比，音质仍有较大的差距。

这里推荐几款容易制作的靓声甲类功放电路以供参考。

其组成框图如图1所示。

该电路具有如下特点:1.采用板块积木式组合，可根据自身经济状况适当增减。

2.电压放大部分与电流放大部分分开设计、布版，便于烧友采用高、低压两组电源分开供电，可选择众多特色的后级电路搭配，也便于安装固定散热片，为发烧友摩机提供方便。

3.采用无大环负反馈设计，可进一步改善扬声器负反馈电动势对音质的影响。

限于篇幅，这里简介电压放大部分与电流放大部分。

以下均为双声道设计，仅给出一个声道的原理图，另一声道、电源与保护电路图略。

一、电压放大部分使用厂家提供的成品板。

该板双声道设计，采用双面镀金线路板制作，板上大量使用发烧器件，如五环金属膜电阻、ELNA发烧电容、音频专用高频管、低噪声恒流源专用场效应管等。

原理简图如图2所示。

使用孪生场效应管NPD5565输入，采用共源共基电路、有源负载及差分电路，与马兰士公司的HDAM模块电路及国内一些厂家生产的电压放大模块电路相比，本电路显得设计更趋于该电压放大板对电源适应范围较宽，±35V～±60V都可工作，建议电压放大部分供电采用并联式稳压电源，且比电流放大部分电压高出5V～10V。

完善，音质也更理想。

二、电流放大部分有多种电流放大板可与上述电压放大板配套，下表列出所用功率管的部分参数供发烧友参考。

1.2SK2013/2SJ313推动3对2SK1529/J200,原理图如图3所示。

2.2SK2013/2SJ313推动3对2SC5200/2SA1943,原理图略，可参考图3，装配时只需把K1529/J200换为C5200/A1943即可。

NE5532功放说到小功率的耳放，不得不提到20世纪的运放之王NE5532，曾经出现在无数的优秀前级放大、调音电路之中，中频温暖细腻厚实，胆味十足，性价比很高!直到今天我们还能很容易地在一些中低档的音响产品中找到它。

由于其体积小、电路简单，所以是讲究实用性、低投入的动手派的首选。

因为NE5532从面世到如今已历经数载，大家对其电路也非常熟悉，有着多种多样的玩法。

在此介绍的耳放的特点是简单、功率小，侧重的是制作的过程。

一、原理分析NE5532是典型的双极型输入运算放大器，用单个NE5532组成的小功率电路有很多版本，本人通过不断地对比和思考，对那些五花八门的电路图作了修改，最终确定了原理图(图1)。

放大倍数是由R3(R4)和R5(R6)来控制的，理论上说如果R3(R4)为1kΩ，R5(R6)为100kΩ，则其放大倍数为100倍，但对于耳放来说，这会引起自激，再说就算真的能达到100倍，效果也不可能好，所以这个电路用于前级时也最好别调成100倍。

当然，对于耳放定2～3倍可以让负反馈适量、音质柔和、清晰更通透，但放大倍数也不能太小，否则也会影响音质，大家可以反复调试，达到自己满意的效果。

笔者是将R3(R4)定为1kΩ，R5(R6)定为20 kΩ，即2倍。

C5(C6)是输入回路的对地通路，在用于耳放电路时应该加大，原理图中的值为22 uF，但用于此耳放应该加大到100 uF。

在这里值得一提的是电源问题，如果你是使用的稳压电源，要注意稳压电源的滤波要给足，因为本电路本身就非常简单，那么对元器件的选取就比较挑剔，建议在选材时尽量选择质量好一点的元器件。

二、PCB绘制笔者使用Protel 99 SE进行布线设计，大家看到的这个PCB图(图2)是我画的第三版，也是我最满意的一版，前几版都存在着飞线，而这一版是没有的，网上的很多版本都存在着飞线的问题，这对挑剔的动手派是不能容忍的。

由于面积小，所以在接地方面要尽量争取一点接地，输入和输出端也可以根据实际情况进行改动。

E5532前级音调板电路原理图NE5532是高性能低噪声双运算放大器（双运放）集成电路。

与很多标准运放相似，但它具有更好的噪声性能，优良的输出驱动能力及相当高的小信号带宽，电源电压范围大等特点。

因此很适合应用在高品质和专业音响设备、仪器、控制电路及电话通道放大器。

用作音频放大时音色温暖，保真度高，在上世纪九十年代初的音响界被发烧友们誉为“运放之皇”，至今仍是很多音响发烧友手中必备的运放之一。

E5532前级音调板电路原理图NE5532耳机放大器制作1、电源部分：该部分包括整流、滤波、稳压以及通电工作指示几部分。

整流用的是小电流的桥堆，但对付着运放是绰绰有余的；滤波对电路较为重要，故采用的是日本较为有名的依娜电容，每一边电源为1000uF；稳压采用的是大家较为熟悉的78和79系列的三端稳压管，这种管子的质量还是不错的，指示简单了，一个电阻串一个发光二极管主电路部分该部分是最关键的，耳放作出来质量好不好，很大程度决定于电路的设计以及相关元件的运用，在此谈谈我的经验。

运放是最关键的，一颗优质的运放才能把声音演绎的更优美，由于陶瓷封装的运放较贵，金封的就更不用说了，所以之运用的塑封的NE5532运放，当然也可以选择更好的音频运放，但价格也高。

耦合电容C9（C10）是比较关键的，要使用优质的电容，最好用发烧级的电容，比如日本的依娜（ELNA）、瑞典出的RIFA、红美人、美国的西电、黑寡妇、飞利浦等等，我尝试过好几种，包括以前没听见过的金黄金黄的雅马哈电容，红的似血的红美人，还有天蓝天蓝的ELNA，个个外表诱人得没话可说，可是用在电路上感觉不适合我的耳朵，后来换上了蓝精灵（MUSC）系列的才觉得满意，当然大家也可以用一般的电容制作，但个人觉得声音是有区别。

电路中R9（R10）和R6（R7）的阻值应反复调试。

在前置放大电路中R9（R10）一般为100KΩ，而R6（R7）为1KΩ，这样它的放大倍数可达100倍。

但现在作功放，就会出现自激，因此将R9（R10）改用8.2K，R9（R10）减为33K，放大倍数只有4倍，电路就不会自激，同时负反馈也适量，音质柔和、清晰、通透度高。

用ＬＭ３８８６制作了一款功放电路，在用学校ＤＶＤ机试听时，总感到声音效果不如人意，响度也达不到标称功率效果。

虽经多次调整电路参数（包括提升了电源电压），但收效甚微。

后来看到有关刊物介绍ＬＭ３８８６放大倍数偏小，需要有足够幅度的激励信号，才能收到较好的效果。

为此，笔者选用“运放之星”ＮＥ５５３２制作了一款前置放大电路加在功放输入端，再次试听，音效、响度明显得到了改善。

现将制作的前放电路介绍如下：图１为前放电路的直流伺服电源电路，给前放电路提供稳定的±１２Ｖ电源。

稳压电路采用三端集成稳压块，并且使用一片ＮＥ５５３２构成伺服电路，实现对输出电压的实时跟踪与调整。

图２为前置放大电路，电路采用了“运放之星”ＮＥ５５３２构成同相比例运算放大电路，其放大倍数为５倍左右（主要由Ｒ９、Ｒ７、Ｒ１０、Ｒ８决定），Ｃ１５、Ｃ１６在电路中具有提升高音频信号的作用。

Ｊ１接环变的双１２Ｖ输出端，Ｊ２为信号输入端，Ｊ３为信号输出端（接功放输入端）。

图３为印刷电路板图，图４为元件布置图。

具体安装时，可将此电路板安装在功放箱中靠近背面的附近。

通孔，并经过Ｊ２（双信号插座）接音源。

本电路也适用于其他音源幅值较小的组合系统作为功放的前置放户外演出和歌舞厅所使用的专业音响，多数为进口设备，应该说可靠性较高。

主要问题是操作者专业素质不齐，真正配备合格调音师的单位很少。

本文针对中、小型歌舞厅音响设备操作要点进行解说，可做为制订操作规程的参考。

另外，在中小型歌舞厅由于话筒声反馈造成的自激啸叫现象，是常见的令使用者头疼的问题，因为经常出现啸叫会令宾客扫兴，音响效果无从谈起，严重者会造成设备损坏。

所以，自激啸叫现象是歌舞厅音响使用中的一个重要问题，下面分别叙述。

一、音响设备开、关机顺序应按由前到后顺序开机，即由音源设备(CD机、LD机、DVD机、录音机、录像机)、音频处理设备(压限器、激励器、效果器、分频器、均衡器等)到音频功率放大器到电视机、投影机、监视器。

ETC QB-6360专业功放电路近日接修一台美国ETC公司的QB－6360专业功放，这种大功率功放与ETC 的其它配套设备在舞厅、会堂、舞台等场合使用较多。

因没有现成的资料，根据实物绘制了的电路图，从图中可看出该功放的电路很有特点。

现将其电路特点简介和整机电路提供给大家。

该机属纯后级功率放大器，图一是单个声道的前置放大电路，信号输入端的卡侬插座和6.5大插座均采用平衡式输入方式，能与调音台进行标准的平衡配接。

由三芯线输入的热冷端信号分别送到运算放大器NE5532的正反相输入端，放大后信号经音量电位器控制后送到OCL功率放大电路。

该机把OCL的差分输入和电压放大部分与后面的推动输出分开，与前置电路设置在一块电路板上，这是该功放的特点之一。

这样设置能有效的减小后边大电流电路分布干扰和功率元器件温度升高的影响。

输入级采用双差分电路，正负电源稳压成15V后为差分电路提供恒流源，同时也为运算放大器提供双电源。

电压放大采用复合管放大方式是又一特点，高倍率的电压放大为后级提供足够的驱动电压。

左右声道这部分电路设置在同一块电路板上，用插接线与后级电路连接。

图二是一个声道的OCL电路的电流放大和功率输出部分组成的功率板电路图，两个声道各成一块电路板安装在各自的大散热片上。

连接线把前置的正反相驱动电压送到功率板，又把功率板上的正负电源、接地线、末端反馈信号送到前置板。

电流放大采用两级放大是它的第三个特点，先是一对中功率管，接着又是一对大功率管。

推动级采用大功率的2SC5200、2SA1943可见其输出功率非同一般。

功率输出使用六对2SC5200、2SA1943，供电电压是正负90V，最大输出功率应接近千瓦。

该机设置了多种保护措施，图三是扬声器保护电路和电源启动延迟电路，扬声器保护电路与常见电路一样，特点是电源启动延迟电路的设置。

图四是电源电路，电源变压器是1000W的大环牛，变压器次级双交流70V整流后滤波电容是四个6800uF的电解电容。

TDA7294 200W 2.1低音炮电路图SGS-THOMSON意法微电子公司向中国大陆推出一款音色颇有新意的DMOS大功率集成功放TDA7294,一扫以往线性集成功放和厚膜集成功放生、冷、硬的音色,广泛用于Hi-Fi领域,如家庭影院、有源音箱。

该器件为15脚封装,外形如图所示。

各端脚作用如下:①脚为待机端；②脚为反相输入端；③脚为正相输入端；④脚接地；⑤、⑾、⑿脚为空脚；⑥脚为自举端；⑦脚为+Vs(信号处理部分）；⑧脚为-Vs(信号处理部分)；⑨脚为待机脚；⑩脚为静音脚；⒀脚为+Vs(末级）;⒁脚为输出端；⒂脚为-Vs(末级）。

欧洲著名TDA7294内部线路设计以音色为重点，兼有双极信号处理电路和功率MOS的特点，具有耐压高、低噪音、低失真度、重放音色极具亲和力等特色；短路电流及过热保护功能使其性能更加完善。

TDA7294主要参数为：Vs（电源电压）为±10V ~±40V；I0（输出电流峰值）为10A；TDA7294标准应用电路闭环增益为30dB，增大R3或减小R2可以提高放大器增益,反之增益下降；R4、C4决定待机时间常数，取值大时增加等待开/关时间，反之缩短时间；R5、R6、C3决定静音时间常数，取值大时静音时间延长，反之缩短；当控制端接低电位时为待机或静音状态。

当控制端接Vs时，因（R5+R6）〉R4，⑩脚比⑨脚后升到高电位，而关机时先变为低电位，这就使待机和关机过程均在静音状态下进行，保证了放大器开关机无噪声。

【元器件选择与安装】（1）安装：自装之前应备齐器件,元件选用优质正品。

滤波电解电容容量应达到6800μF（最好10000UF）,耐压50V；电阻采用金属模型；整流管电流应为5A以上；电源变压器可采用环形，也可以采用EI型以降低成本，但容量应该足够大，最好400-500W，这样才能保证放大器低频特性优良。

元件备齐后，须用万用表逐一检查，避免把开路、短路或变质元件装入电路板，给下一步通电调试带来麻烦。

NE5532功放说到小功率的耳放，不得不提到20世纪的运放之王NE5532，曾经出现在无数的优秀前级放大、调音电路之中，中频温暖细腻厚实，胆味十足，性价比很高!直到今天我们还能很容易地在一些中低档的音响产品中找到它。

由于其体积小、电路简单，所以是讲究实用性、低投入的动手派的首选。

因为NE5532从面世到如今已历经数载，大家对其电路也非常熟悉，有着多种多样的玩法。

在此介绍的耳放的特点是简单、功率小，侧重的是制作的过程。

一、原理分析NE5532是典型的双极型输入运算放大器，用单个NE5532组成的小功率电路有很多版本，本人通过不断地对比和思考，对那些五花八门的电路图作了修改，最终确定了原理图(图1)。

放大倍数是由R3(R4)和R5(R6)来控制的，理论上说如果R3(R4)为1kΩ，R5(R6)为100kΩ，则其放大倍数为100倍，但对于耳放来说，这会引起自激，再说就算真的能达到100倍，效果也不可能好，所以这个电路用于前级时也最好别调成100倍。

当然，对于耳放定2～3倍可以让负反馈适量、音质柔和、清晰更通透，但放大倍数也不能太小，否则也会影响音质，大家可以反复调试，达到自己满意的效果。

笔者是将R3(R4)定为1kΩ，R5(R6)定为20 kΩ，即2倍。

C5(C6)是输入回路的对地通路，在用于耳放电路时应该加大，原理图中的值为22 uF，但用于此耳放应该加大到100 uF。

在这里值得一提的是电源问题，如果你是使用的稳压电源，要注意稳压电源的滤波要给足，因为本电路本身就非常简单，那么对元器件的选取就比较挑剔，建议在选材时尽量选择质量好一点的元器件。

二、PCB绘制笔者使用Protel 99 SE进行布线设计，大家看到的这个PCB图(图2)是我画的第三版，也是我最满意的一版，前几版都存在着飞线，而这一版是没有的，网上的很多版本都存在着飞线的问题，这对挑剔的动手派是不能容忍的。

由于面积小，所以在接地方面要尽量争取一点接地，输入和输出端也可以根据实际情况进行改动。

我觉得J形天线还是比较好做的，只要阻抗匹配上了就不会烧机，最好有个驻波表，J形天线不用地网而且增益较高，馈线用50欧的，越粗越好，至少用-5的（SYV50-5），长度再不影响天线高度的情况下越段越好，功放不会烧手台，因为它放大的是发射出去的功率，最多是因为匹配问题把天线和功放它自己烧了。

但是我不建议你买功放，一是因为不符合四级操作证对功率的限制，二，玩无线电玩的就是天线，特别是在UV段，功率再大，在通常情况下最远也就穿个百八十公里，而且对身体不好。

Very high frequency (VHF)（甚高频）是指频带由30 MHz 到300 MHz的无线电电波.UHF波段则是指频率为300~3000MHz的特高频无线电波。

VHF包含1-12频道，UHF包含我国频率范围470MHz～806MHz .完全可以，虽然不是专用的效果还不错，我以前用过，对刚入门或者要求不高者，是最经纪实惠的，大功率无绳电话天线大概30多元，装上天线以后，我轻松打开70公里以外的中继。

性价比最高的选择是买个华鸿玻璃钢GP天线，长度一米二。

，俗称棒子UV双段的100元，再加上你所需要的馈线，一米8元左右，花钱也不多，比那更专业，效果更好！推荐你选择棒子天线如果是自己做，需要看你使用对讲机的频率是多少，然后计算出天线长度比如：频率=430MHz 天线长度=（300/430）/4。

这个长度是天线伸出屏蔽的长度。

过长过短都影响发射效果，严重的话会烧毁对讲机的高频放大管。

五、30MHz对讲机天线的自制1．法向模螺旋天线对讲机用法向模螺旋天线一般都较短，长度只有12—16cm，它是在一个绝缘的骨架(可为空心结构，直径约为11mm，如聚丙烯塑料棒等)用相互绝缘金属导线(如漆包线)均匀绕制在骨架上再加上天线座而成，若长度在16cm，线圈的圈数约为120T左右，若长度在12cm，线圈的圈数约为155T左右，具体的调试方法是：将绕好的天线(要多绕十圈左右)接上对讲机，在旁边放一场强计，按下发射开关，从天线顶部开始，一圈一圈的剪短线圈，直到场强计指示最大即为天线的谐振状态，此时将天线的松紧状态作一些微调，使场强计指示最大即将天线用绝缘胶布缠绕牢固即可。

毕业设计（论文）题目：专业：应用电子技术班级：学号:姓名：指导老师:成都工业学院二〇一四年六月摘要随着社会的不断发展，功放出现在了人们生活的方方面面.目前,音频功率放大器仍以模拟功放为主流产品，模拟功放经历了数十年的不断改进和完善，其技术已发展到了顶峰。

模拟类功放是以线性放大为基础，功率放大器件有电子管和晶体管两类。

晶体管功放的最大优点是电源转换效率高（C类功放最大可达55％）、体积小、重量轻、发热量不大、生产成本低.缺点是转换速率低、偶次谐波失真较大。

音质和可靠性指标都略逊于电子管功放。

随着晶体管制造技术的不断提高和新技术的应用，各项实用性指标和可靠性指标都有很大改善,并不断在向更大的输出功率、更小的体积、更轻的重量、更多的功能和智能化方向发展本设计是紧贴现实生活来设计的是一个实用音频功率放大器。

设计电路主要由前置放大电路、音调控制电路及功率放大电路三部分构成，其中，前置放大电路采用同相比例运算器来实现电压的放大；音调控制电路采用负反馈式来实现音调控制；前置放大电路及音调控制电路均采用NE5532双运放实现，功率放大电路采用TDA2030功率放大器来实现功率放大.关键词：音频功率放大器NE5532 TDA2030AbstractWith the development of society， the power amplifier in all aspects of people's lives. At present, the audio power amplifier with analog amplifier is the mainstream products， analog amplifier has experienced decades of continuous improvement and perfection， its technology has developed to a peak。

摘要随着音响技术的发展，整个音响技术领域发生了巨大的变化，它不仅融合了音频技术和功放技术，现代人对听觉的水平要求越来越高，所以对音响的音质真色，音高和音强等音质状况本来面貌的能力，同时对声音信号进行必要的修饰和加工。

因此，此次实训题目是双通道集成功率放大器。

本文主要介绍的是由NE5532芯片构成的音频放大器，它在音频应用场合提供低失真度和较高质量的音色，以及具有较宽的通频带。

放大倍数可根据需要更改，方便设计者研究。

关键词：音频技术；NE5532芯片；功率放大器AbstractWith the development of audio technology, gigantic change happened in the entire audio technology field , it has fused not only VF technology and meritorious service readjust oneself to a certain extent technology, horizontal demand of modernist to sense of hearing is more and more high, therefore to real color of the audio acoustic fidelity , pitch accord waits for an acoustic fidelity by force status original face ability, carries out necessary polishing and treating on sound signal at the same time. That reality trains examination questions is a binary channels integration power amplifier therefore , this time.That the main body of a book is introduced mainly is the VF amplifier being composed of NE5532 chip, as well as having broader band its tone colour applying occasion providing low distortion degree and higher mass in VF. Need changes , the convenient designer studies multiplications but basis.Keywords:VF technology;NE5532 chip; Power amplifier目录引言 (1)1主要器件功能介绍 (1)1.1三极管 (1)1.1.1三极管外形特征 (1)1.1.2达林顿三极管 (1)1.1.3三极管工作原理 (2)1.2 NE5532芯片 (2)1.2.1 NE5532的管脚分布 (2)1.2.2 NE5532的特点 (2)1.2.3 NE5532的主要参数 (3)2集成功率放大电路 (3)2.1负反馈电路作用及原理 (3)2.1.1放大器非线性失真 (4)2.1.2放大器幅频特性 (4)2.1.3负反馈降低噪声原理 (5)2.2自激及消振 (5)2.2.1自激 (5)2.2.2消振电路原理 (6)2.3功率放大器工作原理 (6)3双声道集成功率设计 (6)3.1 原理图设计 (6)3.2 电路音量调节部分 (6)3.3 NE5532构成前级电压放大 (6)3.4 三极管构成后级电流放大 (6)4实物制作与调试说明 (7)4.1 制作电路板 (7)4.1.1 PCB设计流程如图7所示。

CAC DSA-1800A专业功放电路分析与维修CAC DSA-1800A是一款具有输入音量自动增益控制并采用高效G类放大器的专业功放，后面板标注是“USA”产品，不管是原装还是山寨，其独特的电路设计很值得分析与解读。

这是其中一个声道的电路板与抄板电路图。

平衡输入的冷热端信号分别送入1C2a的正反相输入端，放大后送到6.5mm插孔的插断触点。

如果不使用6.5mm插头，平衡输入的信号通过插孔触点直接输给后边电路。

当使用6.5mm插头输入信号时，平衡输入就被断开。

输入的信号经C7隔直耦合通过双芯屏蔽线连接到前面板的音量电位器，经衰减控制后返回到IC1的③脚进行放大，由⑥脚输出。

输出的信号一路提供给电压放大级进行电压放大，另一路送到由四运放LF347构成的音量自动增益控制插件。

信号经IN脚进入插件小板，经两个二极管全波整流形成一个能反映信号强度的直流电压。

（插件元件序号是作者所加，为了区别插件与主电路元件序号，插件序号前加“-”）IC-1a对这个电压进行倒相放大，①脚输出负电压通过-R5加到IC-1b⑥脚。

同时从-R6来的正压也加在⑥脚。

输入信号较小时，⑥脚成正压，⑦脚输出负电压。

由于-D3 -D4两个二极管不导通，插件电路对输入信号不起作用。

当输入信号过强时，⑥脚变成负压，倒相放大后由⑦脚输出正电压。

这个电压一路送到IC-1c由⑧脚缓冲输出，驱动光电耦合器的发光二极管点亮，耦合器中的光敏电阻受光后电阻变小。

此光敏电阻经OUT脚与IC1③脚相连，把输入到③脚的信号分流，起到自动增益控制的作用。

另一路由IC-1d放大后由CLIP脚输出，使显示面板的削波指示灯点亮。

Q1 Q2 是第一级电压放大，Q4 Q6是第二级电压放大。

一般功放电路中，没有 Q3 Q5两个三极管。

增加这两个管子可对Q4 Q6通过的电流进行监控。

从图中可看出Q3 Q5的基极偏置电阻R23 R28只有20Ω，如果Q4 Q6的集电极电流不超过±30mA，Q3 Q5因没有足够的偏置电压而不导通。

功放维修图解目前流行的功率放大器除采用集成电路功放外几乎都是用分立元件构成的OCL电路。

基本电路由差动输入级、电压放大级、电流放大级（推动级）、功率输出级和保护电路组成。

附图A是结构框、图B是实用电路例图，有结构简单的基本电路形式，也有增加了辅助电路和补偿电路的复杂电路形式。

本文把常见的OCL电路分解成几块，从电路的简单原理，常见的电路构成，检查时电路的识别，维修的基本方法逐个进行介绍。

认识了局部电路拼出整个电路图时功放的维修就相对容易多了。

C是电压分布图。

电压测量是功放检修中基本方法，电压分布是以输入端到输出端为0V中轴线，越向上红色越深表示正电压越高，越向下蓝色越深表示负电压越低。

图B这种全对称电路电压也正负对称，是检修测量的主要依据。

一、差动输入级图1是最基本的差动（差分）输入级电路，它由两个完全对称的单管放大器组合而成，两个管的基极分别是正负输入端。

一个输入端作为信号输入用，另一个输入端为反向输入末端负反馈用。

因其能有效地抑制输出端的零点漂移而成为OCL电路的输入门户。

输入级有单差动和双差动之别，单差动电路简洁，双差动对称性好。

从前级送来的信号通过一个电容和电阻所连接的三极管就是差动输入级，相邻的同型号管子就是差动的另一半。

输入端接的是一个管的基极则是单差动，如接着两个管的基极，就是双差动。

为克服电源波动对电路的影响，图2在差动放大器的发射极增加了恒流源。

有的在集电极增加了镜流源如图3，保证了差动两管静态电流的一致性。

图4是既有恒流源又有镜流源的高挡机采用的差动输入电路。

图5、6、7 是常见的三种恒流源电路，尤其是图6这种利用二极管箝位方式用的最多，两个二极管将三极管基极稳定在1.4V左右，在电源电压波动时，差动级的静态电流保持不变，提高了放大器的稳定性。

图8、9镜流源中两个三极管基极相连，发射极电阻相同，流过两管的电流一样，像照镜子一样确保差动两个管的静态电流一致性。

这两部分电路的识别方法是差动管两发射极电阻归到一点后所连接的三极管就是恒流源，它最明显的特点就是基极上接有二极管或稳压管。

专业功放电路图贝拉利BEILARLY PM-700专业功放根据贝拉利PM-700功放的实物绘制的一个声道的主功放电路图。

Q1、Q2两只2SC2383构成差分输入级，R8、ZD1、C3组成差分放大器的恒流源。

Q1的基极增加了R3、R4、RP1、D1、D2辅助电路，一是对输入端进行直流钳位，通过调整RP1可对输出中点进行调整；二是对输入的交流信号进行限幅，使输入信号峰峰值被限制在±0.7V以内，防止输入信号过强。

电压放大级Q3、Q4组成第二级差分放大器，Q5、Q6构成集电极负载。

恒压偏置管Q7、Q8两管并联使用，Q8由引线连接安装在散热片上，起到温度补偿作用。

该机每个声道的最大输出功率接近1000W，为保证足够的推动电流，电路设置了两级电流放大。

第一级Q9、Q10使用一对中功率管，两只中功率管b、c极间设有吸收电容C11、Cl2，进行高频相位补偿防止高频自激。

第二级Q11、Q12则使用一对大功率管。

Q11、Q12发射极之间R25、D3将后边七对功率管偏置钳位在很低的水平，上下对管b-e结偏置电压只有±0.3V左右。

实际测量功率管的b-e结电压只有±0.1V，Q11、Q12的b-e结电压只有±0.5V。

这就是该机的电路设计独特之处，末端的低偏置使整机的静态功耗降到最低点。

不追求理论上的高保真，力求使用中不失真的大功率输出和强负荷的经久耐用。

这样的电路设计更适合商业性宣传演出。

一般功放保护电路中只在末级一对功率菅发射极各设置一只取样电阻，可以说是抽选取样。

而该机在每个功率管发射极都设有取样电阻{即R54～R67），任何一只功率管出现过流异常都会使Q27导通，经D8、R70使保护电路启控断开继电器。

上下取样信号分别加在Q27的基极和发射极。

NPN 管一侧有过流现象时发射极电阻压降增加，升高后正电压经过取样电阻加到Q27基极使其导通。

PNP管一侧有过流发生时，将会有负电压加到Q27发射极，也等于抬高其基极电压而导通。

;文章:行业新闻┆EDA文摘┆电源技术┆无线通信┆测量仪表┆嵌入式类┆电子技术┆制造技术┆半导体┆网络/协议┆展会┆实验┆家电维修下载:EDA教程┆电源技术┆电子书籍┆电子元件┆无线通信┆通信网络┆电路图纸┆嵌入式类┆单片机┆传感/控制┆电子教材┆模拟数字┆.... 音视频类┆消费电子┆机械电子┆行业软件┆C/C++┆FPGA/ASIC┆规则标准┆家电维修┆DSP┆IC资料┆ARM┆软件┆电路图┆电子技术论坛硬件工程师必读功略数字信号处理器(DSP)入门宝典PDF 【资源共享】单片机/ARM/DSP/FPGA/PCB 【经典资料】毕业设计大礼包位置：电子发烧友 > 行业新闻 > 电子技术 > 电路图 > 功率放大器电路图 >lm3886功放电路退出登录用户管理栏目导航Google 提供的广告电阻成型机音频放大器电路图电路原理图汽车电瓶·保护电路图·嵌入式类电子电路图·电源技术电子电路图·无线通信电子电路图·光电隔离电子电路图·光电开关电子电路图·信号处理电子电路图·消费类电子电路图·照明灯电路图·光电报警电子电路图·耳机电路图·电动机控制电路图·功率放大器电路图·汽车电路图·遥控电路图·电工基础电路图·电工仪表电路图·可控硅电路图·彩灯电路图·IC应用电路图·电视机电路图·555集成电路大全·运算放大器电路·电子管功放电路·定时器电路图热门文章·[组图]电子元器件基础知识...·[图文]USB接口定义·[图文]三极管开关电路图·[组图]RS232 RS485接口原理...·[组图][组图]电动车充电器...·[组图]高品质音调电路的制...lm3886功放电路作者：本站来源：本站原创发布时间：2008-5-5 21:55:43lm3886功放电路这款功放的末级电流放大电路未介入环路负反馈，有效地抑制了瞬态互调失真（ＴＩＭＤ）、界面互调失真（ＩＩＭＤ）和相位互调失真（ＰＩＭＤ）等，改善了高音域的层次感，减小了“音染”。

Models:Power Base-1, 2 & 3© 1996 by Crown International, Inc., P.O. Box 1000, Elkhart, Indiana46515-1000 U.S.A. Telephone: 219-294-8000. Power-Tech amplifiersare produced by the Professional Audio Division of CrownInternational, Inc. Trademark Notice: Power Base-3™ is a trademarkand Power Base-1®, Power Base-2®, Crown,®IOC® and ODEP® areregistered trademarks of Crown International, Inc. Other trademarksare the property of their respective owners.®E106377Applies only to 120 VAC,North American PB-1,PB-2 and PB-3 units.101229-112/96Applies only to 120 VAC,North American PB-1and PB-2 units.®LL 32521CThe lightning bolt triangle is used to alert the user to the risk of electric shock.The exclamation pointtriangle is used to alert the user to important operatingor maintenance instructions.The information furnished in this manual does not include all of the details of design, production, or variations of the equipment. Nor does it cover every possible situation which may arise during installation, operation or mainte-nance. If you need special assistance beyond the scope of this manual, please contact our T echnical Support Group.Crown Audio Division Technical Support GroupPlant 2 SW, 1718 W. Mishawaka Rd., Elkhart, Indiana 46517 U.S.A.Phone: 800-342-6939 (North America, Puerto Rico and Virgin Islands) or 219-294-8200Fax: 219-294-8301 Fax Back: 800-294-4094 (North America only) or 219-293-9200Internet: Power Base Series Power AmplifiersPage 41Welcome 71.1Unpacking 71.2Features 72Installation 92.1Stereo 92.2Mono 92.3102.4.......................................102.5103Operation 113.1113.2113.3113.3.1ODEP 113.3.2113.3.3Drive Protection 113.3.4.....................123.3.5123.4Controls 123.5124135Accessories 195.1195.2MT-BB 196Service 206.1Worldwide Service 206.2206.2.1206.2.220Power Base Series Power AmplifiersPage 51.17.......................................892.3Power Base Input Wiring 92.4Input Sensitivity Switch 1010121516161718185.1The MT-XLR 1919Power Base Series Power AmplifiersPage 7Power Base ODEP ®)MT-BB ac-Power PowerPower Base Series Power AmplifiersPage 8Power Base Series Power AmplifiersPage 92 InstallationAlways remove power from the unit and turn the level controls off (fully counterclockwise) when making or breaking connections. This reduces the chance of blasts that can cause loudspeaker damage.The guidelines below are provided to help you quickly get your amplifier installed and ready to go. Be sure to follow the instructions in Sections 2.1 and 2.2 for the selected mode of operation. Additional information on input sensitivity, load protection and required AC mains is provided in Sections 2.3, 2.4 and 2.5.1.Install the amplifier in a standard 19 inch (48.3 cm) rack or place it on a stable surface. The mounting dimensions are 19 inches (48.3 cm) wide, 3.5 inches (8.9 cm) tall and 16 inches (40.6 cm) deep behind the mounting sur-face. IMPORTANT! Allow for adequate ventilation.2.1 Stereo1.Turn down the level controls (fully counterclockwise) and turn off the amplifier.2.Set the back panel stereo/mono switch to Stereo.3.If present, remove the Parallel-Mono jumper.4.Connect the input and output cables as shown in the first example in Figure 2.1.5.Turn on the amplifier and adjust the level for each chan-nel using the back panel level controls.CAUTION: Never parallel the two outputs by di-rectly tying them together, and never parallel them with the output of another amplifier.2.2 MonoYour amplifier’s mono modes provide double the power of Stereo mode in a single channel. In Bridge-Mono mode, the outputs are wired in series for twice the output voltage. In Parallel-Mono mode, the outputs are paralleled for twice the current capacity.Bridge-Mono mode is provided for loads with an im-pedance greater than 4 ohms. Parallel-Mono mode should be used with loads of 4 ohms or less.B R I D G E - M O N O1.Turn down the level controls (fully counterclockwise) and turn off the amplifier.2.Set the back panel stereo/mono switch to Bridge-Mono.3.If present, remove the Parallel-Mono jumper.4.Connect the input and output cables as shown in the sec-ond example in Figure 2.1. Only use the channel 1 input.5.Make sure the load is balanced (neither side shorted to ground) and do not use the black (–) binding posts.6.Turn on the amplifier and adjust the level. Only use thechannel 1 level control.P A R A L L E L - M O N O1.Turn down the level controls (fully counterclockwise) and turn off the amplifier.2.Set the back panel stereo/mono switch to Parallel-Mono.3.Install a solid, 14-gauge (2 mm 2) or heavier jumper wire across the two red (+) binding post outputs.4.Connect the input and output cables as shown in the third example in Figure 2.1. Only use the channel 1 input.5.Turn on the amplifier and adjust the level. Only use the channel 1 level control.CAUTION: With Parallel-Mono wiring, do not switch to Stereo or Bridge-Mono mode until the output jumper wire is removed.AIR FLOWFig. 2.3 Power Base Input Wiringe high-quality loudspeaker cables to connect the load to the amplifier’s outputs. Do not use shielded cable.e shielded cables to connect audio sources to the amplifier inputs. Either balanced or unbalanced wiring can be used as shown below. (XLR connectors are avail-able with the MT-XLR accessory. See Section 5.)Fig. 2.2 Do NOT Block Air FlowPower Base Series Power AmplifiersPage 10Page 113.3.1 ODEPCrown invented ODEP to keep the amplifier working under demanding conditions and to increase output efficiency. To do this, Crown established a rigorous pro-gram to measure each transistor’s safe operating area (SOA). Intelligent circuitry was then designed to simu-late the instantaneous conditions of the output transis-tors. Its name describes what it does: Output Device Emulation Protection, or ODEP . In simple terms, ODEP compares transistor conditions to their known SOA. If more power will be asked of them than they can deliver under the existing conditions, ODEP limits the drive until conditions fall within the SOA. Limiting is propor-tional and kept to an absolute minimum—only what is required to prevent output transistor damage. Under normal conditions, no limiting is required and ODEP is transparent to the audio signal.ODEP makes possible a quantum leap in output effi-ciency and reliability—with ODEP , the show goes on.3.3.2 Ultrasonic and Radio Frequency ProtectionAn amplifier’s slew rate only needs to be large enough to deliver the maximum voltage at the highest required frequency. Higher slew rates actually allow undesirable ultrasonic and radio frequencies to be reproduced. By design, Power Base amplifiers have a controlled slew rate to limit the highest frequencies that they reproduce.Limiting occurs well above 20 kHz so there is no au-dible effect on performance. This approach protects the amplifier from radio frequencies and can even pro-tect some sensitive loads (including some tweeters).3.3.3 Drive ProtectionThe drive protection system temporarily removes output drive to protect the amplifier and its loads. Drive protec-tion can be activated in two situations. First, if dangerous subsonic frequencies or direct current (DC) is detected in the amplifier’s output, the unit will activate its DC/low-frequency protection circuitry which puts the amplifier in drive protection mode. This protects the loads and pre-vents oscillations. The unit resumes normal operation as soon as the amplifier no longer detects dangerous out-put. Although it is extremely unlikely that you will ever activate the amplifier’s DC/low frequency protection system, improper source materials like subsonic square waves or input overloads that excessively clip the input signal can activate this system.The amplifier’s fault protection system will put the am-plifier in drive protection mode in rare situations whereheavy common-mode current is detected in the output.3 Operation3.1 PrecautionsAlthough your amplifier is protected from external faults,the following safety precautions are recommended:1.There are important differences among the Stereo,Bridge-Mono and Parallel-Mono operating modes.Please refer to Sections 2 for additional information.2.WARNI NG: Do not change the position of the stereo/mono switch unless the amplifier is first turned off.3.CAUTI ON: I n Parallel-Mono mode, a jumper is used to connect the red binding post outputs.Be sure to remove this jumper for Bridge-Mono or Stereo mode, or high distortion and excessive heating will occur. Also, make sure the stereo/mono switch is set to the proper e care when making connections, selecting sig-nal sources and controlling the output level. The load you save may be your own!5.Do not short the ground lead of an output cable to the input signal ground. This will form a ground loop and may cause oscillations.6.Operate the amplifier from AC mains of not more than 10% variation above or below the selected line voltage and only at the specified line frequency.7.Never connect the output to a power supply out-put, battery or power main. Such connections may result in electrical shock.8.Tampering with the circuitry by unqualified person-nel or making unauthorized circuit changes may be hazardous and invalidates all agency listings.Remember: Crown is not liable for any damage that re-sults from overdriving other system components.3.2 Power IndicatorWhen lit, the amber power indicator (to the left of the power switch) shows that the amplifier has been turned on. It is driven only by the low-voltage power supply and does not indicate the status of the high-voltage supplies.3.3 Protection SystemsPower Base amplifiers have extensive protection sys-tems, including ODEP , ultrasonic/RF protection, drive protection, transformer thermal protection and fuses or circuit breakers that protect the power supplies.The unit should never output heavy common-mode cur-rent unless its circuitry is damaged. Activating drive protection helps prevent further damage.3.3.4 Transformer Thermal ProtectionAll Power Base amplifiers have transformer thermal protection. This protection circuitry is activated in un-usual situations where the unit’s transformer tempera-ture rises to unsafe levels. Under these abnormal conditions, the unit removes power to the high-voltage transformer. The fan will continue to run in all units ex-cept those with 220/240 VAC transformers. The ampli-fier will return to normal after it cools to a safe temperature.It is very unlikely that your Power Base amplifier will ever activate transformer thermal protection as long as it is operated within rated conditions. Your amplifier is designed to continue operating under conditions where other amplifiers would fail. But even when you exceed the limits of a Power Base amplifier, it still pro-tects itself—and your investment—from damage.3.3.5 Fuses and Circuit BreakersAll 120 VAC, 60 Hz units and all Power Base-3 units have a fuse that protects the low-voltage power supply and cooling fan. The Power Base-1 and Power Base-2 high-voltage power supplies are protected by fuses, while the Power Base-3 high-voltage power supplies are protected by a circuit breaker. With rated loads and output levels, these fuses (or the circuit breaker) should only shut down the amplifier in the incredibly rare instance of a catastrophic amplifier failure. The ODEP protection system keeps the amplifier opera-tional under most other severe conditions. The fuses (or breaker) can also shut down the amplifier in situa-tions where extremely low-impedance loads and high output levels result in excessive current draw.A Power Base amplifier will not blow its fuses or trip its breaker unless something is wrong. In the rare event that an internal fuse blows, please refer the unit to a qualified technician. If the breaker in a Power Base-3 trips, try to identify and correct the problem before re-setting it with the back panel Circuit Breaker Reset. If the problem persists, refer the unit to a qualified techni-cian.3.4 ControlsThe Power switch is th only control located on the front panel. All others are located on the rear, including the level controls.When making any setup or wiring changes, don’t forget to turn off the amplifier, turn down the level controls and disconnect the power cord. Be sure to turn down (full counterclockwise) the channel 2 level control when us-ing either mono mode. The Parallell Mono/Stereo/ Bridge Mono switch is used to select Stereo, Bridge-Mono or Parallel-Mono operating modes. The Input Ground Lift switch isolates the phone jack input grounds from the chassis ground to help prevent ground loops. It does not affect any installed input ac-cessories. The Input Sensitivity Switch, located inside the back cover plate, sets the amplifier’s input sensitiv-ity (refer to subsection 2.3 for information on changing this switch). And the Power Base-3 has a back panel Circuit Breaker Reset button that resets the circuit breaker (refer to subsection 3.3.5).CHANNEL 2CHANNEL 13.5 Filter CleaningA dust filter is provided on the unit’s air intake. If it be-comes clogged, the unit will cool less efficiently and may produce lower output levels. To clean the filter, use a phillips screwdriver to remove the three screws the secure the front grille. Use mild dishwashing deter-gent and warm water for best cleaning results. Be sure the filter is dry before you reinstall it. Replacement fil-ters may be ordered from the factory.Dust filters are not 100% efficient—long term this may require internal heat-sink cleaning by a qualified tech-nician. Internal cleaning information is available from our Technical Support Group.Fig. 3.1 Back Panel Level ControlsPage 124 Specificationsand an input sensitivity of 26 dB unless otherwise specified. Standard 1 kHz Power:watts at 1 kHz with 0.1% THD+noise.Full Bandwidth Power:watts from 20 Hz to 20 kHz with 0.1% THD+noise.120 VAC, 60 Hz Units:formers for 120 VAC, 60 Hz power mains.PerformanceFrequency Response:at 1 watt.Phase Response:at 1 watt.Signal-to-Noise:bandwidth power from 20 Hz to 20 kHz.Total Harmonic Distortion (THD):ing linearly to 0.1% at 20 kHz.Intermodulation Distortion (IMD):bandwidth power.Damping Factor:CrosstalkPower Base-1: Greater than 75 dB below full band-greater than 60 dB at 20 kHz.Power Base-2: Greater than 90 dB below full band-greater than 66 dB at 20 kHz.Power Base-3: Greater than 90 dB below full band-greater than 70 dB at 20 kHz.Common Mode Rejection (CMR):falling linearly to better than 50 dB at 20 kHz.Controlled Slew Rate: Greater than 13 volts/ms.Voltage Gain:dB position).Power Base-1: 51:1 ±12% or 34.3 dB ±1 dB at 0.775 sensitivity.Power Base-2: 64:1 ±12% or 36.2 dB ±1 dB at 0.775 volt sensitivity; 35:1 ±12% or 31.0 dB ±1 dB at 1.4 volt sensitivity.Power Base-3: 83:1 ±12% or 38.4 dB ±1 dB at 0.775 volt sensitivity; 46:1 ±12% or 33.3 dB ±1 dB at 1.4 volt sensitivity.The following specifications are guaran-Power Base-1Stereo mode (both channels driven):240watts into 4 ohms.200watts into 8 ohms.Bridge-Mono mode:455watts into 8 ohms.395watts into 16 ohms.Parallel-Mono mode:455watts into 2 ohms.400watts into 4 ohms.Power Base-2Stereo mode (both channels driven):460watts into 4 ohms.325watts into 8 ohms.Bridge-Mono mode:910watts into 8 ohms.660watts into 16 ohms.Parallel-Mono mode:920watts into 2 ohms.655watts into 4 ohms.Power Base-3Stereo mode (both channels driven):760watts into 4 ohms.540watts into 8 ohms.Bridge-Mono mode:1525watts into 8 ohms.1090watts into 16 ohms.Parallel-Mono mode:1530watts into 2 ohms.1080watts into 4 ohms.Safe with all types of loads. RatedPage 13Required AC Mains: Current, frequency and voltage requirements are provided on each unit’s back panel. All models draw 90 watts or less at idle.Power Base-1: Draws up to 6 amps of current.Power Base-2: Draws up to 10 amps of current.Power Base-3: Draws up to 15 amps of current.Low-Voltage Power Supply: A ±24 VDC fanformer supply (fan motor winding) regulated to ±15 VDC.AC Connector: An appropriate AC line cord and plug are provided. 120 VAC, 60 Hz units have a standard 3-wire, 15-amp grounded connector (NEMA 5-15P). ControlsPower: A front panel rocker switch used to turn the amplifier on and off.Level: A back panel rotary potentiometer for each chan-nel used to control the output level.Stereo/Mono: A three-position back panel switch used to select Stereo, Bridge-Mono or Parallel-Mono mode.Sensitivity: A three-position switch inside the back cover plate used to select the input sensitivity for both channels: 0.775 volts or 1.4 volts for standard 1 kHz power, or 26 dB voltage gain (see Section 2.3).Input Ground Lift: A two-position back panel switch used to isolate the phone jack and chassis grounds. Reset (Power Base-3 only): A back panel push but-ton used to reset the circuit breaker that protects the power supplies.IndicatorsPower: This amber indicator shows the on/off status of the low voltage power supply.Input/OutputInput Connector: Balanced ¼ inch phone jacks. See Section 5 for XLR and barrier block accessories.I nput I mpedance: Nominally 20 K ohms, balanced;10 K ohms, unbalanced.Output C onnector:T wo s ets o f c olor-coded 5-way b binding posts (for banana plugs, spade lugs or bare wire). Output Impedance: Less than 10 milliohms in series with less than 2 microhenries.DC Output Offset:Less than 10 millivolts.Output SignalStereo: Unbalanced, two-channel.Bridge-Mono: Balanced, single-channel. Channel 1 controls are active; Channel 2 controls should be turned down and not used.Parallel-Mono: Unbalanced, single-channel. Channel 1 controls are active; Channel 2 controls should be turned down and not used.ProtectionPower Base amplifiers are protected against shorted, open or mismatched loads; overloaded power supplies; excessive temperature, chain destruction phenomena, input overload and high-frequency blowups. They also protect loudspeakers from input and output DC, as well as providing protection from turn-on/turn-off transients.If operating conditions are unreasonable, the patented ODEP circuitry proportionally limits the drive level to pro-tect the output transistors, particularly in the case of el-evated temperature. A thermal switch imbedded in the transformer protects the power supplies from overload. In the rare event that a transformer overheats, the ther-mal switch removes power, waits until the unit has cooled to a safe temperature and then resets itself.Turn On: Four second delay with no dangerous tran-sients. Contact us if you need to change the delay. ConstructionDurable black finish on steel chassis with special “flow-through” ventilation from front to side panels.Cooling: Internal heat sinks with forced-air cooling for rapid, uniform heat dissipation.Dimensions: Standard 19-inch (48.3 cm) rack mount width (EIA RS-310-B), 3.5-inch (8.9 cm) height and 16-inch (40.6 cm) depth behind the mounting surface. Approximate Weight: Center of gravity is 6 inches (15.2 cm) behind front mounting surface.120 VAC, 60 Hz Units:Power Base-1: 30 pounds (13.6 kg) net; 34 pounds(15.4 kg) shipping weight.Power Base-2: 34 pounds (15.4 kg) net; 38 pounds(17.2 kg) shipping weight.Power Base-3: 36 pounds (16.3 kg) net; 40 pounds(18.2 kg) shipping weight.Page 14” Each ofguaranteed to meet or exceed their specifications for three years. Further, because our published specs are set below our “in-house” measurements, you can expect everyPage 15Page 16Page 17Page 185 AccessoriesThere are two accessories available at the time of this printing: the MT-XLR and the MT-BB. Important: The MT-XLR and MT-BB must be installed at a Crown Factory Service Center or the Crown factory.5.1 MT-XLRThe MT-XLR is an accessory panel that provides two standard 3-pin female XLR input connectors. The MT-XLR accessory makes it easy to quickly change connections in a system that uses standard XLR con-nectors. It can also be used in systems that need to daisy chain an input signal from one amplifier to an-other. Because the MT-XLR connectors are wired in parallel with the amplifier’s built in phone jack connec-tors, an input signal fed to either input can be fed to another amplifier from the unused connector for that channel.5.2 MT-BBThe MT-BB is an accessory panel that provides barrier strip input connectors. An MT-BB accessory might be desirable in applications requiring bare wire connec-tions. It can also be used to daisy chain an input signal from one amplifier to another just like the MT-XLR.Fig. 5.1 The MT-XLRFig. 5.2 The MT-BBPage 196 ServiceThis unit has very sophisticated circuitry which should only be serviced by a fully trained technician. This is one reason why each unit bears the following label: CAUTI ON: To prevent electric shock, do not re-move covers. No user serviceable parts inside. Re-fer servicing to a qualified technician.6.1 Worldwide ServiceService may be obtained from an authorized service center. (Contact your local Crown/Amcron representa-tive or our office for a list of authorized service centers.) To obtain service, simply present the bill of sale as proof of purchase along with the defective unit to an authorized service center. They will handle the neces-sary paperwork and repair.Remember to transport your unit in the original factory pack. We will pay the surface shipping costs both ways for warranty service to the authorized service center nearest you after receiving copies of all ship-ping receipts. You must bear the expense of all taxes, duties, and customs fees when transporting the unit.6.2 North American ServiceService may be obtained in one of two ways: from an authorized service center or from the factory. You may choose either. It is important that you have your copy of the bill of sale as your proof of purchase.6.2.1 Service at a North American Service CenterThis method usually saves the most time and effort. Simply present your bill of sale along with the defective unit to an authorized service center to obtain service. They will handle the necessary paperwork and repair. Remember to transport the unit in the original factory pack. A list of authorized service centers in your area can be obtained from our Technical Support Group. 6.2.2 Factory ServiceTo obtain factory service, fill out the service informa-tion page that follows and send it along with your proof of purchase and the defective unit to the Crown factory. For warranty service, we will pay for ground shipping both ways in the United States after receiving copies of the shipping receipts. Shipments should be sent “UPS ground.” (If the unit is under warranty, you may send it C.O.D. for the cost of freight via UPS ground.) The fac-1.When sending a Crown product to the factory forservice, be sure to fill out the service informationform that follows and enclose it inside your unit’sshipping pack. Do not send the service informa-tion form separately.2.T o ensure the safe transportation of your unit tothe factory, ship it in an original factory packingcontainer. If you don’t have one, call or writeCrown’s Parts Department. With the exception ofpolyurethane or wooden crates, any other pack-ing material will not be sufficient to withstand thestress of shipping. Do not use loose, small sizepacking materials.3.Do not ship the unit in any kind of cabinet (woodor metal). Ignoring this warning may result in ex-tensive damage to the unit and the cabinet. Ac-cessories are not needed—do not send theinstruction manual, cables and other hardware.Always use theoriginal factory packto transport the unit. Crown Audio DivisionT echnical Support / Factory ServicePlant 2 SW, 1718 W. Mishawaka Rd., Elkhart,Indiana 46517 U.S.A.T elephone:219-294-8200800-342-6939 (North America,Puerto Rico, and Virgin Islands only)Facsimile:219-294-8301 (Technical Support)219-294-8124 (Factory Service)Fax Back:219-293-9200800-294-4094 (North America only) Internet:Page 20。