AV0732E中文资料

vfdo07el43a规格书一、产品概述1.1 产品名称：vfdo07el43a1.2 产品型号：vfdo07el43a1.3 产品种类：工业电器1.4 产品用途：用于工业生产过程中的电气控制和保护二、产品技术参数2.1 额定电压：220V2.2 额定电流：40A2.3 额定频率：50Hz2.4 防护等级：IP542.5 绝缘等级：F级2.6 外观尺寸：400mm × 300mm × 200mm2.7 重量：10kg2.8 工作温度：-25℃ ~ +55℃2.9 存储温度：-40℃ ~ +70℃三、产品特点3.1 高性能：采用先进的电子控制技木，性能稳定可靠。

3.2 耐用耐用：采用优质材料，经久耐用，使用寿命长。

3.3 安全可靠：具有多种保护功能，能有效保护设备和人员安全。

3.4 方便维护：结构简单，维护方便，减少维护成本和时间成本。

3.5 安装灵活：体积小巧，易于安装，适用于各种场合。

3.6 环保节能：低能耗、低噪音、无污染，符合环保要求。

四、产品应用vfdo07el43a广泛应用于制药、食品、化工、冶金、机械制造等行业的电气控制系统中，用于电机起停、照明控制、短路保护等方面。

五、产品质量保证5.1 产品执行GB/Txxx-2016《质量管理体系要求》标准。

5.2 出厂产品均经过严格的质量检测和试验，确保产品符合国家标准和行业标准要求。

5.3 对于因产品本身质量问题引起的故障，在保修期内提供免费维修或更换服务。

5.4 全国范围内设有售后服务中心，提供全方位的技术支持和售后服务。

六、产品包装和运输vfdo07el43a产品采用木箱包装，防止在运输过程中受到损坏。

运输方式根据客户需求和实际情况选择，可采用陆运、海运或空运。

七、售后服务承诺7.1 为客户提供产品安装调试指导和技术交流服务。

7.2 定期进行客户回访，了解产品使用情况和客户需求，为客户提供更好的服务。

7.3 对于客户提出的产品质量问题和技术问题，24小时内做出回应，并尽快解决。

1992-2001年AIWA经典机型回顾AIWA是一个世界知名的随身听生产大厂，其产品线设置非常齐全，除了作为主打产品的磁带随身听外，其他重要产品还包括CD随身听、MD随身听、DAT随身听、VCD随身听（看）等。

依靠AIWA的雄厚实力，独到的技术和设计支持，造就了这其中也不乏精品。

在1992年为了体现创新精神，AIWA把公司的LOGO由大写的AIWA改为小写的aiwa，并希望这个新LOGO能把运动、创新的AIWA精神充分体现出来。

下面就在这里为大家把1992-2001年间的AIWA经典机型做个简要的介绍，以期对AIWA这十年间的发展能有个更全面的了解。

一、CD随身听或许是将过多的精力都投入到磁带随身听的研发上了，在CD随身听领域里，与在磁带随身听的地盘里的风光无限形成巨大反差的是，AIWA无论是在数量上，还是质量上都在与SONY的竞争中处于完全的下风。

但如果因此而说AIWA的CD随身听就没有上得了台面的机型的话，未免就有失偏颇了。

在AIWA的精品CD随身听里，XP-7无疑是最杰出的代表。

1992年出品的XP-7是AIWA CD随身听的领军机型。

它采用1 BIT双数码模拟转换器，更有高达8倍超取样数码滤波器，从而保证了高品质音乐的还原再现。

主机有耐热设计，30分钟快速充电，2段DSL动态超线性低音系统，24曲音乐编程播放，1曲/全部/A-B区间重复播放，随机播放，电池电量检查显示（LCD）等，在当时就已经装备了方口的光纤输出，能够连接MD、DAT等数码音频产品进行数字录音。

附送的配件也很丰富：有卡片式遥控器，能够进行10键直接播放；连线控器的耳塞是金条V14；PB-50铅酸充电电池；使用2只5号电池的电池架；型号为AC-A98的9V电源。

主机的上盖设计很有特色，边缘为透明设计，播放时能清楚的看到碟片的转动，最别出心裁的是在使用电源时，透明上盖的边缘有一圈红色的背光，非常的漂亮，同时液晶显示屏也有橘黄色的背光。

HIP3™ Variable Attenuator 1.70–2.00 GHzFeaturesI +50 dBm IP3 Typical I Low Loss 1 dB Typical I Attenuation 30 dB Typical I Good VSWR <1.5:1 Typical I Small SOIC-8 PackageAV102-12DescriptionThe AV102-12 is a current controlled variable attenuator from Alpha’s series of HIP3™ components.It is designed to meet the wide dynamic range required in spread spectrum wireless base station applications.A monolithic quadrature hybrid is teamed with a silicon PIN diode pair in a plastic surface mount package reducing size and assuring consistency from part to part.Electrical Specifications at 25°CParameter1ConditionFrequencyMin.Typ.Max.Unit Switching Characteristics 2Rise, Fall (10/90% or 90/10% RF)5µs On, Off (50% CTL to 90/10% RF)8µs Video Feedthru (Peak)2mV Maximum Input Power for <1 dB Attenuation Variation+15dBmOperating Characteristics at 25°C (0, +5 V)1.All measurements made in a 50 Ωsystem, unless otherwise specified.2.0–4 mA square wave total control current.V S W R (:1)Input/Output VSWR vs. Current@ 1700 MHz1.01.11.21.31.41.50.00000.00100.00200.00300.00400.0050Current (Amps)InputOutputV S W R (:1)Input/Output VSWR vs. Current@ 1850 MHz1.01.11.21.31.41.5Current (Amps)0.00000.00100.00200.00300.00400.0050InputOutputA t t e n u a t i o n (dB )0.00000.00100.00200.00300.00400.0050Attenuation vs. Current-50.0-40.0-30.0-20.0-10.00.0Current (Amps)A t t e n u a t i o n (dB )1.701.801.902.00Attenuation vs. Frequency-25.0-20.0-15.0-10.0-5.00.0Frequency (GHz)0.0 mA 0.2 mA 0.7 mA1.7 mA2.4 mA3.0 mAInput/Output VSWR vs. Current@ 2000 MHz1.01.11.21.31.41.5Current (Amps)V S W R (:1)0.00000.00100.00200.00300.00400.0050Input OutputD i o d e C u r r e n t (m A )4006008001000Typical PIN Diode Current vs. Voltage0.010.1110Diode Voltage (mV)Typical Performance DataCharacteristicValueRF Input Power .5 W CW, 4 W @ 12.5%Duty Cycle Control Current 50 mA Each Diode Operating Temperature -40 to +85°C Storage Temperature-40 to +85°CMaximum Reverse Diode Voltage -10 V Electrostatic Discharge+125 VAbsolute Maximum RatingsNote:Operating this device above any of these parameters may cause irreversible damage.Recommended Board Layout0.0190 TYP.0.0555 TYP.SOIC-80.0490.016 MAX.0.004 (0.10 mm)0.007 (0.17 mm)8˚PIN 1CONTROL CURRENTGNDRF InGNDGND RF OutCONTROL CURRENT GND Pin OutConnection DiagramMaterial is 10 mil FR4.。

移动光猫帐号CMCCAdmin密码aDm8H%MdA华为的：telecomadmin,密码：admintelecom中国移动光纤宽带丨P:超级账号（teleco madmin）及密码（nE7jA%5m）用户名：CMCCAdmin密码：aDm8H%MdA连接光猫在浏览器里面输入局域网内电脑手机打开浏览器，地址栏输入，回车，除普通账号密码可在光猫背部看到，另提供下面两个密码：工厂模式：用户名：fiberhomehg2x0?密码：hg2x0超级用户：用户名：CMCCAdmin密码：aDm8H%MdA另外，工厂模式进入打开FTP功能后，光猫插上U盘，在局域网内任意电脑手机电视的文件管理地址栏输入：，密码填hg2x0即可进入光猫内置存储，有很多文件夹，打开mm t文件夹，内部就是刚刚插入的U盘文件夹。

HG6201M的光猫超级管理员获取1 用电脑连接你的光猫确认你可以打开光猫的登录界面?2 打开此网址?开启telnet 服务?3 打开你的电脑命令行输入telnet 进入telnet服务用户名输入root 密码hg2x04 输入命令cat /flash/cfg/agentconf/?查看这个文件的内容第一行和第二行就是用户名和密码了局域网内电脑手机打开浏览器，地址栏输入，回车，除普通账号密码可在光猫背部看到，另提供下面两个密码：工厂模式：用户名：fiberhomehg2x0?密码：hg2x0超级用户：用户名：CMCCAdmin密码：aDm8H%MdA另外，工厂模式进入打开FTP功能后，光猫插上U盘，在局域网内任意电脑手机电视的文件管理地址栏输入：，密码填hg2x0即可进入光猫内置存储，有很多文件夹，打开mm t文件夹，内部就是刚刚插入的U盘文件夹。

路由器的默认帐号密码最佳答案1. 烽火的默认用户名：admin，密码：admin，2. 全向QL1880，用户名：root，密码：root3. 全向QL168810.0.0.2，用户名为admin；密码为qxcomm16884. TP-LINKTD-8800在IE输入户名admin,密码admin5. 合勤zyxel642 在运行输入telnet 密码12346. EcomED-802EG 在IE输入，用户名和密码都为root7. 6010RA，在IE输入用户名为ADSL，密码为ADSL12348. SmartAXMT800的初始IP是，用户名和密码都为admin，恢复默认配置的方法有两种，一种是连续按MODEM背后的RESET键三次，另一种是在配置菜单的SAVE&REBOOT里选择恢复默认配置。

AV设备名称中英文对照表A V设备名称中英文对照表1、音响设备（A udio Equipment）设备名称Equipment全频主扩音箱Speaker-Full Range低音主扩音箱Speaker-Subwoofer线阵列演出音箱Speaker-Line array返送\监听音箱Speaker-Monitor功率放大器Power Amplifier调音台（8路）Audio Mixer-8 way调音台（12路）Audio Mixer-12 way调音台（16路）Audio Mixer-16 way调音台（24路）Audio Mixer-24 way调音台（32路）Audio Mixer-32 way无线麦克风Wireless Mic.领夹麦克风lapel Mic.有线麦克风Cabel Mic.定向电容麦克风Capacitance Mic(讲台麦克风)Podium Mic数字录音机Date recorder均衡器EQ效果器Effect压限器Gabbed Compress反馈抑制器Feedback control卡座录音机CrossoverCD机CD PlayerMD机MD Player信号缆Signal Cable2、视频设备（Viedo Equipment）：设备名称Equipment投影机（液晶）LCD Projector幻灯机Slide Projectors投影仪(16mm) Filmstrip Projectors 实物投影仪Visualizer正投幕Front Screen背投幕Rear Screen电动投影幕Electromotion Screen RGB-视频转换器SONY1024视频特技台Video Mixer视频选择器Video Switcher视频分配器Video Distribute视频分配器VG A DistributeRGB选择器VG A SwitcherRGB 矩阵VG A Matrix Switcher连屏信号分配器ANALOG WA Y等离子显示器Plasma监视器MonitorLED电视墙LED Video Wall-16Lattice摄像机录像机VCRBETA录像机BETA Video tape recorder DVD机DVD Player液晶显示器LCD Display电视机（21寸-34寸）TV Set触摸屏Touch Display3，灯光系统（Light Systems）：设备名称EquipmentPA R灯Parcan换色器color scroller扫描电脑灯Scan Moving Light摇头电脑灯Moving Light 1200W染光电脑灯Coloration Moving Light Logo片（玻璃）Logo Parcel-GlassLogo片（金属）Logo Parcel- Sheet copperFlashing Light 成像灯ETC追光灯Follow Spot星空玫瑰Sky Rose城市之光City ColorAC灯AC Light观众灯Spectator Light 三基色Tricolor Light 天（地）排灯V elarium Light 回光灯Return Light 激光灯Laser light TRUSS架Truss电葫芦Truss MotorT型架Light TreeH架H ShelfLight Console电脑灯控制台Moving Light Console珍珠2000调光台Pearl 2000可控硅Dimmer Pack4，办公设备（Office Automation）设备名称EquipmentPC机Computer, PC笔记本本电脑Laptop黑白激光打印机LaserJat Printer, B&W彩色激光打印机LaserJat Printer, Color复印机Photocopier激光普通纸传真机Laser Fax碎纸机（A级保密）Paper Cut5，同传设备（SI Systems）：设备名称Equipment中央控制器Mains voltage on deliveryInterpreter’s Set辐射板High output power翻译房Interpreter booth接收机（耳机）Infra-red receivers即席发言代表机Delegate Extempore Machine 6，其它设备（Others）：设备名称Equipment无线表决器Wireless Vote表决器主机系统V ote Systems电视电话会议系统Conference Call Sytems发电车Cynamo Camin对讲机Walking Talking有线对讲Intercom。

通讯系统2010年baiyu修订版1.高频通信的特点1、远程通讯系统（通讯距离可达数千公里），用于在远程飞行时保持与基地间的通讯联络。

2、占用2～30MHz的高频频段，波道间隔为1kHz。

3、天波传播，可以传播很远的距离。

4、由于传播距离远，易受到电离层扰动、雷电、电气设备和其他辐射引起的各种电气干扰，会产生无线电背景噪声。

5、现代机载高频通讯系统都是单边带通讯系统，并通常能够和普遍调幅通讯相兼容。

6、应用单边带通讯可以大大压缩所占用的频带，节省发射功率。

7、存在衰落现象，接受信号时强时弱，这是多路径信号接收的超程效应。

8、还存在一个电离层反射垂直入射波的临界频率，要在最高和最低之间选择一个尽可能长时间持续工作的工作频率。

2.HF通信系统接收电路采用高中频信号的特点采用高中频方案后，由于大大提高了对镜象干扰和中频干扰的抑制能力，在一定程度上起到了高频放大器的作用，因此采用高中频方案还有可能省去接收机中的高放，使设备简化。

缺点：要采用高质量的高中频窄带滤波器，要求频率合成器具有很宽的频率范围，很小的频率间隔，以及符合需要的频谱纯度。

3.HF天线调谐偶合器的作用,位置,维护注意事项天线调谐耦合器用来在2-30MHz频率范围内调谐，通常它能在2-15s内自动地使天线阻抗与传输特性阻抗为50欧的高频电缆相匹配，使电压驻波比不超过1.3:1。

天线调谐耦合器装在带密封垫圈的可卸增压外壳内，安装在垂直尾翼根部，外壳上有三个与外部相连的接头。

压力气嘴是用来给天线调谐耦合器充压的，通常是充干燥的氮气，压力为22psi，比外界气压高半个大气压左右，防止外面的潮湿空气进入或空中低气压，降低耦合器内部抗电强度。

当压力低于15.5psi时，就必须充压。

耦合器使用115V交流电，没有外部冷却。

4.高频收发机面板有几个灯及电门收发机前面板有三个故障灯，一个测试电门，一个话筒插孔和一个耳机插孔。

“CONTROL INPUT FAIL”灯：来自控制板的输入信号失效时亮；“LRU FAlL”灯：收发机内当出现+5V DC或+10V DC电源电压消失、发射输出功率低、频率控制板故障或频率合成器失锁和机内微处理器故障等情况之一时亮；“KEY INTERLOCK”灯：当收发机已被键控，如天线调谐耦合器中存在故障，则此灯亮。

E6、E12、E24、E48、E96、E192系列电阻说明“E ”表示“指数间距”(Exponential Spacing)在上个20世纪的电子管时代,电子元器件厂商为了便于元件规格的管理和选用、大规模生产的电阻符合标准化的要求，同时也为了使电阻的规格不致太多,协商采用了统一的标准组成元件的数值。

它的基础是宽容一部定的误差,并以指数间距为标准规格。

这种标准已在国际上广泛采用，这一系列的阻值就叫做电阻的标称阻值。

电阻的标称阻值分为E6、E12、E24、E48、E96、E192六大系列，分别适用于允许偏差为±20%、±10%、±5%、±2%、±1%和±0.5%的电阻器。

其中E24系列为常用数系，E48、E96、E192系列为高精密电阻数系。

E6系列电阻标称阻值，对应允许偏差为±20%，查看E6系列电阻规格表。

E12系列电阻标称阻值，对应允许偏差为±10%，查看E12系列电阻规格表。

E24系列电阻标称阻值，对应允许偏差为±5%，查看E24系列电阻规格表。

E48系列电阻标称阻值，对应允许偏差为±2%，查看E48系列电阻规格表。

E96系列电阻标称阻值，对应允许偏差为±1%，查看E96系列电阻规格表。

E192系列电阻标称阻值，对应允许偏差为±0.5%, ±0.25%, ±0.1%，查看E192系列电阻规格表。

E6系列电阻规格表E代表指数间隔的意思，6表示只有6种数字系列E6系列的电阻格误差非常大，规定了六个基本数：1、1.5、2.2、3.3、4.7、6.8E6数系的公比为 6系列的电阻规定几个基本系数，这些系数再乘以(其中n为整数)，即为某一具体电阻器阻值。

如 1.5×101=15Ω因误差较大，电阻较少采用,电容中用的多一些，此系列可用于电阻、电容、电位器、电感等。

V KICK • V BEAT • V CLAMPUser Manual - EN Thank youWe would like to thank you cordially for choosing this sE product! This manual contains some important instructions for setting up and operating your new equipment. Please take a few minutes to read the instructions below carefully. We hope you will enjoy working with it as much as we enjoyed designing and building it for you.Most Sincerely,Your sE TeamBrief DescriptionsV KICKThe V KICK is a dynamic microphone intended for use with kick (bass) drums and other sources such as miking bass guitar speaker cabinets, floor toms or other large drums where capturing low-frequency energy is of the utmost importance. Its specialized capsule provides a sound character tailored specifically for kick drums, which can be further shaped with the use of two switches on the rear side of the microphone.V BEATThe V BEAT is a dynamic microphone intended for use with snare or tom drums, but it can also be used on sources such as miking electric guitar speaker cabinets or brass instruments. Its specialized capsule provides a highly detailed, natural sound character on snares or toms of any size.V CLAMPThe V CLAMP was designed to be the perfect companion for the V BEAT for snare or tom miking purposes. Its sturdy elastic clamp enables setup and tear-down within seconds, and it fits any popular snare or tom drum available.Product DetailsV KICKThe V KICK’s specialized capsule provides a sound character tailoredspecifically for kick drums, which can be further shaped with the use oftwo switches on the rear side of the microphone.The left-hand switch shapes the microphone’s overall voicing, with twoselectable options:“Classic” provides a more traditional kick drum sound with a familiarlow frequency punch and a warmer, more rounded sound. If a morecontemporary, aggressive sound is desired, the “Modern”settingemphasizes the low end and high end (a “scooped” sound).The right-hand switch specifically tailors the microphone’s high-frequency character: “Classic” provides a typical bite in the upper midrange (presence boost) and a more rounded andfamiliar HF sound, while “Modern” provides an open, clear and transient-rich top end for a more contemporary, aggressive drum sound.Each of these switches is recessed slightly into the mic body and requires a small flathead screwdriver or similar implement to switch between settings.The V KICK also has an integrated swivel joint that allows for easypositioning inside or outside a kick drum. Its extremely low profile allowsit to fit easily through the drum head port, and the XLR cable and micstand mount are in parallel to minimize cable clutter. Please rememberto securely tighten the swivel clamp whenever adjusting it, so as toprevent the mic from sagging during a performance or recording.V BEATThe V BEAT’s ultra-compact design lets it occupy a minimal amount of space on your drum, without interrupting lines of sight any more than necessary, and keeping it out of the way of drum sticks and cymbals. With the XLR connector and stand mount on the bottom of the V BEAT and in parallel with one another, the footprint and cable clutter are further minimized.Its swivel mount also allows theangle of the mic to be adjusted withgreat precision, so it can be aimed atalmost any part of the drum head tochange the character of the sound,and to minimize spill from otherdrums or cymbals.Please remember to securely tighten the swivel clamp whenever adjusting it, so as to prevent the mic from sagging during a performance or recording.V CLAMPThe V CLAMP can be fitted to any popular snare or tom drum availableby carefully stretching the elastic clamp over the drum rims to fit. Theheight and rotation of the connected microphone can be changed byloosening the V CLAMP’s knob and adjusting the position of the rod. Thisallows the mic to be positioned perfectly for any desired drum tone, or tominimize spill from nearby drums. The small hole at the bottom of therod can be used for a tie clip to attach a cable, or as a backup solution incase the knob becomes loose for any reason.What’s in the boxYour packaging should contain the follow items. If anything is missing, please contact your sE Electronics dealer and let them know.•Thread adapter•Zipper pouch•Spare black internal windscreen•Knurled nut for LP® Mic ClawTips for practical useThe closer the distance from the microphone to the source, the more bass you’ll get (“proximity effect”). Use this to your advantage when you want it - and be aware of it when yo u don’t.Aim the microphone towards the desired sound source, and angle it away from other drums and cymbals to reduce bleed and maximize off-axis rejection.Ensure that the microphone & cable do not touch the drum head, as this may affect the sound. Safety and maintenanceRisk of damagePlease make sure that the piece of equipment to which your microphone will beconnected fulfils the safety regulations enforced in your country and is fittedwith a ground lead.Cleaning the microphoneAfter every use, clean the microphone with a dry, soft cloth tissue and store it in a solid case or a zipper pouch.Technical SpecificationsV KICKFrequency Response Polar PatternV BEATFrequency Response Polar PatternSupportIn case you are experiencing any problems or have any questions regarding your sE product, please contact your dealer first for the fastest and more direct service. If an authorized service is required, it will be arranged by that dealer: /dealersIf you still have difficulties with support or assistance, please do not hesitate to contact us directly: /contact-usLastly, remember to register your new gear to extend your warranty to a full three years:/registrationContactFeel free to contact us:sE Electronics International, Inc. 448 Ignacio Blvd, STE 411 ************************* Novato, CA 94949USAOur international distributors and sales representatives: /contact-usThis product conforms to the standards listed in the Declaration of Conformity. Please contact us if you want to order a free copy of the Declaration of ConformityTechnical data subject to change without notice.Bedienungsanleitung - DE DankeWir möchten uns bei Dir herzlich bedanken, dass Du Dich für ein Mikrofon von sE Electronics entschieden hast. Diese Bedienungsanleitung beinhaltet wichtige Hinweise zur Inbetriebnahme und zur Anwendung des Produkts. Bitte nimm Dir daher kurz Zeit, diese Anleitung durchzulesen. Wir hoffen, dass Du mit dem Produkt genauso viel Spaß haben wirst, wie wir bei der Entwicklung sowie der sorgfältigen, händischen Fertigung mit viel Liebe zum Detail.Herzliche Grüße,Dein sE TeamKurzbeschreibungV KICKDas V KICK ist ein hervorragendes Mikrofon für die Abnahme von Basstrommeln (Kick Drum) sowie Anwendungen, bei denen eine Bassbetonung gewünscht wird, wie beispielsweise die Abnahme von Bassgitarren-Lautsprecherboxen, Tomtoms, oder anderen großen Trommeln. Der Charakter des dynamischen Mikrofons wurde speziell für diese Anwendungen konzipiert und kann mithilfe zweier Schalter auf der Rückseite des Mikrofons individuell angepasst werden.V BEATDas V BEAT eignet sich ideal für die Abnahme von Snare und Tomtoms. Die dynamische Kapsel verfügt über einen sehr ausgewogenen, offenen und klaren Klangcharakter und ist daher auch eine hervorragende Wahl für andere Instrumente wie beispielsweise die Abnahme von E-Gitarren-Lautsprecherboxen oder Blechblasinstrumenten.V CLAMPDie Montageklammer V CLAMP wurde als ideale Ergänzung zum V BEAT ausgelegt, um Snare und Tomtoms einfach, rasch und platzsparend zu mikrofonieren. Die robuste, aber dennoch flexible Klammer ermöglicht eine Montage auf fast allen gängigen Trommeln innerhalb von Sekunden. ProduktdetailsV KICKDas V KICK wurde speziell für die Abnahme von Basstrommeln (KickDrums) entwickelt. Mit den beiden Schaltern auf der Rückseite kanndessen Klangcharakter individuell angepasst werden.Der linke Schalter formt den generellen Klangcharakter. Es gibt zweiOptionen:…Classic“bietet einen traditionellen, warmen Klang mit bewussterBassanhebung. …Modern“ sorgt mit seinem zeitgemäßen Charakter miteiner bewussten Tiefen- und Höhenbetonung.Der rechte Schalter beeinflusst den oberen Beriech des Klangspektrums. Es gibt zwei Optionen: …Classic“bietet einen vertrauten, runden Klang mit einer bewussten Präsenzanhebung für mehrBiss. …Modern“ sorgt für einen sehr offenen, klaren und transientenreichen Klang – ideal für moderne oder aggressivere Klangvorstellungen.Die beiden Schalter sind bewusst vertieft angeordnet, um ein unbeabsichtigtes Verstellen zu vermeiden. Für die Betätigung empfehlen wir einen kleinen, flachen Schraubendreher oder ähnliches.Das integriertes Schwenkgelenk ermöglicht eine rasche und flexiblePositionierung des V KICKs - sowohl vor als auch in der Basstrommel. Diegeringen Abmessungen des Mikrofons erleichtern die Einführung durchdie Öffnung im Resonanzfell wesentlich. Der integrierte Stativanschlussund die XLR-Buchse sind parallel zueinander angeordnet, um dieKabelführung zu vereinfachen. Bitte achte immer darauf, vor derAufnahme bzw dem Bühneneinsatz den Feststellknopf fest anzuziehen,damit das Schwenkgelenk zuverlässig in seiner Position bleibt.V BEATDie besonders kompakteFormgebung des V BEATsermöglicht einen sehrplatzsparenden Einsatz, der sowohlbei der Montage als auch beimSpiel entgegenkommt. Derintegrierte Stativanschluss und die XLR-Buchse sind parallel zueinander angeordnet, um die Kabelführung zu vereinfachen. Bitte achte immer darauf, vor der Aufnahme beziehungsweise dem Bühneneinsatz den Feststellknopf fest anzuziehen, damit das Schwenkgelenk zuverlässig in seiner Position bleibt.V CLAMPDie V CLAMP lässt sich durch vorsichtiges Dehnen der flexiblenKlammer sehr einfach auf alle gängigen Trommeln montieren. Die Höheund der Winkel lassen sich durch das Lösen der Feststellschraube undVerstellen des Stabes rasch und einfach individuell anpassen. Durchdiese Verstellmöglichkeiten der Mikrofonposition kann man einerseitsden Klang bewusst beeinflussen und andererseits diesupernierenförmige Richtwirkung der Kapsel nutzen, um Einstreuungen unerwünschter Schallquellen wie beispielsweise HiHat, Becken oder benachbarter Trommeln gezielt zu reduzieren. Die kleine Öffnung am unteren Ende des Stabes ermöglicht die Montage von Kabelbindern oder anderen Hilfsmitteln, aber auch eine zusätzliche Sicherung des Mikrofons, falls sich die Feststellschraube unbeabsichtigt lösen sollte.LieferumfangBitte kontrolliere gleich nach dem Öffnen den Inhalt der Verpackung. Falls sie nicht vollständig ist, kontaktiere bitte Deinen sE Electronics Händler. Folgende Komponenten sollten enthalten sein: •Gewindeadapter•Aufbewahrungstasche•schwarzer, interner Windschutz•Gekordelte Mutter für LP® Mic ClawPraxistippsJe näher sich das Mikrofon an der Schallquelle befindet, desto stärker werden Bassfrequenzen betont, je weiter weg, desto schwächer (Nahbesprechungseffekt). Mache Dir diesen Effekt zu nutze. Richte das Mikrofon direkt und so nah wie möglich auf die Schallquelle, um einen trockenen, direkten Klang zu erhalten und das Auftreten von Rückkopplungen zu verringern.Weder das Mikrofon noch das Kabel sollten die Felle berühren, da dies den Klang beeinflussen könnte.Sicherheit und PflegeBeschädigungsgefahrBitte stelle sicher, dass die an das Mikrofon angeschlossenen Geräte diegültigen Sicherheitsbestimmungen erfüllen und mit einer Sicherheitserdungverbunden sind.Reinigung des MikrofonsWir empfehlen das Mikrofon nach jedem Gebrauch mit einem trockenen, fusselfreien Tuch zu reinigen und es in einem soliden Koffer oder in der mitgelieferten Aufbewahrungstasche aufzuheben.Technische DatenV KICKFrequenzgang PolardiagrammV BEATFrequenzgang PolardiagrammKundenserviceFalls Du zu Deinem sE Mikrofon Fragen hast oder damit Probleme auftreten sollten, wende Dich für eine möglichst rasche Abwicklung bitte direkt an den Händler. Wenn eine technische Unterstützung erforderlich ist, wird diese durch den Händler angefordert./dealersSollten dennoch Probleme beim Kundenservice auftreten, wende Dich bitte direkt an uns: /contact-usAbschließend möchten wir Dich an die 3-Jahres-Garantie von sE Electronics erinnern. Bitte registriere Dich dazu hier: /registrationKontaktSo kannst Du mit uns direkten Kontakt aufnehmen:sE Electronics International, Inc. 448 Ignacio Blvd, STE 411 ************************* Novato, CA 94949USAUnsere internationalen Distributoren und Handelsvertreter:/contact-usDieses Produkt entspricht den in der Konformitätserklärung angegebenen Normen. Du kannst die Konformitätserklärung gerne bei uns kostenlos anfordern. Technische Änderungen vorbehalten.使用手册 - CN 致谢非常感谢您购买我们sE的这款麦克风! 这本使用手册包含了一些如何安装和操作您的新麦克风的使用说明。

AV系列主机可编程控制器接口说明：COMPUTER/PANEL/TAOUCH（9针头母头）：3脚为232的RXD, 2脚为TXD,5脚为GND.RS232 1，2（9针头公头）：2脚为RXD,3脚为TXD,5脚为GND.NET接口：带灯标准网络RJ45接口AV系列控制主机通讯控制协议波特率：9600数据：8 BITS奇偶：无停止位： 1 BIT=====================================================================【开系统】3B 00 01 01 00 A0 07 0D【关系统】3B 00 01 00 00 A1 07 0D【强电控制】继电器开关停电动幕B0 B1 B2 3B 00 04 01 00 B0 00 0D3B 00 04 01 00 B1 00 0D3B 00 04 01 00 B2 00 0D投影机电源52 53 3B 00 03 00 00 52 00 0D3B 00 03 00 00 53 00 0D功放电源84 85 3B 00 04 01 00 84 00 0D3B 00 04 01 00 85 00 0D电脑开/关8C 8D 3B 00 04 01 00 8C 00 0D3B 00 04 01 00 8D 00 0D网络接口通3B 00 04 01 00 86 00 0D网络接口断3B 00 04 01 00 87 00 0D【信号切换 (输入,输出通道切换法) 】：VGA3B 00 09 01 XX YY 07 0DAV3B 00 09 02 XX YY 07 0DV(主输出)3B 00 09 03 XX YY 07 0DA(主输出)3B 00 09 04 XX YY 07 0D（XX 输入通道）VGA信号01—VGA INPUT1 02-VGA INPUT2 03-VGA INPUT304-VGA INPUT4 05-VGA INPUT5音视频信号01-INPUT AV1 02-INPUT AV2 03-INPUT AV304-INPUT AV4 05-INPUT AV5 06-INPUT AV6（YY 输出通道）VGA信号01-OUTPUT1 02-OUTPUT2 03-OUTPUT3视频信号01-OUTPUT1 02-OUTPUT2 03-OUTPUT3【音量控制】：3B 00 0B YY XX AA 00 0DYY=1-4 分别为第一输出通道，第二输出通道，第三输出通道第四话筒通道XX=1-3 1加，2减，3预置AA为预置值（0-20）预置值等于0为静音【红外控制】：红外通道切换3B 00 0A 00 XX XX 00 0D （XX=[01-04]4通道）红外键码使用3B 00 03 AA BB CC 00 0DAA BB 为0时,默认当前设备AA 为(01-04设备码时)为指定设备码BB 为0时,为指定设备红外通道,非0可指定通道 1-4 或组和值（1，2，4，8）CC 为键码（1-40）键码编码键码编码红外1 01 红外16 10红外2 02 红外17 11红外3 03 红外18 12红外4 04 红外19 13红外5 05 红外20 14红外6 06 红外21 15红外7 07 红外22 16红外8 08 红外23 17红外9 09 红外24 18红外10 0A 红外25 19红外11 0B 红外26 1A红外12 0C 红外27 1B红外13 0D 红外28 1C红外14 0E 。

AVPro Triple SCART A/V SwitchDESCRIPTIONThe AVPro ® 5003 is a low cost IC that performs switching of analog audio and video signals. The device accepts analog audio and video inputs from three external sources, typically a video encoder IC/stereo DAC, an auxiliary SCART connector, and a VCR SCART connector. The input signals from these sources are presented to a set of internal multiplexers that perform the SCART switching function. Outputs are provided to the VCR and auxiliary SCART connectors, as well as a TV SCART connector and an RF modulator. Video outputs are buffered to drive 150 Ω loads. Audio outputs are buffered to provide 2 Vrms output into 600 ohms. Typical applications for the 5003 include digital video recorders (DVRs) and digital receivers for satellite, cable, and terrestrial television.August 2000FEATURES•SCART connections for TV, VCR, AUX• Integrated video drivers • Integrated audio drivers- Negative supply eliminates AC coupling caps• 5-bit audio attenuation for TV output - Attenuation from 0 to 31 dB, 1 dB steps - Mute of TV outputs• Serial port control of SCART switching • 64-lead MQFP packaging (JEDEC MO-108)BLOCK DIAGRAMBLANK TV_C TV_R TV_G TV_B SVHS_Cout AUX_YCout TV_YCout TV_Mod VCR_YCout TV_Fnc DO_0DO_1VCR_Lout VCR_Rout Lout TV_Lout TV_Rout Rout AUX_Lout AUX_RoutV C C V C CV C CV C CV E E V E E V E E V E EV D DMono Lin Rbias VrefVCR_RinVCR_Lin Tgen AUX_RinAUX_Lin SDATASCLK Enc_Y Enc_YC VCR_YCin AUX_YCin AUX_Fnc AUX_B Enc_B Enc_G AUX_G SVHS_Cin Enc_C Enc_R AUX_R EBLANK ABLANKVCR_Fnc V C CAVPro® 5003Triple SCART A/V SwitchFUNCTIONAL DESCRIPTIONSCART Video SwitchingThe device is designed to accept video signals from several SCART video resources. The device includes an analog multiplexer that receives the external video signals and allows routing of the signals to the various video outputs on the device. Writing bits to serial port Register 1 controls switching.RGB Outputs: The device accepts RGB video signals from two sources. The AUX_R, AUX_G, AUX_B input pins are typically connected to the auxiliary SCART connector. The Enc_R, Enc_G, Enc_B input pins are connected to the RGB outputs of an external video encoder device. The lower two bits of serial port Register 1 determine which RGB input port will be used as the source for the TV_R, TV_G, TV_B output pins. When these bits are set to xxxxxx00, the auxiliary SCART is used as the input. When these bits are set to xxxxxx01, the video encoder is used as the input.The RGB sync can be selected from either the RGB signals or the output on TV_YCout, as set by the MSB of serial port Register 0. Setting this bit selects the timing signal for the DC restore circuit. The DC restore circuit acts to position the blank level to 0.6 V at the output video load. When the bit is high, the timing signal is from the output on TV_YCout from either the AUX_YCin or Enc_YC. When the bit is low, the timing signal will detect sync on either of the RGB signals. The associated blanking signal from respective video sources is also switched accordingly with a delay matched to that of the RGB signals.When the SVHS mode is active, the TV_R pin receives a chroma signal from either Enc_C or SVHS_Cin. The DC restore averages to approximately 1.8 VDC at the output pin. The TV_G, TV_B outputs are also disabled (~0 V) in this mode.TV Composite Output: The device accepts up to three composite (YC) video sources. The AUX_YCin input pin is typically connected to the Video In pin on the auxiliary SCART connector. The VCR_YCin input pin is typically connected to the Video In pin from the VCR SCART connector. The Enc_YC input pin is typically connected to the YC output from the external video encoder device. Two bits in the serial port register determine which of the composite input signals will be switched to the TV_YCout output pin. When bits of Register 1 are set to xxxx00xx, the signal on AUX_YCin is used as the input. When the bits are set to xxxx01xx, the signal on Enc_YC is used as the input. When the bits are set to xxxx10xx, the signal on VCR_YCin is used as the input. The TV_YCout pin can be active with a composite video signal when RGB inputs are active. When the TV SVHS mode is selected the composite video mode is not available and the TV_YCout pin provides luminance information to the TV SCART connector. The DC restore circuit acts to position the blank level to 0.6 V at the output 75 ohm load.RF Modulator Outputs: The device has a TV_Mod output that follows the TV_YCout signal. When the TV SCART has composite video, TV_Mod can be fed directly to the RF modulator. When the TV is in SVHS mode, the TV_Mod output (luminance) can be summed with the TV_C output (chroma) to provide a composite signal for the RF modulator. When the TV SCART has composite available, the TV_C output can be disabled via the MSB of serial port Register 1. Auxiliary Composite Output: The VCR and video encoder composite video sources are available to switch to the AUX_YCout output pin. This pin is typically connected to the Video Out pin on the auxiliary SCART connector. A bit in serial port Register 1 determines the signal source for the AUX_YCout output pin. Setting the register to x0xxxxxx selects the signal on VCR_YCin, while setting the register to x1xxxxxx selects the signal on ENC_YC. The DC restore circuit acts to position the blank level to 0.5 V at the output pin.VCR Composite Output: The auxiliary SCART and video encoder composite video sources are available to switch to the VCR_YCout output pin. This pin is typically connected to the Video Out pin on the VCR SCART connector. Two bits in serial port Register 1 determine the source for the AUX_YCout output pin. Setting the register to xx01xxxx selects the signal on AUX_YCin, while setting the register to xx10xxxx selects the signal on ENC_YC.SVHS Switching: The device supports the SVHS mode from the VCR SCART connector. The SVHS_Cin pin provides chroma information from the VCR SCART connector to the TV SCART connector. The SVHS_Cout pin provides chroma informationAVPro® 5003 Triple SCART A/V Switchfrom the encoder IC to the VCR SCART connector. The encoder chroma output can also be routed to the TV_R pin to support SVHS applications. When Register 1 is set to xxxx1011, the SVHS mode is selected with SVHS_Cin and VCR_YCin providing the chroma and luma inputs, respectively. In this mode, the load for the VCR chroma source (SCART pin 15) is provided by the series resistor for the SVHS_Cout pin and the low output impedance of the amplifier. The SVHS_Cin is ac coupled, and its dc bias set to approximately 0.9V. When the bits are set to xxxx1110, the ENC_C and ENC_Y inputs provide the chroma and luma inputs, respectively. The VCR SCART can also receive SVHS information from the video encoder by setting the register bits to xx00xxxx. Note that when the VCR is receiving information it cannot be used as a signal source for other devices.Function Switch: The device monitors the function switch pin (pin 8) of the auxiliary SCART and VCR SCART connectors, AUX_Fnc and VCR_Fnc pins, respectively. It is also known as slow blanking. Each of these inputs can detect three distinct levels and set two bits in serial port read Register 0. When the SCART input level is 0 to 2 V, the register bits are set to 00. When the input level is 4.5 to 7.0 V, the register bits are set to 01. When the input level is 9.5 to 12 V, the register bits are set to 10. The device also provides a function switching output (TV_Fnc) to the TV SCART connector (pin 8). The output level is determined by the state of two LSBs in serial port write Register 0. The table below defines the state of the TV_Fnc pin based on the register bit values.Bits OutputvoltageFunctionxxxxxx00~0 V Normal TVxxxxxx01~6 V16:9 aspectxxxxxx10~ 11 V Peritelevisionxxxxxx11~ 11 V PeritelevisionSCART Audio switchingThe device is designed to accept stereo audio inputs from an external audio DAC and from auxiliary SCART and VCR SCART connectors. The device provides audio outputs to the TV SCART, auxiliary SCART, and VCR SCART connectors. It also provides fixed gain, stereo line outputs of the audio output on the TV SCART. The line outputs are intended for use by an external stereo receiver/amplifier. These outputs are also combined for a Mono output to a RF modulator.The audio inputs are considered to be associated with the respective composite video input. As a result, the video selection determines which audio signals will be switched to a given SCART output. Refer to the SCART Video Switching section of this document for more information.Volume Control: The device provides control of the output level on the TV audio outputs (TV_Lout/Rout). The output level is controlled through serial port write Register 2. The lower 6-bits of this register set an attenuation level from 0 to -63 dB in 1 dB steps, where xx000000 is 0 dB and xx111111 is -63 dB. However, the attenuation is only specified to 5-bits of accuracy (-31 dB).The mute function is controlled by the fifth bit of write Register 0, which allows these outputs to be muted to -75 dB. When this bit is set to 0, the attenuator is active. When it is set to 1, the outputs are muted to -75 dB. This bit can be set independent of the attenuation register such that the output can be muted before any change in volume, or any switching of audio sources. The audio control circuits have a zero crossing detector that allows volume control changes to be completed only when the audio signal is near a zero crossing. This prevents audible popping and clicking during a volume change.Hot-plug of SCART connectors. The 5003 devices are sensitive to discharge caused by floating chassis grounds between audio/video equipment. This is observed when the SCART cables are repeatedly connected and disconnected while the 5003 is powered on inside the IRD. When the SCART cable is unplugged, an AC potential can exist between equipments. When the SCART cable is plugged back into the IRD, the AC potential discharges through the SCART connector. If the discharge occurs through the shield of the SCART connector or the ground pins, there is no problem. If the discharge occurs through the signal pins, the 5003 devices can experience a latch-up condition and a high current situation will exist. The latch-up will occur if the pulse created by the discharge has a fast rising edge, typically a few hundred pico-seconds. This is an order of magnitude faster than a standard ESD pulse so the internal ESD diodes of the 5003 will not respond fast enough to protect the device. This problem can be resolved by placing aAVPro® 5003Triple SCART A/V Switchsmall shunt capacitor on each SCART I/O pin. The capacitor slows the rising edge of the discharge pulse and allows the internal ESD diodes to react to the discharge. Good results are achieved using a 470 pF value, but an exact value should be calculated for each signal line depending upon the signal type so as to avoid roll-off of the intended signal. As an alternate approach, external diodes can be used to shunt this discharge.Digital OutputsThe device includes programmable digital outputs (DO_0, and DO_1). These pins are general purpose outputs programmed by bits in serial port Register 0. Bit 3 of this register controls DO_0 while bit 4 controls DO_1. Setting the register bits to 0 puts these outputs in the LOW state. Setting the register bits to 1 puts the outputs in the HIGH state. Internal pull-ups are incorporated.Serial Port DefinitionInternal functions of the device are monitored and controlled by a simple two-wire serial port that is compatible with the inter-IC (I2C) bus. The serial port operates in a slave mode only and can be written to or read from. The default address of the device is 1001000x. The serial port uses a clock input (SCLK) that is driven by the bus master and a bi-directional data input (SDATA) to perform all data transfers. Data Transfers: The device is enabled for a data transfer when the SDATA pin is driven from HIGH to LOW by the bus master while the SCLK pin is HIGH. The data transfer is complete when the bus master drives the SDATA pin from LOW to HIGH while thedecoded to determine if a valid address has been received. The first seven bits of information are the address with the eighth bit indicating whether the cycle is a read (bit is HIGH) or a write (bit is LOW). If the address is valid for this device, on the falling SCLK edge of the eighth bit of data, the device will drive the SDATA pin low and hold it LOW until the next falling edge of the SCLK pin to acknowledge the address transfer. Once a valid address is detected the device will continue to transmit or receive data until the process is complete, or the bus master issues a stop.Reset: At power-up the serial port defaults to the states indicated in boldface type. At device power-up, the device also generates an acknowledge. The device also responds to the system level reset that is transmitted through the serial port. When the master sends the address 00000000 followed by the data 00000110, the device resets to the default condition, and generates and acknowledge.I2C Latch-up. The 5003 may latch-up if the I2C bus is active and there is no power to the 5003 device. In a typical application, this will not occur as the I2C bus and the 5003 device are powered from the same power supply. This condition typically occurs when evaluating the 5003 devices on a demo board. When the I2C is powered on and the 5003 device is powered off, the I/O lines of the I2C bus are active and therefore will be at +5V. The SDATA pin internal ESD diodes will begin to conduct current through the SDATA pin and attempt to power-on internal circuits of the device. When power is applied to the 5003 device, circuits can be in an unknown state and therefore latch-up occurs. This is prevented by disconnecting the I2C interface when the device is powered down.Power Supply Sequence: The 5003 require three power supplies ( 12V, 5V and –5V ) for proper operation. Similar to other CMOS devices that are powered from multiple supplies, the 5003 family device requires proper power ramp-up sequence to avoid forwardly biasing the substrate diodes which can cause destructive latch-up. In order to insure that the chip substrate diodes are always reverse biased, the –5V supply should always be applied before the other two supplies. The preferred power ramp-up sequences is “–5V, +12V and then +5V.”If this sequence can not be achieved, placing schottky diodes from –5V to ground and / or +12V to +5V supply, depending upon sequence and timing, can prevent latchup.AVPro® 5003Triple SCART A/V SwitchSerial Port Register Table (Write registers); Device Address = 10010000 (Bold indicates default setting) REGISTER FUNCTION BITS DESCRIPTION0TV Function Control xxxxxx00xxxxxx01xxxxxx10xxxxxx11Level 0; normal TV output (TV_Fnc = 0V)Level 1A; 16:9 aspect ratio (TV_Fnc = 6V)Level 1B; Peritelevision output mode (TV_Fnc =11V) Level 1B; not valid mode (TV_Fnc =11V)0Digital Outputs(independent)xxxx00xxxxxx11xxDO_0, DO_1 are set LOWDO_0, DO_1 are set HIGH0TV Mute Control*xxx0xxxxxxx1xxxx TV audio (TV_Lout/TV_Rout, Lout/Rout/Mono) output = ON TV audio (TV_Lout/TV_Rout, Lout/Rout/Mono) output = Mute0n/a x00xxxxx Reserved: Set these bits to “0” for normal operation0RGB Sync Source0xxxxxxx1xxxxxxx RGB sync /DC restore source = RGB RGB sync /DC restore source = TV_YC1TV RGB/ S videochroma Source(S Video has chroma on TV_R. TV_G & TV_B outputs are disabled.)xxxxxx00xxxxxx01xxxxxx10xxxxxx11TV RGB signal source = Auxiliary SCART input (RGB )TV RGB signal source = Video encoder IC,TV RGB signal source = Video encoder IC, chroma on TV redTV RGB signal source = VCR SCART (red) chroma on TV red1TV composite video /Audio Source xxxx00xxxxxx01xxxxxx10xxxxxx11xxTV composite & audio signal source = Auxiliary SCART inputTV composite & audio signal source =Video encoder ICaudio DAC ICTV composite & audio signal source = VCR SCART inputTV composite (S video luma ) & audio signal source =Video encoder IC (Enc_Y), audio DAC IC1VCR Signal Source xx00xxxxxx01xxxxxx10xxxxxx11xxxx SVHS mode, source = Video encoder IC (Y & C), audio DAC IC VCR signal source = Auxiliary SCART composite inputVCR signal source = Video encoder IC (YC), audio DAC IC VCR signal source = Video encoder IC (YC), audio DAC IC1Auxiliary Output Select x0xxxxxxx1xxxxxx Auxiliary signal source = VCR SCART inputAuxiliary signal source = Video encoder IC, audio DAC IC1TV Chroma RF output0xxxxxxx1xxxxxxx TV_C (chroma RF) output: output disabledTV_C (chroma) output: = TV_R (for RF mod to sum Y & C)2TV Volume Control*xx000000xx011111TV audio volume = normal (0 dB)TV audio volume = minimum (31 dB atten.)2n/a00xxxxxxSerial Port Register Table (Read register); Device Address = 10010001 (Bold indicates default setting)0AUX Function ControlInput xxxxxx00xxxxxx01xxxxxx10Level 0; normal TV output (TV_Fnc = 0 volts)Level 1A; 16:9 aspect ratio (TV_Fnc = 6 volts)Level 1B; Peritelevision output mode (TV_Fnc = 11 volts)0VCR Function ControlInput xxxx00xxxxxx01xxxxxx10xxLevel 0; normal TV output (TV_Fnc = 0 volts)Level 1A; 16:9 aspect ratio (TV_Fnc= 6 volts)Level 1B; Peritelevision output mode (TV_Fnc = 11 volts)0n/a0000xxxx Reserved: These bits set to “0” in normal operationAVPro® 5003Triple SCART A/V SwitchSCART Switching TableINPUT PIN OUTPUT PINAUX_R: Red input from AUX SCARTEnc_R: Red input from video encoder ICEnc_C: Chroma input from video encoder ICSVHS_Cin: Chroma input from VCR SCARTTV_R: Red video output to TV or SVHS chroma output to TVAUX_R: Red input from AUX SCARTEnc_R: Red input from video encoder IC Enc_C: Chroma input from video encoder IC SVHS_Cin: Chroma input from VCR SCART TV_C: Follows TV_R output. Chroma output to sum Y & C for RF modulator when TV in S video mode, On/off selectableAUX_G: Green input from AUX SCARTEnc_G: Green input from video encoder ICTV_G: Green video output to TVAUX_B: Blue input from AUX SCARTEnc_B: Blue input from video encoder ICTV_B: Blue video output to TVABLANK: Blanking input from AUX SCARTEBLANK: Blanking input from video encoder ICBLANK: TV blanking output for RGBAUX_YCin: Composite input from AUX SCARTEnc_YC: Composite input from video encoder ICEnc_Y: Luma input from video encoder ICVCR_YCin: Composite (YC or Y) input from VCRTV_YCout: Composite video, RGB sync, or Luma output to TVAUX_YCin: Composite input from AUX SCART Enc_YC: Composite input from video encoder IC Enc_Y: Luma input from video encoder ICVCR_YCin: Composite (YC or Y) input from VCR TV_Mod: Follows TV_YCout output. Composite (or luma sum with chroma) output to RF modulatorAUX_YCin: Composite input from AUX SCARTEnc_YC: Composite input from video encoder ICEnc_Y: Luma input from video encoder ICVCR_YCout: Composite or Luma output to VCREnc_C: Chroma input from video encoder IC SVHS_Cout: Chroma output to VCREnc_YC: Composite input from video encoder ICVCR_YCin: Composite input from VCR SCARTAUX_YCout: Composite video output to auxiliary SCARTAUX_Lin: Left audio input from AUX SCARTLin: Left audio input from audio DACVCR_Lin: Left audio input from VCR SCARTLout: Left audio output to RCA jackAUX_Lin: Left audio input from AUX SCARTLin: Left audio input from audio DACVCR_Lin: Left audio input from VCR SCARTTV_Lout: Left audio output to TV SCARTLin: Left audio input from audio DACVCR_Lin: Left audio input from VCR SCARTAUX_Lout: Left audio output to auxiliary SCARTAUX_Lin: Left audio input from AUX SCARTLin: Left audio input from audio DACVCR_Lout: Left audio output to VCR SCARTAUX_Rin: Right audio input from AUX SCARTRin: Right audio input from audio DACVCR_Rin: Right audio input from VCR SCARTRout: Right audio output to RCA jackAUX_Rin: Right audio input from AUX SCARTRin: Right audio input from audio DACVCR_Rin: Right audio input from VCR SCARTTV_Rout: Right audio output to TV SCARTRin: Right audio input from audio DACVCR_Rin: Right audio input from VCR SCARTAUX_Rout: Right audio output to auxiliary SCARTAUX_Rin: Right audio input from AUX SCARTRin: Right audio input from audio DACVCR_Rout: Right audio output to VCR SCARTAVPro® 5003Triple SCART A/V SwitchPIN DESCRIPTIONSNAME TYPE DESCRIPTIONAnalog Pins:ABLANK I Auxiliary Blanking Input: In a typical system, this pin is connected to the RGBstatus pin (pin 16, fast blanking) from the auxiliary SCART connector.AUX_R I Auxiliary Red Input: In a typical system, this pin is connected to the RED input pin(pin 15) of the auxiliary SCART connector. This input can be selected as thesignal source for the TV_R output pin.AUX_G I Auxiliary Green Input: In a typical system, this pin is connected to the GREENinput pin (pin 11) of the auxiliary SCART connector. This input can be selected asthe signal source for the TV_G output pin.AUX_B I Auxiliary Blue Input: In a typical system, this pin is connected to the BLUE inputpin (pin 7) of the auxiliary SCART connector. This input can be selected as thesignal source for the TV_B output pin.AUX_Fnc I Function Switching Input, AUX: In a typical system, this pin is connected to pin 8of the auxiliary SCART connector to monitor the function select input from thatdevice. This input can identify three different levels and record the level in theserial port register.AUX_YCin I Auxiliary Video Input: In a typical system, this pin is connected to the compositevideo input pin (pin 20) of the auxiliary SCART connector. This input can beselected as the signal source for the TV_YCout and/or VCR_YCout pins.AUX_Lin I Auxiliary Left Audio Input: In a typical system, this pin is connected to the L AudioOutput pin (pin 3) of the auxiliary SCART connector. This input can be selectedas the signal source for the TV_Lout and/or VCR_Lout pins.AUX_Rin I Auxiliary Right Audio Input: In a typical system, this pin is connected to the RAudio Output pin (pin 1) of the auxiliary SCART connector. This input can beselected as the signal source for the TV_Rout and/or VCR_Rout pins.EBLANK I Encoder Blanking Input: In a typical system, this pin is connected to the fastblanking signal from the external video encoder device.Enc_R I Encoder Red Input: In a typical system, this pin is connected to the RED outputpin from the external video encoder device. This input can be selected as thesignal source for the TV_R output pin.Enc_G I Encoder Green Input: In a typical system, this pin is connected to the GREENoutput pin from the external video encoder device. This input can be selected asthe signal source for the TV_G output pin.Enc_B I Encoder Blue Input: In a typical system, this pin is connected to the BLUE outputpin from the external video encoder device. This input can be selected as thesignal source for the TV_B output pin.Enc_YC I Encoder Video Input: In a typical system, this pin is connected to the compositevideo output pin from the external video encoder device. This input can beselected as the signal source for the AUX_YCout, TV_YCout and/or VCR_YCoutpins.Enc_Y I Encoder Luminance Input: In a typical system, this pin is connected to thecomposite video output pin from the external video encoder device whenoperating S video. This input can be selected as the signal source for theTV_YCout and/or VCR_YCout pins.AVPro® 5003Triple SCART A/V SwitchPIN DESCRIPTIONS (continued)NAME TYPE DESCRIPTIONEnc_C I Encoder Chrominance Input: In a typical system, this pin is connected to the TV_Routput pin from the external video encoder device when operating S video. This inputcan be selected as the signal source for the TV_R and/or VCR’s SVHS_Cout output pin. Lin I Left Audio Input: In a typical system, this pin is connected to the left audio outputpin of the external audio DAC. This input can be selected as the signal source forthe TV_Lout, VCR_Lout and/or AUX_Lout pins.Rin I Right Audio Input: In a typical system, this pin is connected to the right audiooutput pin of the external audio DAC. This input can be selected as the signalsource for the TV_Rout, VCR_Rout and/or AUX_Rout pins.SVHS_Cin I SVHS Chroma Input: In a typical system, this pin is connected to the SVHSChroma pin (pin 15) on the VCR SCART connector. It provides chroma input fromthe VCR when the SVHS mode is selected for the TV connector.VCR_YCin I VCR Video Input: In a typical system, this pin is connected to the composite videoinput pin (pin 20) of the VCR SCART connector. This input can be selected as thesignal source for the TV_YCout and/or AUX_YCout pins.VCR_Lin I VCR Left Audio Input: In a typical system, this pin is connected to the L AudioOutput pin (pin 3) of the VCR SCART connector. This input can be selected asthe signal source for the TV_Lout and/or AUX_Lout pins.VCR_Rin I VCR Right Audio Input: In a typical system, this pin is connected to the R AudioOutput pin (pin 1) of the VCR SCART connector. This input can be selected asthe signal source for the TV_Rout and/or AUX_Rout pins.VCR_Fnc I Function Switching Input, VCR: In a typical system, this pin is connected to pin 8 ofthe VCR SCART connector to monitor the function select input from that device. Thisinput can identify three different levels and records the level in the serial port register. AUXYCout O Auxiliary Video Output: This pin is the composite video output to the auxiliarySCART connector (pin 19).AUX_Lout O Auxiliary Left Audio Output: This pin is the output to the left channel audio (pin 3)of the auxiliary SCART connector.AUX_Rout O Auxiliary Right Audio Output: This pin is the output to the right channel audio(pin1) of the auxiliary SCART connector.BLANK O Blanking output: This output provides the blanking signal to the TV SCARTconnector (pin 16). This signal is either the blanking signal from the auxiliarySCART connector (ABLANK) or the signal from the external video encoder(EBLANK).Lout O Left Audio Output: This pin is the output to the left channel audio RCA jack.Rout O Right Audio Output: This pin is the output to the right channel audio RCA jack. Mono O Mono Audio Output: This pin is sum of Lout & Rout to the RF modulator input. SVHS_Cout O SVHS Chroma Output: This pin is typically AC coupled to pin 15 of the VCRSCART connector. When the S-video mode is selected for the VCR connector,video from the video encoder input pin (Enc_C) is output to this pinTV_YCout O TV Video Output: This pin is the composite video output to the TV SCARTconnector (pin 19). In the SVHS mode, this pin provides luminance information.AVPro® 5003Triple SCART A/V SwitchPIN DESCRIPTIONS (continued)NAME TYPE DESCRIPTIONTV_Mod O TV Modulator Video Output: This pin follows the composite video output to theTV_YCout signal to the TV SCART connector. It provides composite video for anexternal RF modulator. In S video mode, it provides luminance information only TV_R O TV Red Output: This pin provides Red video output to the TV SCART connector(pin 15). In S video mode, this pin provides the chroma information.TV_C O TV Chroma Output: This pin provides chroma signal to sum with TV_Mod’sluminance when operating in S video mode for composite video signal for RFmodulator. It is on/off selectable.TV_G O TV Green Output: This pin provides Green video output to the TV SCARTconnector (pin 11).TV_B O TV Blue Output: This pin provides Blue video output to the TV SCART connector(pin 7).TV_Lout O TV Left Audio Output: This pin is the output to the left channel audio (pin 3) of theTV SCART connector.TV_Rout O TV Right Audio Output: This pin is the output to the right channel audio (pin1) ofthe TV SCART connector.TV_Fnc O Function Output TV: This pin is the function switching output to the TV SCARTconnector pin 8. The output level is determined by the serial port write register. VCR_YCout O VCR Video Output: This pin is the composite video output to the VCR SCARTconnector (pin 20). In the SVHS mode, this pin provides luminance informationfrom the video encoder IC (pin Enc_Y).VCR_Lout O VCR Left Audio Output: This pin is the output to the left channel audio (pin 3) ofthe VCR SCART connector.VCR_Rout O VCR Right Audio Output: This pin is the output to the right channel audio (pin1) ofthe VCR SCART connector.Digital Pins:DO_0O Digital Output 0: This pin is a general purpose output that is controlled by serialport register.DO_1O Digital Output 1: This pin is a general purpose output that is controlled by serialport register.SCLK I Serial Clock Input: This pin accepts a serial port clock input signal.SDATA I Serial Data Input: This is a tri-state pin that receives or transmits serial data. Power/Ground Pins:VCC-+5 VDC power inputs.VEE--5 VDC power inputs.VDD-+12 VDC power input for function switchingVref-Internal voltage reference, bypass pin. Add capacitor 4.7 uF to ground.GND-Ground for all blocks.Rbias-Bias point of internal current generator. Add resistor 10k to ground.Tgen-Reference point for internal timing circuit. Add capacitor 470 pF to ground.。

________________________________________________________________Maxim Integrated Products 1General DescriptionThe MAX202E–MAX213E, MAX232E/MAX241E line drivers/receivers are designed for RS-232 and V.28communications in harsh environments. Each transmitter output and receiver input is protected against ±15kV electrostatic discharge (ESD) shocks, without latchup.The various combinations of features are outlined in the Selector Guide.The drivers and receivers for all ten devices meet all EIA/TIA-232E and CCITT V.28specifications at data rates up to 120kbps, when loaded in accordance with the EIA/TIA-232E specification.The MAX211E/MAX213E/MAX241E are available in 28-pin SO packages, as well as a 28-pin SSOP that uses 60% less board space. The MAX202E/MAX232E come in 16-pin TSSOP, narrow SO, wide SO, and DIP packages. The MAX203E comes in a 20-pin DIP/SO package, and needs no external charge-pump capacitors. The MAX205E comes in a 24-pin wide DIP package, and also eliminates external charge-pump capacitors. The MAX206E/MAX207E/MAX208E come in 24-pin SO, SSOP, and narrow DIP packages. The MAX232E/MAX241E operate with four 1µF capacitors,while the MAX202E/MAX206E/MAX207E/MAX208E/MAX211E/MAX213E operate with four 0.1µF capacitors,further reducing cost and board space.________________________ApplicationsNotebook, Subnotebook, and Palmtop Computers Battery-Powered Equipment Hand-Held EquipmentNext-Generation Device Featureso For Low-Voltage ApplicationsMAX3222E/MAX3232E/MAX3237E/MAX3241E/MAX3246E: ±15kV ESD-Protected Down to10nA, +3.0V to +5.5V, Up to 1Mbps, True RS-232Transceivers (MAX3246E Available in a UCSP™Package)o For Low-Power ApplicationsMAX3221/MAX3223/MAX3243: 1µA SupplyCurrent, True +3V to +5.5V RS-232 Transceivers with Auto-Shutdown™o For Space-Constrained ApplicationsMAX3233E/MAX3235E: ±15kV ESD-Protected,1µA, 250kbps, +3.0V/+5.5V, Dual RS-232Transceivers with Internal Capacitorso For Low-Voltage or Data Cable ApplicationsMAX3380E/MAX3381E: +2.35V to +5.5V, 1µA,2Tx/2Rx RS-232 Transceivers with ±15kV ESD-Protected I/O and Logic PinsMAX202E–MAX213E, MAX232E/MAX241E±15kV ESD-Protected, +5V RS-232 TransceiversSelector Guide19-0175; Rev 6; 3/05Pin Configurations and Typical Operating Circuits appear at end of data sheet.YesPARTNO. OF RS-232DRIVERSNO. OF RS-232RECEIVERSRECEIVERS ACTIVE IN SHUTDOWNNO. OF EXTERNAL CAPACITORS(µF)LOW-POWER SHUTDOWNTTL TRI-STATE MAX202E 220 4 (0.1)No No MAX203E 220None No No MAX205E 550None Yes Yes MAX206E 430 4 (0.1)Yes Yes MAX207E 530 4 (0.1)No No MAX208E 440 4 (0.1)No No MAX211E 450 4 (0.1)Yes Yes MAX213E 452 4 (0.1)Yes Yes MAX232E 220 4 (1)No No MAX241E454 (1)YesFor pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .AutoShutdown and UCSP are trademarks of Maxim Integrated Products, Inc.Ordering InformationOrdering Information continued at end of data sheet.2_______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241EABSOLUTE MAXIMUM RATINGSV CC ..........................................................................-0.3V to +6V V+................................................................(V CC - 0.3V) to +14V V-............................................................................-14V to +0.3V Input VoltagesT_IN............................................................-0.3V to (V+ + 0.3V)R_IN...................................................................................±30V Output VoltagesT_OUT.................................................(V- - 0.3V) to (V+ + 0.3V)R_OUT......................................................-0.3V to (V CC + 0.3V)Short-Circuit Duration, T_OUT....................................Continuous Continuous Power Dissipation (T A = +70°C)16-Pin Plastic DIP (derate 10.53mW/°C above +70°C)....842mW 16-Pin Narrow SO (derate 8.70mW/°C above +70°C).....696mW 16-Pin Wide SO (derate 9.52mW/°C above +70°C)......762mW 16-Pin TSSOP (derate 9.4mW/°C above +70°C)...........755mW20-Pin Plastic DIP (derate 11.11mW/°C above +70°C)...889mW 20-Pin SO (derate 10.00mW/°C above +70°C).............800mW 24-Pin Narrow Plastic DIP(derate 13.33mW/°C above +70°C) ...............................1.07W 24-Pin Wide Plastic DIP(derate 14.29mW/°C above +70°C)................................1.14W 24-Pin SO (derate 11.76mW/°C above +70°C).............941mW 24-Pin SSOP (derate 8.00mW/°C above +70°C)..........640mW 28-Pin SO (derate 12.50mW/°C above +70°C)....................1W 28-Pin SSOP (derate 9.52mW/°C above +70°C)..........762mW Operating Temperature RangesMAX2_ _EC_ _.....................................................0°C to +70°C MAX2_ _EE_ _...................................................-40°C to +85°C Storage Temperature Range.............................-65°C to +165°C Lead Temperature (soldering, 10s).................................+300°CELECTRICAL CHARACTERISTICS(V CC = +5V ±10% for MAX202E/206E/208E/211E/213E/232E/241E; V CC = +5V ±5% for MAX203E/205E/207E; C1–C4 = 0.1µF for MAX202E/206E/207E/208E/211E/213E; C1–C4 = 1µF for MAX232E/241E; T A = T MIN to T MAX ; unless otherwise noted. Typical values are at T A = +25°C.)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.ELECTRICAL CHARACTERISTICS (continued)MAX202E–MAX213E, MAX232E/MAX241E (V CC= +5V ±10% for MAX202E/206E/208E/211E/213E/232E/241E; V CC= +5V ±5% for MAX203E/205E/207E; C1–C4 = 0.1µF forMAX202E/206E/207E/208E/211E/213E; C1–C4 = 1µF for MAX232E/241E; T A= T MIN to T MAX; unless otherwise noted. Typical valuesare at T A= +25°C.)Note 1:MAX211EE_ _ tested with V CC= +5V ±5%._______________________________________________________________________________________34______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241E__________________________________________Typical Operating Characteristics(Typical Operating Circuits, V CC = +5V, T A = +25°C, unless otherwise noted.)5.00MAX211E/MAX213ETRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)V O H , -V O L (V )5.56.06.57.07.58.0100020003000400050000MAX211E/MAX213E/MAX241E TRANSMITTER SLEW RATE vs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E ( V /µs )5101520253010002000300040005000_______________________________________________________________________________________5MAX202E–MAX213E, MAX232E/MAX241E____________________________Typical Operating Characteristics (continued)(Typical Operating Circuits, V CC = +5V, T A = +25°C, unless otherwise noted.)2MAX202E/MAX203E/MAX232E TRANSMITTER SLEW RATE vs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E ( V /µs )468101214100020003000400050005.07.5-7.53000MAX205E–MAX208ETRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCE-5.02.5LOAD CAPACITANCE (pF)O U T P U T V O L T A G E (V )10002000400050000-2.54550203000MAX205E–MAX208E SUPPLY CURRENT vs. LOAD CAPACITANCE2540LOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )100020004000500035302.55.0-10.0180MAX205E –MAX208EOUTPUT VOLTAGE vs. DATA RATE-7.50DATA RATE (kbps)O U T P U T V O L T A G E (V )601202401503090210-2.5-5.010.07.56_______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241EMAX203EMAX205E_____________________________________________________________Pin DescriptionsMAX202E/MAX232E_______________________________________________________________________________________7MAX202E–MAX213E, MAX232E/MAX241EMAX208E________________________________________________Pin Descriptions (continued)MAX206EMAX207E8_______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241EMAX211E/MAX213E/MAX241E)(MAX205E/MAX206E/MAX211E/MAX213E/MAX241E)________________________________________________Pin Descriptions (continued)MAX211E/MAX213E/MAX241EFigure 3. Transition Slew-Rate Circuit_______________Detailed Description The MAX202E–MAX213E, MAX232E/MAX241E consist of three sections: charge-pump voltage converters, drivers (transmitters), and receivers. These E versions provide extra protection against ESD. They survive ±15kV discharges to the RS-232 inputs and outputs, tested using the Human Body Model. When tested according to IEC1000-4-2, they survive ±8kV contact-discharges and ±15kV air-gap discharges. The rugged E versions are intended for use in harsh environments or applications where the RS-232 connection is frequently changed (such as notebook computers). The standard (non-“E”) MAX202, MAX203, MAX205–MAX208, MAX211, MAX213, MAX232, and MAX241 are recommended for applications where cost is critical.+5V to ±10V Dual Charge-PumpVoltage Converter The +5V to ±10V conversion is performed by dual charge-pump voltage converters (Figure 4). The first charge-pump converter uses capacitor C1 to double the +5V into +10V, storing the +10V on the output filter capacitor, C3. The second uses C2 to invert the +10V into -10V, storing the -10V on the V- output filter capacitor, C4.In shutdown mode, V+ is internally connected to V CC by a 1kΩpull-down resistor, and V- is internally connected to ground by a 1kΩpull up resistor.RS-232 Drivers With V CC= 5V, the typical driver output voltage swing is ±8V when loaded with a nominal 5kΩRS-232 receiver. The output swing is guaranteed to meet EIA/TIA-232E and V.28 specifications that call for ±5V minimum output levels under worst-case conditions. These include a 3kΩload, minimum V CC, and maximum operating temperature. The open-circuit output voltage swings from (V+ - 0.6V) to V-.Input thresholds are CMOS/TTL compatible. The unused drivers’ inputs on the MAX205E–MAX208E, MAX211E, MAX213E, and MAX241E can be left unconnected because 400kΩpull up resistors to V CC are included on-chip. Since all drivers invert, the pull up resistors force the unused drivers’ outputs low. The MAX202E, MAX203E, and MAX232E do not have pull up resistors on the transmitter inputs._______________________________________________________________________________________9MAX202E–MAX213E, MAX232E/MAX241E10______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241E±15kV ESD-Protected, +5V RS-232 Transceivers When in low-power shutdown mode, the MAX205E/MAX206E/MAX211E/MAX213E/MAX241E driver outputs are turned off and draw only leakage currents—even if they are back-driven with voltages between 0V and 12V. Below -0.5V in shutdown, the transmitter output is diode-clamped to ground with a 1k Ωseries impedance.RS-232 ReceiversThe receivers convert the RS-232 signals to CMOS-logic output levels. The guaranteed 0.8V and 2.4V receiver input thresholds are significantly tighter than the ±3V thresholds required by the EIA/TIA-232E specification.This allows the receiver inputs to respond to TTL/CMOS-logic levels, as well as RS-232 levels.The guaranteed 0.8V input low threshold ensures that receivers shorted to ground have a logic 1 output. The 5k Ωinput resistance to ground ensures that a receiver with its input left open will also have a logic 1 output. Receiver inputs have approximately 0.5V hysteresis.This provides clean output transitions, even with slow rise/fall-time signals with moderate amounts of noise and ringing.In shutdown, the MAX213E’s R4 and R5 receivers have no hysteresis.Shutdown and Enable Control (MAX205E/MAX206E/MAX211E/MAX213E/MAX241E)In shutdown mode, the charge pumps are turned off,V+ is pulled down to V CC , V- is pulled to ground, and the transmitter outputs are disabled. This reduces supply current typically to 1µA (15µA for the MAX213E).The time required to exit shutdown is under 1ms, as shown in Figure 5.ReceiversAll MAX213E receivers, except R4 and R5, are put into a high-impedance state in shutdown mode (see Tables 1a and 1b). The MAX213E’s R4 and R5 receivers still function in shutdown mode. These two awake-in-shutdown receivers can monitor external activity while maintaining minimal power consumption.The enable control is used to put the receiver outputs into a high-impedance state, to allow wire-OR connection of two EIA/TIA-232E ports (or ports of different types) at the UART. It has no effect on the RS-232 drivers or the charge pumps.N ote: The enabl e control pin is active l ow for the MAX211E/MAX241E (EN ), but is active high for the MAX213E (EN). The shutdown control pin is active high for the MAX205E/MAX206E/MAX211E/MAX241E (SHDN), but is active low for the MAX213E (SHDN ).Figure 4. Charge-Pump DiagramMAX202E–MAX213E, MAX232E/MAX241EV+V-200µs/div3V 0V 10V 5V 0V -5V -10VSHDNMAX211EFigure 5. MAX211E V+ and V- when Exiting Shutdown (0.1µF capacitors)X = Don't care.*Active = active with reduced performanceSHDN E N OPERATION STATUS Tx Rx 00Normal Operation All Active All Active 01Normal Operation All Active All High-Z 1XShutdownAll High-ZAll High-ZTable 1a. MAX205E/MAX206E/MAX211E/MAX241E Control Pin ConfigurationsTable 1b. MAX213E Control Pin ConfigurationsThe MAX213E’s receiver propagation delay is typically 0.5µs in normal operation. In shutdown mode,propagation delay increases to 4µs for both rising and falling transitions. The MAX213E’s receiver inputs have approximately 0.5V hysteresis, except in shutdown,when receivers R4 and R5 have no hysteresis.When entering shutdown with receivers active, R4 and R5 are not valid until 80µs after SHDN is driven low.When coming out of shutdown, all receiver outputs are invalid until the charge pumps reach nominal voltage levels (less than 2ms when using 0.1µF capacitors).±15kV ESD ProtectionAs with all Maxim devices, ESD-protection structures are incorporated on all pins to protect against electrostatic discharges encountered during handling and assembly. The driver outputs and receiver inputs have extra protection against static electricity. Maxim’s engineers developed state-of-the-art structures to protect these pins against ESD of ±15kV without damage. The ESD structures withstand high ESD in all states: normal operation, shutdown, and powered down. After an ESD event, Maxim’s E versions keep working without latchup, whereas competing RS-232products can latch and must be powered down to remove latchup.ESD protection can be tested in various ways; the transmitter outputs and receiver inputs of this product family are characterized for protection to the following limits:1)±15kV using the Human Body Model2)±8kV using the contact-discharge method specifiedin IEC1000-4-23)±15kV using IEC1000-4-2’s air-gap method.ESD Test ConditionsESD performance depends on a variety of conditions.Contact Maxim for a reliability report that documents test set-up, test methodology, and test results.Human Body ModelFigure 6a shows the Human Body Model, and Figure 6b shows the current waveform it generates when discharged into a low impedance. This model consists of a 100pF capacitor charged to the ESD voltage of interest, which is then discharged into the test device through a 1.5k Ωresistor.S H D N ENOPERATION STATUS Tx 1–400Shutdown All High-Z 01Shutdown All High-Z 10Normal Operation 11Normal OperationAll ActiveAll Active Active1–34, 5High-Z ActiveHigh-Z High-Z High-Z Active*High-Z RxM A X 202E –M A X 213E , M A X 232E /M A X 241EIEC1000-4-2The IEC1000-4-2 standard covers ESD testing and performance of finished equipment; it does not specifically refer to integrated circuits. The MAX202E/MAX203E–MAX213E, MAX232E/MAX241E help you design equipment that meets level 4 (the highest level) of IEC1000-4-2, without the need for additional ESD-protection components.The major difference between tests done using the Human Body Model and IEC1000-4-2 is higher peak current in IEC1000-4-2, because series resistance is lower in the IEC1000-4-2 model. Hence, the ESD withstand voltage measured to IEC1000-4-2 is generally lower than that measured using the Human Body Model. Figure 7b shows the current waveform for the 8kV IEC1000-4-2 level-four ESD contact-discharge test.The air-gap test involves approaching the device with a charged probe. The contact-discharge method connects the probe to the device before the probe is energized.Machine ModelThe Machine Model for ESD tests all pins using a 200pF storage capacitor and zero discharge resistance. Its objective is to emulate the stress caused by contact that occurs with handling and assembly during manufacturing. Of course, all pins require this protection during manufacturing, not just RS-232 inputs and outputs. Therefore,after PC board assembly,theMachine Model is less relevant to I/O ports.Figure 7a. IEC1000-4-2 ESD Test ModelFigure 7b. IEC1000-4-2 ESD Generator Current WaveformFigure 6a. Human Body ESD Test ModelFigure 6b. Human Body Model Current Waveform__________Applications InformationCapacitor Selection The capacitor type used for C1–C4 is not critical for proper operation. The MAX202E, MAX206–MAX208E, MAX211E, and MAX213E require 0.1µF capacitors, and the MAX232E and MAX241E require 1µF capacitors, although in all cases capacitors up to 10µF can be used without harm. Ceramic, aluminum-electrolytic, or tantalum capacitors are suggested for the 1µF capacitors, and ceramic dielectrics are suggested for the 0.1µF capacitors. When using the minimum recommended capacitor values, make sure the capacitance value does not degrade excessively as the operating temperature varies. If in doubt, use capacitors with a larger (e.g., 2x) nominal value. The capacitors’ effective series resistance (ESR), which usually rises at low temperatures, influences the amount of ripple on V+ and V-.Use larger capacitors (up to 10µF) to reduce the output impedance at V+ and V-. This can be useful when “stealing” power from V+ or from V-. The MAX203E and MAX205E have internal charge-pump capacitors. Bypass V CC to ground with at least 0.1µF. In applications sensitive to power-supply noise generated by the charge pumps, decouple V CC to ground with a capacitor the same size as (or larger than) the charge-pump capacitors (C1–C4).V+ and V- as Power Supplies A small amount of power can be drawn from V+ and V-, although this will reduce both driver output swing and noise margins. Increasing the value of the charge-pump capacitors (up to 10µF) helps maintain performance when power is drawn from V+ or V-.Driving Multiple Receivers Each transmitter is designed to drive a single receiver. Transmitters can be paralleled to drive multiple receivers.Driver Outputs when Exiting Shutdown The driver outputs display no ringing or undesirable transients as they come out of shutdown.High Data Rates These transceivers maintain the RS-232 ±5.0V minimum driver output voltages at data rates of over 120kbps. For data rates above 120kbps, refer to the Transmitter Output Voltage vs. Load Capacitance graphs in the Typical Operating Characteristics. Communication at these high rates is easier if the capacitive loads on the transmitters are small; i.e., short cables are best.Table 2. Summary of EIA/TIA-232E, V.28 SpecificationsMAX202E–MAX213E, MAX232E/MAX241EM A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)Table 3. DB9 Cable ConnectionsCommonly Used for EIA/TIAE-232E and V.24 Asynchronous Interfaces____________Pin Configurations and Typical Operating Circuits (continued)MAX202E–MAX213E, MAX232E/MAX241EM A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)MAX202E–MAX213E, MAX232E/MAX241E____________Pin Configurations and Typical Operating Circuits (continued)M A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)MAX202E–MAX213E, MAX232E/MAX241E____________Pin Configurations and Typical Operating Circuits (continued)M A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)______________________________________________________________________________________21MAX202E–MAX213E, MAX232E/MAX241E Ordering Information (continued)*Dice are specified at T A= +25°C.M A X 202E –M A X 213E , M A X 232E /M A X 241E22________________________________________________________________________________________________________________________________________________Chip Topographies___________________Chip InformationC1-V+C1+V CC R2INT2OUT R2OUT0.117"(2.972mm)0.080"(2.032mm)V-C2+ C2-T2IN T1OUT R1INR1OUT T1INGNDR5INV-C2-C2+C1-V+C1+V CC T4OUTR3IN T3OUTT1OUT 0.174"(4.420mm)0.188"(4.775mm)T4IN R5OUT R4OUT T3IN R4IN EN (EN) SHDN (SHDN)R3OUT T2OUT GNDR1IN R1OUT T2IN R2OUTR2IN T1IN ( ) ARE FOR MAX213E ONLYTRANSISTOR COUNT: 123SUBSTRATE CONNECTED TO GNDTRANSISTOR COUNT: 542SUBSTRATE CONNECTED TO GNDMAX202E/MAX232EMAX211E/MAX213E/MAX241EMAX205E/MAX206E/MAX207E/MAX208E TRANSISTOR COUNT: 328SUBSTRATE CONNECTED TO GNDMAX202E–MAX213E, MAX232E/MAX241E Package InformationM A X 202E –M A X 213E , M A X 232E /M A X 241EPackage Information (continued)MAX202E–MAX213E, MAX232E/MAX241E±15kV ESD-Protected, +5V RS-232 TransceiversMaxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________25©2005 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products, Inc.Package Information (continued)(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to /packages .)。

代号机型脚位1 · 72″索尼投影KP-7220CH 1-439-263-11 5020CH KP-1572 122 · 72″三洋投影CVP721FT UF2582FT 157/26893 · 33″松下TLF14582F1 PT-126GY PT-120Y 34/564 · 29″飞利蒲123/578/46105 · 29″日立2434701 29-G66SR 12/3456789106 · 29″乐声TLF14462B 29V30R 25V30H 12/345/67107 · 29″凯歌BSC26-5608 123/45679108 · FCR-29A014R 三星28″CS-7230Z CS-7226Z 1234/567899 · 28″东芝TFB4061AD 288X6M2 29-01B14 123/456791010 ·东芝28″TFB4062AD 28″长虹2588 123/46791011 · 28″游戏机CCFT-751 191012/248/35712 · 2882索尼1-439-289-221C2002 1-439-289-11 11011/27912/345613 · 27″日立2435032 2435036 27S×1 12/3456891014 · 28″康力7193 27-KL0014 4C7108 123/56791015 ·康艺BSC26-5602 6488-1 7428 7466 4C6401 123/56791016 · 26″日电2601 12345/691017 ·熊猫C64P1 C64P88 KF58371N 26-×M0017 12/345/671018 · TCL9325 9425 9329 8366 25-T01G1 123/46791019 · 28″BSC27-1205 27-1204 福日25″2581 2586 2587 13/2458920 ·东芝28″4092AD 2506XH 2500 2929 123/456791021 · 25″乐声TC-D25C 127/3622 ·三星25″FCR-25A012R 熊猫64P2 123/456791023 ·康佳25″BSC28-1010S 快乐28″凯歌28″1210/3567924 ·日立25″2435373 CMT2518 CMT2918C 2588 2988 12/410/3568925 ·金星25″BSC27-3402 金星C648 123/46826 ·凯歌25″BSC27-3405 4C6405 123/46827 ·孔雀28″北京29″、71-88 123/46791028 · 27″索尼1-439-238-11 12/456/910/7111229 ·黄山画王BSC26-3807 黄山25″黄山2588 13/4581030 ·松下25″25V40RQ TLF4G502F 12/3567代号机型脚位31 ·日立24″2434442 12471112/3510/6 932 ·日立24″2403 2434595 15/23468/91033 ·三洋21″BSC24-0909 BSC24-0910 熊猫3626 127/56/891034 · 54P6 JF0501-0301 东大2197 JF0501-0301A 12457/381035 · FTK-20A005 2123 2103 54L3 Z654-6A1 124/356891036 ·声宝21″2436562 声宝2198 125/36891037 ·皇冠20″1551 241011/3567938 ·三洋80P机芯CTP-3243 12412/56739 ·声宝CT-1410DK 1416DK MSH-032L F1154CEDA 13/25679/4840 ·三菱14″ 1447 3304B07803 126/3457/91041 · T-2001 T-1801 A1814 1614 24-HS0041 810/972/4342 ·昆仑牌22-HS0042 134/5610/8943 ·日立CTP216D CTK-216D 12/346/111244 ·乐声TC-481 TLF6024C TC-381M 145/36745 · F1134E（1871）MSH-0577 1800DK 1882 2083DK 2070 2071 2072 1278/34/56/101146 · 21″BSC25-2958 54CD8乐华542 BSC-201B 123/46847 ·乐声TLF-6031B TC-895 295H 202H 2348/56748 ·日立BSC24-2001 123/4567949 ·日立2434271 2434101 1893 1892 2099 2093 2003 15/346891050 ·日立2434241 日立1497 15/36891051 ·华利星14″ CT-3710PH 21-0208S 12457/381052 ·日立23机芯145/238/91053 · KT3 16C29 16CT729 20C937 203010 20CT3030 12/45/67954 · 21″游戏机191012/2345855 · 22″罗兰士234/17956 · 22″威牌123/45681057 ·乐声2188S 25-1059L BSC25-3201 12/345658 ·海燕21″CS54E-5-R 百花17″CS54E-3-R 1413/357/91059 ·福利牌2122 BSC24-0150A 25-0124F 2201 15/23468/91060 ·皇冠2034 124/3578910代号机型脚位501 · BSC27-1303 福日配件公司康佳2510 12/3910/4567502 · BSC27-0501（南京山花）29″高路华123/4567910503 ·彩显BSC24-1402 12/39/4568504 · 24-1501 2162 2101 2106 BSC25-1501B 12346/5910505 ·彩显BSC25-M02 17/456506 ·佳丽彩2188 2189 王牌9621 JF0501-0901 124/3568910· 24-4201A507 ·日立2195 2437351 123/568910508 · 29″高士达145-179Q 123/4567910509 ·夏普1431 249/136710510 · 14″飞跃37C3-3 134/268511 ·索尼2585 1-439-423-32 12/456/79101112512 · 21″索尼8-598-960-10 8-598-960-00 123/45/678513 ·长虹1426 N4106 124/38910514 ·索尼1400CH 1-439-238-1 3456/79101112515 · 29″高士达123/4567910516 · 14″福日1425 123/4568/910517 ·福日1725 (低B26.7V) 123/4568518 ·福日2014R 1814 (场26V) 15/23468/910519 ·彩显9541A 12510/4689520 ·康佳2106 2115 479 12/3456/8910521 · 28″王牌1210/39/4567522 · 25″美乐123/456/8910523 ·乐华5438 25-02A3W 123/4568910524 · 25″西湖27-0129（R）123/45689525 · 29″三菱12/457/910526 ·北京8351 青岛2117 牡丹4711 25-091B 13/45810527 ·三洋投影FD151 279/3568528 · JF0501-1227 25-1606 25-3308 5446 5435 123/4568529 · 29″创维JF0101-0156 27-0501 27-0501T 1210/39/4567代号机型脚位530 · 25″飞利蒲25-6001 127/910/3456 531 · FCR-29A0015 FCR- 29A006 FCR- 29A015 25-1079 27-0101 123/4610/578 532 · 26″飞利蒲361362 123/56/78910 533 · 29″假松下12/456534 ·松下2985 M18 ZTFK15020A ZTFK15014A TC-33GF82G 1210/35/67 535 ·龙江9675 210/368/4579 536 ·三洋P3 26-5505 124/678/910 537 · 25″虹美123/4689 538 · 25″东大12310/45679 539 ·大宇2575 2570 1352-5010 4336 1235/467910 540 ·北京25-3604D 8348 8349 123/45679 541 ·飞跃6418 123/4567910 542 · 25″永固2518 26-1058 1210/379 543 ·凯歌C4703 北京8336 12/3456544 · 25″声宝F1700CE 123/67/9101112/451 3545 ·美乐2188 12/3456/8910 546 · 22″日立2433751 15/23468/910 547 ·日立2998 3398 12/35689/410 548 ·日立2579 2436776 123/568910549 ·25-N1806 25-3355D 25-3355C 25-1059B25-1059S25-1059C123/46810550 · 25″美乐29″幸福123/4610/578 551 · 29″东宝26-5505 234/67/1011 552 · 14″环宇37C-2-3 371A 148/59/3610 553 ·虹美C4401 123/4589 554 ·飞鹿54C3 5402 123/4568 555 · 29″三星FCR-29A006 123/4610/578 556 ·康佳2107 1826 5402A 1926 BSC24-3302 123/468557 ·三菱CT-2039HD 334P15308 126/3457/910 558 ·三元5488 1248/3910 559 · 29″熊猫74P3 FCR-29A017R 7439黄河7401 123/4567910 代号机型脚位560 · 29″牡丹27-1505B 123/4567910561 · 25″三菱334P14108 334P19303 126/3457/910562 · 26″游戏机12/34567/9101112563 · 18″松日1248/3910564 ·日立1490 12/346/58/1112565 · TLF15644 供电110V 12/689/457566 ·乐声TLF15507B 12/456710567 ·德力风根2008 12/346/58/79/1112568 · 29″松下M19 1210/35569 ·汤姆逊2010E07 17/2910/34/56570 ·美乐DS54C-2B 27-07720 169/245571 ·21″夏普129/3456572 ·日立2195 2437351 123/568910573 · 14″飞跃37C3-3 134/268574 ·爱美79A302-2 179/25610/34/1112575 · 29″松下TLF15538 127/369576 · 25″三星FCR-25A013R 124/356789577 · 29″三星FCR-29A001 12/34567/810578 ·南宝NC-206 234710/569/1112579 ·日电投影1234589/610580 · 21″孔雀KQ400/93B 1210/457581 ·松下TLF1556F1 12/3567582 ·王牌56110C 场电压特高65V 123/467910583 ·日立C21-E19 12/568910584 ·三星2192 123611/457810585 ·三洋4507 12412/567586 ·青岛2150 1679/245587 · 25″孔雀V-2588B 123/467910588 ·日电47105617 123458/610589 · DNFFD-2120A 1310/45679代号机型脚位590 ·游戏机CFT-715 12910/234578 591 ·黄河III 12910/34568 592 ·昆仑371 三洋538 1212/410/89593 ·长虹2116 66B 124/35810594 ·夏普2131 249/136710/1112 595 · 25″莺歌1210/34579596 · 20″熊猫C51P1M 123/468597 ·乐声TLF15516B 127/369598 ·海虹EC-2270 如意SGC-5613 124/368910599 ·熊猫2528 25-2355DA 123/46810600 ·上海Z654-19A 26-0409 123/45689601 ·牡丹CF-2111 29-2406 25-02AW14 24-0405 13/458602 · 25″天鹅123/47910603 · FCR-25A001R 三星25″佳丽彩28″熊猫6404 123/456789604 ·佳丽彩HC-2603(场45V) 124/368910605 ·康佳2506 1210/345679606 ·东芝161E5C TFB-4031AN 1235/467910607 ·松下33″ TLF14444B 12/6710608 ·东芝2150 TFB4125CH 2437372 123/467910609 ·康力BSC25-6501 5448 128/3567910610 ·乐华34″海信34" JF0101-0151 6174Z-6279Z 123/467910611 ·创维8298 JF0101-0109 26-1307 1210/4567/39612 ·日立2435373H JF05K 12/35689/410613 ·声宝CT-2508 F1892CE/F0104PE 123/47910614 ·索尼29″ K5395DE 夏普F1734CE 12/3456789615 ·松下25″ JF0101-0159 松下29″123/4567910616 ·孔雀21″ BSC25-3369 1210/457617 ·德力风根0936 26618 · 154-238C 154-103H 29C80 25C60 12/459/310619 ·百花21″ BSC25-2192 3910/12458代号机型脚位620 ·金利蒲21″ BSC25-4803 12/3456621 · 25-1058K TCL9325 25-1059G 9329 JF0101-0101 123/467910 ·乐声TC-29V32HN 松下TC29V30R 25-2030S 123/467910 622 ·康佳29″ BSC27-1433S 2517 1210/39/4567 623 ·赣新5106 5406 25-1103 25-1103B 1235/468624 ·牡丹54C8 123/48625 · 8259 JF0101-0111 26-2106S 29-01B4 JF0101-0171 1210/34567 626 ·黄河29″孔雀25″ JF0101-0702A 1210/345679 627 ·东芝TFB4064AD TFB4125H 21R2 123/467910 628 ·高路华29″25-1079B BSC-101C BSC-101A 123/4567910 629 ·三洋A329″松下29″BSC27-4004L KH0201 129/3456630 ·游戏机25″91012/23458 631 ·游戏机22″191012/23458 632 ·三洋25″CMX2510C-00 L40B03500 124/58910633 ·牡丹54C10 27-01AW2 25-02AW1 25-02AW13 13/45810 · BSC25-01N40H634 ·松下25″M15 TLF15550 127/3569/410 635 ·佳丽彩29″1210/345679 636 ·佳丽彩25″1210/34579 637 ·长虹2988 2919 69F 27-10P01海信TC2930KP 123/4567910 ·海信TC2929DSP TFB4113AD638 ·赣新21″ KG5418 1235/468639 ·假松下FLK-29A061 TC-20GF30R TC-29GF30R F-56-29A001 1234/567910 640 · JVC29″ CJ26861-00B CJ26533-00B 特殊641 ·黄河5409 123/45679642 ·东芝21″25-2595 26-3005D 1210/34567 643 ·夏普5216 MSHIFB237 1467/2358/1011644 ·夏普F1438CE 127/3456810645 ·长虹2192 123/479646 ·日立2435034 GD17K 12/3568910代号机型脚位647 ·日电47105393/93305T 1210/5679 648 ·王牌9421 JF0501-0502 123/45679 649 ·熊猫2118A 123/468650 ·日立19″ 2434472/FL23K2 12/34568910 651 ·牡丹2112G BSC24-0406B 25-2332 25-1106 123/4568 652 ·索尼KV-25MF1 BSC27-40041 假松下29″1234/567910 653 ·长城29″JF0101-0709 7418 7408 1210/45679 654 ·快乐2104(场52V) 123/456810 655 ·泰山2188 BSC24-0702 123/48656 ·泰山5422 123/468657 ·夏普21″149/35678 658 ·日立2001SF 2014 1924 2126 2157 1927 145/2368/910 659 ·夏普F1903CE/2311AS 149/356710 660 · 27-2301 25-3355Q 28-5311 27-3409 BSC25-1059S 25-2231HE1 12/3456660 · 27-N2206 27-3412 26-3005S BSC27-N0403 12/3456662 ·福日HFC-2201 (场52V) 15/23468/910 663 ·康佳25″BSC28-0602A F2531D2 2518 123/468910 664 ·康佳29″TLF70148A 12/4567910 665 ·松下33″TC-33GF85R BSC29-0141 134/567910 666 ·松下29″BSC25-2595 26-36005 26-2131BT 1210/34567 667 ·福利牌BSC26-1201(BSC23V02) 5730023 13/245689 668 ·康佳BSC25-4006D KH0201 123/457/689 669 ·松下29″CE41459-00A AV-H265型12/3467810 670 ·金星6438 BSC26-1901 25-0202B-1 123/4567910 671 ·日立2579 2436776 123/568910 672 ·三洋29″FMB06EJLD 13/2458910673 ·索尼20″1-439-376-12 12/345/89/6101 1674 · 24-1503 23-4404A 24-01N40D3 25-1059 26-4005 24-01N4004L 12/3456 · 25-2405S 25-2024S 25-2425 25-0244 25-N57 25-N0802 25-0274· 25-09G代号机型脚位675 ·夏华BSC25-1113 458/3910676 ·长虹2991E 69H 123/4679677 ·长虹2169 124/38910678 ·长虹2119 BSC25-02AW8 25-02A5W 124/38910679 ·长虹25″BSC68P 123/479680 ·长虹25″BSC68E 123/45679681 ·长虹34″BSC71A 25-3803 123/4567910682 ·长虹25″BSC68S A2528 A2528B A6机芯123/456910683 ·长虹25″BSC68N N2516 123/45679684 ·长虹25″29″ BSC69N N2526 N2918 N2981 123/45679685 ·长虹25″29″ BSC69C 123／479686 · 66J 62T2 124/3810687 · 62F 2526 123/4567910688 · 65A 2132 123/47910689 · 2165F 25-02A5W 12410/389690 · 68F 123/4567910691 · 68B 123/456910692 ·黄河14″ 3710 BSC24-0303 129/3456693 ·北京2163三星FSV-20A001 北京2120 25-0308 123456/910694 ·幸福29″BSC28-7605 123/456/7810695 ·日立C29-G77 12/345678910696 ·夏普14″ F1832CE 149/35678/1112697 ·索尼1-439-493-11 12/345/691011698 ·三星FTM-21A001P 123456/7910699 ·松下TLF14717F TLF14701F1 127/346700 ·夏普28″F1941CE 123/467910701 ·三菱334P24502 126/357/4910702 ·三菱14″CE40502BA 134/89/710703 ·松下14″FLE14739F 128/3457704 ·日立2085 2433721 15/3468910代号机型脚位705 ·画王BSC27-4004J 27-0312 123/46910706 ·东芝TFB4095BD TFB4092AD 28-1428S康佳2988 123/4567910 707 ·三菱19″334P12302 12/34567/910 708 ·黄海美21″HHM54-I 124/35789709 ·福日HFC-1975 1775 123/48710 ·熊猫64P3 1210/34567711 ·福日2122 BSC24-0155(场26V) 1824 2024 15/23468/910 712 · 64C125-3602 25-3602B 27-01AW 154-179Q 26-0408 123/4567910 713 ·夏普F1327CE 12/3468/5910 714 ·夏华5101 (大宽脚) 7106/MSHIFBK20 124568/3910 715 ·北京21″FSV-21B005 北京25″13/56789716 · KV-1430CH 1-439-294-21 1-439-311-32 12/345/89/61011 717 · 25-5201 25-5202 FCM-21A003A FCM-21A004 12/3456/8910 718 ·三洋A3单线BSC25-2306 12/3456719 ·海信2136 129/4568720 ·海信25″海尔2528 BSC25-02AW26 21-2034S 124/58910 · L40B10500 1LB4L40B02300721 ·海信25″BSC26-2302/97L31N BSC25-29B 129/4568722 ·海信2143 BSC24-1502 25-01BW2 129/4568723 · BSC25-Z601A 25-3604C 24-01N39A 129/3456724 ·长虹BSC68A 123/456910725 ·日立2432842 145/89/3610726 ·海尔25″BSC27-2403 同238号727 ·三星BSC29-0117 123/4567910 728 ·松下D25C TLF15550B TLF15556B 127/3569/410 729 · JF0101-0117/960904C 123/4567910 730 ·假松下2188 TIF15630F 25-2323H（南京山花）123/4568731 ·三洋L40A00300/WLIP/SANYO 123/45810732 ·夏普F1493CE F1584CE 148/356710/1112 733 ·三星FCK-1412E01 124/368910代号机型脚位734 ·日立2435083 1210/45689735 ·东芝2950 TFB4132AD TFB4132AN TFB4132BD 123/4567910 · TFB4132DH/BW00621736 ·金星C4717 123/468737 ·皇冠14″(密脚)PC-02X 169/23458738 · JVC21″123／45679739 ·康力5448 25-6501 25-02AW 128/3567910740 ·飞利浦21″ BSC25-0710 1510/34/68741 ·北京2982 2980P FTR-25A002 124/36/5789742 ·松下2193 123/456810743 ·新飞利浦21″ BSC25-8301 25-8302 127/356/910744 ·福日2581 2586 BSC27-1204 13/24589745 ·福日29S10 BSC28-1910 福日29S16 28-1911 12/3589/410746 ·福日2553 BSC28-1209 13/24589747 ·福日26-0901/2435068A 12/568910748 ·黄河6404 JF0101-0705 12/4567910749 ·长城新21″ JF0501-0902 13456/8910750 ·乐华新25″ 154-279C 123/467910751 ·松下14″ TFB4031AN 12/467910752 ·日立2455061 C21-E19 12/68910753 · JF0501-1214A JF0501-1909A 124/3568910754 ·日电47105263/608ZD-T 12/4567910755 ·乐华34″ 6174Z-6130K 6174Z-6103K 123/4567910756 · BSC27-Z701 BSC25-Z701 129/3456757 · 154-238C/6RK10 12/459/310758 ·东正25″ BSC25-3602F 25-3355RE 13/46910759 ·福日牌27-1913/5732108A 12/410/3589760 · 6174Z-8005H（LG公司）123/457910761 ·福日26-1207/5730036 123/4567910762 · JF0101-0110A 熊猫64P3 创维8259（新）27-2104S 1210/39/4567代号机型脚位· 0101-0101A JF0101-0170 BSC25-3355J763 ·松下JF0101-0141 123/4567910764 ·牡丹25″29″ 29-0105（德州）29-0105（a）13/45810765 ·长虹29-01B9（德州）123/479766 ·长城29″ G2928 25-5301 12/34567910 767 ·东芝29″TFB4118AD 2840XP TFB4118AN 123/4567910 768 ·松下TC-2588（C150机芯）1210/357769 · 25-3604H/KH0101 25-01N40K 24-01N40Q 23-1126M 13/4910 · 25-02AW16 海信25-N0807770 ·松下29″（7爪）TLF14439B1 1210/67771 · 5608/MSH1FAP46 12345/6910772 ·康佳2516 27-1438S/KK961001 1210/39/4567 773 ·北京29″FUH-29A001（S）FUH-19A001（S）1345/26789774 ·夏普14″F1283CE/2N13A F1332CE 12/34579/61011 775 · 26-3606/KH0101（低B25V）25-8701 129/3456776 ·高路华34″JF0101-0130 123/4567910 777 ·索尼KV-27F1 1-439-339-14 12/3456/7101112 778 ·索尼21XBR2 1-439-351-12 12/345/89/1011 779 ·乐声TLF14002B1 1349/257780 ·松下CE40630C 157/3489781 ·东芝25″ TFB4061AD 123/467910782 ·日立C14-415 2435082A 129/34568783 ·日电29″ 47105356 1210/3569/47 784 ·日立2434222 145/368910785 ·日立2434853 15/23468/910 786 ·松下TLF70179B 124/3568910 787 ·假索尼29″ 27-0136 26-3606A 12910/3456788 ·嘉华25″ 28-5308 A 2906 12345/7810789 ·夏普14″ F1607CE F1657CE F1659CE 149/356710/1112 790 ·星宝1538 JF0208-0220 23-0901XB 123/4567代号机型脚位791 ·松下TLF14002-1 134/5679792 ·高士达25″LG154-238A 12/459/310793 ·创维8208 JF0501-0500B CF0801-5110 24-3353H-4 124/578910794 ·三星FCK14A033 FSC-20A001 910/123456795 ·金星7430 28-N0405 28-N2306 28-1918 28-1917 123/456910796 ·日电21″ 25-1056C 123/4679797 ·三洋29″FD117WFKO 147/23589798 ·夏普25C-V24 12/3456789外124 799 ·夏普F1607CE 149/356710/1112 800 · LG高士达25″ 6174Z-6229L 154-229G 123/4567910801 ·日电47105228 123/4567910802 ·牡丹25638 6174Z-6099G 6174Z-6039G 12/4567910803 ·日立14″2434431 123456/810804 ·老钻石22″松下TLF70060 1234/6789805 ·索尼25″ 8-598-945-10 8-598-945-00 123/45/6789806 ·松下14″ TLF14702B 136/247807 ·三星25″北京29″ FTR-29A002 124/356789808 ·飞利浦25″AT2078/20681 JF0501-2132 JF0501-2134 12/34567910809 ·王牌9621D JF0501-0901 BSC25-02AW（T）124/3568910810 ·牡丹25″27-1505（正定产十一爪）124/356781011811 ·王牌2528 3418 29-0127 29-0165 1210/3479812 ·东芝TFB4039AD 123/467910813 ·康佳2977 28-0616A 30000221 28-0616 30000384 123/46810814 ·王牌2111D 25-0207 2410/5689815 ·美乐2188 24-1030 123/568910816 ·康力29″CE-7469-1 JF0101-0120 123/567910817 ·康力25″ JF0101-0123/58-67462-01 1210/3467/59818 ·海虹画王5498A 24-2056S 12/3456/8910819 ·牡丹29″26-0407D 26-0408A（浙江产）123/45689820 ·三洋27″ RC-318 / L40B02800 松下26" 124/358910代号机型脚位821 ·牡丹29628 26-2802（常熟产）1210/45679 822 ·美乐29″25-1079B（无锡产）123/4567910 823 ·乐声21″ TLF14699B1 127/3569/410 824 ·松下2187 TLF15611F 127/3569/410 825 ·康佳34″ BSC25-2688S 123/4567910 826 ·日立2434191 DK09M 16/37101112/45827 ·夏普F1321CE 12//45/78/691112/31 3828 ·飞利浦AT2078/20671 127/3456910 829 ·夏普F1364CE 134/268830 · JVC29″ CJ26533-00B 110/479/2368 831 · JVC29″ CJ27385 110/479/386 832 · JVC18″龙江7696 CJ39690-00A 211/379/56810 833 ·华强三洋34″ HPC3400 25-2662S 124/58910834 ·日立14″ 2433951 DH31K 14-413A 145/368910 835 ·日立19″ 2434411 H / MF02K 3 12/34589/610 836 ·三洋FD29 12/7810/3569 837 · BSC30-N2501 康佳34″BSC 25-2661S 123/46810838 · TLF14591B 134/5679839 · BSC31-1208 福利牌5732033A 13/24589840 ·金星25″BSC26-4704 123/4567910 841 ·金星25″BSC-S6401/TIII433 13/46910842 ·飞利浦25″ BSC30-1001 30-1003 1467/35/891112 843 ·康佳2910 福利牌BSC27-1302 12/3910/4567 844 ·日立2435034 12/368910845 ·北京2516 BSC27-2202 135/6789846 ·索尼34″ 8-598-836-01 ES34M90L 123/45/678847 ·25-01N40A2 2568 BSC25-3355RA 25-3355RBSC25-01N40A31210/3456848 ·夏华29″CF-06291/E105192 LR87861/154-374A 123/4567910 849 ·松下TLF14632F1 139/257850 ·索尼1-439-397-11 345/61011/12/89 代号机型脚位851 ·北京2912G/FTH-29A001 1345/6789852 ·三菱14″ TFB4072AD 123/467910853 ·牡丹74C2 31-01AW3 1237/456910854 ·夏普F1952CE 149/356710855 ·日立29″ 2435373 1210/345689856 ·乐华25″BSC25-1059N 13/46910857 · 2979 BSC25-N2305 28-0615A 25-2658S 25-2660S 123/468910858 ·飞利浦25″ 2422-531-02301 BSC26-0201 123/4567910859 · LG154-207N 123/579/4610860 · LG29″ CF-06291 154-374A 6174Z-6229P 123/4567910861 ·三菱14″ 334B07501 134/89/710862 ·康力CE6448 JF0101-0102 BSC25-6502T 123/567910863 ·东芝25″ TFB4078AK 123/4567910864 ·夏普F1584CE F1491CE 137/24569/1011865 ·嘉华21″BSC25-5203 25-5203A （25-5203 B低聚焦）7810/12345866 ·东芝16″TFB4050AD 125/467810867 · JVC20″海燕CS51-7B-R 23-0110 139/78/245868 ·康力7458 JF0101-0108 58-67452-01 1210/59/3467869 ·索尼1-439-495-21 345/12/68911870 ·长虹62E 123/45679871 ·长虹68H 123/45679872 ·索尼29″8-598-976-00 NX-4002 8-598-976-20 123/45/6789873 · 27-2203 1345/6789874 · JF0101-0138 123/4567910875 ·松日29″ BSC28-N0401 123/45689876 · JF0101-1301 101*250000E01 13/2468877 · 27-0101R 25-09N020C 康美29″ BSC29-0137B 1237/46910878 · JVC7685 678/34/12879 ·牡丹64C2 64C3 BSC27-01AW1 123/4567910880 ·北京2163 2120 5910/1346代号机型脚位881 ·三洋CK15F1 L40B10800 124/358910882 ·龙江7755 JVC7755 47105317 21112/38910/4567 883 · FFA4024L 大宇2975 123/467910884 · 334P23108 三菱29" 12/34567/910885 · 27-1306 CE42700-001J1 JVC25" 123/45679886 · AT2078（场24V）飞利浦20301 127/3456910887 · 27-1082H 海尔25" 无锡东洋产12/4569888 · FD198WLJX 三洋25" 124/35689889 · CJ59690-00A JVC 110/268/39/457890 · ORECA 40325-25NC/10340160+VK9 28 3456/789/1011 891 · BSC25-Z1003A 2188 25-Z1003B 25-0108G 25-0295E 123456/7810 · 24-01N4010GA（低焦）25-1194D024 24-01N4010GA· BSC25-1194T058B 24-01N4006ER892 ·海信2566 25-3806 青竹产129/3456893 · CJ26258-00A 18"龙江7685JM 136/45/789894 ·飞利浦29" 29B9 BW00422 127/3456/910 895 ·满天星21" 25-Z1002 123/4567/89896 ·索尼8-598-831-20/9H31-04 8-598-831-00 123/45/6789 · 8-598-831-21 4F09-03 NX-4009//C897 ·黄河29" 29-3931 123/4567910 898 · BSC25-2231JC 南京江海产129/34568899 ·飞利浦29" 1302。

展位号公司名称（中文）公司名称（英文）E1C131北京维通利机电技术开发有限责任公司Beijing Victory Electro-Mechanical Technology Development Co., LtdE3A010江西恒珠电气柜锁有限公司Jiangxi Hengzhu Electrical Cabiner Lock Co., Ltd.E3A011上海纳杰电气成套有限公司Shanghai Najie Complete Sets Of Electric Co., LtdE3A020上海诺雅克电气有限公司NOARK Electrics (Shanghai) Co.,Ltd E3A088上海电气集团股份有限公司SHANGHAI ELECTRIC GROUPE3B073长城电工天水二一三电器有限公司GWE Tianshui 213 Electrical Apparatus Co., Ltd.E3B078上海航天技术研究院SHANGHAI ACADEMY OF SPACEFLIGHT TECHNOLOGYE3B097上海传奇电器有限公司Shanghai Legend Electrical Equipment Co., Ltd.E3B115上海康比利仪表有限公司Shanghai Complee Instrument Co., Ltd. E3B119深圳市亚特尔科技有限公司Shenzhen Artel Technology Co., Ltd.E3B128低压电器Low Voltage ApparatusE3B129江苏路通电器有限公司Jiangsu Lutong Electric Co., Ltd.E3B130上海哈迪威不锈钢有限公司Shanghai Hardware Stainless Steel Co., E3B132上海翊隆贸易有限公司Shanghai Yi-Long Trading Co., Ltd.E3C068中铁山桥集团有限公司Railway Shanhaiguan Bridge GroupE3C068山海关船舶重工有限责任公司SHANHAIGUAN SHIPBULLDING INDUSTRY CO.,LTD.E3C068石家庄飞机工业有限责任公司Shijiazhuang Aircraft Industry Co., Ltd. E3C068席勒（中国）飞机制造有限责任公司Hiller (China) Aircraft Manufacturing Co. E3C068长城汽车股份有限公司Great Wall Motor Company LimitedE3C068河北思达实业集团有限公司Hebei Sida Industry Group Co.,LtdE3C068新兴能源装备股份有限公司Xinxing Energy Equipment Co.,LtdE3C068中信戴卡轮毂制造股份有限公司CITIC DICASTAL WHEEL MANUFACTURING CO., LTDE3C068秦皇岛秦冶重工有限公司Qinhuangdao Qinye Heavy Industry Co., E3C068保定天威集团有限公司Baoding Tianwei Group Co.,Ltd.E3C068中煤张家口煤矿机械有限责任公司China Coal Zhangjiakou Coal Mining Machinery Co., Ltd.E3C068石家庄煤矿机械有限责任公司Shijiazhuang Coal Mining Machinery Co.,Ltd .E3C068唐山盾石机械制造有限责任公司TANGSHAN DUNSHI MACHINERYE3C068中钢集团邢台机械轧辊有限公司Sinosteel Xingtai Machinery & Mill Roll Co., LtdE3C068唐山松下产业机器有限公司Panasonic Welding Systems (Tangshan) Co., LtdE3C068河北华电数控设备制造有限公司Hebei Huadian numerical control equipment fabrication Ltd.E3C068石家庄阀门一厂股份有限公司Shi Jiazhuang No.1 Valve Factory CO.,E3C068河北太行机械工业有限公司HEBEI TAIHANG MACHINERY INDUSTRIES CO.，LTDE3C068石家庄纺织机械有限责任公司Shijiazhuang Textile Machinery Co.,LtdE3C068中国船舶重工集团公司第七一八研究所Purification Equipment Research Institute of CSICE3C068晶龙实业集团有限公司Jinglong Industry and Commerce Group E3C068新奥太阳能源集团ENN Solar EnergyE3C068河北汉盛光电科技有限公司China Hisun PV Technology Co.,LtdE3C068平泉希翼绿色能源制造有限公司Urban Green EnergyE3C068中航惠德风电工程有限公司AVIC Huide Wind Power Engineering Co., Ltd.E3C068秦皇岛市奥瑞特科技有限公司Qinhuangdao Orient Science & Technology Co. LTDE3C068唐山高压电瓷有限公司Tangshan High Voltage Porcelain Insulator Co.,Ltd.E3C068唐山轨道客车有限责任公司CNR TANGSHAN RAILWAY VEHICLE CO.,LTD.E3C068秦皇岛天业通联重工股份有限公司Qinhuangdao Tianye Tolian Heavy Industry Co.,Ltd.E3C111宁夏凯晨电气（集团）有限公司NINGXIA KAICHEN ELECTRIC CO.LTDE3C114宁夏日晶电子科技有限公司Ningxia Rijing Electronic Technology CO.,LTDE3C116上海安字实业有限公司Shanghai Anzi Industrial Co.,LtdE3C121宁夏回族自治区经济和信息化委员会工业处E3C121宁夏银晨太阳能科技有限公司Ning Xia Yinchen Solar Energy Technology Co., Ltd.E3C124上海裕生企业发展有限公司SHANGHAI YUSHENG ENTERPRISE DEVELOPMENT CO., LTD.E3C125上海锦凌烨光电仪器技术有限公司Shanghai Jin Ling Ye Optic & Electronic Tech. Co. Ltd.E3D068新疆经信委机电行业规划处E3D068乌鲁木齐国家高新区E3D068国家级石河子经济技术开发区E3D068新疆第三机床厂E3D068新疆华易石油工程技术有限公司E3D068新疆新华能开关有限公司E3D068新疆天业节水灌溉股份有限公司E3D068乌鲁木齐中亚环地卫星科技服务有限公司E3D068新疆绿色使者空气环境技术有限公司E3D068东风新疆汽车有限公司E3D068新疆新能天宁电工绝缘材料有限公司E3D068特变电工股份有限公司E3D068新疆机械研究院股份有限公司有限公司E3D072黑龙江工信委对外合作处E3D072哈尔滨东安汽车动力股份有限公司HARBIN DONGAN AUTO-ENGINE JOINT-STOCK CO.;LTD.E3D075中航工业哈尔滨飞机工业集团有限责任公司AVIC HARBIN AIRCRAFT INDUSTRYGROUP CO.,LTD.E3D082哈尔滨轴承制造有限公司HARBIN BEARING MANUFACTUREE3D084哈尔滨东安汽车发动机制造有限公司HARBIN DONGAN AUTOMOTIVE ENGINE MANUFACTURING CO., LTDE3D092黑龙江省爱普照明电器有限公司Heilongjiang Aipu Lighting Electric Co.,E3D093中航工业哈尔滨东安发动机（集团）有限公司AVIC Harbin Dongan Engine (Group)Co., Ltd.E3D102哈尔滨空调股份有限公司Harbin air conditioning Co.,Ltd.E3D103哈尔滨安泽科技有限公司；哈尔滨工业大学光机电一体化研究所Harbin AnZe technology Co., LTD;HITOptic-mechanical integration researchE3D104哈尔滨特利来石油工具制造有限公司Harbin Telilai Peteroleum Tool Manufacture Co.,Ltd.E3D105牡丹江富通汽车空调有限公司Mudanjiang Foton Automotive Air Conditioner Co.,LtdE3D106大庆恒通电子有限公司Daqing Hengtong Electron Co.,Ltd.E3D107大庆市日上仪器制造有限公司Daqing City Rishang Instrument Manufacture Co., Ltd.E3D108陕西省展团来了两家E3D108西安西电开关电气有限公司XIAN XD SW.TCHGEAR ELECTRICE3D108宝鸡市永联稀有金属有限责任公司Baoji Yonglian Non-Ferrous Metals Products Co.,Ltd/E3D129中国电力电气杂志社CHINA ELECTRICE3D130《电气技术》杂志社ELECTRICAL ENGINEERING MAGAZINE E3D131中国低压电器网E3D132上海易电网络科技有限公司E3D133深圳市埃优广告有限公司E3D134环球电气Global ElecticE3D136《机电商报》、 《今日机床》、 《金属切削》Machinery & Electronics BusinessMachine Tool Today Metal CuttingE3D138四川鑫炬矿业资源开发股份有限公司Sichuan Xinju Mineral Resources Development Stock Co.,LtdE3D145《中国电工电器选型手册》编辑部E3D148中国开关电器网China's switch electric net。

I T A V产品参数归档 Ting Bao was revised on January 6, 20021目录(产品实际情况以ITAV官网为准一、中央控制系统可编程控制主机ITPB系列控制主机产品描述：作为控制系统的核心运算主机，ITAV ITPB系列可编程中央控制主机配备了高性能的32位内嵌式处理器，采用大容量的存储FLASH(8M可扩充到64M)，多达150多种逻辑指令使得系统能够更快更稳定的处理各种控制指令。

内部提供多种可编程控制接口，RS-485、RS-422、RS-232、IR、I/O、RELAY等多种控制方式来满足多种用途的需求。

主机更采用开放式的可编程控制平台，人性化的中文操作界面，交互式的控制结构；同时主机具有自学习红外文件功能，可以建立直接的红外代码库文件，方便工程应用主机自带8路可编程双向反馈按键，可以通过按键直接对主机进行操作,对主机进行双向编程控制。

产品特征：● 开放式的可编程控制平台，人性化的操作界面● 与ITAV数字会议系统系列产品进行无缝连接，组成完美的智能会议系统全面解决方案● 内嵌式红外遥控学习功能，无需配置专业学习器，简便可靠● 8路红外发射口可实现对VCR、DVD、CD、MD 放音机和投影机等的遥控● 8路数字I/0控制口和8路弱继电器控制口，用以控制环境装置，诸如投影幕的上/下，窗帘的开/闭，投影机的高低，灯光开/关等● 8路RS-232/422/485 控制端口，可控制视频矩阵或等离子显示等设备● 前面板LCD、LED 显示功能及实时时钟功能● 提供中/英文系统设置操作及编程软件● 自定义情景存贮及场景调用功能● 电脑连接口RS-232，用于连接电脑对控制主机进行设置、监控及程序上传● 1路RJ-45 接口，作为以太网接口，连接电脑控制软件或有线控制面板，用于实现远程控制。

● 配合无线双向触摸屏及接收器，可实现无线遥控所有功能● 结构紧凑，可安装在19 英寸标准机柜处理器32位内嵌式处理器主频210MHZ内部存储器FLASH 8MB(可扩充至64MB)总线支持IT-NET：ITPB II/ITPB II PRO/ITPB II PRO-EE-BUS：ITPB II PRO-EWiFi支持ITPBIIPRO-E串口数量8路串口双向支持数据模式RS-232;RS-485、RS-232IR红外控制端口8路独立数字I/O输入输出端口8路独立带保护电路支持0-5V数字输入信号弱电继电器端口8路支持0-24VITNET端口3路120W支持256个网络设备扩展端口2路红外学习模块内置USB数据传输口2路双反馈可编程按键8路主机硬件复位内置电源全制式环保电源(110V-240V)适合任何地区外形尺寸485L*236W*89H(MM)重量ITPB II特性：8路可编程双向反馈按键ITPB II PRO特性：8路可编程双向反馈按键30×8 LCD液晶显示面板ITPB II PRO-E（又ITPB AF)特性：8路可编程双向反馈按键30×8 LCD液晶显示面板E-BUS总线支持支持WiFi触屏控制ICPE开放式模块化可编程中控主机产品描述：ITAV ICPE开放式模块化可编程中控主机是一款以多年的市场经验及独特的产品技术为国内外AV控制行业提供的全新的控制应用解决方案。