REACH高清编码器(ENC1200)

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目录1产品介绍 (1)1.1E1-S有线视频编码器 (1)1.1.1性能优势 (1)1.1.2技术参数 (1)2使用向导 (2)3设备清单和接口说明 (3)3.1设备清单 (3)3.2设备接口说明 (3)3.3信号指示灯 (4)4设备安装与连接 (4)4.1设备安装和连接 (4)4.1.1连接电源 (4)4.1.2连接视频信号 (5)4.1.3连接网络 (5)5设备登录与网络配置 (5)5.1通过有线网络登录设备 (5)5.2网络配置 (9)5.2.1有线网络 (9)5.2.2便捷化管理功能 (11)5.2.3Android APP使用 (12)6功能参数配置 (14)6.1信息看板 (14)6.2基本设置 (16)6.2.1修改WEB登录密码 (16)6.2.2区域和时间设置 (16)6.2.3恢复出厂设置 (17)6.2.4固件升级 (18)6.3视频&音频调节 (19)6.3.1视频源选择和调节 (19)6.3.2音频信号源 (20)6.4编码和媒体流 (20)6.4.1音频编码参数设置 (20)6.4.2视频编码参数设置 (22)6.4.3流媒体服务 (24)6.4.3.1Motion JPEG流 (24)6.4.3.2RTSP服务 (24)6.4.3.3RTMP推送（直播推流） (25)6.4.3.4TS-UDP推送（单播和组播） (28)6.4.3.5HLS服务 (29)6.4.3.6SRT-TS推送 (30)6.5本地录像 (32)6.6网络存储NAS (36)6.7字符/图像/时间叠加 (37)6.7.1图片叠加管理 (37)6.7.2叠加功能 (38)6.8服务设置 (39)6.8.1WEB服务设置 (39)6.8.2Onvif服务设置 (40)6.8.3Telnet服务设置 (40)6.9串口和PTZ (41)6.9.1USB扩展串口 (41)6.9.2PTZ设置 (41)6.9.3控制面板 (42)6.10快速复位和设备重启 (42)6.10.1快速复位 (42)6.10.2设备重启 (42)6.11日志和调试 (42)6.12预设配置 (43)1产品介绍1.1 E1-s有线视频编码器E1-s有线视频编码器，可将SDI视频源编码压缩成网络流，通过有线网络，在互联网或局域网实现视频远距离高清传输/直播。

Trasmitter RF SAW 12 CH Keeloq* HCS301 EncoderTX 12CH EVO is a keyfob equipped with a dynamic code [HCS301] encoder and a unique lithium battery able to assure from 3 to 5 years antonomy. Ideal for applications where an high grade of safety and an high number of channels is required.I must be used in comination with our receivers HCS-DEC4/F or HCS-DEC4/4B (binary output) able to manage all push-buttons stated on the keyboard.When the battery level is low, transmission led start to blink showing to the user that it has to be replaced.How to useBy pressing and releasing any of the provided push buttons, the red LED will light up showing that the transmission of the code on the related channel is in progress.Through a 4 bits binary code the transmission of one channel at a time can be activated.While pressing at the same time 2 pushbuttons, no transmission is generated.Technical featuresMin Tipycal Max Units Carrier’s Frequency 433.82 433.92 434.02 MHzRadiated Power [E.R.P.] 1.0 mWModulation OOK On-Off KeyingPower Supply (CR2032) 2.2 3 3.3 VPower consumption in Tx 10 13 mAPower consumption in stand-by 0 uABattery life 3 (1) 5 yearsSerial ID code 28 bitHopping code 32 bitCombinations 2³² -Operating Temperature -10 +55 °CDimensions 54 x 85.5 x 10.5 mm1: Avarage estimated time in TX is 70 sec per day (same as 14 trasmissions of 5 sec).* Keeloq is a Microchip Trade markTransmission LED1 to 12pushbuttonsTX 12CH EVOUser ManualLe caratteristiche tecniche possono subire variazioni senza preavviso. La AUR°EL S.p.A non si assume la responsabilità di danni causati dall’uso improprio del dispositivo.AUR°EL S.p.A. Via Foro dei Tigli, 4 - 47015 Modigliana (FC) – ITALY Rev. A - 05.05.2016 Tel.: +390546941124 – Fax: +390546941660 Pag 2 di 2 http://www.aurel.it - email: **************Battery replacementWhen the transmission LED’s light is blinking, the supply battery must be replaced.Remove then the screw on the back side of the radio transmitter and carefully open the plastic cover.. Once the old battery have been removed, fit the new one CR2032 3V [NOTE: use only battery models as specified in back cover] by paying very much attention not to invert the polarity (see figure). Close then the transmitter plastic shall, paying attention not to damage the integrated circuit.Should the battery leaking, replace it immediately and cleane the battery’s casing paying attention not to enter into contact with leaked substances. After such operation wash carefully your hands.Donot wastethe old batteries in the environment but place them inside the containers provided at this purpose, in order to facilitate their disposal.CEPT 70-03TX 12CH EVO is in comopliant with this rule thanks to is 1mW on frequency band 434 MHz and it is equipe with an auto shut off within 20 seconds while a specific pushbuttons is keep pressed.Reference rulesThe TX 12 CH EVO is conform to the following normative:• ETSI EN 301 489-3 V1.4.1 – Electromagnetic compatiblity• ETSI EN 300 220-2 V2.3.1 – Radio aspects• EN 60950 – Other aspectsPositive pole (+) UP negative pole (-)DOWNRemove the battery。

工业机器人编码器种类和应用详解！一般来说，工业机器人的设计将使用光学和磁性编码器两种编码器。

那么什么是编码器呢?以下是工业机器人编码器的类型和应用程序的详细说明!工业机器人编码器的定义是指监控位置.角度和速度的传感器分为旋转编码器和线性编码器。

旋转编码器分为增量编码器和绝对值编码器(线性编码器分为拉线传感器和非接触式线性传感器)，编码器编制信号(如比特流)或数据.转换为可用通信.传输和存储信号形式的设备。

编码器将角位移或直线位移转换为电信号，前者称为码盘，后者称为码尺。

工业机器人编码器分类：根据读取方法，编码器可分为接触式和非接触式;根据工作原理，编码器可分为增量式和绝对式。

增量编码器将位移转换为周期性电信号，然后将电信号转换为计数脉冲，用脉冲数表示位移大小。

绝对编码器的每个位置对应一个确定的数字码，因此其示值仅与测量的开始和结束有关，而与测量的中间过程无关。

工业机器人编码器的分类根据检测原理，编码器可分为光学式.磁式.根据其刻度法和信号输出形式，感应式和电容式可分为增量式.三种绝对式和混合式。

1.增量编码器：增量编码器可以生成位置.角度和转数等信息。

每个转刻线的数量决定了编码器每个转向控制装置传输的脉冲数。

控制装置从参考点计算脉冲数，以确定当前位置。

启动后，该编码器需要操作参考点，以返回参考点，以确定编码器的实际位置。

增量编码器直接利用光电转换原理输出三组方波脉冲A.B和Z相;A.B两组脉冲相位差为90度，便于判断旋转方向，而Z相是每旋转一个脉冲，用于基准点定位。

其优点是原理结构简单，机械平均寿命可达数万小时以上，抗干扰能力强，可靠性高，适用于长途传输。

其缺点是无法输出轴旋转的绝对位置信息。

2.绝对编码器：可生成位置.角度、转数等信息，并计算指定类型的步距。

因此，每个步距角都分配了独特的码型。

每个转弯可用的码型数量决定了分辨率。

每个码型可以形成唯一的参考点，提供绝对的位置信息。

因此，启动后，无需参考点即可测量此类编码器。

编码器工作原理及作用-标准化文件发布号：（9556-EUATWK-MWUB-WUNN-INNUL-DDQTY-KII编码器工作原理及作用工作原理德国siko编码器由一个中心有轴的光电码盘，其上有环形通、暗的刻线，有光电发射和接收器件读取,获得四组正弦波信号组合成A、B、C、D,每个正弦波相差90度相位差（相对于一个周波为360度），将C、D信号反向，叠加在A、B两相上，可增强稳定信号；另每转输出一个Z相脉冲以代表零位参考位。

由于A、B两相相差90度，可通过比较A相在前还是B相在前，以判别编码器的正转与反转，通过零位脉冲，可获得编码器的零位参考位。

编码器码盘的材料有玻璃、金属、塑料，玻璃码盘是在玻璃上沉积很薄的刻线，其热稳定性好，精度高，金属码盘直接以通和不通刻线，不易碎，但由于金属有一定的厚度，精度就有限制，其热稳定性就要比玻璃的差一个数量级，塑料码盘是经济型的，其成本低，但精度、热稳定性、寿命均要差一些。

分辨率—编码器以每旋转360度提供多少的通或暗刻线称为分辨率，也称解析分度、或直接称多少线，一般在每转分度5~10000线。

作用它是一种将旋转位移转换成一串数字脉冲信号的旋转式传感器，这些脉冲能用来控制角位移，如果编码器与齿轮条或螺旋丝杠结合在一起，也可用于测量直线位移。

编码器产生电信号后由数控制置CNC、可编程逻辑控制器PLC、控制系统等来处理。

这些传感器主要应用在下列方面：机床、材料加工、电动机反馈系统以及测量和控制设备。

在ELTRA编码器中角位移的转换采用了光电扫描原理。

读数系统是基于径向分度盘的旋转，该分度由交替的透光窗口和不透光窗口构成的。

此系统全部用一个红外光源垂直照射，这样光就把盘子上的图像投射到接收器表面上，该接收器覆盖着一层光栅，称为准直仪，它具有和光盘相同的窗口。

接收器的工作是感受光盘转动所产生的光变化，然后将光变化转换成相应的电变化。

一般地，旋转编码器也能得到一个速度信号，这个信号要反馈给变频器，从而调节变频器的输出数据。

高清多媒体录播系统技术白皮书济南神州贝尔电子有限公司牟新秋目录§1.1 系统概述 (3)§1.2 .1方案目标 (3)§1.2.2方案优势 (4)§1.3 系统拓扑图 (6)§1.4 声音采集示意图 (8)§1.5全自动录播示意图 (8)§1.6设备布局平面图 (9)§1.7系统介绍 (9)§2.0核心产品介绍 (15)1、多媒体录播服务器 (15)2、教师/学生自动跟踪系统AT100/AT200 (16)3、编码器 (17)3.1 高清编码器（ENC1100） (17)3.2 高清编码器（ENC1200） (18)3.3 VGA编码器（ENC120） (22)4、视频系统 (25)4.1 高清摄像机 (锐取BLM500R) (25)4.2 广播级摄像机（索尼PMW-EX1R全高清可选） (25)4.3 高性能室内遥控云台（KX-PH490EX全高清可选） (26)4.4 多功能控制器（KX-RP8605全高清可选） (27)§3.0系统应用 (28)§1.1 系统概述针对现今教育信息化、精品课程建设任务的需求，通过采用先进的流媒体及自动化控制技术，自动实时将教师教学讲解视频声音、手写板书、教师讲课的计算机VGA屏幕画面、多媒体课件、学生问答视频记录成标准MPEG4/H.264流媒体文件，形成单画面电影模式或多画面资源模式，自动上传到学校任意指定服务器，分类生成网络教学课件，同步实现在校园网或internet上视频直播，成为网上可实时直播、点播的学习资源，全真再现课堂教学的全过程。

REACH多媒体录播系统——教育录播T系列，是锐取公司针对教育行业的需求推出的最新一代多媒体录播系统，该系统支持标清（CIF/4CIF）、高清视频信号（720P/1080i/1080P）及高分辨率、高帧率VGA信号的编码。

角度编码器模块05/20212海德汉公司的MRP系列角度编码器模块由角度编码器和高精度轴承组成，并已调整至理想状态。

该模块启动扭矩极小，拥有高测量精度、高导向精度、极高分辨率、优异的重复精度和运动平滑性。

模块式的结构设计和整体进行测试，因此，这款角度编码器模块易于运输和安装。

以下信息••内置轴承角度编码器和••海德汉接口电子电路欢迎索取，或访问海德汉官网• 。

结构和应用SRP角度编码器模块还内置了力矩电机。

也就是在小巧紧凑的一个模块中集成了•电机、高精度轴承和超高精度编码器。

本样本是以前样本的替代版，所有以前版本均不再有效。

订购海德汉公司的产品仅以订购时有效的样本为准。

有关产品所遵循的标准（ISO，EN等）仅以样本中的标注为准。

目录45可重复的导向精度：轴承的决定性特性气浮轴承在空载时的绝对导向精度通常优于滚动轴承的导向精度。

然而，在许多应用中，重要的是轴承最高可重复的导向精度。

在此方面，海德汉角度编码器模块是替代气浮轴承转轴的理想选择。

这是因为海德汉滚动轴承拥有极高的重复精度，而且海德汉滚动轴承的刚性高于气浮轴承至少10倍。

因此，海德汉滚动轴承是受力轴应用的高精度解决方案。

此外，滚动轴承通常对冲击载荷不敏感，而且不需要可调节的压缩空气，因此工作更可靠和更易于使用。

应用领域适用于角度编码器模块的应用范围包括：中低转速运动和中等负载的高导向精度到超高导向精度和极高重复精度应用。

特别能满足计量应用的独特要求。

因此，典型应用包括：计量仪器、测量机的高精度回转工作台和电子工业的圆晶运送机。

角度编码器模块甚至也能用于小负载机床，例如电加工机床或激光加工机床。

晶片运送紧凑型摆动装置高精度回转工作台激光跟踪仪实用的解决方案海德汉角度编码器模块中的轴承可根据客户的特定要求适配。

按照要求相应和分别调整预紧量、润滑、接触角和材质。

更多信息，请与海德汉联系。

•测量精度和方位精度海德汉角度编码器模块整个组件的精度取决于内置角度编码器的测量精度和滚动轴承的导向精度。

1200编码器和高速计数器的使用实验报告实验目的：1. 理解1200编码器和高速计数器的原理和使用方法；2. 掌握使用1200编码器和高速计数器进行实时测速的技术。

实验仪器和设备：1. 1200编码器；2. 高速计数器；3. 示波器；4. 信号发生器。

实验原理：1200编码器是一种用于测量转速和角度的传感器，它通过感应传入的旋转物体上的光脉冲信号来确定转速和角度。

光脉冲信号由1200编码器内部的光电传感器产生，传感器会将转动的物体上的刻痕影响转化为脉冲信号。

高速计数器是一种用于计数信号脉冲的仪器，可以实时统计输入的信号脉冲数量。

通过统计信号脉冲的数量可以计算出转速和角度。

实验步骤：1. 将1200编码器的输出接口与高速计数器的输入端连接，确保连接稳固可靠。

2. 设置信号发生器产生一定频率和脉冲宽度的脉冲信号作为输入信号。

3. 打开高速计数器和示波器，设置示波器参数以监测输入信号和计数器的输出信号。

4. 开始实时测速，在示波器上观察输入信号和计数器的输出信号。

5. 根据计数器的输出信号，可以计算出转速和角度。

实验结果：根据实时测速的实验数据，可以获得转速和角度的相关结果。

根据实验需求，进行相应的数据处理和分析。

实验注意事项：1. 确保实验中连接的电路和设备稳定可靠，以避免测量误差。

2. 操作实验仪器时需要注意安全，避免电路短路或其他意外情况发生。

3. 在实验过程中，注意记录实验数据和结果。

结论：通过实验可以发现，1200编码器和高速计数器可以实现对旋转物体的实时测速和角度的测量。

实验数据可以用于对控制系统、机械系统等的分析和优化。

Installation guide M-6195-9225-03-DContentsLegal notices 1 Storage and handling 3 VIONiC readhead installation drawing 4 RTLC20/FASTRACK carrier installation drawing 5 RTLC20/FASTRACK carrier installation 6 Scale datum 7 Reference mark selector and limit magnet installation 8 VIONiC encoder system quick-start guide 9 Readhead mounting and alignment 10 System calibration 11 Restoring factory defaults 12 Enabling/disabling AGC 12 Output signals 13 Speed 14 Electrical connections 15 Output specifications 16 General specifications 17 RTLC20 scale technical specifications 18 FASTRACK technical specifications 18 Reference mark 18 Limit switches 18Product complianceRenishaw plc declares that the VIONiC ™encoder system complies with the applicable standards and regulations. A copy of the EU declaration of conformity is available from our website at /productcomplianceComplianceThis device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.The user is cautioned that any changes or modifications not expressly approved by Renishaw plc or authorised representative could void the user’s authority to operate the equipment.This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with theinstruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.NOTE: This unit was tested with shielded cables on the peripheral devices. Shielded cables must be used with the unit to ensure compliance.Further informationFurther information relating to the VIONiC encoder range can be found in the VIONiC series encoder system data sheet (Renishaw part no. L-9517-9678), Advanced Diagnostic T ool ADTi-100 data sheet(Renishaw part no. L-9517-9699), Advanced Diagnostic Tool ADTi-100 and ADT View software quick-start guide (Renishaw part no. M-6195-9321), and the Advanced Diagnostic T ool ADTi-100 and ADT View software user guide (Renishaw part no. M-6195-9413). These can be downloaded from our website /vionicdownloads and are also available from your local Renishaw representative.Legal noticesCopyright© 2016–2021 Renishaw plc. All rights reserved.This document may not be copied or reproduced in whole or in part, or transferred to any other media or language by any means, without the prior written permission of Renishaw.Trade marksRENISHAW ® and the probe symbol are registered trade marks of Renishaw plc. Renishaw productnames, designations and the mark ‘apply innovation’ are trade marks of Renishaw plc or its subsidiaries. Loctite ® is a registered trade mark of the Henkel Corporation.Other brand, product or company names are trade marks of their respective owners.PatentsFeatures of Renishaw’s encoder systems and similar products are the subjects of the following patents and patent applications:DisclaimerWHILE CONSIDERABLE EFFORT WAS MADE TO VERIFY THE ACCURACY OF THIS DOCUMENT A T PUBLICATION, ALL WARRANTIES, CONDITIONS, REPRESENT ATIONS AND LIABILITY , HOWSOEVER ARISING, ARE EXCLUDED TO THE EXTENT PERMITTED BY LAW.RENISHAW RESERVES THE RIGHT TO MAKE CHANGES TO THIS DOCUMENT AND TO THE EQUIPMENT , AND/OR SOFTWARE AND THE SPECIFICA TION DESCRIBED HEREIN WITHOUT OBLIGATION TO PROVIDE NOTICE OF SUCH CHANGES.Terms and Conditions and WarrantyUnless you and Renishaw have agreed and signed a separate written agreement, the equipment and/or software are sold subject to the Renishaw Standard Terms and Conditions supplied with such equipment and/or software, or available on request from your local Renishaw office.Renishaw warrants its equipment and software for a limited period (as set out in the Standard T erms and Conditions), provided that they are installed and used exactly as defined in associated Renishawdocumentation. Y ou should consult these Standard Terms and Conditions to find out the full details of your warranty.Equipment and/or software purchased by you from a third-party supplier is subject to separate terms and conditions supplied with such equipment and/or software. Y ou should contact your third-party supplier for details.EP1173731IL146001JP4750998US6775008CN100543424EP1766334JP4932706US7659992CN100507454JP5386081US7550710CN101300463EP1946048JP5017275US7624513CN101310165EP1957943US7839296CN102057256EP2294363JP5475759JP5755299KR1550483US8141265CN1314511EP1469969JP5002559US8987633US8466943PackagingThe packaging of our products contains the following materials and can be recycled.REACH regulationInformation required by Article 33(1) of Regulation (EC) No. 1907/2006 (“REACH”) relating to products containing substances of very high concern (SVHCs) is available at /REACHWEEE recycling guidelinesThe use of this symbol on Renishaw products and/or accompanying documentationindicates that the product should not be mixed with general household waste upon disposal. It is the responsibility of the end user to dispose of this product at a designated collection point for waste electrical and electronic equipment (WEEE) to enable reuse or recycling. Correct disposal of this product will help to save valuable resources and prevent potential negative effects on the environment. For more information, please contact your local wastedisposal service or Renishaw distributor.Legal notices (continued)Minimum bend radius RTLC20 – 50 mm™NOTE: Ensure self-adhesive tape is on the outside of the bend radius.Storage and handling95% relative humidity (non-condensing) to IEC 60068‑2‑78Humidity+70 °C 0 °COperatingsensor positionDetail AForward direction of * Extent of mounting face. † Dimension from substrate surface.VIONiC readhead installation drawingDimensions and tolerances in mm*Assumes 1 mm gap between scale and end covers and zero gap between FASTRACK carrier and end covers. †D imension from FASTRACK carrier surface. ‡ F or alternative mechanical datum clamp methods see page 7.NOTES: Minimum recommended FASTRACK carrier length = 100 mm. The reference mark selector and limit actuator locations are correct for the readhead orientation shown. External magnetic fields greater than 6 mT, in the vicinity of the readhead, may cause false activation of the limit and reference sensors.RTLC20/FASTRACK carrier installation drawingDetail BDetail ANOTE: When the FASTRACK carrier reference mark and adhesive datum are aligned as shown, reference output will be positionally repeatable with respect to substrate.Dimensions and tolerances in mm(adhesive datum clamp ‡)RTLC20/FASTRACK carrier installationDuring handling or installation of the FASTRACK carrier suitable gloves should be worn to protect against injury from sharp edges.block down onto theRTLC20/Reference mark selector and limit magnet installationFor accuracy and ease of positioning of reference mark selector and limit magnets, the applicator tool(A-9653-0201) should be used. The magnet should be attached to the applicator tool as shown below and aligned with the outer edge of the FASTRACKlocation along the FASTRACK carrier, but the reference mark selector magnet should be positioned adjacent to the selected IN-TRAC reference mark as shown below.VIONiC encoder system quick-start guideThis section is a quick-start guide to installing a VIONiC encoder system.More detailed information on installing the system is contained on page 10 and page 11 of this installation guide.The optional Advanced Diagnostic Tool ADTi-100* (A-6165-0100) and ADT View software †can be used to aid installation and calibration.INSTALLATIONEnsure scale, readhead optical window and mounting faces are clean and free from obstructions.If required, ensure reference mark selector magnet is correctly positioned (‘RTLC20/FASTRACK carrier installation drawing’, page 5).Connect the readhead to receiving electronics and power‑up. The set‑up LED on the readhead will flash.Install and align the readhead to maximise signal strength over the full axis of travel as indicated by a Green flashing LED.CALIBRATIONCycle the power to the readhead to initiate the calibration routine. The LED will single flash Blue.Move the readhead along the scale at slow speed (< 100 mm/s), without passing a reference mark, until the LED starts double flashing Blue.The system is now calibrated and ready for use. Calibration values, Automatic Gain Control (AGC) and Automatic Offset Control (AOC) status are stored in readhead non-volatile memory at power down.NOTE: If calibration fails, restore factory defaults by obscuring the readhead optical window on power-up (page 12). Repeat the installation and calibration routine.Reference markMove the readhead back and forth over the selected referencemark until the LED stops flashing.No reference markIf a reference mark is not being used, the calibration routine should now be exited by cycling the power. The LED will stop flashing.* F or more details refer to the Advanced Diagnostic Tool ADTi-100 and ADT View software quick-start guide (Renishaw part no. M-6195-9321) andAdvanced Diagnostic Tool ADTi-100 and ADT View software user guide (Renishaw part no. M-6195-9413).†The software can be downloaded for free from /adtRed flashingReadhead LED diagnosticsReadhead mounting and alignmentMounting bracketsThe bracket must have a flat mounting surface and should provide adjustment to enable conformance to the installation tolerances, allow adjustment to the rideheight of the readhead, and be sufficiently stiff to prevent deflection or vibration of the readhead during operation.Readhead set-upEnsure that the scale, readhead optical window and mounting face are clean and free from obstructions. NOTE: When cleaning readhead and scale apply cleaning fluid sparingly; do not soak.To set nominal rideheight, place the black spacer with the aperture under the optical centre of the readhead to allow normal LED function during set‑up procedure. Adjust the readhead to achieve a flashing Green LED along the full axis of travel. The faster the flash rate, the closer it is to optimum set‑up. The optional Advanced Diagnostic Tool ADTi-100 (A-6195-0100) and ADT View software can be used to optimise signal strength in challenging installations. See /adt for more information.NOTE: When re-installing the readhead, factory defaults should be restored (page 12).System calibrationNOTE: The functions described below can also be carried out using the optional ADTi-100 and ADT View software. See /adt for more information.Ensure signal strength has been optimised along the full axis of travel, the LED will be flashing Green. Cycle the power to the readhead or connect the ‘Remote CAL’ output pin to 0 V for < 3 seconds. The readhead will then single flash Blue to indicate it is in calibration mode as detailed in ‘Readhead mounting and alignment’, page 10. The readhead will only enter calibration mode if the LED is flashing Green.Step 1 – Incremental signal calibrationX Move the readhead along the axis at slow speed (< 100 mm/s or less than the readhead maximum speed, whichever is slower) ensuring it does not pass a reference mark, until the LED startsdouble‑flashing indicating the incremental signals are now calibrated and the new settings are stored in the readhead memory.X The system is now ready for reference mark phasing. For systems without a reference mark, cycle the power to the readhead or connect the ‘Remote CAL’ output pin to 0 V for < 3 seconds to exitcalibration mode.X If the system does not automatically enter the reference mark phasing stage (LED continues single flashing) the calibration of the incremental signals has failed. After ensuring failure is not due tooverspeed (> 100 mm/s or exceeding the readhead maximum speed) exit the calibration routine, restore factory defaults as detailed below, and check the readhead installation and system cleanliness before repeating the calibration routine.Step 2 – Reference mark phasingX Move the readhead back and forth over the selected reference mark until the LED stops flashing and remains solid Blue (or Green if AGC is disabled). The reference mark is now phased.X The system automatically exits the calibration routine and is ready for operation.X AGC and AOC are automatically switched on once calibration is complete. T o switch off AGC refer to ‘Enabling/disabling AGC’, page 12.X If the LED continues double‑flashing after repeatedly passing the chosen reference mark it is not being detected.-Ensure that the correct readhead configuration is being used. Readheads can either output allreference marks or only output a reference mark where a reference selector magnet is fitteddepending on the options chosen when ordering.-Check reference mark selector magnet is fitted in the correct location relative to readheadorientation (‘RTLC20/FASTRACK carrier installation drawing’, page 5).Calibration routine manual exitX To exit the calibration routine at any stage cycle the power to the readhead or connect the ‘Remote CAL’ output pin to 0 V for < 3 seconds. The LED will then stop flashing.Restoring factory defaultsWhen re-installing the system, or in the case of continued calibration failure, factory defaults shouldbe restored.To restore factory defaults:X Switch system off.X Obscure the readhead optical window (using the spacer supplied with the readhead ensuring the cut-out is NOT under the optical window) or connect the ‘Remote CAL’ output pin to 0 V.X Power the readhead.X Remove the spacer or, if using, the connection from the ‘Remote CAL’ output pin to 0 V.X The LED will start continuously flashing indicating factory defaults have been restored and the readhead is in installation mode (flashing set‑up LED).X Repeat ‘Readhead set-up’ procedure, see page 10.Enabling/disabling AGCThe AGC is switched on once the system has been calibrated indicated by a Blue LED. AGC can be manually switched off by connecting the ‘Remote CAL’ output pin to 0 V for > 3 seconds < 10 seconds. The LED will then be solid Green.15-way D-type connector (termination code D, H)9-way D-type connector (termination code A)12-way in-line circular connector (termination code X)Output signalsDigital outputs14-way JST connector (termination code J)‡* Remote CAL line must be connected for use with ADTi-100.† 12-way circular Binder mating socket – A-6195-0105. ‡Pack of 5 14-way JST SH mating sockets: A-9417-0025 – Bottom mount; A-9417-0026 – Side mount.Maximum of 20 insertion cycles for JST connector.Speed*For a readhead with a 1 m cable.Electrical connectionsFor JST variants the ferrule should be connected to machine earth.Maximum readhead cable length: 3 mMaximum extension cable length: Dependent on cable type, readhead cable length and clock speed. Contact your local Renishaw representative for more information.NOTE: The maximum cable length between the readhead and the ADTi‑100 is 3 m.Recommended signal terminationStandard RS422A line receiver circuitry.Capacitors recommended for improved noise immunity.Single ended alarm signal termination(Not available with ‘A’ cable termination)Limit output(Not available with ‘A’ cable termination)* Select R so that maximum current does not exceed 10 mA.Alternatively, use a suitable relay or opto-isolator.Remote CAL operationCAL0 VRemote operation of the CAL/AGC is possible via CAL signal.Digital output signalsForm – Square wave differential line driver to EIA RS422A (except limits P and Q)Incremental * 2 channels A and B in quadrature (90° phase shifted)duration as resolution.Bi-directionally repeatable.†Limits Open collector output, asynchronous pulse(Not available with ‘A’ cable termination)Length of limit actuatorActive highNOTE: A wide reference mark option, outputting a reference pulse for the duration of the signal period is available.Contact your local Renishaw representative formore information.E−or 3-state alarmDifferentially transmitted signals forced open circuit for > 15 ms when alarm conditions valid.Alarm asserted when:– Signal amplitude < 20% or > 135%– Readhead speed too high for reliable operationAlarmLine driven (Asynchronous pulse)(Not available with ‘A’ cable termination)* Inverse signals not shown for clarity.†Only calibrated reference mark is bi-directionally repeatable.CAUTION: Renishaw encoder systems have been designed to the relevant EMC standards, but must be correctly integrated to achieve EMC compliance. In particular, attention to shielding arrangements is essential.Form (H × W)0.4 mm × 18 mm (including adhesive)Minimum recommended length 100 mm Supplied lengths 100 mm to 25 mMaterialHardened and tempered martensitic stainless steel Coefficient of thermal expansion (at 20 °C)10.1 ±0.2 µm/m/°C Installation temperature 15 °C to 35 °CMountingSelf-adhesive backing tapeRTLC20 scale technical specificationsFASTRACKtechnical specificationsReference markLimit switchesType Customer selected IN-TRAC reference mark, directly embedded into incremental track. Bi-directional position repeatability.SelectionSingle reference mark selection by selector magnet (A-9653-0143) customer positionedL ≤ 100 mm Single reference mark at scale centreL > 100 mm Reference marks at 50 mm spacing (first reference mark50 mm from scale end)RepeatabilityUnit of resolution repeatability (bi-directional) across full system rated speed and temperature rangesTypeMagnetic actuators; with dimple triggers Q limit, without dimple triggers P limit (‘RTLC20/FASTRACK carrier installation drawing’, page 5)Trigger point The limit output is nominally asserted when the readhead limit switch sensor passes the limit magnet leading edge, but can trigger up to 3 mm before that edge Mounting Customer placed at desired locations Repeatablity< 0.1 mm*M-6195-9225-03*Part no.: M-6195-9225-03-DIssued: 03.2021For worldwide contact details, visit /contact Renishaw plc New Mills, Wotton-under-Edge, Gloucestershire GL12 8JR United Kingdom T +44 (0)1453 524524F +44 (0)1453 524901E ***************Renishaw plc. Registered in England and Wales. Company no: 1106260.Registered office: New Mills, Wotton‑under‑Edge, Gloucestershire, GL12 8JR, UK.。

A cost effective alternative for analog cellular, SSB,paging and mobile radio testing1200 Super S 1SpecificationFrequency Range250 kHz to 999.9999 MHzResolution100 HzAccuracySame as Master OscillatorRange-127 to -20 dBmResolution10 dB steps with 11 dB vernierAccuracy2.5 dB3.0 dB @ -20 dB attenuator setting Spectral Purity Harmonics-30 dBcSpectral Purity Nonharmonics-55 dBcIF Image≤-35 dBResidual FM< 100 Hz (RMS, 0.3 to 3 kHz BW)Input Protection150 WFrequency Range0 to ±49.9975 MHz from receive frequency Resolution2.5 kHzAccuracySee Master OscillatorDuplex Output Level-40 dBm (Low), -15 dBm (High) into 50 ΩInput Protection0.25 WT/R Port-85 dBm ±10 dB fixed levelInternal Frequency Modulation Range0 to 50 kHz (1 kHz tone)FM Rate10 Hz to 30 kHz (Internal)2 Hz to 30 kHz (External) (DC when in variable generate)FM Accuracy±5% of reading, ±3% of full scale(1 kHz tone)FM Distortion< 1 % (to 20 kHz deviation)EXT MOD Sensitivity0.1 VRMS/kHz (- 0% + 30%)Amplitude Modulation Range0 to 90%AM Rate10 Hz to 10 kHz (30% maximum modulation above 5 kHz)AM Accuracy±5% of reading, ±3% of full scale(1 kHz tone)AM Distortion< 10% (to 60% modulation)EXT MOD sensitivity0.01 VRMS (0% to +30%)Generator #1 Frequency Range1 kHz #1 AccuracySame as Master Oscillator#1 Output Range0 to 2.5 V (RMS, into 150 Ω)#1 Distortion<0.5%#1 WaveshapeSineAudio Generator #2 Frequency Range:10 Hz to 30 kHz#2 Resolution0.1 Hz#2 Accuracy±0.01%#2 Output Range0 to 2.5 V (RMS, into 150 Ω)#2 Distortion (at 2.5 VRMS)<2% (10 Hz to 100 Hz) < 0.7%(100 Hz to 30 kHz)#2 WaveshapesSine, Square, Ramp, Triangle, TTLFrequency Range100 kHz to 999.9999 MHzResolution100 HzSensitivity2 µV typical (1 MHz to 1000 MHz, FM narrow) Antenna Input Protection0.25 WSelectivityMode Rx BW AF BWFM WIDE200 kHz80 kHzFM MID200 kHz8 kHzFM NAR15 kHz8 kHzSSB 6 kHz8 kHzAM NAR 6 kHz8 kHzAM NORM15 kHz8 kHzAdjacent Channel RejectionRx BW BW >40 dB Down200 kHz±300 kHz15 kHz±27 kHz6 kHz±12 kHzDemodulation OutputAM Output Level5 mV RMS/%FM Output Level60 mV RMS/1 kHzImpedance600 ΩMeter Range± 30 Hz to ± 10 kHz (full scale, 1-3-10 sequence)Meter Accuracy± Master Oscillator, +3% of full scaleFrequency Range10 Hz to 12 kHzMeter Range±3 Hz to ±300 Hz (full scale, decade sequence)Meter Accuracy±0.01%, ±3% of full scaleMeter Range2 kHz to 60 kHz (full scale, 2-6-20 sequence)Meter Accuracy±5% of reading, ±3% of full scale (1 kHz tone)Meter Range60% and 200% full scaleMeter Accuracy±5% of reading, ±3% of full scale (1 kHz tone)Input Level Ranges0 to 15 W and 0 to 150 W (peak or averageresponding)Accuracy±7% of reading, ±3% of full scale (1 to 600 MHz)±20% of reading, ±3% of full scale (600 to1000 MHz)Operating Conditions50 W continuous>50 W to 150 W (1 min ON, 5 min OFF)Range0 to 20 % at 1 kHzAccuracy± 1 % (at 10% distortion)Signal Frequency1 kHzInput Level0.25 to 2 VRMSInput Impedance10 kΩ nominalRange3 to 20 dB at 1 kHzAccuracy± 1 dB (at 12 dB SINAD)Signal Frequency1 kHzInput Level0.25 to 2 VRMSInput Impedance10 kΩ nominalLevel Display10 dB/divDynamic Range70 dBLog Linearity±2 dB (-90 to -30 dBm)Frequency Span ModesScan Width RBW1 MHz/div30 kHz500 kHz/div30 kHz200 kHz/div30 kHz100 kHz/ div30 kHz50 kHz/div30 kHz20 kHz/div 3 kHz10 kHz/div 3 kHz5 kHz/div 3 kHz2 kHz/div300 Hz1 kHz/div300 HzBandwidth (3 dB)DC to 1 MHzInput Ranges10 mV/div to 10 V/div (decade sequence)Horizontal Sweep Rate10 msec/div to 10 µsec/div(decade sequence)1200 Super S2AC VOLTSVoltage Range0 to 100 VRMSAccuracy10% ± 2 countsFrequency Range45 Hz to 10 kHzDC VOLTSVoltage Range0 to 100 VAccuracy10% ± 2 countsTCXOTemperature Stability±0.2 ppm (O to 50°C)Ageing±0.5 ppm/yearLine Voltage105 to 130 VAC210 to 260 VACFrequency50 to 400 HzPower Consumption60 W typicalDC Input12 to 30 VDCDimensions332 mm (13.06 in) wide, 185 mm (7.3 in) high, 445 mm (17.5 in) deepWeight17.2 kg (38 lbs) without optionsStability0.05 ppm/year (0 to 50°C)Gain30 dB (±2 dB) typical, 250 kHz to 1000 kHz Test Set Output with Analyzer Installed Variable to +10 dBm, FM and CWVariable to +4 dBm, AMFrequency Range1 to 999.9999 MHzOutput LevelTrack High-5 dBm (+3/-5 dB) Track Mid-15 dBm (±7 dB)Track Low-40 dBm (+5/-10 dB) Flatness±1 dB over center 30% of display±5 dB over remaining displayTracking Span10 kHz to 10 MHzOutput Impedance50 Ω (nominal)SpuriousHarmonic and non harmonic are <5 dBc, <10 dBtypicalImage (RF + 180 MHz) 0 dB typicalDynamic Range70 dBTracking Range200 Hz to 1.0 kHzWhen ordering please quote the full order numberinformationOrderingNumbers Versions1200SS-1101200 Super S, 110 VAC1200SS-110-C1200 Super S, 110 VAC with Certificate ofCalibration1200SS-2201200 Super S, 220 VAC operation1200SS-220-C1200 Super S, 220 VAC with Certificate ofCalibration1200SSH-1101200 Super S Hi Stability (0.05 ppmOCXO time base, tracking generator) 110VAC operaation1200SSH-110-C1200 Super S Hi Stability, 110 VAC, Cert.Cal1200SSH-2201200 Super S Hi Stability, 220 VACoperation1200SSH-220-C1200 Super S Hi Stability, 220 VAC withCertificate of CalibrationAccessoriesAC0002Soft padded carrying caseAC0488IEEE-488 (in lieu of RS-232) (not avail.with 1200SSP or AC0450)AC0489CLEAR CHANNEL LTRAC510Paging encoderAC1201Telescopic antennaAC1205MicrophoneAC2200Maintenance manualAC2201Rack mounting kitAC4101Return loss bridge 5 MHz to 1 GHz (req.1200 Super S Premium)AC5249Generate Amplifier +30 dBm1200 Super S31200 Super SIFR Americas, Inc., 10200 West York Street, Wichita, Kansas67215-8999,USA.E-mail:***************Tel: +1 316 522 4981 Toll Free USA: 1 800 835 2352 Fax: +1 316 522 1360As we are always seeking to improve our products, the information in this document gives only a general indication of the product capacity, performance and suitability, none of which shall form part of any contract. We reserve the right to make design changes without notice. All trademarks are acknowledged. Parent Company IFR Systems, Inc. © IFR Ltd. 1999.1200 Super S。

REACH 高清编码器ENC1100技术白皮书V2.62011-03目录一. 概述 (3)二. 功能 (3)三. 特点 (4)四. 接口 (5)五. 技术指标 (6)一.概述高清编码器是锐取自主研发的用于高清视频信号（720P/1080i/1080P）或高分辨率、高帧率VGA信号编码及网络传输的专用硬件设备，可配合锐取各系列多媒体录播服务器使用。

高清编码器采用高性能DSP处理芯片，嵌入式操作系统，稳定可靠，具有高清晰度、低码率、低延时的特点。

该产品的推出填补了业内空白，可广泛用于各种需要对高清视频信号及高分辨率高帧率VGA信号进行采集并基于IP网络传送的场合，满足高清会议（视频会议）、教学录播、高清视频监控等应用的需要。

图高清编码器（ENC1100）正面二.功能●高清视频及VGA信号的采集支持一路高清视频（或高分辨率、高帧率VGA信号）和一路立体声音频的采集及编码。

●支持摄像头远遥支持VISCA、PELCO-P\D等主流控制协议，可满足对业内常见的摄像头的远程控制需要。

●支持字幕及时间显示通过编码器可在录制视频画面上添加字幕，字幕位置可以自己定义，并且可加入录制时间。

●支持标准的RTSP、TS流传输（特定版本支持）视频采集编码后可生成标准的RTSP、TS媒体流，可配合第三方的解码设备使用。

三.特点●高清视频（720P/1080i/1080P）H.264视频编码，支持720P/1080i/1080P高清视频信号的采集，最高支持1080P/50/60给您带来细致入微的视觉体验。

●高清音频双声道高清音频AAC编码，44.1k-48k音频采样，32Kbps~128Kbps编码带宽，为您提供震撼的高保真立体声效果。

●高清晰、高帧率计算机屏幕信号录制支持高分辨率、高帧率计算机屏幕信号采集，最高支持1400X1050@60Hz，满足录制高清动态视频、高清计算机屏幕信息的需要。

●低延时ENC1100高清编码器采用高性能DSP处理芯片，嵌入式操作系统，编码延时极低（小于0.2s）。

REACH多媒体录播一体机CL1210技术白皮书V2.52011-03目录一. 概述 (3)二. 特点 (3)三. 接口 (6)四. 技术指标 (7)一. 概述REACH多媒体录播一体机（高清系列：CL1210），是锐取针对中小企业及移动录播的需求自主研发的最新一代可视化信息记录与传播设备。

该设备小巧便携，自身集成了视频、音频、VGA信号输入接口和HDMI高清、VGA、音频输出接口。

支持1路高清视频、1路VGA及1路音频信号的任意组合录制、直播、点播，多流模式存储，支持HDMI高清及VGA信号输出，可以非常方便的实现视频、音频和计算机屏幕信号的同步录制及本地预览、回放，满足用户会议、培训、教学等场景下可视化信息记录与传播的需要。

图：REACH高清多媒体录播一体机二. 特点●多媒体信号（视频、音频、计算机）同步录制、直播多媒体录播一体机（高清）支持视频、音频和计算机屏幕信号的同步组合录制、直播、点播，可以满足会议、教学、培训等场景下主讲人的图像声音以及讲解的内容的记录与传播的需求。

●高清视频视频清晰度最高支持720P，可满足高清视频应用录制需求。

●立体声音频支持双声道立体声音频编码，44.1k音频采样，128Kbps编码带宽，为您提供震撼的高保真立体声效果。

●高清计算机屏幕信号计算机屏幕分辨率最高支持1280×1024，可满足录制计算机屏幕的需要。

● 录制质量支持三级模式可调视频录制质量可根据不同的网络环境调节，调节模式分高、中、低三个等级，满足用户不同网络环境下的录制、直播、点播需求。

录制质量等级码率分辨率视频VGA高4.0MbpsD1、720P640*480、 800*600、 1024*768、 1280*720、 1280*768、 1280*960、 1280*1024中 2.0Mbps 低1.0Mbps● 小巧便携相对于其它常见录播一体机动辄4U ，19英寸的庞大体积，REACH 多媒体录播一体机采用自主研发的硬件平台，稳定可靠，同时体积大大缩小，占用空间更少，易于携带，非常方便在各种移动环境下的会议、报告录播使用。

编码器测速原理讲解编码器是一种用于测量旋转速度、位置和方向的设备。

它通常由光电传感器和光栅或磁栅组成。

编码器的测速原理基于光电传感器通过检测光栅或磁栅上的标记来确定位置变化，从而计算出旋转速度。

在光电传感器中，有两种常见的类型：光电二极管和光电三极管。

光电二极管是一种基于半导体材料的光敏器件，通过接收光信号并转换为电信号来实现检测功能。

而光电三极管是一种比光电二极管更灵敏的器件，它能够检测到更小的光信号。

光栅或磁栅是一种具有特殊标记的旋转圆盘。

这些标记可以是光栅的透明线和不透光线，也可以是磁栅上的磁性标记。

当旋转圆盘旋转时，光线或磁场会与光电传感器发生交互作用，从而产生电压脉冲信号。

这些电压脉冲信号的频率和幅度取决于旋转圆盘的角速度。

传感器会迅速采集这些信号，并将其转换成数字脉冲信号。

编码器的测速原理基于两个关键参数：脉冲数和采样时间。

脉冲数是指旋转圆盘在一圈内的标记数量。

采样时间是指在一个特定时间段内采集到的脉冲数量。

通过测量脉冲数和采样时间，可以计算出旋转圆盘的角速度。

假设编码器的脉冲数为N，采样时间为T，旋转圆盘的角速度可以通过以下公式计算出来：角速度=2πN/T其中，2π是一个常数，用于将圆周长度转换为弧度。

角速度的单位是弧度/秒。

编码器的测速原理基于高精度的脉冲计数和精确的时间测量。

为了提高测速的准确性和稳定性，编码器通常需要结合定时器和计数器来进行操作。

定时器负责测量采样时间，计数器负责计数脉冲数量。

定时器和计数器可以通过微处理器或专用的计数电路来实现。

在实际应用中，编码器常用于机械系统中，如机器人、数控机床、传送带等。

它们可以提供准确的速度和位置反馈信息，以帮助系统控制和调节。

总之，编码器的测速原理是基于光电传感器通过检测旋转圆盘上的标记，将其转换为电压脉冲信号。

通过计数脉冲数和测量采样时间，可以计算出旋转圆盘的角速度。

编码器的测速原理在许多领域都有广泛应用，为机械系统的准确控制和调节提供了重要的反馈信息。

Operator’s ManualRegister your machine:/registerAuthorized Service and Distributor Locator: /locatorIM10220-A | Issue D a te Oct-18© Lincoln Global, Inc. All Rights Reserved.For use with machines having Code Numbers:12387Save for future referenceDate PurchasedCode: (ex: 10859)SECTION A:WARNINGSC ALIFORNIA PROPOSITION 65 WARNINGSWARNING: This product, when used for welding or cutting, produces fumes or gases which contain chemicals known to the State of California to cause birth defects and, in some cases, cancer. (California Health & Safety Code § 25249.5 et seq.)ARC WELDING CAN BE HAZARDOUS. PROTECTYOURSELF AND OTHERS FROM POSSIBLE SERIOUS INJURY OR DEATH. KEEP CHILDREN AWAY.PACEMAKER WEARERS SHOULD CONSULT WITH THEIR DOCTOR BEFORE OPERATING.Read and understand the following safety highlights. For additional safety information, it is strongly recommended that you purchase a copy of “Safety in Welding & Cutting - ANSI Standard Z49.1” from the American Welding Society, P.O. Box 351040, Miami, Florida 33135 or CSA Standard W117.2-1974. A Free copy of “Arc Welding Safety” booklet E205 is available from the Lincoln Electric Company, 22801 St. Clair Avenue, Cleveland, Ohio 44117-1199.BE SURE THAT ALL INSTALLATION, OPERATION,MAINTENANCE AND REPAIR PROCEDURES ARE PERFORMED ONLY BY QUALIFIED INDIVIDUALS.FOR ENGINE POWERED EQUIPMENT.1.a.Turn the engine off before troubleshootingand maintenance work unless themaintenance work requires it to be running.1.b.Operate engines in open, well-ventilated areas or vent the engineexhaust fumes outdoors. 1.c.Do not add the fuel near an open flame weldingarc or when the engine is running. Stop the engine and allow it to cool before refueling to with hot engine parts and igniting. Do not spill fuel when filling tank. If fuel is spilled, wipe it up and do not start engine until fumes have been eliminated.1.d. Keep all equipment safety guards, coversand devices in position and in good repair.Keep hands, hair, clothing and tools away from V-belts, gears, fans and all other moving parts when starting, operating or repairing equipment.1.e.In some cases it may be necessary to remove safety guards toperform required maintenance. Remove guards only when necessary and replace them when the maintenance requiring their removal is complete. Always use the greatest care when working near moving parts. 1.f. Do not put your hands near the engine fan. Do not attempt tooverride the governor or idler by pushing on the throttle control rods while the engine is running. 1.g.To prevent accidentally starting gasoline engines while turningthe engine or welding generator during maintenance work,disconnect the spark plug wires, distributor cap or magneto wire as appropriate. 1.h.To avoid scalding, do not remove the radiatorpressure cap when the engine is hot.ELECTRIC ANDMAGNETIC FIELDS MAY BE DANGEROUS2.a.Electric current flowing through any conductorcauses localized Electric and Magnetic Fields (EMF).Welding current creates EMF fields around welding cables and welding machines 2.b.EMF fields may interfere with some pacemakers, andwelders having a pacemaker should consult their physician before welding. 2.c.Exposure to EMF fields in welding may have other health effectswhich are now not known. 2.d.All welders should use the following procedures in order tominimize exposure to EMF fields from the welding circuit:2.d.1.Route the electrode and work cables together - Securethem with tape when possible.2.d.2.Never coil the electrode lead around your body.2.d.3.Do not place your body between the electrode and workcables. If the electrode cable is on your right side, the work cable should also be on your right side.2.d.4.Connect the work cable to the workpiece as close as pos-sible to the area being welded.2.d.5.Do not work next to welding power source.SAFETYTABLE OF CONTENTSPage Installation.......................................................................................................Section ATechnical Specifications........................................................................................A-1Location ................................................................................................................A-2Input Wiring............................................................................................................A-2Output Connections...............................................................................................A-21. Wire Feeder Connections...........................................................................A-2Connection of AC-1200 (with NL Option) to LAF or LT34.....................................A-3Connection of AC-1200 to NA-4 with Switch for ʻCurrent Controlʼ.........................A-3Connection of AC-1200 to NA-4 with rheostat for current control or LT-6.............A-32. Output Studs...............................................................................................A-43. Auxiliary Power...........................................................................................A-4Duty Cycle.............................................................................................................A-4_______________________________________________________________________Operation.........................................................................................................Section B Safety Precautions.................................................................................................B-1To set for machine or Remote Control...................................................................B-1To set Output Current............................................................................................B-1________________________________________________________________________ Accessories.....................................................................................................Section C Optional Kit............................................................................................................C-1________________________________________________________________________Maintenance....................................................................................................Section DSafety Precautions................................................................................................D-1________________________________________________________________________Troubleshooting..............................................................................................Section ESafety Precautions.................................................................................................E-1How to Use Troubleshooting Guide.......................................................................E-1Troubleshooting Guide....................................................................................E-2,E-3________________________________________________________________________Wiring Diagram and Connection Diagrams.................................................Section F________________________________________________________________________Parts Content/details may be changed or updated without notice. For most current Instruction Manuals, go to.________________________________________________________________________IDEALARC®AC-1200NOTESRATING: IP21 ENCLOSURERemove the right side panel of the AC-1200 and bring the input power lines through the hole in the back of the case. See the table below for reccomended sizing of input leads and overcurrent protection.The frame of the welder must be grounded, A stud marked with the symbol located on the welder case back hole in the back of the case is provided for this purpose. See the National Electrical Code for details on proper grounding methods.OUTPUT CONNECTIONS1. Wire Feeder ConnectionTurn the input power to the welder off. Remove the screw and lift the hinged door on the front of the control panel to expose the terminal strips. Connect the leads of the wire feeder input control cable to the terminal strips exactly as specified in the appropriate connection diagram.The AC-1200 to NA-4 connection diagrams are included in the NA-4 Operating Manual IM-278. Attach the control cables to the panel at the right of the terminal strip using the clamps provided.If connecting the AC-1200 to an older NA-4 with the tog-gle switch type “Current Control” (below code 7532),a K-775 “Remote Control” must be purchased and installed in accordance with the connection diagram S-15667on page5. The “Remote Control” cord can be lengthened to anylength by properly splicing a four conductor cord to the standard 25ʼ cord before connecting to the AC-1200 ter-minal strip.I f connecting the AC-1200 to an LAF-4 or the AC con-trols of the LT-34 tractor, the AC-1200 must be ordered with the required “–NL” optional circuit installed. This kit includes the K-775 “Remote Control”. Connect in accor-dance with diagram S-15666 on page 5.To connect the AC-1200 to any other wire feeder, write to the factory for instructions giving complete nameplate infor-mation for the specific equipment.When connection to the terminal strips are completed,close the door and replace the screw.Connection of AC-1200 (with NL Op tion)S-15666 to LAF-4 or LT-344-18-75Connection of AC-1200 to NA-4S-15667 with Switch for ‘Current Control’4-18-75Connection of AC-1200 toNA-4 with rheostat for current control or LT-6.S-156026-22-84H2. Output StudsConnect the work cables to the “To Work” stud on the front of the AC-1200. Connect the electrode cables to the “Min”, “Med” or “Max” studs for the output desired. Actual current ranges for each stud are indicated on the nameplate above each stud.Recommended cable sizes are listed below. Both the “To Work” and “Max” studs have two terminals to simplify connection of recommended cables in parallel. Tighten the nuts with a wrench.Select cables required for combined work and elec-trode cable lengths up to 150ʼ from the following table:Maximum Allowable Current for Copper Welding Cable Cables in accessory kit recommended below have terminals as required to comply with applicable U.L. standards for safety.150ʼ combined length electrode and work cables. 3. Auxiliary Powe r920 volt-amperes of 115 volt AC power are avail-able from #31 and #32 on the AC-1200 terminal strip.DUTY CYCLEThe AC-1200 is rated for 100% duty cycle at 1200 amps and 44 volts.TO SET FOR LOCAL OR REMOTE CONTROLThe output can be controlled either from the AC-1200,the wire feeder or other remote locations.To adjust the current from the wire feeder or other remote locations, set the toggle switch on the front of the AC-1200 to “ “. To adjust the output current from the AC-1200, set this switch to “ “.T0 SET THE OUTPUT CURRENTStart the AC-1200 using the line disconnect switch or breaker installed with the input wiring. The yellow pilot light on the front panel indicates when the welder is on.Adjust the output current from minimum to maximum within the range set by the output stud connections using either the “ “ rheostat on the AC-1200 (tog-gle switch set on “ “) or the wire feeder or other remote rheostat (toggle switch set on “ “).SAFETY PRECAUTIONSRead and understand this entire section before oper-ating the machine.Observe additional Safety Guidelines detailed throughout this manual.IDEALARC®AC-1200ACCESSORIESOPTIONAL KIT:Remote control K775.IDEALARC®AC-1200MAINTENANCEThis Troubleshooting Guide is provided to help you locate and repair possible machine malfunctions.Simply follow the three-step procedure listed below.Step 1.LOCATE PROBLEM (SYMPTOM).Look under the column labeled “PROBLEM (SYMP-TOMS)”. This column describes possible symptoms that the machine may exhibit. Find the listing that best describes the symptom that the machine is exhibiting.Step 2.POSSIBLE CAUSE.The second column labeled “POSSIBLE CAUSE” lists the obvious external possibilities that may contributeto the machine symptom.Step 3.RECOMMENDED COURSE OF ACTIONThis column provides a course of action for the Possible Cause, generally it states to contact your local Lincoln Authorized Field Service Facility.If you do not understand or are unable to perform the Recommended Course of Action safely, contact your local Lincoln Authorized Field Service Facility.HOW TO USE TROUBLESHOOTING GUIDEService and Repair should only be performed by Lincoln Electric Factory Trained Personnel.Unauthorized repairs performed on this equipment may result in danger to the technician and machine operator and will invalidate your factory warranty. For your safety and to avoid Electrical Shock, please observe all safety notes and precautions detailed throughout this manual.__________________________________________________________________________AC-1200 AND PARALLELED DC-1000’sAC-1200 AND DC-1500’sJapaneseChineseKoreanArabicREAD AND UNDERSTAND THE MANUFACTURER’S INSTRUCTION FOR THIS EQUIPMENT AND THE CONSUMABLES TO BE USED AND FOLLOW YOUR EMPLOYER’S SAFETY PRACTICES.SE RECOMIENDA LEER Y ENTENDER LAS INSTRUCCIONES DEL FABRICANTE PARA EL USO DE ESTE EQUIPO Y LOS CONSUMIBLES QUE VA A UTILIZAR, SIGA LAS MEDIDAS DE SEGURIDAD DE SU SUPERVISOR.LISEZ ET COMPRENEZ LES INSTRUCTIONS DU FABRICANT EN CE QUI REGARDE CET EQUIPMENT ET LES PRODUITS A ETRE EMPLOYES ET SUIVEZ LES PROCEDURES DE SECURITE DE VOTRE EMPLOYEUR.LESEN SIE UND BEFOLGEN SIE DIE BETRIEBSANLEITUNG DER ANLAGE UND DEN ELEKTRODENEINSATZ DES HER-STELLERS. DIE UNFALLVERHÜTUNGSVORSCHRIFTEN DES ARBEITGEBERS SIND EBENFALLS ZU BEACHTEN.JapaneseChineseKoreanArabicLEIA E COMPREENDA AS INSTRUÇÕES DO FABRICANTE PARA ESTE EQUIPAMENTO E AS PARTES DE USO, E SIGA AS PRÁTICAS DE SEGURANÇA DO EMPREGADOR.CUSTOMER ASSISTANCE POLICYThe business of The Lincoln Electric Company is manufacturing and selling high quality welding equipment, consumables, and cutting equipment. Our challenge is to meet the needs of our customers and to exceed their expectations. On occasion, purchasers may ask Lincoln Electric for advice or information about their use of our products. We respond to our customers based on the best information in our possession at that time. Lincoln Electric is not in a position to warrant or guarantee such advice, and assumes no liability, with respect to such information or advice. We expressly disclaim any warranty of any kind, including any warranty of fitness for any customer’s particular purpose, with respect to such information or advice. As a matter of practical consideration, we also cannot assume any responsibility for updating or correcting any such information or advice once it has been given, nor does the provision of information or advice create, expand or alter any warranty with respect to the sale of our products.Lincoln Electric is a responsive manufacturer, but the selection and use of specific products sold by Lincoln Electric is solely within the control of, and remains the sole responsibility of the customer. Many variables beyond the control of Lincoln Electric affect the results obtained in applying these types of fabrication methods and service requirements.Subject to Change – This information is accurate to the best of our knowledge at the time of printing. Please refer to for any updated information.。