台湾艾德克斯IT8500帧格式通讯协议
Grantech艾讯宏达工控机产品介绍汇编审批稿
G r a n t e c h艾讯宏达工控机产品介绍汇编YKK standardization office【 YKK5AB- YKK08- YKK2C- YKK18】Grantech艾讯宏达工控机产品介绍艾讯宏达科技有限公司,本着“来自台湾,立足中国”的思路不断发展,致力于为广大用户提供高品质工控产品和完善解决方案,并逐渐成长为工控机领域国内领先的专业制造商之一。
所谓IPC(Industrial Personal Computer)即“工控机”是一种即基于PC总线增强加固型的工业电脑,它可以作为一个工业控制器在工业环境中可靠运行。
其主要的组成部分为工业机箱、无源底板及可插入其上的各种板卡组成,如CPU卡、I/O卡等。
并采取全钢机壳、机卡压条过滤网,双正压风扇等设计及EMC技术以解决工业现场的电磁干扰、震动、灰尘、高/低温等问题。
工控机广泛应用于工业自动化、智能交通、轨道交通、金融自动化、多媒体播放、网络安全、电力、通讯、监控、医疗、军工等领域。
公司主要产品有:工业计算机(IPC)系列、嵌入式工业计算机(EPC)系列、嵌入式工业计算机(UFO)系列、无风扇工业平板电脑(UFP)系列、一体化工作站系列。
工业计算机(IPC)系列有:全长CUP卡:、工业母板、工业机箱与一体化工作站、工业底板、原装整机、工业便携机。
嵌入式工业计算机(EPC)系列:Mini-ITX、寸嵌入式主板、EPIC嵌入式主板、防火墙主板。
嵌入式无风扇计算机(UFO)系列:超薄型UFO6355H系列、通用型UFO6366H系列、扩展型UFO6377系列。
无风扇工业平板电脑(UFP)系列:寸平板电脑、寸平板电脑、15寸平板电脑、17寸平板电脑。
公司为客户提供的工控机产品多达数百种型号规格,详细资料请登录公司网页和公司产品手册。
以下是公司部分机型为您作详细介绍:工业计算机(IPC)参数配置表型号SYS7190VGA SYS71838VGA图样CPU LGA775, Intel Core 2 Extreme / Core2 Quad / Core 2 Duo /Pentium Dual-Core / Pentium EE / Pentium D /Pentium 4 / Celeron 400 with 45nm LGA775,Core2Duo/PentiumDual-Core/Pentium EE/PentiumD/Pentium 4/ Celeron DCPU主频最大支持最大支持前端总线800/1066/1333 MHZ 667/800/1066MHZ芯片组英特尔 Q35+ICH9DO 英特尔 945GC+ICH7最大缓存12MB L2 6MB L2最大内存DDR2 4GB DDR2 4GBBIOS AMI AMI显示芯片英特尔GMA 3100 英特尔GMA 950显存最大共享384MB 最大共享224MB显示接口VGA VGA网口1个或2个英特尔82573L千兆网卡1个或2个英特尔82573L千兆网卡声卡Realtek ALC662(可选) Realtek ALC662硬盘接口4*SATAII 1*IDE/2*SATAII磁盘阵列RAID 0/1/5/10 无软驱接口无无并口1*SPPE/ECP/EPP 1*SPPE/ECP/EPP串口1*RS232/422/485 1*RS232/422/485USB 6*USB 6*USBDigital I/O 无无红外线接口无无板载SSD 无无看门狗1~255秒1~255秒电源类型AT/ATX AT/ATX操作温度0℃----60℃0℃----60℃相对湿度10%----90%10%----90%尺寸(长*宽)338mm*122mm 338mm*122mm工业计算机(IPC)参数配置表型号SYS71943VGA SYS7193VGGA图样CPU LGA775,IntelCore2Quad/Core2 Duo/Celeron with 65nm/45nm Intel Core 2 Duo / Pentium D / Pentium 4 / Celeron DCPU主频最大支持前端总线800/1066/1333MHZ 800/1066/1333MHZ芯片组英特尔 G41+ICH7 英特尔 Q35+ICH9DO最大缓存12MB L2 12MB L2最大内存DDR3 8 GB DDR2 4GBBIOS AMI Phoenix-Award显示芯片英特尔GMA X4500 英特尔GMA 3100显存最大共享1024MB 最大共享384MB显示接口VGA VGA/24 BIT LVDS网口1*Realtgek RTL8110S 千兆网卡1个英特尔82573L千兆网卡声卡Realtek ALC662 Realtek ALC262硬盘接口4*SATA/1*IDE 4*SATAII磁盘阵列无RAID 0/1/5/10软驱接口无无并口1*SPPE/ECP/EPP 1*SPPE/ECP/EPP串口1*RS232 1*RS232/422/485 1*RS232 1*RS232/422/485USB 8*USB 6*USBDigital I/O 4-in 4-out 无红外线接口1 无板载SSD 无无看门狗1~255秒1~255秒电源类型AT/ATX ATX操作温度0℃----60℃0℃----60℃相对湿度10%----90%10%----90%尺寸(长*宽)338mm*126mm 338mm*126mm工业底板参数配置表型号GTB6022/6 GTB6022/8 GTB6022/13L GTB6022/14 图样插槽总数6 8 13 14PICMG 2 2 2 2PCI 4 4 4 4ISA 2 4 8 9电源接口AT/ATX AT/ATX AT/ATX AT/ATX尺寸132mm*258mm 220mm*260mm 316mm*260mm 317mm*260mm 可搭配机箱壁挂式机箱壁挂式机箱4U机箱4U机箱订购信息6槽PICMG工业底板8槽PICMG工业底板13槽PICMG工业底板14槽PICMG工业底板工业底板参数配置表型号GTB6023/5PE GTB6023/14GPE 图样插槽总数 5 14PICMG 1 1PCI-E*16 1 1PCI-E*4 0 0PCI-E*1 1 4PCI 2 7SATA接口 2 2USB接口 4 4电源接口24+4PIN ATX 24+4PIN ATX尺寸107mm*328mm 317mm*328mm可搭配机箱壁挂式机箱4U机箱订购信息5槽工业底板14槽PICMG工业底板工业计算机(IPC)工业母板参数配置表型号SYM76901VGGA SYM76836VGA-5P图样CPU LGA775 for Core 2 Quad/Core 2Duo/Pentium Dual/Celeron processor LGA1155 for Intel? 32nm Sandy Bridge i3/i5/i7 processor,FSB 5GT/sCPU主频最大支持最大支持前端总线800/1066/1333 MHZ 533/800MHZ芯片组英特尔 Q35+ICH9R 英特尔 945GC+ICH7 最大缓存12MB L2 2MB L2最大内存DDR2 8GB DDR2 4GBBIOS Phonenix-Award Phonenix-Award显示芯片英特尔GMA 3100 英特尔GMA 950显存最大共享384MB 最大共享224MB显示接口VGA/DVI-D VGA网口2* Realtek RTL8111B千兆网卡1* Realtek RTL8111B千兆网卡声卡Realtek ALC885 Realtek ALC662硬盘接口1*IDE/6*SATAII 4*SATAII磁盘阵列RAID 0/1/5/10 无软驱接口 1 1并口1*SPPE/ECP/EPP 1*SPPE/ECP/EPP串口2*RS232 2*RS232USB 12*USB 8*USBDigital I/O 4-IN 4-OUT 无红外线接口 1 1板载SSD 无无扩展槽1*PCI-E*16 5*PCI 1*PCI-E*16 5*PCI看门狗1~255秒1~255秒电源类型AT/ATX AT/ATX操作温度0℃----60℃0℃----60℃相对湿度10%----90%10%----90%尺寸(长*宽)ATX305mm*244mm ATX305mm*244mm工业计算机(IPC)工业机箱参数配置表型号GT6145 GT6150图样系统主板工业长板或工业母板工业长板或工业母板驱动空间2个寸,2个寸驱动空间2个寸,2个寸驱动空间底板支持13槽、14槽工业底板支持13槽、14槽工业底板风扇2个80mm风扇1个120mm风扇电源1个ATX标准2U PS/2 电源1个ATX标准2U PS/2 电源前面板1个电源开关,1个复位开关,2个USB电源指示灯,硬盘指示灯1个电源开关,1个复位开关,2个USB 电源指示灯,硬盘指示灯,系统电源显示。
IT8511使用手册
版权所有 © 艾德克斯电子有限公司
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IT8500 用户手册
目录
认证与质量保证 ........................................................................................................................................................ 1 保固服务 .................................................................................................................................................................... 1 保证限制 .................................................................................................................................................................... 1 安全标志 .................................................................................................................................................................... 1 安全注意事项 ............................................................................................................................................................ 2 环境条件 .................................................................................................................................................................... 2 法规标记 .................................................................................................................................................................... 3 废弃电子电器设备指令(WEEE) ........................................................................................................................3 符合性信息 ................................................................................................................................................................ 3
IT8512+ 用户手册
直流可编程电子负载IT8500+系列用户手册型号:IT8511+/IT8511A+/IT8511B+/IT8512+/IT8512A+/IT8512B+/IT8512C+/IT8512H+/IT8513C+/IT8514C+/IT8514B+/IT8516C+版本号:4.1声明© Itech Electronics, Co., Ltd. 2014根据国际版权法,未经Itech Electronics, Co., Ltd. 事先允许和书面同意,不得以任何形式(包括电子存储和检索或翻译为其他国家或地区语言)复制本手册中的任何内容。
手册部件号IT8500+-402008版本第4版,2015 年05月18日发布Itech Electronics, Co., Ltd.商标声明Pentium是Intel Corporation在美国的注册商标。
Microsoft、Visual Studio、Windows 和MS Windows是Microsoft Corporation 在美国和/或其他国家/地区的商标。
担保本文档中包含的材料“按现状”提供,在将来版本中如有更改,恕不另行通知。
此外,在适用法律允许的最大范围内,ITECH 不承诺与本手册及其包含的任何信息相关的任何明示或暗含的保证,包括但不限于对适销和适用于某种特定用途的暗含保证。
ITECH对提供、使用或应用本文档及其包含的任何信息所引起的错误或偶发或间接损失概不负责。
如ITECH与用户之间存在其他书面协议含有与本文档材料中所包含条款冲突的保证条款,以其他书面协议中的条款为准。
技术许可本文档中描述的硬件和/或软件仅在得到许可的情况下提供并且只能根据许可进行使用或复制。
限制性权限声明美国政府限制性权限。
授权美国政府使用的软件和技术数据权限仅包括那些定制提供给最终用户的权限。
ITECH 在软件和技术数据中提供本定制商业许可时遵循FAR 12.211(技术数据)和12.212(计算机软件)以及用于国防的DFARS252.227-7015(技术数据-商业制品)和DFARS 227.7202-3(商业计算机软件或计算机软件文档中的权限)。
优利德 UTL8500系列 可编程直流电子负载 说明书
UTL8500系列可编程直流电子负载说明书前言直流电子负载请感谢您购置优利德,为了确保正确使用本仪器,在操作仪器之前仔细阅读手册,特别是有关“安全信息”部分。
如已阅读完手册,建议您将此手册妥善保管,以便在将来使用过程中进行查阅。
版权信息UNI-T 优利德科技(中国)股份有限公司版权所有。
UNI-T 产品受中国或其他国家专利权的保护,包括已取得或正在申请的专利。
本公司保留更改产品规格和价格的权利。
UNI-T 保留所有权利。
许可软件产品由UNI-T及其子公司或提供商所有,受国家版权法及国际条约规定的保护。
本文中的信息将取代所有以前出版的资料中的信息。
UNI-T 是优利德科技(中国)股份有限公司(Uni-Trend Technology(China)Co.,Ltd)的注册商标。
保修服务仪器自购买之日起保修期壹年,在保修期内由于使用者操作不当而损坏仪器的,维修费及由于维修所引起的费用由用户承担,仪器由本公司负责终身维修。
如果原购买者自购该产品之日一年内,将该产品出售或转让给第三方,则保修期应为自原购买者从UNI-T或授权的UNI-T分销商购买该产品之日起一年内。
电源线及其他附件和保险丝等不受此保证的保护。
如果在适用的保修期内证明产品有缺陷,UNI-T可自行决定是修复有缺陷的产品且不收部件和人工费用,或用同等产品(由UNI-T决定)更换有缺陷的产品。
UNI-T作保修用途的部件、模块和更换产品可能是全新的,或者经修理具有相当于新产品的性能。
所有更换的部件、模块和产品将成为UNI-T的财产。
以下提到的“客户”是指据声明本保证所规定权利的个人或实体。
为获得本保证承诺的服务,“客户”必须在适用的保修期内向UNI-T通报缺陷,并为服务的履行做适当安排。
客户应负责将有缺陷的产品装箱并运送到UNI-T指定的维修中心,同时预付运费并提供原购买者的购买证明副本。
如果产品要运到UNI-T维修中心所在国范围的地点,UNI-T应支付向客户送返产品的费用。
IT7000-IT8800--用户手册
IT7000用户使用手册© 版权归属于艾德克斯电子有限公司Ver1.0/APR, 2011第一章软件系统安装 (3)1.1 计算机的基本配置 (3)1.2 安装和运行软件 (3)第二章 IT7000 界面和基本操作 (4)2.1 IT7000的界面介绍 (4)2.2 基本操作 (5)2.2.1 配置 (5)2.2.2 实时值 (14)2.2.3 电池放电 (15)2.2.4 保存数据 (18)2.2.5 数据查询 (19)2.2.6 关于 (19)第三章 IT8800系列控制界面介绍 (19)3.1 IT88 界面介绍 (20)3.2 设置电压,电流,电阻和功率值 (21)3.3 快速设置 (22)3.4 程序(在CV , CC, CR 和 CW 四种工作模式下) (24)3.5 GO/NG (25)3.6 抓取数据功能 (25)3.7 保存调用功能 (28)3.8 曲线放大和平移功能 (28)第一章软件系统安装IT7000是由艾德克斯电子有限公司为用户设计的一套操作简单,实用性强的控制软件。
适用于本公司出品的电源和电子负载,包括:IT8500 plus ,IT8700,IT8800等电子负载系列和IT6300,IT6500,IT6900系列电源。
这套软件可以让用户通过计算机控制来实现在电源或负载前面板进行的所有操作,给用户需要在远端操作机器提供很大的方便。
本软件支持RS232串口通信和USB,GPIB通讯。
1.1 计算机的基本配置此光盘的运行环境需要用户拥有 HTML 浏览器和浏览手册需要Adobe Acrobat Reader软件。
为了有较好的浏览效果,我们推荐您使用IT4.0 或者是更高级的浏览器。
系统要求:窗口: Pentium II Pentium III or Pentium IV配备奔腾III ,奔腾IV 或者以上等级微处理器的计算机使用Windows 98/ME/XP 或者是 Windows 2000/Windows NT4.1.2 安装和运行软件1. 把CD-ROM 放到光驱里面运行 IT7000 安装程序。
艾德克斯负载仪 IT8500+系列用户手册
IT8500+用户手册
认证与质量保证
IT8500+系列电子负载完全达到手册中所标称的各项技术指标。
保固服务
ITECH 公司对本产品的材料及制造,自出货日期起提供一年的质量保固服务(保 固服务除以下保固限制内容)。
在此仪器操作的各个阶段中,必须遵循以下一般安全预防措施。如果未遵循这些 预防措施或本手册其他部分说明的特定警告,则会违反有关仪器的设计、制造和 用途方面的安全标准。 艾德克斯公司对用户不遵守这些预防措施的行为不承担任 何责任。
IT8500+系列电子负载支持 110V 或 220V 两种交流输入方式,请务必在开启 电源前检查电子负载的交流输入转换开关状态和供电电压相匹配,否则可能 烧坏电子负载
大短路输出电流而不会发生过热。如果有多个负载,则每对负载电线都必须 能安全承载电源的满载额定短路输出电流。 为减少起火和电击风险,请确保市电电源的电压波动不超过工作电压范围的 10%。 请勿自行在仪器上安装替代零件,或执行任何未经授权的修改。 请勿在可拆卸的封盖被拆除或松动的情况下使用本设备。 请仅使用制造商提供的电源适配器以避免发生意外伤害。 严禁将本设备使用于生命维持系统或其他任何有安全要求的设备上。
担保
本文档中包含的材料 “按现状 ”提 供,在将来版本中如有更改,恕不另 行通知。此外,在适用法律允许的最 大范围内,ITECH 不承诺与本手册 及其包含的任何信息相关的任何明 示或暗含的保证,包括但不限于对适 销和适用于某种特定用途的暗含保 证。 ITECH 对提供、使用或应用本 文档及其包含的任何信息所引起的 错误或偶发或间接损失概不负责。如 ITECH 与用户之间存在其他书面协 议含有与本文档材料中所包含条款 冲突的保证条款,以其他书面协议中 的条款为准。
台式全波段接收机 IC-R8500 中文使用说明书
台式全目录第一章面板介绍 3 第二章连接及安装9 第三章频率设置9 第四章接收功能10 第五章记忆信道12 第六章扫描16 第七章定时关机功能20 第八章模式设置【SET MODE】20 第九章连接器信息22 第十章控制命令22 第十一章维护22 第十二章附选件安装22 第十三章故障介绍23 第十四章指标23 第十五章附选件介绍24前言使用机器前请详细阅读本说明书,并保管好本说明书。
注意事项:只能在室内用!不能将220V交流电直接接在IC-R8500接收机上,必须用AC电源转换或接13.8V直流电源。
不能用不合规定的保险。
金属片、导线等小物品不能碰到接收机内部元件和后部接口。
避免在低于-10℃高于+50℃的环境里使用或放置接收机。
避免将接收机放置于阳光直射或尘土过多的地方。
编译水平有限,有不详尽处请参见英文使用说明书。
第一章面板介绍一、前面板1.电源开关【POWER】2.定时关机/设置开关【SLEEP/SET】设定关机时间* 可选择30、60、90、120分钟或OFF* “SLEEP”显示在功能显示屏上,表示已设定关机时间按此键1秒,进入快速设定状态* 使用【M-CH】旋钮和主旋钮分别来选择设定项目和内容3.录音遥控插座【REC REMOTE】:连接录音机上的遥控口,用予遥控录音。
4.录音机插口【REC OUT】:输出音频信号,接到录音机输入端。
5.耳机插口【PHONES】:阻抗为4—16Ω插入耳机后,喇叭无输出可用立体声耳机,但只有单声道6.接收方式键【WFW】/【FM】/【AM】/【SSB/CW】按下选择操作接收方式* 有下列几种方式:【FM】---FM ,窄FM【AM】---AM,窄AM,宽AM【SSB/CW】-USB,LSB,CW,任意的窄CW选SSB/CW接收方式,按【SSB/CW】键1秒,调拍频振荡器(BFO)频率。
7.消噪/ AFC开关【NB/ AFC】触发消噪或自动频率控制功能。
IT7000-IT8800--用户手册
IT7000用户使用手册© 版权归属于艾德克斯电子有限公司Ver1.0/APR, 2011第一章软件系统安装 (3)1.1 计算机的基本配置 (3)1.2 安装和运行软件 (3)第二章 IT7000 界面和基本操作 (4)2.1 IT7000的界面介绍 (4)2.2 基本操作 (5)2.2.1 配置 (5)2.2.2 实时值 (14)2.2.3 电池放电 (15)2.2.4 保存数据 (18)2.2.5 数据查询 (19)2.2.6 关于 (19)第三章 IT8800系列控制界面介绍 (19)3.1 IT88 界面介绍 (20)3.2 设置电压,电流,电阻和功率值 (21)3.3 快速设置 (22)3.4 程序(在CV , CC, CR 和 CW 四种工作模式下) (24)3.5 GO/NG (25)3.6 抓取数据功能 (25)3.7 保存调用功能 (28)3.8 曲线放大和平移功能 (28)第一章软件系统安装IT7000是由艾德克斯电子有限公司为用户设计的一套操作简单,实用性强的控制软件。
适用于本公司出品的电源和电子负载,包括:IT8500 plus ,IT8700,IT8800等电子负载系列和IT6300,IT6500,IT6900系列电源。
这套软件可以让用户通过计算机控制来实现在电源或负载前面板进行的所有操作,给用户需要在远端操作机器提供很大的方便。
本软件支持RS232串口通信和USB,GPIB通讯。
1.1 计算机的基本配置此光盘的运行环境需要用户拥有 HTML 浏览器和浏览手册需要Adobe Acrobat Reader软件。
为了有较好的浏览效果,我们推荐您使用IT4.0 或者是更高级的浏览器。
系统要求:窗口: Pentium II Pentium III or Pentium IV配备奔腾III ,奔腾IV 或者以上等级微处理器的计算机使用Windows 98/ME/XP 或者是 Windows 2000/Windows NT4.1.2 安装和运行软件1. 把CD-ROM 放到光驱里面运行 IT7000 安装程序。
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IT8500 Series Frame FormatProgrammable DC Power SupplyModels IT8500© Copyright 2005 All Rights Reserved Ver1.1/MAR, 2008/8500-401DirectoryWarranty Information (3)Safety Summary (3)Chapter 1 Remote Operation Mode (5)1.1 IT-E131 RS232 Communication cable (5)1.2 IT-E132 USB Communication cable (5)Chapter 2 Communication Order for IT8500 (6)Frame Format (6)Communication Protocol (8)Warranty InformationCertificationWe certify that this product met its published specifications at time of shipment from the factory.WarrantyThis hardware product is warranted against defects in material and workmanship for a period of ONE year from date of delivery. IT8500 series electronic load for use with a hardware product and when properly installed on that hardware product, are warranted not to fail to execute their programming instructions due to defects in material and workmanship for a period of 90 days from date of delivery. During the warranty period our company will either repair or replace products which prove to be defective. Our company does not warranty that the operation for the software firmware or hardware shall be uninterrupted or error free.For warranty service, with the exception of warranty options, this product must be returned to a service facility designated by our company. Customer shall prepay shipping charges by (and shall pay all duty and taxes) for products returned to our place for warranty service. Our company shall pay for return of products to Customer.Limitation of WarrantyThe foregoing warranty shall not apply to defects resulting from improper or inadequate maintenance by the Customer, Customer-supplied software or interfacing, unauthorized modification or misuse, operation outside of the environmental specifications for the product, or improper site preparation and maintenance.AssistanceThe above statements apply only to the standard product warranty. Warranty options product maintenance agreements and customer assistance agreements are also available.Safety SummaryThe following general safety precautions must be observed during all phases of operation of this instrument. Failure to comply with these precautions or with specific warnings elsewhere in this manual violates safety standards of design, manufacture, and intended use of the instrument .We assumes no liability for the customer’s failure to comply with these requirements.Environmental ConditionsThis instrument is intended for indoor use. Pollution degree 2 environments. It is designed to operate at a maximum relative humidity of 95% and at altitudes of up to 2000 meters. Refer to the specifications tables for the ac mains voltage requirements and ambient operating temperature range.Before Applying PowerVerify that all safety precautions are taken. Note the instrument's external markings described under "Safety Symbols".Ground the InstrumentThis product is a Safety Class 1 instrument (provided with a protective earth terminal). To minimize shock hazard, the instrument chassis and cover must be connected to an electrical ground. The instrument must be connected to the ac power mains through a grounded power cable, with the ground wire firmly connected to an electrical ground (safety ground) at the power outlet. Note: Any interruption of the protective (grounding) conductor or disconnection of the protective earth terminal will cause a potential shock hazard that could result in personal injury.DO NOT OPERATE IN AN EXPLOSIVE ATMOSPHEREDo not operate the instrument in the presence of fumes or flammable gases.KEEP AWAY FROM LIVE CIRCUITSOperating personnel must not remove instrument covers except as instructed in this Guide for installing or removing electronic load modules. Component replacement and internal adjustments must be made only by qualified service personnel. Do not replace components with power cable connected. Under certain conditions dangerous voltages may exist even with the power cable removed. To avoid injuries always disconnect power, discharge circuits, and remove external voltage sources before touching components.DO NOT SERVICE OR ADJUST ALONEDo not try to do some internal service or adjustment unless another person capable of rendering first aid resuscitation is present.Safety SymbolsDirect currentAlternating currentBoth direct and alternating currentProtective earth (ground) terminalCaution (refer to accompanying documents)WARNINGThe WARNING sign denotes a hazard. It calls attention to a procedure, practice, or the like, which, if not correctly performed or adhered to, could result in personal injury. Do not proceed beyond a WARNING sign until the indicated conditions are fully understood and met.CAUTIONThe CAUTION sign denotes a hazard. It calls attention to an operating procedure, or the like, which, if not correctly performed or adhered to, could result in damage to or destruction of part or all of theChapter 1 Remote Operation ModeDB9 in the rear panel of electronic load could connect with RS-232 through on TTL connector. The following information may help you to know how to control the output of electronic load through PC.1.1 IT-E131 RS232 Communication cableThe DB9 interface connector on the rear panel of electronic load is TTL voltage level; you can use the communication cable (IT-E131) to connect the DB9 interface connector of the electronic load and the RS-232 interface connector of computer for the communication.PCLoadcableCOMPUTERI N S T R U M E N TRX TXIT1.2 IT-E132 USB Communication cableThe DB9 interface connector on the rear panel of electronic load is TTL voltage level; you can use the communication cable (IT-E132) to connect the DB9 interface connector of the electronic load and the USB interface connector of computer for the communication.PCLoadcableCOMPUTERI N S T R U M E N TRX TXITChapter 2 Communication Order for IT8500 Frame FormatFrame length is 26 bytes. Details as following:AAH Address Command 4—25bytes are information content Parity code Description :1. Start bit is AAH,occupies one byte.2.Address range from 0 to FE, occupies one byte.3.Each command occupies one byte. Following is the command details.20H Selecting the Remote control mode21H Selecting the input on/off state22H Setting the max input voltage23H Reading the max setup input voltage.24H Setting max input current25H Reading the max setup input current.26H Setting max input power.27H Reading the max setup input power.28H Selecting CC/CV/CW/CR operation mode of electronic load.29H Reading the operation mode.2AH Setting CC mode current value2BH Reading CC mode current value2CH Setting CV mode voltage value2DH Reading CV mode voltage value2EH Setting CW mode watt value2FH Reading CW mode watt value30H Setting CR mode resistance value31H Reading CR mode resistance value32H Setting CC mode transient current and timer parameter.33H Reading CC mode transient parameter34H Setting CV mode transient voltage and timer parameter.35H Reading CV mode transient parameter36H Setting CW mode transient watt and timer parameter37H Reading CW mode transient parameter38H Setting CR mode transient resistance and timer parameter39H Reading CR mode transient parameter3AH Selecting the list operation mode (CC/CV/CW/CR)3BH Reading the list operation mode.3CH Setting the list repeat mode (ONCE / REPEAT)3DH Reading the list repeat mode.3EH Setting the number of list steps.3FH Reading the number of list steps40H Setting one of the step’s current and time values.41H Reading one of the step’s current and time values.42H Setting one of the step’s voltage and time values.43H Reading one of the step’s voltage and time values44H Setting one of the step’s power and time values45H Setting one of the step’s power and time values.46H Setting one of the step’s resistance and time values47H Reading one of the step’s resistance and time values48H Setting list file name.49H Reading list file name.4AH Selection the memory space mode for storing list steps.4BH Reading the memory space mode for storing list steps.4CH Save list file in appointed area.4DH Get the list file from the appointed area.4EH Setting min voltage value in battery testing mode.4FH Reading min voltage value in battery testing mode50H Setting timer value of FOR LOAD ON51H Reading timer value of FOR LOAD ON52H Disable/Enable timer of FOR LOAD ON53H Reading timer state of FOR LOAD ON54H Setting communication address55H Enable/Disable LOCAL control mode.56H Enable/Disable remote sense mode.57H Reading the state of remote sense mode.58H Selecting trigger source.59H Reading trigger source.5AH Sending a trigger signal to trigging the electronic load.5BH Saving user’s setting value in appointed memory area for recall. 5CH Recall user’s setting value in appointed memory area.FIXED/SHORT/TRAN/LIST/BATTERY function mode. 5DH Selectingfunction mode state.5EH Getting5FH Reading input voltage, current, power and relative state60H Enter the calibration mode61H Getting the calibration mode state.62H Calibrate voltage value.63H Sending the actual input voltage to calibration program.64H Calibrate current value.65H Sending the actual input current to calibration program.66H Store the calibration data to EEPROM.67H Setting calibration information.68H Reading calibration information.69H Restore the factory default calibration data.6AH Reading product’s model, series number and version information.6CH Setting information of bar code12H The return information of command operation in electronic load.2. Selecting the input on/off state (21H)1st byte Start bit ( AAH )2nd byte Address(0—0XFE)3rd byte Command(21H)4th byte Input state(0 is OFF,1is ON)From 5th to 25th byte System reserveFrom26th byte Sum code3. Setting / Reading max input voltage(22H/23H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(22H/23H)4th byte The Lowest byte of max voltage value5th byte The lower byte of max voltage value.6th byte The higher byte of max voltage value.From 8th to 25th byte System reserve. 26th byte Sum code.6. Selecting / Reading CC/CV/CW/CR operation mode of electronic load.(28H/29H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(28H/29H)4th byte Mode(0 is CC mode, 1 is CV mode , 2 is CW mode , 3 is CR mode )From 5th to 25th byte System reserve26th byte Sum code7. Setting / Reading CC mode current value(2AH/2BH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command (2AH/2BH)4th byte The lowest byte of current value5th byte The lower byte of current value.6th byte The higher byte of current value.7th byte The highest byte of current value.From 8th To 25th byte System reserve27th byte Sum code9. Setting / Reading CW mode watt value(2EH/2FH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(2EH/2FH)4th byte The lowest byte of max power value5th byte The lower byte of max power value6th byte The higher byte of max power value7th byte The highest byte of max power value8th to 25th byte System reserve26th byte Sum code11. Setting /Reading CC mode transient current and timer parameter. (32H/33H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(32H/33H)From 4th byte to 7th byte Setting value of current A (Lower bytes are in the front location, higher bytesare in the later location.)From 8th byte to 9th byte. Time value of timer A ((Lower bytes are in the front location, higher bytes are inthe later location) (1 represent 0.1mS)From 10th to 13th byte Setting value of current B (Lower bytes are in the front location, higher bytesare in the later location)the later location) (1 represent 0.1mS)16th byte Transition operation mode (0 is CONTINUES, 1 is PULSE, 2 is TOGGLED) From 17th to 25th byte System reserve26th byte Sum code12. Setting /Reading CV mode transient voltage and timer parameter.(34H/35H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(34H/35H)From 4th to 7th byte. Setting value of voltage A (Lower bytes are in the front location, higher bytesare in the later location)From 8th to 9th byte. Time value of timer A (Lower bytes are in the front location, higher bytes are inthe later location) (1represent 0.1mS)From 10th to 13th byte Setting value of voltage B(Lower bytes are in the front location, higher bytes arein the later location)From 14th to 15th byte Time value of timer B (Lower bytes are in the front location, higher bytes are inthe later location) (1represent 0.1mS)16th byte Transient operation mode (0 is CONTINUES,1 is PULSE,2 is TOGGLED) From 17th to 25th byte System reserve26th byte Sum code13. Setting /Reading CW mode transient watt and timer parameter(36H/37H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(36H/37H)From 4th to 7th byte Setting value of power A (Lower bytes are in the front location, higher bytes arein the later location)From 8th to 9th byte Time value of timer A (Lower bytes are in the front location, higher bytes are inthe later location) (1 represent 0.1mS)From 10th to 13th byte Setting value of power B(Lower bytes are in the front location, higher bytes arein the later location)From 14th to 15th byte Time value of timer B (Lower bytes are in the front location, higher bytes are inthe later location) (1 represent 0.1mS)16th byte Transition operation mode (0 is CONTINUES,1is PULSE,2 is TOGGLED) From 17th to 25th byte System reserve26th byte Sum code14. Setting /Reading CR mode transient resistance and timer parameter(38H/39H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(38H/39H)are in the later location)From 8th byte to 9th byte. Time value of timer A (Lower bytes are in the front location, higher bytes are inthe later location) (1 represent 0.1mS)From 10th byte to 13th byte Setting value of resistance B (Lower bytes are in the front location, higher bytesare in the later location)From 14th byte to 15th byte Time value of timer B (Lower bytes are in the front location, higher bytes are inthe later location) (1 represent 0.1mS)16th byte Transition operation mode (0 is CONTINUES,1 is PULSE,2 is TOGGLED)17th byte to 25th byte System reserve26th byte Sum code15.Selecting /Reading the list operation mode (CC/CV/CW/CR)(3AH/3BH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(3AH/3BH)4th byte LIST operation mode(0is CC mode,1 is CV mode ,2 is CW mode,3 is CR mode)From 5th to 25 byte System reserve26th byte Sum code16. Setting /Reading the list repeat mode. (3CH/3DH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(3CH/3DH)4th byte LIST repeat operation mode(0 is ONCE, 1 is REPEAT)From 5th to 25th byte System reserve26th byte Sum code17. Setting / Reading the number of list steps. (3EH/3FH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(3EH/3FH)From 4th to 5th byte LIST stepsFrom 6th to 25th byte System reserve26th byte Sum code18. Setting / Reading one of the step’s current and time values. (40H/41H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(40H/41H)From 4th byte to 5th byte Appointed one stepFrom 6th to 9th byte Current value of current step (Lower bytes are in the front location, higher bytesare in the later location)in the later location) (1 represent 0.1mS)From 12th to 25th byte System reserve26th byte Sum code19. Setting / Reading one of the step’s voltage and time values. (42H/43H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(42H/43H)From 4th to 5th byte Appointed one stepFrom 6th byte to 9th byte Voltage value of current step (Lower bytes are in the front location, higher bytesare in the later location)From 10th to 11th byte Time value of current step (Lower bytes are in the front location, higher bytes are in the later location) (1 represent 0.1mS)From 12th to 25th byte System reserve26th byte Sum code20. Setting / Reading one of the step’s power and time values. (44H/45H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(44H/45H)4th byte Appointed one stepFrom 5th to 8th byte Power value of current step (Lower bytes are in the front location, higher bytesare in the later location)From 9th to 10th byte Time value of current step (Lower bytes are in the front location, higher bytes are in the later location) (1 represent 0.1mS)From 11th to 25th byte System reserve26th byte Sum code21. Setting / Reading one of the step’s power and time values. (46H/47H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command (46H/47H)From 4th to 5th byte Appointed one stepFrom 6th to 9th byte Resistance value of current step (Lower bytes are in the front location, higherbytes are in the later location)From 10th to 11th byte Time value of current step (Lower bytes are in the front location, higher bytes are in the later location) (1 represent 0.1mS)From 12th to 25th byte System reserve26th byte Sum code22. Setting / Reading List file name (48H/49H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command (48H/49H)From 4th to 13th byte LIST file name (ASSIC code )From 14th to 25th byte System reserve26th byte Sum code23. Selection / Reading the memory space mode for storing list steps. (4AH/4BH) 1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(4AH/4BH)4th byte partition mode (1 | 2 | 4 | 8)From 5th to 25th byte System reserve26th byte Sum code24. Save / Get list file in appointed area.. (4CH/4DH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(4CH/4DH)4th byte Storing area 1 ~ 8)From 5th to 25th byte System reserve26th byte Sum code25. Setting / Reading min voltage value in battery testing mode.(4EH/4FH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(4EH/4FH)4th byte The lowest byte of voltage value.5th byte The lower byte of voltage value.6th byte The higher byte of voltage value.7th byte The highest byte of voltage value.From 8th to 25th byte System reserve26th byte Sum code26. Setting / Reading timer value of FOR LOAD ON (50H/51H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(50H/51H)4th byte The lowest byte of time value in timer. (1 represent 1S)5th byte The highest byte of time value in timer.From 8th to 25th byte System reserve26th byte Sum codeTime unit in Timer is S, 1S is represented by 1.27. Disable / Enable timer of FOR LOAD ON (52H);Reading timer state of FOR LOAD ON (53H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(52H/53H)4th byte Timer state (0 is disable ,1 is enable )From 5th to 25th byte System reserve26th byte Sum code28. Setting communication address (54H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command (54H)4th byte New communication address (0~0XFE)From 5th to 25th byte System reserve26th byte Sum code29. Enable/Disable LOCAL control mode. (55H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command (55H)4th byte State of LOCAL button(0:disable,1:enable “)From 5th to 25th byte System reserve26th byte Sum code30. Enable / Disable remote sense mode. (56H)Reading the state of remote sense mode. (57H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(56H/57H)4th byte Remote mode state (0:disable,1:enable)5th to 25th byte System reserve26th byte Sum code31. Selecting / Reading trigger source. (58H/59H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command (58H/59H)4th byte Trigger mode (0:Keypad,1 External,mand)From 5th to 25th byte System reserve26th byte Sum code32. Sending a trigger signal to trigging the electronic load. (5AH) 1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(5AH)From 4th to 25th byte System reserve26th byte Sum code33. Saving / Recall user’s setting value in appointed memory area for recall.(5BH/5CH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(5BH/5CH)4th byte Storing area ( )From 5th to 25th byte System reserve26th byte Sum code34. Selecting / Getting FIXED/SHORT/TRAN/LIST/ BATTERY function mode.(5DH/5EH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(5DH/5EH)4th byte Work mode (0:FIXED,1:SHORT, 2:TRANSITION,3:LIST,4: BATTERY)From 5th to 25th byte System reserve26th byte Sum code35. Reading input voltage, current, power and relative state. (5FH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command (5FH)From 4th to 7th byte Actual input voltage value (Lower bytes are in the front location, higher bytes are in the later location)From 8th to 11th byte Actual input current value (Lower bytes are in the front location, higher bytes arein the later location)From 12th to 15th byte Actual input power value (Lower bytes are in the front location, higher bytes arein the later location)16th byte Operation state registerFrom 17th to 18th byte Demand state registerFrom 19th to 25th byte System reserve26th byte Sum codeBIT SignalMeaning0 1 2 3 4 5 6 CALWTGREMOUTLOCALSENSELOTOperation state registerCalculate the new demarcate coefficientWait for trigger signalRemote control modeOutput stateLOCAL button state (0 is represent “not in effect “,1 is represent ‘in effect “)Remote testing modeFOR LOAD ON timer state0 1 2 3 4 5 6 7 8 9 RVOVOCOPOTSVCCCVCPCRDemand state registerInput reverse voltageOver voltageOver currentOver powerOver temperatureNot connect remote terminalConstant currentConstant voltageConstant powerConstant resistance36. Enter the calibration mode(60H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(60H)4th byte Calibration mode select(0:disable;1:enable) 5th byte Calibration password(0X85H)6th byte Calibration password(0X11H or 0X12H)From 7th to 25th byte System reserve26th byte Sum code38. Calibrate voltage value(62H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(62H)4th byte Voltage calibration point(1~4)From 5th to 25th byte System reserve26th byte Sum code41. Sending the actual input current to calibration program (65H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(65H)4th byte The lowest byte of actual current5th byte The lower byte of actual current6th byte The higher byte of actual current7th byte The highest byte of actual currentFrom 8th to 25th byte System reserve26th byte Sum code42. Store the calibration data to EEPROM(66H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command (66H)From 4th to 25th byte System reserve26th byte Sum code45. Reading product’s model, series number and version information(6AH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(6AH)From 4th to 8th byte Mode information (ASIC code)9th byte The lowest byte of software version number(BCD code)10th byte The highest byte of software version number(BCD code)From 11th to 20th byte Product series number (ASIC code)From 21st to 25th byte System reserve26th byte Sum codeFor example:Product’s series number is 000045,product mode is 8511,software version number is V2.03,data as followingAA 00 31 38 35 31 31 00 03 02 ZZ ZZ ZZ ZZ ZZ ZZ ZZ ZZ ZZ ZZ XX XX XX XX XX 5746. Reading information in bar code (6BH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command (6BH)From 4th to 22nd byte Information in bar code(ASICmode)From 23rd to 25th byte System reserve26th byte Sum code47. Setting information of bar code(6CH)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(6CH)4th to 22nd byte Product series number(ASIC code)24th byte System reserve25th byte System reserve26th byte Sum code48. The return information of command operation in electronic load(12H)1st byte Start bit ( AAH )2nd byte Address (0—0XFE)3rd byte Command(12H)4th byte Command calibration resultFrom 5th to 25th byte System reserve26th byte Sum codeNOTEReceiving one frame command and verify themIf verify sum is wrong, return the parameter 90HIf setting parameter is wrong or over brim, return parameter A0H.If command is not enforce, return to parameter B0HIf command is invalid, return to parameter C0HOtherwise, return to parameter 80HNOTEReceiving one frame command and verify themIf verify sum is correct, return the relative reading dataIf verify sum is wrong, return the verify command (90H)。