西门子全系列触摸屏选型手册

使用 TIA 博途软件进行工程组态SIMATIC HMI机器可视化的最佳选择效率达到新高度/fom生产效率新基准，打造可持续性竞争优势高效工程，成就创新瑞士 Solinaut 公司是一家工程服务与自动化解决方案提供商，凭借与西门子的密切合作以及西门子性能卓越的 TIA 博途系统，致力于显著提高客户的经济效益。

由于 TIA 博途工程组态系统中，只需一步操作即可创建多个参数，而且所有块都保存在系统的各个库中，极大缩短了程序员的开发时间。

因此，Solinaut 只需重点关注自动化解决方案中的数据直观清晰显示问题即可。

正是基于以上优势，该公司才能为客户量身定制不同的解决方案。

Altendorf 奶酪制品厂作为他们的主要客户，从中获益匪浅。

视觉的盛宴—奶酪的美味需要亲自品尝，方能感受其魅力随着全球市场竞争的日益激烈，许多与 Altendorf 奶酪制品厂相似的企业开始使用自动化系统。

一方面，自动化系统可充分发掘设备或工厂在整个生命周期内的潜能，显著降低生产能耗。

另一方面，这种系统操作直观易用，产品质量一目了然。

正是基于以下优势，系统集成商 Solinaut 为 Altendorf 奶酪制品厂定制的专业可视化解决方案才能获得巨大成功：•在流程图中集成各种特定的画面模板，极大简化了操作员的操作过程•使用滑入窗口和弹出窗口，实现各种功能快速访问•集成更多控件，支持远程维护。

如今，乳制品厂对自动化系统的投资回报已初见成效。

生产时间也仅为过去的一半，能源与生产用水量同时也获得了显著降低。

公司负责人 Erich Keller 对工厂的未来发展充满信心。

更多资讯，敬请访问：/hmi-video-altendorf2SIMATIC HMI — 智能界面 (sm@rt interface)作为人机对话的唯一接口，HMI 解决方案可实现完美的交互且优势彰显：• 高生产力 — 竞争力大幅提升• 高效率 — 成本显著降低• 高利用率 — 时间大幅缩短色彩绚丽的人机界面操作设备根据应用，选择最佳 HMI 设备！故障安全和信息安全保护投资和知识产权以及安全的操作！轻松便捷的设备调试测试与维护更为轻松快捷！3从设备可视化到高性能的 SCADA 系统，TIA 博途中集成有SIMATIC WinCC 和其它高效工具，可涵盖工程组态与可视化软件的所有功能，实现与所有性能等级应用的无缝衔接！SIMATIC WinCC Basic 软件：对精简面板的控制功能进行了优化，适用于简单解决方案。

HMI &面板仪表|过程控制目录HMI & 面板仪表HMI 操作面板面板仪表大型LED 颜色显示器可视化管理过程控制PID 控制器数据采集RTU & I/O 模块信号调节器41461811191321HMI 操作面板功能强大，可支持300多种工业协议。

可以使用简单易用的Crimson ®获奖软件进行配置，产品均自带该型软件（无需额外付费）。

>支持300多种工业协议的转换 >收集、存储和显示数据 >轻松集成到多厂商应用环境中 >使用Crimson 软件进行配置坚固耐用的Graphite ®系列高级HMI 操作面板 >通过插件模块实现无与伦比的扩展性能 >-20°到60°C 的宽温度范围 >坚固耐用，阳光下可读>支持300多种工业协议，最多可同时转换20种协议>内置数据记录器（SD 卡）、Web 服务器和FTP 以实现远程访问 >可以根据报警条件发送电子邮件和/或短信（SMS ） >所有型号均经过UL 1级，2类认证，可用于危险区域功能强大的G3系列图形化HMI>支持300多种工业协议>内置数据记录器（CF卡）、Web服务器和FTP以实现远程访问>可根据报警条件发送电子邮件和/或短信（SMS）>支持串行接口、以太网接口和USB等多种连接方式>所有型号均经过UL 1级，2类认证，可用于危险区域G3 Kadet HMIs>支持300多种工业协议>支持串行接口和以太网接口等多种连接方式HMI操作面板功能对比*视具体型号而定红狮提供业内种类最齐全的面板仪表。

我们的仪表有各种尺寸和能力，包括计数、速率、时间、电压、电流、过程、应变计和温度输入。

该系列产品目前已销售近400万台，久经现场实地的严峻考验和长期测试，为我们的产品赢得了业界第一品牌的美誉长达14年之久以及其它诸多荣誉。

HOME ABOUT PRODUCTS SUPPORT SALESTouch Screen Selection GuideGeneralA touch screen is an assembly that is mounted in front of a video display. It is activated by touching, with a stylus or finger, the selected area on the display that indicates the desired function. The touch screen or frame has an independent X-Y coordinate system that is calibrated to the display matrix. The X-Y coordinates of the position of the stylus are communicated to the host computer causing the desired action.Other than voice recognition, touch input is probably the most natural human interface to any computing device. It is particularlyuseful and popular in those applications where the user is relatively unskilled in the operation of a computer. For that group ofusers, keyboards tend to be intimidating devices.Touch screens have been used for many years, mainly in applications such as point of sale, public information kiosks, industrialand process control, military displays, medical displays and interactive video systems.Touch Screens for the Factory FloorAs computer based graphic displays and workstations replace switch and indicator banks as the primary man-machine interface for machine and process control, touch screens are becoming increasingly popular as the input device of choice There are several reasons for this increased popularity.q Using touch screens, pop-up alpha and numeric keypads replace fixed, expensive industrial keyboards.q Since video switch banks are software programmable, making changes is significantly less costly than modifying a control panel that contains mechanical switches and indicators.q Using touch input an unskilled user can operate a complex computing device by interacting directly with the video display with relative ease.q Touch targets can be any shape size or color which makes screen design more flexible.q Touch input can provide instant audio and/or visual feedback to tile user to confirm his choice.q Touch active menus can help guide tile user through complex sequences of commands or actions.q Complicated control panels can be simplified by only displaying valid options for any control sequence.This guide is intended to provide a designer with basic tools and selection criteria to allow the most appropriate touch technology and controller configuration to be chosen for their industrial control application.Present Touch Technologiesq Ideally a touch screen would have the following characteristics:q It would not overlay the display and would, therefore, not degrade the display image.q It would have resolution equivalent to that of the video display.q It would be activated by 1) any size stylus 2) conducting or non-conducting styli or 3) a gloved or non-gloved finger.q It would provide a positive, tactile feedback to the operator.q It would be modular and capable of being added to a display and computer in the same manner that other input devices are added.q It would be impervious to dust, grease, moisture chemical or oil vapors or pressure hose down that may be present in a hostile environment.Unfortunately, none of the touch screens currently manufactured have all of those characteristics. Accordingly, the selection of any touch technology is a compromise that will depend on the particular application and environment.There are four major touch technologies--analog resistive, capacitive, scanning infrared (IR) and surface acoustic wave (SAW). All of these technologies provide an assembly consisting of a touch screen overlay or touch frame and a separate controller. The controller is a printed circuit board assembly that must be mounted in either the display device or the computer.Analog ResistiveAnalog resistive screens consist of a sandwich of Mylar and plastic or glass. Usually the Mylar overlay is hard coated to resist abrasion. The two layers are separated from each other by transparent elastic spacer dots. The inside surfaces of the sandwich are coated with a uniform transparent thin film conductive coating, usually indium-tin-oxide (ITO). In operation, a voltage is alternately applied along the horizontal and vertical axes. When the Mylar overlay is depressed and its conductive layer makes contact with the energized layer, that voltage is sensed and transmitted to a controller containing an analog-to-digital converter. The voltage is converted to a digital X or Y touch location. Although the basic analog resistive technology has infinite resolution, the actual system resolution is limited to the resolution of the A-D converter and is generally greater than 1,000x1,000 points.CapacitiveA cross section of a capacitive screen is shown. A glass panel is coated with a conductive coating(usually ITO) that is fused into the glass. The coating is connected to four electrodes at the edges of thescreen. Each electrode is connected to an oscillator circuit. When an operator touches the screen, thebody capacitance of the operator causes a change in the impedance of the screen. The impedancechange causes the oscillator frequencies to vary, and the frequency differentials are converted into X-Ycoordinates by an A-D converter. As with the analog resistive screen, the basic capacitive screen hasinfinite resolution but the system resolution is limited by the signal-to-noise ratio which puts a practicalupper limit on the A-D converter resolution--typically 1,000x 1,000 points.Scanning Infrared (IR)The IR technology is the onlytechnology that does not overlay thedisplay with an additional screen orscreen sandwich. An array of infrared (IR) light emitting diode (LED)/photodetector pairs are mounted in a plastic frame. Using the IR spectrum allowsambient light to be filtered out and makes possible the use of opaque (to thevisible spectrum) plastic frames to hide the photo devices. Thus, the arrayframe simply looks like a bezel. In operation, the LED/photo detector array iscontinuously and sequentially scanned horizontally and then vertically Whenan operator touches the display breaking one or more of the light beams, the X-Y position of the touch stylus is transmitted to the host computer. Themaximum resolution using an interpolation technique is approximately doublethe number of LED/photo detector pairs in the array. Using interpolation, whenan odd number of beams is broken along either axis, the X or Y coordinate ofthe center beam is transmitted, but when an even number of beams is broken,the coordinates of the interpolated beam are calculated and transmitted to thehost computer.Surface Acoustic Wave (SAW)The surface acoustic wave technology is the latest of the touch input technologies and uses inaudible acoustic waves traveling over the surface ofa glass panel at precise speeds in straight lines. X and Y transmittingtransducers are located along the horizontal and vertical edges of a glass plate.Corresponding X and Y receiving transducers are located at the opposite edgesof the glass plate. A reflective array made of powdered glass is printed along theedges of the glass plate. The array consists of .2 mil thick by 1/2 inch widediagonal, parallel lines. In operation, the transducer generates a surfaceacoustic wave which travels along the axis of the reflector array. At eachreflector element, a small amount of the energy in the wave is deflectedorthogonally to the direction of the wave, travels over the surface of the glassand is again deflected orthogonally toward the receiving transducer by a mirrorimage reflector. Since the energy in the wave is reduced as it travels the lengthof the reflective array, the reflector elements are placed increasingly closertogether to compensate for the decreasing energy level. When an operatortouches the screen, a portion of the energy is absorbed by the touch stylus. Thisreduced energy level is detected and, by comparing the speed of the receivedsignal with the known speed of the SAW on glass, an X or Y coordinate locationis registered. As with capacitive screens, the basic SAW technology has infiniteresolution but is limited by the signal-to-noise ratio which puts a practical limit onthe A-D converter--typically 900x900 coordinate locations.Touch Screen ControllersMost manufacturers offer two controller configurations--ISA Bus and Serial-RS232.q ISA bus controllers are contained on a standard printed circuit plug-in board and can only be used on ISA or EISA PCs. Depending on the manufacturer they may be interrupt driven, polled or be configured as another serial port.q Serial controllers are contained on a small printed circuit board and are usually mounted in the video monitor cabinet. They are then cabled to a standard RS232 serial port on the host computer.SoftwareMost touch screen manufacturers offer some level of software support which include mouse emulators, software drivers, screen generators and development tools for Windows, OS/2, Macintosh and DOS.Most of the supervisory control and data acquisition (SCADA) software packages now available contain support for one or more touch technologies.Selection ProcessGenerally there four factors that must must considered for any touch screen application:q The basic touch technologyq The touch controller configurationq The screen surface treatment (not applicable to IR touch screens)q Compatibility with the applications softwareTouch Technology Evaluation Factorsq Resolution-- The smallest detectable increment of stylus movement establishes the touch resolution. Low resolution may be adequate to activate large targets but for mouse tracking or small target activation, resolution equivalent to that of the monitor is desirable.q Parallax-- If a significant variance exists between the target position on the CRT and the point on the touch screen matrix that, when activated by a stylus, causes a touch to be registered the operator could select a different target area than the desired target.q Environment-- The buildup of a layer of dust, oil, grease or any foreign substance on fingers, harsh chemical vapors and hose-down by pressure hoses may cause improper touch operation.q Stylus-- Types of styli typically used with touch screens are bare finger and gloved finger. Occasionally other types of styli including pencil erasers, tips of a pen, may be pointed at the screen and the user expects a responseq Transmissivity-- Overlay touch screens act as a neutral density filter and, therefore attenuate the light from the CRT.q Abrasion-- Touch screen abrasion is experienced in one of three ways. 1) Cleaning of screen with an abrasive 2) Impacting the screen witha sharp object 3) Gradual wearing of the screen from repeated useTouch Technology Selection CriteriaAnalog ResistiveAdvantagesq Highest resolution (better than 1 K x 1 K), smooth mouse tracking and small target activationq Will operate with virtually any stylus including gloved/ungloved fingersq Low parallax with spherical screen that conforms to CRT faceplateq Impervious to dust, oils, grease, moistureq Touch has some tactile feedbackDisadvantagesq Although Mylar overlay has a hard coat and is somewhat abrasion resistant, it can be damaged by gouging from a sharp instrument q Hose down can cause unwanted activation of target areasq Lowest transmissivity of all touch technologies - 55%-65%CapacitiveAdvantagesq High resolution - 1 K x 1 K, smooth mouse tracking and small target activationq Low parallax with spherical screen that conforms to CRT faceplateq Impervious to dust, oils, grease, moistureq Hose-down does not cause unwanted activation of targetsq Impervious to scratching by all but the hardest materialsq High transmissivity - >85%Disadvantagesq Will not respond to gloved finger or any non-conductive stylusScanning Infrared (IR)Advantagesq Best image quality as there is no overlayq Impervious to scratchingq Activates with gloved or ungloved finger and any stylus that is large enough to break IR light beam (typically >.25") Disadvantagesq Low resolutionq Exhibits worst parallax problem of all technologies for CRT use since light beams do not follow curvature of CRT faceplate q May cause unintended activation of target prior to finger contact with CRT caused by IR light beam location above surface of CRT q Pressure hose down may cause unwanted target selectionq Dust, oil or grease buildup on frame that impedes light beam may cause malfunctionSurface Acoustic Wave (SAW)Advantagesq High transmissivity - >92%q High resolution - 900 x 900, smooth mouse tracking and small target activationq Low parallax with spherical screen that conforms to CRT faceplateq Impervious to scratching by all but the hardest materialsq Only technology with Z axis controlDisadvantagesq Pressure hose down may cause unwanted target selectionq Dust, oil or grease on surface of touch screen may cause malfunction or unwanted target selectionTouch Controller Selection CriteriaBus Controllerq Bus controllers are available for ISA/EISA and Micro channel. For any other bus, a serial controller must be usedq Bus controllers usually take a half-length slotq Bus controllers can only be driven a few feet. Therefore the distance between the video monitor and computer must be relatively short q Certain designs are interrupt driven and require the assignment of an IRQ line. Others have a serial port format and require the assignment of a COM port.q Bus controllers are mechanically easier to install.Serial ControllersSerial Controllers are necessary if:q A computer bus other than ISA/EISA or Micro channel is usedq A computer slot is not available but a serial port is availableq There is a separation between the computer and monitor of several feet or moreq No IRQ line is availableSurface Treatment Selection CriteriaTwo types of surface treatment are offered for most overlay screens - clear and anti-glareq Anti-glare screens use an etched surface to diffuse reflected light thus scattering specular reflected light and reducing glare. Unfortunately, this also causes some diffusion of the image. The diffusion is limited if the screen is close to the display surface, but some diffusionremains.q Clear screens have no diffusion of the display image but the screen is highly reflectiveThe choice of clear or anti-glare may be somewhat affected by the intensity and direction of ambient light in the viewing area, but in the final analysis, it is usually a subjective decisionSoftware CompatibilityAfter the touch screen technology and controller have been selected:q It is necessary to determine that the software drivers supplied with the touch screen are compatible with tile latest version of the user's operating systemq If standard application software is being considered. it is necessary to determine that the software is compatible with the drivers and touch hardwareq If software is being developed, it is necessary to ascertain that adequate software drivers and development tools are available SummaryWe have shown that there are many factors to consider in the proper selection of a touch screen, primarily focused on the application and the environment in which it will be used. We have attempted to provide the designer with adequate information to make an informed choice of a touch screen technology that best suits the application.Nortech offers a complete line of touch input workstations, control stations and video monitors. Analog resistive and capacitive touch screens are offered as standard products, since one or the other will best satisfy most industrial control applications for use with CRTs. For generally clean environments, surface acoustic wave (SAW) touch screens may be substituted, if desirable. Nortech does not support scanning infrared (IR) touch screens for use with CRTs.Copyright 1996-2006, Nortech Engineering, Inc., All Rights Reserved。

SIMATIC HMI操作设备第二代精简系列面板操作说明Siemens AGDivision Digital Factory Postfach 48 4890026 NÜRNBERG A5E33293255-ABⓅ 11/2016 本公司保留更改的权利Copyright © Siemens AG 2016. 保留所有权利法律资讯警告提示系统为了您的人身安全以及避免财产损失，必须注意本手册中的提示。

人身安全的提示用一个警告三角表示，仅与财产损失有关的提示不带警告三角。

警告提示根据危险等级由高到低如下表示。

危险表示如果不采取相应的小心措施，将会导致死亡或者严重的人身伤害。

警告表示如果不采取相应的小心措施，可能导致死亡或者严重的人身伤害。

小心表示如果不采取相应的小心措施，可能导致轻微的人身伤害。

注意表示如果不采取相应的小心措施，可能导致财产损失。

当出现多个危险等级的情况下，每次总是使用最高等级的警告提示。

如果在某个警告提示中带有警告可能导致人身伤害的警告三角，则可能在该警告提示中另外还附带有可能导致财产损失的警告。

合格的专业人员本文件所属的产品/系统只允许由符合各项工作要求的合格人员进行操作。

其操作必须遵照各自附带的文件说明，特别是其中的安全及警告提示。

由于具备相关培训及经验，合格人员可以察觉本产品/系统的风险，并避免可能的危险。

按规定使用Siemens 产品请注意下列说明：警告Siemens 产品只允许用于目录和相关技术文件中规定的使用情况。

如果要使用其他公司的产品和组件，必须得到 Siemens推荐和允许。

正确的运输、储存、组装、装配、安装、调试、操作和维护是产品安全、正常运行的前提。

必须保证允许的环境条件。

必须注意相关文件中的提示。

商标所有带有标记符号 ® 的都是西门子股份有限公司的注册商标。

本印刷品中的其他符号可能是一些其他商标。

若第三方出于自身目的使用这些商标，将侵害其所有者的权利。

西门子选型手册16ES7?212-1AB23-0XB0CPU（8I/6O）晶体管输出26ES7?212-1BB23-0XB0CPU??(8I/6O）?继电器输出36ES7?212-1AB23-0XB8CPU（8I/6O）晶体管输出?CN46ES7?212-1BB23-0XB8CPU??(8I/6O）?继电器输出?CN56ES7?214-1AD23-0XB0CPU（14I/10O）晶体管输出66ES7?214-1AD23-0XB8CPU（14I/10O）晶体管输出?CN76ES7?214-1BD23-0XB0CPU（14I/10O）继电器输出86ES7?214-1BD23-0XB8CPU（14I/10O）继电器输出??CN96ES7?214-2AD23-0XB0CPU224XP（14DI/10DO，2AI,1AO）?晶体管输出? 106ES7?214-2BD23-0XB0CPU224XP?（14DI/10DO，2AI,1AO）继电器输出116ES7?214-2AD23-0XB8CPU224XP?（14DI/10DO，2AI,1AO）晶体管输出126ES7?214-2BD23-0XB8CPU224XP?（14DI/10DO，2AI,1AO）继电器输出136ES7?216-2AD23-0XB0CPU??(?24I/16O?)?晶体管输出146ES7?216-2BD23-0XB0CPU（24I/16O）继电器输出156ES7?216-2AD23-0XB8CPU??(?24I/16O?)?晶体管输出?CN166ES7?216-2BD23-0XB8CPU（24I/16O）继电器输出?CN176ES7?221-1BF22-0XA08点24VDC输入186ES7?221-1BF22-0XA88点24VDC输入?CN196ES7?221-1BH22-0XA016点24VDC输入206ES7?221-1BH22-0XA816点24VDC输入?CN216ES7?222-1HF22-0XA08点继电器输出226ES7?222-1HF22-0XA88点继电器输出?CN236ES7?222-1BF22-0XA08点24VDC输出246ES7?222-1BF22-0XA88点24VDC输出?CN256ES7?223-1PH22-0XA08入8出模块?继电器输出266ES7?223-1PH22-0XA88入8出模块?继电器输出?CN 276ES7?223-1PL22-0XA016入16出模块?继电器输出286ES7?223-1PL22-0XA816入16出模块?继电器输出?CN 296ES7?223-1HF22-0XA04入4出模块?继电器输出306ES7?223-1HF22-0XA84入4出模块?继电器输出?CN 316ES7?223-1BF22-0XA04入4出24VDC326ES7?223-1BF22-0XA84入4出24VDC??CN336ES7?223-1BH22-0XA08入8出24VDC346ES7?223-1BH22-0XA88入8出24VDC?CN356ES7?223-1BL22-0XA016入16出24VDC366ES7?223-1BL22-0XA816入16出24VDC??CN376ES7?231-0HC22-0XA04入模拟量模块386ES7?231-0HC22-0XA84入模拟量模块?CN396ES7?235-0KD22-0XA04入1出模拟量模块406ES7?235-0KD22-0XA84入1出模拟量模块?CN416ES7?232-0HB22-0XA02出模拟量模块426ES7?232-0HB22-0XA82出模拟量模块?CN436ES7?277-0AA22-0XA0PROFIBUS-DP模块446ES7?272-0AA30-0YA0TD?200显示设定单元456ES7?901-3CB30-0XA0计算机编程电缆及软件466ES7?291-8GF23-0XA0EEPROM?64K?476ES7?291-8BA20-0XA0电池486ES7?290-6AA20-0XA0?扩展转接电缆??米496ES7?231-7PD22-0XA04路热电耦模块506ES7?231-7PD22-0XA84路热电耦模块?CN?516ES7?231-7PB22-0XA02路热电阻模块526ES7?231-7PB22-0XA82路热电阻模块?CN536GK7243-1EX00-0XE0以太网通讯卡?西门子可编程SIEMENS?S7-300系列序号型号描述16ES7?312-1AE13-0AB0CPU312,16KRAM,?MAX?256DI/O,64AI/O,MMC26ES7?312-5BE03-0AB0CPU312C,32KRAM,?本机10I/6O，256DI/O,64AI/O,40PIN36ES7?313-5BF03-0AB0CPU313C,64KRAM,MAX?1016DI/O,253AI/O，2个40PIN<,?/P>46ES7?313-6CF03-0AB0CPU313C-2DP,64KRAM,MAX?8192DI/O,512AI/O，40PIN 56ES7?314-1AG13-0AB0CPU314,48KRAM,MAX1024DI/O,256AI/O,MMC66ES7?314-6BG03-0AB0CPU314,?96KRAM,MAX1024DI/O,256AI/O,MMC96ES7?314-6CG03-0AB06ES7?315-2AG10-0AB06ES7?307-1BA00-0AA0CPU314C-2DP,96KRAM,MAX8192DI/O,512AI/O,2个40PIN CPU315-2DP,128KRAM,MAX16384DI/O,1024AI/O,MMCS7-300电源DC24V,2A106ES7?307-1EA00-0AA0S7-300电源DC24V,5A116ES7?307-1KA01-0AA0S7-300电源DC24V,10A126ES7?321-1BL00-0AA0数字输入模块32点入,DC24V136ES7?321-1BH02-0AA0数字输入模块16点入,DC24V146ES7?321-1FF01-0AA08点120V/230VAC??输入156ES7?322-1BL00-0AA0数字输出模块32点出,DC24V,166ES7?322-1HF01-0AA0数字输出模块8点继电器出,AC220V,2A176ES7?322-1BH01-0AA0数字输出模块16点出,DC24V,186ES7?322-1HH01-0AA0数字输出模块16点继电器输出2A196ES7?322-1FH00-0AA0数字输出模块16点输出206ES7?323-1BH01-0AA0数字输入/输出模块,8入/8出,DC24V,216ES7?323-1BL00-0AA0数字输入/输出模块,16入/16出,DC24V,226ES7?331-7KF02-0AB0模拟量输入模板,8通道,0~10V,4~20MA236ES7?331-7KB02-0AB0模拟量输入模板,2通道246ES7?332-5HD01-0AB0模拟量输出模板,4通道,0~10V,4~20mA256ES7?332-5HB01-0AB0模拟量输出模板,2通道266ES7?340-1AH02-0AE0点对点通讯模板,CP340-1A,带RS232C口276ES7?340-1AH01-7BA0CP340软件手册286ES7?340-1CH02-0AE0点对点通讯模板,CP340-1C,带RS485口296ES7?350-1AH03-0AE0单通道计数模块(FM350-1)306ES7?350-1AH00-7BG0FM350-1组态软件手册316ES7?350-2AH00-0AE08通道计数模块（FM350-2）376ES7953-8LF20-0AA06ES7953-8LG11-0AA06ES7953-8LJ20-0AA06ES7953-8LL20-0AA06ES7953-8LM20-0AA06ES7?971-1AA00-0AA0MMC?64KMMC?128KMMC?512KMMC?2MMMC?4M后备电池,,1Ah(CPU313,314用)386ES7?392-1AJ00-0AA0前连接器,20针396ES7?392-1AM00-0AA0前连接器,40针406ES7?390-1AE80-0AA0导轨,480mm416ES7?390-1AF30-0AA0导轨,530mm426ES7?390-1AJ30-0AA0导轨,830mm436ES7?360-3AA01-0AA0中央模板接口模板446ES7?361-3CA01-0AA0扩展模板接口模板456ES7?365-0BA01-0AA0接口模板(一对),带1M电缆466ES7?368-3BB01-0AA0接口模板连接电缆,1M476ES7?368-3BC51-0AA0接口模板连接电缆,486ES7?972-0CB20-0XA0PC?MPI电缆496ES7?972-0BA41-0XA0L2网接口不带编程口506ES7?972-0BB41-0XA0L2网接口带编程口516ES7?972-0AA01-0XA0RC485?L2/MPI中继器526GK1?561-1AA01CP5611??PCI通讯卡536GK1?561-3AA01CP5613??PCI通讯卡546GK7?342-5DA02-0XE0CP342-5通讯模块556AV6642-0DA01-1AX0OP177B??寸?用户内存2048K?分辨率320×240?256 566AV6642-0DC01-1AX0OP177B??寸?用户内存2048K?分辨率320×240?蓝色576AV6?642-0AA01-0AX0TP177A?触摸屏???寸??分辨率320×240??蓝色??替代TP170A586AV6?642-0BA01-1AX0TP177B?触摸屏???256色??替代TP170B??596AV6?641-0DD01-1AX0?MP277??替代TP270-10??寸?用户内存6M?分辨率640×480?按键?606ES7?354-1AH01-0AE0FM354?伺服电机定位模块616ES7?355-0VH10-0AE0带4个模拟输出的四通道闭环控制模块?FM355C 626ES7?355-1VH10-0AE0用于4个步进或脉冲控制器的闭环控制模块FM355S ?西门子可编程SIEMENS?S7-400系列序号型号描述16ES7400-1TA01-0AA0底板26ES7400-1JA01-0AA0底板36ES7412-2XJ05-0AA0CPU41246ES7414-2XK05-0AB0CPU41456ES7407-0KA01-0AA010A电源66ES7952-1KK00-0AA01M存储器76ES7952-1KL00-0AA02M存储器86ES7971-0BA00后备电池96ES7421-1BL01-0AA032点数字输入,24VDC 106ES7421-7BH01-0AB016点数字输出,24VDC 116ES7422-1BL00-0AA032点数字输出,24VDC 126ES7422-1BH11-0AA016点数字输出,24VDC 136ES7422-1HH00-0AA016点继电器输出146ES7431-7QH00-0AB016点模拟量输入156ES7431-1KF00-0AB08点模拟量输入166ES7431-7KF00-0AB08点模拟量输入176ES7431-7KF10-0AB08点模拟量输出186ES7432-1HF00-0AB08点模拟量输出196ES7460-0AA01-0AB0扩展模块206ES7461-0AA01-0AA0扩展模块216ES7461-0AA00-7AA0终端电阻226ES7468-1BB50-0AA0扩展电缆236ES7492-1AL00-0AA0接线端子。

触摸屏的使用说明书一、简介THPSSM-1型系统的人机界面采用西门子SMART触摸屏。

人机界面采用西门子Smart 700触摸屏。

人机界面是在操作人员和机器设备之间做双向沟通的桥梁，用户可以自由的组合文字、按钮、图形、数字等来处理、监控、管理随时可能变化的信息的多功能显示屏幕。

注意事项：1.请确保在HMI设备外部为所有连接电缆预留足够的空间。

2.安装HMI设备时，确保人员、工作台和整体设备正确接地。

3.连接电源：仅限DC24V。

Smart 700面板说明:二、连接组态PC1.组态PC 能够提供下列功能：1.1传送项目；1.2传送设备映像；1.3将HMI 设备恢复至工厂默认设置；1.4备份、恢复项目数据。

2.将组态PC 与Smart Panel 连接：2.1关闭HMI 设备；2.2将 PC/PPI 电缆的RS485 接头与HMI 设备连接；2.3将PC/PPI 电缆的RS232 接头与组态PC 连接。

三、连接HMI设备1.串行接口序号D-sub 接头针脚号RS485RS42211NC.NC.22M24_Out M24_Out33B(+)TXD+44RTS*)RXD+55M M66NC.NC.77P24_Out P24_Out88A(-)TXD-99RTS*)RXD-2.下表显示了 DIP 开关设置。

可使用 RTS 信号对发送和接收方向进行内部切换。

通讯开关设置含义RS485SIMATIC PLC 和 HMI 设备之间进行数据传输时，连接头上没有 RTS 信号（出厂状态）与 PLC 一样，针脚 4 上出现 RTS 信号，例如，用于调试时与编程设备一样，针脚9 上出现RTS 信号，例如，用于调试时。

RS422在连接三菱 FX 系列 PLC 和欧姆龙CP1H / CP1L /CP1E-N 等型号 PLC 时，RS422/RS485 接口处于激活状态。

四、启用数据通道1.用户必须启用数据通道从而将项目传送至 HMI 设备。

使用 TIA 博途进行工程组态SIMATIC HMI西门子操作面板—致力于满足您的各种需求产品样本 • 10.2015/fom“对于操作和监控解决方案，我从不将就。

西门子的解决方案经验与创新并重，可适用于所有应用，值得我信赖。

”使用 TI A 博途进行工程组态移动面板精智面板新一代精简面板按键面板SIMATIC HMI 面板高效操作与监控的首选多年来，SIMATIC HMI 面板在各行业的大多数应用中已脱颖而出。

这些面板不仅具有创新的设计和卓越的性能，而且还可通过 TIA 博途中的 SIMATIC WinCC 进行组态。

其无与伦比的工程组态效率，使客户受益匪浅。

各种规格均集成卓越功能所有规格的面板都具有相同的硬件功能。

用户只需根据应用，选择相应的显示屏规格和操作方式，触屏式或/和按键式。

由于软件可以根据需求进行扩展，因而可先采用一个小型解决方案，日后再根据具体需求，通过增加过程变量等方式进行扩展。

与此同时，创新的图形化用户界面，操作与监控更为直观便捷。

各种规格均集成卓越功能• SIMATIC HMI 精智面板： 苛刻要求应用的首选产品• SIMATIC HMI 精简面板：基本功能，适用于简单 HMI 应用• SIMATIC HMI 移动面板： 便于携带，易于操作与监控• SIMATIC HMI 按键面板：创新型操作面板，适用于总线操作可满足最高性能和功能要求• 4 ~ 22 寸色彩绚丽的宽屏显示• 创新的调试和维护理念• 采用 PROFIenergy 标准进行能源管理携带便捷且操作灵活• 创新的操作方式， 适用于有线或无线环境• 现场操作，坚固耐用• 集成故障安全功能所有按键均可灵活扩展， 集成安全功能• 调试简单快捷• 联网更方便• 状态检测清晰直观高性价比、高分辨率的 可视化解决方案• 4 ~ 22 寸宽屏显示， 操作更为直观清晰• 集成 HMI 基本功能• 与 S7-1200 完美协同卓越的工程效率在 TIA 博途中，可通过易于扩展的 SIMATIC WinCC 软件对 SIMATIC HMI 面板进行直观组态。