传感器仿真软件使用说明书

传感器仿真软件使用说明书The Standardization Office was revised on the afternoon of December13, 2020THSRZ-2型传感器系统综合实验装置仿真软件使用说明书THSRZ-2型传感器系统综合实验装置仿真软件 ................. 错误!未定义书签。

实验一属箔式应变片――单臂电桥性能实验。

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实验二金属箔式应变片――半桥性能实验 ......................... 错误!未定义书签。

实验三金属箔式应变片――全桥性能实验 ......................... 错误!未定义书签。

实验四直流全桥的应用――电子秤实验 ............................. 错误!未定义书签。

实验五交流全桥的应用――振动测量实验 ......................... 错误!未定义书签。

实验六扩散硅压阻压力传感器差压测量实验 ..................... 错误!未定义书签。

实验七差动变压器的性能实验 ............................................. 错误!未定义书签。

实验八动变压器零点残余电压补偿实验 ............................. 错误!未定义书签。

实验九励频率对差动变压器特性的影响实验 ..................... 错误!未定义书签。

实验十差动变压器的应用――振动测量实验 ..................... 错误!未定义书签。

实验十一电容式传感器的位移特性实验 ............................. 错误!未定义书签。

实验十二容传感器动态特性实验 ......................................... 错误!未定义书签。

运动传感器软件使用技巧第一章使用前的准备在使用运动传感器软件之前，有几个准备步骤是非常重要的。

首先，确保您的设备上已安装了最新版本的运动传感器软件。

其次，将您的设备与传感器连接，并确保传感器已经处于正常工作状态。

最后，清理和准备您的工作区域，以确保可以正常感应到运动并避免不必要的干扰。

第二章传感器位置选择正确选择传感器的位置对于准确捕捉运动至关重要。

传感器通常应放置在需要监测运动的区域中，并与被测物体保持适当的距离。

如果传感器与被测物体之间的距离太远，它可能无法捕捉到细微的动作。

相反，如果距离太近，传感器可能会因为过于灵敏而捕捉到不必要的噪声信号。

第三章设置灵敏度大多数运动传感器软件提供了调整灵敏度的选项。

根据实际需求，您可以根据监测对象的大小和所需的运动范围来设置灵敏度。

如果您需要监测微小的运动，可以将灵敏度调至较高。

相反，如果您只需要监测较大的运动，可以将灵敏度调低。

通过适当调整灵敏度，您可以确保获得最准确的运动数据。

第四章数据记录和分析运动传感器软件通常提供了数据记录和分析的功能。

在开始使用传感器之前，确保已经设置好数据记录的选项，并选择合适的存储位置。

一旦传感器开始监测运动，软件将会记录相应的数据，包括时间、位置、运动方向等。

您可以使用这些数据进行进一步的分析，例如创建运动趋势图或比较不同时间段的运动数据。

第五章实时监控和警报许多运动传感器软件具备实时监控和警报功能。

这意味着您可以在监测期间实时查看运动并接收警报通知。

通过充分利用这些功能，您可以及时发现并采取必要的行动。

例如，您可以设置警报，当传感器监测到不寻常的运动时，软件将向您发送警报通知，以便您能够立即采取适当的措施。

第六章故障排除和维护有时，在使用运动传感器软件过程中可能会遇到一些问题。

在出现故障或异常情况时，您可以尝试一些基本的故障排除步骤。

首先，确认传感器是否正确连接并处于工作状态。

其次，检查传感器周围是否有干扰物，如灯光、电子设备或其他手持设备。

M5600/U5600 Software Manual Wireless Pressure TransducersContents1 Introduction Description 32 Manual Smartphone/Tablet Software Installation and Operation Manual 33 Manual Windows Version Software Installation and Operation Manual 44 Protocol Software Protocol Specification 161 IntroductionThe M5600 and U5600 pressure transducers use standard 2.4GHz wireless communication tag. The long battery life and integration design make these transducers a perfect fit for many industrial and commercial applications including marine, residential, campers, water, hydraulic, irrigation, pool, medical and sprinkler systems, or anywhere you would need to monitor pressure without the need for wires.By installing the Windows® version software on your PC or embedding the wireless signal in your integrated system, you can monitor pressure and temperature in real time.2 Smartphone/Tablet Software Installation1. Download and install the “TE Sensor Tag” app for iOS or Android™ from the Apple App Store or Google Play Store.2. Install the battery into the transducer.3. Turn on standard 2.4GHz wireless communication tag for smartphone/tablet.4. Run “TE Sensor Tag” app on smartphone/tablet and it will start searching for the transducer.5. Select the transducer (M5600 or U5600) found by the app to pair it to your smartphone/tablet.6. Once paired, the pressure and temperature charting will begin automatically. Data is collected every 5 seconds (programmed for bestbattery life).3 Windows Version Software Installation and Operation Manual Hardware & System Requirement∙PC with USB serial port support∙USB Dongle: BT900-US∙Operation system: Windows XP, Windows 7 or above∙Microsoft .NET Framework4.0 or aboveDongle Installation and Programming1. Insert the USB Dongle (BT900-US) into the USB socket of the PC.The PC will install the related USB drivers automatically.2. After installing FT232R USB UART, open the PC’s Device Manager and check if the USB Dongle has the port number assigned asbelow (COM5 in this example):If not assigned, then it is necessary to install the FTDI FT232 USB Serial Converter Driver following instructions from the below link: https:///tutorials/how-to-install-ftdi-drivers/windows---in-depthVerify COM port is assigned to the Dongle in the Device Manager before proceeding to the next step.3. Copy Window’s client software “TESS-M5600_U5600_Software.zip” to the PC and unzip it. Double-click to run UwTerminal in folder:TESS 5600\UwTerminal\. User interface should display as below:4. Click “Accept” to enter the configuration interface. Select the proper COM port where the Dongle is installed and leave the others atdefault settings.Then click “OK” to enter the command-line interface:5. Input “at &F *” (at space &F space *) and press “Enter”. The screen will display “ FFS Erased, Rebooting…”Close the window by clicking the “X” at the upper right corner.6. Run “BT900UartFwUpgrade.exe” in folder: TESS 5600\BT900_9.1.10.3 to update the firmware. Follow these steps: Press “OK” →specify the correct COM port →press “OK” → press “Start Upgrade” → let it run until finish →pressing “Quit.”7. Remove the USB Dongle and re-insert, repeat above steps 3 & 4.Input “at I 3” and press “Enter,” displaying “9.1.10.3” which is the latest version of the firmware.Input “at &F *” and press “Enter.” Screen will display “FFS Erased, Rebooting…”Input “at+dir” and press “Enter.”8. Right-click inside the window and click “load precompiled BASIC”After the “Open” window pops up, select “smartZ.umc” in folder “TESS 5600\” and press “Open”Text will scroll and after 1-2 minutes, it will display “DONE.”Close the “UwTerminal” window. Remove the USB Dongle and re-insert.Monitoring Software Operation Manual1. Double-click to run TESS 5600 for Windows in folder: TESS 5600\source\bin\Release\. The client software user interface shoulddisplay as below. Certain explanations can be found when moving the cursor onto the words.More explanations are provided as below:2. Ensure the Port Name matches the COM number in the Device Manager. Click the “Start” button, and then a “Scan” window will popup to search for available wireless devices. Double-click the MAC number matching the target device to select it.3. The software will start receiving and recording data on battery level and real-time pressure and temperature.Clicking the “Stop” button will stop the data taking process.4. When “Data Logging” is enabled and the interval set, a “Save“ window will pop up. When clicking the “S tart” button, all data will besaved in the folder appointed by the user (default: \\TESS\\data\\) as a *.dat file which can be opened with MS Excel.The “Date Time“ column can be formatted to display seconds as shown below:4 Software Protocol SpecificationUUID for the M5600/U5600 is available, which allows the user to compile their own program to recognize the sensor’s wireless signal and detect pressure, temperature and battery capacity.T is a 16 bits signed word, equals 0x7FFF if erroneous.P, Pmin and Pmax are 32 bits signed words, equal 0x7FFFFFFF if erroneous.T is a temperature value with 0.01°C resolution.P, Pmin and Pmax are pressure values with 0.1Pa resolutionCONVERSIONTemperature (°C) = T / 100Pressure (Pa) = P / 10Pressure (Psi) = P / 10 / 6894.7Battery Service:0% to 100% represents a supply voltage from 2.0V to 3.0V with 1%/bit resolution. STATUSNORTH AMERICA EUROPE ASIAMeasurement Specialties, Inc., a TE Connectivity company 45738 Northport Loop West Fremont, CA 94538Tel: +1 800 767 1888Fax: +1 510 498 1578************************MEAS France SAS,a TE Connectivity company26 Rue des Dames78340 Les Clayes-sous-Bois, FranceTel: +33 (0) 130 79 33 00Fax: +33 (0) 134 81 03 59************************Measurement Specialties (China) Ltd.,a TE Connectivity companyNo. 26 Langshan RoadShenzhen High-Tech Park (North) Nanshan District,Shenzhen, 518057ChinaTel: +86 755 3330 5088Fax: +86 755 3330 5099************************/sensorsolutionsAndroid is a trademark of Google Inc.Google Play is a trademark of Google Inc.iOS is a trademark or registered trademark of Cisco in the U.S. and other countries and is used under license.Microsoft, Encarta, MSN, and Windows are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries.Android and Windows are trademarks of their respective owners.The Bluetooth® word mark and logos are registered trademarks owned by the Bluetooth SIG, Inc. and any use of such marks by TE Connectivity is under license. Other trademarks and trade names are those of their respective owners.Measurement Specialties Inc., a TE Connectivity company.Measurement Specialties (MEAS), American Sensor Technologies (AST), TE Connectivity, TE Connectivity (logo) and EVERY CONNECTION COUNTS are trademarks. All other logos, products and/or company names referred to herein might be trademarks of their respective owners.The information given herein, including drawings, illustrations and schematics which are intended for illustration purposes only, is believed to be reliable. However, TE Connectivity makes no warranties as to its accuracy or completeness and disclaims any liability in connection with its use. TE Connectivity‘s obligations shall only be as set forth in TE Connectivity‘s Standard Terms and Conditions of Sale for this product and in no case will TE Connectivity be liable for any incidental, indirect or consequential damages arising out of the sale, resale, use or misuse of the product. Users of TE Connectivity products should make their own evaluation to determine the suitability of each such product for the specific application.© 2016 TE Connectivity Ltd. family of companies All Rights Reserved.Rev 02016/04/05。

无线传感器网络仿真软件用户手册2014年12月1日目录1. 简介 (1)1.1. 背景 (1)1.2. 软件运行环境 (1)1.3. 使用场景 (2)1.4. 试用版使用限制 (2)2. 安装 (2)2.1. 双击安装程序 (2)2.2. 安装向导 (3)2.3. 选择安装目录 (3)2.4. 选择是否建立开始菜单和创建快捷方式 (4)2.5. 安装 (4)2.6. 安装完成 (5)2.7. Atos-SensorSim快捷方式 (5)2.8. 安装目录中的文件夹 (7)2.9. Atos-SensorSim主界面 (7)3. Atos-SensorSim使用 (8)3.1. 网络管理 (8)3.1.1. 生成网络 (8)3.1.2. 查看生成网络的拓扑 (8)3.1.3. 修改生成网络的节点默认通信半径 (9)3.1.4. 显示网络节点属性 (9)3.1.5. 修改网络节点属性 (10)3.1.6. 增加网络节点 (10)3.1.7. 删除网络节点 (11)3.1.8. 网络显示缩放 (12)3.1.9. 保存生成的网络 (12)3.1.10. 打开保存的网络文件 (13)3.1.11. 创建网络文件分组 (13)3.1.12. 删除网络文件分组 (15)3.1.13. 删除网络文件 (16)3.2. 无线传感器网络算法管理 (18)3.2.1. 显示系统目前导入的算法 (18)3.2.2. 开始算法演示 (18)3.2.3. 停止算法演示 (19)3.2.4. 显示算法运行的节点分布 (20)3.2.5. 显示算法的网络链接信息 (20)3.2.6. 显示算法的网络链路质量信息 (21)3.2.7. 显示算法运行过程中经过的路线 (21)3.2.8. 显示算法的查询结果信息 (22)3.2.9. 调节算法演示的运行速度 (22)3.2.10. 单步执行算法 (23)3.2.11. 查看算法运行参数 (24)3.2.12. 查看算法运行过程中发生的事件 (24)3.2.13. 查看算法运行过程中发生事件的数据通信量 (25)3.2.14. 查看算法运行过程中发生事件的能量消耗 (25)3.2.15. 查看算法运行过程中的总能量消耗 (26)3.2.16. 快速查看算法运行过程 (26)3.2.17. 创建算法分组 (27)3.2.18. 删除算法分组 (29)3.2.19. 删除算法 (31)3.3. 无线传感器网络实验管理 (31)3.3.1. 显示系统中已保存的实验 (31)3.3.2. 查看实验 (32)3.3.3. 查看实验网络 (32)3.3.4. 查看实验算法 (33)3.3.5. 运行实验 (33)3.3.6. 创建实验分组 (34)3.3.7. 删除实验分组 (35)3.3.8. 删除实验 (37)无线传感器网络仿真软件用户手册1.简介1.1. 背景由于传感器网络及其算法的复杂性，传感器网络中的绝大多数算法的性能无法通过理论分析得到。

传感器信号仿真系统用户手册湖北汽车工业学院汽车工程系2010年05月3日目 录一系统概述 (1)二系统硬件使用说明 (2)2.1系统基本结构概述 (2)2.2系统电源状态指示 (2)2.3系统工作状态指示 (3)2.4RS-232串行通讯接口 (3)2.5MC9S12XDT256最小应用系统 (4)2.6系统外部接口1 (4)2.7系统外部接口2 (4)2.8系统外部接口3 (5)2.9系统外部接口4 (5)2.10系统外部接口5 (6)2.11系统外部接口6 (6)三ABHS软件使用说明 (8)3.1软件安装 (8)3.2用户身份验证及注册 (9)3.3参数设置 (10)3.4在线编程功能 (12)3.5写标定值功能 (13)3.6示波器功能 (23)四HEV调试功能 (25)4.1通讯参数设置 (25)4.2启动检测功能 (26)4.3开关量信号控制 (27)4.4模拟量信号控制 (27)4.5脉冲量信号控制 (28)4.6输入信号检测 (28)4.7CAN网络调试 (29)五发动机硬件在环仿真功能 (30)5.1通讯参数设置 (30)5.2启动检测功能 (31)5.3开关量信号检测 (32)5.4模拟量信号检测 (32)5.5脉冲量信号检测 (21)5.6输入信号检测 (21)5.7发动机类型选择 (214)六CAN+通用调试 (36)6.1通讯参数设置 (36)6.2启动检测功能 (37)6.3开关量信号控制 (38)6.4模拟量信号控制 (38)6.5脉冲量信号控制 (39)6.6开关量输入信号检测 (39)6.7模拟量输入信号检测 (40)6.8脉冲量输入信号检测 (40)6.9CAN总线调试 (41)七系统MAP标定 (42)八系统外部接口定义 (58)8.1HEV调试模块外部接口定义 (58)8.2发动机硬件在环仿真模块外部接口定义 (60)8.3CAN+通用模块外部接口定义 (62)一、系统概述传感器信号仿真系统用于模拟各类型车辆常用传感器信号，一般配合其他目标控制系统使用，是汽车电子技术应用中理想的离线调试工具，尤其适合于复杂控制系统的初步开发、设计应用及控制策略的分析和验证。

XY2型应变传感器模拟器使用说明书（1.03版）第一章技术参数目录第一章技术参数 (1)1.1 型号 (1)1.2 技术指标 (1)1.3 仪表外型 (2)第二章工作原理 (5)第三章使用操作方法 (7)3.1 仪器的功能 (7)3.2 接线方法 (8)3.3 键盘 (10)3.4 键功能说明 (11)3.5 模拟器的操作 (12)3.5.1 按步长逐级输出 (12)3.5.2 按输入值输出信号 (12)3.5.3 按设定范围逐级输出信号 (13)3.5.4 由上位机控制模拟器的输出 (14)3.5.5 改变激励电压范围 (15)3.5.6 设置工作参数 (15)3.5.7 测量温度 (17)3.5.8 编程功能 (18)3.5.9 运行用户程序 (19)第四章设置与校准 (20)4.1 零点校准 (20)4.2 满程校准 (21)4.3 线性校准（考虑是否保留） (22)4.4 温度特性和电压影响校准 (24)4.5 激励电压校准 (26)4.6 外接直流电源电压校准 (28)目录4.8 设置通讯功能 (29)4.9 调整对比度 (31)4.10 检查参数 (31)4.10.1 外接电源状态 (32)4.10.2 零点DA码 (32)4.10.3 满量程DA码 (32)4.10.4 零点温度影响 (33)4.10.5 满量程温度影响 (33)4.10.6 激励电压影响 (33)4.10.7 激励电压计量参数 (34)4.10.8 共模电压计量参数 (34)4.10.9 非线性修正值 (34)第五章编制用户程序 (35)5.1 XY2的用户程序指令系统 (35)5.2 键盘编程方法 (37)5.3 计算机编程 (39)5.4 计算机编程语法 (45)5.5 程序实例 (45)第六章错误提示信息 (59)第七章使用注意事项 (60)第八章常见故障的排除............................. ０亲爱的用户：在使用仪表前，敬请认真阅读使用说明书。

PSEN cs1.1n}PSEN sensor technologyThis document is a translation of the original document.All rights to this documentation are reserved by Pilz GmbH & Co. KG. Copies may be made for internal purposes. Suggestions and comments for improving this documentation will be gratefully received.Source code from third-party manufacturers or open source software has been used for some components. The relevant licence information is available on the Internet on the Pilz homepage.Pilz®, PIT®, PMI®, PNOZ®, Primo®, PSEN®, PSS®, PVIS®, SafetyBUS p®,SafetyEYE®, SafetyNET p®, the spirit of safety® are registered and protected trademarks of Pilz GmbH & Co. KG in some countries.SD means Secure DigitalUsing the documentation4 Definition of symbols4Safety regulations5 Safety assessment5 Use of qualified personnel6 Warranty and liability6 Disposal6 For your safety7Operating distances8 Lateral and vertical offset9Accessories20IntroductionValidity of documentationThis documentation is valid for the product PSEN cs1.1n. It is valid until new documentation is published.This operating manual explains the function and operation, describes the installation and provides guidelines on how to connect the product.Using the documentationThis document is intended for instruction. Only install and commission the product if you have read and understood this document. The document should be retained for future ref-erence.Definition of symbolsInformation that is particularly important is identified as follows:NOTICEThis describes a situation in which the product or devices could be dam-aged and also provides information on preventive measures that can betaken. It also highlights areas within the text that are of particular import-ance.SafetyIntended useSafety function of safety switch:} 2 safety outputs, each of which supply a high signal when the actuator is in the safety switch's response range.The safety switch meets the requirements in accordance with:}EN 60947-5-3 with the actuator PSEN cs1.1 : PDDB}EN 62061: SIL CL 3}EN ISO 13849-1: PL e (Cat. 4)}EN ISO 14119: Coding level Low, Type4The safety switch may only be used with the corresponding actuator PSEN cs1.1.The safety level PL e (Cat. 4 )/SIL CL 3 is only achieved if}the safety outputs use 2-channel processing.The following is deemed improper use in particular:}Any component, technical or electrical modification to the product}Use of the product outside the areas described in this manual}Use of the product outside the technical details (see Technical details [ 16]).NOTICEEMC-compliant electrical installationThe product is designed for use in an industrial environment. The productmay cause interference if installed in other environments. If installed in otherenvironments, measures should be taken to comply with the applicablestandards and directives for the respective installation site with regard to in-terference.Safety regulationsSafety assessmentBefore using a unit it is necessary to perform a safety assessment in accordance with the Machinery Directive.Functional safety is guaranteed for the product as a single component. However, this does not guarantee the functional safety of the overall plant/machine. In order to achieve the re-quired safety level for the overall plant/machine, define the safety requirements for the plant/machine and then define how these must be implemented from a technical and organ-isational standpoint.Use of qualified personnelThe products may only be assembled, installed, programmed, commissioned, operated, maintained and decommissioned by competent persons.A competent person is a qualified and knowledgeable person who, because of their train-ing, experience and current professional activity, has the specialist knowledge required. To be able to inspect, assess and operate devices, systems and machines, the person has to be informed of the state of the art and the applicable national, European and international laws, directives and standards.It is the company’s responsibility only to employ personnel who}Are familiar with the basic regulations concerning health and safety / accident preven-tion,}Have read and understood the information provided in this description under "Safety"}Have a good knowledge of the generic and specialist standards applicable to the spe-cific application.Warranty and liabilityAll claims to warranty and liability will be rendered invalid if}The product was used contrary to the purpose for which it is intended}Damage can be attributed to not having followed the guidelines in the manual}Operating personnel are not suitably qualified}Any type of modification has been made (e.g. exchanging components on the PCB boards, soldering work etc.).Disposalin the safety-re-}In safety-related applications, please comply with the mission time TM lated characteristic data.}When decommissioning, please comply with local regulations regarding the disposal of electronic devices (e.g. Electrical and Electronic Equipment Act).For your safety}Do not remove the connector's protective cap until you are just about to connect the unit. This will prevent potential contamination.Unit features}Transponder technology for presence detection}Pilz coding type: Coded}Dual-channel operation} 2 safety outputs}LED display for:–State of the actuator–Supply voltage/fault} 4 directions of actuationFunction descriptionThe safety outputs may have a high or low signal, depending on the position of the actu-ator.In a safe condition there is a low signal at the safety outputs.State of the outputs:Block diagramOperating distancesLegend:Assured operating distance:15 mm }SaoTypical operating distance:21 mm }SoTypical release distance: 32 mm}SrAssured release distance: 40 mm }SarLateral and vertical offsetLegend[1]Hysteresis[2]Typical operating distance SO[3]Typical release distance Sr[4]Offset in mm[5]Operating distance in mm[6]Response rangeWiringPlease note:}Information given in the "Technical details" must be followed.}The power supply must meet the regulations for extra low voltages with protective sep-aration (SELV, PELV).}The inputs and outputs of the safety switch must have a protective separation to voltages over 60 VDC.}The supply voltage to the safety switch must be protected with a 2 A to 4 A quick-acting fuse.}Ensure the wiring and EMC requirements of IEC 60204-1 are met.Pin assignment, connector and cableThe wire colour also applies for the cable available from Pilz as an accessory.Connection to evaluation devicesMake sure that the selected evaluation device has the following property:}OSSD signals are evaluated through 2 channels with feasibility monitoringPlease note:}Information given in the Technical details [ 16] must be followed.Connection diagram, single connectionSuitable Pilz evaluation devices are, for example:}PNOZelog for safety gate monitoring}PNOZpower for safety gate monitoring}PNOZsigma for safety gate monitoring}PNOZ X for safety gate monitoring}PNOZmulti for safety gate monitoringConfigure the switch in the PNOZmulti Configurator with switch type 3.}PSS for safety gate monitoring with standard function block SB064, SB066 or FS_Safety Gate}PSSuniversal PLC for safety gate monitoring with function block FS_SafetyGateThe correct connection to the respective evaluation device is described in the operating manual for the evaluation device. Make sure that the connection is made in accordance with the specifications in the operating manual for the selected evaluation device.The connections to two evaluation devices are shown on the following pages, by way of ex-ample:}PNOZ s3 and}PNOZmultiPNOZ s3PNOZmultiI0I1Legend:I0Input OSSDI1Input OSSDTeaching in the actuatorAny Pilz actuator PSEN cs1.1) is detected as soon as it is brought into the response range. Installation}The safety switch and actuator should be installed opposite each other in parallel.–Make sure that the actuator is aligned to the marking on the sensor that guarantees the operating distance required by the plant design (see Operatingdistances [ 8]).}Safety switches and actuators should be permanently secured using M5 safety screws with a flat head (e.g. M5 cheese-head or pan head screws).}Protect the actuator from contamination.}Torque setting: Please note the information provided under Technical details [ 16]. }The distance between two safety switches must be maintained (see Technical details [ 16]).}Make sure that the safety switch and actuator cannot be used as an end stop.}Please note the installation measures in accordance with EN ISO 14119 for a safety switch design 4 and with level of coding Low}For simpler installation, the mounting brackets (see Order reference for Accessories [ 20]) can be used.}If using angled connector plugs, note the defined angle of the cable routing.Procedure:Fig.: Sensing faces on the sensor1.Drill holes (for M5 screws) in the mounting surface to secure the actuator and sensor(see Dimensions in mm [ 16]).e a screw to fix the sensor to the mounting surface.Make sure that the sensor marking that is be used for operation can be operated using the actuator from the right side.3.Do not fully tighten the second screw on the safety switch.e a screw to fix the actuator to the mounting surface.Make sure that the actuator with the printed side points towards the marking on the sensor.5.Do not fully tighten the second screw on the actuator.6.Align the safety switch and tighten the screws.7.Align the actuator and tighten the screws.Adjustment}The stated operating distances (see Technical details [ 16]) only apply when the safety switch and actuator are installed facing each other in parallel. Operating dis-tances may deviate if other arrangements are used.}Note the maximum permitted lateral and vertical offset (see Operating distances [ 8] and Lateral and vertical offset [ 9]).OperationNOTICEThe safety function should be checked after initial commissioning and eachtime the plant/machine is changed. The safety functions may only bechecked by qualified personnel.Check the function of the safety switch before commissioning.Status indicators:}"POWER/Fault" LED lights up green: The unit is ready for operation}"Safety Gate" LED lights up yellow: Actuator is within the response range }"Input" LED lights up yellow: Device is error-freeFault indicator:}"POWER/Fault" LED lights up red: Error message.Flashing codes for fault diagnostics are output to the "Safety Gate" and "Input" LEDs (see Error display through flashing codes).Remedy: Rectify fault and interrupt power supply.Error display through flashing codesThe "Safety Gate" and "Input" LEDs send flash signals; an error code can be established from the number and sequence. The "Power/Fault" LED illuminates red.Each error code is indicated by three short flashes of the "Input" or "Safety Gate" LED. After a longer pause, the LED will then flash at one second intervals. The number of LED flashes corresponds to a digit in the error code. The error code can consist of up to 3 digits. The digits are separated by a longer period without flashing. The entire sequence is con-stantly repeated.Number of flashes 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16Decimal error code 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 0Example:Error code 1,4,1:Flash frequency of the "Safety Gate" or "Input" LEDII VI IVIIIMeaning of flash frequency:Table of error codesOther flashing codes signal an internal error. Remedy: Change device.Dimensions in mmTechnical detailsSensor's mode of operation Transponder Coding level in accordance with EN ISO 14119LowDesign in accordance with EN ISO 141194 Classification in accordance with EN 60947-5-3PDDBVoltage24 VKind DCVoltage tolerance-20 %/+20 % Output of external power supply (DC) 2 WMax. inrush current at UB0,12 A Max. switching frequency 3 HzNo-load, PNOZ with relay contacts40 nFPNOZmulti, PNOZelog, PSS70 nFSwitching current per output500 mABreaking capacity per output12 WPotential isolation from system voltage NoShort circuit-proof yesResidual current at outputs10 µAVoltage drop at OSSDs3,5 VLowest operating current0 mASwitch-on delayafter UB is applied 1 sActuator typ.80 msActuator max.150 msDelay-on de-energisationActuator typ.40 msActuator max.260 msRisk time in accordance with EN 60947-5-3260 msSupply interruption before de-energisation20 msIn accordance with the standard EN 60068-2-14 Temperature range-25 - 70 °C Storage temperatureIn accordance with the standard EN 60068-2-1/-2 Climatic suitabilityIn accordance with the standard EN 60068-2-78 Humidity93 % r. h. at 40 °C EMC EN 60947-5-3 VibrationIn accordance with the standard EN 60947-5-2Frequency10 - 55 HzAmplitude 1 mmShock stressIn accordance with the standard EN 60947-5-2Acceleration30gDuration11 msOvervoltage category IIIPollution degree3Rated insulation voltage75 VRated impulse withstand voltage0,8 kVProtection typeOperating distancesAssured operating distance Sao15 mmTypical operating distance So21 mmAssured release distance Sar40 mmTypical release distance Sr32 mmRepetition accuracy switching distances10 %Change of operating distance with temperaturechanges+-0,01mm/°CTyp. Hysteresis 3 mmMin. distance between safety switches400 mmSensor flush installation in accordance with EN60947-5-2Yes, follow installation guidelines Connection type M12, 5-pin male connector MaterialTop PBTMax. torque setting for fixing screws 1 NmDimensionsHeight75 mmWidth40 mmDepth40 mmActuator dimensionsHeight11 mmWidth40 mmDepth40 mmWeight of safety switch130 gWeight of actuator20 gWeight150 gWhere standards are undated, the 2016-10 latest editions shall apply.Safety characteristic dataNOTICEYou must comply with the safety-related characteristic data in order to achieve the required safety level for your plant/machine.2-ch. OSSD PL e Cat. 4SIL CL 34,10E-09–1,10E-0420All the units used within a safety function must be considered when calculating the safety characteristic data.Supplementary dataRadio approvalFCC ID: IC:FCC/IC-Requirements:This product complies with Part 15 of the FCC Rules and with Industry Canada licence-exempt RSS standards. Operation is subject to the following two conditions: 1) this product may not cause harmful interference, and2) this product must accept any interference received, including interference that may cause undesired operation.Changes or modifications made to this product not expressly approved by Pilz may void the FCC authorization to operate this equipment.Order referenceSystemAccessoriesInstallation materialsPSEN screw M5x10 10pcs Safety screws made from stainless steel with one-way slot 540 311PSEN screw M5x20 10pcs Safety screws made from stainless steel with one-way slot 540 312PSEN cs1/2 bracket cable fixMechanical protection against defeat, protecting against unau-thorised cable disconnection or damage for safety switches PSENcode cs1/2, PSENcode cs5/6 M12, PSENslock532 112CableOperating Manual PSEN cs1.1n 22178-EN-0521PDP67 F 8DI ION Decentralised input module IP67 for PNOZmulti773 600EC declaration of conformityThis product/these products meet the requirements of the directive 2006/42/EC for ma-chinery of the European Parliament and of the Council. The complete EC Declaration ofConformity is available on the Internet at /downloads.Representative: Norbert Fröhlich, Pilz GmbH & Co. KG, Felix-Wankel-Str. 2, 73760 Ost-fildern, GermanyThe Best of German EngineeringPartner of:SupportTechnical support is available from Pilz round the clock. Americas Brazil+55 11 97569-2804Canada+1 888-315-PILZ (315-7459)Mexico+52 55 5572 1300USA (toll-free)+1 877-PILZUSA (745-9872)Asia China+86 21 60880878-216 Japan+81 45 471-2281South Korea +82 31 450 0680Australia +61 3 95600621Europe Austria+43 1 7986263-0Belgium, Luxembourg +32 9 3217575France+33 3 88104000Germany+49 711 3409-444Ireland+353 21 4804983Italy, Malta +39 0362 1826711Scandinavia +45 74436332Spain+34 938497433Switzerland +41 62 88979-30The Netherlands +31 347 320477Turkey+90 216 5775552United Kingdom +44 1536 462203You can reach our international hotline on: +49 711 3409-444 ****************C M S E ®, I n d u r a N E T p ®, P A S 4000®, P A S c a l ®, P A S c o n fig ®, P i l z ®, P I T ®, P L ID ®, P M C p r i m o ®, P M C p r o t e g o ®, P M C t e n d o ®, P M D ®, P M I ®, P N O Z ®, P r i m o ®, P SE N ®, P S S ®, P V I S ®, S a f e t y B U S p ®, S a f e t y E Y E ®, S a f e t y N E T p ®, T H E S P I R I T OF S A F E T Y ® a r e r e g i s t e r e d a n d p r o t e c t e d t r a d e m a r k s o f P i l zG m bH & C o . K G i n s o m e c o u n t r i e s . W e w o u l d p o i n t o u t t h a t p r o d u c t f e a t u r e s m a y v a r y f r o m t h e d e t a i l s s t a t e d i n t h i s d o c u m e n t , d e p e n d i n g o n t h e s t a t u s a t t h e t i m e o f p u b l i c a t i o n a n d t h e s c o p e o f t h e e q u i p m e n t . W e a c c e p t n o r e s p o n s i b i l i t y f o r t h e v a l i d i t y , a c c u r a c y a n d e n t i r e t y o f t h e t e x t a n d g r a p h i c s p r e s e n t e d i n t h i s i n f o r m a t i o n . P l e a s e c o n t a c t o u r T e c h n i c a l S u p p o r t i f y o u h a v e a n y q u e s t i o n s .Pilz develops environmentally-friendly products using ecological materials and energy-saving technologies. O ces and production facilities are ecologically designed, environmentally-aware and energy-saving. So Pilz o ers sustainability, plus the security of using energy-e cient products and environmentally-friendly solutions.Pilz GmbH & Co. KG Felix-Wankel-Straße 2 73760 Ostfildern, Germany Tel.: +49 711 3409-0 Fax: +49 711 3409-133 *************200X X X X -E N -0X 0-0-2-3-000, 2017-00 P r i n t e d i n G e r m a n y © P i l z G m b H & C o . K G , 201722178-E N -05, 2016-11 P r i n t e d i n G e r m a n y © P i l z G m b H & C o . K G , 2015。

目录THSRZ-2型传感器系统综合实验装置仿真软件 (2)实验一属箔式应变片――单臂电桥性能实验。

(3)实验二金属箔式应变片――半桥性能实验 (5)实验三金属箔式应变片――全桥性能实验 (6)实验四直流全桥的应用――电子秤实验 (7)实验五交流全桥的应用――振动测量实验 (8)实验六扩散硅压阻压力传感器差压测量实验 (10)实验七差动变压器的性能实验 (11)实验八动变压器零点残余电压补偿实验 (12)实验九励频率对差动变压器特性的影响实验 (14)实验十差动变压器的应用――振动测量实验 (15)实验十一电容式传感器的位移特性实验 (17)实验十二容传感器动态特性实验 (18)实验十三直流激励时霍尔式传感器的位移特性实验 (19)实验十四流激励时霍尔式传感器的位移特性实验 (20)实验十五霍尔测速实验 (21)实验十六霍尔式传感器振动测量实验 (22)实验十七磁电式转速传感器的测速实验 (24)实验十八压电式传感器振动实验 (26)实验十九电涡流传感器的位移特性实验 (27)实验二十被测体材质、面积大小对电涡流传感器的特性影响实验 (28)实验二十一电涡流传感器测量振动实验 (31)实验二十二光纤传感器的位移特性实验 (32)实验二十三光纤传感器的测速实验 (33)实验二十四光纤传感器测量振动实验 (34)实验二十五光电转速传感器的转速测量实验 (36)实验二十六PT100温度控制实验 (37)实验二十七集成温度传感器的温度特性实验 (38)实验二十八铂电阻温度特性实验 (39)实验二十九热电偶测温实验 (40)实验三十E型热电偶测温实验 (41)实验三十一热电偶冷端温度补偿实验 (42)实验三十二气敏传感器实验 (43)实验三十三湿敏传感器实验 (44)实验三十四转速控制实验 (46)THSRZ-2型传感器系统综合实验装置仿真软件一、概述本仿真软件主要是针对THSRZ-2型传感器系统综合实验装置配套的上位机软件而开发的，与“物理”、“传感器技术”、“工业自动化控制”、“非电测量技术与应用”、“工程检测技术与应用”等课程的教学实验配套使用，提供了真正实验前的模拟实验。