GTDC01说明书

DCT1Energy transducer for DCsystemsDescriptionDCT1is a direct connection energy transducer for DC systems up to 1000V dc and current up to 600A dc,equipped with Modbus RTU or SML communication port.Dedicated versions of the DCT1,provided with evaluation certificate,implementing 256-bit or 384-bit signature on Modbus RTU or 384-bit signature on SML,are suitable for installation on electric vehicle chargers that requires Eichrecht certification.Benefits•Easy and robust mounting.DIN rail mounting permits easy positioning before fixing DCT1on the back panel using standard screws.•Tamper proof.The protection cover can be sealed to avoid access to both current/voltage connections and to communication terminals.•Secure and signed data transmission.Transmitted data can't be corrupted thanks to the embedded signature algorithm that ensures data source authenticity.The public key can be read easily via Modbus RTU or by the QR code printed on the front.•Quick configuration.Easy configuration via Modbus RTU using the UCS configuration software,available for download free of charge.•Accurate measuring.DCT1complies with the precision International standard IEC 62053-41guaranteeing the highest accuracy from 1%to 100%of the measuring range.•Temperature calibrated.Able to work in an extremely wide temperature range thanks to the temperature drift compensation exploiting a calibration method based on two temperature sensors.•Clear and effective diagnostics.Correct operation is immediately visible through the warning and status LEDs,and real-time diagnostics via Modbus.They control over range and overtemperature.ApplicationsDCT1can be installed in any DC switchboard with a rated current up to 600A to monitor energy consumption or production and the main electrical variables.The main application is within a DC fast charger for electric vehicles,thanks to the 70°C maximum ambient temperature and allowed maximum current and voltage.With the evaluation certificate according to IEC 62052-11,IEC 62052-31,IEC 62053-41,VDE-AR-E 2418-3-100Annex A,WELMEC 7.2and the signed data transmission able to guarantee data source authenticity,application for Eichrecht certification,required for EV charger by the German law,is easily possible.Cable loss compensation is able to calculate the losses due to the cable resistance from DCT1to the connection point to measure only the energy actually provided to the car.ArchitectureMain functions•Measure energy and ampere-hour•Measure power,voltage and current•Measure the load run hours and the total on-time•Transmit data to controller or other systems through Modbus RTU or SML•Signed data transmission(certified versions)•Monitor internal temperature to help controller avoiding over-heating of the DCT1and the power cables•Cable loss compensationMain features•Variables(V,A,W)•Energy resolution0.0001kWh•Data refresh time:200ms(Modbus RTU),automatic data push every200ms in SML version •Continuous sampling of voltage and current•Evaluation certificate for Eichrecht approval•Class1accuracy according to IEC62053-41proven by the evaluation certificate•cULus approvedUCS software•Free download from Carlo Gavazzi website•Configuration through RS485from PC or trough UWP3.0via LAN or the web(UWP Secure Bridge function)•Setups can be saved offline for serial programming with a single command•Real time data view for testing and diagnosticsInstallation flexibilityDCT1is designed to achieve maximum installation flexibility.Here you can see3examples:Fig.1Bar-bar mountingFig.2Horizontal screw-bar mountingFig.3Vertical screw-bar mountingStructureFig.4FrontFig.5BackFeaturesGeneral(*)Note:the product can only be installed inside a cabinet with IP54degree of protection for outdoor installation and IP51for indoor installation.Fig.6Environmental specificationsNote:R.H.<90%non-condensing@40°C/104°F.insulationInput and outputCompatibility and conformity(*)Except for durability testEvaluation certificateThe evaluation certificate is provided by an independent notify body,which performs tests and verifications to fulfill the following standards:(*)Except for durability testElectrical specificationsPower supplyMeasurementsAvailable measurementsEnergy meteringEnergy metering depends on the measurement type you chose(selectable in non-certified models,according to the model in certified models).Easy connectionEasy connection function:irrespective of the current direction,the power always has a plus sign that increases the positive energy meter.The negative energy meter is not available.BidirectionalBidirectional:voltage,current,and power are measured using the proper sign.The positive or the negative energy increases according to the power sign.Measurement accuracy(*)Except for durability testMeasurement resolutionLEDCommunication ports Modbus RTU(S1,S2,S3versions)SML(K1version)20 Nm/177 lb-inFig.7Current(option A)and voltage inputs inputs Communication and power supply0.5...2.5 mm²/13...20 AWG0.5 Nm /4.4 lb-in maxFig.9RS485Modbus or SML port Fig.10RS485stdevice on RS485Fig.11Power supplyReferencesOrder codeV10Enter the code option instead of(*)Except for durability testCOPYRIGHT©2023Content subject to change.Download the PDF:。

GTC160/200/250系列数控立式车床使用说明书(电气部分)系统型号：FANUC沈阳机床（集团）有限责任公司沈一希斯数控机床事业部GTC160/200/250系列数控立式车床中文使用说明书签署单系统型号：FANUC编制:检查:标审:审核:批准:版本: Ver.2.0/2008.1电子文档:欢迎使用GTC系列产品。

本说明书适用于GTC16090、GTC20090、GTC250110系列数控立式车床。

数控系统FANUC 0i、18i均通用此说明书。

为了使机床安全地发挥其性能，防止人身伤害及设备损坏，使用本机床用户必须遵守下面的几点要求：1.操作者必须是受过机床加工培训的合格人员。

2.只有受过机床电气专业培训的专业人员才能对机床电气设备进行维护。

3.操作者在使用本机床加工之前，必须仔细阅读本说明书，并完全地理解其全部内容。

4.不许用湿手或带湿手套操作机床的开关及按钮。

5.不得粗心地改变机床设定数据，固定的专用子程序及宏程序；更不能随意更改机床参数。

错误的设定会导致机床不正常的加工，甚至损害机床。

6.PMC参数在出厂之前都已经设定好，通常不需要修改。

当必须要修改时，请确保改动参数之前对改动参数功能有深入全面了解。

错误设定PMC参数会导致机床误动作，从而引起工件或机床损坏，甚至会伤及用户。

7.加工过程中一旦出现停电，应立即将总电源开关关断（置于OFF位置）8.每年应定期更换一次CNC后备碱性干电池，更换时必须在CNC通电的情况下进行，否则会造成机床数据及加工程序丢失。

9.硬限位开关是机床上十分重要的安全装置，用户应当定期检查其有效性，防止出现意外。

10.机床通电后，CNC显示器未出现位置画面和报警信息画面之前，请不要碰MDI键盘上的任何按键。

MDI键盘有些按键专门用于维修和特殊操作，按下其中某些按键，会导致CNC内部数据丢失，使CNC处于非正常状态。

11.本说明书中对机床功能，包括选择功能进行了完整的叙述。

1DC1010/1020/1030/1040 产品手册1DC1000系列通用控制器中文操作手册2DC1010/1020/1030/1040 PRODUCT MANUAL3DC1010/1020/1030/1040 产品手册34DC1010/1020/1030/1040 PRODUCT MANUAL5DC1010/1020/1030/1040 产品手册 5LCK=0001, 只进入LEVEL1并允许改变SP 值 LCK=0101, 除改变LCK 功能外，其它任何参数不能改变7DC1010/1020/1030/1040 产品手册79DC1010/1020/1030/1040 产品手册9假设SET8.3=1，SP值西安市将被改成PV值显示。

达到期望SP值的时间将被减少。

达到SP值的剩余时间显示在参数‘TMER’中。

在此，倒计数的时间是与PV值相关，而不是程序段。

11DC1010/1020/1030/1040 产品手册1112DC1010/1020/1030/1040 PRODUCT MANUAL13DC1010/1020/1030/1040 产品手册133) 结束功能如果ALD 设定为 17 (* 参看选择表), 此程序将在程序8或程序段16结束。

* 这样，在显示窗口中的 PV 和 END 将闪烁，报警继电器动作。

如果程序少于八个程序段，控制器就没有END 命令。

这样，请将下一程序段的 OUT 设定为0（out=0），程序就将在下一设定程序段结束。

否则控制器将运行8个或16个程序段。

4) 连接功能PTN=1, 进行模式1, 它包含8个程序段 PTN=2, 进行模式2, 它包含8个程序段PTN=0, 连接进行模式1和模式2 ,共有碍6个程序段 (首先设定PTN1和PTN2, 然后设定 PTN=0)5) 其它功能 (*参看 level 4)SET8.1=1 程序重运行 SET8.2=0 无停电处理功能 SET8.2=1 有停电处理功能(如果电源中断, 控制器仍将保持内存记忆功能。

Industrial DC/DC-ConverterTCL-DC Series, 24 to 60 WattFeatures◆ Ultra-wide input voltage range ◆ Output voltage adjustable◆ Overload and short circuit protection ◆ Low ripple and noise ◆ I/O isolation 1500 VDC ◆ Compact, slim plastic case◆ Reliable snap-on mount on DIN-rail ◆ Bracket for wall mount included ◆ 3-year product warrantyIn the TCL range of DIN-rail power supplies are 6 models for DC input voltage avail-able. The wide input ranges of 9.5–18 VDC resp. 18–75 VDC means these models can be operated from all popular DC supply voltage systems.With tightly regulated output voltage these DC/DC converters provide a reliable power source for sensitive loads in industrial process controls, factory automation and other equipment exposed to a critical industrial environment. Further applica-tions for these converters are isolation of a specific load or refreshing the 24 V bus voltage. Easy installation is provided with snap-on mounting on DIN-rails and detachable screw terminal block.UL 508C BSchemeInput power at no load 1.0 Watt max.Start-up voltage/under voltage shut down TCL 012 model:8.4 VDC / 7.6 VDCTCL 024 & TCL 060 models:17.2 VDC / 15.7 VDCReverse polarity protection by internal fuseEfficiency 86 % typ.Output voltage adj. range 5 VDC model: 5.0 – 5.25 VDC12 VDC models: 12.0 – 15.0 VDC24 VDC models: 24.0 – 28.0 VDCRegulation – Input variation Vin min. to Vin max.0.5 % max– Load variation 0...100%0.5 % maxRipple and noise (20 MHz bandwidth)<50 mV pk-pkElectronic short circuit protection current limitation at 110 % typ.(constant current, automatic recovery) Overvoltage protection, trigger point 5 VDC model: <6.5 V12 VDC models:<24 V24 VDC models: <42 VTemperature ranges – Operating–25°C to +70°C max.– Storage (non operating)–25°C to +85°CTemperature derating TCL 012 & TCL 024 models: 1.5 %/K above +50°CTCL 060 models: 2.0 %/K above +40°CHumidity (non condensing)95 % rel. H max.Temperature coefficient 0.02 %/KSwitching frequency 55 – 180 kHz depending on load(frequency modulation)Isolation voltage (60 sec.)– Input/Output 1500 VDCReliability, calculated MTBF at +25°C (according to IEC 61709)>2.5 Mio hSafety standards – Information technology equipment IEC 60950-1, EN 60950-1 (output SELV),UL Std. 60950-1 (2nd Edition) +Am1:2011,CAN/CSA-C22.2 No. 60950-1-07 +Am1:2011 – Industrial control equipment UL 508– Electronic equipment for power installation EN 50178– Electrical equipment for machines EN 60204Safety approvals – UL approval -> certificationsUL 508C listed, CSA C22.2 No.14 File e210002 Electromagnetic compatibility (EMC), emissions EN 61000-6-3– Conducted RI suppression on input EN 55022 class B– Radiated RI suppression EN 55022 class BElectromagnetic compatibility (EMC), immunity EN 61000-6-2– Electrostatic discharge (ESD)EN 61000-4-2 4 kV / 8 kV– Radiated RF field immunity EN 61000-4-3 10 V/m– Electrical fast transient / burst immunity EN 61000-4-4 Level 3– Surge immunity EN 61000-4-5 Level 3– Immunity to conducted RF disturbances EN 61000-4-6 10 VrmsEnvironmental compliance – Reach /info/reach-declaration.pdf – RoHS RoHS directive 2011/65/EUCase protection IP 20 (IEC 60529)Enclosure material plastic UL 94V-0 ratedMounting DIN-rails as per EN 50022-35x15/7.5(snap-on with self-locking spring)bracket for wall/chassis mount included Installation instructions /overview/tcl-dcAll specifications valid at nominal input voltage, full load and +25 °C after warm-up time unless otherwise stated.Rev. April 9, 2019Page 3 of 3adjustDimensions in [mm], () = InchTolerances: ±0.5 (±0.02)Case DimensionsWall Mounting BracketInstead on a DIN-rail, the modules can be also mounted on a chassis or wall with help of a mounting bracket which is supplied as standardwith each ConverterDC-ON LEDadjustTCL 012 and TCL 024 modelsTCL 060 model。

固高科技（深圳）有限公司 地 址：深圳市高新技术产业园南区深港产学研基地西座二层W211室 电 话：0755-******** 26970819 26970824 传 真：0755-******** 电子邮件：support@ 网 址： 固高科技（香港）有限公司地 址：香港九龙清水湾香港科技大学新翼楼3639室电 话：(852) 2358-1033传 真：(852) 2358-4931电子邮件：info@网 址：/GT 系列运动控制器用户手册务必将此手册交给用户z 非常感谢您选购GT 系列运动控制器z 在您使用之前，请仔细阅读此手册，确保正确使用。

z 请将此手册妥善保存，以备随时查阅。

版权声明目录第一章概述------------------------------------------------------------------------------------------------------------------1-11.1简介..........................................................................................................................................................1-11.2 GT系列运动控制器型号及含义...........................................................................................................1-11.3 GT系列控制器功能列表.......................................................................................................................1-21.4 电机控制系统的基本组成.....................................................................................................................1-3第二章快速使用 ------------------------------------------------------------------------------------------------------------2-12.1 开箱检查...............................................................................................................................................2-12.2 GT系列运动控制卡的外形结构........................................................................................................2-12.3 安装步骤.................................................................................................................................................2-22.3.1 步骤1：在运动控制卡上设置跳线（仅对ISA卡）.............................................................2-22.3.2 步骤2：将运动控制卡插入计算机.........................................................................................2-52.3.3 步骤3：安装控制器通讯驱动（Windows操作系统）.........................................................2-52.3.4 步骤4：建立主机与运动控制器的通讯（Windows操作系统）.........................................2-62.3.5 步骤5：连接电机和驱动器.....................................................................................................2-62.3.6 步骤6：连接控制卡和端子板.................................................................................................2-72.3.7 步骤7：连接驱动器、系统输入/输出和端子板....................................................................2-7第三章系统调试------------------------------------------------------------------------------------------------------------3-13.1 系统初始化.............................................................................................................................................3-13.2 设置控制输出，驱动使能（轴开启）.................................................................................................3-33.3 PID参数调节.......................................................................................................................................3-43.4 以梯形曲线运动模式实现单轴运动.....................................................................................................3-4附录A 技术参数-----------------------------------------------------------------------------------------------------------A-1附录B 位置、速度、加速度设置---------------------------------------------------------------------------------------B-1B.1 位置设置...............................................................................................................................................B-1B.2 速度设置...............................................................................................................................................B-1B.3 加速度设置...........................................................................................................................................B-2附录C 典型接线-----------------------------------------------------------------------------------------------------------C-1C.1 控制器与Panasonic驱动器速度控制方式接线.................................................................................C-1C.2 控制器与Panasonic驱动器位置控制方式接线.................................................................................C-2C.3 控制器与SANYO DENKI PV1系列驱动器速度控制方式接线......................................................C-3C.4 控制器与SANYO DENKI PV1系列驱动器位置控制方式接线......................................................C-4C.5 控制器与SANYO DENKI PY0/PY2系列驱动器速度控制方式接线........................................................C-5C.6 控制器与SANYO DENKI PY0/PY2系列驱动器位置控制方式接线........................................................C-6C.7 控制器与SANYO DENKI PU系列驱动器速度控制方式接线.................................................................C-7C.8 控制器与Y ASKA W A SER VOP ACK系列驱动器速度/力矩控制方式接线...............................................................C-8C.9 控制器与Y ASKA W A SER VOP ACK系列驱动器位置控制方式接线........................................................C-9C.10 控制器与YASKAWA SGDE系列驱动器位置控制方式接线.......................................................C-10C.11 控制器与YASKAWA SGDM系列驱动器速度控制方式接线.......................................................C-11C.12 控制器与YASKAWA SGDM系列驱动器位置控制方式接线......................................................C-12C.13 控制器与三菱MEL SERVO-J2-SUPER系列驱动器速度控制方式接线.....................................C-13C.14 控制器与三菱MEL SERVO-J2-SUPER系列驱动器位置控制方式接线.....................................C-14C.15 控制器与FALDIC-W系列驱动器速度控制方式接线..................................................................C-15C.16 控制器与FALDIC-W系列驱动器位置控制方式接线..................................................................C-16 附录D 故障处理-----------------------------------------------------------------------------------------------------------D-1附录E GT Commander使用说明----------------------------------------------------------------------------------------E-1E.1 GTCommander窗口介绍及基本操作..................................................................................................E-1E.1.1 菜单和工具栏............................................................................................................................E-9E.1.2 系统状态显示............................................................................................................................E-9E.1.3 基于轴的控制............................................................................................................................E-9E.1.4 基于坐标系的控制....................................................................................................................E-9E.1.5 输入输出控制..........................................................................................................................E-10E.1.6 GT命令编辑和运行.................................................................................................................E-10E.1.7 基本参数设置窗口..................................................................................................................E-10E.1.8 选项设置窗口..........................................................................................................................E-10E.1.9 状态栏......................................................................................................................................E-10E.1.10 XY(Z)平台控制窗口..............................................................................................................E-10E.1.11 XY(Z)平台基本参数设置窗口................................................................................................E-11E.2 操作示例..............................................................................................................................................E-11E.3 异常情况解决.....................................................................................................................................E-13E.4 初始化文件GTCmd.ini和XY(Z)Table.ini.......................................................................................E-13E.5 GT Commander文件列表...................................................................................................................E-141.4 电机控制系统的基本组成1．运动控制器及其端子板；2a. 对于ISA总线卡，具有ISA插槽的IBM-PC或其兼容机；——或——2b. 对于PCI总线卡，具有PCI插槽的IBM-PC或其兼容机；3.具有增量式编码器的伺服电机或步进电机；4.驱动器；5.驱动器电源；6.+12V～+24V直流电源（用于接口板电源）；7.原点开关、正/负限位开关（根据系统需要可选）。

Representative photograph, actual product appearance may vary.Due to regional agency approval requirements, some products may not be available in your area. Please contact your regional Honeywell office regarding your product of choice. 1GT101DCGT Series Hall-Effect Gear-Tooth SensorFeaturesq Senses ferrous metal targetsq Digital current sinking output (open collector)q Better signal-to-noise ratio than variable reluctance sensors,excellent low speed performance, output amplitude notdependent on RPMq Sensor electronically self-adjusts to slight variations in runout and variations in temperature, simplifying installation andmaintenanceq Fast operating speed - over 100 kHzq EMI resistantq Reverse polarity protection and transient protection(integrated into Hall I.C.)q Wide continuous operating temperature rangeTypical ApplicationsAutomotive and Heavy Duty Vehicles:q Camshaft and crankshaft speed/positionq Transmission speedq Tachometersq Anti-skid/traction controlIndustrial:q Sprocket speedq Chain link conveyor speed and distanceq Stop motion detectorq High speed low cost proximityq Tachometers, CountersDescription1GT1 Series Tooth Sensors use a magnetically biased Hall effectintegrated circuit to accurately sense movement of ferrous metaltargets. This specially designed I.C., with discrete capacitor and biasmagnet, is sealed in a probe type package for physical protectionand cost effective installation.Output is digital, current sinking (open Collector). Reverse polarityprotection is standard. If power is inadvertently wired backwards,the sensor will not be damaged.Optimum sensor performance is dependent on the followingvariables which must be considered in combination:q Target material, geometry, and speedq Sensor/target gapq Ambient temperatureq Magnetic material in close proximity1GT101DCGT Series Hall-Effect Gear-Tooth SensorProduct SpecificationsProduct Type Hall-Effect Gear Tooth SensorPackage Style Plastic ProbeSupply Voltage 4.5 Vdc to 24.0 VdcOutput Type SinkTermination Type Lead WireOperating Temperature Range-40 °C to 150 °C [-40 °F to 302 °F]Output Voltage0.4 Vdc max.Vane and Geartooth Target MaterialCold Rolled Steel, 1018 or Low in Carbon (Annealed)GT Target RPM10 RPM min., 3600 RPM max. Switching Time Rise (10 % to 90%)15 µs max.Switching Time Fall (90 % to 10 %) 1.0 µs max.Operate Point 3.3 ° ± 1.25 ° [3,28 ° ± 1,13 mm]Release Point 4.4 ° ± 2.50 ° [4,16 ° ± 2.21 mm] Availability GlobalCommentValues measured using 1 kOhm pull-up resistor, millitesla (gauss x 10-1), and geartooth target dimensions.Supply Current (max. @ 25 °C)20 mAOutput Current (max.)40 mAGT Target Min Tooth Height 5.06 mm [0.200 in]GT Target Min Tooth Width2,54 mm [0.100 in]GT Target Min. Tooth Spacing10,16 mm [0.400 in]GT Target Thickness6,35 mm [0.250 in]GT Target Diameter101,6 mm [4 in]GT Airgap1,02 mm to 2,03 mm [0.040 in to 0.080 in] Leakage Current max.10 µADifferential8.4 ° ± 3.70 ° [7,45 ° ± 3,34 mm]Series Name GT Series1GT101DCGT Series Hall-Effect Gear-Tooth Sensor1GT101DCGT Series Hall-Effect Gear-Tooth SensorPERSONAL INJURYDO NOT USE these products as safety or emergency stop devices, or in any other application where failure of the product could result in personal injury.Failure to comply with these instructions could result in death or serious injury.MISUSE OF DOCUMENTATIONq The information presented in this product sheet (or catalog) is for reference only.DO NOT USE this document as product installation information.q Complete installation, operation and maintenance information is provided in theinstructions supplied with each product.Failure to comply with these instructions could result in death or serious injury.© Copyright Honeywell Inc.1998-2004 All rights reserved.。

1GT101DC1GT101DCSensing and Productivity SolutionsSpeed Sensors1GT Series Gear Tooth SensorsDESCRIPTIONThe 1GT Series Gear Tooth Sensors use a magnetically biased Hall-effect integrated circuit (IC) to accurately sense movement of ferrous metal targets. This specially designed IC, with discrete capacitor and bias magnet, is sealed in a probe-type package for physical protection and cost-effective installation. Units will function from a 4.5 to 24 Vdc power supply. Output is digital, current sinking (open collector). Reverse polarity protection is standard. If power is inadvertently wiredbackwards, the sensor will not be damaged. Built-in protection against pulsed transients to +60 V, -40 V is also included. Optimum sensor performance is dependent on the following four variables which must be considered in combination:• Target material, geometry, and speed • Sensor/target sensing air gap distance • Ambient temperature• Magnetic material in close proximity VALUE TO CUSTOMERSThe 1GT Series electronically self adjusts to slight variations in runout and temperature, often simplifying installation and maintenance.32315204Issue AFEATURES• Senses ferrous metal targets• Digital current sinking output (open collector)• Better signal-to-noise ratio than variable reluctance sensors (VRS), excellent low speed performance, output amplitude not dependent on RPM• Sensor electronically self-adjusts to slight variations in runout and variations in temperature, simplifying installation and maintenance• Operating frequency range of 50 Hz to 10 kHz • EMI resistant• Reverse polarity protection and transient protection(integrated into Hall-effect IC)• Wide continuous operating temperature range of -40 °C to 150 °C [-40 °F to 302 °F ], short term to 160 °C [320 °F]POTENTIAL APPLICATIONS Transportation• Camshaft and crankshaft speed/position • Transmission speed • Tachometers• Anti-skid/traction control Industrial • Sprocket speed• Chain link conveyor speed and distance • Stop motion detector• High speed, low-cost proximity • Tachometers, countersPORTFOLIOHoneywell’s 1GT Series joins the SNG-Q Series, SNDH-T Series, SNDH-H Series, LCZ Series, and ZH10 Series Speed Sensors.2Sensing and Productivity SolutionsSpeed Sensors1GT Series Gear Tooth Sensors2Guaranteed with maximum external load capacitance of 550 pF.3Based on the target shown in Figure 3; will vary with target geometry.4Operate (degrees) is the angular distance from the leading edge of the tooth to the centerline of the sensor.5Release (degrees) is the angular distance from the trailing edge of the tooth to the centerline of the sensor.NOTICEAbsolute maximum ratings are the extreme limits that the device will withstand without damage to the device. However, theelectrical and mechanical characteristics are not guaranteed as the maximum limits (above recommended operating conditions) areapproached, nor will the device necessarily operate at absolute maximum ratings.3Sensing and Productivity SolutionsSpeed Sensors1GT Series Gear Tooth SensorsFigure 2. Block/Electrical DiagramVoltage regulator 0.22 uF4700 pFTrigger circuit and feedback amplifier circuitOutput (O) open collectorGround (-)Hall-effect sensor ICTarget GuidelinesTable 5 provides basic parameters to follow when an application is not restricted to a specific target. Any target that exceeds these dimensions may be sensed over the entire temperature range of -40 °C to 150 °C [-40 °F to 302 °F] with a sensing air gap up to 2,0 mm [0.080 in].Parameter10 RPM to 3600 RPM.Reference Target and Test Conditions (See Table 6)Parameters will vary due to target size, geometry, location, andmaterial.Table 6. Reference Target Configuration and Evaluation 1, 22Test conditions are:• Sensing air gap = 1,02 mm to 2,03 mm [0.040 in to 0.080 in] • Vsupply = 4.5 Vdc to 24 Vdc.• RPM = 10 RPM min. to 3600 RPM max.Figure 1. Sensor Output Diagram with Sensor Output Diagram (with Pull-up Resistor Added to Output Circuit)Tooth widthSensing air gapSlot widthTooth heightTarget thicknessToothSlotTargetMagnet fieldInductionVsupply 0.4 V max.Speed Sensors1GT Series Gear Tooth SensorsFigure 3. Mounting Dimensions (For reference only. mm/[in].)4Sensing and Productivity SolutionsFind out moreHoneywell serves its customers through a worldwide network of sales offices, representatives and distributors.For application assistance, current specifications, pricing or name of the nearest Authorized Distributor, contact your local sales office.To learn more about Honeywell Sensing and Productivity Solutions’ products, call +1-815-235-6847 or 1-800-537-6945, visit , or e-mail inquiries to *********************Sensing and Productivity Solutions Honeywell1985 Douglas Drive NorthGolden Valley, MN 55422 Warranty/RemedyHoneywell warrants goods of its manufacture as being freeof defective materials and faulty workmanship. Honeywell’sstandard product warranty applies unless agreed tootherwise by Honeywell in writing; please refer to your orderacknowledgement or consult your local sales office for specificwarranty details. If warranted goods are returned to Honeywellduring the period of coverage, Honeywell will repair or replace,at its option, without charge those items it finds defective.The foregoing is buyer’s sole remedy and is in lieu of allother warranties, expressed or implied, including those ofmerchantability and fitness for a particular purpose. In noevent shall Honeywell be liable for consequential, special, orindirect damages.While we provide application assistance personally, through ourliterature and the Honeywell web site, it is up to the customer todetermine the suitability of the product in the application.Specifications may change without notice. The information wesupply is believed to be accurate and reliable as of this printing.However, we assume no responsibility for its use.32315204-A-EN IL50January 2016© 2016 Honeywell International Inc. All rights reserved.ADDITIONAL INFORMATIONThe following associated literature is available on the Honeywell web site at :• Magnetic Sensors Line Guide• Position Sensors Range guide1GT101DC1GT101DC。

特点：●感应类铁磁金属目标物● 数字电流沉输出（集电极开路）● 比电磁感应传感器有更好的信躁比，优异的 低速性能，输出幅度与转速无关。

●高速反应速度-100KHz 以上● 抗电磁干扰● 反向电压和浪涌电压保护● 很宽的连续工作温度范围（-40～+150） 短时可至160℃概述1GT1系列齿轮传感器利用磁钢偏置的霍尔集成电路来准确的传感类铁金属的运动。

特殊设计的IC 带分离的电容和偏置磁钢，被密封在探头形式的外壳内。

传感器可在4.5至24VDC 电流电压条件下工作，输出为电流沉数字输出（集电极开路），标准的反向电压保护，如电源被无意反接，传感器不会被损坏，内置浪涌电压保护在+60V ，-40V 范围内。

传感器的工作状态是否最佳与以下几种因素有关，必须综合考虑。

●目标物的材料，形状，速度。

● 传感器/目标物间隙● 环境温度● 接近时的磁性材料描述齿轮传感器型号1GT101DC典型应用汽车：● 曲轴和凸轮轴速度/位置检测● 传输速度● 转速表● 防抱死系统控制（ABS 系统）工业：● 链轮齿速度检测● 链输送带的速度和距离检测● 运动停止检测● 高速低成本接近开关● 速度计、计数器GT1订货指南安装尺寸（仅供参考）技术规格所有规格都在1K 上拉电阻下得到电气规格绝对最大规格*开关性能**供电电压供电电流输出电压（输出低电平）输出漏电流（输出高电平）开关时间上升（10到90%）下降（90到10%）供电电压（Vs ）输出端外接电压（输出高电平）输出电流温度范围 贮存 工作动作点释放点回 差4.5和24VDC 10mA （典型值）.,20mA （最大值）0.4V （最大值）10µA （最大值）,leakage into sensor 15µsec.（最大值）1.0µusec.（最大值）±30VDC 连续-0.5到+30V 40mA sinking-40到150℃（-40到302˚F ）-40到150℃（-40到302˚F ）3.7±1.25˚（3,28±1,13mm ）4.7±2.50˚（4,16±2,21mm ）8.4±3.70˚（7,45±3,34mm)*对于固态器件，当到达绝对最大规格，传感的性能将会变化，尽管如此，传感器不会被损坏，除非超过绝对最大规格。

GTD系列气动执行器双作用式GTD 型系列 单作用式GTE型系列（弹簧复位）基本设计： 气动双活塞执行器、型号 GTD=双作用式、型号 GTE=单作用式(有弹簧返回)。

制造特点：超宽面齿条(活塞)小齿轮传动技术、活塞及齿轮和壳体接触面有低磨擦材料制成的滑动轴承衬套、导向。

单作用式有保险弹簧座。

采用标准：执行器与阀门连接：四个或八个螺栓孔符合标准 DIN/ISO 5211，轴装配孔符合标准DIN 3337。

可供选择的装配轴孔有多种形状尺寸选择 。

执行器与控制阀连接：GTD/GTE100+350 符合标准 NAMUR 或VDI/VDE 3845，GTD/GTE040+90 通过转接板连接。

执行器与信号盒连接：符合 VDI/VDE 3845。

零件材料： 壳体：铝合金表面阳极化处理。

端盖：铝合金表面喷塑处理。

活塞/齿条：铝合金。

密封O 型圈：丁睛橡胶=NBR70。

轴承垫圈/导环：塑料。

工作环境温度： -20 ～ 90O ℃回转角度： 双作用式=90度，单作用式=90度，标准执行器旋转轴角度从两端可调节 -5 ～ +5 度。

输出扭矩： 3 ～ 10000Nm空气压力： 2 ～ 8bar，最大 10bar。

附件： 电磁阀、电气定位器、限位开关（有机械式、接近式）、气源处理三联件（有减压器、过滤器、油雾器）、手操机构。

双作用压缩空气从气口(B)进入气缸两活塞(C)之间中腔时，使两活塞分离向气缸两端方向移动，两端气腔的空气通过气口(A)排出，同时使两活塞(C)的齿条同步带动输出轴(D)(齿轮)逆时针方向旋转90度。

可以从两端调整微量角度，松动螺母(E)用内六角扳手拧动调节螺栓(F)调整所需角度,锁紧螺母(E)。

反之压缩空气则从气口(A)进入气缸两端气腔时，使两活塞向气缸中间方向移动，中间气腔的空气通过气口(B)排出，同时使两活塞(C)的齿条同步带动输出轴(D)(齿轮)顺时针方向旋转90度。

单作用式（弹簧复位）上海宇行气动阀门厂 w w w .s h y u h a n g .c o m 销售热线：021-56052589单作用式（弹簧复位）压缩空气从气口(B)进入气缸两活塞(C)之间中腔时，使两活塞分离向气缸两端方向移动，迫使两端的弹簧压缩，两端气腔的空气通过气口(A)排出，同时使两活塞(C)的齿条同步带动输出轴(D)(齿轮)逆时针方向旋转90度。

Technical Manual for theStrobe – XB4Please note that every care has been taken to ensure the accuracy of our technical manual. We do not, however, accept responsibility for damage, loss or expense resulting from any error or omission. We reserve the right to make alterations in line with technical advances and industry standards.08/011.INTRODUCTIONThese strobe units have been designed for use in harsh environmental conditions.2.INSTALLATIONGeneralWhen installing and operating explosion-protected electrical equipment, require-ments for selection, installation and operation should be referred to eg. IEC60079-14 worldwide and the ‘National Electrical Code’ in North America.Additional national and/or local requirements may apply.Ensure that all nuts, bolts and fixings are secure.Ensure that only the correct UL listed stopping plugs are used to blank off unused gland entry points and that the NEMA/IP rating of the unit is maintained.The strobe is mounted via 2 x Ø 0.354" (Ø 9mm) fixing holes in the base.The fixing holes have been designed to accept an M8 screw or bolt. MEDCrecommend the use of stainless steel screws.Cable TerminationCAUTION: Before removing the cover assembly, ensure that the power to the unit is isolated.Unscrew and remove the 3 off screws holding the cover assembly to the base.Keep in a safe, accessible location.Twist the cover assembly gently clockwise and anti-clockwise, whilst pulling itaway from the base. Remove to gain access to the interior of the base.Cable termination should be in accordance with specifications applying to the application. MEDC recommend that all cables and cores should be fully identified.Ensure that only correct UL Listed cable glands are used and that the assembly is shrouded and correctly earthed.All cable glands should be of an equivalent NEMA/IP rating to that of the strobe and integrated with the unit such that this rating is maintained.The internal earth terminal (where fitted), must be used for the equipment ground-ing connection and the external terminal is for a supplementary bonding connec-tion where local codes or authorities permit or require such a connection.Once termination is complete, carefully push the cover assembly back onto the base, avoiding damage to the mating surfaces. Replace the 3off screws into the holes in the cover assembly and tighten evenly, to ensure maintenance of therequired gap between the cover and base.08/013.OPERATIONThe unit is initiated directly from the power source.GENERAL ARRANGEMENT .4.MAINTENANCEDuring the working life of the strobe, little or no maintenance is required. How-ever, if abnormal or unusual environmental conditions occur due to plant damage or accident etc., then visual inspection is recommended.If a fault should occur, it is recommended that the unit be returned to MEDC for repair. All parts are replaceable.If you have acquired a significant quantity of units, it is recommended that spares are also made available. Please discuss your requirements with the TechnicalSales Engineers at MEDC.5.CERTIFICATION/APPROV ALSPlease refer to marking on the unit for specific approval details.•UL listed for use in Class 1, Div. 1, Groups C & DUSA (USL)Class 1, Zone 1, Groups IIA & IIB.•UL Standards UL 1203 & UL1638.08/016.CERTIFIED TEMPERATURE–55°C to +55°C–67°F to +131°FMEDC Ltd, Colliery Road, Pinxton, Nottingham NG16 6JF, UK.Tel: +44 (0)1773 864100 Fax: +44 (0)1773 582800Sales Enq. Fax: +44 (0)1773 582830 Sales Orders Fax: +44 (0)1773 582832MEDC Stock No. E-mail:**************Web: TM115-ISSA。

中文说明书感谢您选购此款充电器.您选购的这款是运用高科技和专业操控软件的快速充电/放电器. 在使用此产品之前请认真阅读完此操作手册.特征最佳操作软件当充/放电时,它具有自动设定电流的功能.尤其是锂电池,可以防止因用户失误而造成的充电爆炸事故. 单位内的每个程序，都是相互控制与联系，使每一个可能的误差为最高安全.这些可以根据用户的选择来设定.接受,转接,启动充电器的特殊充电插口.频繁使用的充电器插口,比如多功能插头等.此软件也为锂电池提供最方便的平衡充电插口.分别是3,4,5,6,7,8充电插口和外部接转连接器.高功率和高性能的电路它所使用的电路最大输出功率为50瓦特.因此,当最大电流是5.0安时,它充电或者放电可以达到15个NiCd/NiMH和8节锂电池并联的效果.此外,制冷系统可以在这样的功率下毫无障碍地运行CPU或操作程序.锂电池内部的单个电压平衡器它里面带有独特锂电池专用的平衡功能.因此在充锂电(Lilo/LiPo/LiFe)时,不需要额外的平衡器来平衡电压.平衡放电的单个电池它在放电时,还可以监测和平衡锂电池组中的单个电池.当电池电压出现异常时,放电就会伴随错误信息而停止.适合各种各样的锂电池它可以接受三种类型的锂电池- Lilo, LiPo 和LiFe.它们因化学成分的不同而具有不同的特点.你可以选择他们中任一一种来使用,根据它们的规格,参照”警告和安全说明书”.锂电池快速和存储模式你可以充电锂电池作特殊用途。

快速充电减少了锂电池的充电时间,而存储模式也使得锂电池的额定电压可以长时间的储存.最大化安全Delta-peak sensitivity:一种自动充电电流关闭程序,其工作原理是在电池电压上升至最高点而开始回降时,将充电电流关闭完成充电.(镍镉/镍氢)自动充电电流限制:在自动电流模式下充镍镉或镍氢电池,你可以设置充电电流的上限以避免高充电电流.在’AUTO’模式下,在充低阻碍,小容量的镍氢电池时非常有用.容量限制:充电容量以充电电流×充电时间来计算.在设定了最高充电值的情况下,当充电容量超过了最高限额时,程序将强制结束充电.温度限制:充电时,电池由于内部发生化学反应,温度也将相应增高.如果对充电器设定温度限制,在温度到达最高限额时,程序将强制结束充电.充电时间限制:对充电时间进行限制也可以防止任何可能的错误.输入电流检测器:为保护蓄电池在电流输入时不受损坏,通常可以对其电压进行检测.当电压下降至最低额时,程序将自动关闭充电电流.自动制冷风扇:只有在单个电池的内部温度升高时,电子制冷风扇才自动运转.资料存储/下载为方便用户,它最多可以存储5个数据不同的电池.你可以建立包含了程序设置的数据来持续不断的充电或是放电.在你需要的任意时候都可以叫出这些数据,并且这个过程在没有设定程序时执行.循环充电或者放电持续不断的运转1-5周期使电池得以更新和平衡.个人计算机为基础分析应用的USB通信它为技术专家提供了以个人计算机为基础,可分析电池USB接口的特性.它表明了一个稳定的电压,电流,容量和温度曲线.它也可以显示锂电池组中每一个电池的电压.充电器外观警告和安全提示○任何情况都不要在无人看管的情况下充电.如果有故障出现,请立即结束程序,再查阅程序说明书.○不要放在有灰尘,潮湿,太阳直射或振动的地方,不要摔它.○进入电源只允许10-18DC电源.○充电器和电池在充电或放电时应放置在强抵抗,防易燃和抗导体的表面上.切勿放在汽车坐垫上,地毯上或类似物体上.确保所有易然易爆物品远离操纵区域.○充电器的冷却口不能被覆盖或关闭,以便提供良好的通风.确保准确地掌握要充电和放电的电池性能.如果程序设置错误可能损坏电池.尤其是锂电池,可能会导致火灾或充电过度导致爆炸.NiCd/NiMH 电压等级：1.2v/cell允许快速充电电流: 1C~2C依赖于电池的运转. 放电电压切断级别：0.85v /cell（镍镉电池），1.0v/cell （镍氢电池）Lilo 电压等级：3.6V/c最大充电电压: 4.1V/cell允许快速充电电流: 1C或更少最小放电电压切断级别：2.5V/cell或更高LiPo 电压等级：3.7V/cell最大充电电压: 4.2V/cell允许快速充电电流: 1C或更少放电电压切断级别：3.0V/cell或更高LiFe 电压等级：3.3V/cell最大充电电压:3.6 V/cell允许快速充电电流: 4C或更少(例如A123M1)放电电压切断级别：2.0V/cell或更高Pb 电压等级：2.0V/cell(Lead-acid) 最大充电电压: 2.46V/cell允许快速充电电流: 0.4C或更少放电电压切断级别：1.50V/cell或更高○为避免充电导线之间发生短路,应先将充电导线与充电器连接, 然后再连接电池,拆开线路时,步骤相反.-你必须注意核实锂电池组的容量和电压.它可能是串,并联混合组成.并联时,电池组的容量是每个电池的容量乘以电池的个数,而电池组的电压不变. 在充电过程中,这种电压不平衡引起火灾或爆炸，我们建议你串联锂电池组.○放电放电的典型目的是确定电池剩余的容量或是降低电池的电压来界定级别.当你给电池放电时,必须和充电时一样注意放电过程.为了避免电池放电过度,一定要正确设定额定放电电压.锂电池不能低于最低电压,因为这样会导致容量的快速损失或者完全失败.一般来说,不需要给锂电池放电.-据说一些充电电池有记忆效应。

gt传感器设置说明书
1）分L-on与D-on两种模式，L-on为来料触发，D-on为过料触发。

设置方法为：手动按”L/Don”出现“L-on”或者“D-on”，点击左右”按钮即可选择需要使用的模式。

2）长按”mode”按钮3s，进入“easy”模式，接着按一下”MODE”按钮，在“FINE”模式下有3种模式可以选择，FINE模式（正常使用）TURBO模式（用于正常模式检测距离不够的时候），SUPERTURBO（用于检测环境比较差、有灰尘的情况下），按“左右”按钮选择所需要模式后按下“MODE”按钮，选择触时，“SHOT”（单次触发定时器）常用为单次脉冲延时10ms，可以不用设置，接着按“MODE”按钮回到主界面。

设置完成。