SIHFZ44-E3中文资料

Vishay SiliconixSi4435DDYDocument Number: P-Channel 30-V (D-S) MOSFETFEATURES•Halogen-free According to IEC 61249-2-21Definition•TrenchFET ® Power MOSFET•Compliant to RoHS Directive 2002/95/ECAPPLICATIONS•Load Switches •Battery SwitchNotes:a.Surface mounted on 1" x 1" FR4 board.b.t = 10 s.c.Maximum under Steady State conditions is 85 °C/W.d.Based on T C = 25 °C.PRODUCT SUMMARYV DS (V)R DS(on) (Ω)I D (A)dQ g (Typ.)- 300.024 at V GS = - 10 V - 11.415 nC0.035 at V GS = - 4.5 V- 9.4ABSOLUTE MAXIMUM RATINGS T A = 25 °C, unless otherwise notedarameter Symbol Limit UnitDrain-Source Voltage V DS - 30VGate-Source VoltageV GS ± 20Continuous Drain Current (T J = 150 °C)T C = 25 °C I D- 11.4AT C = 70 °C- 9.1T A = 25 °C - 8.1a, b T A = 70 °C - 6.5a, bPulsed Drain CurrentI DM - 50Continuous Source-Drain Diode CurrentT C = 25 °CI S - 4.1T A = 25 °C - 2.0a, bAvalanche Current L = 0.1 mHI AS - 20Single-Pulse Avalanche Energy E AS 20mJMaximum Power Dissipation T C= 25 °C P D 5.0WT C = 70 °C 3.2T A = 25 °C 2.5a, b T A = 70 °C 1.6a, bOperating Junction and Storage T emperature Range T J , T stg - 55 to 150°CTHERMAL RESISTANCE RATINGSarameter Symbol Typical Maximum UnitMaximum Junction-to-Ambient a, c t ≤ 10 s R thJA 3850°C/WMaximum Junction-to-Foot Steady State R thJF 2025 Document Number: 68841Vishay SiliconixSi4435DDYNotes:a. Pulse test; pulse width ≤ 300 µs, duty cycle ≤ 2 %.b. Guaranteed by design, not subject to production testing.Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.SPECIFICATIONS T J = 25 °C, unless otherwise notedarameter Symbol Test Conditions Min. Typ.Max.UnitStaticDrain-Source Breakdown Voltage V DS V GS = 0 V , I D = - 250 µA- 30V V DS Temperature Coefficient ΔV DS /T J I D = - 250 µA - 31mV/°C V GS(th) T emperature Coefficient ΔV GS(th)/T J 4.5Gate-Source Threshold Voltage V GS(th) V DS = V GS , I D = - 250 µA - 1.0- 3.0V Gate-Source LeakageI GSS V DS = 0 V , V GS = ± 20 V ± 100nA Zero Gate Voltage Drain Current I DSS V DS = - 30 V, V GS = 0 V - 1µA V DS = - 30 V, V GS = 0 V , T J = 55 °C- 5On-State Drain Current aI D(on) V DS ≥ - 10 V , V GS = - 10 V - 30A Drain-Source On-State Resistance a R DS(on) V GS = - 10 V , I D = - 9.1 A 0.01950.024ΩV GS = - 4.5 V , I D = - 6.9 A 0.0280.035Forward T ransconductance a g fs V DS = - 10 V, I D = - 9.1 A23SDynamic bInput Capacitance C iss V DS = - 15 V , V GS = 0 V , f = 1 MHz1350pFOutput CapacitanceC oss 215Reverse Transfer Capacitance C rss 185Total Gate Charge Q g V DS = - 15 V, V GS = - 10 V , ID = - 9.1 A 3250nC V DS = - 15 V , V GS = - 4.5 V , I D = - 9.1 A 1525Gate-Source Charge Q gs 4Gate-Drain Charge Q gd 7.5Gate Resistance R g f = 1 MHz5.8ΩTurn-On Delay Time t d(on) V DD = - 15 V , R L = 15 Ω I D ≅ - 1 A, V GEN = - 10 V , R g = 1 Ω1015ns Rise Timet r 815Turn-Off DelayTime t d(off) 4570Fall Timet f 1225Turn-On Delay Time t d(on) V DD = - 15 V , R L = 15 Ω I D ≅ - 1 A, V GEN = - 4.5 V, R g = 1 Ω4270Rise Timet r 3560Turn-Off DelayTime t d(off) 4070Fall Timet f1630Drain-Source Body Diode Characteristics Continous Source-Drain Diode Current I S T C = 25 °C- 4.1A Pulse Diode Forward Current I SM - 50Body Diode VoltageV SD I S = - 2 A, V GS = 0 V- 0.75- 1.2V Body Diode Reverse Recovery Time t rr I F = - 2 A, dI/dt = 100 A/µs, T J = 25 °C3460ns Body Diode Reverse Recovery Charge Q rr 2240nC Reverse Recovery Fall Time t a 11nsReverse Recovery Rise Timet b23Document Number: Gate ChargeCapacitanceOn-Resistance vs. Junction Temperature Document Number: 68841Single Pulse Power, Junction-to-AmbientSafe Operating AreaVishay SiliconixSi4435DDYDocument Number: TYPICAL CHARACTERISTICS 25°C, unless otherwise noted* The power dissipation P D is based on T J(max) = 150 °C, using junction-to-case thermal resistance, and is more useful in settling the upper dissipation limit for cases where additional heatsinking is used. It is used to determine the current rating, when this rating falls below the package limit.Current Derating*Power, Junction-to-FootPower Derating, Junction-to-AmbientSi4435DDYVishay SiliconixTYPICAL CHARACTERISTICS 25 °C, unless otherwise notedNormalized Thermal Transient Impedance, Junction-to-FootVishay Siliconix maintains worldwide manufacturing capability. Products may be manufactured at one of several qualified locations. Reliability data for Silicon Technology and Package Reliability represent a composite of all qualified locations. For related documents such as package/tape drawings, part marking, and reliability data, see /ppg?68841. Document Number: 68841Vishay SiliconixPackage InformationDocument Number: DIM MILLIMETERSINCHESMin Max Min Max A 1.35 1.750.0530.069A 10.100.200.0040.008B 0.350.510.0140.020C 0.190.250.00750.010D 4.80 5.000.1890.196E 3.804.000.1500.157e 1.27 BSC0.050 BSCH 5.80 6.200.2280.244h 0.250.500.0100.020L 0.500.930.0200.037q 0°8°0°8°S0.440.640.0180.026ECN: C-06527-Rev. I, 11-Sep-06DWG: 5498V I S H A Y S I L I C O N I XTrenchFET ® Power MOSFETsMounting LITTLE FOOT ®, SO-8 Power MOSFETsA P P L I C A T I O N N O T EWharton McDanielSurface-mounted LITTLE FOOT power MOSFETs use integrated circuit and small-signal packages which have been been modified to provide the heat transfer capabilities required by power devices. Leadframe materials and design, molding compounds, and die attach materials have been changed, while the footprint of the packages remains the same.See Application Note 826, Recommended Minimum Pad Patterns With Outline Drawing Access for Vishay Siliconix MOSFETs, (/ppg?72286), for the basis of the pad design for a LITTLE FOOT SO-8 power MOSFET. In converting this recommended minimum pad to the pad set for a power MOSFET, designers must make two connections: an electrical connection and a thermal connection, to draw heat away from the package.In the case of the SO-8 package, the thermal connections are very simple. Pins 5, 6, 7, and 8 are the drain of the MOSFET for a single MOSFET package and are connected together. In a dual package, pins 5 and 6 are one drain, and pins 7 and 8 are the other drain. For a small-signal device or integrated circuit, typical connections would be made with traces that are 0.020 inches wide. Since the drain pins serve the additional function of providing the thermal connection to the package, this level of connection is inadequate. The total cross section of the copper may be adequate to carry the current required for the application, but it presents a large thermal impedance. Also, heat spreads in a circular fashion from the heat source. In this case the drain pins are the heat sources when looking at heat spread on the PC board.Figure 1. Single MOSFET SO-8 Pad Pattern With Copper SpreadingFigure 2. Dual MOSFET SO-8 Pad PatternWith Copper SpreadingThe minimum recommended pad patterns for the single-MOSFET SO-8 with copper spreading (Figure 1) and dual-MOSFET SO-8 with copper spreading (Figure 2) show the starting point for utilizing the board area available for the heat-spreading copper. To create this pattern, a plane of copper overlies the drain pins. The copper plane connects the drain pins electrically, but more importantly provides planar copper to draw heat from the drain leads and start the process of spreading the heat so it can be dissipated into the ambient air. These patterns use all the available area underneath the body for this purpose.Since surface-mounted packages are small, and reflow soldering is the most common way in which these are affixed to the PC board, “thermal” connections from the planar copper to the pads have not been used. Even if additional planar copper area is used, there should be no problems in the soldering process. The actual solder connections are defined by the solder mask openings. By combining the basic footprint with the copper plane on the drain pins, the solder mask generation occurs automatically.A final item to keep in mind is the width of the power traces.The absolute minimum power trace width must be determined by the amount of current it has to carry. For thermal reasons, this minimum width should be at least 0.020 inches. The use of wide traces connected to the drain plane provides a low impedance path for heat to move away from the device.Application Note 826Vishay SiliconixA P P L I C A T I O N N O T ERECOMMENDED MINIMUM PADS FOR SO-8Legal Disclaimer Notice VishayDisclaimerALL PRODU CT, PRODU CT SPECIFICATIONS AND DATA ARE SU BJECT TO CHANGE WITHOU T NOTICE TO IMPROVE RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other disclosure relating to any product.Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special, consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular purpose, non-infringement and merchantability.Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular product with the properties described in the product specification is suitable for use in a particular application. Parameters provided in datasheets and/or specifications may vary in different applications and performance may vary over time. All operating parameters, including typical parameters, must be validated for each customer application by the customer’s technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein.Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining applications or for any other application in which the failure of the Vishay product could result in personal injury or death. Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk and agree to fully indemnify and hold Vishay and its distributors harmless from and against any and all claims, liabilities, expenses and damages arising or resulting in connection with such use or sale, including attorneys fees, even if such claim alleges that Vishay or its distributor was negligent regarding the design or manufacture of the part. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.Material Category PolicyVishay Intertechnology, Inc. hereb y certifies that all its products that are identified as RoHS-Compliant fulfill the definitions and restrictions defined under Directive 2011/65/EU of The European Parliament and of the Council of June 8, 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment (EEE) - recast, unless otherwise specified as non-compliant.Please note that some Vishay documentation may still make reference to RoHS Directive 2002/95/EC. We confirm that all the products identified as being compliant to Directive 2002/95/EC conform to Directive 2011/65/EU.Revision: 12-Mar-121Document Number: 91000分销商库存信息:VISHAYSI4435DDY-T1-GE3SI4435DDY-T1-E3。

第一章概述CSF106VD21数字式电动机保护主要用于2000kW以下不设纵差保护的高压异步电动机，亦可作2000kW以上的异步机或同步机的后备保护。

表1-1 CSF106VD系列数字式电动机保护功能配置CSF106VD22同步电动机综合保护，在CSFVD21基础上将速断保护改为差动保护，适用于任何容量的同步电动机，除具有上述异步电动机综合保护功能外，还具有保护动作跳励磁回路灭磁开关输出接口和同步电动机失步联跳电动机高压开关的输入接口，同步电动机失磁信号输入接口。

装置设有RS232、RS485及LONWORKS接口可与监控系统连接,便于实现四遥及远方通讯。

定时全面的自检系统大大提高了保护的可靠性。

同时，本装置支持GPS（全球卫星定位系统）对时。

其主要的技术特点如下：1）以工业级32位MPU单片机系统为核心部件，采用内部总线方式，芯片内设有ADC、32位CPU、QSM、SRAM、TPURAM、TPU、FLASH EEPROM，总线不出芯片，外围电路全部光藕隔离，采集8路模拟量，占用CPU时间不超过1us，高精度、高速率，可扩展到16路模拟量，在线程序写入FLASH芯片（ISP），方便软件修改、升级。

2）128×64点大液晶全汉字显示，调试全部为汉字菜单结构，使用方便、直观、信息详尽丰富。

3）采用工业级芯片，表面贴工艺，体积小，抗震、抗干扰能力强、可靠性高。

4）前面板232串口带光电隔离，可在现场实现通讯，提供更加方便友好的调试操作环境。

5）结构上设计合理，全封闭机箱坚固、抗震、抗干扰能力强，机箱小巧，适合安装于保护屏、开关柜等处。

6）该保护共可录入4套保护定值，便于现场运行。

7）可扩展工业级CAN总线，LON总线网络，组网方便、经济、可靠、可与监控系统直接通讯。

8）自动记录故障数据，掉电不丢失，便于事故分析。

9）线路故障时，除提供光报信号外，保护自动弹出全中文故障报告，直观明了，便于维护。

C-13IRCZ44PD - 9.529Bl Dynamic dv/dt Rating l Current Sensel 175°C Operating Temperature l Fast Switching l Ease of ParallelinglSimple Drive RequirementsHEXFET ® Power MOSFETV DSS = 60V R DS(on) = 0.028ΩI D = 50*ADescriptionAbsolute Maximum RatingsThird Generation HEXFETs from International Rectifier provide the designer with the best combination of fast switching, ruggedized device, low on-resistance and cost-effectiveness.The HEXSen s e device provides an accurate fraction of the drain current through the additional two leads to be used for control or protection of the device. These devices exhibit similar electrical and thermal characteristics as their IRF-series equivalent part numbers. The provision of a kelvin source connection effectively eliminates problems of common source inductance when the HEXSence isused as a fast, high-current switch in non current-sensing applications.ParameterMax.UnitsI D @ T C = 25°C Continuous Drain Current, V GS @ 10V 50*I D @ T C = 100°C Continuous Drain Current, V GS @ 10V 37I DMPulsed Drain Current 210P D @T C = 25°C Power Dissipation 150W Linear Derating Factor 1.0W/°C V GS Gate-to-Source Voltage±20V E AS Single Pulse Avalanche Energy 30mJ dv/dt Peak Diode Recovery dv/dt 4.5V/ns T J Operating Junction and-55 to + 175T STGStorage Temperature RangeSoldering Temperature, for 10 seconds 300 (1.6mm from case)Mounting Torque, 6-32 or M3 screw10 lbf•in (1.1 N•m)A °CParameterMin.Typ.Max.UnitsR θJC Junction-to-Case—— 1.0R θCS Case-to-Sink, Flat, Greased Surface —0.50—R θJAJunction-to-Ambient ———62Thermal Resistance°C/WTO-220 HexSenseC-14C-15C-16C-17C-18。

说明本零件图册适用于我公司生产的4-4.5吨第三代内燃平衡重式叉车，以便用户在修理更换叉车零部件时，从中查找出所需的零件名称、结构及安装位置，并作为订货参考。

在订货时，必须说明原叉车的型号及出厂日期，并根据本图册，说明零件的详细名称、标号、数量及完整的代号。

我公司叉车根据用户和生产发展，将不断地进行改进，故图册内容可能在一定的时期将有更新，待再版时予以修改，敬请用户注意。

本图册不可避免的存在缺点，我们热诚欢迎用户提出宝贵意见。

本图册由技术中心标准化组编制,第 1 版,第 0 次修改。

2014年11月IntroductionThis parts manual is applied for the 4- the third generation internal counterbalanced forklift produced by our plant. It is convenient for users to identify the description, the structure and the assembling location of the parts replaced or repaired, and to put order on them.When ordering parts, it is necessary to state the model and the date of and according to the parts manual, give the description, specification, quantity and code about the part you ordered.Owing to users and our improvement of product, our products will be changed the information contained in this book may be changed without notice.For improving our work, customers are sincerely requested to give us comments and suggestions.Nov., 2014感谢您使用我公司生产的产品。

Instruction ManualStep Motor Controller – EtherCAT(24 VDC Servo) with STO Sub-functionSeries JXCEF#IMPORTANTWhen supplied in the European Union or the United Kingdom this document does not contain the necessary safety instructions as requiredby the Machinery Directive 2006/42/EC or the UK Machinery Safety Regulations 2008.It is mandatory to refer to the Operation Manual, Document No. JXC#-OMY0009 supplied with the product by your local SMC subsidiary for such safety instructions before using this product.The EU or UKCA Declaration of Conformity is supplied by your local subsidiary with the product.For other territories the Operation Manual and Declaration of Conformity may be downloaded from the SMC website (URL https://).The intended use of the step motor controller is to control the movementof an electrical actuator whilst connected to the EtherCAT protocol.These safety instructions are intended to prevent hazardous situations and/or equipment damage. These instructions indicate the level of potential hazard with the labels of “Caution,” “Warning” or “Danger.”They are all important notes for safety and must be followed in additionto International Standards (ISO/IEC)∗1), and other safety regulations.IEC 60204-1: Safety of machinery - Electrical equipment of machines. (Part 1: General requirements)ISO 10218-1: Robots and robotic devices - Safety requirements for industrial robots - Part 1: Robots.•Refer to product catalogue, Operation Manual and Handling Precautions for SMC Products for additional information.• Keep this manual in a safe place for future reference.Caution Caution indicates a hazard with a low level of risk which, ifnot avoided, could result in minor or moderate injury.Warning Warning indicates a hazard with a medium level of riskwhich, if not avoided, could result in death or serious injury.Danger Danger indicates a hazard with a high level of risk which, ifnot avoided, will result in death or serious injury.Warning•Always ensure compliance with relevant safety laws and standards.All work must be carried out in a safe manner by a qualified person in compliance with applicable national regulations.•Special products (-X) might have specifications different from those shown in the specifications section. Contact SMC for specific drawings. 2 Specifications2.1 General specificationsItem SpecificationsCompatible motor Step motor (servo 24 VDC)Power supply(M24V, C24V)Power supply voltage: 24 VDC +/-10%(certified SELV / PELV power supply). Current consumption200 mA or less (controller)Refer to the actuator specifications for totalpower consumption. Compatible encoderIncremental A/B phase (800 pulses / rotation)Battery-less absolute A/B phase(4096 pulse/rotation)Memory EEPROMLock control Forced lock release terminalCable lengthPower supply cable: 30 m max.Actuator cable: 20 m max. Cooling method Natural air-coolingOperatingtemperature0°C to 55°C (no freezing).Storage temperature -10o C to 60o C (no freezing) Humidity range90% RH or less (No condensation) Insulation resistance50 MΩ (500 VDC)between the external terminals and case Weight250 g (Direct mounting type)270 g (DIN rail mounting type)https://).3 Name and function of individual parts Description1Controller labelLabel indicating the controller modelnumber.2FEFunctional Earth.(when the controller is mounted, tightenscrews and connect the groundingcable).3PWRPower supply connector (5 pin).Connector for controller power supply(24 VDC) using the power supply plug.4STOSTO Connector (5 pin).Connector for controller responsible forSTO sub-function control.5MOTMotor drive connector (6 pin).Connector for actuator cable.6ENCEncoder connector (16 pin).Connector for actuator cable.7SISerial I/O connector (8 pin).Connector for teaching box (LEC-T1) orcontroller communication cable (JXC-W2A-C).8Applicable electricactuator modelnumber labelLabel indicating the electric actuatorpart number which can be connected tothe controller.9LED display LED’s to indicate the controller status.10Rotary switchSwitches to set the EtherCATcommunication IP address.11CommunicationconnectorConnector for EtherCAT network.12MAC address label Not applicable to EtherCAT product.13Security label Label to prevent tampering of product.14Safety HW versionlabelLabel indicating the safety HW version.15Non- safety versionlabelLabel indicating the Non-safety version.16Serial number label Label indicating the serial number.4 Installation4.1 InstallationWarning•Do not install the product unless the safety instructions have been readand understood.•Design the installation so that the temperature surrounding thecontroller is 55o C max. Leave enough space between the controllersso that the operating temperature of the controllers remains within thespecification range.•Mount the controller vertically with 30 mm minimum space on the topand bottom of the controller as shown below.•Allow 60 mm minimum space between the front of the controller and adoor (lid) so that the connectors can be connected and disconnected.4.2 Mounting•The controller can be direct mounted (model JXCEF7#) using screwsor mounted on a DIN rail (model JXCEF8#).•When using DIN rail mounting, hook the controller on the DIN rail andpress the lever down to lock it.CautionIf the mounting surface for the controller is not flat or is uneven, excessivestress may be applied to the enclosure, which can cause failure. Be sureto mount on a flat surface.4.3 EnvironmentWarning•Do not use in an environment where corrosive gases, chemicals, saltwater or steam are present.•Do not use in an explosive atmosphere.•Do not expose to direct sunlight. Use a suitable protective cover.•Do not install in a location subject to vibration or impact in excess ofthe product’s specifications.•Do not mount in a location exposed to radiant heat that would result intemperatures in excess of the product’s specifications.•Avoid mounting the controller near a vibration source, such as a largeelectromagnetic contactor or circuit breaker on the same panel.•Do not use in an environment with strong magnetic fields present.5 WiringCaution•Do not perform wiring while the power is ON.•Confirm proper insulation of wiring.•Do not route wires and cables together with power or high voltagecables.•Keep wiring as short as possible to prevent interference fromelectromagnetic noise and surge voltage.•Do not use an inrush current limited type of power supply for thecontroller.•Do not connect multiple wires to one connector terminal.Power Supply ConnectorWire the power supply cable to the power supply plug connector, theninsert it into connector PWR on the controller.•Use special screwdriver (Phoenix Contact No. SZS0.4×2.0) to open /close lever and insert the wire into the connector terminal.PinNo.Terminal Function Description1 C24V Power supply (+) Positive control power.2 M24V Motor power (+)Positive power for theactuator motor suppliedvia the controller.3 EMG Stop (+)Positive power foremergency stop signal4 0V Common power (-)Negative common power forM24V, C24V, EMG and LKRLS.5 - NC N/A6 LK RLS Unlocking (+)Positive power for lockrelease.Applicable wire size: AWG20 (0.5 mm2). Wire O/D to be ø2.5 mm max.Stripped wire length – 8 mm.ORIGINAL INSTRUCTIONS10 mm minimum(for actuator body size 25 mm or more)5.1 STO Sub-function ConnectorWire the cable for the STO function to the STO plug connector, then insert it into connector STO on the controller.5.2 Ground connection• Place a ground cable with crimped terminal under one of the M4 mounting screws with a shakeproof washer and tighten the screw.CautionThe M4 screw, cable with crimped terminal and shakeproof washer must be prepared by the user.The controller must be connected to Ground to reduce noise. If higher noise resistance is required, ground the 0 V (signal ground). When grounding the 0 V, avoid flowing noise from ground to 0 V.•A dedicated Ground connection must be used. Grounding should be to a D-class ground (ground resistance of 100 Ω maximum).• The cross-sectional area of the ground cable shall be 2 mm 2 minimum. • The Grounding point should be as near as possible to the controller. Keep the grounding cable as short as possible.6 Setting6.1 Switch setting• Turn off the power supply while setting the switch.• The rotary switch should be set with a small flat blade screwdriver. The EtherCAT ID of the controller is set using the rotary switches.When the switches are set to “000”, the EtherCAT ID of the controller can be set by the EtherCAT master device.To set the EtherCAT ID through the EtherCAT master device, refer to the manual of the EtherCAT master device.(The initial value of the EtherCAT ID is “0", when “000” is set by the rotary switches).EtherCAT ID setting Switch setting EtherCAT IDx100 x10 x1 0 0 0 Value that allows setting by EtherCAT master device (Initial value: “0”)0 0 1 10 0 3 3 (Default) 0 ： ： ： 0 6 4 64 ： ： ： ： 999999Hardware ConfigurationESI file (XML file) is required to configure the controller.ESI file (XML file) can be downloaded from the URL given below.The ESI set up file can be downloaded from the SMC website (URL: https:// ).CautionDo not turn OFF the power supply for the controller or connect / disconnect the cable while data is being written to EEPROM (PWR LED (green) is flashing). This is to avoid the possibility of incorrect / corrupt data (step data, parameter).8 Product configuration9 LED DisplayRefer to the table below for details of the LED status.LEDDescriptionPWR OFFPower is not supplied Green LED is ONPower is supplied ALMOFFNormal operation Red LED is ONAlarm generated RUNOFFINIT stateGreen LED is flashing Pre-Operational state Green LED is single flashing Safe-Operational state Green LED is ONOperational stateERROFF No error in EtherCAT communication Red LED is flashing Error in the setting of EtherCAT communicationRed LED is double flashingError in the setting of EtherCAT communication(application watch dog timeout). L/A 1OFF“IN” port: No Link, No Activity Green LED is ON“IN” port: Link, No Activity Green Led is flashing “IN” port: Link, ActivityL/A 2 OFF“OUT” port: No Link, No Activity Green LED is ON“OUT” port: Link, No Activity Green Led is flashing“OUT” port: Link, ActivityRefer to the catalogue on the SMC website (URL: https:// ) for the How to Order information.Refer to the drawings / operation manual on the SMC website (URL: https:// ) for outline dimensions.12 Maintenance12.1 General MaintenanceCaution• Not following proper maintenance procedures could cause the product to malfunction and lead to equipment damage.• Before performing maintenance, turn off the power supply. Check the voltage with a tester 5 minutes after the power supply is turned OFF. • If any electrical connections are disturbed during maintenance, ensure they are reconnected correctly and safety checks are carried out as required to ensure continued compliance with applicable national regulations.• Do not make any modification to the product.• Do not disassemble the product, unless required by installation or maintenance instructions.Caution• Maintenance should be performed according to the procedure indicated in the Operation Manual.• When equipment is serviced, first confirm that measures are in place to prevent dropping of work pieces and run-away of equipment, etc, then cut the power supply to the system. When machinery is restarted, check that operation is normal with actuators in the correct position.Warning• Perform maintenance checks periodically.• Confirm wiring and screws are not loose. Loose screws or wires maycause unexpected malfunction.• Conduct an appropriate functional inspection and test after completing maintenance. In case of any abnormalities (if the actuator does not move, etc.), stop the operation of the system. Otherwise, an unexpected malfunction may occur and it will become impossible to ensure safety. Operate an emergency stop instruction to confirm safety. • Do not put anything conductive or flammable inside of the controller. • Ensure sufficient space around the controller for maintenance.13 Limitations of Use13.1 Limited warranty and Disclaimer/Compliance Requirements Refer to Handling Precautions for SMC Products.14 Product disposalThis product shall not be disposed of as municipal waste. Check your local regulations and guidelines to dispose of this product correctly, in order to reduce the impact on human health and the environment.15 ContactsRefer to or www.smc.eu for your local distributor / importer.URL: https:// (Global) https://www.smc.eu (Europe) SMC Corporation, 4-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021, Japan Specifications are subject to change without prior notice from the manufacturer. © 2021 SMC Corporation All Rights Reserved. Template DKP50047-F-085M。

康明斯柴油发动机产品型号机型目录u 重庆康明斯发动机系列M11ISMNT855K19K38K50¨汽车应用重型汽车，越野汽车，自卸汽车，牵引车，汽车起重机，水泥搅拌车，公交客车，长途客车，旅游客车，军用汽车，专用汽车，特种汽车，及其底盘等等¨工业应用§工程机械推土机，装载机，挖掘机，路面施工机械，工业自卸车，特殊移动车辆§固定动力油气田设备，钻机，修井机，泥浆泵，压裂机，水泵，应急泵，消防泵，工业泵站，空气压缩机，特殊内燃设备§轨道车辆调度机车，机车，轨道车辆，动车组，铁路移动设备，铁路维修车辆，¨船舶应用§推进主机推舶，工作船，挖泥船，巡逻艇，消防船，交通艇，客船，气垫船，水翼船，货船，§工作辅机船用发电机组，船用消防泵动力，消防船，疏浚船§船检设备海上平台油气田固定设备动力，船用空压机，疏浚设备¨发电应用发电机组，内燃电站，应急电站，备用发电机组，根据实际应用选用汽车、工业、船舶或发电发动机作为动力u 汽车应用Ø M11系列发动机²符合“欧洲一号”的产品发动机型号额定功率kW(bhp)/转速r/min最大扭矩Nm(lb-ft)/转速r/minM11-C245183(245)/21001058(780)/1300M11-C270201(270)/21001200(885)/1300M11-C290216(290)/21001200(885)/1300M11-C310231(310)/21001265(993)/1300M11-C330246(330)/21001250(923)/1300M11-C350261(350)/21001560(1150)/1300注：M11-C245/290/310适用于高原海拔4500米²符合“欧洲二号”的产品发动机型号额定功率kW(bhp)/转速r/min最大扭矩Nm(lb-ft)/转速r/minISM305E 20224(301)/19001550(1143)/1200ISM305ESP 22224(301)19001450(1069)/1200ISM340E 20250(335)/19001670(1252)/1200ISM380E 20280(375)/19001825(1346)1200ISM405E 20298(399)/19002000(1475)/1200ISM410E 20300(402)/19002000(1475)/1200ISM440E 20324(426)/19002100(1549)/1200发动机型号额定功率kW(bhp)/转速r/min最大扭矩Nm(lb-ft)/转速r/minISMe335 30246(330)/19001410(1040)/1200ISMe345 30254(341)/19001710(1262)/1200ISMe385 30283(380)/19001835(1354)/1200ISMe420 30306(410)/19002010(1483)/1200²符合“欧洲三号”的产品Ø NT855系列发动机²符合“欧洲一号”的产品发动机型号额定功率kW(bhp)/转速r/min最大扭矩Nm(lb-ft)/转速r/minNTC-250187/21001017/1500NTC-290216/21001261/1500NTC-350261/21001593/1300NTC-400298/21001627/1400注：NTC-250/290/350适用于高原海拔4500米u 工业应用Ø M11系列发动机发动机型号额定功率kW(bhp)/转速r/min最大扭矩Nm(lb-ft)/转速r/minM11-C/P/L225168(225)/21001030(760)/1300M11-C/P/L250186(250)/21001146(845)/1300M11-C/P/L270201(270)/21001288(950)/1300M11-C/P/L290216(290)/21001330(980)/1300M11-C/P/L300224(300)/21001376(1015)/1300M11-C/P/L310231(310)/21001265(933)/1300M11-C/P/L330246(330)/21001458(1075)/1300M11-C/P/L350261(350)/21001560(1150)/1300注：M11-C/P/L225/250/270/290/310适用于高原海拔4500米C为工程机械,P为固定动力,L为轨道车辆,下同.Ø NT855系列发动机发动机型号额定功率kW(bhp)/转速r/min最大扭矩Nm(lb-ft)/转速r/minNT855-C/P/L250187/21001017/1500NT855-C/P/L280175/18001078/1250NT855-L290216/21001261/1300NTA855-C/P/L310231/21001261/1400NTA855-C/P/L335250/21001364/1500NTA855-C/P/L360268/21001464/1500NTA855-C/P/L400298/21001559/1500NTA855-C/P/L450336/21002100/1500注：NTC/P/L-280/310/335/360适用于高原海拔4500米C为工程机械,P为固定动力,L为轨道车辆,下同.Ø K19系列发动机发动机型号额定功率kW(bhp)/转速r/min最大扭矩Nm/转速r/minKT19-C/P/L450336（450）/21001907/1300KTA19-C/P/L525426（525）/21002237/1300KTA19-C/P/L600448（600）/21002237/1500KTTA19-C/P/L675504（675）/21002698/1400KTTA19-C/P/L700522（700）/21002731/1400注：KTA-C/P/L600适用于高原海拔4500米C为工程机械,P为固定动力,L为轨道车辆,下同.Ø K38系列发动机发动机型号额定功率kW(bhp)/转速r/min最大扭矩Nm/转速r/min KT38-C/P/L925690（925）/21004095/1300KTA38-C/P/L1050783（1050）/21004631/1300KTA38-C/P/L1200895（1200）/21004678/1300KTTA38-C/P/L13501007（1350）21005264/1300Ø K50系列发动机发动机型号额定功率kW(bhp)/转速r/min最大扭矩Nm/转速r/min KTA50-C/P/L13501007（1350）21005264/1300KTA50-C/P/L160011194（1600）21005966/1300KTTA50-C/P/L18001343（1800）21007020/1300K1800E1343（1800）19007085/1300K2000E1492（2000）19007865/1300u 船舶应用Ø 主机²NT855系列发动机发动机型号最大功率kW(bhp)/转速r/min功率标定NT855-M240179(240)/1800持续功率NT855-M270201(270)/1800持续功率NT855-M300224(300)/1800持续功率NT855-M340254(340)/1800重载功率NT855-M360269(360)/2100中等持续功率NTA855-M350261(350)/1800持续功率NTA855-M380283(380)/1800重载功率NTA855-M400298(400)/2100中等持续功率²K19系列发动机发动机型号最大功率kW(bhp)/转速r/min功率标定KT19-M365272(365)/1800持续功率KT19-M380283(380)/1800持续功率KT19-M425317(425)/1800持续功率KT19-M470351(470)/1800重载功率KT19-M510380(510)/2100中等持续功率KTA19-M470351(470)/1800持续功率KTA19-M500373(500)/1800持续功率KTA19-M530395(530)/1800重载功率KTA19-M550410(550)/2100中等持续功率KTA19-M600447(600)/1800持续功率KTA19-M640477(640)/1800重载功率KTA19-M700522(700)/2100中等持续功率²K38系列发动机发动机型号最大功率kW(bhp)/转速r/min功率标定KT38-M800597(800)/1800持续功率KT38-M850634(850)/1950中等持续功率KTA38-M940701(940)/1800持续功率KTA38-M1045780(1045)/1950中等持续功率KTA38-M750559(750)/1800持续功率KTA38-M850633(850)/1800持续功率KTA38-M900672(900)/1600持续功率KTA38-M1000745(1000)/1800持续功率KTA38-M1100820(1100)/1800中等持续功率KTA38-M1050783(1050)/1600持续功率KTA38-M1200895(1200)/1800持续功率KTA38-M1300970(1300)/1800重载功率²K50系列发动机发动机型号最大功率kW(bhp)/转速r/min功率标定KTA50-M1250932(1250)/1800持续功率KTA50-M13851033(1385)/1950中等持续功率KTA50-M14001045(1400)/1600持续功率KTA50-M16001194(1600)/1800持续功率KTA50-M17001268(1700)/1800重载功率KTA50-M18001343(1800)/1900重载功率Ø 辅机²NT855系列发动机发动机型号备载功率kW /转速r/min常载功率kW/转速r/minNTA855-G1(M)265/1500240/1500NTA855-G2(M)321/1500263/1500NTA855-G4(M)351/1500317/1500²K19系列发动机发动机型号备载功率kW /转速r/min常载功率kW/转速r/minKTA19-G2(M)369/1500336/1500Cummins diesel engine models model directoryu Chongqing Cummins Engine Series M11ISMNT855K19K38K50¨ automotive applicationsHeavy-duty trucks, off-road vehicle, dump truck, tractor, truck crane, cement mixer, bus, coach, tourist buses, military vehicles, special vehicles, special vehicles and their chassis, etc.¨ industrial applications§ Construction MachineryBulldozers, loaders, excavators, road construction machinery, industrial dump truck, a special mobile vehicles§ fixed powerOil and gas field equipment, drilling rig, workover rig, mud, fracturing machines, pumps, emergency pumps, fire pumps, industrial pump station, air compressor, a special internal combustion equipment§ rail vehiclesScheduling locomotives, locomotive, rail vehicles, EMU, railway and mobile equipment, railway maintenance vehicles,¨ marine applications§ promote the hostPush the ship, work boats, dredgers, patrol boats, fire boats, traffic boats, passenger ships, hovercraft, hydrofoil boats, cargo ships,§ work auxiliaryMarine generator sets, marine fire pump power, fire boats, dredgers§ ZC equipmentOffshore fixed platform oil and gas field equipment, power, marine, air compressor, dredging equipment¨ power generation applicationsGenerating units, internal combustion power plants, emergency power plant, standby generator sets, Selected according to the practical application of automotive, industrial, marine or power generation engine as a driving forceThe M11 series engines u automotive applications Ø ² meet the European No. 1 "productsEngine Model Rated Power kW (bhp) / speed r / min Maximum torque Nm (lb.-ft) / speed r / min.M11-C245183 (245) / 21001058 (780) / 1300M11-C270201 (270) / 21001200 (885) / 1300M11-C290216 (290) / 21001200 (885) / 1300M11-C310231 (310) / 21001265 (993) / 1300M11-C330246 (330) / 21001250 (923) / 1300M11-C350261 (350) / 21001560 (1150) / 1300Note: M11-C245/290/310 applies plateau 4500 meters above sea level² meet the Europe II productsEngine Model Rated Power kW (bhp) / speed r / min Maximum torque Nm (lb.-ft) / speed r / min.ISM305E 20224 (301) / 19001550 (1143) / 1200ISM305ESP 22224 (301) 19001450 (1069) / 1200ISM340E 20250 (335) / 19001670 (1252) / 1200ISM380E 20280 (375) / 19001825 (1346) 1200ISM405E 20298 (399) / 19002000 (1475) / 1200ISM410E 20300 (402) / 19002000 (1475) / 1200ISM440E 20324 (426) / 19002100 (1549) / 1200Engine Model Rated Power kW (bhp) / speed r / min Maximum torque Nm (lb.-ft) / speed r / min.ISMe335 30246 (330) / 19001410 (1040) / 1200ISMe345 30254 (341) / 19001710 (1262) / 1200ISMe385 30283 (380) / 19001835 (1354) / 1200ISMe420 30306 (410) / 19002010 (1483) / 1200² meet the European III productsØ NT855 series engine ² meet the European No. 1 "productsEngine Model Rated Power kW (bhp) / speed r / min Maximum torque Nm (lb.-ft) / speed r / min.NTC-250187/21001017/1500NTC-290216/21001261/1500NTC-350261/21001593/1300NTC-400298/21001627/1400Note: NTC-250/290/350 applies plateau 4500 meters above sea levelu Industrial applications Ø M11 Series Engine Model Rated Power kW (bhp) / speed r / min Maximum torque Nm (lb.-ft) / speed r / min.M11-C/P/L225168 (225) / 21001030 (760) / 1300M11-C/P/L250186 (250) / 21001146 (845) / 1300M11-C/P/L270201 (270) / 21001288 (950) / 1300M11-C/P/L290216 (290) / 21001330 (980) / 1300M11-C/P/L300224 (300) / 21001376 (1015) / 1300M11-C/P/L310231 (310) / 21001265 (933) / 1300M11-C/P/L330246 (330) / 21001458 (1075) / 1300M11-C/P/L350261 (350) / 21001560 (1150) / 1300Note: M11-C/P/L225/250/270/290/310 in the plateau 4500 meters above sea level C for construction machinery, P is the fixed power for rail vehicles, the same below.Ø NT855 Series Engine Model Rated Power kW (bhp) / speed r / min Maximum torque Nm (lb.-ft) / speed r / min.NT855-C/P/L250187/21001017/1500NT855-C/P/L280175/18001078/1250NT855-L290216/21001261/1300NTA855-C/P/L310231/21001261/1400NTA855-C/P/L335250/21001364/1500NTA855-C/P/L360268/21001464/1500NTA855-C/P/L400298/21001559/1500NTA855-C/P/L450336/21002100/1500Note: NTC/P/L-280/310/335/360 in the plateau 4500 meters above sea level C for construction machinery, P is the fixed power for rail vehicles, the same below.Ø K19 Series Engine Model Rated Power kW (bhp) / speed r / min Maximum torque Nm / rpm r / min.KT19-C/P/L450336 (450) / 21001907/1300KTA19-C/P/L525426 (525) / 21002237/1300KTA19-C/P/L600448 (600) / 21002237/1500KTTA19-C/P/L675504 (675) / 21002698/1400KTTA19-C/P/L700522 (700) / 21002731/1400Note: KTA-C/P/L600 in the plateau 4500 meters above sea level C for construction machinery, P is the fixed power for rail vehicles, the same below.Ø K38 Series Engine Model Rated Power kW (bhp) / speed r / min Maximum torque Nm / rpm r / min.KT38-C/P/L925690 (925) / 21004095/1300KTA38-C/P/L1050783 (1050) / 21004631/1300KTA38-C/P/L1200895 (1200) / 21004678/1300KTTA38-C/P/L13501007 (1350) 21005264/1300Ø K50 and Series Engine Model Rated Power kW (bhp) / speed r / min Maximum torque Nm / rpm r / min.KTA50-C/P/L13501007 (1350) 21005264/1300KTA50-C/P/L160011194 (1600) 21005966/1300KTTA50-C/P/L18001343 (1800) 21007020/1300K1800E1343 (1800) 19007085/1300K2000E1492 (2000) 19007865/1300host of u for marine applications Ø ² NT855 series engine Engine Model kW (bhp) / speed r / min Power CalibrationNT855-M240179 (240) / 1800 continuous powerNT855-M270201 (270) / 1800 continuous powerNT855-M300224 (300) / 1800 continuous powerNT855-M340254 (340) / 1800 overloaded powerNT855-M360269 (360) / 2100 secondary continuous power NTA855-M350261 (350) / 1800 continuous powerNTA855-M380283 (380) / 1800 overloaded powerNTA855-M400298 (400) / 2100 secondary continuous power ² K19 series engineEngine Model kW (bhp) / speed r / min Power CalibrationKT19-M365272 (365) / 1800 continuous powerKT19-M380283 (380) / 1800 continuous powerKT19-M425317 (425) / 1800 continuous powerKT19-M470351 (470) / 1800 overloaded powerMedium continuous power KT19-M510380 (510) / 2100KTA19-M470351 (470) / 1800 continuous powerKTA19-M500373 (500) / 1800 continuous powerKTA19-M530395 (530) / 1800 overloaded powerKTA19-M550410 (550) / 2100 secondary continuous power KTA19-M600447 (600) / 1800 continuous powerKTA19-M640477 (640) / 1800 overloaded powerKTA19-M700522 (700) / 2100 secondary continuous power ² K38 series engineEngine Model kW (bhp) / speed r / min Power CalibrationKT38-M800597 (800) / 1800 continuous powerKT38-M850634 (850) / 1950 Medium continuous powerKTA38-M940701 (940) / 1800 continuous powerKTA38-M1045780 (1045) / 1950 secondary continuous power KTA38-M750559 (750) / 1800 continuous powerKTA38-M850633 (850) / 1800 continuous powerKTA38-M900672 (900) / 1600 continuous powerKTA38-M1000745 (1000) / 1800 continuous powerKTA38-M1100820 (1100) / 1800 secondary continuous power KTA38-M1050783 (1050) / 1600 continuous powerKTA38-M1200895 (1200) / 1800 continuous powerKTA38-M1300970 (1300) / 1800 overloaded power² K50 and a series of engineEngine Model kW (bhp) / speed r / min Power CalibrationKTA50-M1250932 (1250) / 1800 continuous powerModerate continuous power KTA50-M13851033 (1385) / 1950KTA50-M14001045 (1400) / 1600 continuous powerKTA50-M16001194 (1600) / 1800 continuous powerKTA50-M17001268 (1700) / 1800 overloaded powerKTA50-M18001343 (1800) / 1900 overloaded powerØ auxiliary ² NT855 series engineThe engine model standby power kW / kW / speed r / min often contained speed r / min. NTA855-G1 (M) 265/1500240/1500NTA855-G2 (M) 321/1500263/1500NTA855-G4 (M) 351/1500317/1500² K19 series engineThe engine model standby power kW / kW / speed r / min is often contained speed r / min. KTA19-G2 (M) 369/1500336/1500。