131015_LG_Chem_Automotive(ABS,_EP)-Final2-中文[1]

threebond 1215 执行标准-回复首先，我们将开始介绍具体的执行标准——Threebond 1215。

Threebond 1215是一种特殊的密封剂，由ThreeBond公司生产。

它是一种液体化学品，主要用于密封汽车和其他机械设备的连接处。

Threebond 1215具有优异的耐热性、耐油性和耐腐蚀性，使其成为许多行业中理想的密封材料。

接下来，我们将详细说明Threebond 1215的执行标准。

执行标准是制造商为了确保产品质量并提供一致性的指导方针。

Threebond 1215的执行标准包括以下几个方面：1. 成分规格：执行标准明确规定了Threebond 1215所含化学成分的比例和范围。

这有助于确保产品的一致性和性能。

2. 物理性能：执行标准涵盖了Threebond 1215的物理性质，例如粘度、流动性和凝固时间。

这些参数直接影响Threebond 1215在密封过程中的应用性能。

3. 安全要求：Threebond 1215的执行标准还包括有关产品的安全要求，以确保在使用和储存过程中没有任何潜在风险。

这些安全要求可能包括关于适当的防护装备和储存条件的建议。

4. 使用方法：执行标准中还包括Threebond 1215的使用指南，包括适用的设备和工具，施工步骤以及适用的条件（如温度、湿度等）。

这些步骤和条件的遵循有助于确保产品的正确使用和应用。

5. 质量控制：执行标准还涵盖了关于Threebond 1215制造和质量控制的要求。

这些要求可能包括对原材料和成品的质量检验、生产线的监控和记录，以及问题解决和客户反馈的程序。

最后，我们将重点讨论Threebond 1215执行标准的实际应用。

执行标准不仅仅是纸上的理论，它们在实际操作中起着至关重要的作用。

遵循Threebond 1215的执行标准可以确保产品质量的一致性，并最大限度地提高产品的性能。

在汽车制造业中，Threebond 1215被广泛用于密封引擎、传动系统和排气系统等关键部件的连接处。

FACT SHEETSJA1110 The SJA1110 automotive Ethernet switchfamily offers innovative and dedicated safetyand security features designed for optimalintegration in auto ECUs. The four switchvariants enable modular ECU design andplatforms and support different automotiveapplications such as gateways, ADAS boxes,and infotainment ECUs.KEY FEATURES• I ntegrated 100BASE-T1 and 100BASE-TX PHYs• Integrated Arm® Cortex®-M7 based core• Best-in class packet inspection and DoS preventioncapabilities• Advanced secure boot capabilities• Purpose built functional safety features• Support for Wake-over-Ethernet (OPEN TC10)• Rich set of Time-Sensitive Networking (TSN) standards• Rich set of NXP original AVB and AUTOSAR® software• System solution with S32G Vehicle Networking Processorand VR5510 power management unitSJA1110 ETHERNET SWITCH BLOCK DIAGRAMENABLEMENT• Production-grade Software Development Kit (SDK)• Native integration with NXP Design Studio IDE• Production grade AUTOSAR drivers• Production grade AVB/802.1AS synchronization protocol middleware• Evaluation board compatible with NXP’s Smart Application Blueprint for Rapid Engineering (SABRE)• Linux® DriversSJA1110 TSN ETHERNET SWITCH/SJA1110NXP and the NXP logo are trademarks of NXP B.V. All other product or service names are the property of their respective owners. Arm and Cortex are trademarks or registered trademarks of Arm Limited (or its subsidiaries) in the US and/or elsewhere. The related technology may be protected by any or all of patents, copyrights, designs and trade secrets. All rights reserved. © 2022 NXP B.V.Document Number: SJA1110AUTESFS REV 1NETWORKING APPLICATIONS • Optimized NXP chipset solution with S32G processor enables unmatched routing, firewalling, intrusion/detection/prevention capabilities • Best-in-class TCAM-based frame inspection for IDPS support, DOS prevention and advanced frames management • BOM optimization features include compatibility with VR5510 PMIC, four pin-compatible variants and optimized cascaded configurationADAS APPLICATIONS• Functional safety-dedicated features improving ECU safety design • Safety manual enable optimized safety design up to ASIL-D ECUs • Automotive Grade 1 (-40 / +125° C) capability for optimized PCB design • High-SGMII count for EMC friendly design • Production-grade AUTOSAR drivers• Compatible with TTTEch ® MotionWise ® middleware INFOTAINMENT/CLUSTER APPLICATIONS• Multi-gigabit SGMII for external Gigabit and Multi-Gigabit PHYs • Autonomous operation support avoids dependency from untrusted external host • Avnu ®-Certified* AVB/gPTP stack for integrated controller• Support for Wake over Ethernet (OPEN TC10)• Integrated controller with programmable GPIOs。

WELDMARK 135 PLUSOPERATOR’S MANUALIM789April, 2006Safety Depends on YouLi ncoln arc weldi ng and cutti ng equi pment i s desi gned and bui lt with safety in mind. However, your overall safety can be increased by proper installation ... and thought-ful operati on on your part.DO NOT INSTALL, OPERATE OR REPAIR THIS EQUIPMENT WITHOUT READING THIS MANUAL AND THE SAFETY PRECAUTIONS CONTAINED THROUGHOUT.And, most mportantly, thi nk before you act and be careful.For use with machine Code Numbers : 10975ISO 9001Designed and Manufactured Under aQuality Program Certified by ABS Quality Evaluations, Inc.Copyright © 2006 Lincoln Global Inc.This manual covers equipment which is nolonger in production by The Lincoln Electric Co. Speci cations and availability of optional features may have changed.Mar ‘95Mar. ‘93for selecting a QUALITY product by Lincoln Electric. We want you to take pride in operating this Lincoln Electric Company product ••• as much pride as we have in bringing this product to you!vvvi viTECHNICAL SPECIFICATIONS – WELDMARK 135 PLUSRead entire installation section before starting installation.SAFETY PRECAUTIONSIDENTIFY AND LOCATECOMPONENTSI f you have not already done so, unpack the Welder from its carton and remove all packing material Remove the following loose items from the carton (see Figure A.1):1. WELDMARK 135 PLUS2.Gun and cable assembly (1)3.Literature and miscellaneous including: a)This operating manualb)A contact tip for .030” (0.8 mm) diameter wire.4.10 ft (3.0 m) work cable.5. Work clamp.6. Sample Spool of Super Arc L-56 .025 MIG Wire.7. Adjustable mixed-Gas Regulator & Hose.For available options and accessories refer to the accessories section later in this manual.1)As shipped from the factory, the welding gun is ready to feed .023 or .025 (0.6 mm) wire.GENERAL DESCRIPTION Array The WELDMARK 135 PLUS is a complete semiauto-matic constant voltage DC arc welding machine. Included is a solid state controlled, single phase con-stant voltage transformer/ rectifier power source and a wire feeder for feeding solid steel electrode and cored electrode.The WELDMARK 135 PLUS is ideally suited for indi-viduals having access to 115 volt AC input power, and wanting the ease of use, quality and dependability of both gas metal arc welding or GMAW (also known as MIG welding) and the Innershield electrode process (self shielded flux cored or FCAW). The WELD-MARK135 PLUS is a rugged and reliable machine that has been designed for dependable service and long life.RECOMMENDED PROCESSESThe WELDMARK 135 PLUS can be used for welding mild steel using the GMAW, single pass, process which requires a supply of shielding gas or it can be used for the self shielded, Innershield electrode process (FCAW). The WELDMARK 135 PLUS is con-figured for use with the GMAW (MIG) process as delivered from the factory.OPERATIONAL FEATURES AND CONTROLSThe WELDMARK 135 PLUS has the following controls as standard: Power ON/OFF Switch, Voltage Control, Wire Speed Control, and a Circuit Breaker.DESIGN FEATURES AND ADVANTAGES●Operates on 115 volt input .●Solid state output control.●“Cold electrode” until gun trigger is pressed for anadded measure of safety.●Overload protection — incorporates both a thermo-stat and a circuit breaker.●Quality wire drive with electronic overload protec-tion.●Easy-to-set continuous range controls for precisesetting of arc voltage and wire speed.●Continuous voltage control.●“Quick Release” idle roll pressure arm is easilyadjusted.Shielding GasWhen using the GMAW process, a cylinder of shield-ing gas, must be obtained. Refer to the ACCES-SORIES section for more information about selecting gas cylinders for use with the WELDMARK 135 PLUS.1.For CO 2, open the cylinder very slowly. For argon-mixed gas, open cylinder valve slowly a fraction of a turn. When the cylinder pressure gauge pointer stops moving, open the valve fully.2.If using a regulator with an adjustable flow meter,close the gun trigger and adjust the flow to give 15– 20 cubic ft per hour (CFH) (7 – 10 I/min) [use 20-– 25 CFH (10 – 12 I/min) when welding out of position or in a drafty location for CO 2]. For argon mixed gas, trigger to release gas pressure, and turn off the adjust the flow to give 25 – 30 CFH (12– 14 I/min).3.Keep the cylinder valve closed, except when usingthe welder. When finished welding:a)Close the cylinder valve to stop gas flow.b)Depress the gun trigger briefly to release the pressure in the gas hose. c)Turn off the welder.Making A Weld1.See Recommended Processes And Equipment section for selection of welding wire and shielding gas and for range of metal thicknesses that can be welded.2.See the Application Chart on the inside of wire feed section door for information on setting the SP-135 PLUS controls.3.Set the Voltage (“V ”) and Wire Speed (“olo ’”) con-trols to the settings suggested for the welding wire and base metal thickness being used.FIGURE B.54.Check that the polarity is correct for the welding wire being used and that the gas supply, if required, is turned on.5.When using Innershield electrode, remove the gas nozzle and install the gasless nozzle. This will improve visibility of the arc and protect the gas dif-fuser from weld spatter. Refer to the MAINTE-NANCE section for details on nozzle replacement.6.Refer to Figure B.7. Connect work clamp to metal to be welded. Work clamp must make good elec-trical contact to the workpiece. The workpiece must also be grounded as stated in “Arc Welding Safety Precautions ” in the beginning of this manu-al.7.Position gun over joint. End of wire may be lightly touching the work.8.Lower welding helmet, close gun trigger, and begin welding. Hold the gun so the contact tip to work distance is about 3/8 inch (10 mm).Thermal ProtectionThe WELDMARK 135 PLUS duty cycle is exceeded a thermostat will shut off the output until the machine cools to a normal operating temperature. This is an automatic function and is self resetting.Wire Feed Overload ProtectionIf the WELDMARK 135 PLUS has an automatic elec-tronic protection circuit to protect the wire feed motor. If excessive motor overload occurs (due to excessive feeding force, jammed drive rolls, or shorted motor leads) the circuit will shut down the wire feed motor and the welding power output.The wire feed shut-down circuit will reset automatically when the gun trigger is released. However shut-down will reoccur if the overload situation is not corrected.4.KP666-035C Knurled Drive Roll (optional) —Reversible Drive Roll with double knurled grooves for .035 (0.9 mm) cored electrode.5. K549-1 .035 (0.9 mm) I nnershield Welding Kit Includes a contact tip, a gasless nozzle and a cable liner to permit the Magnum ™100L gun and cable to use .030/.035” (0.8-0.9 mm) diameter flux-cored electrode. Also included is a spool of .035 (0.9 mm)Innershield NR-211-MP.OPTIONAL ACCESSORIES1.K520 Utility Cart — Designed to transport the Lincoln family of small welders. Has provisions for mounting a single gas cylinder. Has front casters and large rear wheels. Handle height is easily adjustable. Bottom tray provided for tools and accessories. Easy assembly required; takes less than 15 minutes.2.K586-1 Deluxe Adjustable Gas Regulator &Hose KitAccommodates CO 2or mixed Gas Cylinders.3.K663-2 Aluminum Welding Kit — This kit is rec-ommended for welding with .035 Aluminum wire.Included with this kit are a drive roll, liner and con-tact tip. It is important when changing between welding with steel wire and aluminum to exchange these components due to the lubri-cant applied to steel wire. Failure to do so may result in contaminated welds when welding alu-minum.See Maintenance section for instructions on installing drive roll, cable liner, contact tip and their proper configuration.2.Replace worn contact tips as required. A variable or “hunting ” arc is a typical symptom of a worn con-tact tip. To install a new tip, choose the correct size contact tip for the electrode being used (wire size is stenciled on the side of the contact tip) and screw it snugly into the gas diffuser.3.Remove spatter from inside of gas nozzle and from tip after each 10 minutes of arc time or as required.4.Be sure the gas nozzle is fully screwed onto the diffuser for gas shielded processes. For the Innershield ®process, the gasless nozzle should be screwed onto the diffuser.5.To remove gun tube from gun, remove gas nozzle or gasless nozzle and remove diffuser from gun tube. Remove both collars from each end of the gun handle and separate the handle halves.Loosen the locking nut holding the gun tube in place against the gun end cable connector.Unscrew gun tube from cable connector. To installgun tube, screw the locking nut on the gun tube as far as possible. Then screw the gun tube into the cable connector until it bottoms. Then unscrew (no more than one turn) the gun tube until its axis is perpendicular to the flat sides of the cable connec-tor and pointed in the direction of the trigger.Tighten the locking nut so as to maintain the proper relationship between the gun tube and the cable connector. Replace the gun handle, trigger and dif-fuser. Replace the gas nozzle or gasless nozzle.CONFIGURATION OF COMPONENTS IN WIRE FEEDING SYSTEM• If .030 Solid wire feeding is desired obtain an KP2039-2B1 Contact Tip, an KP1937-2 Cable Liner and an M15448 Drive Roll (Smaller Groove).* It is important when changing between welding with steel wire and aluminum to exchange feeding components due to the lubricant applied to steel wire. Failure to do so may result in contaminated welds when welding aluminum.ΔRecommended for best feeding performance.CHANGING THE CONTACT TIP1.Unplug or turn power switch to Off “O” position.2.Refer to Figure D.2. Remove the gas nozzle fromthe gun by unscrewing counter-clockwise.3.Remove the existing contact tip from the gun byunscrewing counter-clockwise.4.Insert and hand tighten desired contact tip.5.Replace gas nozzle.CHANGI NG THE WELDMARK 135 PLUS FOR USE WI TH I NNERSHI ELD FLUX CORED WIRE•Change The Contact Tip1.Refer to Figure D.2. Remove the gas nozzle fromthe gun by unscrewing counter-clockwise.2.Remove the existing contact tip from the gun byunscrewing counter-clockwise.3.Insert and hand tighten the contact tip for use with0.035” Innershield Flux Cored Wire.4.Replace gas nozzle – The gasless nozzle may be used instead of the gas nozzle to give improved visi-bility of the arc.CHANGING DRIVE ROLLThe drive roll, Figure D.1 Item 1, has two grooves; one for .023" – .025" (0.6 mm) solid steel electrode and a larger groove for .030" (0.8 mm) solid and .035" (0.9 mm) flux-cored steel electrode. As shipped, the drive roll is installed in the .023"-.025" (0.6 mm) position.If .030"/.035" (0.8/0.9 mm) wire is to be used, the drive roll must be reversed as follows:1.Turn the power switch to OFF(marked “O”).2.Release the spring-loaded idle arm tensioner,Figure D.1 Item 2, and lift the idle roll arm, FigureD.1 Item 3, away from the drive roll.3.Loosen the Phillips Head screw holding the driveroll onto the drive shaft.If machine case sides and top are removed, the case front must be supported. Failure to do this could result in mechanical or electrical damage to the welder.___________________________________________________________________This Troubleshooting Guide is provided to help you locate and repair possible machine malfunctions.Simply follow the three-step procedure listed below.Step 1.LOCATE PROBLEM (SYMPTOM).Look under the column labeled “PROBLEM (SYMP-TOMS)”. This column describes possible symptoms that the machine may exhibit. Find the listing that best describes the symptom that the machine is exhibiting.Step 2.POSSIBLE CAUSE.The second column labeled “POSSIBLE CAUSE ” lists the obvious external possibilities that may contribute to the machine symptom.Step 3.RECOMMENDED COURSE OF ACTIONThis column provides a course of action for the Possible Cause, generally it states to contact your local Authorized Field Service Facility.If you do not understand or are unable to perform the Recommended Course of Action safely, contact your local Authorized Field Service Facility.HOW TO USE TROUBLESHOOTING GUIDEService and Repair should only be performed by Factory Trained Personnel. Unauthorized repairs performed on this equipment may result in danger to the technician and machine operator and will invalidate your factory warranty. For your safety and to avoid Electrical Shock, please observe all safety notes and precautions detailed throughout this manual.__________________________________________________________________________TROUBLESHOOTING GUIDEObserve Safety Guidelinesdetailed in the beginning of this manual.TROUBLESHOOTING GUIDE Observe Safety Guidelinesdetailed in the beginning of this manual.TROUBLESHOOTING GUIDE Observe Safety Guidelinesdetailed in the beginning of this manual.WELDMARK 135 PLUSNOTE: This diagram is for reference only. It may not be accurate for all machines covered by this manual. The specific diagram for a particular code is pasted inside the machine on one of the enclosure panels.WELDMARK 135 PLUSNOTES WELDMARK 135 PLUSJapaneseChineseKoreanArabicREAD AND UNDERSTAND THE MANUFACTURER’S INSTRUCTION FOR THIS EQUIPMENT AND THE CONSUMABLES TO BE USED AND FOLLOW YOUR EMPLOYER’S SAFETY PRACTICES.SE RECOMIENDA LEER Y ENTENDER LAS INSTRUCCIONES DEL FABRICANTE PARA EL USO DE ESTE EQUIPO Y LOS CONSUMIBLES QUE VA A UTILIZAR, SIGA LAS MEDIDAS DE SEGURIDAD DE SU SUPERVISOR.LISEZ ET COMPRENEZ LES INSTRUCTIONS DU FABRICANT EN CE QUI REGARDE CET EQUIPMENT ET LES PRODUITS A ETRE EMPLOYES ET SUIVEZ LES PROCEDURES DE SECURITE DE VOTRE EMPLOYEUR.LESEN SIE UND BEFOLGEN SIE DIE BETRIEBSANLEITUNG DER ANLAGE UND DEN ELEKTRODENEINSATZ DES HER-STELLERS. DIE UNFALLVERHÜTUNGSVORSCHRIFTEN DES ARBEITGEBERS SIND EBENFALLS ZU BEACHTEN.JapaneseChineseKoreanArabicLEIA E COMPREENDA AS INSTRUÇÕES DO FABRICANTE PARA ESTE EQUIPAMENTO E AS PARTES DE USO, E SIGA AS PRÁTICAS DE SEGURANÇA DO EMPREGADOR.• Manufactured by Lincoln Electric Company•Cleveland, Ohio 44117-1199 U.S.A. TEL: 216.481.8100 FAX: 216.486.1751 WEB SITE: 。

User's ManualThank you for purchasing the GOT1000 Series.MODEL GT15-QBUS/GT15-QBUS2/GT15-ABUS/GT15-ABUS2BUS CONNECTION UNITPrior to use, please read both this manual and detailed manual thoroughly to fully understand the product.MODEL GT15-BUS-U MODEL CODE1D7M39IB(NA)-0800323-D(0610)MEEz SAFETY PRECAUTIONS z(Always read these precautions before using this equipment.)Before using this product, please read this manual and the relevant manuals introduced in this manual carefully and pay full attention to safety to handle the product correctly. The precautions given in this manual are concerned with this product. In this manual, the safety precautions are ranked as "DANGER" and "CAUTION".both levels because they are important to personal safety.Please save this manual to make it accessible when required and always forward it to the end user.[DESIGN PRECAUTIONS]Indicates that incorrect handling may cause hazardous conditions, resulting in death or severe injury.Indicates that incorrect handling may cause hazardous conditions, resulting in medium or slight personal injury or physical damage.[INSTALLATION PRECAUTIONS][TRANSPORTATION PRECAUTIONS]ManualsThe following shows manuals relevant to this product.For relevant manuals, refer to the PDF manual stored within the drawing software used.© 2005 MITSUBISHI ELECTRIC CORPORATIONCompliance with the EMC and Low Voltage DirectivesWhen incorporating the Mitsubishi GOT into other machinery or equipment and keeping compliance with the EMC and low voltage directives, refer to "EMC AND LOW VOLTAGE DIRECTIVE" of the GT15 User's Manual.The CE logo is printed on the rating plate of the GOT, indicating compliance with the EMC and low voltage directives.By making this product conform to the EMC directive and low voltage instruction, it is not necessary to make those steps individually.Product ComponentsThe bus connection unit consists of the following items.1. OverviewThis User's Manual describes the GT15 bus connection unit (hereinafter abbreviated as bus connection unit).There are the following bus connection unit types.Refer to the GT15 User's Manual for the applicable e the bus connection unit for making bus connection of the GOT.Select the used bus connection unit according to the connection target and connection position.Detailed ManualManual nameManual Number (Type code)GT15 User's Manual(Option)SH-080528ENG (1D7M23)GOT1000 Series Connection Manual(Option)SH-080532ENG (1D7M26)Relevant ManualsModel nameProduct nameQuantityGT15-QBUS,GT15-ABUSEither GT15-QBUS or GT15-ABUS 1A set of screws (2 screws, 2 labels)1GT15-QBUS2,GT15-ABUS2Either GT15-QBUS2 or GT15-ABUS21A set of screws (2 screws, 2 labels)2Extension interface relay board1Product nameModel name DescriptionBus connectionunitGT15- QBUSQCPU (Q Mode) bus connection Number of connectors: 1GT15- QBUS2QCPU (Q Mode) bus connection Number of connectors: 2GT15- ABUS QnA/ACPU bus connection Number of connectors: 1GT15- ABUS2QnA/ACPU bus connection Number of connectors: 2<Bus connection unit selection example>(1)Select the bus connection unit according to theconnection target.When using the bus connection, make the communication settings to perform communication between the GOT and PLC.Refer to the GOT1000 Series Connection Manual for details of bus connection.2. SpecificationsThe performance specifications of the bus connection unit are indicated below.Refer to the used GT15 User's Manual for the general specifications of the bus connection unit.*When the GOT power is on, the internal current consumption is included in the current consumption of the GOT.When the GOT power is off, the internal current is supplied from the power supply of the PLC system.3. Part Names and External DimensionsWhen using bus connection unit, use a standard monitor OS and communication driver of GT Designer2 Version2.15R or later.With a standard monitor OS and communication driver of an older version, the GOT has cannot recognize the unit to perform monitoring.Item GT15-QBUS GT15-QBUS2GT15-ABUS GT15-ABUS2I/O occupiedpoints 16 points (I/O assignment: 16 intelligent points)32 points (I/O assignment:Special 32 points)Internal consumed current (DC5V)*0.44A 0.44A 0.12A 0.12A Weight0.13kg0.14kg0.13kg0.14kg(2)GT15-QBUS2, GT15-ABUS2Extension interface relay boardDimensions of X when mounted to the GOT.Unit: mm (inch)15”, 10.4”21 (0.83)12.1”18 (0.71)8.4”, 5.7”23 (0.91)Description1)Bus connector (IN side)Connector for connecting the bus connection cable (IN side)2)Bus connector (OUT side)Connector for connecting the bus connection cable (OUT side)3)Interface connector Extension connector installed to a front extension unit or the GOT 4)Extension connector Extension connector to which a back extension unit is installed 5)Mounting screw Mounting screws fixed with a front extension unit or GOT 6)Board fixing screw Screw for fixing the extension interface relay board7)Rating plate- 4. Installation Procedure(1)GT15-QBUS, GT15-ABUS1)Power off the GOT.2)Remove the two expansion unit covers of the GOT.3)Fit the bus connection unit along the groove of the GOT case.4)Fasten the bus connection unit by tightening itsmounting screws (2 places) with tightening torgue 0.36 to 0.48 N•m.5)When installing an extension unit on the unit that has been installed, remove the connector cover and the seal.When not installing an extension unit on the unit that has been installed, in order to avoid receivingelectrostatic, stick accessory labels to cover the top of mounting screws (2 places). Keep the connector cover fixed. Keep the seal stuck as it is.(2)GT15-QBUS2, GT15-ABUS21)Power off the GOT.2)Remove the two expansion unit covers of the GOT.I/F-2 side on the GOT. For GT155, the extension interface relay board is not needed.4)Fit the bus connection unit along the groove of the GOT case.5)Fasten the bus connection unit by tightening itsmounting screws (4 places) with tightening torgue 0.36 to 0.48 N•m.6)Fasten the bus connection unit by tightening the board fixing screws (2 places) with the tightening torque of 0.36 to 0.48 N•m.mounting screws (4 places). Keep the connector cover fixed. Keep the seal stuck as it is.PointRemove the screws that fixes the extend interface relay board before removing the unit.(Above 6))WarrantyMitsubishi will not be held liable for damage caused by factors found not to be the cause of Mitsubishi; machine damage or lost profits caused by faults in the Mitsubishi products; damage, secondary damage, accident compensation caused by special factors unpredictable by Mitsubishi; damages to products other than general industries, and has not been designed or manufactured to be incorporated in a device or system used in purposes related to human life.•Before using the product for special purposes such as nuclear power, electric power, aerospace, medicine or passenger movement vehicles, consult with Mitsubishi.•This product has been manufactured under strict quality control. However, when installing the product where major accidents or losses could occur if the product fails, install appropriate backup or failsafe functions in the system.。

中国rohs2.0标示sdoc -回复中国RoHS2.0标示SDOC（Supplier Declaration of Conformity）是指供应商自行声明符合中国RoHS2.0标准的文件。

RoHS2.0，即《限制使用某些有害物质指令》第二版，是对电子电气设备中使用的有害物质的限制要求。

SDOC是供应链中的重要文件，它提供了关于产品是否符合RoHS2.0要求的证明。

第一步：了解RoHS2.0标准的背景和目的RoHS2.0标准是为了限制使用在电子电气设备中的有害物质。

有害物质包括铅、汞、镉、六价铬、多溴联苯（PBB）和多溴二苯醚（PBDE）。

这些物质对人体健康和环境有潜在的危害，因此需要通过标准来限制它们的使用。

第二步：了解SDOC的定义和要求SDOC是供应商自行声明的文件，它证明供应商的产品符合RoHS2.0标准的要求。

SDOC通常包括以下内容：1. 供应商的基本信息，包括名称、地址和联系方式。

2. 产品的基本信息，包括型号、规格和供应商自行编码等。

3. 供应商的声明，证明产品符合RoHS2.0标准的要求。

4. 供应商的签名和日期。

第三步：了解SDOC的编制过程编制SDOC需要以下步骤：1. 了解RoHS2.0标准的具体要求，包括有害物质的限制和测试方法等。

2. 通过内部检测或第三方检测来确定产品是否符合RoHS2.0标准的要求。

3. 收集产品相关材料的测试报告和证明文件，包括材料验证报告和供应商声明等。

4. 编制SDOC文件，包括填写供应商信息、产品信息、供应商声明等内容。

5. 供应商的质量管理团队进行审核和确认，确保SDOC的准确性和可靠性。

6. 供应商签署SDOC并加盖公章，在文件上注明日期。

第四步：SDOC的使用和重要性SDOC是供应商在供应链中的重要文件，它的使用和重要性包括：1. 自证合规：供应商通过SDOC证明其产品符合RoHS2.0标准的要求，自证合规可以提高产品的市场竞争力。

Supplier's guide for product developmentPart 2-core processes 20© Volkswagen, 1446, Konzern-EntwicklungssteuerungSupplier's guide for product development2.1 Procurement processA main focus of the present guide are subjects which are from the point of view of the technical development for new suppliers within the scope of the product development of the biggest meaning. An introduction to processes relevant for suppliers and applications which lie in the area of responsibility of the procurement also counts to it.2.1.1 introductionThe procurement of the Volkswagen group is split in the ranges of Procurement for production material and general procurement. The range of Procurement for production material is made up again of the Commodities displayed in illustration 11.Illustration 11: Overview of the different ranges of the procurementProcurement decisions become short in the Volkswagen group of the Corporate Sourcing Committee (: CSC) grieved. The decisions of this committee are valid about all marks away.Beside the central procurement ranges of every mark the Volkswagen group seats so-called regional shopping offices (RSO = On the regional level Sourcing of office) to open new procurement markets and to upgrade passing ones. Illustration 12 makes clear the present activities of regional procurement offices worldwide.© Volkswagen, 1446, Konzern-Entwicklungssteuerung21Procurement for production materials: parts and components forthe vehicleGeneral Procurement: resources, production of good and services for theproduction processresources, services and systemsProjectPurchasing & Buying Parts Managementmetalinteri orexteriorElectric al & Electron icsSupplier's guide for product developmentRegional offices (Ros) Lander assignmentCentral Europe Eastern EuropeNorth Africa Turkey IndiaIllustration 12: Regional procurement offices of the Volkswagen group worldwide2.1.2 Division of the procurement processesWith the choice and nomination of group suppliers two different procurement processes play a role. These are:❑ Forward Sourcingfor parts to be produced and newly to be developed. This process is used in general with developmentprojects for new vehicles or aggregates❑ Worldwide Sourcingfor the already existing parts manufactured after drawing which should be procured at the respectivemarket locally. The destination of this process is to create market transparency, to optimise thelogistics costs as well as to improve the quality of standard parts.For new ones as well as for standard parts a worldwide inquiry and assignment strategy occurs.The division of the procurement processes is displayed in illustration 13 figuratively.22© Volkswagen, 1446, Konzern-EntwicklungssteuerungSupplier's guide for product developmentIllustration 13: Division of the procurement processes2.1.3 Component procurement in the product process of developmentIn principle two different process attempts are used in the Volkswagen group with Forward Sourcing and Worldwide Sourcing for the component procurement. The temporal classification of these processes in the product life cycle makes clear illustration 14.Illustration 14: Differentiation between Forward Sourcing and Worldwide Sourcing processThe Forward Sourcing process is used with new projects and is linked up to the market launch (ME) with the so-calledpurchase part management process. This process being based on the gate principle makes sure that suppliers are able with manufacturing beginning (SOP = start of Production) to deliver the concerning extents in the respective number of pieces or quality what reduces the project risk again.© Volkswagen, 1446, Konzern-Entwicklungssteuerung23For new parts in existing models in new modelsFor existing share in existing models in new models (carry-over parts)Supplier of highperformance of unit and subsequent production ResponsibilitySupplier with lessdevelopment content as reproducer and / or second applicant for partial volume.before commercial launch After commercial launchForward Sourcing (new parts)Purchased PartsManagement- Forward SourcingGlobal Sourcing (existing components) Purchased PartsManagement-Global Sourcingsupplier information and offersupplier SelectionOf the Worldwide Sourcing process, however, is used only after the market launch of a product and isaccompanied by a suitable purchase part management process with different gates. You find closer information to the purchase part management process for Forward Sourcing and Worldwide Sourcing in chapter 2.5 "Purchase part management".Forward Sourcing processThe procurement process for suppliers in development projects encloses basically three phases displayed in illustration 15.Illustration 15: Phases of the Forward Sourcing of processPhase 1 - Supplier Self-Disclosure and offerThe Volkswagen group determines potential suppliers on the basis of themSupplier Self-Disclosure (LSA). The Volkswagen group transmits to the supplier the inquiry documents (also inquiry package called) on basis more technically, more financially, organizational as well as qualitative demands. The supplier edits these documents and as a result transmits his offer to theVolkswagen group. The suppliers who have received an inquiry must fancy in this phase, besides, with the suitable development department. Besides, the presentation should contain information todeveloping competence and available technologies. The template of pattern parts has turned out in this connection as especially helpful. The contact data of the concerning development department can be taken from the inquiry documents.24 © Volkswagen, 1446, Konzern-EntwicklungssteuerungSupplier Profile and offerSupplier selectionapproval process for Forward Sourcing -suppliers list-Registration on Group Business Platform-Supplier Self-Disclosure -preselection for inquiry -Request to supplier -range of Volkswagen-Presentation of the technical concept in the technical development-TE-Audit-process Audit -Suppliers decision -notification about nomination-kick-off event -SET-work-Purchase Parts Management-Component clearancesproduction releaseSupplier nominated and the beginning of the development process as a first supplierHit Supplier ScreeningTip: With the establishment of contact with the range of Development the supplier should take care with the respective development department proactively of the exhibition of a suitable secrecy arrangement.The arrangement itself is edited about the department of Te of service / office (departmental abbreviation / G).Phase 2 - supplier's choiceThe results of the supplier's judgment with which the abilities (Te and process audit) and capacities of a supplier are determined flow in onto the decision of the group to the nomination of component suppliers. At the end of the ability judgment the supplier receives the classification A, B or C and for a nomination atleast the classification B is necessary. Suppliers with the classification B are obliged to put up anoperation plan with improvement measures. After successful qualification a renewed audit is carried out.An overview about the contents of both audits gives illustration 16.Illustration 16: Overview about the contents of the Te and process audit in the supplier's choiceThe final procurement decisions of the Volkswagen group are based on the one hand on the entries of all partners and, on the other hand, on strategically considerations as well as on the competitiveness of the submitted offers. On this occasion, is to be mentioned that all procurement decisions are madeunanimously.Phase 3 - release process for Forward SourcingIn this phase the Volkswagen group monitors the capacity of the supplier within the respective project.For main components the process of the purchase part management is applied. Besides, are seated to so-called gates - measuring dots for the capacity classification of the supplier - and releases specific for component are monitored. The single gates are closely connected with vehicle landmarks. Developing releases can be thereby traced and it can be guaranteed, that the pattern parts for the respective one© Volkswagen, 1446, Konzern-Entwicklungssteuerung25Landmark are delivered. The purchase part management process becomes short from so-called purchase part management-teams (: KTM teams) monitored and controlled. These consist of representatives of different function ranges and are responsible for the following dots:❑ Realization of regular project talks ❑ Sequential monitoring of the supplier.Global Sourcing processThe procurement process for suppliers within the scope of the Worldwide Sourcing corresponds Extensively to that of the Forward Sourcing:Illustration 17: Phases of the Global Sourcing processPhase 1 - Supplier Self-Disclosure and offerPhase 1 corresponds to that of the Forward Sourcing process. Phase 2 - supplier's choiceThe second phase also corresponds to that of the Forward Sourcing process, howeverif begins after the nomination a process in whose course the supplier industrializes the component for manufacturing and develops as a second developer on the basis of available function and construction space default.26 © Volkswagen, 1446, Konzern-EntwicklungssteuerungSupplier Self-Disclosure and offerSupplier selection Purchased Parts Management Global Sourcing-Registration on Group Business Platform-Supplier Self-Disclosure -Preselection for inquiry -Request to supplier -Range of Volkswagen -Presentation of the technical concept in the technical development-TE-audit-process Audit -suppliers decision -Notification about nomination-kick-off event-Commitmentconversation-Purchased Parts Management -component clearances Hit Supplier ScreeningSupplier nominated and thebeginning of the industrialization process as a second supplierproduction releaseSupplier's guide for product developmentPhase 3 - release process for Global-SourcingThis phase resembles the purchase part management for the Forward Sourcing process.Nevertheless, differences arise with the definitions of the single gates as well as with the kind of the goods to be delivered or results of working (e.g., pattern and prototype). With projects within the scope of the Worldwide Sourcing of process gates Reviews - the final evaluations are attached by reaching of a gate - not to vehicle landmarks, but in between the supplier and the KTM team of agreed appointments.2.1.4 Group business platform and registration processThe Volkswagen group uses the group to business platform to communicate in every phase of a vehicle project with his suppliers. Started with the registration process about the offer delivery up to the pursuit of landmarks and pattern states - the group business platform forms the central turntable for the communication with all organisations of the Volkswagen group with her integrated applications.Illustration 18: Group business platform of the Volkswagen groupTip: On the group business platform there are for every range (e.g., procurement, quality assurance, development) special applications for suppliers. One or several should the applications called in this guide not be available to you, you must let this only about the B2B activate team.© Volkswagen, 1446, Konzern-Entwicklungssteuerung27SuppliersVolkswagen GroupGroup Business PlatformWorldwideinformation and communication hubB2B portalSupplier's guide for product developmentYou reach the B2B team at the following address:b2bteam@the contact data of the B2B of team you find in the range "Help" of herGroup business platform. Illustration 19 shows the range "Help" on the platform and offers an example of integrated applications.Illustration 19: Integrated applications to the group business platformRegistration processHow already in chapter 2.1.3 "Component procurement in the product process of development"described, new suppliers must go through a registration process in the first phase of the procurement process. The first part of the registration on the group business platform forms the so-called Supplier Self-Disclosure which become by choice of the button "Partner!" it is launched. The data transmitted within the scope of the Supplier Self-Disclosure are checked in the second step by the B2B team on correctness. If the data are correct, the B2B switches team the suppliers for the third and last step of the registration process freely. To conclude the registration, now the supplier must enter additional information on the supplier's data bank of the Volkswagen group. Finally the B2B user agreement must be accepted and be set up a Company administrator on the platform. The whole registration process is summarized into illustration 20.28© Volkswagen, 1446, Konzern-EntwicklungssteuerungB2B portalSupplier's guide for product developmentIllustration 20: Registration process for the group business platform (abstract)© Volkswagen, 1446, Konzern-Entwicklungssteuerung29Part 1: Become a partnerPart 2: Data ReviewPart 3: additional informationvisit:and click on the link "Become a Partner""Partners will" click on the link "Start Supplier Questionnaire" and they fill up the formData receive Confirmation and assignment of a registration numberReview of supplier self-assessment by the SITCreating the user record, the initial password registrar obtaining a user ID and for Initial registration in the protected area of the B2Bsupplier platformElectronic confirmation of the B2B User AgreementCreating a user profile for the Company Administratorin UMSCompany information incl. DUNS numberRegistration Numbertest successfulThe B2B AGREEMENT must Moreover, within 6 weeks in the original signed will be sent toVolkswagen.B2B portalSupplier's guide for product developmentYou find closer information to the registration process on the login page the group business platform:→Do you select "partner become"→"The registration process " and afterwards "Supplier Self-Disclosure start". On the left screen page a description of the registration process is available in the PDF format to the download.2.1.5 Supplier Self-DisclosureAs already in chapter 2.1.3 "Component procurement in the product process of development" described, new suppliers must go through a so-called Supplier Self-Disclosure in the first phase of the procurement process. The forms necessary for it - in Volkswagen also LSA forms called - are made available by the buyer responsible for component. The satisfactory form offers to Volkswagen the first overview about the product portfolio of the supplier, available technologies, present customers (e.g., animal one, animal two), the organizational structure (e.g., technical arrangements, joint-ventures) as well as about capacities and the respective capacity spectrum (e.g., quality assurance, development).Illustration 21: LSA formTip: The LSA form is to be filled very completely. Only so is made sure that inquiries are sent by the procurement to possible suppliers.Supplier's guide for product development2.1.6 Information specific for development in the inquiry packageThe destination of the first phase of the procurement process (supplier's information / offer) is to be decided it whether a supplier comes to the narrower choice. The offer delivery on the part of the supplier occurs online about the application "Online Requests (ESL)" (ESL: Electronic Supplier link) on the group business platform. Click on the following icon to access this application:Illustration 22: The application "Online-Anfragen (ESL)" to the group business platformOffers are specific for project and specific for component. The supplier must guarantee that all aspects find consideration concerning the used technology, the production procedure and the load notebook standards on offer. The procurement of the Volkswagen group can make sure by the fact that all offers are comparable. However, the supplier can make sure with the fact that no important and information possibly relevant for price is absent to the respective component.Illustration 23 shows the inquiry overview with the different inquiry kinds in the application "ESL".List of sent requestsIllustration 23: Inquiry overview in ESLInquiry kind Every component is requested separately. These inquiries (also RFQ or Request for Quotation) are also specific for vehicle and are divided into Global Sourcing inquiries and Forward Sourcing inquiries. You find closer information to both procurement processes in chapter 2.1.2 "Division of the procurement processes". In the inquiry list both inquiry kinds can be distinguished with the help of the abbreviations fa for Forward Sourcing and G for Global Sourcing.Contacts for every part are fixed by different ranges involved in the respective development project of Contact. These are also performed in every inquiry and are to be consulted with questions to the inquiry documents.Contents relevant for development of the inquiry package The inquiry packages relevant for development (compressed in the ZIP format) are marked in illustration 24 and must be considered in the offer delivered by the suppliers.3.Offer SpecificDocuments1. Volkswagen brand2. Volkswagen GroupSpecific inquiry ContactIllustration 24: Contact information of a selected inquiry package and contents relevant for developmentOf inquiry package1) Looks at documents specific for offer from the position of the product development, this package containsall essential, information on offer to be considered to the component requested in each case.The typical contents of such a package are performed in the following:❑ Component-load notebook (briefly: BT-LAH or LH) with closer information to himto respective developing standards (e.g., marginal conditions concerning the component or project,used technology, test standards and project management directives)Illustration 25: Component-load notebook❑ Reference drawingIllustration 26: Reference drawing as a basis for the offer❑ Draught responsibility arrangement (KV rate)Purpose of the so-called draught responsibility rate (briefly: KV rate) it is to fix the responsibilites of theparties by the development of components, modules and systems already early obligingly. With theKV rate it concerns a value specific for component which is agreed on basis of the draughtresponsibility arrangement by agreement. Further information about this subject is demonstrated inchapter 2.1.10 "Bases to the draught responsibility arrangement".2) Mark of Volkswagen The second package encloses demands specific for mark and objectives which must be considered on offer:❑ Procurement: Shopping conditions on the procurement of production material❑ Quality: Agreed high-class ability destination.3) Volkswagen group - research & developmentThe first and package to be downloaded by the suppliers on offer to be considered contains information to the following subjects relevant for product development:❑ Volkswagen group norm VW99000 "general demands toCapacity performance within the scope of the component development" see also chapter 2.1.9"juridical arrangements and their influence on technical drawings", chapters 2.2 "of The ProductDevelopment Process of the Volkswagen group" as well as chapters 2.3 "Approval processeswithin the Product Development Process "❑Supplier's manual for prototypesSee also chapter 2.7 "Prototype drawee processes and demands"❑Supplier's guide for product development (this document)❑Manufacturer's password for vehicle parts❑Template part curriculum vitae.2.1.7 Norm data bank of the Volkswagen groupDemands for e.g. components, (Raw) materials, testing methods as well as to the supply of data and components are described in the Volkswagen group with the help of internal norms.To this it is refered in technical drawings as well as in the component-load basting contained in the inquiry package. Illustration 27 shows such a reference.Illustration 27: Reference to covalid norms on technical drawingsIt must be guaranteed by all developing suppliers, that to the project themto in each case actual versions of the norms to be applied are available. This isSupplier's guide for product developmentin particular during the nomination process of meaning, because only is so guaranteed that the offer encloses all demands for components and check.The in each case actual versions of the suitable norms can be downloaded into several languages directly by the group business platform.The application necessary for it called "online norm texts" the group business platform is available to you in the range "information" under the menu dot "Tools". By clicking the following icon you reach directly to the application:In the application "online norm texts (ONNO)" can be seen following norm kinds and be downloaded: ❑Volkswagen group factory Standard – VW❑Technical condition of delivery – TL❑Test instruction – PV❑Technical guideline documentation – TLD❑Construction directive – KR❑High-class specification – QP❑Norm part drawings - N / SDL.The action with the search for norms in the application "online norm texts" is displayed in illustration 30. Norms and directives are published into different languages which are indicated by the suitable land flags. Check after appearance of the hit list which is the in each case actual version of the document.Besides, the application "online norm texts" offers the button Extents about which itself a list of norms specific for project gets which can be downloaded then at regular intervals equem.Tip: Should the application "online norm texts" on the group business platform not be indicated, get in contact please with the B2B team to apply for access. You find the contact data of the SIT in chapter 2.1.4 "Group business platform and registration process".Supplier's guide for product development Illustration 28: Application "online norm texts" on the group business platformSupplier's guide for product development2.1.8 Norm parts and repeated hasteWith all new projects norm haste and repeated haste are to be used mainly from the Volkswagen group norm VW60000 "variation reduction of connection elements". If the part spectrum is not described yet, the parts are short exclusively from the norm part administration system (: To use NVS) of the Volkswagen group. In the norm part administration system information is administered to norm parts, half witnesses and fuels.In addition, are also offered repeated haste of the group. All hyperkV-users also have in the partner company net the access privileges for the NVS (HyperKVS: see chapter 2.9.5 "surgical data interchange").With parts with limited release consultation with the department representatives of the principal (see contacts in the national carriage group norm VW60000) is necessary. The demands of the Volkswagen group norm VW60457 are valid "mechanical connection elements for mechanical connection elements; Requirement profile thread parts".Tip: A localisation of norm - or Repeat parts is to be tuned, in any case, with the release places of the Volkswagen group.2.1.9 Juridical arrangements and their influence on technical drawingsAmong the rest, the Volkswagen group norm VW99000 "general demands to the capacity performance within the scope of the component development" contains demands of juridical kind. With acceptance of this group norm the supplier (or contractor) accepts the juridical arrangement described in it.On this occasion, chapter 2.5 "juridical arrangements" of the Volkswagen group norm VW99000 is to be followed especially. Demands for the data to be provided by the suppliers (e.g., technical drawings) arise from this chapter again. From suppliers submitted offers must enclose the supply of data which may be used by the Volkswagen group in unlimited measure.The suppliers are informed during the procurement process of the responsible buyer about this demand. With nomination these circumstances are held on in a written arrangement. In this connection is to be pointed out to chapter 2.5.5.3 Copyrights of the Volkswagen group norm VW99000.Tip: To avoid civil disputs after the nomination, the Volkswagen group norms VW99000 are "general demands to the capacity performance within the scope of the component development "und VW01058" drawings; to work through inscriptions" from the supplier carefully and completely.38© Volkswagen, 1446, Konzern-EntwicklungssteuerungB2B portalSupplier's guide for product development2.1.10 Bases to the draught responsibility arrangementThe draught responsibility arrangement (briefly: KVV) divides itself into the end of a principle arrangement KVV and into the individual portion of the supplier in the technical draught of a component. The acknowledgement of the KVV by the supplier is a requirement for the assignment of a new part.The portion of the supplier in the technical draught is expressed about the KV rate and is directed after the developing depth requested by the suppliers. Inclusively is valid: the less constructive default by the Volkswagen group, the higher is the KVV portion. The definition of the KV rate by the designer responsible for component takes place in the early draught phase of a new part development and is a component of the inquiry documents (see chapter 2.1.6 "information specific for development in the inquiry package").Following classifications of the KV rates are valid it:❑ series suppliers (low developing depth):KV rate 10%❑ Standard developer ("middle" developing depth):KV rate 30 - 70%❑Draught developer (high developing depth):KV rate 90%As mentioned above the arrangements with KVV are valid for all new parts, are excluded here: ❑ Raw parts❑ Norm parts❑ Company means❑ Process materialYou find further information about the subject draught responsibility arrangement in the range "information" of the business division "Quality assurance" on the group business platform under following link:© Volkswagen, 1446, Konzern-Entwicklungssteuerung39B2B portalSupplier's guide for product development2.1.11 LION - supplier's part information onlineWith LION (supplier's part information online) it concerns an online application. Their main focus lies on the communication between supplier and the Volkswagen group during the preseries phase and initial phase. LION enables to suppliers to retrieve data specific for component from data banks of the Volkswagen group and to update these data independently.LION offers:❑ Actual, clear and standardised exchange of information betweento the Volkswagen group and his suppliers❑ Less redundant inquiries and with it a lowering of the costs forCommunication and coordination❑ Reduction of the treatment expenditure, by manual data inputthere originates and thereby less input error.LION encloses different modules which are used as a function of the project progress. Duties are assigned for each of the part numbers for which he was nominated automatically to the supplier. Such duties are, e.g.: ❑ Listing of pattern appointments and supplier's contact data(LION module "part appointments" and "contact data")❑ Documentation of the part generation and the part curriculum vitae(LION module "part generation state care")❑ Documentation of Reviews and tool appointment pursuit betweenSuppliers and organisations of the Volkswagen group (LION module "CoRe" - Commitment Reviews) The application "LION" is available after occurred registration by the B2B support on the group business platform and can be called by choice of the following icon:Illustration 29 shows how you can access LION.。

Instruction ManualElectric Actuator / Rod Type Series LEYGMotor: AC servo motor (100-200 VAC)The intended use of thisElectrical Actuator is to convert an electrical input signal into mechanical motion.1 Safety InstructionsThese 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 addition to International Standards (ISO/IEC) *1), and other safety regulations. *1)ISO 4414: Pneumatic fluid power - General rules relating to systems. ISO 4413: Hydraulic fluid power - General rules relating to systems.IEC 60204-1: Safety of machinery - Electrical equipment of machines. (Part 1: General requirements)ISO 10218-1: Manipulating industrial robots -Safety. etc.∙ Refer to the product catalogue, Operation Manual and Handling Precautions for SMC Products for additional information. ∙ Keep this manual in a safe place for future reference.CautionCaution indicates a hazard with a low level of risk which, ifnot avoided, could result in minor or moderate injury.WarningWarning indicates a hazard with a medium level of riskwhich, if not avoided, could result in death or serious injury.DangerDanger 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.2 SpecificationsSeries LEYG - Motor: Step [servo 24 VDC]Product Weight [kg]30501001502002503003050100150200250300Incremental E ncoder[S2] 1.80 1.99 2.31 2.73 3.07 3.41 3.67 1.81 2.02 2.26 2.69 2.95 3.27 3.51AbsoluteE ncoder[S6] 1.86 2.05 2.37 2.79 3.13 3.47 3.73 1.87 2.08 2.32 2.75 3.01 3.33 3.57AbsoluteE ncoder[T6] 1.80 2.00 2.40 2.80 3.10 3.50 3.70 1.90 2.10 2.30 2.70 3.00 3.30 3.60Absolute E ncoder[V6]1.701.902.202.603.003.303.601.701.902.202.602.903.203.4030501001502002503003050100150200250300Incremental E ncoder[S2] 3.24 3.50 4.05 4.80 5.35 5.83 6.28 3.24 3.51 3.90 4.64 5.06 5.56 5.96AbsoluteE ncoder[S6] 3.18 3.44 3.99 4.74 5.29 5.77 6.22 3.18 3.45 3.84 4.58 5.00 5.50 5.90AbsoluteE ncoder[T6] 3.20 3.40 4.00 4.70 5.30 5.70 6.20 3.20 3.40 3.80 4.60 5.00 5.50 5.90Absolute E ncoder[V6]3.103.404.004.705.305.706.203.103.403.804.505.005.505.90In-line Motor Type30501001502002503003050100150200250300IncrementalE ncoder[S2] 1.83 2.02 2.34 2.76 3.10 3.44 3.70 1.84 2.05 2.29 2.72 2.98 3.30 3.54AbsoluteE ncoder[S6] 1.89 2.08 2.40 2.82 3.16 3.50 3.76 1.90 2.11 2.35 2.78 3.04 3.36 3.60AbsoluteE ncoder[T6] 1.90 2.10 2.40 2.80 3.10 3.50 3.70 1.90 2.10 2.30 2.80 3.00 3.30 3.60Absolute E ncoder[V6]1.701.902.202.603.003.303.601.702.002.202.602.903.203.4030501001502002503003050100150200250300Incremental E ncoder[S2] 3.26 3.52 4.07 4.82 5.37 5.85 6.30 3.26 3.53 3.92 4.66 5.08 5.58 5.98AbsoluteE ncoder[S6] 3.20 3.46 4.01 4.76 5.31 5.79 6.24 3.20 3.47 3.86 4.60 5.02 5.52 5.92AbsoluteE ncoder[T6] 3.20 3.40 4.00 4.70 5.30 5.80 6.20 3.20 3.40 3.80 4.60 5.00 5.50 5.90Absolute E ncoder[V6]3.203.404.004.705.305.806.203.203.403.804.605.005.505.90Stroke[mm] TypeofMotorLEYG32M LEYG32L Stroke[mm] TypeofMotorSeriesSeriesLEYG25M LEYG25L LEYG25M LEYG25L Stroke[mm] SeriesLEYG32M LEYG32L Stroke[mm] TypeofMotorTypeofMotorSeries2 Specifications (continued)A dditional Weight2532Incremental E ncoder[S2]0.200.40Absolute E ncoder[S6]0.300.66Absolute E ncoder[T6]0.300.70Absolute E ncoder[V6]0.300.60Size LockNote 1) Please consult with SMC for non-standard strokes produced tospecial order.Note 2) This is the maximum value of the horizontal work load. Anexternal guide is necessary to support the load. The actual work load changes according to the condition of the external guide. Confirm the load using the actual device.Note 3) Thrust setting range when "pushing" operation in torque controlmode, etc. Refer to the thrust conversion graph shown in the catalogue as a guide.Set value LEYG25#S/32#S: 15 to 30% Set value LEYG25#T/32#T: 12 to 24% Set value LEYG25#V/32#V: 45 to 90%Note 4) The allowable speed changes according to the stroke.Note 5) The allowable collision speed for collision with the workpiecewith the torque control mode.Note 6) A reference value for correcting an error in reciprocal operation. Note 7) Impact resistance: No malfunction occurred when the actuatorwas tested with a drop tester in both an axial direction and perpendicular direction to the lead screw (the test was performed with the actuator in the initial state).Vibration resistance:No malfunction occurred in a test ranging between 45 to 2000 Hz, when the actuator was tested in both an axial direction and a perpendicular direction to the lead screw (the test was performed with the actuator in the initial state).Note 8) When the motor type is "T6-T9",the resolution will changedepending on the driver type.Note 9) The maximum instantaneous power consumption (including thedriver) is for when the actuator is operating.Note 10) Only when the motor option, "with lock", is selected.Note 11) For an actuator with lock, add the power consumption for thelock.WarningFor special products which include a suffix of “-X#”, “-D#”, please refer to the customer drawing of that specific product.3 Installation3.1 InstallationWarning∙ Do not install the product unless the safety instructions have been read and understood.∙ Do not use the product in excess of its allowable specification as listed in Section 2.∙ Ensure the product is sized correctly and is suitable for the application. ∙ Do not operate the product by fixing the piston rod and moving the actuator body.∙ When installing, inspecting or performing maintenance on the product, be sure to turn off the power supplies. Then, lock it so it cannot be tampered with while work is happening.3.2 EnvironmentWarning∙ Do not use in an environment where corrosive gases, chemicals, salt water 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 of the product’s specifications .∙ Do not mount in a location exposed to radiant heat that would result in temperatures in excess of the product’s specifications. ∙ Prevent foreign particles from entering the product.3 Installation (continued)3.3 MountingWarning∙ Observe the required tightening torque for screws.Unless stated otherwise, tighten the screws to the recommended torque for mounting the product.∙ Do not make any alterations to the product.Alterations made to this product may lead to a loss of durability and damage to the product, which can lead to injury and damage to other equipment and machinery.Do not scratch or dent the sliding parts of the table or mounting face etc., by striking or holding them with other objects. The components are manufactured to precise tolerances, so that even a slight deformation may cause faulty operation or seizure.∙ Do not use the product until it has been verified that the equipment can be operated correctly.After mounting or repair, connect the power supply to the product and perform appropriate functional inspections to check it is mounted correctly.∙ Do not use the product until it has been verified that the equipment can be operated correctly.∙ After mounting or repair, connect the power supply to the product and perform appropriate functional inspections to check it is mounted correctly.∙ Allow sufficient space for maintenance and inspection.Caution∙ When mounting the product, use screws with adequate length and tighten them to the recommended torque.Tightening with larger torque than the specified range may cause mal-function while the tightening with smaller torque can allow the displacement of actuator position. In extreme conditions the actuator could become detached from it’s mounting position.Work fixed / Plate tapped typeTighten the product mounting screws to the specified torque.Tightening to a torque over the specified range can cause operation failure, and insufficient torque can cause displacing or dropping of the attachment.Body fixed / Top mountingBody fixed / Bottom mounting Mounting / Head side tapped styleModel Screw Max.tighteningtorque [Nm]Max. thread depth [mm] LEYG25 M5 x 0.8 3.0 12LEYG32 M6 x 1.0 5.2 12 Model Screw Max.tighteningtorque [Nm]Max. thread depth [mm] LEYG25 M5 x 0.8 3.0 40.3LEYG32 M6 x 1.0 5.2 50.3ORIGINAL INSTRUCTIONSModelLEYG25 LEYG25D (Parallel/In-line )LEYG32 (Parallel type) LEYG32D (In-line type) A c t u a t o r Stroke [mm] Note1)30, 50, 100, 150, 200, 250,300 30, 50, 100, 150, 200, 250,300 30, 50, 100, 150,200, 250,300 Work load [kg] HorizontalNote 2)18 50 50 30 60 60 30 60 60 Vertical 7 15 29 7 17 35 10 22 44Pushing force [N] Note3)65 to 131 127 to 255 242 to 485 79 to 157 154 to 308 294 to 588 98 to 197 192 to 385 368 to 736Maximum Speed[mm/s]Note4)900 450 225 1200 600 300 1000 500 250 Pushing Speed [mm/s]Note5)35 or less 30 or less Acceleration / Deceleration [mm/s 2] 5000 Positioningrepeatability [mm] Basic type ±0.02 Highprecision ±0.01Lost motion [mm] Note6) Basic type 0.1 or lessHigh precision 0.05 or lessLead [mm](including pulley ratio)12 6 3 20 10 5 16 8 4 Impact resistance/vibrationResistance [m/s 2] Note7)50 / 20 Actuation type Ball screw and Belt [1:1] / Ball screw Ball screw and Belt[1.25:1] Ball screwGuide typeSliding bearing (LEYG#M), Ball bush bearing (LEYG#L) Operating temperature range [℃] 5 to 40 Operating humidity range [%RH] 90 or less(No condensation) Regenerative optionMay be required by speed and work load(Refer to catalogue)E l e c t r i c a l Motor output/size 100W ／☐40 200W ／☐60 Type of MotorAC servo motor (100 / 200 VAC) Encoder Note8) Motor type S2-S3:Incremntal 17-bit encoder(Resolution:131072 p/rev)Motor type S6-S7:Absolute 18-bit encoder (Resolution:262144 p/rev)Motor type T6-T7:Absolute 22-bit encoder(Resolution:4194304 p/rev) Motor type V6-V7:Absolute 20-bit encoder (Resolution:1048576 p/rev) Maximum instantaneous power consumption [W] Note9) 445 724 L o c k u n i tType Note10) Non magneting lock Holding force [N] 131 255 485 157 308 588 197 385 736 Power consumption [W] at 20 ℃ Note11) LEY*G(S/T)* /LEY*G V * 6.3 / 5.5 7.9 / 6 Rated voltage[V] 24 VDC 0-10% Model Screw Max.tighteningtorque [Nm]Max. thread depth [mm] LEYG25 M5 x 0.8 3.0 8 LEYG32 M6 x 1.0 5.2 10Model Screw Max.tighteningtorque [Nm] Max. thread length [mm]LEYG25 M6 x 1.05.2 11 LEYG32 M6 x 1.0 5.2 123 Installation (continued)3.4 LubricationCaution∙SMC products have been lubricated for life at manufacture, and do notrequire lubrication in service.∙If a lubricant is used in the system, refer to catalogue for details.∙The recommended grease is lithium grade No.2Applied Region Grease Pack Number Weight [g]Piston rodGuideGR-S-010 10GR-S-020 20∙For products which include a “25A-” prefix the recommended grease islow condensation grease.Applied Region Grease Pack Number Weight [g]Piston rodGuideGR-D-010 104 Wiring4.1 WiringWarning∙Adjustment, mounting or wiring changes should not be carried outbefore disconnecting the power supply to the product.Electric shock, malfunction and damage can result.∙Do not disassemble the cables.∙Use only specified cables.Use only specified cables otherwise there may be risk of fire anddamage.∙Do not connect or disconnect the wires, cables and connectors whenthe power is turned on.Caution∙Wire the connector correctly and securely.Check the connector for polarity and do not apply any voltage to theterminals other than those specified in the Operation Manual.∙Take appropriate measures against noise.Noise in a signal line may cause malfunction. As a countermeasureseparate the high voltage and low voltage cables, and shorten thewiring lengths, etc.∙Do not route input/output wires and cables together with power or highvoltage cables.The product can malfunction due to noise interference and surgevoltage from power and high voltage cables close to the signal line.Route the wires of the product separately from power or high voltagecables.∙Take care that actuator movement does not catch cables.∙Operate with all wires and cables secured.∙Avoid bending cables at sharp angles where they enter the product.∙Avoid twisting, folding, rotating or applying an external force to thecable.Risk of electric shock, wire breakage, contact failure and loss of controlof the product can result.∙Select “Robotic cables”in applications where cables are movingrepeatedly (encoder/ motor/ lock).Refer to the relevant operation manual for the bending life of the cable.∙Confirm correct insulation.Poor insulation of wires, cables, connectors, terminals etc. can causeinterference with other circuits. Also there is the possibility thatexcessive voltage or current may be applied to the product causingdamage.∙R efer to the auto switch references in “Best Pneumatics“ when an autoswitch is to be used4.2 Actuator Ground connectionCaution∙The Actuator must be connected to ground to shield the actuator fromelectrical noise. The screw and cable with crimping terminal andtoothed washer should be prepared separately by the user.4 Wiring (continued)4.3 Wiring of Actuator to ControllerAC servo motor driverWarningUse only specified cables otherwise there may be risk of fire and damage5 How to Order∙For standard products, refer to the catalogue on the SMC website(URL: https://) for the how to order information.6 Outline Dimensions∙For standard products, refer to the catalogue on the SMC website(URL: https://) for outline dimensions.7 Maintenance7.1 General MaintenanceCaution∙Not following proper maintenance procedures could cause the productto malfunction and lead to equipment damage.∙If handled improperly electricity and compressed air can be dangerous.∙Maintenance of electromechanical and pneumatic systems should beperformed only by qualified personnel.∙Before performing maintenance, turn off the power supply and be sureto cut off the supply pressure. Confirm that the power has beendischarged and the air is released to atmosphere.∙After installation and maintenance, apply operating pressure andpower to the equipment and perform appropriate functional andleakage tests to make sure the equipment is installed correctly.∙If any electrical or pneumatic connections are disturbed duringmaintenance, ensure they are reconnected correctly and safety checksare carried out as required to ensure continued compliance withapplicable national regulations.∙Do not make any modification to the product.∙Do not disassemble the product, unless required by installation ormaintenance instructions.∙Incorrect handling can cause an injury, damage or malfunction of theequipment and machinery, so ensure that the procedure for the task isfollowed.∙Always allow sufficient space around the product to complete anymaintenance and inspection.7 Maintenance (continued)7.2 Periodical Maintenance∙Maintenance should be performed according to the table below:AppearanceCheckBelt CheckInspection before daily operation ✓Inspection every six months* ✓✓Inspection every 1,000 km* ✓✓Inspection every 5 million cycles* ✓✓*whichever of these occurs first.∙Following any maintenance, always perform a system check. Do notuse the product if any error occurs, as safety cannot be assured ifcaused by any un-intentional malfunction.7.3 Appearance Check∙The following items should be visually monitored to ensure that theactuator remains in good condition and there are no concerns flagged;・Loose Screws,・Abnormal level of dust or dirt,・Visual flaws / faults,・Cable connections,・Abnormal noises or vibrations.7.4 Belt Check∙If one of the 6 conditions below are seen, do not continue operatingthe actuator, contact SMC immediately.・Tooth shaped canvas is worn out.Canvas fibre becomes “fuzzy”, rubber is removed, and the fibre gainsa white colour. The lines of fibre become very unclear.・Peeling off or wearing of the side of the belt.The corner of the belt becomes round and frayed, with threadsbeginning to stick out.・Belt is partially cut.Belt is partially cut. Foreign matter could be caught in the teeth andcause flaws.・Vertical line of belt teeth.Flaw which is made when the belt runs on the flange.・Rubber back of the belt is softened and sticky.・Crack on the back of the belt.8 Limitations of Use8.1 Limited warranty and disclaimer/compliance requirements∙Refer to Handling Precautions for SMC Products.9 Product disposalThis product should not be disposed of as municipal waste. Check yourlocal regulations and guidelines to dispose of this product correctly, inorder to reduce the impact on human health and the environment.10 ContactsRefer to or www.smc.eu for your local distributor /importer.URL : http// (Global) http// (Europe)'SMC Corporation, 4-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021, JapanSpecifications are subject to change without prior notice from the manufacturer.© 2021 SMC Corporation All Rights Reserved.Template DKP50047-F-085M24VDC(5) Lock cable(4) Encoder cable(3) Motor cable(1) Electric Actuator(2) DriverHostcontroller,etc(6) I/O Connector。

LSHT Torqmotors™ and Nichols™ MotorsBG Series Brake MotorHY13-1590-011/US,EU Exceptional Strength andDurability in a High Performance Motor/Brake PackageThis brake motor consists of a BG Series motor integrat-ed into a wet disc, spring applied, hydraulically released brake. Standard holding capacity is 12,000 lb in of holding torque. The brake is front mounted for reliable operation even in the event of a system failure. The brake release port is capable of pressures to 3000 PSI.Technical Information /TechnischeInformation / Segni/Informacion TecnicaRated Brake Holding Capacity Minimum Full @ Zero Release Pressure Release Pressure Nm (in-lbs) bar (PSI)1350 (12,000)22 (315)12,000 in-lbs is standard holding capacity. For other holding capacities, see page 287.For performance data curves, see TG section.Shaded areas indicate custom order components. Standard pricing and delivery terms may not apply to these* shuttle port position as viewed from the shaft end of the motor with theports up (12:00)** Not applicable to TA365&390, TB365&390, TC365&390, TE365&390,TG625,785&960, TH625,785&960Shaded areas indicate custom order components. Standard pricing and delivery terms may not apply to theseLSHT Torqmotors™ and Nichols™ MotorsBG Series Brake MotorHY13-1590-011/US,EURadial Load / Radiale Wellenbelastung Charges Radiale / Carga Radial The maximum load curve is defined by bearing static load ca-pacity. This curve should not be exceeded at any time includ-ing shock loads.Die maximale radiale Wellenbelastungskurve ist definiert als maximale statische Last ohne Drehzahl. Sie gilt als Grenze und sollte keinesfalls überschritten werden.La courbe de charge maximale est définie par la capacité de charge statique portante. Cette courbe ne devrait être dépassée en aucun moment y compris pour les charges par à-coups.La curva de carga máxima queda definida por la capacidad de carga estática del cojinete. No se deben superar los valores de esta curva, ni siquiera con cargas provisorias de impacto.The dynamic side load curve is based on uni-directional steady state loads for L 10 bearing life at 3 x 106 revolutions.Die zulässige auslegbare radiale Wellenbelastungskurve ist unter ruhenden, einseitig statisch gerichtetenLastverhältnissen auf eine L 10 Lebensdauer mit 3 x 106 Umdrehungen kalkuliert.La courbe de charge latérale permise se base sur des charges unidirectionnelles en régime permanent pour le roulement L 10 à 3 x 106 révolutions.La curva de valores admisibles de carga lateral estábasada en cargas constantes para cojinetes L 10 a 3 x 106 revoluciones.Wheel Mount/RadnabengehauseMonture à roue/ Montaje de ruedaEquation to Calculate the Expected Radial Bearing Life Gleichung zur Ermittlung der LagerlebensdauerEquation to calculate the dynamic bearing life for a given load:Bestimmung der erlaubten radialen Wellenbelastung mit vorgegebener LastUse F a , F b and S in equation to determine hours of L 10 bearing life.Die Lebensdauer in Stunden ergibt sich durch einsetzen von F a , F b , und S in die nachstehende Formel.3 x 106{ F a }3.33L = 60 x S F bWhere / Mit: S = Shaft Speed RPM / Abtriebswellendrehzahl in min -1 L = Life In Hours / Lebensdauer in StundenF a = Dynamic side load defined by above curve at a distance from mounting flange. / Erlaubte radiale Wellenbelastung als Function der LaengeF b = Application side load. / Anwendungsseitige Wellenbelastung Note: Calculations are based on L bearing life per ISO 281.Length "L" "L" Poids/PesoWeight / Gewicht Length "L""L"Code: ASFront Mounting / Front Bolting, 7/8-14 SAE O-RingCode: BM*Poids/Peso Weight / Gewicht Code AS Code BM 0140 0170 0195 0240 0280 0335 0405 0475 0530 0625 0785 0960kg 28.4 28.7 28.9 29.3 29.7 30.1 30.1 30.7 31.3 32.8 34.3 36.1 (lb) (62.6) (63.2) (63.7) (64.5) (65.4) (66.3) (67.6) (69.1) (70.7) (72.3) (75.7) (79.5) mm 233.2 236.4 239.6 244.3 249.1 255.4 262.8 271.3 277.7 287.2 306.3 325.3 (in) (9.18) (9.31) (9.43) (9.62) (9.81) (10.06) (10.35) (10.68) (10.93) (11.31) (12.06) (12.81)0140 0170 0195 0240 0280 0335 0405 0475 0530 0625 0785 0960kg 27.3 27.5 27.8 28.1 28.5 28.9 29.5 30.2 30.9 31.7 33.2 34.9 (lb) (60.2) (60.8) (61.3) (62.1) (63.0) (63.9) (65.2) (66.7) (68.3) (69.9) (73.3) (77.1) mm 192.3 195.3 198.6 203.2 208.0 214.4 221.7 230.4 236.7 246.1 265.2 284.2 (in) (7.57) (7.69) (7.82) (8.00) (8.19) (8.44) (8.73) (9.07) (9.32) (9.69) (10.44) (11.19)Length "L""L"Code: CSRear Mounting/Thru Bolting, 7/8-14 SAE O-Ring0140 0170 0195 0240 0280 0335 0405 0475 0530 0625 0785 0960kg 27.3 27.5 27.8 28.1 28.5 28.9 29.5 30.2 30.9 31.7 33.2 34.9 (lb) (60.2) (60.8) (61.3) (62.1) (63.0) (63.9) (65.2) (66.7) (68.3) (69.9) (73.3) (77.1) mm 192.3 195.3 198.6 203.2 208.0 214.4 221.7 230.4 236.7 246.1 265.2 284.2 (in) (7.57) (7.69) (7.82) (8.00) (8.19) (8.44) (8.73) (9.07) (9.32) (9.69) (10.44) (11.19)Poids/Peso Weight / Gewicht Code CSCode: CBRear Mounting/Thru-Bolting, 7/8-14 SAE Rear PortCode A & C1 1/4" KeyedCode: 051 1/4" 14 Tooth SplineCode: 081 1/4" TaperCode: 191 3/8" J501 Taper Code: 62SAE 14 Tooth Spline。

I P C-7351B N a m i n g C o n v e n t i o n f o r S t a n d a r d S M T L a n d P a t t e r n sSurface Mount Land PatternsComponent, Category Land Pattern Name Ball Grid Array’s...............................BGA + Pin Qty + C or N + Pitch P + Ball Columns X Ball Rows _ Body Length X Body Width X Height BGA w/Dual Pitch.BGA + Pin Qty + C or N + Col Pitch X Row Pitch P + Ball Columns X Ball Rows _ Body Length X Body Width X Height BGA w/Staggered Pins..................BGAS + Pin Qty + C or N + Pitch P + Ball Columns X Ball Rows _ Body Length X Body Width X Height BGA Note: The C or N = Collapsing or Non-collapsing BallsCapacitors, Chip, Array, Concave..........................................................CAPCAV + Pitch P + Body Length X Body Width X Height - Pin Qty Capacitors, Chip, Array, Flat..................................................................CAPCAF + Pitch P + Body Length X Body Width X Height - Pin Qty Capacitors, Chip, Non-polarized.................................................................................................CAPC + Body Length + Body Width X Height Capacitors, Chip, Polarized.....................................................................................................CAPCP + Body Length + Body Width X Height Capacitors, Chip, Wire Rectangle........................................................................................CAPCWR + Body Length + Body Width X Height Capacitors, Molded, Non-polarized...........................................................................................CAPM + Body Length + Body Width X Height Capacitors, Molded, Polarized.................................................................................................CAPMP + Body Length + Body Width X Height Capacitors, Aluminum Electrolytic ............................................................................................................CAPAE + Base Body Size X Height Ceramic Flat Packages.....................................................................................................CFP127P + Lead Span Nominal X Height - Pin Qty Column Grid Array’s.....................................................CGA + Pitch P + Number of Pin Columns X Number of Pin Rows X Height - Pin Qty Crystals (2 leads)........................................................................................................................XTAL + Body Length X Body Width X Height Dual Flat No-lead..........................................................................................................DFN + Body Length X Body Width X Height – Pin Qty Diodes, Chip................................................................................................................................DIOC + Body Length + Body Width X Height Diodes, Molded...........................................................................................................................DIOM + Body Length + Body Width X Height Diodes, MELF................................................................................................................................DIOMELF + Body Length + Body Diameter Fuses, Molded............................................................................................................................FUSM + Body Length + Body Width X Height Inductors, Chip.............................................................................................................................INDC + Body Length + Body Width X Height Inductors, Molded........................................................................................................................INDM + Body Length + Body Width X Height Inductors, Precision Wire Wound................................................................................................INDP + Body Length + Body Width X Height Inductors, Chip, Array, Concave..............................................................INDCAV + Pitch P + Body Length X Body Width X Height - Pin Qty Inductors, Chip, Array, Flat......................................................................INDCAF + Pitch P + Body Length X Body Width X Height - Pin Qty Land Grid Array, Round Lead............................LGA + Pin Qty - Pitch P + Pin Columns X Pin Rows _ Body Length X Body Width X Height Land Grid Array, Square Lead........................LGAS + Pin Qty - Pitch P + Pin Columns X Pin Rows _ Body Length X Body Width X Height LED’s, Molded............................................................................................................................LEDM + Body Length + Body Width X Height Oscillators, Side Concave........................................................................OSCSC + Pitch P + Body Length X Body Width X Height - Pin Qty Oscillators, J-Lead.......................................................................................OSCJ + Pitch P + Body Length X Body Width X Height - Pin Qty Oscillators, L-Bend Lead.............................................................................OSCL + Pitch P + Body Length X Body Width X Height - Pin Qty Oscillators, Corner Concave....................................................................................................OSCCC + Body Length X Body Width X Height Plastic Leaded Chip Carriers..................................................PLCC + Pitch P + Lead Span L1 X Lead Span L2 Nominal X Height - Pin Qty Plastic Leaded Chip Carrier Sockets Square.......................PLCCS + Pitch P + Lead Span L1 X Lead Span L2 Nominal X Height - Pin Qty Quad Flat Packages..................................................................QFP + Pitch P + Lead Span L1 X Lead Span L2 Nominal X Height - Pin Qty Ceramic Quad Flat Packages.................................................CQFP + Pitch P + Lead Span L1 X Lead Span L2 Nominal X Height - Pin Qty Quad Flat No-lead................................................................QFN + Pitch P + Body Width X Body Length X Height - Pin Qty + Thermal Pad Pull-back Quad Flat No-lead..............................................PQFN + Pitch P + Body Width X Body Length X Height - Pin Qty + Thermal Pad Quad Leadless Ceramic Chip Carriers..........................................................LCC + Pitch P + Body Width X Body Length X Height - Pin Qty Quad Leadless Ceramic Chip Carriers (Pin 1 on Side)...............................LCCS + Pitch P + Body Width X Body Length X Height - Pin Qty Resistors, Chip...........................................................................................................................RESC + Body Length + Body Width X Height Resistors, Molded......................................................................................................................RESM + Body Length + Body Width X Height Resistors, MELF...........................................................................................................................RESMELF + Body Length + Body Diameter Resistors, Chip, Array, Concave............................................................RESCAV + Pitch P + Body Length X Body Width X Height - Pin Qty Resistors, Chip, Array, Convex, E-Version (Even Pin Size)...............RESCAXE + Pitch P + Body Length X Body Width X Height - Pin Qty Resistors, Chip, Array, Convex, S-Version (Side Pins Diff)................RESCAXS + Pitch P + Body Length X Body Width X Height - Pin Qty Resistors, Chip, Array, Flat.....................................................................RESCAF + Pitch P + Body Length X Body Width X Height - Pin Qty Small Outline Diodes, Flat Lead...................................................................................SODFL + Lead Span Nominal + Body Width X Height Small Outline IC, J-Leaded........................................................................................SOJ + Pitch P +Lead Span Nominal X Height - Pin Qty Small Outline Integrated Circuit, (50 mil Pitch SOIC)......................................................SOIC127P +Lead Span Nominal X Height - Pin Qty Small Outline Packages............................................................................................SOP + Pitch P +Lead Span Nominal X Height - Pin Qty Small Outline No-lead...........................................................SON + Pitch P + Body Width X Body Length X Height - Pin Qty + Thermal Pad Pull-back Small Outline No-lead.........................................PSON + Pitch P + Body Width X Body Length X Height - Pin Qty + Thermal Pad Small Outline Transistors, Flat Lead....................................................................SOTFL + Pitch P + Lead Span Nominal X Height - Pin Qty SOD (Example: SOD3717X135 = JEDEC SOD123)........................................................SOD + Lead Span Nominal + Body Width X Height SOT89 (JEDEC Standard Package).......................................................................................................................................................SOT89 SOT143 & SOT343 (JEDEC Standard Package)..............................................................................................................SOT143 & SOT343 SOT143 & SOT343 Reverse (JEDEC Standard Package)...........................................................................................SOT143R & SOT343R SOT23 & SOT223 Packages (Example: SOT230P700X180-4)...............................SOT + Pitch P + Lead Span Nominal X Height - Pin Qty TO (Generic DPAK - Example: TO228P970X238-3).................................................................TO + Pitch P + Lead Span X Height - Pin QtyI P C-7351B L a n d P a t t e r n N a m i n g C o n v e n t i o n N o t e s•All dimensions are in Metric Units•All Lead Span and Height numbers go two places past the decimal point and “include” trailing Zeros•All Lead Span and Body Sizes go two place before the decimal point and “remove” leading Zeros•All Chip Component Body Sizes are one place to each side of the decimal point•Pitch Values are two places to the right & left of decimal point with no leading Zeros but include trailing zeros N a m i n g C o n v e n t i o n S p e c i a l C h a r a c t e r U s e f o r L a n d P a t t e r n sThe _ (underscore) is the separator between pin Qty in Hidden & Deleted pin componentsThe – (dash) is used to separate the pin qty.The X (capital letter X) is used instead of the word “by” to separate two numbers such as height X width like “Quad Packages”.P C B L i b r a r i e s S u f f i x N a m i n g C o n v e n t i o n f o r L a n d P a t t e r n sCommon SMT Land Pattern to Describe Environment Use (This is the last character in every name)Note: This excludes the BGA component family as they only come in the Nominal Environment Condition •M.................Most Material Condition (Level A)•N..................Nominal Material Condition (Level B)•L.................Least Material Condition (Level C)Alternate Components that do not follow the JEDEC, EIA or IEC Standard•A..................Alternate Component (used primarily for SOP & QFP when Component Tolerance or Height is different) •B..................Second Alternate ComponentReverse Pin Order•-20RN..........20 pin part, Reverse Pin Order, Nominal EnvironmentHidden Pins•-20_24N......20 pin part in a 24 pin package. The pins are numbered 1 – 24 the hidden pins are skipped. The schematic symbol displays up to 24 pins.Deleted Pins•-24_20N......20 pin part in a 24 pin package. The pins are numbered 1 – 20. The schematic symbol displays 20 pins. JEDEC and EIA Standard parts that have several alternate packages•AA, AB, AC.JEDEC or EIA Component IdentifierGENERAL SUFFIXES_HS.........................HS = Land Pattern with Heat Sink attachment requiring additional holes or padsExample: TO254P1055X160_HS-6N_BEC......................BEC = Base, Emitter and Collector (Pin assignments used for three pin Transistors)Example: SOT95P280X160_BEC-3N_SGD......................SGD = Source, Gate and Drain (Pin assignments used for three pin Transistors)Example: SOT95P280X160_SGD-3N_213........................213 = Alternate pin assignments used for three pin TransistorsExample: SOT95P280X160_213-3NP C B L i b r a r i e s N a m i n g C o n v e n t i o n f o r N o n-S t a n d a r d S M T L a n d P a t t e r n s Surface Mount Land PatternsComponent, Category Land Pattern Name Amplifiers....................................................................................................................................................AMP_ Mfr.’s Part Number Batteries......................................................................................................................................................BAT_ Mfr.’s Part Number Capacitors, Variable..................................................................................................................................CAPV_Mfr.’s Part Number Capacitors, Chip, Array, Concave (Pins on 2 or 4 sides)..............................................................CAPCAV_Mfr Series No. - Pin Qty Capacitors, Chip, Array, Flat (Pins on 2 sides)..............................................................................CAPCAF_Mfr Series No. - Pin Qty Capacitors, Miscellaneous............................................................................................................................CAP_Mfr.’s Part Number Crystals......................................................................................................................................................XTAL_Mfr.’s Part Number Diodes, Miscellaneous...................................................................................................................................DIO_Mfr.’s Part Number Diodes, Bridge Rectifiers............................................................................................................................DIOB_Mfr.’s Part Number Ferrite Beads..................................................................................................................................................FB_Mfr.’s Part Number Fiducials......................................................................................................................................FID + Pad Size X Solder Mask Size Filters..............................................................................................................................................................FIL_Mfr.’s Part Number Fuses..........................................................................................................................................................FUSE_Mfr.’s Part Number Fuse, Resettable.....................................................................................................................................FUSER_Mfr.’s Part Number Inductors, Miscellaneous...............................................................................................................................IND_Mfr.’s Part Number Inductors, Chip, Array, Concave (Pins on 2 or 4 sides)..................................................................INDCAV_Mfr Series No. - Pin Qty Inductors, Chip, Array, Flat (Pins on 2 sides).................................................................................INDCAF_Mfr Series No. - Pin Qty Keypad.................................................................................................................................................KEYPAD_Mfr.’s Part Number LEDS............................................................................................................................................................LED_Mfr.’s Part Number LEDS, Chip...................................................................................................................................................LED_Mfr.’s Part Number Liquid Crystal Display...................................................................................................................................LCD_Mfr.’s Part Number Microphones..................................................................................................................................................MIC_Mfr.’s Part Number Opto Isolators............................................................................................................................................OPTO_Mfr.’s Part Number Oscillators......................................................................................................................................OSC_Mfr.’s Part Number - Pin Qty Quad Flat Packages w/Bumper Corners, Pin 1 Side.............BQFP + Pitch P + Lead Span L1 X Lead Span L2 Nominal X Height - Pin Qty Quad Flat Packages w/Bumper Corners, 1 Center..............BQFPC + Pitch P + Lead Span L1 X Lead Span L2 Nominal X Height - Pin Qty Resistors, Chip, Array, Concave (Pins on 2 or 4 sides).................................................................RESCAV_Mfr Series No. - Pin Qty Resistors, Chip, Array, Convex Type E (Pins on 2 sides)...........................................................RESCAXE_Mfr Series No. - Pin Qty Resistors, Chip, Array, Convex Type S (Pins on 2 sides)...........................................................RESCAXS_Mfr Series No. - Pin Qty Resistors, Chip, Array, Flat (Pins on 2 sides)................................................................................RESCAF_Mfr Series No. - Pin Qty Relays.....................................................................................................................................................RELAY_Mfr.’s Part Number Speakers....................................................................................................................................................SPKR_Mfr’s Part Number Switches........................................................................................................................................................SW_Mfr.’s Part Number Test Points, Round......................TP + Pad Size (1 place left of decimal and 2 places right of decimal, Example TP100 = 1.00mm) Test Points, Square...............................................................TPS + Pad Size (1 place left of decimal and 2 places right of decimal) Test Points, Rectangle....................................TP + Pad Length X Pad Width (1 place left of decimal and 2 places right of decimal) Thermistors.............................................................................................................................................THERM_Mfr.’s Part Number Transceivers.............................................................................................................................................XCVR_ Mfr.’s Part Number Transducers (IRDA’s)................................................................................................................................XDCR_Mfr.’s Part Number Transient Voltage S_Mfr.’s Part Number Transient Voltage Suppressors, SP_Mfr.’s Part Number Transistor Outlines, Custom....................................................................................................................TRANS_Mfr.’s Part Number Transformers.............................................................................................................................................XFMR_Mfr.’s Part Number Trimmers & Potentiometers........................................................................................................................TRIM_Mfr.’s Part Number Tuners.....................................................................................................................................................TUNER_Mfr.’s Part Number Varistors.......................................................................................................................................................VAR_Mfr.’s Part Number Voltage Controlled Oscillators.....................................................................................................................VCO_Mfr.’s Part Number Voltage Regulators, Custom......................................................................................................................VREG_Mfr.’s Part NumberI P C-7251N a m i n g C o n v e n t i o n f o r T h r o u g h-H o l e L a n d P a t t e r n sThe land pattern naming convention uses component dimensions to derive the land pattern name.The first 3 – 6 characters in the land pattern name describe the component family.The first number in the land pattern name refers to the Lead Spacing or hole to hole location to insert the component lead.All numbers that follow the Lead Spacing are component dimensions.These characters are used as component body identifiers that precede the value and this is the priority order of the component body identifiers –P = Pitch for components with more than two leadsW = Maximum Lead Width (or Component Lead Diameter)L = Body Length for horizontal mountingD = Body Diameter for round component bodyT = Body Thickness for rectangular component bodyH = Height for vertically mounted componentsQ = Pin Quantity for components with more than two leadsR = Number of Rows for connectorsA, B & C = the fabrication complexity level as defined in the IPC-2221 and IPC-2222Notes:All component body values are in millimeters and go two places to the right of the decimal point and no leading zeros.All Complexity Levels used in the examples are “B”.Component, Category Land Pattern Name Capacitors, Non Polarized Axial Diameter Horizontal Mounting.........CAPAD + Lead Spacing + W Lead Width + L Body Length + D Body Diameter Example: CAPAD800W52L600D150BCapacitors, Non Polarized Axial Diameter; Lead Spacing 8.00; Lead Width 0.52; Body Length 6.00; Body Diameter 1.50Capacitors, Non Polarized Axial Rectangular.........CAPAR + Lead Spacing + W Lead Width + L Body Length + T Body thickness + H Body Height Example: CAPAR800W52L600T50H70BCapacitors, Non Polarized Axial; Lead Spacing 8.00; Lead Width 0.52; Body Length 6.00; Body Thickness 0.50; Body Height 0.70Capacitors, Non Polarized Axial Diameter Vertical Mounting .........CAPADV + Lead Spacing + W Lead Width + L Body Length + D Body Diameter Example: CAPADV300W52L600D150BCapacitors, Non Polarized Axial; Lead Spacing 3.00; Lead Width 0.52; Body Length 6.00; Body Diameter 1.50mmCapacitors, Non Polarized Axial Rect. Vert. Mtg.CAPARV + Lead Spacing + W Lead Width + L Body Length + T Body Thickness + H Body Height Example: CAPARV300W52L600T50H70BCapacitors, Non Polarized Axial Rect. Vertical; Lead Spacing 8.00; Lead Width 0.52; Body Length 6.00; Body Thickness 0.50; Body Height 0.70 Capacitors, Non Polarized Radial Diameter.......................................CAPRD + Lead Spacing + W Lead Width + D Body Diameter + H Body Height Example: CAPRD200W52D300H550BCapacitors, Non Polarized Radial Diameter; lead spacing 2.00; lead width 0.52; Body Diameter 3.00; Height 5.50Capacitors, Non Polarized Radial Rectangular.......CAPRR + Lead Spacing + W Lead Width + L Body Length + T Body thickness + H Body Height Example: CAPRR200W52L50T70H550BCapacitors, Non Polarized Radial Rectangular; lead spacing 2.00; lead width 0.52; Body Length 0.50; Body thickness 0.70; Height 5.50 Capacitors, Non Polarized Radial Disk Button........CAPRB + Lead Spacing + W Lead Width + L Body Length + T Body thickness + H Body Height Example: CAPRB200W52L50T70H550BCapacitors, Non Polarized Radial Rectangular; lead spacing 2.00; lead width 0.52; Body Length 0.50; Body thickness 0.70; Height 5.50 Capacitors, Polarized Axial Diameter Horizontal Mounting................CAPPA + Lead Spacing + W Lead Width + L Body Length + D Body Diameter Example: CAPPAD800W52L600D150BCapacitors, Polarized Axial Diameter; Lead Spacing 8.00; Lead Width 0.52; Body Length 6.00; Body Diameter 1.50Capacitor, Polarized Radial Diameter.................................................CAPPR + Lead Spacing + W Lead Width + D Body Diameter + H Body Height Example: CAPPRD200W52D300H550BCapacitors, Polarized Radial Diameter; lead spacing 2.00; lead width 0.52; Body Diameter 3.00; Height 5.50Diodes, Axial Diameter Horizontal Mounting.......................................DIOAD + Lead Spacing + W Lead Width + L Body Length + D Body Diameter Example: DIOAD800W52L600D150BCapacitors, Non Polarized Axial Diameter; Lead Spacing 8.00; Lead Width 0.52; Body Length 6.00; Body Diameter 1.50Diodes, Axial Diameter Vertical Mounting .........................................DIOADV + Lead Spacing + W Lead Width + L Body Length + D Body Diameter Example: DIOADV300W52L600D150BCapacitors, Non Polarized Axial; Lead Spacing 8.00; Lead Width 0.52; Body Length 6.00; Body Diameter 1.50Dual-In-Line Packages...................................DIP + Lead Span + W Lead Width + P Pin Pitch + L Body Length + H Component Height + Q Pin Qty Example: DIP762W52P254L1905H508Q14BDual-In-Line Package: Lead Span 7.62; Lead Width 0.52; Pin Pitch 2.54; Body Length 19.05; Body Height 5.08; Pin Qty 14Component, Category Land Pattern Name Dual-In-Line Sockets....................................DIPS + Lead Span + W Lead Width + P Pin Pitch + L Body Length + H Component Height + Q Pin Qty Example: DIPS762W52P254L1905H508Q14BDual-In-Line Package Socket: Lead Span 7.62; Lead Width 0.52; Pin Pitch 2.54; Body Length 19.05; Body Height 5.08; Pin Qty 14Headers, Vertical....... HDRV + Lead Span + W Lead Width + P Pin Pitch + R Pins per Row + L Body Length + T Body Thickness + H Component HeightExample: HDRV200W52P200R2L4400T400H900BHeader, Vertical: Lead Span 2.00; Lead Width 0.52; Pin Pitch 2.00; 2 Rows; Body Length 44.00; Body Thickness 4.00; Body Height 9.00 Headers, Right Angle...............HDRRA + Lead Span + W Lead Width + P Pin Pitch + R Pins per Row + L Body Length + T Body Thickness + H Component HeightExample: HDRRA200W52P200R2L4400T400H900BHeader, Vertical: Lead Span 2.00; Lead Width 0.52; Pin Pitch 2.00; 2 Rows; Body Length 44.00; Body Thickness 4.00; Body Height 9.00 Inductors, Axial Diameter Horizontal Mounting....................................INDAD + Lead Spacing + W Lead Width + L Body Length + D Body Diameter Example: INDAD800W52L600D150BInductors, Axial Diameter; Lead Spacing 8.00; Lead Width 0.52; Body Length 6.00; Body Diameter 1.50Inductors, Axial Diameter Vertical Mounting .....................................INDADV + Lead Spacing + W Lead Width + L Body Length + D Body Diameter Example: INDADV300W52L600D150BInductors, Axial Diameter Vertical Mounting; Lead Spacing 3.00; Lead Width 0.52; Body Length 6.00; Body Diameter 1.50Jumpers, Wire...................................................................................................................................................JUMP + Lead Spacing + W Lead Width Example: JUMP500W52BJumper; Lead Spacing 5.00; Lead Width 0.52Mounting Holes Plated With Support Pad..........................................................................MTGP + Pad Size + H Hole Size + Z Inner Layer Pad Size Example: MTGP700H400Z520This is a Mounting hole for a #6-32 screw using a circular 7.00 land on the primary and secondary side of the board, a 4.00 diameter hole with the internal lands are smaller that the external and are also circular 5.20 in diameter.Mounting Holes Non-Plated With Support Pad................................................................MTGNP + Pad Size + H Hole Size + Z Inner Layer Pad Size Example: MTGNP700H400Z520This is a Mounting hole for a #6-32 screw using a circular 7.00 land on the primary and secondary side of the board, a 4.00 diameter hole with the internal lands are smaller that the external and are also circular 5.20 in diameter.Mounting Holes Non-Plated Without Support Pad.....................MTGNP + Pad Size + H Hole Size + Z Inner Layer Pad Size + K Keep-out Diameter Example: MTGNP100H400Z520K700This is a Mounting hole for a #6-32 screw using a circular 1mm land on the primary and secondary side of the board, a 4.00 diameter hole with the internal lands are smaller that the external and are also circular 5.20 in diameter and a 7.00 diameter keep-out.Mounting Holes Plated with 8 Vias .....................................................................MTGP + Pad Size + H Hole Size + Z Inner Layer Pad Size + 8 Vias Example: MTGP700H400Z520V8This is a Mounting hole for a #6-32 screw using a circular 7mm land on the primary and secondary side of the board, a 4mm diameter hole with the internal lands are smaller that the external and are also circular 5.2mm in diameter, with 8 vias.Pin Grid Array’s.............................PGA + Pin Qty + P Pitch + C Pin Columns + R Pin Rows + L Body Length X Body Width + H Component Height Example: PGA84P254C10R10L2500X2500H300BPin Grid Array: Pin Qty 84; Pin Pitch 2.54; Columns 10; Rows 10; Body Length 25.00 X 25.00; Component Height 3.00Resistors, Axial Diameter Horizontal Mounting...................................RESAD + Lead Spacing + W Lead Width + L Body Length + D Body Diameter Example: RESAD800W52L600D150BResistors, Axial Diameter; Lead Spacing 8.00; Lead Width 0.52; Body Length 6.00; Body Diameter 1.50Resistors, Axial Diameter Vertical Mounting ....................................RESADV + Lead Spacing + W Lead Width + L Body Length + D Body Diameter Example: RESADV300W52L600D150BResistors, Axial Diameter Vertical Mounting; Lead Spacing 3.00; Lead Width 0.52; Body Length 6.00; Body Diameter 1.50Resistors, Axial Rectangular Horizontal Mounting...RESAR + Lead Spacing + W Lead Width + L Body Length + T Body thickness + H Body Height Example: RESAR800W52L600T50H70BResistors, Axial Rectangular; Lead Spacing 8.00; Lead Width 0.52; Body Length 6.00; Body Thickness 0.50; Body Height 0.70Test Points, Round Land......................................................................................................................................................................TP + Lead Width Example: TP52Test Points, Square Land..................................................................................................................................................................TPS + Lead Width Example: TPS52Test Points, Top Land Round & Bottom Land Square.....................................................................................................................TPRS + Lead Width Example: TPRS52 Wire....................................................................................................................................................................................................PAD + Wire Width Example: PAD52。

…★江志强*…郑如文…戴艳萍…何敏儿…辜喜隆…州……510285）摘要：目的：优选小柴胡颗粒的水提工艺。

方法：设计法优选小柴胡颗粒水提工艺的加水倍量、提取时间，为药材加水提取2次，第1次加水10.5倍，提取65min，第2得率、干膏得率及三者综合评分值（n=3）分别为11.23%±证试验综合评分值稍高于预测值。

结论：关键词：小柴胡颗粒；水提工艺；均匀设计；黄酮；多糖中图分类号：R284.1……文献标识码：A小柴胡颗粒源自东汉医圣张仲景《伤寒杂病论》中的“小柴胡汤”［1］，由柴胡、半夏、黄芩、党参、大枣、生姜、甘草等7味中药组成，具有解表散热、疏肝和胃的功效。

用于外感病，邪犯少阳证，症见寒热往来、胸胁苦满、食欲不振、心烦喜呕、口苦咽干［2］。

据药典载，小柴胡颗粒制法中柴胡、黄芩、党参、大枣、甘草等5味药材采用水提工艺，该工艺仅规定了提取次数和提取时间，未规定加水量，且只控制了单一成分黄芩苷含量。

由于小柴胡颗粒为中药复方制剂，以多成分或有效部位等为评价指标对水提工艺进行研究以整体控制其质量较为合理，而目前针对小柴胡颗粒的该类研究较少，研究很有必要。

通过文献调研可知，方中黄芩主要药效成分为黄芩苷、黄芩素、汉黄芩苷、汉黄芩素等黄酮类成分，方中党参、大枣、柴胡、黄芩、甘草等5味药材中均含有效成分多糖，因此本研究选择黄芩苷、黄芩素、汉黄芩苷、汉黄芩素等4种黄芩黄酮得率（以下简称黄芩黄酮得率）、多糖得率、干膏得率为评价指标，对小柴胡颗粒水提工艺进行优化，以实现水溶性有效成分被充分提取，为小柴胡颗粒的工艺优化提供科学依据。

州化学试剂厂）均为分析纯，实验用水为自制纯化水；黄芩苷（批号：110715-201720）、汉黄芩苷（批号：112002-201702）、黄芩素（批号：111595-201607）、汉黄芩素（批号：111514-201706）、D-无水葡萄糖（批号：110833-201707）等对照品均购自中国食品药品检定研究院；柴胡（批号：11801B026，产地甘肃）、黄芩（批号：11808B003，产地山西）、甘草（批号：11804B014，产地宁夏）、大枣（批号：11802B002，产地河北）、党参（批号：11809B007，产地甘肃）等5味药材均符合2015年版《中国药典》规定的质量标准。

Eaton 171500Eaton GALILEO Visualization Software, GALILEO for all XV/XPswitchgear, single-user license, update from GALILEO V 8.1.2General specificationsProduct Name Catalog NumberEaton GALILEO Software171500EAN Product Length/Depth7640130098022230 mmProduct Height Product Width2 mm162 mmProduct Weight Certifications0.016 kg UL/CSA certification not requiredModel CodeSW-GALILEO-SIntegrated128 MBIntegratedIntegratedIntegratedLoadable for operating system for configuration software, Windows XPLoadable for operating system for configuration software, Windows 2000Loadable for operating system for configuration software, Windows VistaLoadable for operating system for configuration software, Windows 7Loadable for operating system for configuration software, Windows 9xLoadable for operating system for configuration software, Windows NTLoadable for operating system for configuration software, Windows 8Alarm-managementOnline projecting possibleLanguage switch possibleUser groups (password protection) possible1Operating system Windows 7Web-clientsOperating system Windows 8Operating system Windows 10100Runtime operation system, Windows Vista Distribution system - Feeder System MSFSControl panel design guideGalileo Software VideoMN048018_ENHow to connect the easyE4 to the touch panel XV-102 for easy? - 5 StepsUser archive/recipes managementRequired main memory for configuration software - min Reporting system/protocol systemIndustry- and technological expansionsFunction process diagnosticsFeaturesNumber of servers - maxSuitable forNumber of online/runtime languagesOperating system BrochuresInstallation videos Manuals and user guides MultimediaRuntime operating system, Windows 2000Runtime operating system, Windows XPMessage systemIntegratedFitted with:OPC-interface, serverOther script languageOPC-interface, clientProgramming interfacesNumber of configuration/desktop languages2Library with object elementsIntegratedNumber of multi-users configuration - max1Required main memory for runtime system - min256 MBSoftwareSupports update for GALILEO version 8.1.2 or higherFor creating projects to operate and visualize machines, plants and buildingsMicrosoft Windows™-based, intelligent and interactive visualization toolComprehensive help and documentationGALILEOSingle-user licenseNumber of configuration/runtime languages100Trend representationYesSQL-databaseOptionalNumber of clients - max10Required processor speed for configuration software - min1 GHzRequired processor speed for runtime system - min0.2 GHzEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia。

光引发剂tpo检出限-回复光引发剂（Photoinitiators）是一种化学物质，常用于光引发聚合反应及光引发固化反应中。

它们能够通过吸收特定波长的光能量，引发聚合物分子间的共价键形成，从而促进材料的固化工艺。

在实际应用中，光引发剂的tpo检出限起着至关重要的作用。

首先，我们需要了解什么是tpo检出限。

tpo指的是Tailored Parameter Option（定制参数选项），而检出限是指在特定的条件下，仪器能够安全准确地检测到的最小浓度。

对于光引发剂，在生产和使用过程中，了解其tpo检出限是非常重要的，因为它可以确保在产品质量控制中最小限度地避免不良反应。

光引发剂的tpo检出限实际上是一种实验测量上的参数。

在实验中，我们可以通过先确定一个光引发剂的理论质量，然后逐渐递减其用量，直到仪器无法再检测到光引发剂信号为止，以确定tpo检出限。

这个过程非常关键，因为它能够为生产过程中的光引发剂用量提供一个参考，以确保产品质量的稳定与一致。

然而，确定光引发剂的tpo检出限并不是一个简单的过程。

它需要经过以下几个步骤：1. 首先，我们需要选择合适的实验仪器。

常用的仪器包括紫外可见分光光度计、红外光谱仪等。

根据实际需求，我们要保证选择的仪器具备足够的灵敏度，以检测到tpo检出限以下的光引发剂浓度。

2. 其次，我们需要制备一系列浓度递减的光引发剂标准溶液。

这些标准溶液可以通过逐步稀释高浓度溶液来获得，确保每个浓度都有充分的重复测量。

要注意的是，我们需要确保目标浓度低至预期的tpo检出限，以确保可靠的结果。

3. 接下来，我们将使用所选择的仪器对制备的标准溶液进行测量。

通过测量光强度与溶液浓度之间的关系，我们可以绘制出标准曲线。

标准曲线可以帮助我们精确地确定tpo检出限。

4. 最后，我们可以通过观察标准曲线并施加适当的统计方法来确定tpo 检出限。

通常，可以选取标准曲线上残差与信噪比的比值，或者根据光引发剂信号与背景噪音的比较大小，来确定tpo检出限。

PL-Latex SuperCarboxyl - Uniform Latex Particles 化学品安全技术说明书GHS product identifier 应急咨询电话（带值班时间）::供应商/ 制造商:安捷伦科技贸易（上海）有限公司中国（上海）外高桥自由贸易试验区英伦路412号（邮编:200131)电话号码： 800-820-3278传真号码: 0086 (21) 5048 2818PL-Latex SuperCarboxyl - Uniform Latex Particles化学品的推荐用途和限制用途PL6203-6102, PL6203-6103, PL6204-6101, PL6204-6102, PL6204-6103,PL6212-5101, PL6212-5102, PL6212-5103, PL6215-6101, PL6215-6102,PL6215-6103部件号:物质用途:PL6201-6101, PL6201-6102, PL6201-6103, 100 nM (15 ml, 100 ml, 1 L)PL6202-6101, PL6202-6102, PL6202-6103, 200 nM (15 ml, 100 ml, 1 L)PL6203-6101, PL6203-6102, PL6203-6103, 300 nM (15 ml, 100 ml, 1 L)PL6204-6101, PL6204-6102, PL6204-6103, 400 nM (15 ml, 100 ml, 1 L)PL6212-5101, PL6212-5102, PL6212-5103, 125 nM (15 ml, 100 ml, 1 L)PL6215-6101, PL6215-6102, PL6215-6103, 150 nM (15 ml, 100 ml, 1 L)安全技术说明书根据 GB/ T 16483-2008 和 GB/ T 17519-2013GHS化学品标识:PL-Latex SuperCarboxyl - 均匀乳胶危险性类别信号词:无信号词。