WP1384AL-SRD中文资料

SHELF & SUPPORT HARDWAREGLASS CLAMPSGLASS SHELF SUPPORTSSOAP HOLDERSBRACKETSMIRROR SUPPORTSGLASS STANDOFFSSHELF STANDARDS & ACCESSORIESSHELVING SYSTEMSMIRROR SUPPORTS PictureSMB-15RSPM-20BSP-1820(HEAVY DUTY)SPN-1820(NARROW PROFILE)496SPE-FB20S330lbs/4pcsSPHL-25SPN-15FSL-MBFSL-LSPN-17ECSPH-20SPH-5286lbs/4pcsSPH-1511lbs/pc SPB-35220lbs/4pcs 99lbs/4pcs 176lbs/4pcsSPF-20SPB-15R SPB-20SPW-20Item No.Glass Thickness (mm)Weight (g)Box (pcs)Carton (pcs) 9303VA21032410100Material Finish 316 Stainless Steel SatinItem No.Glass Thickness (mm)Weight (g)Box (pcs)Carton (pcs) 9344VA21022910100Material Finish316 Stainless Steel Satin • 316 stainless steel clamp.• F or flat surface.• O ptional Parts: 4820VA (Safety Pin)• S ee page 466 for load capacity.• T empered Glass Recommended.• 316 stainless steel clamp.• F or flat surface.• O ptional Parts: 9320VA (Safety Pin)4849VA (Safety Plate)• S ee page 466 for load capacity.• T empered Glass Recommended.GLASS CLAMP9303VA2 GLASS CLAMP9344VA2ZN1ZN1ZN5Item No.4846ZN14846ZN5GLASS CLAMPZN1ZN1ZN1 ZN54846ZN5 (P.463)Item No.Glass Thickness (mm)2878ST86~10MOUNTING SCREWMS7 MS15ZN1ZN5ZN1ZN5ZN1Item No.D LDSP-S/1212 (15/32")120 ( 4-45/64" ) DSP-S/1512 (15/32")150 ( 5-57/64" ) DSP-S/2012 (15/32")200 ( 7-55/64" ) DSP-M/1514 (35/64")150 ( 5-57/64" ) DSP-M/2014 (35/64")200 ( 7-55/64" ) DSP-M/2414 (35/64")240 ( 9-7/16" ) DSP-M/3014 (35/64")300 (11-51/64") DSP-L/2020 (25/32")200 ( 7-55/64" ) DSP-L/2520 (25/32")250 ( 9-53/64" )SU-B80/MSU-B65/MSU-B50/MXL-SA01-120/SXL-SA01-150/SXL-SA01-180/SXL-SA01-240/SStainless Steel WhiteBlackApplication ExampleEBDFolding BracketDamper unit477.21-3/16"(30 mm)12-1/2" (317 mm)P1*6-3/4" (171 m m )1/16"(2 m m )15/16"(24 m m )2-5/8"(67 m m )1-3/4"(45 m m )1-1/2"(38 m m )6-1/8" (156 mm)3-7/8"(98 mm)1-7/16"(36 mm)1-7/16"(36 m m )FOLDING BRACKET WITH SOFT-CLOSETo find your Min./Max. table weight per single damper, please reference the formula shown next to the charts above and 18” depth examples below.EB-303/EP-DMaximum weight 7.2 lbs = 130/18 in.Minimum weight 2.8 lbs = 52/18 in.EB-317/EP-DMaximum weight 19.1 lbs = 345/18 in.Minimum weight 12.5 lbs = 225/18 in.Stainless SteelBlackTT EB-317/EP-D• A utomatically locks when flap is in open position.• P ress lever to release the lock.• A dditional hinges not required.• D amper unit with a soft-closing feature which makes bracket smoother and safer.• R efer to DAMPER WEIGHT CHART below for appropriate table weight and depth when softly folding down the table. • F or panel thickness 9/16" ~ 1-3/8" (15 ~ 35 mm).• D urability tested 50,000 cycles (private).Side Levers Connecting RodSafety Lock ScrewHolding BracketSpringConnecting LeverFor EB-2000-3 onlyNo.Part Name Material Finish1Connecting LeverAluminum AnodizedAluminum 2Side Lever3Spring Stainless Steel4Washer Plastic5Holding BracketAluminum AnodizedAluminum 6Connecting RodStainless Steel477.4Item No.Rod QtyRod Length (L)Side Lever QtySafety Lock QtyHolding Bracket QtySpring QtyEB-1000-2139-3/8" (1000 mm)2131EB-1500-2159-1/16" (1500 mm)2131Item No.Rod QtyRod Length (L)Side Lever QtyConnecting Lever QtySafety Lock Qty Holding Bracket Qty Spring QtyEB-2000-3239-3/8" (1000 mm) each 21161Connecting LeverLEVER RELEASE FOR EB SERIES FOLDING BRACKETSLEVER RELEASE for EB Folding Bracket LEVER RELEASE for EB Folding Bracket EB-1000-2/1500-2EB-2000-3SHELF & SUPPORT HARDWARERecommended Hinge: 388H38830-25-DDamper388HDo not lift up the shelf forcibly. It may result in breakage.Z058* S pecial wrench Z058 required for installation. (Sold Separately)Cut Out DimensionCut Out DimensionMaterialFinish 302 Stainless Steel/Aluminum SatinItem No.Glass Thickness (mm)Weight (g)Box (pcs)Carton (pcs)7005VA 8~12192440MaterialFinish 302 Stainless Steel/Aluminum SatinItem No.Glass Thickness (mm)Weight (g)Box (pcs)Carton (pcs)7000VA 8~12167440Z058• F lush mount type glass standoff.• R ecommended Screw Size: M8 bolt • L onger base 80~180 mm (3-5/32"~7-3/32") available as special order.• R ecommended for use with tempered glass.* S pecial wrench Z058 required for installation. (Sold Separately)• G lass standoff with round face plate.• R ecommended Screw Size: M8 bolt • L onger base 80~180 mm (3-5/32"~7-3/32") as special order.• R ecommended for use with tempered glass.GLASS STANDOFF 7000VAGLASS STANDOFF 7005VAItem No.Glass Thickness (mm) Item No.Glass Thickness (mm) 7015VA8~12Item No.Glass Thickness (mm)7061VA6~12GLASS STANDOFF Item No.Glass Thickness (mm)7062VA6~12Z057* S pecial wrench Z057 required for installation. (Sold Separately)Item No.Glass Thickness (mm)7083VA 6~12Finish GLASS STANDOFFItem No.Glass Thickness (mm)7120VA8GLASS STANDOFFSMB-15RSPM-20BSP-1820(HEAVY DUTY)SPN-1820(NARROW PROFILE)496SPE-FB20S330lbs/4pcsSPHL-25SPN-15FSL-MBFSL-LSPN-17ECSPH-20SPH-5286lbs/4pcsSPH-1511lbs/pc SPB-35220lbs/4pcs 99lbs/4pcs 176lbs/4pcsSPF-20SPB-15R SPB-20SPW-20Item No.Item No.Load Capacity (kg)SPH-15130 (286 lbs)/4 pcs END CAPWeight (g)1.3StandardAP-DM1820WT AP-DM1820AP-DH1820Item No.D E Weight (g)AP-DM1820178017113 AP-DM1820WT AP-DM1820BL AP-DM2600250047161 AP-DH1820178017131 AP-DH2600250047187Item No.Screw TypeAP-SC3-16 AP-SC3-16WT AP-SC3-16BL AP-SC3-30 AP-SC3-30WT AP-SC3-30BL • A luminum shelf standard.• E asy to cut to desired length.• T hin profile (3 mm, 1/8") suitable for surface mount.• S crew hole located every 120 mm (4-23/32").• N ew slot shape to prevent shelf support from falling off.• S pecial screw with silver finish available. (AP-SC3-16)• S crews and accessories sold separately.• A luminum shelf standard.• E asy to cut to desired length.• D esigned for press-fit mount without using screws.• N ew slot shape to prevent shelf support from falling off.• S crews and accessories sold separately.* Install the standard with concave slot(located every 120 mm) pointing upward.* Fit tightness may vary depending on the panel/wall material. Use adhesive if loose.Bore Dimension (In case of Plywood)SHELF STANDARDHolds in any height。

LAMP1383-2SURD/S530-A3Features• Choice of various viewing angles• Available on tape and reel.• Reliable and robust• Pb free• The product itself will remain within RoHS compliant version.• Compliance with EU REACH• Compliance Halogen Free .(Br <900 ppm ,Cl <900 ppm , Br+Cl < 1500 ppm)Description•The series is specially designed for applications requiring higher brightness •The led lamps are available with different colors, intensities.. Applications• TV set• Monitor• Telephone• ComputerDevice Selection GuideAbsolute Maximum Ratings (Ta=25℃)Electro-Optical Characteristics (Ta=25℃)Note:*Measurement Uncertainty of Forward Voltage: ±0.1V*Measurement Uncertainty of Luminous Intensity: ±10%*Measurement Uncertainty of Dominant Wavelength ±1.0nmTypical Electro-Optical Characteristics CurvesPackage DimensionNote: Note:1. All dimensions are in millimeters2. The height of flange must be less than 1.5mm(0.059").3. Without special declared, the tolerance is ±0.25mm.Moisture Resistant Packing MaterialsLabel ExplanationCPN: Customer's Production Number P/N : Production Number QTY: Packing Quantity CAT: RanksHUE: Dominant Wavelength REF: Reference LOT No: Lot Number■ Packing Quantity1.MIN200-500 PCS/1 Bag, 5 Bags/1 Inner Carton2. 10 Inner Cartons/1 Outside CartonNotes1. Lead Forming⏹ During lead formation, the leads should be bent at a point at least 3mm from the base of the epoxy bulb.⏹ Lead forming should be done before soldering.⏹ Avoid stressing the LED package during leads forming. The stress to the base may damage the LED’s characteristics or it may break the LEDs.⏹ Cut the LED lead frames at room temperature. Cutting the lead frames at high temperatures may cause failure of the LEDs. ⏹When mounting the LEDs onto a PCB, the PCB holes must be aligned exactly with the lead position of the LED. If the LEDs are mounted with stress at the leads, it causes deterioration of the epoxy resin and this will degrade the LEDs.2. Storage ⏹ The LEDs should be stored at 30°C or less and 70%RH or less after being shipped from Everlight and the storage life limitsare 3 months. If the LEDs are stored for 3 months or more, they can be stored for a year in a sealed container with a nitrogen atmosphere and moisture absorbent material. ⏹Please avoid rapid transitions in ambient temperature, especially, in high humidity environments where condensation can occur.3. Soldering ⏹ Careful attention should be paid during soldering. When soldering, leave more then 3mm from solder joint to epoxy bulb,and soldering beyond the base of the tie bar is recommended. ⏹Recommended soldering conditions:⏹⏹ Avoiding applying any stress to the lead frame while the LEDs are at high temperature particularly when soldering. ⏹ Dip and hand soldering should not be done more than one time⏹ After soldering the LEDs, the epoxy bulb should be protected from mechanical shock or vibration until the LEDs return to room temperature.⏹A rapid-rate process is not recommended for cooling the LEDs down from the peak temperature.⏹Although the recommended soldering conditions are specified in the above table, dip or hand soldering at the lowestpossible temperature is desirable for the LEDs.⏹Wave soldering parameter must be set and maintain according to recommended temperature and dwell time in the solderwave.4. Cleaning⏹When necessary, cleaning should occur only with isopropyl alcohol at room temperature for a duration of no more thanone minute. Dry at room temperature before use.⏹Do not clean the LEDs by the ultrasonic. When it is absolutely necessary, the influence of ultrasonic cleaning on the LEDsdepends on factors such as ultrasonic power and the assembled condition. Ultrasonic cleaning shall be pre-qualified to ensure this will not cause damage to the LED5. Heat Management⏹Heat management of LEDs must be taken into consideration during the design stage of LED application. The currentshould be de-rated appropriately by referring to the de-rating curve found in each product specification.⏹The temperature surrounding the LED in the application should be controlled. Please refer to the data sheet de-ratingcurve.6. ESD (Electrostatic Discharge)⏹The products are sensitive to static electricity or surge voltage. ESD can damage a die and its reliability.When handling the products, the following measures against electrostatic discharge are stronglyrecommended:Eliminating the chargeGrounded wrist strap, ESD footwear, clothes, and floorsGrounded workstation equipment and toolsESD table/shelf mat made of conductive materials⏹Proper grounding is required for all devices, equipment, and machinery used in product assembly.Surge protection should be considered when designing of commercial products.⏹If tools or equipment contain insulating materials such as glass or plastic,the following measures against electrostatic discharge are strongly recommended:Dissipating static charge with conductive materialsPreventing charge generation with moistureNeutralizing the charge with ionizers7. Directions for use⏹The LEDs should be operated with forward bias. The driving circuit must be designed so that the LEDs are not subjectedto forward or reverse voltage while it is off. If reverse voltage is continuously applied to the LEDs, it may cause migration resulting in LED damage.8. Other⏹Above specification may be changed without notice. EVERLIGHT will reserve authority on material change for abovespecification.⏹When using this product, please observe the absolute maximum ratings and the instructions for using outlined in thesespecification sheets. EVERLIGHT assumes no responsibility for any damage resulting from use of the product which does not complywith the absolute maximum ratings and the instructions included in these specification sheets.⏹These specification sheets include materials protected under copyright of EVERLIGHT corporation. Please don’treproduce or cause anyone to reproduce them without EVERLIGHT’s consent.DISCLAIMER1. EVERLIGHT reserves the right(s) on the adjustment of product material mix for the specification.2. The product meets EVERLIGHT published specification for a period of twelve (12) months from date ofshipment.3. The graphs shown in this datasheet are representing typical data only and do not show guaranteed values.4. When using this product, please observe the absolute maximum ratings and the instructions for using outlinedin these specification sheets. EVERLIGHT assumes no responsibility for any damage resulting from the use of the product which does not comply with the absolute maximum ratings and the instructions included in these specification sheets.5. These specification sheets include materials protected under copyright of EVERLIGHT. Reproduction in anyform is prohibited without obtaining EVERLIGHT’s prior consent.6. This product is not intended to be used for military, aircraft, automotive, medical, life sustaining or life savingapplications or any other application which can result in human injury or death. Please contact authorized Everlight sales agent for special application request.。

Safety of MachineryNotes on the application of standardsEN 62061 and EN ISO 13849-1Edition IIFachverband AutomationI M P R I N TSafety of MachineryNotes on the applicationof standards EN 62061and EN ISO 13849-1German Electrical and Electronic Manufacturer’s AssociationLyoner Straße 960528 Frankfurt am Main GermanyAutomation Division Switchgear, Controlgear, Industrial Control Systems Section Technical Committee Safety Systems in AutomationAuthor: Dr. Markus Winzenick Phone:+49 69 6302-426Fax:+49 69 6302-386Mail:****************** /automationDespite utmost care noliability for contentsJune 2012Safety of Machinery Are you a machine manufacturer or system integrator?Do you upgrade machinery? This is what you need to consider in the future in terms of functional safety!Notes on the application of standards EN 62061 and EN ISO 13849-1What do I need to do to place a machine on the market in compliance with the directives?The EC machinery directive stipulates that machinery should not pose a danger (risk assessment in accordance with EN ISO 12100). Given that there is no such thing as zero risk in technology, the aim is to achieve an acceptable residual risk. If safety is dependent on control systems, these must be designed so that the probability of functional faults is sufficient-ly low. If this is not possible, any faults that occur shall not lead to the loss of the safety function. To meet this requirement, it makes sense to use har-monized standards that have been created in accordance with a mandate from the European Commission and are published in the Official Journal of the European Communities (presumption of conformity). This is the only way to avoid spending extra time and effort when demonstrating con-formity. The two standards EN 62061 and EN ISO 13849-1 are compared below and a selection guide is provided for the user.In the past, the safety-related parts of a machine control were designed in accordance with EN 954-1.This was based on the calculated risk (formed into categories). The aim was to assign an appropriate system behavior to each category (deter-ministic approach). Once electronics, and programmable electronics in particular, had made their mark on safety technology, safety could no longer be measured purely in terms of the simple category system found in EN 954-1. Furthermore, it was unable to provide information on prob-ability of failure (probabilistic approach).Help is now available from EN 62061 and EN ISO 13849-1, the successor standards to EN 954-1.1.Basic procedurefor complying withthe requirementsof the machinery directive2.Why isEN 954-1not sufficientfor the future?EN ISO 13849-1:“Safety-related parts of control systems –Part 1: General principles for design”This standard may be applied to SRP/CS (safety-related parts of control systems) and all types of machinery, regardless of the type of technology and energy used (electrical, hydraulic, pneumatic, mechanical, etc.).EN ISO 13849-1 also lists special requirements for SRP/CS with program-mable electronic systems.EN 62061: “Functional safety of safety-related electrical, electronic and programmable electronic control systems”This standard defines requirements and gives recommendations for the design, integration and validation of safety-related electrical, electronic and programmable electronic control systems (SRECS) for machinery.It does not define requirements for the performance of non-electronic (e.g., hydraulic, pneumatic or electro-mechanical) safety-related control elements for machinery.EN ISO 13849-1 is based on the familiar categories from EN 954-1:1996. It examines complete safety functions, including all of the devices involved in their design.EN ISO 13849-1 goes beyond the qualitative approach of EN 954-1 to include a quantitative assessment of the safety functions. Performance Levels (PL) are used for this, building upon the categories.Devices require the following safety-related characteristic parameters depending on device type:• Category (structural requirement)• PL: Performance Level• MTTFd: Mean time to dangerous failure• B10d: Number of cycles by which 10% of a random sample of wear-ing components have failed dangerously• DC: Diagnostic coverage• CCF: Common cause failure• TM : Mission time3.Scope of thetwo standards 4.Brief overview on EN ISO 13849-1The standard describes how to calculate the Performance Level (PL) for safety-relevant parts of control systems, based on designated architec-tures, for the designated mission time T M .In case of deviations EN ISO 13849-1 refers to IEC 61508 for electri-cal/electronic systems. Where several safety-relevant parts are combined into one overall system, the standard describes how to calculate the resulting PL that can be achieved.For the subsequent validation, EN ISO 13849-1 refers to Part 2, which was published at the end of 2003. This part provides information on,among other topics, fault considerations, maintenance, technical docu-mentation and usage guidelines. The transition period from EN 954-1 to EN ISO 13849-1, during which either standard may be applied, ended in Europe on December 31, 2011.EN 62061 represents a sector-specific standard under IEC 61508. It describes the implementation of safety-relevant electrical and electroniccontrol systems on machinery and examines the total life cycle from the concept phase through to decommissioning. Quantitative and qualitative examinations of the safety-related control functions form the basis.The performance of a safety function is described by the Safety Integrity Level (SIL).The safety functions identified from the risk analysis are divided into safe-ty subfunctions; these safety subfunctions are then assigned to actual devices, called subsystems and subsystem elements. Both hardware and software are handled this way. A safety-related control system is made up of several subsystems. The safety-related characteristics of these subsys-tems are described by characteristic parameters (SIL claim limit and PFH d ).5.Brief overviewof EN 62061• PFH: Probability of dangerous failure per hourd: Smaller of either lifetime or proof test interval• T1These subsystems may in turn be made up of various interconnected sub-system elements (devices) with characteristic parameters to calculate the subsystem’s corresponding PFHvalue.dSafety-related characteristic parameters for subsystem elements (devices):• λ: Failure rate; for wearing elements (or without constant failure rate): Bvalue10• SFF: Safe failure fractionFor electro-mechanical devices, the failure rate is indicated by the manu-facturer as a Bvalue, based on the number of switching cycles. The time-10related failure rate and the life expectancy must be determined on thebasis of the switching frequency for the respective application.Internal parameters to be established during design / construction for a subsystem comprised of subsystem elements:• T 2: Diagnostic test interval • β: Susceptibility to common cause failure • DC: Diagnostic coverage.The PFH d value of the safety-relevant control system is calculated by adding the subsystems’ individual PFH d ers have the following options when designing a safety-relevant con-trol system:•Use devices and subsystems that already comply with EN ISO 13849-1 and IEC 61508 or EN 62061. The standard specifies how to incorporate qualified devices when implementing safe-ty functions.• Develop their own subsystems.–Programmable, electronic subsystems or complex subsystems:apply IEC 61508.–Simple devices and subsystems: apply EN 62061.The standard represents a comprehensive system for the implementation of safety-relevant electrical, electronic and programmable electronic con-trol systems. EN 62061 has been a harmonized standard since December 2005.EN ISO 13849-1 should be applied for non-electrical systems.Step 1 –Risk assessment in accordance with EN ISO 12100It can be assumed that a hazard on a machine will result in harm sooneror later if protective measures are not put in place. Protective measures are a combination of the measures taken by the designer and those implemented by the user. Measures taken during the design phase are always preferable to those implemented by the user, and generally they are also more effective.6.Achieving safety,step-by-step –basic procedureThe designer must follow the sequence described below, bearing in mind the experience gained by users of similar machinery and information gained from discussions with potential users (if this is possible):the limits and thethe hazards and anyhazardous situa-hazard and hazardousthe risk and decide Step 2 –Define the measures required to reducethe calculated risksThe objective is to reduce risk as much as possible, taking various factors into account. The process is iterative; making the best possible use of the available technologies, it may be necessary to repeat the process several times in order to reduce the risk.When carrying out the process, the following priority ranking shall apply:1. Safety of the machine in all phases of its lifetime;2. The ability of the machine to perform its function;3. User friendliness of the machine.Only then the machine’s manufacturing, operating and disassembly costs shall be taken into consideration.The hazard analysis and risk reduction process requires hazards to be eliminated or reduced through a hierarchy of measures:technicalthe avail-are used to in order toStep 4 –Implementation of control measures using EN 13849-1 or EN 6206145 *. *-4# -EN 62061!7.Glossary8.FAQ listQ: Do solenoid valves / contactors have a SIL or PL rating?A: No. Single components cannot have a SIL and PL.Q: What is the difference between SIL and SILCL?A: The SIL rating always refers to a complete safety function while the SILCL refers to the subsystem.Q:Is there an analogy between PL and SIL?A: A relationship between PL and SIL can be established through the PFHdrelays.A diagnostic function with an appropriate error reaction or at least awarning of the hazard is a prerequisite.Q:Can I achieve a hardware fault tolerance of 1 with a single, mechanical door monitoring (safety gate) switch?A:No, just one fault would generally result in failure. For magnetically actuated or RFID-based systems, it is possible for the manufacturer to confirm a hardware fault tolerance of 1.Q:Is there a PFHvalue for wearing components?dvalue for wearing components for the A: No. Users can calculate a PFHdvalue in relation to the number of specific application using the B10dduty cycles.Q:What is the difference between MTBF and MTTF?A:The MTBF describes the time between two failures, whereas the MTTF describes the time to the first failure.Q:What does the letter “d” mean in MTTF?ddescribes the time to the A:“d” stands for “dangerous” –>the MTTFdfirst dangerous failureQ:May I apply EN ISO 13849-1 when integrating complex pro-grammable electronics?A:Yes. However, for operating system software and safety functions in accordance with PL “e”, the requirements of IEC 61508-3 will need to be considered.Q:What can I do if I do not receive any characteristic data from my component manufacturer?A:The annexes of both EN ISO 13849-1 and EN 62061 contain substi-tute reference values for frequently used components. Where avail-able, however, manufacturer’s values should always be used.Q:Can I apply EN ISO 13849-1 to calculate the MTTF on process valves/armatures that are switched less than once per year (low demand)?A:No, EN ISO 13849-1 only describes high-demand mode. For this rea-son, an MTTF assessment can only be made using additional measures such as “forced dynamization”.Q:Can I apply EN 62061 to calculate the failure rate on process valves/armatures that are switched less than once per year (low demand)?A:See question above.Q:Does application software have to be certified? If “yes”, to which standard?A:No. There is no separate mandatory certification for the software on the basis of either standard; rather, it is oriented on the size and com-plexity of the overall project. Within the scope of verification and val-idation of safety functions, a software test may be necessary.Information on this topic can be found in EN ISO 13849-1 Chapter4.6 and EN 62061 Chapters 6.9 and 6.10 as well as in EN 61508-3.Q:Can any component with MTTF be used for safety technology? A:No, in addition to the statistical characteristic data such as MTTF and , the component must also be functionally suited for the function B10dand it must satisfy certain minimum requirements such as construc-tive and safety-related requirements (implementation and application of safety principles).German Electrical and Electronic Manufacturers’Association Lyoner Straße 960528 Frankfurt am Main GermanyAutomation Division Switchgear, Controlgear, Industrial Control Systems Section Technical CommitteeSafety Systems in Automation。

产品型号 E额定速度 1.75m/s出厂编号 SEC31180903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050660BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 0903082 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 08年05月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030383 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s 对重油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030418 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s河北东方富达机械有限公司5#1单元南轿厢客用电梯800kg10人产品型号 E额定速度 1.75m/s出厂编号 SEC31090903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050669BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 不明 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 08年05月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030384 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s 对重油压缓冲器（底坑）型号 YH43A1210 出厂编号 不明制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s河北东方富达机械有限公司5#1单元北轿厢客用电梯800kg10人产品型号 E额定速度 1.75m/s出厂编号 SEC31060903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050657BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 不明 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 08年05月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030578 制造日期 2009.03.26试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s 对重油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030577 制造日期 2009.03.26试验单位 国家电梯质量监督检验中心缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s河北东方富达机械有限公司5#2单元南轿厢客用电梯800kg10人产品型号 E额定速度 1.75m/s出厂编号 SEC31070903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050658BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 0904255 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 08年05月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030370 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s 对重油压缓冲器（底坑）型号 YH43A1210 出厂编号 不明制造日期 2009.03.16试验单位 国家电梯质量监督检验中心缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s河北东方富达机械有限公司5#2单元北轿厢客用电梯800kg10人产品型号 E额定速度 1.75m/s出厂编号 SEC311040903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050655BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 0904260 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 08年05月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030591 制造日期 2009.03.26试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s 对重油压缓冲器（底坑）型号 YH43A1210 出厂编号 不明制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s河北东方富达机械有限公司6#1单元南轿厢客用电梯800kg10人产品型号 E额定速度 1.75m/s出厂编号 SEC311050903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050656BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 不明 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 08年05月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030399 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s 对重油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030572 制造日期 2009.03.26试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s河北东方富达机械有限公司6#1单元北轿厢客用电梯800kg10人产品型号 E额定速度 1.75m/s出厂编号 SEC311020903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050653BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 不明 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 08年05月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030594 制造日期 2009.03.26试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s 对重油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030592 制造日期 2009.03.26试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s河北东方富达机械有限公司6#2单元南轿厢客用电梯800kg10人产品型号 E额定速度 1.75m/s出厂编号 SEC311030903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050654BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 0904252 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 08年05月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030400 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s 对重油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030593 制造日期 2009.03.26试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s河北东方富达机械有限公司6#2单元北轿厢客用电梯800kg10人产品型号 E额定速度 1.75m/s出厂编号 SEC31100903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050661BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 不明 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 09年06月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030431 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s 对重油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030432 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s河北东方富达机械有限公司7#3单元南轿厢客用电梯800kg10人产品型号 E额定速度 1.75m/s出厂编号 SEC31110903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050662BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 不明 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 09年06月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030425 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s 对重油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030426 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s河北东方富达机械有限公司7#3单元北轿厢客用电梯800kg10人产品型号 E额定速度 1.75m/s出厂编号 SEC31120903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050663BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 不明 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 09年06月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030436 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s 对重油压缓冲器（底坑）型号 YH43A1210 出厂编号 09030435 制造日期 2009.03.16试验单位 国家电梯质量监督检验中心 缓冲行程 210mm 最大质量 300kg 最小质量 600kg 额定速度 ≤1.75m/s河北东方富达机械有限公司7#4单元南轿厢客用电梯800kg10人产品型号 E额定速度 1.75m/s出厂编号 SEC31130903 控制方式 集选 层/站/门 27/27/27 制造日期 2009.03苏州铃木电梯有限公司SEC 无齿轮永磁同步电梯曳引机（机房）型号 WYT —S1.75C 额定速度 380V 额定频率 28HZ 防护等级 1P41 交轴电感 16.1MH 绕组相电阻 0.82/PHASE曳引轮直径 400mm 额定负载 800kg 额定电流 21.7A额定转速 168rpm/min 工作制 S5 40% 直轴电感 16.1MH出厂编号09050664BC 悬挂方式 211 额定转矩 550NM 额定功率 9.7KW 绝缘等级 F 重量 420kg 出厂日期 2009.05沈阳蓝光驱动技术有限公司制造（苏州铃木电梯有限公司监制）OX —24OF 双向限速器（机房）检测报告编号 080128 电梯额定速度 1.75m/s 电器动作速度 2.05m/s 机械动作速度 2.25m/s 出厂编号 0904263 上海交通大学检测中心检测 上行夹绳器动作速度 2.28m/s 绳直径ф 8mm绳张紧力 ≥700n 绳轮节径ф240 出厂日期 2009.04宁德奥德普电梯部件有限公司配电箱（机房）型号 HDX 电压 380V 电流 100A出厂日期 09年06月石家庄红建达电器有限公司轿厢油压缓冲器（底坑）型号 YH42A1160 最大允许总重量 3000kg 最小允许总重量 600kg试验单位 国家电梯质量监督检验中心 额定速度 ≤1.5m/s 缓冲行程 160mm 制造日期 20081126 产品编号 08110280 对重油压缓冲器（底坑）型号 YH42A1160 最大允许总重量 3000kg 最小允许总重量 600kg试验单位 国家电梯质量监督检验中心 额定速度 ≤1.5m/s 缓冲行程 160mm 制造日期 20081126 产品编号 08110281河北东方机械厂制造7#4单元北轿厢客用电梯800kg10人。

Document Number: 28744For technical questions, contact: *************************** MCS 0402 VG01, MCT 0603 VG01, MCU 0805 VG01 andMCA 1206 VG01 thin film flat chip resistors with establishedreliability are the perfect choice for all high-reliabilityapplications typically found in military, aircraft and spacecraftelectronics. These versions supplement the families ofprofessional and precision thin film flat chip resistorsMCS 0402, MCT 0603, MCU 0805 and MCA 1206.∙Established reliability, failure rate level E6∙Advanced thin film technology ∙Pure Sn termination on Ni barrier layer ∙Single lot date code ∙Material categorization: For definitions of complianceplease see /doc?99912APPLICATIONS∙Military ∙Avionics ∙Space Notes•These resistors do not feature a limited lifetime when operated within the permissible limits. However, resistance value drift increasing over operating time may result in exceeding a limit acceptable to the specific application, thereby establishing a functional lifetime.•The failure rate level E6 (10-6/h, πQ = 0.3), corresponding to MIL Level P, is superior to level E5 (10-5/h, πQ = 1) and thus may be used as areplacement.METRIC SIZE IMPERIAL0402060308051206EN/CECC RR1005M RR1608M RR2012M RR3216M TECHNICAL SPECIFICATIONSDESCRIPTIONMCS 0402 VG01MCT 0603 VG01MCU 0805 VG01MCA 1206 VG01EN/CECC style (size)RR1005M RR1608M RR2012M RR3216MResistance range10 Ωto 1 M Ω; 0Ω 1 Ωto 1 M Ω; 0ΩResistance tolerance± 1 %; ± 0.1 %T emperature coefficient± 50ppm/K; ± 15 ppm/K Rated dissipation, P 700.063W 0.1W 0.125W 0.25W Operating voltage, U max. AC/DC50V 75 V 150V 200V Permissible film temperature, ϑF max.125︒C Operating temperature range- 55 °C to 125 °C Max. resistance change at P 70for resistance range, |∆R /R| max. after:10 Ωto 1 M Ω 1 Ωto 1 M Ω1000h≤ 0.25 %8000h≤ 0.5 %225000h≤ 1.5 %Permissible voltage against ambient(insulation):1 min; U ins75V 100V 200V 300V Continuous75V 75V 75V 75V Assessed failure rate levelE6 = 10-6/h Quality factor, πQ0.3Failure rate: FIT observed < 0.1 x 10-9/h For technical questions, contact: ***************************Document Number: 28744Notes•The products can be ordered using either the PART NUMBER or the PRODUCT DESCRIPTION.•Products within a packaging unit are single lot date code.TYPE/SIZEVERSION TCR RESISTANCE TOLERANCE PACKAGING MCS 0402MCT 0603MCU 0805MCA 1206H = EN 140401-801,“Version E”;failure rate level E6 C = ± 50 ppm/K E = ± 15 ppm/K Z = Jumper 3 digit value 1 digit multiplier MULTIPLIER8 = *10-29 = *10-10 = *1001 = *1012 = *1023 = *1034 = *1040000 = Jumper F = ± 1 %B = ± 0.1 %Z = JumperE1E0P1P5Product Description: MCT 0603-50 1% VG01 P5 287KProduct Description: MCT 0603 VG01 P5 0R0MCT 0603-50 1 %VG01P5287K MCT 0603--VG01P50R0TYPE/SIZETCR T OLERANCE VERSION PACKAGING RESISTANCE MCS 0402MCT 0603MCU 0805MCA 1206± 50 ppm/K ± 15 ppm/K ± 1 %± 0.1 %VG01 = EN 140401-801,“Version E”;failure rate level E6E1E0P1P549R9 = 49.9 Ω287K = 287 k Ω0R0 = JumperMC T 0603H Z 0000Z P 50006032873500Document Number: 28744For technical questions, contact: *************************** Note•The ordering information according to EN 140401-801:2007 shown above succeeds and replaces the ordering information according to earlier versions of the detail specification EN 140401-801 or its predecessor CECC 40401-801, for example:CECC 40401-801 EZ RR1608M C 287K F E6CECC 40401-801 S RR1608M C 287K F E6with EZ; S Assessment level, where EZ is successor to and superior replacement for SRR1608M Style, with suffix M for “metric”C Temperature coefficient, according to the detail specificationC = ± 50 ppm/K; E = ± 15 ppm/K Note•According to EN 140401-801, resistance values are to be selected from the E96 series for ±1% tolerance and from the E192 series for ±0.1 % tolerance.EN140401-801EZRR1608M-0R00-E6The elements used in the component number have the following meaning:EN140401-801EZRR1608MR287KF E6EN detail specification number Assessment level for the zero-defect approach Style (size)T emperature coefficient, according to EN 60062R = ± 50 ppm/K; P = ± 15 ppm/K Resistance, according to EN 60062, 4 characters T olerance on rated resistance, according to EN 60062F = ± 1 %; B = ± 0.1 %Failure rate level according to EN 60115-1, annex ZRTEMPERATURE COEFFICIENT AND RESISTANCE RANGEDESCRIPTIONRESISTANCE TCRTOLERANCE MCS 0402 VG01MCT 0603 VG01MCU 0805 VG01MCA 1206 VG01± 50 ppm/K± 1 %10 Ωto 1 M Ω 1 Ωto 1 M Ω1Ωto 1 M Ω1Ωto 1 M Ω± 15 ppm/K± 0.1 %100Ωto 33.2 k Ω100Ωto 47.5 k Ω100Ωto 100k Ω43.2Ωto 332k ΩJumper ≤ 20m Ω; I max. = 0.63 A ≤ 20m Ω; I max. = 1 A ≤ 20m Ω; I max. = 1.5 A≤ 20m Ω; I max. = 2 A PACKAGINGTYPECODE QUANTITY CARRIER TAPE WIDTH PITCH REEL DIAMETER MCS 0402 VG01E11000Paper tape acc. IEC 60286-3T ype I 8 mm 2 mm 180 mm/7"E010 000MCT 0603 VG01P110008 mm 4 mm P55000MCU 0805 VG01P11000P55000MCA 1206 VG01P11000P55000 For technical questions, contact: ***************************Document Number: 28744Note•Resistors MCA 1206 VG01 and MCU 0805 VG01 are marked using to the four-character code system of IEC 60062, 4.2.3.Resistors MCT 0603 VG01 and MCS 0402 VG01 do not show any marking on their light blue protective coating.Note•The given solder pad dimensions reflect the considerations for board design and assembly as outlined e.g. in standards IEC 61188-5-x, or in publication IPC 7351. They do not guarantee any supposed thermal properties, however, they will be found adequate for most general applications.DIMENSIONS AND MASSTYPEH (mm)L (mm)W (mm)W T (mm)T b (mm)T t (mm)MASS (mg)MCS 0402 VG010.32 ± 0.05 1.0 ± 0.050.5 ± 0.05> 75 % of W 0.2 ± 0.10.2 + 0.1/- 0.150.6MCT 0603 VG010.45 + 0.1/- 0.05 1.55 ± 0.050.85 ± 0.10.3 + 0.15/- 0.21.9MCU 0805 VG010.45 + 0.1/- 0.052.0 ± 0.11.25 ± 0.150.4 + 0.1/- 0.2 4.6MCA 1206 VG010.55 ± 0.1 3.2 + 0.1/- 0.2 1.6 ± 0.150.5 ± 0.259.2RECOMMENDED SOLDER PAD DIMENSIONSTYPE WAVE SOLDERINGREFLOW SOLDERING G(mm)Y (mm)X (mm)Z (mm)G (mm)Y (mm)X (mm)Z(mm)MCS 0402 VG01----0.350.550.55 1.45MCT 0603 VG010.551.10 1.102.750.650.700.95 2.05MCU 0805 VG010.801.25 1.50 3.300.900.90 1.402.70MCA 1206 VG011.40 1.50 1.90 4.40 1.50 1.15 1.753.80grade ceramic (Al2O3) substrate and conditioned to achieve the desired temperature coefficient. Specially designed inner contacts are deposited on both sides. A special laser is used to achieve the target value by smoothly cutting a meander groove in the resistive layer without damaging the ceramics. For the high ohmic range, optimized cermet products provide comparable properties. The resistor elements are covered by a protective coating designed for electrical, mechanical and climatic protection. The terminations receive a final pure tin on nickel plating.The result of the determined production is verified by an extensive testing procedure performed on 100 % of the individual resistors. This includes pulse load screening for the elimination of products with a potential risk of early life failures according to EN 140401-801, 2.1.2.2 (feasible for R≥ 10 Ω). Only accepted products are laid directly into the paper tape in accordance with EN 60286-3 (3), Type I.Products within a packaging unit are from the same production lot and carry the same date code.ASSEMBLYThe resistors are suitable for processing on automatic SMD assembly systems. They are suitable for automatic soldering using wave, reflow or vapour phase as shown in IEC61760-1 (3). Solderability is specified for 2 years after production or requalification. The permitted storage time is 20 years.The resistors are RoHS compliant; the pure tin plating provides compatibility with lead (Pb)-free soldering processes. The immunity of the plating against tin whisker growth has been proven under extensive testing.The encapsulation is resistant to all cleaning solvents commonly used in the electronics industry, including alcohols, esters and aqueous solutions. The suitability of conformal coatings, if applied, shall be qualified by appropriate means to ensure the long-term stability of the whole system.∙2000/53/EC End of Vehicle life Directive (ELV) and Annex II (ELV II)∙2011/65/EU Restriction of the use of Hazardous Substances directive (RoHS)∙2002/96/EC Waste Electrical and Electronic Equipment Directive (WEEE)APPROVALSThe resistors are approved within the IECQ-CECC Quality Assessment System for Electronic Components to the detail specification EN140401-801 which refers to EN60115-1, EN140400 and the variety of environmental test procedures of the IEC 60068 (3)series.Conformity is attested by the use of the CECC logo () as the mark of conformity on the package label.Vishay BEYS C HLAG has achieved “Approval of Manufacturer” in accordance with IEC QC001002-3, clause 2. The release certificate for “Technology Approval Schedule” in accordance with CECC240001 based on IEC QC001002-3, clause 6 is granted for the Vishay BEYSCHLAG manufacturing process.The Vishay BEYSC HLAG production facility is registered with the CAGE code D9539.RELATED PRODUCTSA wider range of TCR, tolerance and resistance values, plus the option of values from a different E series is available with products approved to EN 140401-801, Version A, without established reliability, nominal failure rate level E0 (quality factor πQ = 3). See the datasheets:∙“Professional Flat Chip Resistors”(/doc?28705)∙“Precision Flat Chip Resistors”(/doc?28700)Notes(1)Global Automotive Declarable Substance List, see .(2)CEFIC (European Chemical Industry Council), EECA (European Electronic Component Manufacturers Association), EICTA (European tradeorganisation representing the information and communications technology and consumer electronics), see /index.php?id=1053&id_article=340.(3)The quoted IEC standards are also released as EN standards with the same number and identical contents.Document Number: 28744For technical questions, contact: *************************** For technical questions, contact: ***************************Document Number: 28744Document Number: 28744For technical questions, contact: *************************** •“Precision Flat Chip Resistors”, document no. 28700EN 140400, sectional specificationEN 140401-801, detail specificationFor further information on the tests and requirements ofthese products please refer to the specifications mentionedabove, and to the following datasheets:•“Professional Flat Chip Resistors”(/doc?28705)•“Precision Flat Chip Resistors”(/doc?28700)HISTORICAL 12NC INFORMATION∙The resistors had a 12-digit code starting with 2312∙The subsequent 4 digits indicated the resistor type,specification and packaging; see the 12NC table∙The remaining 4digits indicate the resistance value:-The first 3digits indicated the resistance value-The last digit indicated the resistance decade inaccordance with the resistance decade table RESISTANCE DECADE Historical 12NC ExampleThe 12NC of a MC T 0603 VG01 resistor, value 287K andTCR 50 with ± 1 % tolerance, supplied in cardboard tape of5000units per reel was: 2312 215 02874.RESISTANCE DECADE LAST DIGIT 1Ω to 9.99Ω810Ω to 99.9Ω9100Ω to 999Ω11 k Ωto 9.99k Ω210k Ω to 99.9k Ω3100k Ω to 999k Ω41M Ω5HISTORICAL 12NC - Resistor type and packagingDESCRIPTION2312........CARDBOARD TAPE ON REEL TYPE TCRTOL.E1 1000 PIECES E0 10 000 PIECES MCS 0402 VG01± 50 ppm/K± 1 %260 0....275 0....± 15 ppm/K± 0.1 %262 0....277 0....Jumper262 90001277 90001TYPE TCRTOL.P11000 PIECES P5 5000 PIECES PW 20 000 PIECES MCT 0603 VG01± 50 ppm/K± 1 %200 0....215 0....205 0....± 15 ppm/K± 0.1 %202 0....217 0....-Jumper202 90001217 90001207 90001MCU 0805 VG01± 50 ppm/K±1 %240 0....255 0....245 0....± 15 ppm/K± 0.1 %242 0....257 0....-Jumper242 90001257 90001247 90001MCA 1206 VG01± 50 ppm/K± 1 %No 12NC assigned to MCA 1206 VG01± 15 ppm/K± 0.1 %Jumper“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other disclosure relating to any product.Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special, consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular purpose, non-infringement and merchantability.Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular product with the properties described in the product specification is suitable for use in a particular application. Parameters provided in datasheets and/or specifications may vary in different applications and performance may vary over time. All operating parameters, including typical parameters, must be validated for each customer application by the customer’s technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein.Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining applications or for any other application in which the failure of the Vishay product could result in personal injury or death. Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.Material Category PolicyVishay Intertechnology, Inc. hereby certifies that all its products that are identified as RoHS-Compliant fulfill the definitions and restrictions defined under Directive 2011/65/EU of The European Parliament and of the Council of June 8, 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment (EEE) - recast, unless otherwise specified as non-compliant.Please note that some Vishay documentation may still make reference to RoHS Directive 2002/95/EC. We confirm that all the products identified as being compliant to Directive 2002/95/EC conform to Directive 2011/65/EU.Vishay Intertechnology, Inc. hereby certifies that all its products that are identified as Halogen-Free follow Halogen-Free requirements as per JEDEC JS709A standards. Please note that some Vishay documentation may still make reference to the IEC 61249-2-21 definition. We confirm that all the products identified as being compliant to IEC 61249-2-21 conform to JEDEC JS709A standards.Revision: 02-Oct-121Document Number: 91000。

Automated Precision WeighingSIWAREX WP231E n g i n e e r i n g N o t ePBK9/PFK9-APW Weigh Platformswith SIWAREX WP2312E n g i n e e r i n g N o t eInhaltsverzeichnis1.1 Field of application ....................................................................................... 32.1 Connecting to Siwarex WP231 ...................................................................... 4 2.2 Configuring Siwarex WP231 ......................................................................... 5 2.3Configuring PBK9/PFK9 Weigh Platform ......................................................... 5 2.3.1 Connecting the weighing sensor to a PC ................................................................... 5 2.3.2 RS422/485 interface .............................................................................................. 5 2.3.3 Weight output ........................................................................................................ 6 2.3.4 User mode ............................................................................................................ 6 2.4 Weight transmission with Siwatool ................................................................. 6 4.1 Other Applicable Documents .......................................................................... 8 4.2 Figures . (8)1Introduction1.1Field of applicationPBK9/PFK9-APW weigh platforms from METTLER TOLEDO (hereafter referred to as “weighing sen-sors”)were developed especially for operation in automated plants. The weighing sensors profides an optionfor direct connection to the SIWAREX WP231 weighing system by Siemens (hereafter referred to as "Si-warex"). This document describes the steps for commissioning and optimizing this kind of connection.Figure 1: Connection to Siwarex via RS48534E n g i n e e r i n g N o t e2 CommissioningThis chapter summarizes, in form of a list, the steps required for commissioning PBK9/PFK9-APW weigh platforms at Siwarex.2.1 Connecting to Siwarex WP231The following diagram shows the connection of the PBK9/PFK9-APW weigh platforms to Siwarex WP231.Figure 2: Connection diagrammAssignment of the connections at SIWAREX WP231for the connection with PBK9/PFK9-APW weigh plat-form:2.2Configuring Siwarex WP231The following sections describe the steps required to configure the Siwarex when using Siwatool PCSoftware. Service mode must be activated before the records can be sent from Siwatool to the Siwarex:service commands-> Service Mode ON. When the service mode is activated, the corresponding icon(open-end wrench on red background) appears in the status bar.For SIWAREX WP231 as of firmware V3.0.4, parameters in the data record 3 and 13 must be adjustedas follows:DR3:Weight unit: grLoading cell type: Digital load cell Mettler Toledo PBKMaximum weight: capacity of the weighing sensor (unit: gr)Calibration weight 0: 0Calibration weight 1: capacity of the weighing sensor (unit: gr)Calibration weight 2: 0Calibration digits 0 (measured): 0Calibration digits 1 (measured): (capacity of the weighing sensor (unit: gr)) / (resolution)e.g.: 1 kg / 0.1 g = 1000 gr / 0.1 gr = 10,000Calibration digits 2 (measured): 0DR13:RS485 Protocol: Mettler Toledo PBK/PFK9 (Code 4)RS485 Baudrate: 38400RS485 Parity: evenRS485 Data Bits: 7RS485 Stop Bits: 1Delay: 2000 ms2.3Configuring PBK9/PFK9 Weigh PlatformThe steps are described below to configure the weighing sensor such that it operates with Siwarex.2.3.1Connecting the weighing sensor to a PCThe RS232 interface of the weighing sensor should be connected to a PC (using APW-Link TM - Free Con-figuration Tool – /apw-link) via the SubD9 connector of the ConBlock. The interface pa-rameters are configured in factory settings as follows: 9,600 baud, 8 data bits, no parity and1 stop bit.These settings shall NOT be modified.2.3.2RS422/485 interfaceFor the weighing platform, following parameters need to be configured:Parameter Value DescriptionM103 1 2 Configure the communication interface of the weighing platform as "RS485mode (half-duplex)"COM 1 8 0 0 Configure the communication interface of the weighing platform as follows:▪38400 bits per second▪7 data bits / even parity / 1 stop bit▪No handshakeM68 0 Keep the parameters of the communication interface permanently stored,such that they are not reset to factory defaults after a power cycle56E n g i n e e r i n g N o t e2.3.3 Weight outputFor seamless communication with the Siwarex, the update rate must be configured as follows:Update rate (UPD): UPD 922.3.4 User modeThe weighing sensors are automatically set to zero at power on. This might be undesirable in certain applications, particularly for larger platforms when a weight value shall be recovered after power off. When selecting the mode described below, the weight values refer to a fix reference point (as per pro-duction setting) and the zeroing at start up is disabled.Start-up with fix reference point: M35 12.4 Weight transmission with SiwatoolAfter successfully configuring the Siwarex and the weighing sensor, Siwatool can be used to weigh forcontrol purposes.The "Start Send" command (code 905) is used to send the individual records to the Siwarex. To con-firm, a record with “Receive” can be read out from the Siwarex. The communication can be stopped with the "Stop Send" command (code 906).Below in the picture, you can see the overview of the SIWATOOL:Figure 3: Siwatool(1) Control elements for SIWATOOL and the for the operation of the weighing sensor (2) Parameter list of the SIWATOOL module (3) Offline values of the SIWATOOL module(4) Online values of the connected SIWAREX module3Supported METTLER TOLEDO ProductsFTAV9.5.2WMS/WMSPBK9-APW/PBK9PFK9-APW/PFK9SLF6/SLF67Mettler-Toledo GmbH IndustrialCH-8606 Nänikon, SwitzerlandSubject to technical changes© 03/2017 Mettler-Toledo GmbHPrinted in Switzerland EN181_160407 4 Appendix4.1 Other Applicable Documents[1] METTLER TOLEDO, Reference Manual, Standard Interface Command Set (11781363G)[2] METTLER TOLEDO, Installation Manual PBK9 bench scales (30233012A)[3] METTLER TOLEDO, Installation Manual PFK9 floor scales (30233015A)[4]Siemens, Siwarex WP231, Device Manual, version 06/2014 (or later)4.2 FiguresFigure 1: Connection to Siwarex via RS485.................................. 3 Figure 2: Connection diagramm .................................................. 4 Figure 3: Siwatool (6)。

EVKT-MSM942038-24EVKT-MSM942038-24eMotion System TM Smart Motor ModuleEvaluation KitEvaluation Kit EVKT-MSM942038-24 ContentsPart Number EVKT-MSM942038-24Diameter (mm) 42 Power (W)38 Typical Voltage (V)24 InterfaceRS485# Part Number Item Quantity 1EVKT-MSM942038-24 BLDC motor withMMP742038-24 smart motor module installed 1 2eMotion System TMcommunication kitUSB communication interface with cable1FEATURESThe EVKT-MSM942038-24 evaluation kit is part of a family of fully integrated smart motor solutions for servo motor applications. This 42mm (NEMA 17), 38W motor integrates a brushless DC motor and a smart motor module. The user can program the system to operate in speed control mode, position control mode, or torque control mode. Two control interface options are available: an RS485 interface and a PULSE/DIR interface. Easy-to-use GUI software provides flexibility by allowing users to optimize the design online through the RS485 control interface. The parameters are saved in the motor module ’s non-volatile memory. A design guide for the GUI is available for download at .The smart motor modules can be ordered separately for customization into different motor types. The MMP742038-24 is the driver module part number used in the kit.The datasheet for the MMP742038-24 is available for download at .∙ 18V to 36V Input Voltage Range ∙ Max 38W Continuous Power Output ∙ 0.12N-m Rated Torque (0.36N-m Peak Torque)∙0.3° Position Resolution ∙ RS485 Interface and PULSE/DIR Interface ∙ Position, Speed, and Torque Control Modes ∙ Operating Temperature: 0°C to 70°C (Power Derated > 40°C) ∙ Storage Temperature: -40°C to +125°CORDERING INFORMATIONDESCRIPTIONEVKT-MSM942038-24 – eMOTION SYSTEM TM EVALUATION KITSmart Motor Module Evaluation KitParameter Condition Value UnitsInput voltage24 VOutput power0°C to40°C38 WPositionresolution0.3 °Nominal speed3000 rpmNominal torque0.12 N-mRotor inertia24 g-cm2Diameter42 mmShaft diameter 5 mmLength Body only 40 mmWeight300 gHARDWARE CONNECTIONSRECOMMENDED OPERATING CONDITIONSInput voltage ................................. 18V to 36VControl interface voltage ................ 0V to 5.5VMax pulse frequency .......................... 500kHzRS485 A/B voltage ........................ 0V to 5.5VRS485 common mode voltage ................±15VOperation temperature................. 0°C to 70°CStorage temperature ............. -40°C to +125°C EVALUATION KIT SPECIFICATIONSEVKT-MSM942038-24 – eMOTION SYSTEM TM EVALUATION KIT8 9 10 11 121 2 3 45 6 7Fault IndicationPower On IndicationT A = 25°C, V IN = 24V, unless otherwise noted.Pin NumberDesignation Pin Description RS485 Interface 1 EXT_5V5V input for firmware programming 2 B RS485 node B 3 AGND RS485 ground 4 A RS485 node A Power Interface5 GND Power ground6 R- Shunt resistor return node7 VIN Input power supply Control Interface8 COM- Common return 9 EN+ Enable input 10 PEND+ Position end output11 PUL+ Pulse input 12DIR+Direction inputPIN CONFIGURATIONTYPICAL PERFORMANCE CHARACTERISTICSEVKT-MSM942038-24 – eMOTION SYSTEM TM EVALUATION KITMECHANICAL DRAWINGEVKT-MSM942038-24。

Technical dataBasic dataSeries MSI-SR4BFunctionsFunctions Automatic start/restartContactor monitoring (EDM)Cross circuit monitoringStart/restart interlock (RES), selectable Restart AutomaticManualCharacteristic parametersSIL 3 ,IEC 61508SILCL 3 ,IEC/EN 62061Performance Level (PL) e ,EN ISO 13849-1MTTF d73 years ,EN ISO 13849-1PFH D0.000000021 per hourPFH D2,1E-08 per hourPFH D, nop = 48000.0000000014 per hourPFH D, nop = 288000.0000000045 per hourPFH D, nop = 864000.000000015 per hourMission time T M20 years ,EN ISO 13849-1Category 4 ,EN ISO 13849STOP category0 ,IEC/EN 60204-1B10d at DC13 (inductive load)1,000,000 number of cyclesB10d at AC15 (inductive load)1,400,000 number of cyclesElectrical dataProtective circuit Fuse on switching output, upstream Continuous current per current path, max. 3 AInput current, max.100 mAExternal safeguarding for supply circuit200 mA delay-actionPermissible input line resistance, max.30 ΩPerformance dataSupply voltage U B24 V ,AC/DC ,-20 ... 20 %Current consumption, max.Without external loadPower consumption, max. 3 WOutputsNumber of safety-related switching outputs (OSSDs) 3 Piece(s)Safety-related switching outputsType Safety-related switching output OSSD Voltage type AC/DCSafety-related switching output 1Switching element Relay ,NOSafety-related switching output 2Switching element Relay ,NOSafety-related switching output 3Switching element Relay ,NOTimingResponse time10 msPickup delay, automatic start300 msPickup delay, manual start30 msRegression delay10 msTest pulse acceptance, max. 1 msTime window for signal sequence monitoring20 msConnectionNumber of connections 1 Piece(s) Connection 1Type of connection TerminalFunction Connection to deviceType of terminal Screw terminalNo. of pins16 -pinCable propertiesConnection cross sections0.2 to 2.5 mm²Mechanical dataDimension (W x H x L)22.5 mm x99 mm x114.1 mm Housing material Plastic ,PA66Electrical contact material Silver alloyNet weight170 gHousing color GrayType of fastening Snap-on mounting Mechanical life time10,000,000 actuation cyclesOperation and displayType of display LEDNumber of LEDs 4 Piece(s)Environmental dataAmbient temperature, operation0 ... 55 °CAmbient temperature, storage-25 ... 70 °CCertificationsDegree of protection IP 20 (terminals)IP 40 (housing)Protection class IICertifications c TÜV NRTL USc UL USTÜV SüdClassificationCustoms tariff number85371098*********27371819*********27371819ETIM 5.0EC001449ETIM 6.0EC001449Electrical connectionConnection 1Type of connection TerminalFunction Connection to deviceType of terminal Screw terminalNo. of pins16 -pinTerminal Assignment13Relay contact 1 IN23Relay contact 2 IN33Relay contact 3 IN41Signal contact INA1+24VS35Restart inputS33Sensor supply, contacts 24V OUTS22Sensor inputS12Sensor inputA20 VS34Restart automatic outputS31Sensor input14Relay contact 1 OUT24Relay contact 2 OUT34Relay contact 3 OUT42Signal contact INOperation and displayLEDsLED Display Meaning1Green, continuous light Supply voltage on2Green, continuous light Relay K1 picked up3Green, continuous light Relay K2 picked up4Yellow, continuous light Restart interlock locked。

241For additional technical information visit Metric measurements for this product are exact, imperial measurements are rounded to the nearest whole numberUseful Cooling Capacity: 2400 - 5794 BTU (703 - 1697 W)Part No. with basic controller 3303.1042)3303.1142)3304.1043304.1143304.1443305.1043305.1143305.144Part No. with comfort controller 3303.5042)3303.5142)3304.5043304.5143304.5443305.5043305.5143305.544Voltage V , Hz230, 50/60115, 60230, 50/60115, 60400, 50/ 460, 60, 3~230, 50/60115, 60400, 50/ 460, 60, 3~Dimensions inches (mm)H x W x D24 x 11 x 12 (620 x 285 x 298)40 x 16 x 14 (1020 x 405 x 358)Useful cooling capacity Q KBTU (W)T i 131 T a 1312400 (703)3916 (1147)5794 (1697)Useful cooling capacity Q K to DIN 3168 BTU (W)T i 95 T a 951708/2083(500/610)1708 (500)3415/3620 (1000/1060)5123/5157 (1500/1510)T i 95 T a 122956/1195(280/350)956 (280)2698/2869 (790/840)4201/4269 (1230/1250)Rated current maximum 2.6/2.6 A 5.7 A 5.4/5.0 A 10.6/11.1 A 2.8/2.9 A 6.0/6.5 A 12.1/13.6 A 2.6/2.9 A Starting current 5.1/6.4 A 11.5 A 12.0/14.0 A 26.0/28.0 A 11.5/12.7 A 22.0/24.0 A 42.0/46.0 A 12.2/11.3 A Pre-fuse T 10.0 A 10.0 A 10.0 A 16.0 A 10.0 A 1)16.0 A 20.0 A 10.0 A 1)Power consumption Pel toDIN 3168T i 95 T a 95360/380 W 470 W 700/650 W 725/680 W 580/550 W 850/1000 W 880/1050 W 800/980 W T i 95 T a 122420/390 W500 W 750/710 W 780/750 W 660/680 W 1000/1160 W 1040/1200 W 960/1150 W Cooling coefficient j =Q K /PelT i 95 T a 95 1.4 1.7 1.8 1.7 1.9Refrigerant R134a, 6.0 oz (170 g)R134a, 17.6 oz (500 g)R134a, 21.1 oz (600 g)Maximum allowable operating pressure 406 psi (28 bar)363 psi (25 bar)Temperature and setting range Comfort Controller - 68 to 131° F (+20 to +55° C) / Basic Controller - 86 to 131° F (+30 to +55° C)Environmental ratings UL Type 4X (IP 66)Duty cycle 100%Type of connection Plug-in terminal strip Weight lb (kg)55.1 (25)108.2 (49)119.0 (54)110.2 (50)112.4 (51)123.5 (56)114.6 (52)Material Type 304 stainless steelAir displacement offans External circuit 203 cfm (345 m 3/h)530 cfm (900 m 3/h)530 cfm (900 m 3/h)Internal circuit 182 cfm (310 m 3/h)353 cfm (600 m 3/h)471 cfm (800 m 3/h)Temperature control Basic or comfort controller (factory setting 95° F [+35° C])Accessories PU Page Door-operated switch 14127.010–Master/slave cable for comfortcontroller13124.100–3124.100267RiDiag II including cables for comfortcontroller13159.100267Interface card for comfort controller 13124.200268Condensate hose 13301.6103301.6122731) Motor circuit breaker. 2)Internal condensate evaporator not included. Special voltages and technical modifications available on request.Wallmounted UL T ype 4X Air ConditionerCon guration:Fully wired ready for connection, including drilling template and assembly parts. With nano-coated condenser and integrated condensate evaporator.Protection Ratings:UL and cUL recognized, CSA UL Type 4XUL file: SA8250 Material:Type 304 stainless steel Note:Air conditioner with comfortcontroller may be integrated into a monitoring system with an optional interface card 3124.20 (RS 232, RS 485, RS 422 and PLC interface). See page 268. Made in the USA.000C o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ŀ M o t i o n C o n t r o l ŀ H y d r a u l i c ŀ P n e u m a t i c ŀ E l e c t r i c a l ŀ M e c h a n i c a l ŀ (800) 426-5480 ŀ w w w .c m a f h .c o242For additional technical information visit Metric measurements for this product are exact, imperial measurements are rounded to the nearest whole numberUseful Cooling Capacity: 8706 - 10525 BTU (2550 - 3083 W)Part No. with basic controller 3328.1043328.1143328.1443329.1043329.1143329.144Part No. with comfort controller 3328.5043328.5143328.5443329.5043329.5143329.544Rated operating voltage V , Hz 230, 50/60115, 50/60400, 50/460, 60, 3~230, 50/60115, 50/60400, 50/460, 60, 3~Dimensions inches (mm)H x W x D 65 x 16 x 15 (1650 x 405 x 388)Useful cooling capacity Q K BTU (W)T i 131 T a 1318706 (2550)10525 (3083)Useful cooling capacity Q K to DIN 3168 BTU (W)T i 95 T a 956860/8025 (2000/2350)8538/9392 (2500/2750)T i 95 T a 1224952/5772 (1450/1690)5464/5977 (1600/1750)Rated current max. 7.5 A/9.1 A 14.7 A/17.3 A 2.8 A/3.3 A 8.6 A/10.6 A 17.0 A/22.0 A 3.7 A/3.8 A Start-up current 22.0 A/26.0 A36.0 A/39.0 A6.8 A/7.8 A 21.0 A/21.0 A44.0 A/42.0 A6.8 A/7.6 A Pre-fuse T16.0 A25.0 A 10.0A/10.0 A 1)16.0 A 25.0 A 10.0 A/10.0 A 1)Power consumption Pel to DIN 3168 T i 95 T a 951025/1200 W 1085/1250 W 1050/1275 W 1450/1675 W 1500/1725 W 1425/1625 W T i 95 T a 1221250/1350 W1300/1410 W1275/1525 W1625/2000 W1675/2065 W1675/1975 WCooling coefficient j = Q K /Pel T i 95 T a 951.72.31.92.0RefrigerantR134a, 31.7 oz (900 g)Maximum allowable operating pressure 406 psi (28 bar)Temperature and setting range Comfort Controller - 68 to 131° F (+20 to +55° C) / Basic Controller - 86 to 131° F (+30 to +55° C)Protection rating UL Type 4X (IP 66)Duty cycle 100%Type of connection Plug-in terminal stripWeight lb (kg)176.4 (80)191.8 (87)176.4 (80)183.0 (83)198.4 (90)183.0 (83)MaterialType 304 stainless steelAir displacement of fans External circuit 377 cfm (640 m 3/h)418 cfm (710 m 3/h)Internal circuit324 cfm (550 m 3/h)377 cfm (640 m 3/h)Temperature control Basic or comfort controller (factory setting 95° F [+35° C])Accessories PU Page Door-operated switch14127.010–Master/slave cable for comfort controller13124.100267RiDiag II including cables for comfort controller 13159.100267Interface card for comfort controller 13124.200268Condensate hose13301.6122731)Motor circuit breaker. Special voltages available on request. We reserve the right to make technical modifications.Wallmounted UL T ype 4X Air ConditionerCon guration:Fully wired ready for connection, including drilling template and assembly parts. With nano-coated condenser and integrated condensate evaporator.Protection Ratings: UL and cUL recognized UL Type 4X UL file: SA8250Material:Type 304 stainless steelNote:Air conditioner with comfortcontroller may be integrated into a monitoring system with an optional interface card 3124.200(RS 232, RS 485, RS 422 and PLC interface). See page 268. Made in the USA.C o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ŀ M o t i o n C o n t r o l ŀ H y d r a u l i c ŀ P n e u m a t i c ŀ E l e c t r i c a l ŀ M e c h a n i c a l ŀ (800) 426-5480 ŀ w w w .c m a f h .c o。

创维高清S校正电容替换和电容使用知识.txt我自横刀向天笑，笑完我就去睡觉。

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1 CL21系列(MEF)为无感结构,用金属化聚脂薄膜作电介质,使用环氧树脂包封.适用于直流和VHF及信号的隔直流,旁路和耦合.广泛用于滤波,降噪,低脉冲电路.2 CL21-B系列(MEB)为CL21电容密封于阻燃塑料壳内,除了CL21的特性外,自愈性好,寿命长.3 CL21-X系列(MEFmimi)超小型的CL21.除了CL21的特性外,还具有容量范围宽,体积小,比率容量大4 CL20T轴向系列(MET/MEA)为无感结构,用金属化聚脂薄膜作电介质,外层用聚脂胶带包裹.两端用环氧树脂密封.容量范围宽,体积小,自愈性好,寿命长.适用于直流和VHF及信号的隔直流,旁路和耦合.广泛用于滤波,降噪,低脉冲电路.5 CL20A轴向系列(MET/MEA)为无感结构,用金属化聚脂薄膜作电介质,外层用聚脂胶带包裹.两端用环氧树脂密封.容量范围宽,体积小,自愈性好,寿命长.适用于直流和VHF及信号的隔直流,旁路和耦合.广泛用于滤波,降噪,低脉冲电路.6 CBB21系列(MPP)为无感结构,用金属化聚丙烯薄膜作电介质,使用环氧树脂包封.高频损耗小,适用于较大电流,绝缘电阻高,自愈性好.广泛用于高频,直流,交流和脉冲电路中.7 CBB21-B系列(MPB)为CBB21电容密封于阻燃塑料壳内,除了CBB21的特性外,寿命长.8 CBB13系列(PPN)为无感结构,用聚丙烯薄膜作电介质和铝箔为电极卷绕而成,使用环氧树脂包封.高频损耗小,适用于较大电流,优异的高频,温度特性.绝缘电阻高,寿命长.广泛用于高频,直流,交流和脉冲电路中.9 CBB20T轴向系列(MPT/MPA)为无感结构,用金属化聚丙烯薄膜作电介质,外层用聚脂胶带包裹,两端用环氧树脂密封.非感应结构,高频损耗小,适用于较大电流,绝缘电阻高,自愈性好,寿命长.广泛用于高频,直流,交流和脉冲电路中.10 CBB20A轴向系列(MPT/MPA)为无感结构,用金属化聚丙烯薄膜作电介质,外层用聚脂胶带包裹,两端用环氧树脂密封.非感应结构,高频损耗小,适用于较大电流,绝缘电阻高,自愈性好,寿命长.广泛用于高频,直流,交流和脉冲电路中.11 CBB81系列(PPS)为无感结构,用聚丙烯薄膜作电介质和铝箔为电极卷绕而成,使用环氧树脂包封.高频损耗小,适用于较大电流.优异的高频,温度特性.绝缘电阻高,寿命长.广泛用于高频,直流,交流和脉冲电路中.12 CBB81-B系列(PPS)为CBB81电容密封于阻燃塑料壳内,除了CBB81的特性外,寿命更长.更具高温特性.13 CBB88系列(聚丙烯膜电磁炉电容)为无感结构,用聚丙烯薄膜作电介质和铝箔为电极卷绕而成,使用环氧树脂密封于阻燃塑料壳内.高频损耗小,适用于较大电流.绝缘电阻高,自愈性好,寿命长.广泛适用于电磁炉震荡电路,UPS,高频逆变焊机等.14 CBB93系列(高压大电流电容)为无感结构,用聚丙烯薄膜作电介质和铝箔为电极卷绕而成.外层用聚脂胶带包裹,两端用环氧树脂密封.非感应式结构,电感量低,有自愈性,dv/dt值较高,电流大,适用于高脉冲及高电流电路环境.15 CBB94系列(高压大电流电容)为无感结构,用聚丙烯薄膜作电介质和双面金属化聚脂膜为电极卷绕而成.外层用聚脂胶带包裹,两端用环氧树脂密封.非感应式结构,电感量低,有自愈性,可靠性高,dv/dt值较高,电流大,适用于高频高压环境.16 X2-MKP安规系列(抗干扰电容)为无感结构,用金属化聚丙烯膜作电介质/电极绕制而成.使用环氧树脂包密封在阻燃塑料壳内.高频损耗小,适用于较大电流,绝缘电阻高,自愈性好,寿命长,能承受 2.5KV的脉冲电压,属X2类.适用于电源跨线降噪电路,及其他交流场合.17 X2-MKT安规系列(抗干扰电容)为无感结构,用金属化聚脂膜作电介质/电极绕制而成.使用环氧树脂包密封在阻燃塑料壳内.绝缘电阻高,自愈性好,寿命长,能承受2.5KV的脉冲电压,属X2类.适用于电源跨线降噪电路,及其他交流场合.18 X1Y组合电容系列(抗干扰电容)是一种新型抗电磁干扰旁路的电容器,由一个X1电容和两个Y电容组成.有优良的抗干扰能力.一体化的设计提高了可靠性,减少了安装.适用于电动工具,电视,开关电源等高品质的家用电器中.19 X2Y2组合电容系列(抗干扰电容)是一种新型抗电磁干扰旁路的电容器,由一个X2电容和两个Y2电容组成.有优良的抗干扰能力.一体化的设计提高了可靠性,减少了安装.适用于电动工具,电视,开关电源等高品质的家用电器中.20 CBB60系列(金属化聚丙烯膜交流电容器)为无感结构,用金属化聚丙烯膜作电介质/电极绕制而成,采用UL导线引出.使用环氧树脂包密封在阻燃塑料壳内高频损耗小,适用于大电流,绝缘电阻高,自愈性好,寿命长.适用于频率50HZ(60HZ)交流电源供电的单相电动机的启动和运转.21 CBB61系列(金属化聚丙烯膜交流电容器)为无感结构,用金属化聚丙烯膜作电介质/电极绕制而成,采用UL导线引出.使用环氧树脂包密封在阻燃塑料壳内高频损耗小,适用于大电流,绝缘电阻高,自愈性好,寿命长.适用于频率50HZ(60HZ)交流电源供电的单相电动机的启动和运转.22 X1Y2组合电容系列(抗干扰电容)是一种新型抗电磁干扰旁路的电容器,由一个X1电容和两个Y2电容组成.有优良的抗干扰能力.一体化的设计提高了可靠性,减少了安装.适用于电动工具,电视,开关电源等高品质的家用电器中.23 RC 组件系列是一种新型的抗干扰组件.由一只电容和电阻串联组成.有优良的抗脉冲能力,有一定的安全保护作用,一体化的设计,提高了可靠性,减少了安装,适用于电源跨线降噪线路及其他直流场合.。

Roller Window Shade – Specification GuideWith years of window shade manufacturing experience and a standard of excellence, Roll-A- has consistently been providing nationally ranked companies and architectural firms with innovative products, impeccable service and outstanding quality for over 30 years. Roll- offers complete project management from start to finish - all jobs are measured,SECTION 12 24 13 - ROLLER WINDOW SHADESPART 1 - GENERAL1.1 SUMMARYA. Section Includes:1. Manually-operated interior roller shades.2. Motor-operated interior roller shades [and control systems].1.2 RELATED SECTIONS*NOTE TO SPECIFIER: Edit list below to include only those related sections that apply to Project.A. Section 05 57 00 "Decorative Formed Metal" for pockets for window treatment.B. Section 06 10 00 "Rough Carpentry" for wood blocking for securing roller shades.C. Section 07 92 00 "Joint Sealants" for sealing the perimeters of channels for light-blockingshades.D. Section 09 51 13 "Acoustical Panel Ceilings" for pockets for window treatment.E. Division 26 sections for electrical power conductors, cables, and conduits for electricalservice to motor-operated roller shades, conduit for low-voltage power and control wiring, and control devices and systems related to work of this Section.1.3 REFERENCES*NOTE TO SPECIFIER: Edit list below to include only those references that apply to Project.A. National Electrical Manufacturers Association (NEMA): :1. NEMA ICS 6 Industrial Control and Systems EnclosuresB. National Fire Protection Association (NFPA): :1. NFPA 70 National Electrical Code2. NFPA 701 Standard Methods of Fire Tests for Flame Propagation of Textiles andFilmsC. Window Covering Manufacturers Association: :1. WCMA A 100.1 Safety of Corded Window Covering Products (ANSI)D. Lead Free: RoHS/Directive 2002/95/ED, US Consumer Product Safety CommissionSection 101 and REACH (EC 1907/2006)E. GREENGUARD Environmental Institute Gold1.4 ADMINISTRATIVE REQUIREMENTSA. Pre-installation Conference: Conduct conference at Project site. Include representatives ofContractor, Owner, Architect, roller shade Installer, Installers of electrical connections, and others affecting or affected by the Work. Review the following:1. Requirements of Contract Documents.2. Requirements of shop drawings.3. Delivery, storage, and handling.4. Power and control wiring requirements for motor-operated roller shades.B. Coordination:1. Coordinate installation of roller shades with installation of wall construction andconnections to building services.2. Coordinate installation of anchors and blocking indicated on roller shade shopdrawings.1.5 ACTION SUBMITTALSA. Product Data: For each type of (roller shades) product indicated. Include styles, materialdescriptions, construction details, dimensions of individual components and profiles,features, finishes, and operating instructions.B. Shop Drawings: For roller shades.1. Provide plans, elevations, sections, product details, installation details, operationalclearances, and relationship to adjacent work.2. Locations and requirements for recesses and attachments to other work, includinggeneral construction, anchorage methods and locations, and service connectionsand locations.3. Include diagrams for power, signal, and control wiring including dimensionedconnection locations.4. Indicate locations for fabric selections when more than one type is required.C. Samples for Initial Selection: For each type and color of shade material.1. Include Samples of exposed accessories involving color selection.D. Samples for Verification: For each type of roller shade.1. Shade Material: Not less than 8”x10” sample.2. Roller Shade: Full-size operating unit, not less than 16 inches (400 mm) wide by 36inches (900 mm) long for each type of roller shade indicated.3. Installation Accessories: Full-size unit, not less than 10 inches (250 mm) long.E. Window Treatment Schedule: For roller shades. Use same designations indicated onDrawings.1.6 INFORMATIONAL SUBMITTALSA. Qualification Data: For qualified roller shade fabricator and Installer.B. Product Certificates: For each type of shade material.C. Product Test Reports: For each type of shade material, certifying compliance withrequirements.D. Low-Emitting Product Certificate: For roller window shade fabric products specified to meetvolatile organic emissions standards, submit GREENGUARD certification or comparable certification acceptable to Architect.E. Lead-Free Certification: For roller window shade fabric products specified to meet lead freestandards, submit RoHS certification or comparable certification acceptable to Architect.1.7 CLOSEOUT SUBMITTALSA. Operation and Maintenance Data: For roller shades, to include in maintenance manuals.1. Methods for maintaining roller shades and finishes.2. Precautions about cleaning materials and methods that could be detrimental tofabrics, finishes, and performance.1.8 QUALITY ASSURANCEA. Manufacturer Qualifications: Obtain roller shades through one source from a singlemanufacturer with a minimum of 30 years’ experience in manufacturing products comparable to those specified in this section.B. Installer Qualifications: Experienced Installer, trained and certified by manufacturer, whohas completed at least five installations similar in material, design, and extent to that indicated for this Project with a record of successful in-service performance.C. Fire-Test response characteristics: Passes NFPA 701-99 small and large-scale verticalburn. Materials tested shall be identical to products proposed for use.D. Anti-Microbial Characteristics: “No Growth” per ASTM G 21, G 22, G 2180, results for fungiATCC 9642, ATCC 9644, ATCC 9645, RITB 2101.E. Mockups: If architect requires, provide a mock-up of one roller shade assembly specifiedfor evaluation of mounting, appearance and accessories.1. Locate mock-up in window designated by Architect.2. Do not proceed with remaining work until mock-up is accepted by architect.1.9 DELIVERY, STORAGE, AND HANDLINGA. Do not deliver window shades until building is enclosed and construction within spaceswhich require shades is substantially complete.B. Deliver products in manufacturer’s unopened, original, undamaged containers with alllabels intact.C. All containers and shades to be labeled according to Window Shade ScheduleD. All products to be stored in manufacturer’s unopened packaging until site is ready forinstallation.1.10 PROJECT CONDITIONSA. Environmental Limitations: Install roller shades after finish work, including painting, iscomplete and ambient temperature and humidity conditions are maintained at levels indicated for Project when occupied for its intended use.1.11 WARRANTYA. Roller Shade Non-Electric Hardware: Manufacturer’s standard non-depreciating twenty-five(25) year limited warranty. Chain to have manufacturer’s standard, non-depreciating one(1) year limited warranty.B. Roller Shade Electrical Components: Electrical components, including plug-in and battery-powered motors, have Manufacturer’s non-depreciating five (5) year warranty.C. Roller Shade Installation: One (1) year from date of Substantial Completion, not includingscaffolding, lifts or other means to reach inaccessible areas.D. Roller Shade Fabric: Manufacturer’s non-depreciating [ten] year limited warranty on fabricsinstalled on the interior. See Fabric Specification for specific fabric warranty.PART 2 - PRODUCTS2.1 MANUFACTURERSA. Basis of Design: Roll-A-Shade, Inc.; 12101 Madera Way, Riverside, California, 92503Telephone: (951) 245-5077; Fax (951) 245-5075 Email: *******************,2.2 ROLLER SHADE TYPES*NOTE TO SPECIFIER: Retain one or more of the following Roller Shade Products.A. Manual operating interior, chain driven, roller shades in all windows of rooms and spacesindicated on the Drawings.1. Indicate Roller Shade Type: [RS-X]B. Manual operating interior, chain driven dual shade light-filtering and room darkeningblackout roller shades, operating independently of each other in all windows of rooms andspaces indicated on the Drawings.1. Indicate Roller Shade Type: [RS-X]C. Motorized interior roller shades in all windows of rooms and spaces indicated on theDrawings and related motor control systems.1. Indicate Roller Shade Type: [RS-X]D. Motorized interior dual shade light-filtering and room darkening blackout roller shades,operating independently of each other, in all windows and spaces indicated on the Drawings and related motor control systems.1. Indicate Roller Shade Type: [RS-X]E. Stationary shades in all windows of rooms and spaces indicated on the Drawings.1. Indicate Roller Shade Type: [RS-X]2.3 ROLLER SHADE COMPONENTSA. Rollers: Extruded aluminum or corrosion-resistant aluminum tubes sized to accommodateroller operating mechanisms and specified Shades without deflection. Equip with permanently-lubricated drive-end and idle-end assemblies configured to allow removal of Shades for servicing.1. Direction of Shade Roll: [Regular, from exterior face of roller] [Reverse, from interiorface of roller].2. Shade-to-Roller Attachment: Manufacturer's standard method.B. Chain-and-Clutch Operating Mechanism: Continuous-loop bead chain and clutch that stopsshade movement when bead chain is released; with upper and lower limit stops;permanently adjusted and lubricated.1. Bead Chains: #10 qualified stainless-steel chain rated to 90 lbs. (41 kg) minimumbreaking strength. Nickel plated chain shall not be accepted.a. Loop Length: [Full length of roller shade] [As indicated on Drawings].b. Chain-Tensioner Type: [Chain tensioner, jamb mounted] [Chain tensioner, sillmounted].1) Color: As selected by Architect from manufacturer’s full range.2. Indicate Roller Shade Type: [RS-X]a.C. Motorized Operating System:1. Electrical Components, Devices, and Accessories: Listed and labeled per NFPA 70,by a qualified testing agency, and marked for intended location and application.2. Electric Motor: Fabricator's standard roller-enclosed tubular motor, sized as requiredto operate roller shades indicated.*NOTE TO SPECIFIER: Retain one of more of the following motor control types.3. Electric Motor Control:a. 4-wire: standard motor with AC wired control.1) Motor Electrical Characteristics: [120-V AC, 60Hz].2) Power Cable: NEMA 5-15P; 120-V AC, 60Hz 4-conductor cable.3) Control Accessories: [Individual switch control] [Group control station]b. Radio: intermediate motor with RF wireless control.1) Motor Electrical Characteristics: [120-V AC, 60Hz] [24-V DC] [12-V DC][Solar-powered DC] [Battery-powered DC].2) Power Cable: NEMA 5-15P; 120-V AC, 60Hz 3-conductor cable.3) Control Accessories: [Wall switch control] [Handheld remote control][Weather sensor control] [3rd party system control] [Timer control][Tablet/Phone app control].c. Intelligent: advanced motor with modular RS485 control.1) Electrical Characteristics: [120-V AC, 60Hz] [24-V DC].2) Power Cable: NEMA 5-15P; 120-V AC, 60Hz 3-conductor cable.3) Control Accessories: [Wall switch control] [Weather sensor automation][3rd party system integration] [Phone/Tablet app Control].D. Mounting Hardware: [Extended] [Manufacturer's standard] brackets or endcaps, corrosionresistant and compatible with roller assembly, operating mechanism, installation accessories, and mounting location and conditions.1. Bracket to be a minimum one sixteenth (1/16) in. (1.59mm) stamped steel, or heavieras required.2. Motorized Roller Shade Coupling Assemblies: Designed to join up to [Four (4)] inlinerollers operated by one roller drive-end assembly.a. Coupling Assembly to include indexable Couplers.3. Color: As selected by Architect from manufacturer’s full range.E. Shade Bottom:1. Hem Bar: Extruded aluminum. Hem bar to be sealed on both ends using impulsewelder.2. Roll-A-Shade Bottom Rail: As selected by Architect from manufacturer's full range.F. Installation Accessories:1. Front Fascia: Aluminum extrusion that conceals front and underside of roller andoperating mechanism and attaches to roller endcaps without exposed fasteners.a. Shape: L-Shapedb. Height: Fabricator's standard height required to conceal roller and Shadeassembly when shade is rolled up, but not less than [3 inches (76 mm)] [heightindicated on Drawings].c. Color: As selected by Architect from manufacturer’s full range.d. Indicate Roller Shade Type: [RS-X]2. Shade Head box: Rectangular, extruded-aluminum enclosure including front fascia,top and back covers, endcaps, and removable bottom closure.a. Height: Fabricator's standard height required to enclose roller and Shadeassembly when shade is rolled up, but not less than [3 inches (76 mm)] [heightindicated on Drawings].b. Shade Headbox to be [recessed] [exposed].c. Color: As selected by Architect from manufacturer’s full range.d. Indicate Roller Shade Type: [RS-X]3. Endcap Covers: To cover exposed endcaps.a. Color: As selected by Architect from manufacturer’s full range.4. Light-Blocking Shade Side Channels: Designed to eliminate light gaps at sides ofshades. Provide side channels with Shade guides or other means of aligning Shadeswith channels at tops.5. Light-Blocking Shade Bottom (Sill) Channel: Designed to eliminate light gaps atbottoms of closed shades.6. Installation Accessories Color and Finish: As selected from manufacturer's fullrange.2.4 ROLLER WINDOW SHADE FABRICA. Light Filtering Fabrics1. Roll-A-Shade Signature Series [1%, 3%, 5%, or 10%]: Openness Factor:Approximately [1%, 3%, 5%, or 10%]. Composition: 24% Polyester, 76% PVC. FireClassification: California U.S. Title 19 (small scale), NFPA 701-2004 TM#1 (smallscale). Bacterial and Fungal Resistance: ASTM G21. GREENGUARD CertifiedGOLD- Children & School Certified as a low emitting fabric. Manufacturer to supplyGREENGUARD Children & School Certificate.a. Available Patterns and Colors: 001 White/White, 003 White/Gray, 016White/Linen, 914 black/black, 1241 Charcoal/Bronze, 906 Black/Dark Gray2. SheerWeave Style 2000 (5%) by Phifer: Openness Factor: Approximately 5%.Composition: 37% Fiberglass, 63% Vinyl on Fiberglass. Fire Classification:California U.S. Title 19 (small scale) NFPA 701-2004 TM#1 (small scale), NFPA 101(Class A Rating), UBC (Class 1), British Std. 5867 and NFPA 701 TM#2 (largescale). Bacterial and Fungal Resistance: ASTM E2180, ASTM G21, AATCC30 Part3, ASTM D3273, includes Microban antimicrobial additives. GREENGUARDChildren & School Certified as a low emitting fabric. Manufacturer to supplyGREENGUARD Children & School Certificate.a. Available Patterns and Colors: PO2 White, PO4 White/Bone, PO5White/Platinum, QO5 Bone, QO6 Bone/Platinum, Q1O Bronze, VO4 Platinum,V21 Charcoal, V22 Charcoal/Gray, and V24 Charcoal/Chestnut3. SheerWeave Style 2100 (10%) by Phifer: Openness Factor: Approximately 10%.Composition: 37% Fiberglass, 63% Vinyl on Fiberglass. Fire Classification:California U.S. Title 19 (small scale) NFPA 701-2004 TM#1 (small scale), NFPA 101(Class A Rating), UBC (Class 1), British Std. 5867 and NFPA 701 TM#2 (largescale). Bacterial and Fungal Resistance: ASTM E2180, ASTM G21, AATCC30 Part3, ASTM D3273, includes Microban antimicrobial additives. GREENGUARDChildren & School Certified as a low emitting fabric. Manufacturer to supplyGREENGUARD Children & School Certificate.a. Available Patterns and Colors: PO2 White, PO4 White/Bone, PO5White/Platinum, QO5 Bone, QO6 Bone/Platinum, Q1O Bronze, VO4 Platinum,V21 Charcoal, V22 Charcoal/Gray, and V24 Charcoal/Chestnut4. E-Screen [1%, 3%, 5%, or 10%] by Mermet: Openness Factor: Approximately [1%,3%, 5%, or 10%]. Composition: 36% Fiberglass/ 64% Vinyl. Fire Classification:California U.S. Title 19 (small scale), NFPA 701-10 TM#1 (small scale), CAN/ULC-S109-03 Small and Large Flame Test. Bacterial and Fungal Resistance: ASTM G21,ASTM E2180. GREENGUARD Certified GOLD- Children & School Certified as a lowemitting fabric. Manufacturer to supply GREENGUARD Children & SchoolCertificate.a. Available Patterns and Colors: 002002 White/White, 002020 White/Linen,002007 White/Grey, 00M122 Charcoal/Grey-Stone, 030001 Charcoal/Grey,030071 Charcoal/Apricot, 030061 Charcoal/Cocoa, 030030 Charcoal/CharcoalB. Room Darkening Fabrics1. SheerWeave Style 7000 (Blackout) by Phifer: Openness Factor: Opaque.Composition: 100% Polyester with Acrylic Foamed Backing. Fire Classification:California U.S. Title 19 (small scale), NFPA 701-2004 TM #1 (small scale), BritishStandard 5867. Bacterial and Fungal Resistance: ASTM G21-96, AATCC 174 –1998, Part II and III. GREENGUARD Children & School Certified as a low emittingfabric. Manufacturer to supply GREENGUARD Children & School Certificate.a. Available Patterns and Colors: P62 White, P63 Birch, P64 Sand, Q57 Wheat,V39 Graphite, V40 Onyx, V41 Canyon, U67 Canvas, U69 Cocoa, and Q58Mushroom.2. SheerWeave Style 7500 (Blackout) by Phifer: Openness Factor: Opaque.Composition: 100% Polyester with Acrylic Coating (PVC Free). Fire Classification:California U.S. Title 19 (small scale), NFPA 101 (Class A Rating), NFPA 701-2004TM#1 (small scale), BS 5867 Part 2 Type B Performance, CAN/ULC-S 109-03 (largeand small scale), IBC Section 803.1.1 (Class A Rating). Bacterial and FungalResistance: ASTM E2180 and ASTM G22. GREENGUARD Children & SchoolCertified as a low emitting fabric. Manufacturer to supply GREENGUARD Children &School Certificate.a. Available Patterns and Colors: R13 Ice, R14 Coconut, R15 Loft, R16 Spirit,R17 Dune, R18 Starfish, R19 Stone, R20 Odyssey, R21 Orient, R22 Midnight,R99 Midnight x2 and S97 Orient x23. Avila Twilight (Blackout) by Mermet: Openness Factor: Opaque. Composition:37.5% polyester/62.5% acrylic. Fire Classification: NFPA 701 TM#1; California USTitle 19; CAN/ULC-S109-03 Small & Large Flame Test. Bacterial and FungalResistance: ASTM E2180. GREENGUARD Children & School Certified as a lowemitting fabric. Manufacturer to supply GREENGUARD Children & SchoolCertificate.a. Available Patterns and Colors: 000002 White, 000016 Chalk, 000017 Canvas,000020 Linen, C00015 Khaki, 000014 Marine, 000101 Pewter, 030030Charcoal, 006060 Black2.5 ROLLER WINDOW SHADE UNIT FABRICATIONA. Roller Window Shade Unit Sizes: Fabricate units in sizes required to fill openings inconfiguration indicated:*NOTE TO SPECIFIER: Retain one or more of the following as required for Project1. Inside of Jamb Installation: Width and length equal to opening size less clearancesrecommended by manufacturer.2. Outside of Jamb Installation: Width and length as indicated, with terminationsbetween shades of end-to-end installations at centerlines of defined verticalseparations between openings.B. Shade Fabrication: Fabricate Shades without battens or seams to extent possible, exceptfor the following conditions:1. Railroaded Materials: Railroad material where material roll width is less than therequired width of Shade and where indicated.PART 3 - EXECUTION3.1 EXAMINATIONA. Examine roller window shade unit substrates with Installer for compliance with approvedsubmittals and other conditions affecting performance of the Work.B. Verify locations of connections to building electrical system.C. Proceed with installation once unsatisfactory conditions have been corrected.3.2 PREPARATIONA. Contractor shall clean Surfaces thoroughly prior to installation.B. Coordinate requirements for blocking and structural supports to ensure adequate meansfor installation of window shades.C. Prepare surfaces using the methods recommended by the manufacturer for achieving thebest result for the substrate under the project conditions.3.3 INSTALLATIONA. Install roller window shade units level, plumb, square, and aligned with adjacent unitsaccording to fabricator's written instructions.*NOTE TO SPECIFIER: Retain “Electrical Connections” paragraph if specifying motorized shades.B. Electrical Connections: Connect motor-operated roller window shade units to buildingelectrical system.C. Roller Window Shade Unit Locations: [At exterior windows] [As indicated in window-covering schedule] [As indicated on Drawings].D. Adjust and balance roller shades to operate smoothly, easily, safely, and free from binding,tracking or malfunction throughout entire operational range.3.4 CLEANING AND PROTECTIONA. Clean roller window shade unit surfaces, after installation, according to manufacturer'swritten instructions.B. Provide final protection and maintain conditions that ensure that roller window shade unitsare without damage at time of Substantial Completion.C. Protect installed products until completion of project.D. Replace damaged roller window shade units that cannot be repaired, before time ofSubstantial Completion.3.5 TRAININGA. Engage a manufacturer-authorized service representative to train Owner’s maintenancepersonnel to adjust, operate and maintain manual roller shaded systems.B. Engage a factory-authorized service representative to train Owner's maintenancepersonnel to adjust, operate, and maintain motor-operated roller window shade units.END OF SECTION。

hazard on a capping process has been determined as shown in figure 1. To determine what level of safety oursafety function needs to be for this risk we can use ISO 13849 - Safety -related parts of control systems . This standard will utilize 3 parameters to determine a required Performance Level (PLr) for the safety function, with PLa being the least stringent and PLe needing to meet the most stringent requirements. The first parameter is the Severity of the injury that the risk poses. S1 represents a slight injury such as bruising and/or lacerations without complications while S2 is more servere such as amputation up to the possibility of death. The next parameter is the frequency of being exposed to the risk. F1 represents seldom exposure while F2 is more frequent or 15 minute accumulation per shift. The last parameter is the ability to avoid the risk if exposed to it. P1 representsSince the process to change or update regulations to a more current and clear set of documents can be long and arduous, OSHA suggests the use of the most current and relevant industry consensus standards be followed when needed in an effort to be sure employers are well informed when working to pro-vide a safe workplace. For example ANSI RIA15.06 is a current and relevant industry standard which is used to safeguard robot and robotic cell application. Another example is NFPA 79 which is used to ensure proper wiring practices are used.It is clear that it is a requirement by law to provide a safe working environment. In order to provide safe working conditions we first need to know what is to be safeguarded, thus the first step in safeguarding is to identify the hazards or the risks associated with the machine. Identifying these risks is also one of the first steps in the risk analysis process. These risks include, but are not limited to: mechanical hazards such as rotating or sharp parts; electrical hazards such as live parts; radiation; ergonomic, etc. ISO 12100 Safety of Machinery — Risk Assess-ment is a current and relevant industry consensus standard whichcan be used as a guide to help identify machine hazards. Once the risks have been identified we can then evaluate them to deter-mine to what degree they have to be guarded. For example, a crushingSafeguarding 101What needs to be guarded, to what degree, and with what type of deviceThroughout the world countless governing bodies and agencies as well as standards, regulations and policies have been established specifically with the goal of machine safety. Stringent safety standards mean that today’s machines are designed with greater safeguards for both the operator and process. However, the actual process of safeguarding may still raise the same questions to some as they have 20 years ago. What needs to be guarded, to what degree and with what type of device?The Occupational Safety & Health Administration (OSHA) under the United States Department of Labor is responsible for setting forth polices to ensure safe working conditions which include machine safety as described in 1910 Subpart O - Machinery and Machine Guarding . The General Duty clause issued under the OSHA Act of 1970 states that each employer is responsible for supplying a workplace which is “free from hazards that are causing or are likely to cause death or serious physical harm ”. The options to provide such a workplace are endless and knowing where to begin the process can be over -whelming.There are a few regulations that call out requirements for specific machinery such as 1910.213 for woodworking machinery or 1910.217 for mechanical power presses, but these requirements are a bit abstract and leave room for interpretation.Figure 1: a capping process with a crushing hazarda risk where there is a realistic chance of avoiding an accident where P2 should be selected if there is almost no chance of avoiding the hazard such as hazards which are faster than 250mm/s. The decision tree using these parameters is seen in figure 2.Now that we have assessed the identified risk of the machine the last question to answer is what safety device to select. The first distinction which needs to be answered is whether the safeguard is consideredseparating, such that there is aphysical separation between the operator and the hazard, or non -separating where there is no physicalseparation. Safety devices for non -separating applications include safety light curtains, safety rated pressuremaps, laser scanners, etc.Separating guards can includehinged doors, sliding doors,removable lids, etc. These accessdoors will require a safety monitoring device which will interlock the machine while the guard is not in place. These safety monitoring devices can include non -contact reed switches, keyed interlock switches, electronic sensors, etc. The next questions which will dictate which type of device can be used are:■What type of environment will the devices be operating in?■Are there reflective surfaces or optical interference that will disrupt a laser scanner or light curtain?■Is there any debris that can enter key entry slots of a keyed switch?■Is there material present that will cause interference with the magnetic field of a reed sensor?The answer to these questions canhelp lead you in the correct directionin selecting the proper safety device as some function better than others within certain environments. Another question which can be asked is how often will the safety device be called upon to perform its safety function? If an application calls for an operator to place a product every fewFor more information, please check our website for a PDF of our safety guides:Specific background information on ISO 13849-1:2006 and Design of safety guards under observation of ISO 14119seconds, installing an access door with an electrical mechanical keyed interlock may not be the best option due to the mechanical stresses which can accumulate on the switch. A light curtain may be more feasible, if there are no risks of part or material ejection from the process which can be answered with the previous question raised.There are numerous ways in which a safe workplace can be achieved. Manufacturers of safety components offer wide ranges of devices which aim to protect the operator and processes from hazards. Two applications of similar process may require two different ways to safeguard depending on the relevant machine standards (if applicable), the environment and the actual operator interactions with the specific machine as different interactions can pose different types of hazards. The first step in reaching a safe workplace is conducting a proper risk analysis to determine exactly what the hazards are.Author: Devin MurrayFunctional Safety Engineer TÜV Rheinland ID -No. 4274/11 Machinery Schmersal USA Image credits:K.A. Schmersal GmbH & Co. KG© 2015 Schmersal USA 15 Skyline Drive Hawthorne, NY 10532Tel: 914-347-4775**********************Figure 2: the risk assessment decision tree from ISO 13849-1。

ADO5000IAA5DS是产品编号其中“ADO5000”代表“桌面用65W功耗双核5000+处理器”；“I”代表产品采用Socket AM2接口，“AA”代表产品支持“Cool and Quiet”技术，具备智能温控调节技术，“5”代表采用1MB L2级缓存，“DS”表示采用65纳米Brisbane核心。

封装地为马来西亚，产地为德国。

X481732A81283S 是校验码全固态电容全固态电容全称为：固态铝质电解电容。

它与普通电容（即液态铝质电解电容）最大差别在于采用了不同的介电材料，液态铝电容介电材料为电解液，而全全固态电容的介电材料则为导电性高分子。

那全全固态电容又好在哪里呢？对于经常去网吧或者长时间使用电脑的朋友，一定有过或者听过由于主板电容导致电脑不稳定，甚至于主板电容爆裂的事情！那就是因为一方面主板在长时间使用中，过热导致电解液受热膨胀，导致电容失去作用甚至由于超过沸点导致膨胀爆裂！另一方面是，如果主板在长期不通电的情形下，电解液容易与氧化铝形成化学反应，造成开机或通电时形成爆炸的现象。

但是如果采用全全固态电容，就完全没有这样的隐患和危险了！由于全全固态电容采用导电性高分子产品作为介电材料，该材料不会与氧化铝产生作用，通电后不致于发生爆炸的现象；同时它为固态产品，自然也就不存在由于受热膨胀导致爆裂的情况了。

全全固态电容具备环保、低阻抗、高低温稳定、耐高纹波及高信赖度等优越特性，是目前电解电容产品中最高阶的产品。

由于全全固态电容特性远优于液态铝电容，全全固态电容耐温达摄氏260度，且导电性、频率特性及寿命均佳，适用于低电压、高电流的应用，主要应用于数字产品如薄型DVD、投影机及工业计算机等。

电容的分类：电容就是两块导体（阳极和阴极）中间夹着一块绝缘体（介质）构成的电子元件，由于其结构的特殊性，所以分类方式也有好多种，通常按照介质、阳极、阴极和工艺这四种分类方式，而且各种分类方式互相交叉重叠，可以说比较混乱：右侧是一个简单的、并不完整的电容分类表，主要列举了一些在板卡设备上最常见的电容类型，通过这个直观的树型表可以对电容的分类、命名方式有一个直观的认识。