AV02-1365EN

The Power Behind The Part.Valve ActuatorHyRAV ® Flex Series | SG SeriesIndex .......................................................1HyRAV ® Series ................................................2 Valve Actuator Overview .......................................2 Technical Data ..............................................3HyRAV ® Flex Series .............................................4HyRAV ® SG Series ..............................................5The IC Difference . (6)CONTENTSIndex1IndexThe compact and concentric design of the HyRAV ® hydraulic valve actuators utilize the helical gear principle. Reliable and powerful, the HyRAV ® series provides a safe solution that is easily adaptable to all valves even in the most severe conditions.single acting spring return fail-safedouble actingNamed the Flex after its many options, this HyRAV ® Series is highly customizable in many facets including control boxes, valve blocks, and more.HyRAV® FlexThe HyRAV ® SG, or SecondGeneration, is the standard valve actuator model offered by Eckart offering a compact, safe solution.HyRAV® SGValve Actuator Overview 2HyRAV® SeriesValve Actuator OverviewMore powerful, compact, safer•15 actuator sizes•Torques up to 2,210,000 in-lbs (250,000 Nm) at 3,045 psi (210 bar)•Through the concentric design, no radial forces are transmitted to the valve•Optimum cushioning protects the valve and actuator •Easy installation and adjustment to each valve •Maintenance free — no lubrication required •Suitable for on/off, control, and fail-safe operation •High repeat accuracy and very simple control of the ow rates•Very fast rotation speed (i.e., 90° in 0.2 sec) •Robust against extreme environmental conditions •Compact size with high torque output •Durable against vibrations•Designed to operate at 3,045 psi (210 bar) which provides more torque in a smaller actuator compared to actuators operating at 1,950 psi (135 bar)Advantages at a GlanceSeries TypesPower plants (coal, gas, oil, nuclear)Hydroelectric power plantsGeothermal power plants Solar thermal power plants Biogas power plants Exploration, offshoreRefineries Pipelines Tank farmsSteel hydraulics constructionWater treatment plants Seage treatment plants Drinking water distribution Shipbuilding & SubmarinesChemical / Pharmaceutical industryFood industryAir conditioningSteel millsIndustrial &Special SolutionsApplicationsIndustriesWaterPowerOil & GasMin. Operating Pressure Required 5 to 10 bar / 10 to 145 psiAngle of Rotation Quarter turn / 0-90°, 120°, or 180°+Position of Accuracy < 0.5° of full scaleMediumStandard hydraulic oil: mineral oil of groupAmbient Temperature -25 to +70°C / -13 to +158°F Protection Class IP68Valve Attachment Flange EN ISO 5211Double Acting Lifetime>100,000 operationsSingle Acting Lifetime (Fail-Safe)Dependent on the desired spring package Duty RatingS1 – 100%Operating Time Range 0.5 sec. to 200 sec.Max. Speed Fail-Safe As fast as 0.1 seconds(Dependent on the valve actuator size)Certificates/Approvals ATEX, SIL2/3, further inprocessing/planning, and as–required Materials, Standard Steel, GGG Seal Material, StandardPU / NBRHelical gear — double acting or single acting (spring return)210 bar / 3,000 psi Technical Data (Standard — Others on Request)Max. Allowable Operating PressureValve Actuator Type HyRAV ® Series3HyRAV® SeriesTechnical DataHyRAV ® FlexTechnical DataApplicationsHyRAV ® actuators can be customized to your application with seals, materials, and design modi cations.Inquire with our engineering team how we can support your requirements.Single ActingDouble Acting• Electrical / VisualPosition Indication • Manual Operation • Valve Blocks• HPU (Power Units)TypesOptionsHyRAV® Flex SeriesTechnical DataHyRAV ® Flex Series 4Technical DataModelsConnection KitTorquein-lbs (Nm) at 1,095 psi[135 bar]+0.002+0.052+0.005+0.130-0.000-0.000-0.000-0.000+0.002+0.062+0.005+0.130-0.000-0.000-0.000-0.000+0.002+0.062+0.006+0.160-0.000-0.000-0.000-0.000+0.002+0.074+0.006+0.160-0.000-0.000-0.000-0.000+0.002+0.074+0.007+0.190-0.000-0.000-0.000-0.000+0.002+0.074+0.007+0.190-0.000-0.000-0.000-0.000+0.003+0.087+0.007+0.190-0.000-0.000-0.000-0.000+0.003+0.087+0.007+0.190-0.000-0.000-0.000-0.000+0.003+0.087+0.008+0.220-0.000-0.000-0.000-0.000+0.003+0.100+0.008+0.220-0.000-0.000-0.000-0.000+0.003+0.100+0.009+0.250-0.000-0.000-0.000-0.000+0.003+0.100+0.009+0.250-0.000-0.000-0.000-0.000+0.003+0.100+0.009+0.250-0.000-0.000-0.000-0.000+0.003+0.100+0.009+0.250-0.000-0.000-0.000-0.000+0.003+0.100+0.009+0.250-0.000-0.000-0.000-0.0004,409(2,000)2003,306(1,500)AS250F602,210,000 (250,000)F48 – F6011.0232808.6612207.0861802,425(1,100)AS185F601,640,000 (185,000)F48 – F609.8422507.874AS125F481,110,000 (125,000)F40 – F488.661220AS100F48885,000 (100,000)F40 – F487.874200 6.4961651,984(900)AS063F40557,500 (63,000)F35 – F40 – F48 6.496165 5.118130 1.278(580)3.937100771(350)AS032F35283,200 (32,000)F30 – F35 – F40 5.118130 4.527AS024F35212,410 (24,000)F30 – F35 – F40 4.527115115992(450)AS016F30141,600 (16,000)F25 – F30 – F35 3.85898 2.95275440(200)AS012F30141,600 (16,000)F25 – F30 – F35 3.34685 2.75570352(160)2.165551,212(550)AS008F2570,900 (8,000)F16 – F25 – F30 2.83472 2.165AS006 sa F2553,100 (6,000)F16 – F25 – F25 2.8347255253(115)AS004F1635,400 (4,000)F14 – F16 – F25 2.36260 1.81146121(55)AS002F1417,700 (2,000)F12 – F14 – F16 1.88948 1.4173699 (45)AS001F128,850 (1,000)F10 – F12 – F14 1.41736 1.0622766 (30)AS000F104,420 (500)F07 – F10 – F12 1.102280.8662244(20)HyRAV® FlexHyRAV ® TypeValve Attachment Flange EN ISO 5211Hollow Shaft With Feather Keys (S)Hollow Shaft With Square (S)lbs (kg)Standard PossibleMax. Diameter Max. Sizein. (H9)mm (H9) in. (H11)mm (H11)Single ActingDouble ActingTypesHyRAV® SG SeriesTechnical DataHyRAV ® SG Series5Technical DataModelsConnection Kitin-lbs (Nm) at 1,095 psi [135 bar]in-lbs (Nm) at 3,045 psi[210 bar]+0.002+0.052+0.005+0.130-0.000-0.000-0.000-0.000+0.002+0.062+0.005+0.130-0.000-0.000-0.000-0.000+0.002+0.062+0.006+0.160-0.000-0.000-0.000-0.000+0.002+0.074+0.006+0.160-0.000-0.000-0.000-0.000SG 500F127,080 (800)F07 – F10 – F12Standard PossibleHyRAV ® TypeSG 250F103,540 (400)F05 – F07 – F10SG 125TBD 1,770 (200)TBD Valve Attachment Flange EN ISO 521192(42)8,850 (1,000)351.653421.377361.1813061(28)37 (17)SG 1000F1414,160 (1,600)F10 – F12 – F1450SG 2000F1626,550 (3,000)F12 – F14 – F161.9682.204561.41717,700 (2,000)HyRAV® SGTorqueHollow Shaft With Feather Keys (S)lbs (kg)Hollow Shaft With Square (S)Max. Diameterin. (H9)Max. Sizein. (H11)mm (H11)mm (H9)22 (10)1,150 (130)2,210 (250)4,420 (500)11.7(5.3)TBDTBD0.9440.9842524The IC Di erenceThe Power Behind the PartThe IC Difference6IC-Fluid Power, Inc. helps companies achieve sourcing excellence through a range of services including engineering and hydraulic component design, outsourcing partner selection and transition, strategic implementation and support, andlogistics management. We help provide sourcing strategies for organizations looking to expand their current scope for sourcing hydraulic components.We help engineers, purchasing departments and project managers source the worldfor hydraulic components without the need to invest signi cant time and resources developing an internal sourcing team, learning languages and cultures and establishing the direct relationships necessary to be successful. O ur experienced freight brokers ensure that freight moves quickly through customs and is delivered to your location on time, giving you peace of mind. IC-Fluid provides you with the solution, without the hassle.Our Broad In-House Capabilites:• Multi-lingual staff • Deep product knowledge • Experienced freight brokers •Factory authorized and trainedrepairs• Highly customized hydraulic systems • Product demonstrations • Project management • Replacement parts•Technical expertise and supportOur Industries:• Aerospace • Agriculture • Construction• Energy • Entertainment• Marine &Offshore• Material Handling• Metals • Military • Mining • Packaging • Plastics & Injection Molding • Transportation • Waste-Management Connecting you to world-class quality hydraulic componentsHyRAV Valve Actuator Catalog v2 / June 23www.ic +1.419.661.8811 Tel +1.419.661.8844 Faxus@ic https:// 713.592.0869 Tel ****************IC-Fluid Power, Inc.63 Dixie Hwy Rossford, OH 43460Distrubition Partner: ValvACT, Inc. 5904 Jessamine St., Suite A-18Houston, TX 77081。

序言作为全球电弧焊接材料开发和生产的先驱供应商之一，伯乐焊接将在重大复杂焊接工程应用中作出突出贡献。

在油气运输日益增长和重要的今天，伯乐焊接也已积极投身于这个蓬勃发展的工业领域。

在不同气候条件和不同地形条件下得管道建设的需求激励着工程人员的创新步伐。

伯乐焊接与知名管道铺设公司一同面对挑战，并在倍受关注的纤维素焊条、药皮焊条、焊丝的强度及安全方面取得了世界领先的地位。

从陆上管道工程到驳船铺设海底曲折管道，全世界已有数万公里的管道使用伯乐焊材焊接。

选材指南伯乐焊接：管线焊材3焊材索引45管道钢材对照表伯乐焊接：管线焊材使用纤维素焊条立向下焊，阿联酋管道工程，芬兰6纤维素焊条选用指南由于纤维素药皮焊条的用量少，焊接速度快，多年来已成功地用于世界各地管道建设中的环缝焊接。

应用范围钢材等级高达API 5L X 80的全部管道材料。

这种焊条的优点使其适用于根部焊道、填充焊道和盖面焊道的焊接。

在高电流强度且大焊速进行立向下焊时，可以使用较大直径的焊条。

尽管伯乐纤维素焊条设计使焊缝具有较高的完整性和抗冲击强度，但是由于焊缝熔敷后高含氢量可能对管壁厚度和冲击强度有限制性要求。

因此，为获得最佳的焊接质量，在设计焊接工艺时，对此应给于适当的考虑。

伯乐焊接：管线焊材7根焊直流正接。

不允许重新烘干不允许重新烘干预热、层间温度及焊根焊直流正接。

不允许重新烘干89伯乐焊接：管线焊材根焊直流正接。

不允许重新烘干不允许重新烘干预热、层间温度及焊不允许重新烘干预热、层间温度及焊10(3/64 - 1/16英寸)1/16 - 5/64英寸(1/16英寸)/64英寸 ≤20 mm (≤3/4英寸)> 20 mm (> 3/4英寸)ø 2.5 mm (3/32")50 - 180 A ø 3.2 mm (1/8")80 - 100 A ø 4 mm (5/32")120 - 150 A0204060801001201401601803268104140176212248284320356焊接技术预热和层间温度为了防止氢致裂纹的产生，在管子施焊前进行预热处理并且在每层焊道之间保持一定层间温度是十分必要的。

Safety Manual SD 158P/00/enDifferential Pressure Transmitter deltabar S PMD 230/235deltabar S FMD 230/630/633with 4...20 mA output signalFunctional safety manualApplicationOverspill protection or operatingmaximum detection of all types of liquids in tanks to satisfy particular safetysystems requirements as per IEC 61508/ IEC 61511-1 (FDIS).The measuring device fulfils the requirements concerning •Functional safety as perIEC 61508/IEC 61511-1 (FDIS)•Explosion protection (depending on the version)•Electromagnetic compatibility as per EN 61326 and NAMUR recommendation NE 21.Your benefits•Used for–Limit pressure monitoring –Overspill protectionup to SIL 2, independently evaluated (Functional Assessment) byTÜV Rheinland as per IEC 61508/ IEC 61511-1 (FDIS)•Continuous measurement •Easy commissioningDeltabar S Table of contentsSIL declaration of conformity. . . . . . . . . . . . . . . . . .3Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4Abbreviations, standards and terms . . . . . . . . . . . . . . . . . . 4Determining the Safety Integrity Level (SIL) . . . . . . . . . . . . 5Safety function with Deltabar S. . . . . . . . . . . . . . . .7Safety function for limit pressure monitoring . . . . . . . . . . . . 7Safety function data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Supplementary device documentation . . . . . . . . . . . . . . . 8Behaviour in operation and failure . . . . . . . . . . . . .8Iterative tests. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8Using the Deltabar S for continuous measurements . . . . . 8Using the Deltabar S as a component of an overspillprotection system as per WHG – Wasserhaushalts-gesetz (German water resources act) . . . . . . . . . . . . . . . . 8Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Alarm behaviour and current output . . . . . . . . . . . . . . . . . . 9Checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Locking/Unlocking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Safety-related parameters . . . . . . . . . . . . . . . . . . .10Specific related-safety parameters for Deltabar S . . . . . . 10PFDav dependent on selected maintenance interval . . . . 10TÜV Management Summary. . . . . . . . . . . . . . . . . .112Endress+HauserDeltabar SEndress+Hauser 3SIL declaration of conformityP01-xMDx3xxx-02-xx-xx-en-000Deltabar S4Endress+HauserIntroductionAbbreviations, standards and termsAbbreviationsRelevant standardsAbbreviation ExplanationHFTHardware Fault ToleranceAbility of a functional unit (hardware) to continue to perform a required function in the presence of faults or errors.MTBF Mean Time Between Failures MTTR Mean Time To RepairPFD Probability of Failure on DemandPVD av Average Probability of Failure on DemandSILSafety Integrity LevelThe international standard IEC 61508 defines four discrete Safety Integrity Levels (SIL 1 to SIL 4). Each level corresponds to a range of probability for the failure of a safety function. The higher the Safety Integrity Level of the safety-related systems, the lower the probability that they will not perform the requested safety function.SFFSafe Failure FractionFraction of failures which do not have the potential to put the safety-related system in a hazardous or fail-to-function state.TI Test interval between life testing of the safety functionXooY"X out of Y" votingClassification and description of the safety-related system with regard to redundancy and selection procedure used."Y" specifies how often the safety function is performed (redundancy)."X" determines how many channels have to work properly.Pressure measurement example: 1oo2 architecture – A safety-related system decides that a predefined pressure limit is exceeded when one of two pressure sensor reaches this limit. If a 1oo1 architecture is used, there is only one pressure sensor available .Standard ExplanationIEC 61508,Part 1 – 7Functional safety of electrical/electronic/programmable electronic safety-related systems(Target group: Manufacturers and Suppliers of Devices)IEC 61511Part 1 – 3 (FDIS)Functional safety – Safety Instrumented Systems for the process industry sector (Target group: Safety Instrumented Systems Designers, Integrators and Users)Deltabar SEndress+Hauser 5TermsDetermining the Safety Integrity Level (SIL)The achievable Safety Integrity Level is determined by the following safety-related parameters:•Average Probability of Failure on Demand (PFD av )•Hardware Fault Tolerance (HFT) and •Safe Failure Fraction (SFF).The specific safety-related parameters for the Deltabar S, as a part of a safety function, are listed in the "Safety-related parameters" chapter.The following table displays the dependence of the "Safety Integrity Level" (SIL) on the "Average Probability of Failure on Demand" (PFD av ). Here, the "Low demand mode" has been observed, i.e. the requirement rate for the safety-related system is maximum once a year.Sensor, logic unit and actuator together form a safety-related system, which performs a safety function. The "Average Probability of Failure on Demand" (PFD av ) is usually divided up into the sensor, logic unit and actuator sub-systems as per Figure 1.Fig. 1: usual division of the "Average Probability of Failure on Demand" (PFD av ) into the sub-systemsNote!This documentation considers the Deltabar S as a component of a safety function.Term ExplanationDangerous failureFailure with the potential to put the safety-related system in a dangerous or non-functional condition.Safety-related systemA safety-related system performs the safety functions that are required to achieve or maintain a safe condition e.g. in a plant. Example: pressuremeasuring device – logic unit (e.g. limit signal generator) – valve form a safety-related system.Safety functionDefined function, which is performed by a safety-related system with the aim of achieving or maintaining a safe condition for the plant, considering a specified dangerous incident. Example: limit pressure monitoringSafety Integrity Level (SIL)PFD av (Low demand mode)4≥ 10–5...< 10–43≥ 10–4...< 10–32≥ 10–3...< 10–21≥ 10–2...< 10–1Deltabar S6Endress+HauserThe following table displays the achievable "Safety Integrity Level" (SIL) of the entire safety-related system for type B systems depending on the "Safe Failure Fraction" (SFF) and the "Hardware Fault Tolerance" (HFT). Type B systems are, for example, sensors with complex components such as microprocessors (→ see also IEC 61508, Part 2).Safe Failure Fraction (SFF)Hardware Fault Tolerance (HFT)01 (0) 11)In accordance with IEC 61511-1 (FDIS), Clause 11.4.4, the "Hardware Fault Tolerance" (HFT) can bereduced by one (values in brackets), if the following conditions are true for devices using sensors and actuators with complex components: – The device is "proven in use".– The device allows adjustment of process-related parameters only, e.g. measuring range, upscale or downscale failure direction, etc.– The adjustment level of the process-related parameters of the device is protected, e.g. by jumper, password (here: numeric code or key combination)– The function has a "Safety Integrity Level" (SIL) requirement less than 4.All conditions are true for the Deltabar S.2 (1) 1<60%not permitted SIL 1SIL 260 ...<90%SIL 1SIL 2SIL 390 ...<99%SIL 2SIL 3–≥ 99 %SIL 3––Deltabar SEndress+Hauser 7Safety function with Deltabar SSafety function for limit pressure monitoringFig. 2: safety function (e.g. for limit pressure monitoring) with Deltabar S as sub-system 1Deltabar S with local operation, option for setting the lower-range value and upper-range value and the attenuation2Computer with operating program e.g. Commuwin II for setting all parameters such as alarm behaviour, max. alarm, operating mode, etc.3Handheld terminal Hart Communicator DXR 275 for setting all parameters such as alarm behaviour, max. alarm, operating mode, etc.The Deltabar S transmitter generates an analogue signal (4...20 mA) proportional to thedifferential pressure or the level. The analogue signal is fed to a downstream logic unit, such as a PLC or limit signal generator, and there it is monitored to determine whether it exceeds amaximum value. In order to monitor for faults, the logic unit must be able to detect both HI-alarms (adjustable from 21...22.5 mA) and LO-alarms (3.6 mA).Safety function dataCaution!The compulsory settings and data for the safety functions are listed in the "Settings" and "Safety-related parameters" chapters.For the reaction time of the transmitter, see Technical Information TI 256P.Note!MTTR is set at eight hours.Safety-related systems without a self-locking function must be monitored or set to an otherwise safe state after carrying out the safety function within MTTR.Deltabar S8Endress+HauserSupplementary device documentationDepending on the version, the following documentation must be available for the transmitter:Caution!•The installation and setting instructions, and the technical limit values must be observed in accordance with the Operating Instructions (BA 174P).•For devices which are used in explosion-hazardous areas or which serve as a component of an overspill protection system as per WHG, the supplementary documentation (XA, ZD, ZE) must also be used in accordance with the table.Deltabar S supplementary documentationFor further information, see Technical Information TI 256P.Behaviour in operation and failureNote!The behaviour in operation and failure is described in the Operating Instructions BA 174P.Iterative testsUsing the Deltabar S for continuous measurementsThe operability of the measuring device must be tested at appropriate time intervals. Werecommend carrying out the test at least once a year. It is the responsibility of the user to select the type of check and the intervals in the specified time frame.Using the Deltabar S as a component of an overspill protection system as per WHG – Wasserhaushalts-gesetz (German water resources act)The operability of the overspill protection system must be tested at appropriate intervals, at least once a year. The iterative tests must be carried out in accordance with the "National technical approval" documentation ZE 209P, chapter 8.Explosion protection/Certificate DevicesOperatingInstructions (BA)Other documentation (XA, ZE or ZD)none PMD 230, PMD 235, FMD 230, FMD 630, FMD 633BA 174P noneWHGPMD 235, FMD 630, FMD 633BA 174PCertificate (DIBt) ZE 209PATEX II 1/2 G EEx ia IIC T4/T6PMD 230, PMD 235, FMD 230, FMD 630, FMD 633BA 174P Safety Instructions XA 002PATEX II 3 G EEx nA II T6PMD 230, PMD 235, FMD 230, FMD 630, FMD 633BA 174P Safety Instructions XA 151PATEX II 2 G EEx d IIC T5/T6PMD 235, FMD 630, FMD 633BA 174PSafety Instructions XA 005P CSA IS (non incendive) Class I, II, III; Div. 1, Groups A – G PMD 230, PMD 235, FMD 230, FMD 630, FMD 633BA 174P 960358-2020CSA Explosion proof Class I, II, III; Div. 1; Groups B – G PMD 235, FMD 630, FMD 633BA 174PnoneFM IS Class I, II, III; Div. 1, Groups A – G PMD 230, PMD 235, FMD 230, FMD 630, FMD 633BA 174P 960358-1020FM Explosion proof Class I, II, III, Div. 1; Groups A – GPMD 235, FMD 630, FMD 633BA 174PnoneDeltabar SSettingsAlarm behaviour and current outputIn the event of a fault, the current value is set to the value you have selected. The settings can be made either using the Endress+Hauser Commuwin II operating program or with the HART Communicator DXR 275 handheld terminal. Use the "Set output safety" or "Alarm mode" parameters to set the alarm behaviour. Use the "Set max. current" or "Max. alarm current" parameters to set the maximum alarm current."Set output safety" or"Alarm behaviour" selection Current value in the event of a fault "Min" or "Min. alarm" 3.6 mA"Max" or "Max. alarm"Can be set via "Set max. current" or "Max. alarm current" parameters: 21...22.5 mA.Factory setting: 22 mASoftware versionMatrix position (only foroperation via Commuwin II)ParameterPermitted settings # Caution!Impermissible setting!SW 7.0V0H8Set output safety–Min (–10 %)–Max (110 %)Continue (this setting is not permitted for the safety function!)V9H4Set max. current 21...22.5 mA SW 7.1V0H8Alarm mode–Min. alarm –Max. alarmValue hold (this setting is not permitted for the safety function!)V9H4Max. alarm current 21...22.5 mADeltabar S10Endress+HauserCaution!The locking and unlocking function is also available via the Commuwin II operating program and the Hart Communicator DXR 275. To ensure that unlocking via communication is ruled out, you should always lock operation via the keys on the device.Safety-related parametersSpecific related-safety parameters for Deltabar SThe table displays the specific safety-related parameters for the Deltabar S.PFD av dependent on selected maintenance intervalThe following diagram presents the dependence of the PFD av on the maintenance interval. The PFD av increases as the maintenance interval increases.Fig. 4: "Average Probability of Failure on Demand" (PFD av ) dependent on the selected maintenance intervalPMD 230FMD 230PMD 235FMD 630FMD 633SIL SIL 2SIL 2HFT 00SFF 82.9 %81.9 %PFD av 6.05 x 10–4 5.89 x 10–4TI 11)Complete function test, e.g. by approaching levelannualannualDeltabar STÜV Management SummaryP01-xxxxxxxx-02-xx-xx-en-001P01-xxxxxxxx-02-xx-xx-en-000 Endress+Hauser11Deltabar SEndress+Hauser GmbH+Co.Instruments InternationalP.O. Box 2222D-79574 Weil am RheinGermanyTel. (07621) 975-02Tx 773926Fax (07621) 975 345e-mail:***************.comInternet:11.01SD158P/00/en/01.03aFM+SGML 6.0 ProMoDo。

Energy Management Energy Analyzer Type EM111Product descriptionSingle-phaseenergy analyzer with backlit LCD display with integrated touch keypad. Particularly indicated for active energy metering and for cost allocation inapplications up to 32 A (direct connection) or up to 300 A (CT connection) or up to 600 A (333 mV current sensor), with dual tariffmanagement availability. It can measure• Single phase energy analyzer• Class 1 (kWh) according to EN62053-21• Class B (kWh) according to EN50470-3• Accuracy ±0.5% RDG (current/voltage)• Current measurement via 333 mV current sensor up to 600 A (MV5)• Current measurement via CT up to 300 A (AV5)• Rated primary current: 32 A (AV7, AV8)• Max primary current: 45 A (AV7, AV8)• Max cable cross section: 6 mm 2• Backlit LCD display with integrated touch key-pad • Energy readout on display: 7 digit • Variable readout on display: 4 digit• Energy measurement: kWh and kvarh (imported/exported); kWh+ by 2 tariffs• System variables, kW, kvar, V, A, PF, Hz, kWdmd, kWdmd peak • Self power supply• Dimensions: 1-DIN module • Protection degree (front): IP51• Pulse output (by open collector PNP)• RS485 Modbus port • M-Bus port• Digital input (for tariff management)• Easy connection or wrong current direction detection • Compliant with the international accuracy standard IEC/EN62053-21, and the IEC/EN61557-12 performance requirements (active power and active energy).• Certified according to MID Directive (option PF only): see “how to order” belowimported and exported energy or be programmed to sum them into an unique totalizer. Housing for DIN-rail mounting, with IP51 front degree protection. The meteris provided with pulse output proportional to the active energy being measured, RS485 Modbus port or M-Bus port.Certified according to MID Directive, Module Band Module D of Annex II, for legal metrology relevant to active electrical energy meters (see Annex V, MI003, of MID). Can be used for fiscal (legal) metrology.Type SelectionRange codeAV8: 230VLN AC - 5(45)A(Direct connection up to 32 A)Power supply X:Self power supplyOutput O1: pulse output S1: RS485 Modbus port M1:M-Bus portSystem 1:1-phase 2-wireOption PF:Certified according to MID Directive. Can be used for fiscal (legal) metrology.Measurement A:The power is always integrated (both in case of positive imported and negative exported power) and the total energy meter is certified according to MID. Operating temperature: from –25 to +55°C/from –13 to +131°FB:Only the total positive energy meter is certified according to MID. Operating temperature: from –25 to +55°C/from –13 to +131°FA70: The power is always integrated (both in case of positive imported and negativeexported power) and the total energy meter is certified according to MID. Operating temperature: from –25 to +70°C/from –13 to +158°F B70: Only the total positive energy meter is certified according to MID. Operatingtemperature: from –25 to +70°C/from –13 to +158°FEM111Not certified according to MID Directive. Cannot be used for fiscal (legal) metrology.Type SelectionRange codeAV8:230VLN ac - 5(45)A(Direct connection upto 32 A)AV7:120VLN ac - 5(45)A (Direct connectionup to 32 A). Availableon request (MOQ 100pcs)AV5:230VLN ac - 5(6)A(CT connection), S1output onlyMV5:230VLN ac - 333 mV(current sensor con-nection), S1 outputonlyPower supplyX:Self power supplyOutputO1:pulse outputS1:RS485 Modbus portM1:M-Bus port System1:1-phase 2-wireOption X:noneEM111Input specificationsEM111Output specificationsDigital input specificationsDigital inputsFree of voltage contact FunctionTariff management (switch between t1-t2)Number of inputs 1 Contact measurement voltage 5 V Input impedance 1kohm Contact resistance ≤ 1kohm, close contact ≥ 100kohm, open contactOverloadIn case a voltage iserroneously applied to the digital input, the input is not damaged up to 30 V ac/dc.EM111General specificationsPower supply specificationsPower supplyself power supplyPower consumption≤ 1.0W, ≤ 8VAEM111Insulation (for 1 minute) between inputs and outputsEM111MID compliance (PF option only)Accuracy (according to EN62053-21 and EN62053-23) - AV5 modelkWh,accuracy (RDG) depending on the currentClass 1 accuracy limits (Active energy)5(6)A Start-up current: 10mA +1.5%+1%0%-1%-1.5%PF=10.25A(I min )0.5A(I tr )5A(I n )6A(I max )0.5A(I tr )5A(I n )6A(I max )PF=L0.5or C0.8(0,1I ref )(0,1I ref )(0.05I ref )kvarh,accuracy (RDG) depending on the currentClass 2 accuracy limits (Reactive energy)5(6)A Start-up current: 10mAError+2.5%+2%0%-2%-2.5%sin j =10.25A0.5A 5A(In)6A(I max )1A5A(In)6A(I max )sin j =0.5(0.1In)(0.25In)0.5A(0.05In)(0.1In)ErrorEM111Accuracy (according to EN50470-3 and EN62053-23) - A V7/A V8 modelkWh,accuracy (RDG) depending on the currentClass 1 accuracy limits (Active energy)5(45)A Start-up current: 20mA Percentage error limits for class index B+1.5%+1%0%-1%-1.5%PF=10.25A(I min )0.5A(I tr )5A(I n )45A(I max )0.5A(I tr )5A(I n )45A(I max )PF=L0.5or C0.8(0,1I ref )(0,1I ref )0.05A(I ref )kvarh,accuracy (RDG) depending on the currentClass 2 accuracy limits (Reactive energy)5(45)A Start-up current: 20mAError+2.5%+2%0%-2%-2.5%sin j =10.25A0.5A 5A(Ib)45A(I max )1A5A(Ib)45A(I max )sin j =0.5(0.1Ib)(0.25Ib)0.5A(0.05Ib)(0.1Ib)Display pagesX= availableMeasurement accuracy according to IEC/EN61557-12 (MID versions)Active powerPerformance class 1Active energyPerformance class 2EM111List of available menusNote: after the confirmation of a new parameter value, the value is stored in the memory without the need to exit the programming mode.EM111Additional available information on the display (*)(*) can be reached by pressing simultaneously the 2 touch keysEM111Specification are subject to change without notice EM111 DS 01092111AV7, AV8 wiring diagramsAV5 wiring diagramsMV5 wiring diagramsEM111Specification are subject to change without notice EM111 DS 01092112Input/output communicationEM111Specification are subject to change without notice EM111 DS 01092113Front panel description1. DisplayBacklit LCD display with touch key-pad. Upper part: enter2. LEDLED proportional to kWh reading3. Serial number and MID dataArea reserved to serial number and MID-relevant data in PF versionsDimensions (mm)。

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。

AV 产品EMC要求Tim YanKEMA Quality GuangzhouExperience you can trust.目录¾EMC内容¾EN 55013¾EN 55020EMC内容EMCEMI EMSEN 55013EN 61000-3-2EN 61000-3-3EN 55020EN 55013版本及实施日期EN 55013:2001Dop（date of publication）：2002-06-01Dow（date of withdrawn）：2004-09-01A1:2003Dop（date of publication）：2004-01-01Dow（date of withdrawn）：2006-04-01A2:2006Dop（date of publication）：2006-12-01Dow（date of withdrawn）：2009-03-01EN 55013范围1、适用产品范围：由接收广播及类似传输的音视频接收机或附属设备所产生的电磁能量。

2、适用频率范围：9kHz~400GHz，但为指明限值的频率段无需进行测试。

3、例外：1、广播接收机的电信端口，用于连接电信网络，适用于EN 55022.当然，音视频工作独立于此端口之外，但针对该端口进行测试时，音视频可以关闭。

2、集中接收系统，特别是：—CATV （Community Antenna Television）—MATV （Master Antenna Television）适用EN 60729-2标准。

附属设备及多功能设备附属设备定义：直接连接到音视频广播接收机，或产生，或重现音频或视觉信息的设备。

带数字接口（如USB接口）的音视设备：如果仅仅用于重现音频信号，则该设备可以看作音视频附属设备，如果该接口兼做软件升级或具备数据的存储、传输、处理等功能，则应视为ITE（信息技术设备），应加测试EN 55022及EN 55024标准，认证费用也将相应增加。

AC Gearless Machine,1.5 T &2.5 T (Regenerative)Spare Parts Leaflet06-AAA20220AVJanuary 23, 2008/ Page 1 of 11Unpublished Work—© Otis Elevator Co.; 2008Safety First!SERVICE ENGINEERINGOtis Elevator CompanyBloomfield, Connecticut USA06-AAA20220AV HistoryLeaflet DescriptionThis leaflet provides spare parts information for the AC gearless machine, type AAA20220AV. These AC gearless machines were designed specifically for the Gen2® machine roomless elevator system, and they will allow very quiet and efficient operation.Leaflet RevisionsDate Revised Subject Matter Expert Reason for RevisionMarch 10, 2005 Ben Watson New SPLMarch 25, 2006 Ben Watson Updated parts listing throughout the document. January 15,2007Scott Boulanger Updated parts listing throughout the document.January 23,2008Scott Boulanger Updated Voltage Information in Ref. 1 on p. 8 Related DrawingsDrawing No. Title Drawing No. TitleAAA20220AV A.C. Gearless Machine AAA633AE Encoder (3-channel)TBA20220BD Brake AAA27076CJ Rescue Sensor Encoder Replacement KitRelated DocumentsDocument ID TitleSPL 07-TBA20222BC CR Brake for Gen2 SystemSPL 07-TBA20222BD 2.5T NAA/ANSI Brake for Gen2 SystemSPL 07-TAA20222BF EN 81 Brake (48V) for Gen2 SystemSubject Matter ExpertName Department Scott Boulanger Otis Engineering Center, Farmington (OECF)About Spare Parts Leaflets…This document lists the lowest replaceable units (LRUs) for the standard version of the product. The LRUs are chosen by a team of Otis associates representing engineering and manufacturing.While goal of this document is to make parts identification as easy as possible, the document cannot be all-inclusive. Elevator and escalator contracts classified as “special” or “custom” are not addressed here. For such contracts, please refer to specified information, the contract folder, TIPs, Field Education Articles, Construction Letters, etc. for further information.If you have any suggestions about this document, please contact the subject matter expert listed on this page.Page 2 January 23, 2008 Unpublished Work—Otis Elevator Co., 2008Unpublished Work—Otis Elevator Co., 2008January 23, 2008 Page 31.5 T Machines (EN81)06-AAA20220AVAAA20220AV REF. No.PART No.APPLICATIONDUTY LOAD (kg)SPEED (m/s)DESCRIPTIONAAA20220AV112AAA20220AV102 1.0AAA20220AV114 AAA20220AV104 EN 550–680 1.6AAA20220AV121 1.0 AAA20220AV122 Korea 6301.6 Assembly, AC Gearless Machine, w/EN81Certified Brake andIncremental Encoder; Motor Voltage = 513 V AAA20220AV251AAA20220AV2411.0AAA20220AV253AAA20220AV243420–490 1.75AAA20220AV252AAA20220AV2421.01AAA20220AV254AAA20220AV244Japan 6001.75Assembly, AC GearlessMachine, w/48 V Brake and IncrementalEncoder; Motor Voltage = 513 V NOTE: Data plates on some machines have been imprinted with part no. that indicates motor w/o brake(e.g., AAA20220AV112). The field replacement assembly should be the complete motor with brake (e.g., AAA20220AV102), shown as a substitution for each of these identities / applications.(Continued on next page)Page 4 January 23, 2008Unpublished Work—Otis Elevator Co., 200806-AAA20220AV1.5 T Machines (EN81)AAA20220AV REF. No.PART No. APPLICATIONDUTY LOAD (kg)SPEED (m/s)DESCRIPTIONAAA20220AV202 EN 550–680 1.0AAA20220AV204 1.6 1 AAA20220AV246 Japan 750 1.0AAA20220AV247 850 1.0 AAA20220AV248 750 1.75 AAA20220AV249 850 1.75Assembly, AC Gearless Machine, w/48 V Brake and Rationalized 5 VEncoder, 2 Channel;Motor Voltage = 513 V 2 AAA180JB1 Glue, Loctite 243 Sealant, 10 ml Bottle3AAA27076AJ1Kit, Hardware, Including (4) Hexhead Bolt M16 x 120 mm, and (1) Ref. 2Unpublished Work—Otis Elevator Co., 2008January 23, 2008 Page 52.5 T Machines (EN81)06-AAA20220AVAAA20220AV REF. No.PART No.APPLICATIONDUTY LOAD (kg)SPEED (m/s)DESCRIPTIONAAA20220AV311AAA20220AV3011.0AAA20220AV313AAA20220AV303EN 700–8501.6AAA20220AV312AAA20220AV302 1.0 AAA20220AV314 AAA20220AV304EN (Korea) 900–1050(770 Korea) 1.6AAA20220AV322 1AAA20220AV324 Korea 11501.6Assembly, AC Gearless Machine, w/24 V Brake and Incremental Encoder; Motor Voltage= 513 V AAA20220AV451AAA20220AV4417501 AAA20220AV452AAA20220AV442Japan 8501.0 Assembly, AC Gearless Machine, w/48 V Brake and IncrementalEncoder; Motor Voltage = 513 VNOTE: Data plates on some machines have been imprinted with part no. that indicates motor w/o brake(e.g., AAA20220AV311). The field replacement assembly should be the complete motor with brake (e.g., AAA20220AV301), shown as a substitution for each of these identities / applications.(Continued on next page)Page 6 January 23, 2008Unpublished Work—Otis Elevator Co., 200806-AAA20220AV2.5 T Machine (EN81)AAA20220AV REF. No.PART No. APPLICATIONDUTY LOAD (kg)SPEED (m/s)DESCRIPTIONAAA20220AV315 AAA20220AV305 EN 700-850AAA20220AV316 AAA20220AV306 900-1050 Assembly, AC Gearless Machine, w/24 V Brake and Incremental Encoder;Motor Voltage = 513 V AAA20220AV453 AAA20220AV443 Japan750 1.752AAA20220AV454 AAA20220AV444850 Assembly, AC Gearless Machine, w/48 V Brake and Incremental Encoder;Motor Voltage = 513 VAAA20220AV401 700-850 1.0 AAA20220AV402 EN(Korea) 900-1050(770)AAA20220AV403 700-850AAA20220AV404 900-1050(770)1.5-1.6Assembly, AC Gearless Machine, w/48 V Brake and Rationalized 5 VEncoder, 2 Channel;Motor Voltage = 513 V (Continued on next page)Unpublished Work—Otis Elevator Co., 2008January 23, 2008 Page 72.5 T Machine (EN81)06-AAA20220AVAAA20220AV REF. No.PART No.APPLICATIONDUTY LOAD (kg)SPEED (m/s)DESCRIPTIONAAA20220AV405 700-850 1.75AAA20220AV406 900-1050AAA20220AV407 EN630 1.0AAA20220AV408 1.5-1.6 AAA20220AV4091.75AAA20220AV422 1150 1.0 2AAA20220AV424 Korea 1.6 AAA20220AV446 750 1.0 AAA20220AV447 Japan 850AAA20220AV448 750 1.75 AAA20220AV449850Assembly, AC GearlessMachine, w/48 V Brake and Rationalized 5 VEncoder, 2 Channel;Motor Voltage = 513 V 3 AAA384AHT1 Cover (guard)4 AAA180JB1 Glue, Sealant, Loctite 243, 10 ml Bottle5 AAA27076AJ1Kit, Hardware, Including (4) Hexhead Bolt M16 x 120 mm and (1) Ref. 406-AAA20220AV2.5 T Machine (ANSI)AAA20220AVREF. No. PART No. DUTY LOAD(kg)SPEED DESCRIPTIONAAA20220AV372 200 FPM (1.02 m/s)1AAA20220AV3742500 lb.(1135 kg) 350 FPM (1.78 m/s)Assembly, AC GearlessMachine, w/48 V Brake andIncremental Encoder;Motor Voltage = 513 V2 AAA384AHT1 Cover (guard)3 AAA180JB1 Glue, Sealant, Loctite243, 10 ml Bottle4 AAA27076AJ2 Kit, Hardware, Including (3) Hexhead Bolt M16 x 55 mm, (4) Hex Socket Head Screws M16 x 120 mm, and (1) Ref. 3Page 8 January 23, 2008 Unpublished Work—Otis Elevator Co., 2008Unpublished Work—Otis Elevator Co., 2008January 23, 2008 Page 9Brake Assemblies06-AAA20220AVAAA20220AVREF. No.PART No. APPLICATIONDESCRIPTIONTBA20222BC7 Used w/ AAA20220AV102, 104, 112, 114TBA20222BC6 Used w/ AAA20220AV121, 122, 301, 303, 305, 311, 313, 315TBA20222BC5Used w/ AAA20220AV302, 304, 306, 312, 314, 316Brake Assembly,SPL 07-TBA20222BC for DetailsTAA20222BF57 Used w/ AAA20220AV241, 243, 246, 248, 251, 253TAA20222BF56 Used w/ AAA20220AV142, 144, 242, 244, 249, 252, 254, 341, 343, 441, 443, 446,448, 451, 453 1TAA20222BF55Used w/ AAA20220AV241, 243, 442, 444, 447, 449, 452, 454Brake Assembly,SPL 07-TBA20222BF for Details TAA20222BF109 Used w/ AAA20220AV422, 4242 TAA20222BG102Used w/ AAA20220AV372, 374, ANSI Brake Assembly, SPL 07-TAA20222BG for DetailsPage 10 January 23, 2008Unpublished Work—Otis Elevator Co., 200806-AAA20220AVEncodersAAA20220AVREF. No.PART No. DESCRIPTIONAAA20220AV ARRANGEMENTREMARKS1 AAA21303CU1 Block, Terminal ANSI2AAA20220AM1Box, Terminal372, 374ANSI AAA20220AM2ANSI plus Ref. 6 3AAA633Z4Encoder, Main, 5 V Incremental, 2-Channel with MountingHardware and Allen Wrenches101-154, 212-244, 251-354, 401-444, 451-454EN81(Continued on next page)Unpublished Work—Otis Elevator Co., 2008January 23, 2008 Page 11Encoders06-AAA20220AVAAA20220AVREF. No.PART No.DESCRIPTIONAAA20220AV ARRANGEMENTREMARKS4 AAA633AE1Encoder, Main, 5 VIncremental, 3-Channel withMounting Hardware and Allen Wrenches 372, 374ANSIAAA633AG22Encoder, Main, 5VRationalized, 2-Channel withMounting Hardware and Allen Wrenches 202, 204, 246-249,446-449 EN815 AAA20220R3Kit, Rescue EncoderReplacement, Hall Effect 101-370, 381-499EN81 6 AAA27076CJ1Kit, Rescue Sensor EncoderReplacement372, 374ANSI。

欧美各国的安全.EMC标准(灯具)一. 灯具类1. 固定在墙上或天花板上(壁灯/吊灯等) 欧洲标准: EN60598-2-1美国标准: UL15982. 便携式灯具(台灯)欧洲标准: EN60598-2-4美国标准: UL1533. 灯串欧洲标准: EN60598-2-20美国标准: UL5884. 节能灯(带Ballast)欧洲标准: EN60968美国标准: UL935或UL19935. 小夜灯欧洲标准: EN60598美国标准: UL17866. 镇流器/电子变压器:欧洲标准: EN61347美国标准: UL935二. 电源产品1. 线性变压器A. 一般用途欧洲标准: EN61558美国标准: UL1310或UL1012B. 用于IT产品欧洲标准: EN60950美国标准: UL60950C. 用于AV产品欧洲标准: EN60065美国标准: UL6500 或UL1411(电视机)2. 开关电源A. 一般用途,用于家电产品(如充电器) 欧洲标准: EN60335-2-29美国标准: UL1310或U1012B. 用于IT产品欧洲标准: EN60950美国标准: UL60950C. 用于AV产品欧洲标准: EN60065美国标准: UL6500 或UL1411(电视机)D. 用于医疗器械欧洲标准:美国标准: UL60601....三.EMC电磁兼容检测项目：工业、医疗和科学产品电磁干扰检测EN55011/ CISPR11音视频/广播类产品电磁干扰检测EN55013/ CISPR13家电类产品电磁干扰检测EN55014-1/ CISPR14家电类产品电磁抗干扰检测EN55014-2灯具类产品电磁波干扰检测EN55015/ CISPR15灯具类产品电磁波干扰检测EN61547音视频/广播类产品电磁抗干扰检测EN55020/CISPR20信息技术类产品电磁干扰检测EN55022/ CISPR22信息技术类产品电磁抗干扰检测EN55024/CISPR24居住、商业、轻工业环境下产品电磁抗干扰检测EN61000-6-1 工业环境下产品电磁抗干扰检测EN61000-6-2居住、商业、轻工业环境下产品电磁干扰检测EN61000-6-3 工业环境下产品电磁干扰检测EN61000-6-4电源谐波检测EN60555-2/EN61000-3-2电压闪烁检测EN60555-3/EN61000-3-3静电放电抗干扰检测IEC/EN 61000-4-2射频电磁波抗干扰检测IEC/EN 61000-4-3电性快速脉冲群抗干扰检测IEC/EN 61000-4-4雷击抗干扰检测IEC/EN 61000-4-5传导抗干扰检测IEC/EN 61000-4-6电源频率磁场抗干扰检测IEC/EN 61000-4-8电压瞬降抗干扰检测IEC/EN 61000-4-11汽油车电磁干扰/抗干扰检测EN55012交变湿热Damp heat,cyclic IEC68-2-30恒定湿热Damp heat,steady state IEC68-2-67,IEC68-2-3◎电磁场评估(EMF): EN50366◎环境可靠性实验项目高温Dry heat IEC60068-2-2低温Cold IEC60068-2-1冲击Shock IEC68-2-27。

简介：EN02（ASCII-IC）是专用的控制器,是一个集高速、体积小、低功耗和抗高噪声一体的静态CMOS 芯片。

带有64Byte EEPROM, 集成CMOS 静态设计方案.专用于黑霉手机系列电池保护板码片,支持手机型号:8100系列,8300系列,8700系列,8800系列,9000系列,9500系列，由IC，通过数据通信为主机传递相关信息。

功能描述：◆完全CMOS 静态设计◆工作电压：2.2V――6.0V◆工作频率：0~20MHZ◆IC的DA0脚在接收到三组数据中任何一组时，其会相应地发送与之对应的数据组◆数据通讯协议：1线制总线◆数据传输波特率：300◆小体积6脚贴片封装。

脚位图：脚位说明：Symbol Description Pin I/O VDD 电源正 1VSS 电源负2、5DA0 数据引脚0 3 IO DA1 数据引脚1 4 O DA3 数据引脚2 6 O应用电路：ASCI_IC为处理器IC，DW01为锂电池保护IC，8205S为6脚mos管，整个电路主要通过DATA脚与外界进行数据通信:P+为直流电源正极，P-为直流电源负，对DW01，5脚为电源，6脚接地，1、3脚为OC,OD脚，控制双MOS管8205s，2脚为CS脚，J2为锂电池，正极接P+，负极接B-,数据脚DATA和PS脚与主机连接。

测试电路：（用于测试En02_ASCII-IC数据发送的波特率）操作：目标连接好后按按键即可现象：1、如果测试出现绿灯并伴有蜂鸣器报警，则内部时钟在标准规格内；2、如果测试连续三次亮红灯，则代表IC内部时钟精度不符合规格；3、如果测试连续三次亮蓝灯，则代表IC已损坏或IC内部无程序执行或测试架接触不良；电气特性:。