TC55V400XB-85中文资料

紧急按钮开关-紧急按钮各种型号功能特点紧急按钮开关是一种比较常用的报警系统，我们在小区里的门旁，以及商场中的安全通道，地铁上、楼道上等都有安装紧急按钮开关。

紧急按钮开关是一种常用的控制电器元件，常用来接通或断开‘控制电路’（其中电流很小），从而达到控制电动机或其他电气设备运行目的的一种开关。

紧急按钮开关是在紧急情况下，需要帮助时触动的开关。

什么样的场景下适合使用什么类型的紧急按钮开关呢？以下广州艾礼富电子品牌给大家分享紧急按钮各种型号功能特点。

型号一：拉绳式紧急按钮 WS-38B86型紧急求助拉绳按钮，用进口拜耳PC材料，防火助燃，壁挂式安装，独特防水设计，采用常开报警方式，有拉线、按键两种报警方式。

型号二：自复位金属按钮 WS-38产品参数：合金面板，手感极好，且坚固耐用；工作电压：DC 12--24V触点电流：≤300mA自动复位规格尺寸：86X86mm重量：0.25Kg型号三：有线紧急按钮 PB-68产品介绍：常闭；钥匙复位。

型号四：无线紧急按钮 WS-400H产品介绍：无线315MHz，自动复位，常闭；无线距离>100米型号五：总线紧急按钮 WS-2801使用方法：按下红色按钮，警情通过总线发送到接警中心；使用专用钥匙可复位警情。

1．规格及参数尺寸：8.7 x 8.7 x 3.2厘米（长x宽x厚）工作温度：-10℃∽+50℃；0-85%湿度工作电压：直流10 ∽ 24伏工作电流：10毫安联网功能：可与AL-7480B等总线型报警系统配合使用2．安装说明直流电源接口：红线为正极，黑线为负极；同一个系统下的WS-2801或其他的RS485终端设备地址不能重复。

以上就是广州艾礼富电子电子科技的紧急按钮各种型号功能特点的介绍，广州艾礼富电子是专业从事主动红外及激光探测器、报警控制系统等研发、生产、销售一体的民营高科技企业之一；公司立足于安防行业，坚持持续发展的战略方针，历经15年沉淀和发展，已经成为中国安防行业-防盗报警领域的领军品牌企业。

1-2158000-0Power Relays, Standard, Monostable, DC, 400 – 500mW Coil Power Rating Class, 400mW Coil Power Rating DC, 200Ω Coil Resistance03/22/2021 11:25PM | Page 1For support call+1 800 522 6752Relays, Contactors & Switches > Relays >Power RelaysCoil Resistance:200 ΩCoil Power Rating DC:400 mWCoil Power Rating Class:400 – 500 mWCoil Magnetic System:Monostable, DCPower Relay Type:StandardFeaturesProduct Type Features Power Relay Type StandardElectrical CharacteristicsInsulation Initial Dielectric Between Coil & Contact Class 5000 V Actuating SystemDC Contact Limiting Making Current16 A Insulation Creepage Between Contact & Coil 8 mm Contact Limiting Short-Time Current 30 A Coil Power Rating.4 W Contact Limiting Continuous Current 16 A Insulation Creepage Class8 mm Insulation Initial Dielectric Between Contacts & Coil 5000 Vrms Input Voltage9 VDC Contact Limiting Breaking Current 16 A Coil Current.045 ACoil Magnetic SystemMonostable, DC Coil Power Rating Class 400 – 500 mW1-2158000-0 ACTIVESCHRACKTE Internal #:1-2158000-0Power Relays, Standard, Monostable, DC, 400 – 500mW Coil Power Rating Class, 400mW Coil Power Rating DC, 200Ω Coil ResistanceView on >Coil Magnetic System Monostable, DCCoil Power Rating Class400 – 500 mWCoil Power Rating DC400 mWCoil Resistance200 ΩCoil Special Features UL Coil Insulation Class FCoil Voltage Rating9 VDCContact Switching Load (Min)100mA @ 12VContact Switching Voltage (Max)300 VDCContact Voltage Rating30 VDCBody FeaturesProduct Weight13 gCase Color OrangeContact FeaturesContact Plating Material Silver NickelSwitch Arrangement(2) x 1 Form A (SPST-NO)Contact Special Features Single ContactContact Arrangement 1 Form A (NO)Contact Current Class16 AContact Current Rating (Max)16 AContact Material AgNi90/10Contact Number of Poles1Terminal Type PCB-THTTermination FeaturesRelay Termination Type Printed Circuit TerminalsMechanical AttachmentRelay Mounting Type Printed Circuit BoardDimensionsLength Class (Mechanical)25 – 30 mmBase Dimensions29 x 12.7 mmDimensions (L x W x H) (Approximate)29 x 12.7 x 15.7 mmInsulation Clearance Class8 mmHeight Class (Mechanical)15 – 16 mmInsulation Clearance Between Contact & Coil8 mmWidth Class (Mechanical)12 – 16 mm03/22/2021 11:25PM | Page 2 For support call+1 800 522 6752Width Class (Mechanical)12 – 16 mmProduct Width12.7 mmProduct Length29 mmProduct Height15.7 mmUsage ConditionsEnvironmental Ambient Temperature (Max)85 °CEnvironmental Ambient Temperature Class-40 – 85 °CEnvironmental Category of Protection RTIIOperating Temperature Range-40 – 85 °CPackaging FeaturesPackaging Method Box & TubeProduct ComplianceFor compliance documentation, visit the product page on >EU RoHS Directive 2011/65/EU CompliantEU ELV Directive 2000/53/EC CompliantChina RoHS 2 Directive MIIT Order No 32, 2016No Restricted Materials Above ThresholdEU REACH Regulation (EC) No. 1907/2006Current ECHA Candidate List: JUN 2020(209)Candidate List Declared Against: JUN 2020(209)Does not contain REACH SVHCHalogen Content Not Low Halogen - contains Br or Cl > 900ppm.Solder Process Capability Wave solder capable to 265°CProduct Compliance DisclaimerThis information is provided based on reasonable inquiry of our suppliers and represents our current actual knowledgebased on the information they provided. This information is subject to change. The part numbers that TE has identified asEU RoHS compliant have a maximum concentration of 0.1% by weight in homogenous materials for lead, hexavalentchromium, mercury, PBB, PBDE, DBP, BBP, DEHP, DIBP, and 0.01% for cadmium, or qualify for an exemption to theselimits as defined in the Annexes of Directive 2011/65/EU (RoHS2). Finished electrical and electronic equipment productswill be CE marked as required by Directive 2011/65/EU. Components may not be CE marked. Additionally, the partnumbers that TE has identified as EU ELV compliant have a maximum concentration of 0.1% by weight in homogenousmaterials for lead, hexavalent chromium, and mercury, and 0.01% for cadmium, or qualify for an exemption to these limitsas defined in the Annexes of Directive 2000/53/EC (ELV). Regarding the REACH Regulation, the information TE provideson SVHC in articles for this part number is based on the latest European Chemicals Agency (ECHA) ‘Guidance onrequirements for substances in articles’ posted at this URL: https://echa.europa.eu/guidance-documents/guidance-on-reachCompatible Parts03/22/2021 11:25PM | Page 3 For support call+1 800 522 675203/22/2021 11:25PM | Page 4For support call+1 800 522 6752TE Part #972437300155/9953-24-2/2(LAT3)TE Part #3-1415538-1RT334009WGTE Part #2-1415541-4PB134018TE Part #1855570-1HDM/FA EAPR.180F BENCH G/LM CUTTE Part #1852298-1HDM EAPR250F LM & G PIGTAILTE Part #160497-2MATE-N-LOK SOCKETTE Part #964131-6FF 110 TAB 0.2-0.5 MM2 .070 F NP CUSN4TE Part #2120050-1FF HOUSING 6P NYLON BLUETE Part #1721547-4PCN 3A/5A SLIM PCB RELAY 3VDCTE Part #2112132-1TIMER, RECEPTACLE AND TABTE Part #CAT-SCH691-R997PCB Power Relay: 12-16 Amp, MonostableCompatible PartsCustomers Also BoughtDocumentsCAD Files3D PDF3DCustomer View ModelENG_CVM_CVM_1-2158000-0_A.2d_dxf.zipEnglishCustomer View ModelENG_CVM_CVM_1-2158000-0_A.3d_igs.zipEnglishEnglishCustomer View ModelENG_CVM_CVM_1-2158000-0_A.3d_stp.zipEnglishTerms and ConditionsBy downloading the CAD file I accept and agree to the of use.Datasheets & Catalog PagesIndustrial Relays Quick Reference GuideEnglishIndustrial Relays Quick Reference GuideJapaneseIndustrial Relays Quick Reference GuideProduct SpecificationsDefinitions RelaysEnglishAgency ApprovalsVDE CertificateEnglish03/22/2021 11:25PM | Page 5 For support call+1 800 522 6752。

Technical DataMotor Protection Circuit Breaker SpecificationsBulletin Number 140-CMNTopic PageProduct Line Overview3Specifications5Approximate Dimensions9Additional ResourcesThese documents contain additional information concerning related products from Rockwell Automation.Resource DescriptionIndustrial Automation Wiring and Grounding Guidelines, publication 1770-4.1Provides general guidelines for installing a Rockwell Automation industrial system. Product Certifications website, Provides declarations of conformity, certificates, and other certification details.Y ou can view or download publications at /literature/. T o order paper copies of technical documentation, contact your local Allen-Bradley distributor or Rockwell Automation sales representative.Motor Protection Circuit Breaker Specifications2Rockwell Automation Publication 140M-TD003A-EN-P - April 2016Product Line OverviewOverviewMotor Protection Circuit Breakers may provide the following protective and control functions.•Disconnect for Motor Branch Circuit•Branch-Circuit, Short-Circuit Protection (Magnetic Protection)•Overload Protection (Thermal Protection)•Switching (Manual)In North America, electrical codes require that an individual Motor Branch Circuit be protected by a UL/CSA Listed Fuse, Circuit Breaker or Self-Protected Combination Motor Controller.The 140-CMN frame Motor Protection Circuit Breakers are UL Listed/CSA Certified as Manual Motor Controllers (with optional approvals for Motor Disconnect and Group Installation). In NEC/CEC Group Installations, these devices must be applied per the appropriate rules which require the use of an upstream Branch-Circuit, Short-Circuit Protective Device (BCPD). See the table on UL/CSA Listed Application Ratings - Motor Protection Circuit Breaker (MPCB) Only for the specific ratings of each Motor Protection Circuit Breaker.Standards Compliance and CertificationsStandards Compliance CertificationsIEC/EN60947-1,-2CE MarkedCSA,C22.2 No.14CSA CertifiedUL508cULus Listed (File No. E54612, NLRV(7); E205542, NKJH(7); E197878, DIVQ(7);)Rockwell Automation Publication 140M-TD003A-EN-P - March 20163Product Line OverviewAttribute140-CMNMax. Current I e90 A Current Rating16…90 A Short Circuit Protection✓Standard Magnetic T rip✓High Magnetic Trip✓Overload Protection✓Trip Class10 Application at output of VFD (multi-motor)Standards Compliance:CSA22.2, No.14✓UL508 (Group Installation)✓ (see ratings) UL508 (Overload Protection)✓IEC60947-1,-2✓CE✓AccessoriesExternal Rotary Operator✓Auxiliary Contacts✓Trip Indication Contacts✓4Rockwell Automation Publication 140M-TD003A-EN-P - March 2016Rockwell Automation Publication 140M-TD003A-EN-P - April 20165SpecificationsIEC Performance DataTable 1 - IEC Performance Data⋆No back-up fuse required.‡ Power ratings: Preferred values according to IEC 60072-1.General DataTable 2 - General DataCat.No.140-CMN…-2500 -4000-6300-9000Rated Operational Current, I e [A]25406390Magnetic Release Current [A]3505608901260Switching of Standard Three-Phase Motors, AC-3230/240V ‡[kW] 5.5/7.510/1113/2022/25400/415V ‡[kW]7.5/1315/2225/3237/45500V ‡[kW]11/1518.5/2530/4045/55690V ‡[kW]15/2225/3037/5563/75Back-Up Fuses gG, gL, only if I cc ≥ I cu230/240V [A]⋆⋆⋆⋆400/415V [A]160160160160500V [A]160160160160690V [A]160160160160Ultimate Short Circuit Breaking Capacity, I cu230/240V [kA]1001005050400/415V [kA]50302020500V [kA]30201010690V [kA]15844Rated Service Short Circuit Breaking Capacity, I cs230/240V [kA]1001005050400/415V [kA]503088500V [kA]301566690V [kA]15844Attribute140-CMNRated Insulation Voltage U iIEC, SEV, VDE0660[V]690UL, CSA[V]600Rated Impulse Withstand Voltage U impPollution degree3Main circuits U imp /Overvoltage Category 6kV/III Auxiliary circuits U imp /Overvoltage Category 6kV/III Rated Frequency[Hz]40 (60)Utilization CategorySpecificationsIEC60947-2 (Circuit breaker)AIEC60947-4-1 (Motor starter)AC-3 (except 90 A)LifespanMechanical[operations]30000Electrical (I e max.)[operations]5000Switching Frequency[operations/h]max.20Ambient TemperatureStorage[°C]-25…+80Operation[°C]-25…+60Climatic resistanceMoisture change climate (600068-2-30)23°C/83% relative humidity and 40°C/92% relative humidity, 56 cycles Dry heat (60086-2-2)100°C, relative humidity <50%, 7 daysMoisture heat (60068-2-3)40°C, relative humidity 93%, 56 daysProtection Class IP2X from front with terminal wired, (min. wire size 35 mm2 or #4 AWG ) Resistance to Shock, Transport (60068-2-27)30g,11 msRated Thermal Current I thup to 40°C ambient temperature[A]16 (90)up to 60°C ambient temperature[A]16 (90)Rated Supply Current I e[A]16 (90)Dependence on Temperature40°C[A]no reduction50°C[A]no reduction60°C[A]no reduction70°C[A]15% current reduction of the upper rated current I eOverload ProtectionCharacteristics IEC60947 Ambient Temperature Compensation[°C]20…+60Phase-loss Protection Differential releaseTrip class10Magnetic Release Release current(+/-20%)fixed setting14 x I e max. Total Power Loss P vCircuit Breaker at rated load operating temperature[W]33Main Disconnect Switch Application Yes, with accessoriesApplication Conditions For utilization outside North America, assemblies (of products) shall comply to the IEC61439-1 requirements Attribute140-CMN6Rockwell Automation Publication 140M-TD003A-EN-P - April 2016Specifications Table 3 - General Data, ContinuedWeightsDescription Weight [g]Cat.No.Motor Protection Circuit Breakers1845140-CMN-…Auxiliary Contacts31140-CA…Undervoltage Trip94140-CUV…Trip Contact Blocks31140-CT…Shunt Trip94140-CRT…Accessories for Bulletin140-CMN Circuit BreakersTable 4 - Accessory SpecificationsRockwell Automation Publication 140M-TD003A-EN-P - April 20167SpecificationsTable 5 - Trip Unit SpecificationsTime-Current CharacteristicFigure 1 - 140-CMN Motor Protection Circuit Breaker Time-Current CharacteristicThermal Release Trip CurrentThe adjustable current-dependent delayed bimetal release protects motorsagainst overload. The curve shows the mean operating current at an ambienttemperature of 20 °C starting from the cold state. Careful testing and settingensures effective motor protection even in the case of single phasing. Theoverload characteristic is also valid for transformer protection.Magnetic Release Trip CurrentThe instantaneous magnetic trip has a fixed operating current setting. Thiscorresponds to 13…14 times the maximum value of setting range. (Transformerprotection up to 20 x I e max.) At a lower setting it is correspondingly higher.Current Setting I e FThe overload trip corresponds to a thermal overload relay in a motor starterconforming to IEC947-4-1. If a different value is prescribed (e.g., reduced I e forcooling medium having a temperature higher than 40 °C or a place of installationhigher than 2000 m above sea level), the setting current is equal to the reducedrated current I e of the motor.8Rockwell Automation Publication 140M-TD003A-EN-P - April 2016Approximate DimensionsDimensions are shown in millimeters (inches). Dimensions are not intended to be used for manufacturing purposes.Figure 2 - 140-CMNRockwell Automation Publication 140M-TD003A-EN-P - April 20169Approximate DimensionsFigure 3 - 140-CD…Figure 4 - Mounting position/safety clearance of Cat. No. 140-CMN10Rockwell Automation Publication 140M-TD003A-EN-P - April 2016Motor Protection Circuit Breaker Specifications Notes:Rockwell Automation Publication 140M-TD003A-EN-P - April 201611Allen-Bradley, Rockwell Software, Rockwell Automation, and LISTEN. THINK. SOLVE are trademarks of Rockwell Automation, Inc.Trademarks not belonging to Rockwell Automation are property of their respective companies.Publication 140M-TD003A-EN-P - April 2016Copyright © 2016 Rockwell Automation, Inc. All rights reserved. Printed in the U.S.A.Rockwell Automation SupportUse the following resources to access support information.Documentation FeedbackY our comments will help us serve your documentation needs better. If you have any suggestions on how to improve this document, complete the How Are W e Doing? form at /idc/groups/literature/documents/du/ra-du002_-en-e.pdf .Technical Support CenterKnowledgebase Articles, How-to Videos, FAQs, Chat, User Forums, and Product Notification /knowledgebase Local Technical Support Phone NumbersLocate the phone number for your /global/support/get-support-now.page Direct Dial CodesFind the Direct Dial Code for your product. Use the code to route your call directly to a technical support /global/support/direct-dial.page Literature LibraryInstallation Instructions, Manuals, Brochures, and Technical /literature Product Compatibility and Download Center(PCDC)Get help determining how products interact, check features and capabilities, and find associated /global/support/pcdc.pageRoc kw ell Otomasyon Ticaret A .Ş., K ar Plaza İş Mer k ezi E B lo k K at:6 34752 İçeren köy, İstanbul, T el: +90 (216) 5698400Rockwell Automation maintains current product environmental information on its website at /rockwellautomation/about-us/sustainability-ethics/product-environmental-compliance.page .。

8540C S ERIES U NIVERSAL P OWER M ETERThe Giga-tronics 8540C Series combines the speed,range,and capabilities needed to test today’s sophisticated communications systems.The Giga-tronics 8540C Series Universal Power Meters combine accuracy,speed,range and measure-ment capabilities unavailable from any other power meter.Built-in features such as power sweep calibration and frequency calibration provide an unequalled degree of measurement accuracy.Only the 8540C Series power meters have the speed and range to meet thethroughput demands of high volume manufacturing.And the meters can meas-ure the CW ,peak and true average power of the com-plex modulated signals used in EW ,radar ,and communic-ations systems.TESTINGCOMMUNICA TIONS SYSTEMSOnly the Giga-tronics 8540C Series Universal Power Meters have the extensive measurement capabilities required for today’s sophisti-cated communications appli-cations.TDMAThe 8540C can automatically measure the average power of pulse modulated signals or pulse signals that are ampli-tude modulated during the pulse ‘on’ period — such as TDMA (time division multiple access) signals.And the exclusive burst start exclude and burst endexclude capabilities of the 8540C allow you to exclude the beginning or end of a burst when measuring the average burst power .Masking the beginning or end of a burst signal,in order to exclude overshoot or other distortions,can be desirable or even required for certain types of measurements.GSM,NADC AND PDC The exclusive Time Gating feature of the 8540C lets you program a measurement start time and duration to measure the average power during a specific time slot of a burst signal.This is critical for accu-rately measuring the average power of GSM,NADC andment capability of the 8540C is a result of the advanced meter architecture combined with a family of interchange-able sensors.The sensors provide different power mea-surement functions — CW ,peak and modulated — over a wide dynamic range at fast measurement speeds.And no power meter is as accurate as the 8540C over the wide dynamic range needed for CDMA testing.SPEED TO BURNFast responding diode sen-sors plus innovative digital sig-nal processing deliver high-speed measurements.Achieve 500 readings per second over GPIB.Or use our exclusive fast buffered mode to further reduceprocessor overhead and cap-ture up to 4,000 readings per second in CW mode.The 8540C also responds much faster to power level changes than meters using thermocouple sensors.This adds up to a huge reduction in test time and a significant increase in manufacturing throughput.PEAK POWER MEASUREMENTY ou can also measure the instantaneous peak power level of a pulse modulated signal just by changing e the ‘sample delay’function of the 8540C to set the desired measurement point on the waveform.An external oscilloscope can be used to view the pulse profile and corresponding measure-ment point.The extensive measure-other formats that must con-trol the power trajectory during a specified portion of the burst.PHSPHS (as well as DECT and CT -2) systems use a variation of the TDMA format.Instead of using different frequency channels for the forward and reverse link,these systems use a Time Domain Duplex (TDD) method at the same frequency.The Time Gating feature of the 8540C can be used in all of the average power mea-surement modes to accurate-ly measure the average power of the multiplexed time slots.CDMAThe 8540C has the speed,accuracy and range to accu-rately measure the power level of CDMA (code division multiple access) signals for open-loop and closed-loop testing.The wide dynamic range of the 8540C is ideal for open-loop tests,which can require power verification over an 80dB range.Because the 8540C can achieve fast measurement speeds over the GPIB bus,you can quickly measure power in1dB steps over the 48 dB range required for closed-loop tests.Giga-tronics uses diode sensors exclusively to provide speed,range,capability and accuracy unavailable from any other power meter.ACCURACY OVER A 90 dB RANGE Giga-tronics has solved the challenge that pre-viously limited the use of diode sensors to below –20 dBm — the ‘square law’ region —by utilizing a built-in power sweep calibration system.The power sweep calibrator uses a 50 MHz amplitude controlled oscillator to step from –30 to +20 dBm in 1 dB increments.Each step is set using an internal thermistor — the standard for accuracy and traceability.Y ou get ther-mistor accuracy,plus diode speed and dynamic range,for measuring signals accurately over a full 90 dB power range.THE FASTEST CW MEASUREMENTSGiga-tronics 80300A Series CW Power Sensors let you measure CW power from10 MHz to 40 GHz at speeds up to 500 readings per sec-ond over GPIB.Measure up to 90 dB with a single sensor,and select from a variety of high power sensors,up to 50 W.PEAK POWER MEASUREMENTSAttach a Giga-tronics 80350A Series Peak Power Sensor to an 8540C meter and directly measure the instantaneous peak power level of a pulse modulated signal.Use the ‘sample delay’ function to set the desired measurement point on the waveform.An external scope can be used to view the profile and see the exact measurement point on the pulse.TRUE A VERAGE POWER MEASUREMENTSThe Giga-tronics 80400A Series Modulated Power Sensors let you measure the true average power of amplitude modulated,burst modu-lated and other complex modulated signals — such as TDMA signals — at modulation bandwidths up to 40 kHz.When greater bandwidth is needed — for formats such as CDMA and PHS — Giga-tronics 80600A Series Modulated Power Sensors provide bandwidth up to 1.5 MHz to measure the true average power of complex modulated signals.Giga-tronics 80400A and 80600A Series Modulated Power Sensors can accurately and directly measure signals over a dynamic range up to 87 dB and at power levels up to 50 W.BUIL T-IN FREQUENCY RESPONSE CALIBRA TIONConfiguring the power meter for measurements is easy with calibration factors programmed into the sensor.When the measurement frequency is entered,the meter automatic-ally applies the correct calibration factor from the sensor EEPROM. And the meter automatically reads a new set of cal factors whenever a sensor is changed.This avoids the chance of measurement error from using invalid cali-bration factors when you change sensors,or from forgetting to enter new calibration factors.Y ou not only avoid measurement errors;you also save yourself test time.The K connector is electrically and mechanically compatible with the APC-3.5 and SMA connectors.Note:Use a T ype N(m) to SMA(f) adapter (part no.29835) for calibration of power sensors with T ype K(m) connectors. Power coefficient equals <0.01 dB/Watt.Power coefficient equals <0.015 dB/Watt.For frequencies above 8 GHz,add power linearity to system linearity.Power coefficient equals <0.01 dB/Watt (Average).Power coef-ficient equals <0.015 dB/Watt (Average).Peak operating range above CW maximum range is limited to <10% duty cycle.Square root of the sum of the individual uncertainties squared (RSS).Cal Factor numbers allow for 3% repeatability when reconnecting attenuator to sensor and 3% for attenuator measurement uncertainty and mismatch of sensor/pad combination.The K connector is electrically and mechanically compatible with the APC-3.5 and SMA connectors. Note:Use a T ype N(m) to SMA(f) adapter (part no.29835) for calibration of power sensors with Type K(m) connectors.Power coefficient equals <0.01 dB/Watt.Power coefficient equals <0.015 dB/Watt.For frequencies above 8 GHz,add power linearity to system linearity.Power coefficient equals <0.01 dB/Watt (Average).Power coefficient equals <0.015 dB/Watt (Average).Peak oper-ating range above CW maximum range is limited to <10% duty cycle.Square root of the sum of the individual uncertainties squared (RSS).Cal Factor numbers allow for 3% repeatability when reconnecting attenuator to sensor and 3% for attenuator measurement uncertainty and mismatch of sensor/pad combination.Specifications describe the instrument’s warranted perform-ance,and apply when using 80300A,80400A,and 80600A Series sensors.Typical performance,(shown in italics),is non-warranted. METERFrequency Range:10 MHz to 40 GHz 10 Power Range:-70 dBm to +47 dBm(100 pW to 50 Watt) 10Single Sensor Dynamic Range:10CW Power Sensors:90 dBPeak Power Sensors:40 dB,Peak50 dB,CWModulation Power Sensors:87 dB,CW80 dB,MAP/PAP 1160 dB,BAP 11Display Resolution:User selectable from1dB to 0.001 dB in Log mode,and from 1 to 4digits of display resolution in Linear mode.Meter FunctionsMeasurement Modes (Sensors):CW (80300A,80350A,80400A,80600A,and Series)Peak (80350A Series)MAP/PAP/BAP 11(80400A and 80600A Series) Averaging:User selectable,auto-averaging ormanual from 1-512 readings.dB Rel and Offset:Power display can beoffset by -99.999 to +99.999 dB to account forexternal loss/gain.Configuration Storage Registers:Allows up to 20 front panel setups.Power Measurements and DisplayConfigurations:Any two of the followingchannel configurations,simultaneously:A,B,A/B,B/A,A-B,B-A,DLYA,DLYB ACCURACYCalibrator:Power Sweep calibration signal to dynamically linearize the sensors (Type N connector).Frequency:50 MHz,nominal0.0 dBm Accuracy:±1.2% worst case forone year,over temperature range of 5º to 35ºC.VSWR:<1.05 (Return Loss >33 dB)Instrumentation,Relative to 0 dBm:±0.02 dB over any 20 dB range from-70 to +16 dBm.±0.02 dB + (±0.05 dB/dB) from+16 to +20 dBm.Graph shows linearity plus worst case zero set and noiseversus input powerTemperature Coefficient ofLinearity:<0.3%/ºC temperature change followingPower Sweep calibration.24 hour warm-up required.Zeroing Accuracy:(CW)Zero Set:12<±50 pW,<±100 pW with80400A and 80600A Series Modulation Power Sensors.Zero Drift:12<±100 pW during1hourNoise:<±50 pW,<±100 pW with 80400Aand 80600A Series Modulation Power Sensors.<±200 pW with 80700A Series Sensors,measureable over any 1 minute interval 3 standarddeviations.REMOTE INPUTS/OUTPUTSV Prop F Input (BNC):Used to correct powerreadings for sensor frequency response using sourceVpropF output.13Analog Output (BNC):Provides an outputvoltage of 0 to 10V for Channels1and2ineither Lin or Log units.13Does not operate in Swiftor Buffered modes.Blanking Output (BNC):TTL High duringpower meter zero.Can be used to shut off signalgenerator RF output during sensor zero.Trigger Input (BNC):TTL trigger input signalfor Swift and Fast Buffered modes.GPIB Interface:IEEE-488 and IEC-625 remoteprogrammingRS232 Interface:Programmable serial interface,DB-9 connectorGENERAL SPECIFICATIONSTemperature Range:Operating:0º to 50ºC (+32º to +122ºF)Storage:-40ºC to 70ºC (-40º to +158ºF)Power Requirements:100/120/220/240V ±10%,48 to 440 Hz,25VA typicalPhysical Characteristics:Dimensions:215 mm (8.4 in) wide,89 mm (3.5 in) high,368 mm (14.5 in) deepWeight:4.55 kg (10lbs)ORDERING INFORMATIONPOWER METERS8541C Single Input Universal Power Meter(includes 1 sensor cable)8542C Dual Input Universal Power Meter(includes 2 sensor cables)ACCESSORIESOne manual,one power cord,detachable sensor cables.POWER METER OPTIONS01Rack mount kit02Add 256K buffer for Fast Buffered Mode PowerReadings Stores up to 128,000 readings038541C Rear Panel Sensor and Calibrator Connections048542C Rear Panel Sensor and Calibrator Connections05Soft Carry Case06Second Analog Output,-10V to +10 V07Side Mounted Carrying Handle08Transit Case,(Includes Soft Carry Case)09Dual Rack Mount Kit (with assembly instructions)10Dual Rack Mount Kit (factory assembled)11Time Gating© 1998 Giga-tronics Incorporated GT-152-A Giga-tronics Incorporated 4650 Norris Canyon Road San Ramon,California 94583T elephone:800 726 4442 or925 328 4650T elefax:925 328 4700Web Site:Depending on sensor used.MAP (Modulated Average Power),PAP (Pulse Average Power),BAP (Burst Average Power).Specified performance applies with maximum averaging and 24 hour warm-up at constant temperature.Operates in Normal Mode only.Specifications subject to change without notice.。

CN CN CN CN CN CN CN CN CN CN CN CN CN CN CN CN CN CN CN CN CN CN CNCN使用说明书其他语种 无过载保护防爆漏电断路器 (RCCB)8530/1-RCCB 系列– 保存以备将来使用！ –内容目录1总体说明 (3)1.1制造商 (3)1.2关于本使用说明书 (3)1.3其他文档 (3)1.4标准和规定的符合性声明 (3)2符号说明 (4)2.1本使用说明书中的符号 (4)2.2设备上的符号 (4)3安全 (5)3.1设计用途 (5)3.2人员资格 (5)3.3残余风险 (6)4运输和仓储 (7)5产品选择、项目设计和修改 (7)5.1项目工程设计 (7)6装配和安装 (8)6.1安装/拆卸 (8)6.2装配 (10)7调试 (11)8运行 (11)8.1操作 (11)9维护、翻新、修理 (12)9.1维护 (12)9.2翻新 (12)9.3修理 (12)10退回 (13)11清洁 (13)12弃置处理 (13)13配件和备件 (13)14附录 A (14)14.1技术数据 (14)15附录 B (22)15.1设备设计 (22)15.2尺寸信息/固定尺寸 (23)2无过载保护防爆漏电断路器 (RCCB)8530/1-RCCB 系列299668 / 853********* 2023‐06‐27·BA00·III·zh·03总体说明3无过载保护防爆漏电断路器 (RCCB)8530/1-RCCB 系列1总体说明1.1制造商R.STAHL Schaltgeräte GmbHAm Bahnhof 3074638Waldenburg德国电话：+497942943-0传真：+497942943-4333网址：电子邮箱：****************1.2关于本使用说明书❝在使用前必须认真阅读本使用说明书，尤其是安全注意事项。

Features Benefits• 2000 tag simultaneous identificationProvides high-speed data collection to facilitate warehousing and inventory-based applications• 100 tag/sec. identification rate Provides reliable identification of fast moving objects• UHF operating frequencies Operates interchangeable on standard European ISM band frequencies• Multi-tag compatibility Provides communication for the whole smTAG UHF based tag families•A unique communication interface This unique feature of the FSK-Controller family makes it easy to build a controller network and to integrate it into almost any existing IT infrastructure• Internal BuzzerThe internal buzzer allows early, security network independent onsite alarming• Real-Time operating system Meets industrial requirements for reliability and robustness• SecurityHigh security system with use of sha-256 algorithm & frequencyThe mobile RC 550X family from smTAG is an intelligent ISM wireless UHF controller. It is ideal for high-volume two-way wireless applications, for remote control systems, for home security and alarm systems, for industrial applications such as telemetry, sensor data logging, for personal/patient data logging, barcode readers and automatic meter reading. It provides highly accurate, real-time data collection without human intervention in wireless applications like: Identification, Remote Control, Tracking and Tracing, Monitoring of Assets, Temperature, Vibration, Pressure and many more. • RC 5501: RS232 Interface •RC 5502: USB 2.0 • RC 5503: Ethernet • RC 5504: Bluetooth • RC 5505: WLAN •RC 5506: GSMBy integration of advanced UHF radio frequency technology from smTAG, the RC 550X transmits and receives data at distances of up to 100m (300 feet) from an TM 4300 and up to 40m (120 feet) from a TM 2200.The highly effective anti-collision handling algorithm allows simultaneous communication with thousands of tags within the controller read zone. Because of its low power consumption, RC 550X can effectively operate from the controller internal rechargeable battery pack.SMTAGSpecification RC 550XCompatibility TM, TC family PerformanceData rate ¹2.4 to 19.2 Kbs (programmable) UID receive rate – ID only 2 Bytes @ 19’200 Baud rate Up to 5’000 UID’s per second UID receive rate –128 bit data packets @ 57’600 Baud rate (UID + data)Up to 1’000 UID’s per second Stability/Filter (Data Integrity) 8 or 16 bit CRC CommunicationBase Frequency868MHz (EC) or 915MHz (US) ISM Band (factory preset) Modulation FSK Base Band Width 67 to 405 KHz Sensitivity ¹ - 61 to 103 dBm Channel4096 per base frequency Frequency/Channel hopping Programmable Number of antennas 1Certification EN 300 220 (EC); FCC part 15 (US) Micro controller Flash Memory 7 Kb Data RAM 64 BytesExternal EEPROM 256 Kb (data logging) ElectricalPowering5 volts DC power supply4 AAA batteries mounted on the inside (optional)Voltage 5 volts regulated Power consumption Active:Idle: Stand by:25 mA max. (during RF transmit operations) 1.5 mA 2 uA EnvironmentalOperating temperature -40ºC to +85ºC / -40ºF to +185ºF Storage temperature -40ºC to +85ºC / -40ºF to +185ºF Humidity 5% to 90% (non condensing) PhysicalDimensions 87 x 153 x 55 mm Weight 150 grams ColourGrey Type of material ABSsmTAG is a global supplier of innovative RFID Technology in the UHF band.With its unique system approach smtag provides an easy to implement set of products, which reduces the time for implementation dramatically.System integrators of industrial, medical and corporate solutions gets high quality products, which offers a max. return on investment.FSK-C product line increase efficiency and qualityTo learn more about how the FSK-Cproduct family can increase profitability for business, contact one of smtag’s business partnerPartner NetworkPartner Company DetailsCopyright © 2005 smtag international All rights reservedv.1.5 (10/05)¹ in the course of Q1/06 a PC based configuration application will be downloadable from “”。

芯片替代方案特瑞仕以激光修整法及0.1V台的电压设定±1%的高精度技术为基础，提供优良的封装产品。

特瑞仕的产品不光能对应封装形式的小型化，轻量化和薄型化的要求，而且可使客户更加自由地进行电路设计。

这些小型封装产品因为可减少外接部品，所以应用领域正不断扩大。

同时输出电流达到数安培的DC/DC转换器及产业用的中高电压领域的产品也正不断得到充实。

特瑞仕一直以市场分析能力和智力预测市场的需求，专业生产对应时代要求的电源IC。

长年从事并精通数码机器必不可少的模拟设计的工程师，正在进行其他公司所没有的独特的企划，开发和设计。

深圳市泰德兰电子有限公司是日本TOREX(特瑞仕)半导体在中国的授权一级代理商。

品牌TOREX芯片XC6221直接替代MAX8510EXKTOREX-XC6221带ON/OFF开关兼容低ESR电容的高速电压调整器TOREX-XC6221详细说明：XC6221系列是具有高精度, 低噪音, 高速度, 兼容低ESR电容, 采用CMOS工艺生产的低压差LDO电压调整器,内部包括参考电压源电路,误差放大器电路,过流保护电路和相位补偿电路。

XC6221系列可通过在使能端端子输入低电平信号使芯片工作于待机状态。

在该状态下,XC6221B/D系列可通过芯片内部电路实现输出端电容自动放电的功能,使得输出端电压VOUT迅速恢复到Vss。

XC6221系列的输出电压可在0.80~5.00V范围内,利用激光微调技术,可实现以0.05V为间隔自由选择。

XC6221系列内部的Fold Back 电路可提供过流和短路保护。

该系列还具有低功耗(TYP.25uA)和低压差的优点(80mV@100mA,VOUT(T)=3.0V),兼容低ESR的陶瓷电容。

当选用超小型的USP-4,USPN-4封装时,可进一步减少在电路板上面所需要的面积尺寸。

TOREX-XC6221特点：最大输出电流200mA 限流250mA TYP.输入输出电压差80mV@ IOUT=100mA VOUT=3.0V工作电压范围1.6V~6.0V输出电压范围0.80V~5.00V(0.05V间隔)精度±2% (VOUT≧1.50V)(标准),±30mV (VOUT≦1.45V)(标准),±1% (VOUT≧2.00V)(高精度),±20mV (VOUT≦1.95V)(高精度)低功耗25uA (TYP.)电源抑制比70db @ 1kHz封装SOT-25, SSOT-24, USP-4, USPN-4以下是TOREX型号可完全替代其他品牌的产品:TOREX品牌TOREX品牌XC9206 替代LT1616ES6 XC6204 替代TPS79318DBVRG4 XC9206 替代LTC1701 XC6210 替代TPS796XC9207 替代LTC1701 XC6221 替代TPS799XC9213B103VR 替代LT1776 XC6210 替代TVL1117XC9213B103VR 替代LT1976 XC6202 替代UA78L05AIPKXC9221 替代LTC1772 XC6202 替代UA78LXC9223B082AR 替代LTC1773 XC6202 替代UA78LXC9223B082AR 替代LTC3411 XC6202 替代UA78LXC9301A333MR 替代LTC3531 XC6202 替代UA78LXC9302 替代LTC3531 XB1117 替代TLV1117XC9236 替代MAX1733 XC6201 替代UA78LXC9237 替代MAX1733 XC6211 替代TPS731XC9103 替代MAX1722 XC62E 替代TPS799XC9105 替代MAX1722 XC6419 替代TPS71936XC9129 替代MAX1947 XC6406 替代TPS71936XC9201 替代MAX1652 XC6411 替代TPS71936XC9502 替代MAX1672 XC6412 替代TPS71936XC6367C503MR 替代MAX608 XC6415 替代TPS71936XC6368C 替代MAX608 XC6601 替代TPS721XC9104B095 替代MAX1722 XC6501 替代TPS732XC6365A303ER 替代MAX1920 XC6203 替代REG1117AXC6366C 替代MAX1920 XC6202 替代TL750LXC9213B103VR 替代MAX1684 XC6221 替代TPS721XC9301 替代MAX711 XC6215 替代TPS72118XC9302 替代MAX711 XC62KN 替代TPS723XC9128 替代MAX1947 XC6210 替代TPS731XC9235 替代MAX1733 XC6204 替代TPS760XC9221 替代MIC2193 XC6202 替代TK711XC9221A09AMR 替代MIC4690 XC6202 替代TK715XC9223B082AR 替代MIC3838 XC6501 替代TK637XC9220 替代MIC2193 XC6211 替代TK111XC9224 替代MIC3838 XC6206 替代TK116XC6368 替代TC110 XC6204 替代TK716XC9201 替代TC105 XC6221 替代SiP21110XC6372 替代TC115 XC6204 替代Si9183DTXC6366 替代TC105 XC6204 替代Si9184DTXC9235 替代LM3674 XC6202 替代ZMRXCM517 替代LM2717 XC6202 替代ZMRXC9208 替代LM3677 XC6202 替代ZMRXC9210 替代LM2650 XC6202 替代ZMRXC6371 替代LM2703 XC6204B 替代ZXCLXC9119D10AMR 替代LM2703 XC6202 替代S-813XC6365A303ER 替代LM3677 XC6209 替代S-814AXC9206A18MR 替代LM3677 XC6209 替代S-814AXC9207A18MR 替代LM3677 XC6209 替代S-814BXC9213B103VR 替代LM2594 XC6204B182MR 替代S-817B18AMC-CWH-T2 XC9213B103VR 替代LM2676 XC6215P152GR 替代S-817A15APFXC9213B103VR 替代LM2737 XC6206 替代S-817BXC9301 替代LM2716 XC6206 替代S-817BXC9302 替代LM2716 XC6209 替代S-818AXC9235 替代NCP1522 XC6221 替代S-1112BXC9236 替代NCP1522 XC6403 替代S-8750XC9237 替代NCP1522 XC6204 替代S-L2980AXC9103 替代NCP1406 XC6402 替代S-1701AXC9105 替代NCP1406 XC6402 替代S-1701AXC9106 替代NCP1403 XC6403/04 替代S-1701AXC9107 替代NCP1403 XC6403/04 替代S-1701AXC9201 替代NCP1550 XC6405 替代S-1701AXC9210 替代NCP1508 XC6405 替代S-1701AXC9111 替代NCP1400 XC6201 替代S-812CXC9104 替代NCP1406 XC6404 替代S-1701AXC911950AMR 替代NCP1402 XC6404 替代S-1701AXC9303 替代BD9300 XC6212 替代S-814AXC9103 替代R1210N XC6213 替代S-814AXC9105 替代R1210N XC6203/XC6206 替代S-1206XC9106 替代RH5RH XC6218 替代S-1206XC9107 替代RH5RH XC6203P332FR 替代SPX1129M3-3.3 XC9111 替代RN5RK XC6210 替代SP6205EM5XC9208 替代R5220 XC6202 替代LP2950XC9502 替代R1282D002A XC6204 替代TPS761XC9504 替代R1280D002X XC6204 替代TPS763XC9509 替代RP901 XC6204 替代TPS764XC9510 替代R5212D XC6204 替代TPS769XC9511 替代RP901 XC6221 替代TPS770XC6371 替代RH5RH XC6204 替代TPS789XC6371 替代RH5RH XC6209 替代TPS79118XC6373 替代RH5RH XC62EP 替代RN5RGXC9104 替代R1210N XC62H 替代RN5RGXC9110C501MR 替代RN5RK XC6419 替代R5325XC9236 替代RP500 XB1086 替代RN5RGXC9106 替代ST5R00 XC6411 替代R5325XC9107 替代ST5R00 XC6412 替代R5325XC6372 替代S-8324 XC6202 替代L78LXC6372 替代S-8328 XC6202 替代L78LXC6373 替代S-8324 XC6202 替代L78LXC9128 替代SP6648 XC6202 替代L78LXC9129 替代SP6648 XC6203 替代LD1117SXC9128 替代TPS61030 XC6204 替代LD2979MXC9128 替代TPS61010 XC6202 替代LD2979ZXC9236 替代TPS6220 XC6204 替代LD2980ABMXC9237 替代TPS6220 XC6201 替代LD2980ABUXC9103 替代TPS61040 XC6204 替代LD2980ACMXC9105 替代TPS61040 XC6201 替代LD2980ACUXC9129 替代TPS61010 XC6204 替代LD2981ABMXC9201 替代TL494 XC6201 替代LD2981ABUXC9208 替代TPS62202 XC6204 替代LD2981ACM XCM517 替代TPS62400 XC6201 替代LD2981ACUXC9224 替代TPS62040 XC6202 替代LEXC9104 替代TPS61040 XC6202 替代LM2931AZ/BZ XC9104 替代TPS61081DRCR XC6216 替代L4938XC6365B105MR 替代TPS62204 XE6216 替代L4938XC6365B105MR 替代TPS62202DBV XC6701B 替代L4938XC6365B105MR 替代TPS62203DBV XC6701D 替代L4938XC6366 替代TPS62203 XCM406 替代LDRXC9207A18MR 替代TPS62202 XC62KN 替代S-802XC9223B082AR 替代TPS62040 XC6202 替代S-812CXC9236 替代TL2575 XC6206 替代S-812CXC9206A18MR 替代TPS62202 XC6206 替代S-812CXC9122 替代TK11880 XC6206 替代S-812CXC9121 替代TK11880 XC6206 替代S-812CXC9120 替代TK11880 XC6202 替代S-813XC9210 替代SiP12201 XC6204 替代LP3985IM5XC9119 替代YB1508 XC62H 替代NCP584HSNXC6401 替代CAT6221 XC62E 替代NCP584HSNXC6206 替代S1F78100Y2H0 XC6404 替代NCP400FCT2G XC6217 替代FAN2502S XB1086 替代LM317MBDTRK XC6219 替代FAN2502S XC6202 替代LM2931CDXC62H 替代FAN2502S XC6202 替代LM2931ZXC62E 替代FAN2502S XC6202 替代LP2950XB1085 替代KA78 XC6202 替代LP2950CZXB1086 替代KA78 XB1086 替代MC33269DTRK XC6205 替代FAN2502S XC6203 替代MC33275STXC6212 替代FAN2500S XC6204 替代MC33761XC6213 替代FAN2500S XC6206 替代MC78FCXC6203 替代FAN1117AS XC6203 替代MC78LCXC6209 替代FAN2500S XC6202 替代MC78LXC6204 替代FAN2502S XC6204 替代MC78PCXC6204 替代FAN2504S25 XC6206 替代MC78RCXC6204 替代FAN2508S XC6217 替代NCP584HSNXC6206 替代ILC7062CM XC6203 替代SC5201-1GSTR3XC6206 替代ILC7062CP XC6402 替代NCP400FCT2G XC62HR 替代ILC7070HCM XC6403/04 替代NCP400FCT2G XC6204 替代ILC7080AIM5 XC6405 替代NCP400FCT2G XC6204 替代ILC7081AIM5 XC6401 替代NCP583XVXC6204 替代ILC7082AIM5 XC6214 替代MC78LCXC62KN 替代ILC7362CM XC6219 替代NCP584HSN XC62KN 替代ILC7362CM XC6219 替代BAXC62KN 替代ILC7362CP XC6219 替代BA0XC6202 替代KA78L XC6206 替代RE5REXC62KN 替代MC79 XC6206 替代RH5RLXC6203 替代RC1117S XC6206 替代RE5RLXC6207 替代FAN2502S XC6206 替代RE5RLXC6215 替代ILC7062CP XC6401CH 替代LP3988IMX XCM406 替代TLE4476 XC6403DH 替代LP3988IMFXC6212 替代IRU1205 XC6210B122DR 替代LP3990TLXC6213 替代IRU1205 XC6210B122DR 替代LP3990MFXC6209 替代IRU1205 XC6221A182MR 替代LP3990MFXC6210 替代IRU1205 XC6202 替代LM2931AZXC6211 替代IRU1205 XC6214 替代LM1117MPX XC6221 替代IRU1205 XC6419 替代LP5996XC6203 替代LT1117CST XC6411 替代LP5996XC6203 替代LT1117IST XC6412 替代LP5996XC6202 替代LT1118CST XC6415 替代LP5996XC6202 替代LT1118IST XB1086 替代LM1086CSXC6203 替代LT1121CST XB1117 替代LM1117SXC6203 替代LT1121IST XB1117 替代LM1117MPX XC6202 替代LT1129CST XC6203 替代LM1117MPX XC6202 替代LT1129IST XC6202 替代LM2936ZXC62KN 替代LT1175CS8 XB1117 替代LM340SXC6202 替代LT1461ACS8 XC6202 替代LM340LAZXC6202 替代LT1521CS8 XC6202 替代LM3480IM3XC6202 替代LT1521CST XC6203 替代LM3940IMP-3.3 XC6202 替代LT1521IST XC6202 替代LM78LXC6204 替代LT1761ES5 XC6404 替代LMS5258MF XC6204 替代LT1964ES5 XC6202 替代LP2950XC6204 替代LTC1844ES5 XC6204 替代LP2978XC6203 替代LT1117CST XC6204 替代LP2980AIM5 XC6207 替代LT1761ES5 XC6204 替代LP2980IM5XC6217 替代LT1761ES5 XC6204 替代LP2980IM5X XC6219 替代LT1761ES5 XC6204 替代LP2981AIM5 XC6205 替代MAX8877EUK XC6204 替代LP2981IM5XC6212 替代MAX1598EZK XC6204 替代LP2982AIM5 XC6213 替代MAX1598EZK XC6204 替代LP2982IM5XC6210 替代MAX8877EUK XC6204 替代LP2985AIM5XC6211 替代MAX8877EUK XC6204 替代LP2985IM5 XC6217 替代MAX8877EUK XC6204 替代LP3984IBP XC6219 替代MAX8877EUK XC6403 替代LP3982 XC62H 替代MAX8877EUK XC6204 替代LP3985IBL XC6209 替代MAX1598EZK XC6415 替代MIC5371 XC6210B252MR 替代MAX1792EUA25 XCM406 替代MIC5264 XC6210B332MR 替代MAX1792EUA33 XC8101 替代MIC94060 XC6402 替代MAX1818EUT XC6601 替代MCP1727 XC6210B33MR 替代MAX1818EUT33 XC6213 替代TC1014 XC6221 替代MAX8510EXK XC6212 替代TC1014 XC6401 替代MAX8559 XC62KN 替代TC59XC6209 替代MAX8863TEUK XC62KN 替代TC59XC6209 替代MAX8867EUK XC62EP 替代TC57XC6405 替代MAX8875EUK XC6206 替代TC55RP XC6204 替代MAX8877EUK XC6206 替代TC55RP XC6207 替代MAX8878EUK XC6206 替代TC55RP XC6401 替代MAX8882EUT XC6203 替代TC1264 XC6209 替代MAX8887EZK XC6207 替代TC1014 XC6207 替代MIC5203 XC6217 替代TC1014 XC6214 替代MIC39100 XC6206 替代MCP1700T XC6202 替代LP2950-02BZ XC6209 替代TC1014 XC6202 替代LP2950-03BZ XC6209 替代TC1015 XC6203 替代MIC2920A XC6209 替代TC1185 XC6202 替代MIC2950-05BZ XC6203 替代TC1262 XC6202 替代MIC2950-06BZ XC6204 替代LX8211 XC6202 替代MIC2954-02BZ XC6215 替代MC78LC00 XC6202 替代MIC2954-03BZ XC6210 替代MC78M00 XB1117 替代MIC37100 XC6204 替代MIC5245 XC6203 替代MIC39100 XC6204 替代MIC5247 XC6204 替代MIC5203 XC6221 替代MIC5253 XC6204 替代MIC5207 XC6221 替代MIC5255 XC6202 替代MIC5207 XC6221 替代MIC5259 XC6203 替代MIC5209 XC6204 替代MIC5305 XC6214 替代MIC5209 XC6419 替代MIC5371 XC6204 替代MIC5219 XB1086 替代MIC39100 XB1117 替代MIC5239 XC6205 替代MIC5203 XC6412 替代MIC5371 XC6411 替代MIC5371。

Eaton 198552Eaton Moeller® series Rapid Link - Speed controller, 2.4 A, 0.75 kW, Sensor input 4, 230/277 V AC, AS-Interface®, S-7.4 for 31 modules, HAN Q5, with manual override switch, with braking resistanceEaton Moeller® series Rapid Link Speed controller198552RASP5-2402A31-512R100S14015081964277157 mm 270 mm 220 mm 3.59 kgUL approval CEUL 61800-5-1 IEC/EN 61800-5-1 RoHSProduct NameCatalog NumberModel CodeEANProduct Length/Depth Product Height Product Width Product Weight Certifications Catalog Notes 3 fixed speeds and 1 potentiometer speedcan be switched over from U/f to (vector) speedParameterization: drivesConnect mobile (App)Diagnostics and reset on device and via AS-Interface Parameterization: FieldbusParameterization: drivesConnectParameterization: KeypadBreaking resistanceKey switch position AUTOKey switch position HANDTwo sensor inputs through M12 sockets (max. 150 mA) for quick stop and interlocked manual operationBraking resistanceInternal DC linkSelector switch (Positions: REV - OFF - FWD)IGBT inverterKey switch position OFF/RESETControl unitPC connectionManual override switchPTC thermistor monitoringThermo-click with safe isolation4-quadrant operation possible3 fixed speedsFor actuation of motors with mechanical brake1 potentiometer speedBrake chopper with braking resistance for dynamic brakingIP65NEMA 121st and 2nd environments (according to EN 61800-3) IIISpeed controllerVertical15 g, Mechanical, According to IEC/EN 60068-2-27, 11 ms, Half-sinusoidal shock 11 ms, 1000 shocks per shaftResistance: According to IEC/EN 60068-2-6Resistance: 57 Hz, Amplitude transition frequency onaccelerationResistance: 10 - 150 Hz, Oscillation frequencyFeaturesFitted with:FunctionsDegree of protection Electromagnetic compatibility Overvoltage category Product categoryMounting positionShock resistanceVibrationcontrolConnection ofsupply voltagevia adaptercable on roundor flexiblebusbar junctionDiagnostics andreset on deviceand via AS-Interfaceintegrated PTCthermistormonitoring andThermoclick withsafe isolationoptional: 4sensor inputswith M12-Yadapter forswitchover tocreep speedoptional: Fasterstop if external24 V failsTwo sensorinputs throughM12 sockets(max. 150 mA)for quick stopand interlockedmanualoperationwith AUTO -OFF/RESET -HAND keyswitcheswith selectorswitch REV -OFF - FWDASIAS-Interface profile cable: S-7.4 for 31 modulesC2, C3: depending on the motor cable length, the connected load, and ambient conditions. External radio interference suppression filters (optional) may be necessary.C1: for conducted emissions only2000 VAC voltageCenter-point earthed star network (TN-S network)Phase-earthed AC supply systems are not permitted.Resistance: 6 Hz, Amplitude 0.15 mmMax. 2000 mAbove 1000 m with 1 % performance reduction per 100 m -10 °C40 °C-40 °C70 °C< 95 %, no condensationIn accordance with IEC/EN 501780.2 - 2.4 A, motor, main circuit Adjustable, motor, main circuit< 10 ms, Off-delay< 10 ms, On-delay97 % (η)2.5 A3.5 mA120 %Maximum of one time every 60 seconds380 V 1 HP≤ 0.6 A (max. 6 A for 120 ms), Actuator for external motor brake≤ 30 % (I/Ie)Adjustable to 100 % (I/Ie), DC - Main circuit230/277 V AC -15 % / +10 %, Actuator for external motor brake 765 VDCProtocolRadio interference classRated impulse withstand voltage (Uimp) System configuration type AltitudeAmbient operating temperature - min Ambient operating temperature - max Ambient storage temperature - min Ambient storage temperature - max Climatic proofingCurrent limitationDelay timeEfficiencyInput current ILN at 150% overload Leakage current at ground IPE - max Mains current distortionMains switch-on frequencyMains voltage - min Assigned motor power at 460/480 V, 60 Hz, 3-phase Braking currentBraking torqueBraking voltageSwitch-on threshold for the braking transistor480 V380 - 480 V (-10 %/+10 %, at 50/60 Hz)Sensorless vector control (SLV)PM and LSPM motorsU/f controlSynchronous reluctance motorsBLDC motors0 Hz500 HzFor 60 s every 600 sAt 40 °C3.6 A45 Hz66 Hz2.4 A at 150% overload (at an operating frequency of 8 kHz and an ambient air temperature of +40 °C)0.75 kW400 V AC, 3-phase480 V AC, 3-phase0.1 Hz (Frequency resolution, setpoint value)200 %, IH, max. starting current (High Overload), For 2 seconds every 20 seconds, Power section50/60 Hz 10 kAType 1 coordination via the power bus' feeder unit, Main circuit230/277 V AC (external brake 50/60 Hz)24 V DC (-15 %/+20 %, external via AS-Interface® plug)AS-InterfacePlug type: HAN Q5Specification: S-7.4 (AS-Interface®)Number of slave addresses: 31 (AS-Interface®)Max. total power consumption from AS-Interface® power supply unit (30 V): 190 mAC3 ≤ 25 m, maximum motor cable lengthC1 ≤ 1 m, maximum motor cable lengthC2 ≤ 5 m, maximum motor cable lengthMeets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Mains voltage - maxMains voltage toleranceOperating modeOutput frequency - minOutput frequency - maxOverload currentOverload current IL at 150% overloadRated frequency - minRated frequency - maxRated operational current (Ie)Rated operational power at 380/400 V, 50 Hz, 3-phase Rated operational voltageResolutionStarting current - maxSupply frequencySwitching frequency Rated conditional short-circuit current (Iq)Short-circuit protection (external output circuits)Rated control voltage (Uc)Communication interfaceConnectionInterfacesCable length10.2.2 Corrosion resistance10.2.3.1 Verification of thermal stability of enclosures10.2.3.2 Verification of resistance of insulating materials to normal heat10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects8 kHz, 4 - 32 kHz adjustable, fPWM, Power section, Main circuitAC voltageCenter-point earthed star network (TN-S network)Phase-earthed AC supply systems are not permitted.Meets the product standard's requirements.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.The panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Is the panel builder's responsibility. The specifications for the switchgear must be observed.System configuration type10.2.4 Resistance to ultra-violet (UV) radiation10.2.5 Lifting10.2.6 Mechanical impact10.2.7 Inscriptions10.3 Degree of protection of assemblies10.4 Clearances and creepage distances10.5 Protection against electric shock10.6 Incorporation of switching devices and components10.7 Internal electrical circuits and connections10.8 Connections for external conductors10.9.2 Power-frequency electric strength10.9.3 Impulse withstand voltage10.9.4 Testing of enclosures made of insulating material10.10 Temperature rise10.11 Short-circuit ratingIs the panel builder's responsibility. The specifications for the switchgear must be observed.The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.ETN.RASP5-2402A31-512R100S1.edzramo5_v20.dwgrasp5_v20.stpeaton-bus-adapter-rapidlink-speed-controller-dimensions-004.eps eaton-bus-adapter-rapidlink-speed-controller-dimensions-003.eps eaton-bus-adapter-rapidlink-speed-controller-dimensions-002.eps eaton-bus-adapter-rapidlink-speed-controller-dimensions-005.epsRapid Link 5 - brochureDA-SW-drivesConnect - InstallationshilfeDA-SW-USB Driver PC Cable DX-CBL-PC-1M5DA-SW-Driver DX-CBL-PC-3M0DA-SW-USB Driver DX-COM-STICK3-KITDA-SW-drivesConnect - installation helpDA-SW-drivesConnectMaterial handling applications - airports, warehouses and intra-logisticsIL034085ZUGeneration change from RA-SP to RASP 4.0Generation change RAMO4 to RAMO5Generation change from RA-MO to RAMO 4.0Configuration to Rockwell PLC for Rapid LinkGeneration Change RA-SP to RASP5Generation Change RASP4 to RASP5DA-DC-00004184.pdfDA-DC-00004508.pdfDA-DC-00004514.pdfDA-DC-00003964.pdf10.12 Electromagnetic compatibility10.13 Mechanical functioneCAD modelmCAD model,Eaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All Rights Reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia。

高绝缘等级模块 采用第三代沟槽栅/场终止IGBT3和第三代发射极控制二极管特性•电气特性-V CES = 4500 V-I C nom = 800 A / I CRM = 1600 A -高直流电压稳定性-高动态稳定性-高短路能力-低 V CEsat -沟槽栅IGBT3-V CEsat 带正温度系数•机械特性-碳化硅铝 (AlSiC) 基板提供更高的温度循环能力-高爬电距离和电气间隙-绝缘的基板-封装的 CTI > 600-加强绝缘封装，10.4kV 交流 60 秒可选应用•电机传动•牵引变流器•多电平逆变器•大功率变流器•中压变流器产品认证•根据 IEC 60747、60749 和 60068标准的相关测试，符合工业应用的要求。

描述FZ800R45KL3_B5高绝缘等级模块内容描述 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1特性 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1可选应用 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1产品认证 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1内容 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 1封装 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 2IGBT, 逆变器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 3二极管,逆变器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 4特征参数图表 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 5电路拓扑图 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 6封装尺寸 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 7模块标签代码 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12修订历史 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13免责声明 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .141封装表 1绝缘参数特征参数代号标注或测试条件数值单位绝缘测试电压V ISOL RMS, f = 50 Hz, t = 60 s10.4kV 局部放电熄弧电压V isol RMS, f = 50 Hz, Q PD≤ 10 pC 3.5kV DC 稳定性V CE(D)T vj=25°C, 100 Fit3000V 模块基板材料AlSiC内部绝缘基本绝缘 (class 1, IEC 61140)AlN爬电距离d Creep端子至散热器64.0mm 爬电距离d Creep端子至端子56.0mm 电气间隙d Clear端子至散热器40.0mm 电气间隙d Clear端子至端子26.0mm 相对电痕指数CTI > 600表 2特征值特征参数代号标注或测试条件数值单位最小值典型值最大值杂散电感,模块L sCE20nH 模块引线电阻,端子-芯片R CC'+EE'T C=25°C, 每个开关0.18mΩ储存温度T stg-55125°C 模块安装的安装扭距M根据相应的应用手册进行安装M6, 螺丝 4.25 5.75Nm端子安装扭矩M根据相应的应用手册进行安装M4, 螺丝 1.8 2.1Nm M8, 螺丝810重量G1000g 注:The maximum allowed dv/dt measured between 0,6 and 1×Vce is 2400V/µs.2IGBT, 逆变器表 3最大标定值特征参数代号标注或测试条件数值单位集电极－发射极电压V CES T vj = -40 °C4500VT vj = 25 °C4500T vj = 125 °C4500连续集电极直流电流I CDC T vj max = 150 °C T C = 80 °C800A (待续)表 3(续) 最大标定值特征参数代号标注或测试条件数值单位集电极重复峰值电流I CRM t p受限于 T vj op1600A 栅极－发射极峰值电压V GES±20V 表 4特征值特征参数代号标注或测试条件数值单位最小值典型值最大值集电极－发射极饱和电压V CE sat I C = 800 A, V GE = 15 V T vj = 25 °C 2.50 2.85VT vj = 125 °C 3.10 3.70栅极阈值电压V GEth I C = 70.5 mA, V CE = V GE, T vj = 25 °C 5.406 6.60V 栅极电荷Q G V GE = ±15 V, V CE = 2800 V26.5µC 内部栅极电阻R Gint T vj = 25 °C 1.1Ω输入电容C ies f = 1000 kHz, T vj = 25 °C, V CE = 25 V, V GE = 0 V185nF 反向传输电容C res f = 1000 kHz, T vj = 25 °C, V CE = 25 V, V GE = 0 V 3.1nF 集电极-发射极截止电流I CES V CE = 4500 V, V GE = 0 V T vj = 25 °C5mA 栅极-发射极漏电流I GES V CE = 0 V, V GE = 20 V, T vj = 25 °C400nA开通延迟时间(感性负载)t don I C = 800 A, V CE = 2800 V,V GE = ±15 V, R Gon = 1 ΩT vj = 25 °C0.580µs T vj = 125 °C0.600上升时间(感性负载)t r I C = 800 A, V CE = 2800 V,V GE = ±15 V, R Gon = 1 ΩT vj = 25 °C0.190µs T vj = 125 °C0.220关断延迟时间(感性负载)t doff I C = 800 A, V CE = 2800 V,V GE = ±15 V, R Goff = 7.5 ΩT vj = 25 °C 6.600µs T vj = 125 °C 6.900下降时间(感性负载)t f I C = 800 A, V CE = 2800 V,V GE = ±15 V, R Goff = 7.5 ΩT vj = 25 °C0.350µs T vj = 125 °C0.450开通时间（阻性负载）t on_R I C = 500 A, V CE = 2000 V,V GE = ±15 V, R Gon = 1 ΩT vj = 25 °C 1.80µs开通损耗能量 (每脉冲)E on I C = 800 A, V CE = 2800 V,Lσ = 95 nH, V GE = ±15 V,R Gon = 1 Ω, di/dt = 3300A/µs (T vj = 125 °C)T vj = 25 °C3100mJ T vj = 125 °C4100关断损耗能量 (每脉冲）E off I C = 800 A, V CE = 2800 V,Lσ = 95 nH, V GE = ±15 V,R Goff = 7.5 Ω, dv/dt =2000 V/µs (T vj = 125 °C)T vj = 25 °C2800mJ T vj = 125 °C3400短路数据I SC V GE≤ 15 V, V CC = 2800 V,V CEmax=V CES-L sCE*di/dt t P≤ 10 µs,T vj≤ 125 °C4600A(待续)表 4(续) 特征值特征参数代号标注或测试条件数值单位最小值典型值最大值结－外壳热阻R thJC每个 IGBT11.1K/kW 外壳－散热器热阻R thCH每个 IGBT13.5K/kW 允许开关的温度范围T vj op-50125°C3二极管,逆变器表 5最大标定值特征参数代号标注或测试条件数值单位反向重复峰值电压V RRM T vj = -40 °C4500VT vj = 25 °C4500T vj = 125 °C4500连续正向直流电流I F800A 正向重复峰值电流I FRM t P = 1 ms1600A I2t-值I2t t P = 10 ms, V R = 0 V T vj = 125 °C255kA²s 最大损耗功率P RQM T vj = 125 °C1600kW 最小开通时间t onmin10µs表 6特征值特征参数代号标注或测试条件数值单位最小值典型值最大值正向电压V F I F = 800 A, V GE = -15 V T vj = 25 °C 2.50 3.10VT vj = 125 °C 2.50 3.00反向恢复峰值电流I RM V R = 2800 V, I F = 800 A,V GE = -15 V, -di F/dt =3300 A/µs (T vj = 125 °C)T vj = 25 °C1000A T vj = 125 °C1150恢复电荷Q r V R = 2800 V, I F = 800 A,V GE = -15 V, -di F/dt =3300 A/µs (T vj = 125 °C)T vj = 25 °C770µC T vj = 125 °C1400反向恢复损耗（每脉冲）E rec V R = 2800 V, I F = 800 A,V GE = -15 V, -di F/dt =3300 A/µs (T vj = 125 °C)T vj = 25 °C1200mJ T vj = 125 °C2400结－外壳热阻R thJC每个二极管25.5K/kW 外壳－散热器热阻R thCH每个二极管21.0K/kW 允许开关的温度范围T vj op-50125°C5电路拓扑图图 16 封装尺寸6封装尺寸Array图 27 模块标签代码7模块标签代码图 3修订历史修订历史修订版本发布日期变更说明V1.02011-10-21Target datasheetV1.12012-09-07Target datasheetV2.02013-05-27Preliminary datasheetV3.02013-05-27Final datasheetV3.12013-05-28Final datasheetV3.22018-01-15Final datasheetV3.32019-08-23Final datasheetn/a2020-09-01Datasheet migrated to a new system with a new layout and new revisionnumber schema: target or preliminary datasheet = 0.xy; final datasheet =1.xy1.102021-10-25Final datasheet1.202022-07-17Final datasheetTrademarksAll referenced product or service names and trademarks are the property of their respective owners.Edition 2022-07-17Published byInfineon Technologies AG 81726 Munich, Germany© 2022 Infineon Technologies AG All Rights Reserved.Do you have a question about any aspect of this document? Email: ********************Document referenceIFX-AAW981-009重要提示本文档所提供的任何信息绝不应当被视为针对任何条件或者品质而做出的保证（质量保证）。

XC4000ELogic Cell Array Family®Product PreviewDeviceXC4003E XC4005E XC4006E XC4008E XC4010E XC4013E XC4020E XC4025E Appr. Gate Count 3,0005,0006,0008,00010,00013,00020,00025,000CLB Matrix10 x 1014 x 1416 x 1618 x 1820 x 2024 x 2428 x 2832 x 32Number of CLBs 1001962563244005767841,024Number of Flip-Flops3606167689361,1201,5362,0162,560Max Decode Inputs (per side)3042485460728496Max RAM Bits 3,2006,2728,19210,36812,80018,43225,08832,768Number of IOBs80112128144160192224256Table 1. The XC4000E Family of Field-Programmable Gate Arrays DescriptionThe XC4000E family of Field-Programmable Gate Arrays (FPGAs) provides the benefits of custom CMOS VLSI,while avoiding the initial cost, time delay, and inherent risk of a conventional masked gate array.The XC4000E family provides a regular, flexible, pro-grammable architecture of Configurable Logic Blocks (CLBs), interconnected by a powerful hierarchy of versa-tile routing resources, and surrounded by a perimeter of programmable Input/Output Blocks (IOBs).XC4000E devices have generous routing resources to accommodate the most complex interconnect patterns.They are customized by loading configuration data into the internal memory cells. The FPGA can either actively read its configuration data out of external serial or byte-parallel PROM (master modes), or the configuration data can be written into the FPGA (slave and peripheral modes).The XC4000E family is supported by powerful and sophis-ticated software, covering every aspect of design: from schematic entry, to simulation, to automatic block place-ment and routing of interconnects, and finally the creation of the configuration bit stream.FPGAs are ideal for shortening the design and develop-ment cycle, but they also offer a cost-effective solution for production rates well beyond 1,000 systems per month.The XC4000E family is a superset of the popular XC4000family. For a detailed description of the device architec-ture, configuration methods, pin functionality, package pin-outs and dimensions, see the Xilinx Programmable Logic Data Book.The following pages describes the new features of the XC4000E family and list electrical and timing parameters.Features•Third Generation Field-Programmable Gate Arrays –On-chip ultra-fast RAM with synchronous write option –Dual-port RAM option –Fully PCI compliant –Abundant flip-flops–Flexible function generators–Dedicated high-speed carry-propagation circuit –Wide edge decoders (four per edge)–Hierarchy of interconnect lines –Internal 3-state bus capability–8 global low-skew clock or signal distribution network •Flexible Array Architecture–Programmable logic blocks and I/O blocks–Programmable interconnects and wide decoders •Sub-micron CMOS Process–High-speed logic and Interconnect –Low power consumption •Systems-Oriented Features–IEEE 1149.1-compatible boundary-scan logic support –Programmable output slew rate (2 modes)–Programmable input pull-up or pull-down resistors –12-mA sink current per output –24-mA sink current per output pair •Configured by Loading Binary File –Unlimited reprogrammability –Six programming modes•XACT Development System runs on ’386/’486/Pentium-type PC, Apollo, Sun-4, and Hewlett-Packard 700 series–Interfaces to popular design environments like Viewlogic, Mentor Graphics and OrCAD–Fully automatic partitioning, placement and routing –Interactive design editor for design optimization –288 macros, 34 hard macros, RAM/ROM compilerXC4000E Logic Cell Array FamilyIOB Clock EnableThe two flip-flops in each IOB have a common clock enable input,which through configuration can be activated indi-vidually for the input or output flip-flop or both. This clock enable operates exactly like the EC pin on the XC4000CLB. This makes the IOBs more versatile, and avoids the need for clock gating.Output DriversThe output pull-up structure can be globally configured to be either a TTL-like totem-pole (n-channel pull-up transis-tor, pulling to a voltage one threshold below Vcc, just like XC4000) or to be CMOS (p-channel pull-up transistor pulling to Vcc). Also, the configurable pull-up resistor in XC4000E is a p-channel transistor that pulls to Vcc,whereas in XC4000 it is an n-channel transistor that pulls to a voltage one threshold below Vcc.Input ThresholdsThe input thresholds can be globally configured for either TTL ( 1.2 V threshold) or CMOS ( 2.5 V threshold ), just like XC2000 and XC3000 inputs. Note that the two global adjustments of input threshold and output level are inde-pendent of each other.Global Signal Access to LogicThere is additional access from global clocks to the F and G function generator inputs.Mode-Pin Pull-Up ResistorsDuring configuration, the three mode pins, M0, M1, and M2, have weak pull-up resistors. For the most popular configuration mode, Slave Serial, the mode pins can thus be left unconnected.For user mode, the three mode inputs can individually be configured with or without weak pull-up or pull-down resistorsThe PROGRAM input pin has a permanent weak pull-up.Soft StartupLike XC3000A, the XC4000E family has “Soft Startup”.When the configuration process is finished and the device starts up in user mode, the first activation of the outputs is automatically slew-rate limited. This avoids the potential ground bounce when all outputs are turned on simulta-neously. After start-up, the slew rate of the individual outputs is, as in the XC4000 family, determined by the individual configuration option.XC4000E compared to XC4000Any XC4000E device is a 100% compatible superset of the equivalent XC4000 device, not only functionally, but also electrically, and in pin-out and configuration bitstream.The XC4000E devices have the following additional func-tions, most of which are invoked through options in the configuration bitstream:Synchronous RAMThe two RAMs in any CLB can be changed to synchronous write operation. In this synchronous mode, the internal write operation is controlled by the same clock that drives the flip-flops. The clock polarity is programmable for the RAM (both F and G function generators together), but is independent of the chosen flip-flop polarity. Address,Data, and WE inputs are latched by this rising or falling clock edge, and a short internal write pulse is generated right after the clock edge. This self-timed write operation is thus effectively edge-triggered.The read operation is not affected by this change to a synchronous write.Dual-Port RAMA separate option converts the 16 x 2 RAM in any CLB into a 16 x 1 dual-port RAM. In this mode, any operation that writes into the F-RAM, automatically also writes into the G-RAM, using the F address. The G-address can, therefore,not be used to write into the G-RAM.The CLB can thus be used as an asymmetrical dual-port RAM, with F being the read address for the F-RAM and the write address for both F- and G-RAM, while G is the read address for the G-RAM. Note that F and G can still be independent read addresses, as they are in XC4000. The two RAMs together have one read/write port using the F address, and one read-only port using the G address.Each CLB can be configured as function generators either asynchronous single-port, synchronous single-port, or synchronous dual-port.H-Function GeneratorIn XC4000E, the H function generator is more versatile. Its inputs can come not only from the F and G function generators but also from up to three control input lines.The H function generator can be totally or partially inde-pendent of the other two function generators.IOB Switching Characteristic GuidelinesTesting of the switching parameters is modeled after testing methods specified by MIL-M-38510/605. All devices are 100%functionally tested. Since many internal timing parameters cannot be measured directly, they are derived from benchmark timing patterns. The following guidelines reflect worst-case values over the recommended operating conditions. For more detailed, more precise, and more up-to-date timing information, use the values provided by the XACT timing calculator and used in the simulator.* Timing is based on the XC4005E. For other devices see XACT timing calculator.** See preceding pageNotes: 1.Timing is measured at pin threshold, with 50 pF external capacitive loads (incl. test fixture). Slew rate limited outputrise/fall times are approximately two times longer than fast output rise/fall times. For the effect of capacitive loads on ground bounce, see pages 8-8 through 8-10.2.Voltage levels of unused (bonded and unbonded) pads must be valid logic levels. Each can be configured with the internal pull-up or pull-down resistor or alternatively configured as a driven output or be driven from an external source.3.Input pad setup times and hold times are specified with respect to the internal clock (IK). To calculate system setup time,subtract clock delay (clock pad to IK) from the specified input pad setup time value, but do not subtract below zero.Negative hold time means that the delay in the input data is adequate for the external system hold time to be zero,provided the input clock uses the Global signal distribution from pad to IK.XC4000E Logic Cell Array FamilyCLB Switching Characteristic GuidelinesTesting of the switching parameters is modeled after testing methods specified by MIL-M-38510/605. All devices are 100% functionally tested. Since many internal timing parameters cannot be measured directly, they are derived from benchmark timing patterns. The following guidelines reflect worst-case values over the recommended operating conditions. For more detailed, more precise, and more up-to-date timing information, use the values provided by the XACT timing calculator and used in the simulator.*Timing is based on the XC4005E. For other devices see XACT timing calculator.。

CDB9NTC塑料外壳式断路器使用说明书符合标准：GB/T 14048.2 安装、使用产品前，请仔细阅读使用说明书并妥善保管、备用目录1主要用途及适用范围 (1)2 产品特点、型号及含义 (1)2.1产品特点 (1)2.2产品型号及含义 (1)2.3面板介绍 (1)3 正常工作条件和安装条件 (2)4 正常贮存和运输条件 (2)5安装及接线 (3)5.1安装示意图.............................................................................. 错误!未定义书签。

5.2接线示意图............................................................................ 错误!未定义书签。

6技术特性 .. (4)6.1分类 (4)6.2主要技术参数 (4)6.3主要技术性能 (4)7 外形及安装尺寸 (5)8 安装和使用（维护） (6)9 注意事项 (6)10 开箱检查 (7)11 公司承诺 (7)1主要用途及适用范围CDB9NTC塑料外壳式断路器是一种具有过载与短路双重保护的限流型高分断塑料外壳式断路器，其适用于交流50/60Hz，额定电压1P AC 230V/240V DC 80V、2P AC 400V/415V DC125V、3P-4P AC 400V/415V ，额定电流1A-63A的电路中，它主要在配电系统中作线路的过载、短路保护之用。

2 产品特点、型号及含义2.1 产品特点a) 过载保护；b) 短路保护；c) 多种电流规格。

2.2 产品型号及含义:Icu=6KA2.3 面板介绍图1说明：1认证标志2选择性类别、额定频率、不适用于IT系统3符合标准4分断能力5电源端6公司商标7产品型号8电流规格9额定电压10额定冲击耐受电压11瞬时脱扣类型、额定瞬时短路电流整定值12接线图13指示窗14 负载端注：正常分合闸手柄时，如指示窗不同步运动，请停止使用。