P6BU-2405Z中文资料

B /l-"' A2 1'rTHIS COPY IS PROVIDED ON A RESTRICTED BASIS AND IS NOT TO BE USED IN ANY WAY DETRIMENTAL TO THE INTERESTS OF PANDUIT CORP.•g •1·,{ 1 I20A, SINGLE-POLEELECTRO MECHANICALSWITCH/ BREAKER (6)PL � 7B27 B37 B47 B57 B671:I•ol1·1·�·11·�·11·�·1! 18 !C:8 !£8 1·�·11·�·11·�·1!�8 !S8 !98REAR VIEW443.0[17.44]•IL 10 197.4[7.77]OJI• •TOP VIEW -lHJ481.0 SEE PLUG OPTIONS[18.94] �/SEE SHEET 2 FOR LOAD BANK DESIGNATIONS�1:=mB1� J I-� I-� 94�I-� I-� I ct> �!!a,! �I465.0I [18.31] IPLUG/RECEPTACLE BLOCK FRONT VIEWIEC 60309, 4P 5W, 6HIP67 (WATERTIGHT)30A, 346-415V MAXRATED INPUT24A DERATEDf3IEC 60309, 4P 5W, 6HIEC 60320/C19IP44 (SPLASHPROOF)30A, 346-415V MAX 16A, 250V MAXRATED INPUT RATED OUTPUT24A DERATEDNEMA L22-30P, 4P 5W30A, 277-480V MAXRATED INPUT24A DERATED01A 3/21/2019 WAC DACU JAWIREV DATE BY CHK APR2T 35.2I127.0 ---j 15.0FOR LENGTH I[1.39] I[5.00]®f-.[.59] ♦SEE SHEET 2PART NUMBERTABLE ]: ® I�19.; J [.76] SIDE VIEWRELEASED TO PRODUCTION P06BDESCRIPTION ECN'(71 IPANDUIT P/N WEIGHTI P06B##M-XXYZ SEE SHEET 2SPECIFICATION:1. STANDARDUNIT TYPE:ORIENTATION:OUTLET QTY & TYPEINPUT VOLTAGE:INPUT CURRENT:BREAKER QTY & TYPE:INPUT PHASE:RATED POWER:INPUT PLUGINPUT POWER CORD:BASICHORIZONTAL, 1USEE SHEET 2 FOR CONFIGURATIONS200-240/346-415VAC30A (24A DERATED)(6) 20A, SINGLE-POLETHREE-PHASE WYE17.3 kVASEE SHEET 2 FOR CONFIGURATIONSSEE SHEET 2FOR PART NUMBERTABLEREGULATORY STANDARD: RoHS COMPLIANT2. ADDITIONALCIRCUIT BREAKERS RATED AT 10kAIC3. ACCESSORIES:(1) QUICK-START GUIDENOTES:1. PRIMARY DIMENSIONS ARE IN MILLIMETERS. SECONDARYDIMENSIONS ARE IN IINCHES]2 .INSTALLATION SHALL COMPLY WITH ALL APPLICABLENATIONAL, STATE, AND LOCAL CODES3.VISIT OUR ON-LINE CATALOG AT FOR ACURRENT LIST OF PRODUCTS APPLICABLE FOR USE WITHTHIS PRODUCT4.FOR FULL PRODUCT FUNCTIONALITY REFER TO USER MANUAL5.DRAWING VIEWS SHOW THE INPUT CORD IN THE "FRONT FED"CONFIGURATIONIDENTIFICATIONFOR FINISHED GOOD PART NUMBER & DESCRIPTION TABLE SEESHEET 2 CONFIGURABLE PART NUMBERS: P06B##M -XXYZIXX: FINISHED GOOD COLORBL=BLACK YL=YELLOWRD=RED BU=BLUEWH =Wl-mE GN =GREENT1I r---Y: INPUT FEED TYPE Z: INPUT CORD LENGTH6=FRONT FEDA=1METERB=2METERC=3METERFOUR CHARACTER SUFFIX FOR AL TE RNA TEPRODUCT CONFIGURATIONSWE ASK THAT YOU CHECK FULLY THE SIGNDIMENSIONS, NOTES, AND SIGNTHE CLIENTSIGNATUTE BOX.THE JOB WILL NOT PROGRESS WITHOUT DATESIGNED APPROVAL. PLEASE DO NOT DELAYIN RETURNING PROOF AS IT WILL AFFECT PRINTDELIVERY.11 I LLINTELLIGENT SERIES POU" " N ''-P06B##M-XXYZCUSTOMER DRAWINGILL N..H RulDUITUNLESS OTHERWISE SPECIFIED,PIMENSIONAL TOLERANCES ARE: mm [IN]Tolerance (mm)D-@ THRIDANGLEPROJECTIONWWAC1I,,I''03/15/19 -O<LS50 I±0.550<LS250 ±1.0250<LS500 ±1.5SOO<L:S:1000 ±2.51000<LS2000 ±4.0I',,NTSw "'"'=-, ,_\!\"r, �-r, ._J f.i 1_r,P06B DCSHEET 1 OF 2 I a�Bh>A(6)C19。

AFBR-4526ZPlastic optical fi ber duplex connector for AFBR-5972ZData SheetFeatures∙ Suitable for 1mm diameter duplex plastic optical fi ber (POF) ∙ Latching mechanism for increased retention force ∙ Easy installation of POF links with AFBR-5972ZApplications∙ Industrial data links for factory automation and plant control ∙ Intra-system links, board-to-board, rack-to-rack ∙ Medical instruments ∙ High voltage isolationDescriptionThe AFBR-4526Z duplex connectors are designed for use with Avago Technologies’ fast Ethernet transceiver AFBR-5972Z. The rugged design contains a latching mechanism for an increased retention force. The simple snap-together concept saves the user labor and tool cost.The connectors are made of a rugged, fl ame retardant plastic which is good for industrial and other harsh envi-ronments. The AFBR-4526Z duplex connectors are for use with Plastic Optical Fiber (POF) only.For termination of POF with AFBR-4526Z, we recommend to use the polishing kit AFBR-4594Z.Absolute maximum ratingsParameterMinMaxUnitNoteStorage and operating temperature -4085°C 1Recommended operation temperature -4085°C 1Installation temperature70°C1Mechanical characteristicsParameterMinTyp.Max UnitTemp. [°C]NoteRetention force, connector to transceiver;latching button pressed1520N 252Retention force, connector to transceiver; latching button NOT pressed 824N 25-40 to +852,3Tensile force, connector to cable 90N 2Insertion force, connector to transceiver20N2Notes:1. Storage and operating temperatures refer to the ranges over which the connectors can be used when not subjected to mechanical stress. Installation temperature refers to the ranges over which connectors may be installed onto the fi ber and over which connectors can be connected and disconnected from the trnasceiver.2. Typical data are at 25°C.3. Usually, the button of the latching mechanism shall be pressed when disconnecting the fi ber. If the connector is pulled out of the transceiver while the lever is not pressed, the latching mechanism will degrade signifi cantly after the fi rst cycle.Step 2: Putting on the ConnectorPlace the connector on each end of the fi ber, and slide the connector down until the fi ber jacket stops it. The fi ber should protrude no less than 1.5 mm (0.06 in) from the end of the connector.Manually press connectors together. The connectors are secured when top halves latch into the ferrule halves.Step 1: Stripping the FiberThe zip cord structure of the duplex cable permits easy separation of the channels. The channels should be sepa-rated a minimum of 100 mm (4 in) to a maximum of 150 mm (6 in) back from the ends to permit connectoring, pol-ishing and cable end fl exibility.After cutting the cable to the desired length, strip off ap-proximately 7 mm (0.3 in) of the outer jacket with the 16 gauge wire strippers.The separated duplex cable should be stripped to roughly equal lengths on each cable end.Termination Guide for AFBR-4526ZStep-by-Step Plastic Cable Connectoring InstructionsThe following step-by-step guide describes how to termi-nate plastic fi ber optic cable. It is ideal for both fi eld and factory installations. Connectors can be easily installed on cable ends with standard tools such as wire strippers and cutters.Finishing the cable is accomplished with the Avago Tech-nologies AFBR-4594Z Polishing K it, consisting of a three hole polishing fi xture, 600 grit abrasive paper and 3 m pink lapping fi lm. The connector can be used immediately after polishing.The following materials are needed for plastic fi ber termi-nation:1. Plastic optical fi ber cable (Example: HFBR-EUD500Z)2. Wire cutters or scissors3. 16 gauge wire stripper (Example: Ideal Stripmaster type 45-092)4. AFBR-4594Z polishing kit5.Duplex connectors AFBR-4526ZDuring insertion of the fi ber into the connector, make sure that the orientation of the connector is correct (see next fi gure). So you make sure that the optical channels are connected correctly (Tx1 --> Rx2; Tx2 --> Rx1).HingeUntwisted fi berOkNot OkStep 4: FinishingPlace the fl ush connector and polishing fi xture on the dull side of the 3 μm pink lapping fi lm and continue to pol-ish the fi ber in the same fi gure eight pattern for approxi-mately 25 strokes. The fi ber end should be fl at, smooth and clean.Step 3: Trimming and PolishingAny fi ber in excess of 1.5 mm (0.06 in) protruding from the connector end should be cut off with wire cutters or scis-sors.Insert the connector fully into the polishing fi xture with the trimmed fi ber protruding from the bottom of the fi x-ture. This plastic polishing fi xture can be used to polish one or two simplex connectors or one duplex connector.Note: The four dots on the bottom of the polishing fi xture are wear indicators. Replace the polishing fi xture when any dot is no longer visible.Press the polishing tool down on the 600 grit abrasive paper. Polish the fi ber using a fi gure eight pattern until the connector is fl ush with the bottom of the polishing fi xture. Wipe the connector and fi xture with a clean clothor tissue.Polishing kit AFBR-4594ZNote: Use of the pink lapping fi lm fi ne polishing step results in up to 0,5 dB improvement in coupling performance of either a t ransmit t er-receiver link or a bulkhead/splice over a 600 grit polish alone. This fi ne polish is comparable to the Avago Technologies factory polish. The fi ne polishing step may be omitted for short link lengths.For product information and a complete list of distributors, please go to our web site: Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.Data subject to change. Copyright © 2005-2011 Avago Technologies. All rights reserved. AV02-2926EN - December 6, 2011Package DimensionsNote: Dimensions are in mmFor Example:HFBR-RSD002Z is a Standard attenuation, AFBR-4526Z Duplex connectors, 2 meters cable.Cable Length TolerancesThe plastic cable length tolerances are: Max. +10% and Min. 0%Note: For other cable lengths please contact Avago representativeOrdering Guide for POF CableLength Code(measured from connector tip to tip of connector)Maximum 500 meters (not in 1meter increments)X = 1 meters or 2 meters or 5 meters only.e.g 001 = 1 metersRS D 00X ZRoHS Compliant Channel CodeD = Duplex Zipcord CableCable CodeR = Standard Attenuation POFConnector CodeS = With AFBR-4526Z Duplex ConnectorsH F B R -。

YKD2405PE总线型步进驱动器使用手册版本：V1.1深圳研控自动化科技股份有限公司目录目录 (2)版本修订历史 (1)前言 (2)第1章概述 (3)1.1产品介绍 (3)1.2特性 (3)1.3应用领域 (3)1.4产品命名规则 (4)第2章性能指标 (5)2.1EtherCAT特性 (5)2.2电气特性 (5)2.3使用环境 (6)第3章安装 (7)3.1安装尺寸 (7)3.2安装方法 (7)第4章驱动器端口与接线 (8)4.1接线示意图 (8)4.2端口定义 (9)4.2.1地址拨码 (9)4.2.2状态指示灯 (9)4.2.3EtherCAT通讯端口 (10)4.2.4输入输出端口 (10)4.2.5电机输出端口 (10)4.2.6电源输入端口 (10)4.3输入/输出端口操作 (11)第5章适配电机 (12)5.1电机尺寸 (12)5.2. 技术参数 (13)5.3 电机接线图 (14)第6章驱动器状态指示灯 (15)第7章一般故障排除方法 (16)第8章保修及售后服务 (17)8.1保修 (17)8.2售后服务 (17)YKD2405PE 使用手册 V1.1 版本修订历史版本修订历史YKD2405PE 使用手册 V1.1 前言前言感谢您使用本公司总线型步进驱动器。

在使用本产品前，请务必仔细阅读本手册，了解必要的安全信息、注意事项以及操作方法等。

错误的操作可能引发极其严重的后果。

声明本产品的设计和制造不具备保护人身安全免受机械系统威胁的能力，请用户在机械系统设计和制造过程中考虑安全防护措施，防止因不当的操作或产品异常造成事故。

由于产品的改进，手册内容可能变更，恕不另行通知。

用户对产品的任何改装我公司将不承担任何责任。

阅读时，请注意手册中的以下标示：第1章概述1.1产品介绍YKD2405PE总线型步进伺服驱动器是在数字型步进驱动器的基础上增加了EtherCAT总线通讯功能，同时支持智能运动控制功能。

Catalog Symbol:CH30J_(I) - 30ACH60J_(I) - 60AAmp Range: 1 to 60AVoltage Rating: 600Vac/dc (or less)Withstand Rating (SCCR):200kA RMS Sym.Agency Information:CE, Listed UL 512, Guide IZLT, File E14853CSA Certified per C22.2 Nos. 39 Class 6225-01,File LR47235Recommended Cooper Bussmann Fuses:Class J time-delay with indication LPJ-SPI (Data Sheet 1062)Class J time-delay LPJ (Data Sheet 1006)Class J fast-acting JKS (Data Sheet 1026)High Speed Class J Drive Fuse DFJ (Data Sheet 1048)Specifications:Fuse Sizes 0 to 30A Class J 35 to 60A Class J Voltage Rating 600Vac/dc 600Vac/dc Amperage Rating Up to 30AUp to 60AWire Range18-1AWG Single 18-1AWG Single 18-3AWG Dual 18-3AWG Dual75°C 75°C Terminal Torque 10-18AWG/24in-lb 10-18AWG/24in-lb 1-8AWG/35in-lb 1-8AWG/35in-lb IP Rating IP20 (Finger-Safe)IP20 (Finger-Safe)Clip MaterialTin-Plated CopperTin-Plated CopperHousing Material UL 94V0UL 94V0Thermoplastic ThermoplasticMinimum Indicating Voltage 90Vac/115Vdc 90Vac/115Vdc (Neon Lamp)Nominal Operating Current 34mA (460Vac) 34mA (460Vac)(Neon Lamp)Max Operating Temperature 85°C 85°C Storage & Operating Temperature Range*-20°C to 75°C-20°C to 75°C*For fuse selection on applications above or below 25°C, consult derating charts in Cooper Bussmann publication “Selecting Protective Devices” (SPD).Features:•Choice of Indication:–easy ID™ window to view indicator on Cooper Bussmann LPJ-(amp)SPI fuses.–Neon lamp open fuse indicator.•Comes in standard 1-, 2- & 3-Pole ganged assemblies (all fuses are extracted simultaneously).•Kits are available for ganging units in the field.•Meets requirements of IEC 60529 for IP20 finger-safe rating.•35mm DIN rail and panel (6-32 UNC pan head recommended) mounting.•Fuse holder wire ports dual wire rated from 18 to 3AWG.30A Version 60A VersionCH Series Modular Fuse HoldersClass J – 600V 1-60AClass Jt e s y o f C M A /F l o d y n e /H y d r a d y n e ▪ M o t i o n C o n t r o l ▪ H y d r a u l i c ▪ P n e u m a t i c ▪ E l e c t r i c a l ▪ M e c h a n i c a l ▪ (800) 426-5480 ▪ w w w .c m a f h .c o m30A 3-Pole Class JModular Fuse HolderThe only controlled copy of this Data Sheet is the electronic read-only version located on the Cooper Bussmann Network Drive. All other copies of this document are by definition uncontrolled. This bulletin is intended to clearly present comprehensive product data and provide technical informa-tion that will help the end user with design applications. Cooper Bussmann reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of any products. Cooper Bussmann also reserves the right to change or update, without notice,any technical information contained in this bulletin. Once a product has been selected, it should be tested by the user in all possible applications.t e s y o f C M A /F l o d y n e /H y d r a d y n e ▪ M o t i o n C o n t r o l ▪ H y d r a u l i c ▪ P n e u m a t i c ▪ E l e c t r i c a l ▪ M e c h a n i c a l ▪ (800) 426-5480 ▪ w w w .c m a f h .c o m。

LM2405LM2405 Monolithic Triple 7 ns CRT DriverLiterature Number: SNOS810LM2405Monolithic Triple 7ns CRT DriverGeneral DescriptionThe LM2405is an integrated high voltage CRT driver circuit designed for use in color monitor applications.The IC con-tains three high input impedance,wide band amplifiers which directly drive the RGB cathodes of a CRT.Each chan-nel has its gain internally set at −14and can drive CRT ca-pacitive loads as well as resistive loads presented by other applications,limited only by the package’s power dissipation.The IC is packaged in an industry standard 11lead TO-220molded plastic power package.See thermal considerations on page 5.Featuresn Rise/fall times typically 7ns with 8pF loadn Output swing capability:50V PP for V CC =8040V PP for V CC =7030V PP for V CC =60n Pinout designed for easy PCB layout n 0V to 6V input rangen Stable with 0pF–20pF capactive loadsn Convenient TO-220staggered lead package styleApplicationsn CRT driver for 1280x 1024(Non-interlaced)and XGA display resolution color monitorsn Pixel clock frequency up to 130MHz n Monitors using video blankingSchematic and Connection DiagramDS012682-1FIGURE 1.Simplified Schematic Diagram (OneChannel)DS012682-2Tab is at GNDTop ViewOrder Number LM2405TAugust 1999LM2405Monolithic Triple 7ns CRT Driver©1999National Semiconductor Corporation Absolute Maximum Ratings(Notes1,3)Supply Voltage(V CC)+90V Bias Voltage(V BB)+16V Input Voltage(V IN)−0.5V to V BIAS+0.5V Storage Temperature Range(T STG)−65˚C to+150˚C Lead Temperature(Soldering,<10sec.)300˚C ESD Tolerance2kV Operating Ranges(Note2)V CC+60V to+85V V BB+8V to+15V V IN0V to+6V Case Temperature(T CASE)−20˚C to+100˚C Do not operate the part without a heat sink.Electrical CharacteristicsUnless otherwise noted:V CC=+80V,V BB=+12V,V IN=+2.6V(at LM2405input pins),C L=8pF,Output=40V PP at1MHz, T A=25˚C.Symbol Parameter ConditionsLM2405Units Min Typical MaxI CC Supply Current Per Channel,No Output Load1830mAI BB Bias Current38mAV OUT DC Output Voltage No Input Signal475053V DC A V DC Voltage Gain No Input Signal−12−14−16∆A V Gain Matching No Input Signal(Note4) 1.0dB LE Linearity Error No Input Signal(Notes4,5)8%t R Rise Time10%to90%7nst F Fall Time90%to10% 5.5ns Note1:Absolute Maximum Ratings indicate limits beyond which damage to the device may occur.Note2:Operating ratings indicate conditions for which the device is functional,but do not guarantee specific performance limits.For guaranteed specifications and test conditions,see the Electrical Characteristics.The guaranteed specifications apply only for the test conditions listed.Some performance characteristics may change when the device is not operated under the listed test conditions.Note3:All voltages are measured with respect to GND,unless otherwise specified.Note4:Calculated value from Voltage Gain test on each channel.Note5:Linearity Error is the variation in DC gain from V IN=+1.3V to V IN=+3.9V.Note6:Input from signal generator:t R,t F<1ns.AC Test CircuitFigure2shows a typical test circuit for evaluation of the LM2405.This circuit is designed to allow testing of the LM2405in a50Ωenvironment,such as a pulse generator, oscilloscope or network analyzer.The4950Ωresistor at the output forms a100:1voltage divider when connected to a 50Ωload.DS012682-3Note:8pF is total load plus parasitic capacitance.Note:Adjust Vtest for+2.6V DC at LM2405input pins.See“Input Resistance”section of Application Hints.FIGURE2.Test Circuit(One Channel) 2AC Test Circuit(Continued)Theory of OperationThe LM2405is a high voltage monolithic triple CRT driver suitable for SVGA and XGA display applications.The LM2405features +80V operation and low power dissipation.The part is housed in the industry standard 11-lead TO-220molded plastic power package.The circuit diagram of the LM2405is shown in Figure 1.A PNP emitter follower,Q5,provides input buffering.Q1and Q2form a fixed gain cascode amplifier,with a gain of −14.Emitter followers Q3and Q4isolate the high output imped-ance of the amplifier from the capacitance of the CRT cath-ode,and make the circuit relative insensitive to load capaci-tance.Q6provides biasing to the output emitter follower stage to reduce crossover distortion at low signal levels.Figure 2shows a typical test circuit for evaluation of the LM2405.This circuit is designed to allow testing of the LM2405in a 50Ωenvironment,such as a pulse generator and a scope,or a network analyzer.In this test circuit,two low inductance resistors in series totaling 4.95k Ωform a 100:1wideband low capacitance probe when connected to a 50Ωcable and load.The input signal from the generator is AC coupled to the base of Q5.Application HintsINTRODUCTIONNational Semiconductor is committed to providing applica-tion information that assists our customers in obtaining the best performance possible from our products.The following information is provided in order to support this commitment.The reader should be aware that the optimization of perfor-mance was done using a specific printed circuit board de-signed at National.Variations in performance can be realized due to physical changes in the printed circuit board and the application.Therefore,the designer should be aware that component value changes may be required in order to opti-mize performance in a given application.The values shown in this document can be used as a starting point for evalua-tion purposes.When working with high bandwidth circuits,good layout practices are also critical to achieving maximum performance.POWER SUPPLY BYPASSSince the LM2405is a wide bandwidth amplifier,proper power supply bypassing is critical for optimum performance.Improper power supply bypassing can result in large over-shoot,ringing and oscillation.A 0.01µF capacitor should be connected from the supply pin,V CC ,to ground,as close toDS012682-4FIGURE 3.V OUT vs V INDS012682-5FIGURE 4.Power Dissipation vs V CCDS012682-6FIGURE rge Signal Frequency ResponseDS012682-7FIGURE 6.Pulse Response3Application Hints(Continued)the supply pin as is practical (preferably less than 1⁄4"from the supply pin).Additionally,a 10µF to 100µF electrolytic capacitor should be connected from the supply pin to ground.The electrolytic capacitor should also be placed rea-sonably close to the LM2405’s supply pin.A 0.1µF capacitor should be connected from the bias pin,V BB ,to ground,as close as is practical to the part.ARC PROTECTIONDuring normal CRT operation,internal arcing may occasion-ally occur.Spark gaps of 200V to 300V at the cathodes will limit the maximum voltage,but to a value that is much higher than allowable on the LM2405.This fast,high voltage,high energy pulse can damage the LM2405output stage.The ad-dition of clamp diodes D1and D2(as shown in Figure 7)will help clamp the voltage at the output of the LM2405to a safe level.The clamp diodes should have a fast transient re-sponse,high peak current rating,low series impedance and low shunt capacitance.FDH400or equivalent diodes are recommended.Resistor R2in Figure 7limits the arcover current while R1limits the current into the LM2405and re-duces the power dissipation of the output transistors when the output is stressed beyond the supply voltage.(Peaking inductor Lp also helps protect the CRT driver from arc over.)Having large value resistors for R1and R2would be desir-able,but this has the effect of increasing rise and fall times.For proper arc protection,it is important to not omit any of the arc protection components shown in Figure 7.There are also ESD protection diodes built into the part.To avoid damaging these diodes,do not apply an input voltage from a low impedance source when the V BB and V CC pins are held at ground potential.IMPROVING RISE AND FALL TIMESBecause of an emitter follower output stage,the rise and fall times of the LM2405are relatively insensitive to capactive loading.However,the series resistors R1and R2(see Fig-ure 7)will increase the rise and fall times when driving the CRT’s cathode which appears as a capacitive load.The ca-pacitance at the cathode typically ranges from 8pF to 12pF.To improve the rise and fall times at the cathode,a small in-ductor is often used in series with the output of the amplifier.The inductor L P in Figure 7peaks the amplifier’s frequency response at the cathode,thus improving rise and fall times.It also acts with the output load capacitance to form a low pass filter,which reduces the amplitudes of high frequency harmonics of the video signal,to lower radiated electromag-netic interference.The inductor value is empirically deter-mined and is dependent on the load.An inductor value of 0.22µH is a good starting value.Note that excessive peak-ing of the amplifier’s frequency response will increase the overshoot.(Increasing the value of resistor R1or R2will re-duce ringing and overshoot.)EFFECT OF LOAD CAPACITANCEThe output rise and fall times will be slower than specified if the load capacitance at the output is more than 8pF,as shown in Figure 8.The monitor designer should ensure that stray capacitance applied to the LM2405is as low as possible.THERMAL CONSIDERATIONSPower supply current increases as the input signal increases and consequently power dissipation also increases.The LM2405cannot be used without heat sinking.Typical “average”power dissipation with the device output voltage at one half the supply voltage is 2.4W per channel for a total dissipation of 7.2W package dissipation.Under white screen conditions,i.e.,25V output,dissipation increases to 3.5W per channel or 10.5W total.The LM2405case temperature must be maintained below 100˚C.If the maximum expected ambient temperature is 50˚C,then a maximum heat sink thermal resistance can be calculated:This example assumes a typical CRT capacitive load and is without a resistive load.Note that this thermal resistance must be achieved when the heat sink is operating in the monitor.INPUT RESISTANCEThe LM2405has a fixed resistor of 3000Ωconnected from each signal input pin to ground.In the Figure 2Test Circuit,the input DC voltage level,Vtest,must be adjusted,(to about +3.5V)to allow for the voltage drop across the 1000Ωresis-tor,to set the actual voltage at the input pins to +2.6V.In ac-tual use in a monitor,the 1000Ωresistor is not used and the video preamp supplies the 2.6V offset.PC BOARD LAYOUT CONSIDERATIONSFor optimum performance,an adequate ground plane,isola-tion between channels,good supply bypassing and minimiz-ing unwanted feedback are necessary.Also,the length of theDS012682-8FIGURE 7.One Section of the LM2405with ArcProtection and Peaking Inductor L PDS012682-9FIGURE 8.Effect of Load Capacitance onRise/Fall Time 4Application Hints(Continued)signal traces from the preamplifier to the LM2405and from the LM2405to the CRT cathode should be as short as pos-sible.The following references are recommended:Ott,Henry W.,“Noise Reduction Techniques in Electronic Systems”,John Wiley and Sons,New York,1976.“Guide to CRT Video Design”,National Semiconductor Appli-cation Note861.“Video Amplifier Design for Computer Monitors”,National Semiconductor Application Note1013.Because of its high small signal bandwidth,the part may os-cillate when it is used in a typical application with a preamp in a monitor,if feedback occurs around the video amplifier through the chassis wiring.To prevent this,leads to the inputcircuit should be shielded,and input circuit wiring should bespaced as far as possible from output circuit wiring.Powershould be removed as quickly as possible from an amplifierthat is oscillating,since power dissipation in the part is veryhigh in this mode and the part may be damaged if oscilla-tions continue and the power supply can supply more than250mA.TYPICAL APPLICATIONA typical application of the LM2405is shown in Figure9.Used in conjunction with an LM1205,a complete video chan-nel from monitor input to CRT cathode can be achieved.Per-formance is satisfactory for all applications up to1280x1024non-interlaced,and pixel clock frequencies up to130MHz. 5Application Hints(Continued)D S 012682-10D i o d e s F D H 400P N P T r a n s i s t o r s M P S A 92N P N T r a n s i s t o r s 2N 2369U n m a r k e d C a p a c i t o r s 0.1µFF IG U R E 9.T y p i c a l A p p l i c a t i o n6Physical Dimensionsinches (millimeters)unless otherwise notedLIFE SUPPORT POLICYNATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION.As used herein:1.Life support devices or systems are devices or systems which,(a)are intended for surgical implant into the body,or (b)support or sustain life,and whose failure to perform when properly used in accordance with instructions for use provided in the labeling,can be reasonably expected to result in a significant injury to the user.2.A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system,or to affect its safety or effectiveness.National Semiconductor Corporation AmericasTel:1-800-272-9959Fax:1-800-737-7018Email:support@National Semiconductor EuropeFax:+49(0)180-5308586Email:europe.support@Deutsch Tel:+49(0)180-5308585English Tel:+49(0)180-5327832Français Tel:+49(0)180-5329358Italiano Tel:+49(0)180-5341680National Semiconductor Asia Pacific Customer Response Group Tel:65-2544466Fax:65-2504466Email:sea.support@National Semiconductor Japan Ltd.Tel:81-3-5639-7560Fax:81-3-5639-7507LM240511-Lead Molded TO-220NS Package Number TA11B Order Number LM2405TLM2405Monolithic Triple 7ns CRT DriverNational does not assume any responsibility for use of any circuitry described,no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries(TI)reserve the right to make corrections,modifications,enhancements,improveme and other changes to its products and services at any time and to discontinue any product or service without notice.Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete.All products a sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI’s standard warranty.Testing and other quality control techniques are used to the extent TI deems necessary to support this warranty.Except where mandated by government requirements,testing of all parameters of each product is not necessarily performed.TI assumes no liability for applications assistance or customer product design.Customers are responsible for their products and applications using TI components.To minimize the risks associated with customer products and applications,customers should provide adequate design and operating safeguards.TI does not warrant or represent that any license,either express or implied,is granted under any TI patent right,copyright,mask work rig or other TI intellectual property right relating to any combination,machine,or process in which TI products or services are rma published by TI regarding third-party products or services does not constitute a license from TI to use such products or services or a warranty or endorsement e of such information may require a license from a third party under the patents or other intellectual property of the third party,or a license from TI under the patents or other intellectual property of TI.Reproduction of TI information in TI data books or data sheets is permissible only if reproduction is without alteration and is accompanie by all associated warranties,conditions,limitations,and notices.Reproduction of this information with alteration is an unfair and deceptiv business practice.TI is not responsible or liable for such altered rmation of third parties may be subject to additional restrictions.Resale of TI products or services with statements different from or beyond the parameters stated by TI for that product or service voids a express and any implied warranties for the associated TI product or service and is an unfair and deceptive business practice.TI is not responsible or liable for any such statements.TI products are not authorized for use in safety-critical applications(such as life support)where a failure of the TI product would reasona be expected to cause severe personal injury or death,unless officers of the parties have executed an agreement specifically governing such use.Buyers represent that they have all necessary expertise in the safety and regulatory ramifications of their applications,and acknowledge and agree that they are solely responsible for all legal,regulatory and safety-related requirements concerning their product and any use of TI products in such safety-critical applications,notwithstanding any applications-related information or support that may b provided by TI.Further,Buyers must fully indemnify TI and its representatives against any damages arising out of the use of TI products such safety-critical applications.TI products are neither designed nor intended for use in military/aerospace applications or environments unless the TI products are specifically designated by TI as military-grade or"enhanced plastic."Only products designated by TI as military-grade meet military specifications.Buyers acknowledge and agree that any such use of TI products which TI has not designated as military-grade is solely a the Buyer's risk,and that they are solely responsible for compliance with all legal and regulatory requirements in connection with such us TI products are neither designed nor intended for use in automotive applications or environments unless the specific TI products are designated by TI as compliant with ISO/TS16949requirements.Buyers acknowledge and agree that,if they use any non-designated products in automotive applications,TI will not be responsible for any failure to meet such requirements.Following are URLs where you can obtain information on other Texas Instruments products and application solutions:Products ApplicationsAudio /audio Communications and Telecom /communications Amplifiers Computers and Peripherals /computersData Converters Consumer Electronics /consumer-appsDLP®Products Energy and Lighting /energyDSP Industrial /industrialClocks and Timers /clocks Medical /medicalInterface Security /securityLogic Space,Avionics and Defense /space-avionics-defense Power Mgmt Transportation and Automotive /automotive Microcontrollers Video and Imaging /videoRFID OMAP Mobile Processors /omapWireless Connectivity /wirelessconnectivityTI E2E Community Home Page Mailing Address:Texas Instruments,Post Office Box655303,Dallas,Texas75265Copyright©2011,Texas Instruments Incorporated分销商库存信息: NATIONAL-SEMICONDUCTOR LM2405T。

AO4459中⽂资料SymbolTyp Max 33406275R θJL 1824Maximum Junction-to-Lead CSteady-State°C/WThermal Characteristics ParameterUnits Maximum Junction-to-AmbientAt ≤ 10s R θJA °C/W Maximum Junction-to-Ambient ASteady-State °C/W AO4459AO4459SymbolMin TypMaxUnits BV DSS -30V -1T J =55°C-5I GSS ±100nA V GS(th)-1.5-1.85-2.5V I D(ON)-30A 3846T J =125°C53685872m ?g FS 11S V SD -0.78-1V I S-3.5A C iss 668830pF C oss 126pF C rss 92pF R g69?Q g (10V)12.716nC Q g (4.5V) 6.4nC Q gs 2nC Q gd 4nC t D(on)7.7ns t r 6.8ns t D(off)20ns t f 10ns t rr 2230ns Q rr15nCTHIS PRODUCT HAS BEEN DESIGNED AND QUALIFIED FOR THE CONSUMER MARKET. APPLICATIONS OR USES AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS ARE NOT AUTHORIZED. AOS DOES NOT ASSUME ANY LIABILITY ARISING OUT OF SUCH APPLICATIONS OR USES OF ITS PRODUCTS. AOS RESERVES THE RIGHT TO IMPROVE PRODUCT DESIGN,FUNCTIONS AND RELIABILITY WITHOUT NOTICE.DYNAMIC PARAMETERS Maximum Body-Diode Continuous CurrentGate resistanceV GS =0V, V DS =0V, f=1MHzV GS =0V, V DS =-15V, f=1MHz Input Capacitance Output Capacitance Turn-On Rise Time Turn-Off DelayTime V GS =-10V, V DS =-15V, R L =2.5?, R GEN =3?Turn-Off Fall TimeTurn-On DelayTime SWITCHING PARAMETERSTotal Gate Charge (4.5V)Gate Source Charge Gate Drain Charge Total Gate Charge (10V)V GS =-10V, V DS =-15V, I D =-6.5Am ?V GS =-4.5V, I D =-5AI S =-1A,V GS =0V V DS =-5V, I D =-6.5AR DS(ON)Static Drain-Source On-ResistanceForward TransconductanceDiode Forward VoltageI DSS µA Gate Threshold Voltage V DS =V GS I D =-250µA V DS =-24V, V GS =0VV DS =0V, V GS =±20V Zero Gate Voltage Drain Current Gate-Body leakage current Electrical Characteristics (T J =25°C unless otherwise noted)STATIC PARAMETERS ParameterConditions Body Diode Reverse Recovery Time Body Diode Reverse Recovery ChargeI F =-6.5A, dI/dt=100A/µsDrain-Source Breakdown Voltage On state drain currentI D =-250µA, V GS =0V V GS =-10V, V DS =-5V V GS =-10V, I D =-6.5AReverse Transfer Capacitance I F =-6.5A, dI/dt=100A/µs A: The value of R θJA is measured with the device mounted on 1in 2FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The value in any a given application depends on the user's specific board design. The current rating is based on the t ≤ 10s thermal resistance rating.B: Repetitive rating, pulse width limited by junction temperature.C. The R θJA is the sum of the thermal impedence from junction to lead R θJL and lead to ambient.D. The static characteristics in Figures 1 to 6 are obtained using < 300µs pulses, duty cycle 0.5% max.E. These tests are performed with the device mounted on 1 in 2FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The SOA curve provides a single pulse rating. Rev0 Sept 2006AO4459AO4459。

General Description Absolute Maximum Ratings T A =25°C unless otherwise noted DFN 2x2BTop View Bottom ViewPin 1DDGD D SDSDSymbol V DS V GSI DMT J , T STGSymbolt ≤ 10s Steady-StateTyp Max Gate-Source Voltage Junction and Storage Temperature Range Power DissipationAP D T A =70°CT A =25°C I D T A =70°CContinuous Drain GParameter Drain-Source Voltage Pulsed Drain Current CT A =25°C °C/WMaximum Junction-to-Ambient A D80Thermal CharacteristicsUnits Maximum Junction-to-Ambient A °C/W R θJA376645ParameterSymbolMin TypMaxUnits BV DSS -20V V DS =-20V, V GS =0V-1T J =55°C -5I GSS ±100nA V GS(th)Gate Threshold Voltage -0.3-0.65-0.9V I D(ON)-32A 2632T J =125°C 35433241m Ω4156m Ω4670m Ωg FS 23S V SD -0.62-1V I S-4.5A C iss 1025pF C oss 167pF C rss 119pF R g11ΩQ g 1318nC Q gs 2nC Q gd 3.4nC I S =-1A,V GS =0VV GS =-4.5V, V DS =-10V, I D =-8AGate Source Charge Gate Drain Charge Maximum Body-Diode Continuous CurrentInput Capacitance Output CapacitanceDYNAMIC PARAMETERS Diode Forward VoltageGate resistanceV GS =0V, V DS =0V, f=1MHzTotal Gate Charge Zero Gate Voltage Drain Current Gate-Body leakage current V DS =-5V, I D =-8A V GS =-1.8V, I D =-2A Forward Transconductance V GS =-2.5V, I D =-5A V GS =-1.5V, I D =-2ADrain-Source Breakdown Voltage I DSS Reverse Transfer Capacitance V GS =0V, V DS =-10V, f=1MHz SWITCHING PARAMETERS m ΩOn state drain currentI D =-250µA, V GS =0V V GS =-4.5V, V DS =-5V V GS =-4.5V, I D =-8AµA V DS =V GS , I D =-250µA V DS =0V, V GS =±8V R DS(ON)Static Drain-Source On-ResistanceElectrical Characteristics (T J =25°C unless otherwise noted)STATIC PARAMETERS ParameterConditions t D(on)7ns t r 28ns t D(off)95ns t f 46ns t rr 15ns Q rr4nCTHIS PRODUCT HAS BEEN DESIGNED AND QUALIFIED FOR THE CONSUMER MARKET. APPLICATIONS OR USES AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS ARE NOT AUTHORIZED. AOS DOES NOT ASSUME ANY LIABILITY ARISING OUT OF SUCH APPLICATIONS OR USES OF ITS PRODUCTS. AOS RESERVES THE RIGHT TO IMPROVE PRODUCT DESIGN,FUNCTIONS AND RELIABILITY WITHOUT NOTICE.Body Diode Reverse Recovery Charge I F =-8A, dI/dt=100A/µsTurn-Off DelayTime Turn-On Rise Time Turn-On DelayTime V GS =-4.5V, V DS =-10V,R L =1.25Ω, R GEN =3ΩTurn-Off Fall TimeBody Diode Reverse Recovery TimeI F =-8A, dI/dt=100A/µsA. The value of R θJA is measured with the device mounted on 1in 2FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The Power dissipation P DSM is based on R θJA t ≤10s value and the maximum allowed junction temperature of 150°C. The value in any given application depends on the user's specific board design.B. The power dissipation P D is based on T J(MAX)=150°C, using junction-to-case thermal resistance, and is more useful in setting the upper dissipation limit for cases where additional heatsinking is used.C. Repetitive rating, pulse width limited by junction temperature T J(MAX)=150°C. Ratings are based on low frequency and duty cycles to keep initial T J =25°C.D. The R θJA is the sum of the thermal impedance from junction to case R θJC and case to ambient.E. The static characteristics in Figures 1 to 6 are obtained using <300µs pulses, duty cycle 0.5% max.F. These curves are based on the junction-to-case thermal impedance which is measured with the device mounted to a large heatsink, assuming a maximum junction temperature of T J(MAX)=150°C. The SOA curve provides a single pulse rating.G. The maximum current rating is package limited.H. These tests are performed with the device mounted on 1 in 2FR-4 board with 2oz. Copper, in a still air environment with T A =25°C.VdsChargeGate Charge Test Circuit & WaveformVdsUnclamped Inductive Switching (UIS) Test Circuit & Waveforms2E = 1/2 LI AR ARBV DSSVddResistive Switching Test Circuit & WaveformsVddIdVgsI ARVdd。

THREE-PHASE INDUCTION MOTOR——三相感应电动机MODEL——型号DATE——生产日期HP——马力VOLT. ——电压HZ——（频率）赫兹KW——（功率）千瓦A.M.P. ——额定电流R.P.M. ——转速单位r/minENCL. ——防护等级AMB. ——环境温度S.F. ——服务系数INS.CL. ——绝缘等级（应该是Insulation class的缩写）COOLING——冷却方式DUTY——工作制IP55——防尘防火等级（都为5）rotation per minute，每分钟转速= 缩写rpm1. PART NO.3632-08942 部件号：3632-08942FRAME:363/S 框架：363/SENCL:1P 21 外壳（enclosure）：1P 21PF:0.8 性能因数:0.8RPM:1500 转数/分钟：1500PHASE:3 相位：3相AMB.:40摄氏度环境温度：40摄氏度ONS.CLASS: H 操作系统等级：HRISE BY RES:125摄氏度电阻器w温度：125 摄氏度FIELD AMPS:2.1 现场电流“2.1FIELD VOLTS:50,KW:120, KV A:150,VOLTS:400 AMPS:216.6现场电压：20；千瓦：120，千伏安：150电压：100，电流：216.6CAT NO-P106MODEL(型号)-A VL 56T34F5325E PFR-56C-70 PH（相数）-3 TYPE（类型）-TSAMB-40℃INS-B3 DUTY(工作方式)-CONT（连续）. DES-BHZ(频率)-60 50HP-2 1 1/2RPM(转速)-3450 2850VOLT(电压)-208-230/460 190/380FLA-6-6/3 5.6/2.8SF-1.15 1.15SFA-CSDE-L ENC.-TEFC。

05-2011, Rev. 0511Datasheets and product specification Datasheets and product data is subject to the Datasheets, product data, ‘Definitions’ sec-1n 2 pole 8A, 2 form C (CO) or 2 form A (NO) contacts n DC or AC coiln 5kV/10mm coil-contact, reinforced insulation n Ambient temperature up to 85°Cn WG version: product in accordance to IEC60335-1n Reflow version: for THR (Through-Hole Reflow) soldering processTypical applicationsBoiler control, timers, garage door control, POS automation, interface modulesApprovalsVDE REG.-Nr. 6106, UL E214025, cCSAus 14385Contact DataContact arrangement 2 form C (CO) or 2 form A (NO)Rated voltage 250VAC Max. switching voltage 400VAC Rated current 8A, UL: 10A Limiting continuous current 8A, UL: 10A Limiting making current, max. 4s, duty factor 10% 15A Breaking capacity max. 2000VA Contact material A gNi 90/10, AgNi 90/10 gold plated, AgSnO 2Frequency of operation, with/without load DC coil 360/72000h -1 AC coil 360/36000h -1Operate/release time max., DC coil 8/6ms Bounce time max., DC coil, form A/form B 4/10ms Electrical endurance see electrical endurance graph 1)Contact ratings Type Contact Load Cycles IEC 61810RT424 DC coil C (CO) 8A, 250VAC, cos φ=1, 85°C 10x103RT444 AC coil A (NO) 8A, 250VAC, cos φ=1, 70°C 50x103RT424 AC coil C (CO) 8A, 250VAC, cos φ=1, 70°C 30x103UL 508RT424 DC coil A/B (NO/NC) 10A, 250VAC, gen. purpose, 85°C 20x103RT424 DC coil A/B (NO/NC) 1/2hp, 240VAC, 85°C 1x103RT424 DC coil A/B (NO/NC) Pilot duty, B300, R300, 85°C 6x103EN60947-5-1RTE24 DC coil A/B (NO/NC) AC15, 250VAC, 3A 6.050 RTE24 DC coil A/B (NO/NC) DC13, 24VDC, 2A 6.050 RTE24 DC coil A/B (NO/NC) DC13, 250VDC, 0.2A 6.050EN60730-1RT424 DC coil A/B (NO/NC) 6(2)A, 250VAC, 85°C 100x103Contact Data (continued)Mechanical endurance DC coil>30x106 operations DC coil, reflow version >10x106 operations AC coil>5x106 operations AC coil, reflow version>2x106 operationsCoil DataCoil voltage range, DC coil/AC coil 5 to 110VDC / 24 to 230VAC Operative range, IEC 61810 2Coil insulation system according UL class F Coil versions, DC coil Coil Rated Operate ReleaseCoil Rated coil code voltage voltage voltage resistance power VDC VDC VDC Ω±10%2) mW 005 5 3.5 0.5 62 403 006 6 4.2 0.6 90 400 009 9 6.3 0.9 200 400 012 12 8.4 1.2 360 400 024 24 16.8 2.4 1440 400 048 48 33.6 4.8 5520 417 060 60 42.0 6.0 85702) 420 110 110 77.0 11.0288002)4202) Coil resistance ±12%. All figures are given for coil without pre-energization, at ambient temperature +23°C. Other coil voltages on request.Coil versions, AC coil 50HzCoil Rated Operate Release Coil Rated coil code voltage voltage voltage resistancepower VAC VAC VAC Ω±15%3) VA 524 24 18.0 3.6 3503) 0.76 615 115 86.3 17.3 8100 0.76 620 120 90.0 18.0 8800 0.75 700 200 150.0 30.0 24350 0.76 730 230 172.534.5 32500 0.743) Coil resistance ±10%. All figures are given for coil without pre-energization, at ambient temperature +23°C, 50Hz. Other coil voltages on request.Power PCB Relay RT2F0149-CZ V b05-2011, Rev. 0511Datasheets and product specification Datasheets and product data is subject to the Datasheets, product data, ‘Definitions’ sec-2Other Data (continued)Terminal type PCB-THT, plug-inreflow version PCB-THR Mounting distance, AC coil ≥2.5mm Weight 13g Resistance to soldering heat THT, IEC 60068-2-20 RTII 270°C/10s RTIII 260°C/5s Resistance to soldering heat THRreflow soldering (for reflow version) forced gas convection 4) or vapour phase 5) temperature profile according EN61730Packaging/unit tube/20pcs., box/500pcs.5) recommended fluid LS/230AccessoriesFor details see datasheetA ccessories Industrial Power Relay RT NOTE: indicated contact ratings and electrical endurance data for direct wiring of relays (according IEC 61810-1); for relays mounted on sockets deratings may apply.Insulation DataInitial dielectric strength between open contacts 1000V rms between contact and coil 5000V rms between adjacent contacts 2500V rms Clearance/creepagebetween contact and coil ≥10/10mm between adjacent contacts ≥3/4mm Material group of insulation parts IIIa Tracking index of relay base PTI 250V reflow versionPTI 175VOther DataMaterial compliance: EU RoHS/ELV , China RoHS, REACH, Halogen content refer to the Product Compliance Support Center at /customersupport/rohssupportcenter Resistance to heat and fire WG version or reflow version according EN60335, par30Ambient temperature DC coil -40 to 85°C AC coil -40 to 70°C AgSnO 2 contacts -40 to 70°C Category of environmental protection, IEC 61810 standard version RTII - flux proof, RTIII - wash tight reflow version RTII - flux proof Vibration resistance (functional),form A/form B contact, 30 to 300Hz 20g/5g Shock resistance (destructive)100gPCB layout / terminal assignmentBottom view on solder pinsS0163-BJS0163-BK*) With the recommended PCB hole sizes a grid pattern from 2.5 m m to 2.54 m m can be used.DimensionsProcess conditions for Reflow solderingaccording to EN61760-1THT versionTHR version (reflow solderable)Product code structure Typical product code RT 4 2 4 024TypeRT Power PCB Relay RT2Version4 8A, pinning 5mm, flux proofE 8A, pinning 5mm, wash tight (not for Reflow version)Contact arrangement2 2 form C (CO) contacts4 2 form A (NO) contactsContact material3 AgSnO4 AgNi 90/105 AgNi 90/10 gold platedCoilCoil code: please refer to coil versions tableVersionBlank Standard versionWG Product in accordance with IEC 60335-1 (domestic appliances)R Reflow solderableProduct code Version Contacts Contact material Coil Version Part numberRT423730 8A, 2 form C (CO) AgSnO 230VAC Standard 4-1393243-3RT424005 pinning 5mm, contacts AgNi 90/10 5VDC 5-1393243-9RT424006 flux proof 6VDC 6-1393243-1RT424012 12VDC 6-1393243-3RT424012WG IEC60335-1 compliant 7-1415538-8RT424024 24VDC Standard 6-1393243-8RT424024WG IEC60335-1 compliant 7-1415538-7RT424048 48VDC Standard 7-1393243-0RT424060 60VDC 7-1393243-3RT424110 110VDC 7-1393243-5RT424524 24VAC 7-1393243-6RT424615 115VAC 7-1393243-8RT424730 230VAC 7-1393243-9RT425003 AgNi 90/10 3VDC 7-1415525-1RT425005 gold plated 5VDC 8-1393243-0RT425012 12VDC 8-1393243-2RT425024 24VDC 8-1393243-5RT444012 2 form A (NO) AgNi 90/10 12VDC 9-1393243-7RT444024 contacts 24VDC 9-1393243-9RTE24005 8A, 2 form C (CO) 5VDC 1393243-1RTE24006 pinning 5mm, contacts 6VDC 1393243-2RTE24012 wash tight 12VDC 1393243-4RTE24024 24VDC 1-1393243-0RTE24048 48VDC 1-1393243-1RTE24110 110VDC 1-1393243-4RTE24524 24VAC 1-1393243-5RTE24615 115VAC 1-1393243-7RTE24730 230VAC 1-1393243-8RTE25005 AgNi 90/10 5VDC 1-1393243-9RTE25012 gold plated 12VDC 2-1393243-0RTE25024 24VDC 2-1393243-1RTE25524 2-1393243-4RTE43009 2 form A (NO) AgSnO 9VDC 4-1415535-1RTE44009 contacts AgNi 90/10 3-1393243-1RTE44730 230VAC 3-1393243-5This list represents the most common types and does not show all variants covered by this datasheet.3 05-2011, Rev. 0511Datasheets and product specification Datasheets and product data is subject to the Datasheets, product data, ‘Definitions’ sec-分销商库存信息:TE Connectivity / Schrack RT424005。

EVERLIGHT ELECTRONICS CO.,LTD.Technical Data Sheet3.0mm Round Type LED LampsA694B/2UY/S530-A3█ Features :●Low power consumption●High efficiency and low cost ●Good control and free combinations on the colors of LED lamps ●Good lock and easy to assembly ●Stackable and easy to assembly ●Stackable vertically and easy to assembly ●Versatile mounting on P.C board or panel ●Stackable horizontally and easy to assembly ●Pb free█ Descriptions :●ARRAY=Plastic Holder+Combinations of Lamps●The array will easily mount the applicable lamps on any panel up to█ Applications :●ed as indicators of indicating the Degree, Functions, Positions etc, in electronic instruments.ChipMaterial Emitted Color 234-10UYD/S530-A3AlGaInPSuper YellowEVERLIGHT ELECTRONICS CO.,LTD.http : // REV.:2Page: 1 of 6Device Number :CDAE-069-094Prepared date:2004/7/17Prepared by:Guanxiu YuanCG0307065,R0302423Lens ColorYellow DiffusedPART NO.元器件交易网元器件交易网EVERLIGHT ELECTRONICS CO.,LTD.Technical Data Sheet3.0mm Round Type LED LampsNote: *1:I FP Conditions --Pulse Width ≦ 1msec and Duty ≦ 1/10.*2:Soldering time ≦ 5 seconds.EVERLIGHT ELECTRONICS CO.,LTD.http : // REV.:2Page: 2 0f 6 Device Number :CDAE-069-094Prepared date:2004/7/17 Prepared by: Guanxiu YuanEVERLIGHT ELECTRONICS CO.,LTD.Technical Data Sheet3.0mm Round Type LED LampsA694B/2UY/S530-A3Electro-Optical Characteristics (Ta=25℃)Min.Typ.Max.Unit I F =20mA ／ 2.0 2.4V V R =5V ／／10μA I F =20mA 1632／mcd I F =20mA ／60／deg I F =20mA ／591／nm I F =20mA ／589／nm I F =20mA／15／nmEVERLIGHT ELECTRONICS CO.,LTD. http : // REV.:2Page:3 of 6Device Number :CDAE-069-094Prepared date:Prepared by:Guanxiu Yuan2004/7/17λp λd △λV F I R Iv 2θ1/2Dominant Wavelength Spectrum RadiationBandwidthParameter Condition Forward Voltage Reverse Current Luminous Intensity Viewing Angle Peak Wavelength SymbolEVERLIGHT ELECTRONICS CO.,LTD.Technical Data Sheet3.0mm Round Type LED LampsA694B/2UY/S530-A3EVERLIGHT ELECTRONICS CO.,LTD.Technical Data Sheet3.0mm Round Type LED LampsA694B/2UY/S530-A3█ Reliability test items and conditions:EVERLIGHT ELECTRONICS CO.,LTD.http : // REV.:2Page:5 of 6 Device Number :CDAE-069-094Prepared date: Prepared by: Guanxiu Yuan2004/7/17EVERLIGHT ELECTRONICS CO.,LTD.Technical Data Sheet3.0mm Round Type LED LampsA694B/2UY/S530-A3EVERLIGHT ELECTRONICS CO.,LTD.http : // REV.:2Page:6 0f 6 Device Number :CDAE-069-094Prepared date:2004/7/17Prepared by: Guanxiu Yuan。

Eaton PDG32NH250E5ZLEaton Power Defense molded case circuit breaker, Globally Rated, Frame 3, Two Pole, 250A High Override, 85kA/480V, PXR20 ARMS LSIG w/ ZSI and Relays, Standard Terminals Load Only (PDG3X2TA631)General specificationsEaton Power Defense molded case circuit breakerPDG32NH250E5ZL 786679763346109.1 mm 257.1 mm 138.9 mm 5.2163 kg Eaton Selling Policy 25-000, one (1) year from the date of installation of theProduct or eighteen (18) months from thedate of shipment of the Product,whichever occurs first.RoHS Compliant CCC MarkedIEC 60947-2UL 489CSAProduct NameCatalog Number UPCProduct Length/Depth Product Height Product Width Product Weight WarrantyCompliancesCertifications250A High Override Complete breaker 3Two-polePD3 Global Class A PXR 20 LSIG w/ARMS600 Vac600 VStandard Terminals Load Only85 kAIC at 480 Vac 150 kAIC @240V (UL) 50 kAIC @600V (UL/CSA)35 kAIC Icu/ 25 kAIC Ics/ 73.5 kAIC Icm @525V South Africa (IEC)65 kAIC Icu/ 40 kAIC Ics/ 143 kAIC Icm @480V Brazil (IEC) 70 kAIC Icu/ 50 kAIC Ics/ 154 kAIC Icm @440V (IEC) 22 kAIC Icu @250 Vdc 85 kAIC @480V (UL)150 kAIC Icu/ 100 kAIC Ics/ 330 kAIC Icm @240V (IEC) 20 kAIC Icu/ 10 kAIC Ics/ 42 kAIC Icm @690V (IEC) 70 kAIC Icu/ 70 kAIC Ics/ 154 kAIC Icm @380-415V (IEC)250 A high overridePower Xpert Protection Manager x64Consulting application guide - molded case circuit breakersAmperage Rating Circuit breaker frame type Frame Number of poles Circuit breaker type Class Trip TypeVoltage rating Voltage rating - max TerminalsInterrupt rating Interrupt rating range Trip ratingApplication notesPower Xpert Protection Manager x32BrochuresStrandAble terminals product aidPower Defense technical selling bookletPower Defense molded case circuit breaker selection posterPower Defense brochureCatalogsPower Xpert Release trip units for Power Defense molded case circuit breakersMolded case circuit breakers catalogCertification reportsPDG3 CSA certification 100-400aPDG3 UL authorization 100-400aPDG3 CSA certification 250-600aPDG3 45-400A CB reportEU Declaration of Conformity - Power Defense molded case circuit breakersPDG3 UL authorization 250-600a TMTUPDG3B 450A-600A CB reportInstallation instructionsPower Defense Frame 3 interphase barrier - IL012229EN H03Power Defense Frame 1-2-3-4 IP door barrier assembly instructions -IL012278ENPower Defense Frame 3 locking devices and handle block instructions - IL012150ENPower Defense Frame 3 handle mech direct rotary handle instructions - IL012111ENPower Defense Frame 3 box terminal installation instructions -IL012299ENPower Defense Frame 3 multi-tap terminal kit Cat NumPDG3X3(2)(4)TA6006WSW instructions - IL012250ENPower Defense Frame 3 reverse feed connector kit Cat NumPDG3X3(2)(4)TA630RF instructions - IL012253ENPower Defense Frame 3 multi-tap terminal kit Cat NumPDG3X3(2)(4)TA6006W Instructions - IL012248ENPower Defense Frame 3 adapter kit installation instructions LZM3 to PD3 - IL012227ENPower Defense Frame 3 extendable shaft rotary handle mech -IL012112ENPower Defense Frame 3 shunt trip UVR instructions - IL012140EN Power Defense Frame 4 locking devices and handle block instructions -IL012151ENPower Defense Frame 3 reverse feed connector kit Cat NumPDG3X3(2)(4)TA400HRF instructions - IL012252ENPower Defense Frame 3 finger protection assembly installation instructions - IL012279ENPower Defense Frame 3 Aux, Alarm, ST and UVR Animated Instructions.rh Power Defense Frame 3 Direct Rotary Handle Assy With Interlock Version Instructions (IL012139EN).pdfPower Defense Frame 4 shunt trip UVR instructions - IL012129EN Power Defense Frame 3 trip unit replacement instructions - IL012157EN Power Defense Frame 3 terminal kit Cat Num PDG3X3(2)(4)TA400RF instructions - IL012251ENPower Defense Frame 3 rear connection installation instructions -IL012300ENPower Defense Frame 3 plug-in adapter installation instructions -IL012311ENPower Defense Frame 3 terminal spreader assembly instructions -IL012301ENPower Defense Frame 2/3/4/5/6 voltage neutral sensor module wiring instructions – IL012316ENPower Defense Frame 3 Breaker Instructions (IL012107EN).pdfPower Defense Frame 4 reverse feed connector kit instructions for PDG4X3(2)(4)TA800RF instructions - IL012254ENPower Defense Frame 3 multi wire connector kit -PDG3X3(2)(4)TA4006W and PDG3X3(2)(4)TA4003W instructions-IL012247EN H01Installation videosPower Defense Frame 3 Shunt Trip_UVR Animated Instructions.pdf.rh Power Defense Frame 3 Handle Mech Variable Depth Rotary Handle Animated Instructions.rhPower Defense Frame 3 Handle Mech Direct Rotary Handle Animated Instructions.rhPower Defense Frame 3 trip unit replacement animated instructions.rh Power Defense Frame 3 Locking Devices and Handle Block Animated Instructions.pdf.rhMultimediaPower Defense Frame 3 Aux, Alarm, Shunt Trip, and UVR How-To Video Power Defense Frame 5 Trip Unit How-To VideoPower Defense BreakersPower Defense Frame 3 Variable Depth Rotary Handle Mechanism Installation How-To VideoPower Defense Frame 6 Trip Unit How-To VideoEaton 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./socialmediaPower Defense Frame 2 Variable Depth Rotary Handle Mechanism Installation How-To VideoPower Defense molded case circuit breakers Eaton Power Defense for superior arc flash safety Eaton Specification Sheet - PDG32NH250E5ZL Power Defense time current curve Frame 3 - PD3Implementation of arc flash mitigating solutions at industrial manufacturing facilitiesSingle and double break MCCB performance revisited Molded case and low-voltage power circuit breaker health Making a better machineIntelligent circuit protection yields space savings Intelligent power starts with accurate, actionable data Safer by design: arc energy reduction techniques Molded case and low-voltage breaker healthSpecifications and datasheetsTime/current curvesWhite papers。

2405芯片2405芯片是一种高性能的处理器芯片，采用先进的制造工艺和设计理念，具有出色的性能和功能。

本文将对2405芯片的技术规格、应用领域和未来发展进行详细介绍。

首先，2405芯片采用了先进的制造工艺，如14nm或更小的制程技术，能够在较小的面积上集成更多的晶体管，提供更高的计算能力和更低的功耗。

它通常具有多个核心，采用超线程技术，能够同时处理多个线程，提高处理效率。

此外，2405芯片还配备了高频率的主频和大容量的高速缓存，以加快数据运算和访问速度。

2405芯片具有广泛的应用领域。

首先，它适用于高性能计算、人工智能和机器学习等领域。

2405芯片的高计算能力和并行处理能力，使其能够快速处理大规模的数据和复杂的算法，满足高性能计算的需求。

其次，它还适用于移动设备和嵌入式系统等领域。

2405芯片采用低功耗设计，可以延长电池寿命，并提供可靠的性能。

此外，2405芯片还支持高清视频播放和图形处理能力，适用于智能电视、游戏主机和虚拟现实等领域。

随着科技的不断发展，2405芯片的未来发展也非常值得期待。

首先，由于人工智能和机器学习的快速发展，2405芯片将继续提升计算能力和并行处理能力，以满足更高的需求。

其次，随着物联网的普及，2405芯片将进一步优化功耗和安全性能，以应对大规模连接的需求。

此外，随着5G技术的普及，2405芯片将支持更高的数据传输速度和更低的时延，提供更顺畅的网络体验。

总而言之，2405芯片是一种先进的处理器芯片，具有出色的性能和功能。

它的应用领域广泛，包括高性能计算、人工智能和机器学习、移动设备和嵌入式系统等。

未来，随着科技的不断发展，2405芯片将在计算能力、功耗和安全性能等方面继续进一步提升，满足不断增长的需求。