SLF12575T-470M2R7-PF
IBM小型机配件
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X3755 CPU 内存板 42D3093 44R5988 42D3097 40K7532 42D3108 P6 550 CPU 内存板
42R6609 44V3841 模块 44V6625 97P5095
IBM P570 7782 cpu 内存板 实物拍摄
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42D3097
X365 散热片 FRU: 90P5046
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59p2952 X360 远程卡
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IBM P550 5264 CPU 内存板
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P6 570 CPU 内存板
46K6860 42R5983 42R5967 散热片
SLF12565T-470M2R4资料
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LM2727/LM2737N-Channel FET Synchronous Buck Regulator Controller for Low Output VoltagesGeneral DescriptionThe LM2727and LM2737are high-speed,synchronous,switching regulator controllers.They are intended to control currents of 0.7A to 20A with up to 95%conversion efficien-cies.The LM2727employs output over-voltage and under-voltage latch-off.For applications where latch-off is not de-sired,the LM2737can be used.Power up and down sequencing is achieved with the power-good flag,adjustable soft-start and output enable features.The LM2737and LM2737operate from a low-current 5V bias and can convert from a 2.2V to 16V power rail.Both parts utilize a fixed-frequency,voltage-mode,PWM control architecture and the switching frequency is adjustable from 50kHz to 2MHz by adjusting the value of an external resistor.Current limit is achieved by monitoring the voltage drop across the on-resistance of the low-side MOSFET,which enhances low duty-cycle operation.The wide range of operating frequen-cies gives the power supply designer the flexibility to fine-tune component size,cost,noise and efficiency.The adap-tive,non-overlapping MOSFET gate-drivers and high-side bootstrap structure helps to further maximize efficiency.The high-side power FET drain voltage can be from 2.2V to 16V and the output voltage is adjustable down to 0.6V.Featuresn Input power from 2.2V to 16Vn Output voltage adjustable down to 0.6Vn Power Good flag,adjustable soft-start and output enable for easy power sequencingn Output over-voltage and under-voltage latch-off (LM2727)n Output over-voltage and under-voltage flag (LM2737)n Reference Accuracy:1.5%(0˚C -125˚C)n Current limit without sense resistor n Soft startn Switching frequency from 50kHz to 2MHz n TSSOP-14packageApplicationsn Cable Modemsn Set-Top Boxes/Home Gateways n DDR Core Powern High-Efficiency Distributed Power nLocal Regulation of Core PowerTypical Application20049410June 2003LM2727/LM2737N-Channel FET Synchronous Buck Regulator Controller for Low Output Voltages©2003National Semiconductor Corporation Connection Diagram2004941114-Lead Plastic TSSOPθJA =155˚C/WNS Package Number MTC14Pin DescriptionBOOT (Pin 1)-Supply rail for the N-channel MOSFET gate drive.The voltage should be at least one gate threshold above the regulator input voltage to properly turn on the high-side N-FET.LG (Pin 2)-Gate drive for the low-side N-channel MOSFET.This signal is interlocked with HG to avoid shoot-through problems.PGND (Pins 3,13)-Ground for FET drive circuitry.It should be connected to system ground.SGND (Pin 4)-Ground for signal level circuitry.It should be connected to system ground.V CC (Pin 5)-Supply rail for the controller.PWGD (Pin 6)-Power Good.This is an open drain output.The pin is pulled low when the chip is in UVP ,OVP ,or UVLO mode.During normal operation,this pin is connected to V CC or other voltage source through a pull-up resistor.ISEN (Pin 7)-Current limit threshold setting.This sources a fixed 50µA current.A resistor of appropriate value should be connected between this pin and the drain of the low-side FET.EAO (Pin 8)-Output of the error amplifier.The voltage level on this pin is compared with an internally generated ramp signal to determine the duty cycle.This pin is necessary for compensating the control loop.SS (Pin 9)-Soft start pin.A capacitor connected between this pin and ground sets the speed at which the output voltage ramps rger capacitor value results in slower output voltage ramp but also lower inrush current.FB (Pin 10)-This is the inverting input of the error amplifier,which is used for sensing the output voltage and compen-sating the control loop.FREQ (Pin 11)-The switching frequency is set by connect-ing a resistor between this pin and ground.SD (Pin 12)-IC Logic Shutdown.When this pin is pulled low the chip turns off the high side switch and turns on the low side switch.While this pin is low,the IC will not start up.An internal 20µA pull-up connects this pin to V CC .HG (Pin 14)-Gate drive for the high-side N-channel MOS-FET.This signal is interlocked with LG to avoid shoot-through problems.L M 2727/L M 2737 2Absolute Maximum Ratings(Note1) If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications.V CC7V BOOTV21V Junction Temperature150˚C Storage Temperature−65˚C to150˚C Soldering InformationLead Temperature(soldering,10sec)260˚CInfrared or Convection(20sec)235˚C ESD Rating2kVOperating RatingsSupply Voltage(V CC) 4.5V to5.5V Junction Temperature Range−40˚C to+125˚C Thermal Resistance(θJA)155˚C/WElectrical CharacteristicsV CC=5V unless otherwise indicated.Typicals and limits appearing in plain type apply for T A=T J=+25˚C.Limits appearing in boldface type apply over full Operating Temperature Range.Datasheet min/max specification limits are guaranteed by design, test,or statistical analysis.Symbol Parameter Conditions Min Typ Max UnitsV FB_ADJ FB Pin Voltage V CC=4.5V,0˚C to+125˚C0.5910.60.609V V CC=5V,0˚C to+125˚C0.5910.60.609V CC=5.5V,0˚C to+125˚C0.5910.60.609V CC=4.5V,−40˚C to+125˚C0.5890.60.609V CC=5V,−40˚C to+125˚C0.5890.60.609V CC=5.5V,−40˚C to+125˚C0.5890.60.609V ON UVLO Thresholds RisingFalling 4.23.6VI Q-V5Operating V CC CurrentSD=5V,FB=0.55VFsw=600kHz1 1.52mASD=5V,FB=0.65VFsw=600kHz0.8 1.7 2.2 Shutdown V CC Current SD=0V0.150.40.7mAt PWGD1PWGD Pin Response Time FB Voltage Going Up6µs t PWGD2PWGD Pin Response Time FB Voltage Going Down6µs I SD SD Pin Internal Pull-up Current20µA I SS-ON SS Pin Source Current SS Voltage=2.5V0˚C to+125˚C -40˚C to+125˚C 8511111515µAI SS-OC SS Pin Sink Current During OverCurrent SS Voltage=2.5V95µAI SEN-TH I SEN Pin Source Current TripPoint0˚C to+125˚C-40˚C to+125˚C352850506565µAERROR AMPLIFIERGBW Error Amplifier Unity GainBandwidth5MHzG Error Amplifier DC Gain60dBSR Error Amplifier Slew Rate6V/µAI FB FB Pin Bias Current FB=0.55VFB=0.65V 01530100155nAI EAO EAO Pin Current Sourcing andSinking V EAO=2.5,FB=0.55VV EAO=2.5,FB=0.65V2.80.8mAV EA Error Amplifier Maximum Swing MinimumMaximum1.23.2VLM2727/LM27373Electrical Characteristics(Continued)V CC =5V unless otherwise indicated.Typicals and limits appearing in plain type apply for T A =T J =+25˚C.Limits appearing in boldface type apply over full Operating Temperature Range.Datasheet min/max specification limits are guaranteed by design,test,or statistical analysis.SymbolParameterConditionsMinTypMaxUnitsGATE DRIVE I Q-BOOTBOOT Pin Quiescent CurrentBOOTV =12V,EN =00˚C to +125˚C -40˚C to +125˚C 9595160215µAR DS1Top FET Driver Pull-Up ON resistanceBOOT-SW =5V @350mA 3ΩR DS2Top FET Driver Pull-Down ON resistanceBOOT-SW =5V @350mA 2ΩR DS3Bottom FET Driver Pull-Up ON resistanceBOOT-SW =5V @350mA 3ΩR DS4Bottom FET Driver Pull-Down ON resistanceBOOT-SW =5V @350mA2ΩOSCILLATORf OSCPWM FrequencyR FADJ =590k Ω50kHzR FADJ =88.7k Ω300R FADJ =42.2k Ω,0˚C to +125˚C 500600700R FADJ =42.2k Ω,-40˚C to +125˚C 490600700R FADJ =17.4k Ω1400R FADJ =11.3k Ω2000DMax Duty Cyclef PWM =300kHz f PWM =600kHz9088%LOGIC INPUTS AND OUTPUTSV SD-IH SD Pin Logic High Trip Point 2.63.5V V SD-IL SD Pin Logic Low Trip Point 0˚C to +125˚C -40˚C to +125˚C 1.31.25 1.61.6VV PWGD-TH-LOPWGD Pin Trip PointsFB Voltage Going Down 0˚C to +125˚C -40˚C to +125˚C 0.4130.4100.4300.4300.4460.446VV PWGD-TH-HIPWGD Pin Trip PointsFB Voltage Going Up 0˚C to +125˚C -40˚C to +125˚C0.6910.6880.7100.7100.7340.734VV PWGD-HYSPWGD Hysteresis (LM2737only)FB Voltage Going Down FB VoltageGoing Up35110mVNote 1:Absolute maximum ratings indicate limits beyond which damage to the device may occur.Operating ratings indicate conditions for which the device operates correctly.Opearting Ratings do not imply guaranteed performance limits.Note 2:The human body model is a 100pF capacitor discharged through a 1.5k resistor into each pin.L M 2727/L M 2737 4Typical Performance CharacteristicsEfficiency (V O =1.5V)F SW =300kHz,T A =25˚CEfficiency (V O =3.3V)F SW =300kHz,T A =25˚C2004941220049413V CC Operating Current vs TemperatureF SW =600kHz,No-Load Bootpin Current vs Temperature for BOOTV =12VF SW =600kHz,Si4826DY FET,No-Load2004941420049415Bootpin Current vs Temperature with 5V BootstrapF SW =600kHz,Si4826DY FET,No-Load PWM Frequency vs Temperaturefor R FADJ =43.2k Ω2004941620049417LM2727/LM27375Typical Performance Characteristics(Continued)R FADJ vs PWM Frequency(in 100to 800kHz range),T A =25˚CR FADJ vs PWM Frequency(in 900to 2000kHz range),T A =25˚C2004941820049419V CC Operating Current Plus Boot Current vs PWM Frequency (Si4826DY FET,T A =25˚C)Switch Waveforms (HG Falling)V IN =5V,V O =1.8V I O =3A,C SS =10nF F SW =600kHz2004942020049423Switch Waveforms (HG Rising)V IN =5V,V O =1.8V I O =3A,F SW =600kHzStart-Up (No-Load)V IN =10V,V O =1.2V C SS =10nF,F SW =300kHz2004942420049421L M 2727/L M 2737 6Typical Performance Characteristics(Continued)Start-Up (Full-Load)V IN =10V,V O =1.2V I O =10A,C SS =10nFF SW =300kHzStart Up (No-Load,10x C SS )V IN =10V,V O =1.2V C SS =100nF,F SW =300kHz2004942220049426Start Up (Full Load,10x C SS )V IN =10V,V O =1.2V I O =10A,C SS =100nFF SW =300kHz ShutdownV IN =10V,V O =1.2V I O =10A,C SS =10nFF SW =300kHz2004942520049427Start Up (Full Load,10x C SS )V IN =10V,V O =1.2V I O =10A,C SS =100nFF SW =300kHzLoad Transient Response (I O =0to 4A)V IN =12V,V O =1.2VF SW =300kHz2004943320049428LM2727/LM27377Typical Performance Characteristics(Continued)Load Transient Response (I O =4to 0A)V IN =12V,V O =1.2VF SW =300kHzLine Transient Response (V IN =5V to 12V)V O =1.2V,I O =5A F SW =300kHz2004942920049430Line Transient Response (V IN =12V to 5V)V O =1.2V,I O =5A F SW =300kHz Line Transient ResponseV O =1.2V,I O =5A F SW =300kHz2004943120049432L M 2727/L M 2737 8Block Diagram20049401Application InformationTHEORY OF OPERATIONThe LM2727is a voltage-mode,high-speed synchronous buck regulator with a PWM control scheme.It is designed for use in set-top boxes,thin clients,DSL/Cable modems,and other applications that require high efficiency buck convert-ers.It has power good (PWRGD),output shutdown (SD),over voltage protection (OVP)and under voltage protection (UVP).The over-voltage and under-voltage signals are OR gated to drive the Power Good signal and a shutdown latch,which turns off the high side gate and turns on the low side gate if pulled low.Current limit is achieved by sensing the voltage V DS across the low side FET.During current limit the high side gate is turned off and the low side gate turned on.The soft start capacitor is discharged by a 95µA source (reducing the maximum duty cycle)until the current is under control.The LM2737does not latch off during UVP or OVP ,and uses the HIGH and LOW comparators for the power-good function only.START UPWhen V CC exceeds 4.2V and the enable pin EN sees a logic high the soft start capacitor begins charging through an internal fixed 10µA source.During this time the output of the error amplifier is allowed to rise with the voltage of the soft start capacitor.This capacitor,Css,determines soft start time,and can be determined approximately by:An application for a microprocessor might need a delay of 3ms,in which case C SS would be 12nF.For a different device,a 100ms delay might be more appropriate,in which case C SS would be 400nF.(39010%)During soft start the PWRGD flag is forced low and is released when the voltage reaches a set value.At this point this chip enters normal operation mode,the Power Good flag is released,and the OVP and UVP functions begin to monitor Vo.NORMAL OPERATIONWhile in normal operation mode,the LM2727/37regulates the output voltage by controlling the duty cycle of the high side and low side FETs.The equation governing output voltage is:The PWM frequency is adjustable between 50kHz and 2MHz and is set by an external resistor,R FADJ ,between the FREQ pin and ground.The resistance needed for a desired frequency is approximately:LM2727/LM27379Application Information(Continued)MOSFET GATE DRIVERSThe LM2727/37has two gate drivers designed for driving N-channel MOSFETs in a synchronous mode.Power for the drivers is supplied through the BOOTV pin.For the high side gate (HG)to fully turn on the top FET,the BOOTV voltage must be at least one V GS(th)greater than Vin.(BOOTV ≥2*Vin)This voltage can be supplied by a separate,higher voltage source,or supplied from a local charge pump struc-ture.In a system such as a desktop computer,both 5V and 12V are usually available.Hence if Vin was 5V,the 12V supply could be used for BOOTV.12V is more than 2*Vin,so the HG would operate correctly.For a BOOTV of 12V,the initial gate charging current is 2A,and the initial gate dis-charging current is typically 6A.In a system without a separate,higher voltage,a charge pump (bootstrap)can be built using a diode and small ca-pacitor,Figure 1.The capacitor serves to maintain enough voltage between the top FET gate and source to control the device even when the top FET is on and its source has risen up to the input voltage level.The LM2727/37gate drives use a BiCMOS design.Unlike some other bipolar control ICs,the gate drivers have rail-to-rail swing,ensuring no spurious turn-on due to capacitive coupling.POWER GOOD SIGNALThe power good signal is the or-gated flag representing over-voltage and under-voltage protection.If the output volt-age is 18%over it’s nominal value,V FB =0.7V,or falls 30%below that value,V FB =0.41V,the power good flag goes low.The converter then turns off the high side gate,and turns on the low side gate.Unlike the output (LM2727only)the power good flag is not latched off.It will return to a logic high whenever the feedback pin voltage is between 70%and 118%of 0.6V.UVLOThe 4.2V turn-on threshold on V CC has a built in hysteresis of 0.6V.Therefore,if V CC drops below 3.6V,the chip enters UVLO mode.UVLO consists of turning off the top FET,turning on the bottom FET,and remaining in that conditionuntil V CC rises above 4.2V.As with shutdown,the soft start capacitor is discharged through a FET,ensuring that the next start-up will be smooth.CURRENT LIMITCurrent limit is realized by sensing the voltage across the low side FET while it is on.The R DSON of the FET is a known value,hence the current through the FET can be determined as:V DS =I *R DSON The current limit is determined by an external resistor,R CS ,connected between the switch node and the ISEN pin.A constant current of 50µA is forced through Rcs,causing a fixed voltage drop.This fixed voltage is compared against V DS and if the latter is higher,the current limit of the chip has been reached.R CS can be found by using the following:R CS =R DSON (LOW)*I LIM /50µAFor example,a conservative 15A current limit in a 10A design with a minimum R DSON of 10m Ωwould require a 3.3k Ωresistor.Because current sensing is done across the low side FET,no minimum high side on-time is necessary.In the current limit mode the LM2727/37will turn the high side off and the keep low side on for as long as necessary.The chip also discharges the soft start capacitor through a fixed 95µA source.In this way,smooth ramping up of the output voltage as with a normal soft start is ensured.The output of the LM2727/37internal error amplifier is limited by the volt-age on the soft start capacitor.Hence,discharging the soft start capacitor reduces the maximum duty cycle D of the controller.During severe current limit,this reduction in duty cycle will reduce the output voltage,if the current limit con-ditions lasts for an extended time.During the first few nanoseconds after the low side gate turns on,the low side FET body diode conducts.This causes an additional 0.7V drop in V DS .The range of V DS is normally much lower.For example,if R DSON were 10m Ωand the current through the FET was 10A,V DS would be 0.1V.The current limit would see 0.7V as a 70A current and enter current limit immediately.Hence current limit is masked dur-ing the time it takes for the high side switch to turn off and the low side switch to turn on.UVP/OVPThe output undervoltage protection and overvoltage protec-tion mechanisms engage at 70%and 118%of the target output voltage,respectively.In either case,the LM2727will turn off the high side switch and turn on the low side switch,and discharge the soft start capacitor through a MOSFET switch.The chip remains in this state until the shutdown pin has been pulled to a logic low and then released.The UVP function is masked only during the first charging of the soft start capacitor,when voltage is first applied to the V CC pin.In contrast,the LM2737is designed to continue operating dur-ing UVP or OVP conditions,and to resume normal operation once the fault condition is cleared.As with the LM2727,the powergood flag goes low during this time,giving a logic-level warning signal.SHUT DOWNIf the shutdown pin SD is pulled low,the LM2727/37dis-charges the soft start capacitor through a MOSFET switch.The high side switch is turned off and the low side switch is turned on.The LM2727/37remains in this state until SD is released.20049402FIGURE 1.BOOTV Supplied by Charge Pump L M 2727/L M 2737 10Application Information(Continued)DESIGN CONSIDERATIONSThe following is a design procedure for all the componentsneeded to create the circuit shown in Figure3in the Ex-ample Circuits section,a5V in to1.2V out converter,capableof delivering10A with an efficiency of85%.The switchingfrequency is300kHz.The same procedures can be followedto create the circuit shown in Figure3,Figure4,and tocreate many other designs with varying input voltages,out-put voltages,and output currents.INPUT CAPACITORThe input capacitors in a Buck switching converter are sub-jected to high stress due to the input current waveform,which is a square wave.Hence input caps are selected fortheir ripple current capability and their ability to withstand theheat generated as that ripple current runs through their ESR.Input rms ripple current is approximately:The power dissipated by each input capacitor is:Here,n is the number of capacitors,and indicates that powerloss in each cap decreases rapidly as the number of inputcaps increase.The worst-case ripple for a Buck converteroccurs during full load,when the duty cycle D=50%.In the5V to 1.2V case,D= 1.2/5=0.24.With a10Amaximum load the ripple current is 4.3A.The Sanyo10MV5600AX aluminum electrolytic capacitor has a ripplecurrent rating of2.35A,up to105˚C.Two such capacitorsmake a conservative design that allows for unequal currentsharing between individual caps.Each capacitor has a maxi-mum ESR of18mΩat100kHz.Power loss in each device isthen0.05W,and total loss is0.1W.Other possibilities forinput and output capacitors include MLCC,tantalum,OSCON,SP,and POSCAPS.INPUT INDUCTORThe input inductor serves two basic purposes.First,in highpower applications,the input inductor helps insulate theinput power supply from switching noise.This is especiallyimportant if other switching converters draw current from thesame supply.Noise at high frequency,such as that devel-oped by the LM2727at1MHz operation,could pass throughthe input stage of a slower converter,contaminating andpossibly interfering with its operation.An input inductor also helps shield the LM2727from highfrequency noise generated by other switching converters.The second purpose of the input inductor is to limit the inputcurrent slew rate.During a change from no-load to full-load,the input inductor sees the highest voltage change across it,equal to the full load current times the input capacitor ESR.This value divided by the maximum allowable input currentslew rate gives the minimum input inductance:In the case of a desktop computer system,the input currentslew rate is the system power supply or"silver box"outputcurrent slew rate,which is typically about0.1A/µs.Total inputcapacitor ESR is9mΩ,hence∆V is10*0.009=90mV,andthe minimum inductance required is0.9µH.The input induc-tor should be rated to handle the DC input current,which isapproximated by:In this case I IN-DC is about2.8A.One possible choice is theTDK SLF12575T-1R2N8R2,a1.2µH device that can handle8.2Arms,and has a DCR of7mΩ.OUTPUT INDUCTORThe output inductor forms the first half of the power stage ina Buck converter.It is responsible for smoothing the squarewave created by the switching action and for controlling theoutput current ripple.(∆I o)The inductance is chosen byselecting between tradeoffs in efficiency and response time.The smaller the output inductor,the more quickly the con-verter can respond to transients in the load current.Asshown in the efficiency calculations,however,a smaller in-ductor requires a higher switching frequency to maintain thesame level of output current ripple.An increase in frequencycan mean increasing loss in the FETs due to the chargingand discharging of the gates.Generally the switching fre-quency is chosen so that conduction loss outweighs switch-ing loss.The equation for output inductor selection is:Plugging in the values for output current ripple,input voltage,output voltage,switching frequency,and assuming a40%peak-to-peak output current ripple yields an inductance of1.5µH.The output inductor must be rated to handle the peakcurrent(also equal to the peak switch current),which is(Io+0.5*∆I o).This is12A for a10A design.The Coilcraft D05022-152HC is1.5µH,is rated to15Arms,and has a DCR of4mΩ.OUTPUT CAPACITORThe output capacitor forms the second half of the powerstage of a Buck switching converter.It is used to control theoutput voltage ripple(∆V o)and to supply load current duringfast load transients.In this example the output current is10A and the expectedtype of capacitor is an aluminum electrolytic,as with theinput capacitors.(Other possibilities include ceramic,tanta-lum,and solid electrolyte capacitors,however the ceramictype often do not have the large capacitance needed tosupply current for load transients,and tantalums tend to bemore expensive than aluminum electrolytic.)Aluminum ca-pacitors tend to have very high capacitance and fairly lowESR,meaning that the ESR zero,which affects systemstability,will be much lower than the switching frequency.The large capacitance means that at switching frequency,the ESR is dominant,hence the type and number of outputcapacitors is selected on the basis of ESR.One simpleformula to find the maximum ESR based on the desiredoutput voltage ripple,∆V o and the designed output currentripple,∆I o,is:LM2727/LM2737Application Information(Continued)In this example,in order to maintain a 2%peak-to-peak output voltage ripple and a 40%peak-to-peak inductor cur-rent ripple,the required maximum ESR is 6m Ω.Three Sanyo 10MV5600AX capacitors in parallel will give an equivalent ESR of 6m Ω.The total bulk capacitance of 16.8mF is enough to supply even severe load ing the same capacitors for both input and output also keeps the bill of materials simple.MOSFETSMOSFETS are a critical part of any switching controller and have a direct impact on the system efficiency.In this case the target efficiency is 85%and this is the variable that will determine which devices are acceptable.Loss from the ca-pacitors,inductors,and the LM2727itself are detailed in the Efficiency section,and come to about 0.54W.To meet the target efficiency,this leaves 1.45W for the FET conduction loss,gate charging loss,and switching loss.Switching loss is particularly difficult to estimate because it depends on many factors.When the load current is more than about 1or 2amps,conduction losses outweigh the switching and gate charging losses.This allows FET selection based on the R DSON of the FET.Adding the FET switching and gate-charging losses to the equation leaves 1.2W for conduction losses.The equation for conduction loss is:P Cnd =D(I 2o *R DSON *k)+(1-D)(I 2o *R DSON *k)The factor k is a constant which is added to account for the increasing R DSON of a FET due to heating.Here,k =1.3.The Si4442DY has a typical R DSON of 4.1m Ω.When plugged into the equation for P CND the result is a loss of 0.533W.If this design were for a 5V to 2.5V circuit,an equal number of FETs on the high and low sides would be the best solution.With the duty cycle D =0.24,it becomes apparent that the low side FET carries the load current 76%of the time.Adding a second FET in parallel to the bottom FET could improve the efficiency by lowering the effective R DSON .The lower the duty cycle,the more effective a second or even third FET can be.For a minimal increase in gate charging loss (0.054W)the decrease in conduction loss is 0.15W.What was an 85%design improves to 86%for the added cost of one SO-8MOSFET.CONTROL LOOP COMPONENTSThe circuit is this design example and the others shown in the Example Circuits section have been compensated to improve their DC gain and bandwidth.The result of this compensation is better line and load transient responses.For the LM2727,the top feedback divider resistor,Rfb2,is also a part of the compensation.For the 10A,5V to 1.2V design,the values are:Cc1=4.7pF 10%,Cc2=1nF 10%,Rc =229k Ω1%.These values give a phase margin of 63˚and a bandwidth of 29.3kHz.SUPPORT CAPACITORS AND RESISTORSThe Cinx capacitors are high frequency bypass devices,designed to filter harmonics of the switching frequency and input noise.Two 1µF ceramic capacitors with a sufficient voltage rating (10V for the Circuit of Figure 3)will work well in almost any case.Rbypass and Cbypass are standard filter components de-signed to ensure smooth DC voltage for the chip supply and for the bootstrap structure,if it is e 10Ωfor the resistor and a 2.2µF ceramic for the cap.Cb is the bootstrap capacitor,and should be 0.1µF.(In the case of a separate,higher supply to the BOOTV pin,this 0.1µF cap can be used to bypass the supply.)Using a Schottky device for the boot-strap diode allows the minimum drop for both high and low side drivers.The On Semiconductor BAT54or MBR0520work well.Rp is a standard pull-up resistor for the open-drain power good signal,and should be 10k Ω.If this feature is not necessary,it can be omitted.R CS is the resistor used to set the current limit.Since the design calls for a peak current magnitude (Io +0.5*∆I o )of 12A,a safe setting would be 15A.(This is well below the saturation current of the output inductor,which is 25A.)Following the equation from the Current Limit section,use a 3.3k Ωresistor.R FADJ is used to set the switching frequency of the chip.Following the equation in the Theory of Operation section,the closest 1%tolerance resistor to obtain f SW =300kHz is 88.7k Ω.C SS depends on the users requirements.Based on the equation for C SS in the Theory of Operation section,for a 3ms delay,a 12nF capacitor will suffice.EFFICIENCY CALCULATIONSA reasonable estimation of the efficiency of a switching controller can be obtained by adding together the loss is each current carrying element and using the equation:The following shows an efficiency calculation to complement the Circuit of Figure 3.Output power for this circuit is 1.2V x 10A =12W.Chip Operating LossP IQ =I Q-V CC *V CC2mA x 5V =0.01WFET Gate Charging LossP GC =n *V CC *Q GS *f OSCThe value n is the total number of FETs used.The Si4442DY has a typical total gate charge,Q GS ,of 36nC and an r ds-on of 4.1m Ω.For a single FET on top and bottom:2*5*36E -9*300,000=0.108W FET Switching LossP SW =0.5*V in *I O *(t r +t f )*f OSC The Si4442DY has a typical rise time t r and fall time t f of 11and 47ns,respectively.0.5*5*10*58E -9*300,000=0.435WL M 2727/L M 2737。
RVT贴片铝电解电容470UF35V 10X10规格书
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Note: All design and specifications are for reference only and is subject to change without prior notice. If any doubt about safety for your application, please contact us immediately for technical assistance before purchase.注: 以上所提供的設計及特性參數僅供參考,任何修改不作預先通知。
如果在使用上有疑問,請在採購前與我們聯繫,以便提供技術上的協助。
WIDE TEMPERATURE寬溫品Operating with wide temperature range -40~+105°C 適用於 -40~+105°C 的寬溫範圍 Load life of 1000~2000 hours 負荷壽命1000~2000小時Comply with the RoHS directive 符合RoHS 指令SPECIFICATIONS 特性表Items 項目Characteristics 主要特性Operation Temperature Range 使用温度範圍 -40 ~ +105°C Voltage Range 額定工作電壓範圍 4 ~ 450V Capacitance Range 靜電容量範圍 0.1 ~ 6800μF Capacitance Tolerance 靜電容量允許偏差±20% at 120Hz, 20°C Leakage Current 漏電流Rated Voltage 額定工作電壓 6.3 ~ 100V160 ~ 450VCase size 尺寸 ∅4~∅10∅12.5~∅16∅6.3~∅16Time 時間after 2 min. (application of rated voltage)2分鐘後(施加額定工作電壓)after 1 min. (application of rated voltage) 1分鐘後(施加額定工作電壓) after 5 min. (application of rated voltage)5分鐘後(施加額定工作電壓)Leakage current 漏電流≤0.01CV or 3μA, whichever is greater ≤0.01CV 或3μA ,取較大值≤0.03CV or 4μA, whichever is greater ≤0.03CV 或4μA ,取較大值≤0.04CV+100μA, whichever is greater ≤0.04CV+100μA ,取較大值Dissipation Factor (tan δ) 損耗角正切Measurement frequency 測試頻率: 120Hz, Temperature 温度: 20°C Rated Voltage (V) 額定工作電壓 4 6.31016253550 63 100 160~250350~450tan δ (max.) 最大損耗角正切 ∅4~∅100.420.300.260.220.160.14 0.12 0.10 0.100.20 0.25 ∅12.5~∅160.450.380.340.300.260.22 0.18 0.14 0.100.20 0.25Stability at Low Temperature低溫特性Measurement frequency 測試頻率: 120HzRated Voltage (V) 額定工作電壓 4 6.3101625 35 50~63 100160~250350~450Impedance Ratio 阻抗比ZT/Z20 (max.) ∅4~∅10Z(-25°C)/Z(20°C)7 4 3 2 2 2 2 3 2 3Z(-40°C)/Z(20°C)158 6 4 4 3 3 4 3 6∅12.5~∅16Z(-25°C)/Z(20°C)7 5 4 3 2 2 2 2 2 4Z(-40°C)/Z(20°C)1712108 5 4 3 3 6 10 Load Life 高溫負荷特性After 2000 hrs. (1000 hrs. for ∅4~∅6.3×5.4) application of the rated voltage at 105°C, they meet the characteristics listedbelow. 在105°C 環境中施加額定工作電壓2000小時(∅4~∅6.3×5.4為1000小時)後,電容器的特性符合下表的要求。
0R7整机测试规格书(老化前)-数据比较
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测试参数版本0.10.1测试参数归档日期20120104整机版本:V02测试参数版本0303测试参数归档日期20120625整机版本:V1.610.1TP134静态测试完毕,上电10%测试03TP134静态测试完毕,上电10%测试0.1TP135直流电压测试03TP135直流电压测试0.1TP136测试24V电源起振电压240V03TP136测试24V电源起振电压240V0.1TP137540V额定电压下母线值PN 风机上电运行03TP137540V额定电压下母线值PN 风机上电运行0.1TP138变频器母线比例100%03TP138变频器母线比例100%0.1TP139变频器读取值PN03TP139变频器读取值PN0.1TP140母线比例修正03TP140母线比例修正0.1TP142变频器G型机额定电流设定03TP142变频器G型机额定电流设定0.1TP145P1.04 P1.1103TP145P1.04 P1.110.1TP146P1.06 F4.2803TP146P1.06 F4.280.1TP148参数恢复出厂值F0.2803TP148参数恢复出厂值F0.280.1TP152变频器额定电流读取FD.2303TP152变频器额定电流读取FD.230.1TP154电机功率设定F1.0103TP154电机功率设定F1.010.1TP155电机电压设定F1.0203TP155电机电压设定F1.020.1TP156电机电流设定F1.0303TP156电机电流设定F1.030.1TP157电机频率设定F1.0403TP157电机频率设定F1.040.1TP158电机转速设定F1.0503TP158电机转速设定F1.050.1TP159电机连接方法设定F1.0603TP159电机连接方法设定F1.060.1TP172测试母线电压为700V03TP172测试母线电压为700V0.1TP173测试制动电压700V制动输出电压 加速15s 03TP173测试制动电压700V制动输出电压 加速15s 0.1TP18424V电源测试03TP18424V电源测试0.1TP200读取电机额定电流F1.0303TP200读取电机额定电流F1.03410257EM303A系列变频器整机调试检验规范(0)端子测试放到市电测试制动测试放到市电测试410257EM303A系列变频器整机调试检验规范(0)端子测试放到市电测试制动测试放到市电测试D00:D01SINE1:COM1:04061604010410000SINE1:COM1:040316040001:0.1 D00:D01SINE1:COM1:0406160401502000SINE1:COM1:040316040001:0.1 D00:D13:D46DMM1:COM5:RANGE 52000DMM1:COM5:VAL?:RD00:D13:D46DMM1:COM5:RANGE 56000DMM1:COM5:VAL?:RD00:D13:D30SINE1:COM2:01060C0300005000DMM1:COM5:VAL?:RD00:D13:D30SINE1:COM2:01060C0300006000DMM1:COM5:VAL?:RD00:D13:D46SINE1:COM1:04061604025812000SINE1:COM2:01060C030000:1D00:D13:D46SINE1:COM1:0406160402583000SINE1:COM2:01060C030000:1D00:D13:D46SINE1:COM2:01060D1D04383000DMM1:COM5:VAL?:RD00:D13:D46DMM1:COM5:VDC:RATE F3000DMM1:COM5:VAL?:RD00:D13:D46SINE1:COM2:0106130627103000SINE1:COM2:010*********:1D00:D13:D461000SINE1:COM2:010*********:1D00:D13:D46SINE1:COM2:0106130427101000FORMULA:DIV:38:39D00:D13:D46SINE1:COM2:01060D1D04381000FORMULA:DIV:38:39D00:D01:D13:SINE1:COM2:010********C100SINE1:COM2:010*********:0.1 D00:D01:D13:SINE1:COM2:010********C100SINE1:COM2:010*********:0.1 D00:D01:D13:100SINE1:COM2:0106130B0000D00:D01:D13:SINE1:COM2:010613042710100SINE1:COM2:0106130B0000D00:D01:D13:100SINE1:COM2:0106041C0000D00:D01:D13:SINE1:COM2:010613062710100SINE1:COM2:0106041C0000D00:D01:D13:SINE1:COM2:0106001C000115000SINE1:COM2:01060C030000:1D00:D01:D13:SINE1:COM2:0106001C000112000SINE1:COM2:01060C030000:1D00:D01:D13:SINE1:COM2:01060C120001100SINE1:COM2:01030D170001:0.1 D00:D01:D13:SINE1:COM2:01060C120001100SINE1:COM2:01030D170001:0.1 D00:D01:D13:SINE1:COM2:010********B200SINE1:COM2:010********BD00:D01:D13:SINE1:COM2:010********B:0.01200SINE1:COM2:010********B:0.01 D00:D01:D13:200SINE1:COM2:010*********:1D00:D01:D13:SINE1:COM2:010********C:1200SINE1:COM2:010********C:1D00:D01:D13:200SINE1:COM2:010*********:0.1 D00:D01:D13:SINE1:COM2:010*********:0.1200SINE1:COM2:010*********:0.1D00:D01:D13:200SINE1:COM2:010*********:0.01 D00:D01:D13:SINE1:COM2:010*********:0.01200SINE1:COM2:010*********:0.01 D00:D01:D13:200SINE1:COM2:010*********:1D00:D01:D13:SINE1:COM2:010*********:1200SINE1:COM2:010*********:1D00:D01:D13:SINE1:COM2:010601060000200SINE1:COM2:010*********:1D00:D01:D13:SINE1:COM2:010*********:1200SINE1:COM2:010*********:1D00:D13:D46SINE1:COM1:0406160403995000DMM1:COM5:VAL?:RD00:D13:D46SINE1:COM1:0406160403A25000DMM1:COM5:VAL?:RD00:D13:D501000DMM1:COM5:VAL?:RD00:D13:D501000DMM1:COM5:VAL?:RD00:D11:D14:D30SINE1:COM2:010********F1000DMM1:COM5:VAL?:RD00:D11:D14:D301000DMM1:COM5:VAL?:RD00:D11:D12:D14SINE1:COM2:010600040000100SINE1:COM2:010*********:0.1 D00:D11:D12:D14SINE1:COM2:010600040000100SINE1:COM2:010*********:0.1F0T1313.2D00:D01100 F0T13.013.2D00:D01100F0F200350D00:D13:100 F0F200350D00:D13:100F0F2225D00:D13:100 F0F2226D00:D13:100 F0F00D00:D13:1000 F0F00D00:D13:1000F0F400610D00:D13:100 F0F400610D00:D13:100 F0F400610D00:D13:100 F0F400610D00:D13:100F0F0.9 1.1D00:D13:100 F0F0.90 1.1D00:D13:100 F0F 2.8 2.8D00:D01:D13:100 F0F 2.80 2.80D00:D01:D13:100F0F00D00:D01:D13:100 F0F00D00:D01:D13:100 F0F00D00:D01:D13:100 F0F00D00:D01:D13:100F0F00D00:D01:D13:100 F0F00D00:D01:D13:100 F0F 2.8 2.8D00:D01:D13:100 F0F 2.80 2.80D00:D01:D13:100F0T0.750.75D00:D01:D13:200 F0T0.750.75D00:D01:D13:200 F0F380380D00:D01:D13:200 F0T380380D00:D01:D13:200F0F22D00:D01:D13:200 F0T 2.5 2.5D00:D01:D13:200F0F5050D00:D01:D13:200 F0T50.0050.00D00:D01:D13:200F0F13901390D00:D01:D13:200 F0T14001400D00:D01:D13:200F0F00D00:D01:D13:200 F0T00D00:D01:D13:200 F0F670750D00:D13100 F0F670750D00:D13100F0F670750D00:D13100 F0T670750D00:D13100 F0F2325D00:D11:D14:D30100 F0F2226D00:D11:D14:D30100F0F22D00:D11:D12:D14100 F0F 2.5 2.5D00:D11:D12:D14100。
全国最全焊条型号、用途对照表
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1、Ⅰ类材料
1
15#
J422、H08A+HJ431
2
20#+20g
TIG-J50/J427
3
20#+20g
J427
4
20g
J427
5
20g
TIG-J50/J427
6
20g
H08A+HJ431
7
20g
TIG-J50/J427
8
20R
J427
9
20R
TIG-J50/J427
119
16MnDR+0Cr18Ni9
H1Cr24Ni13、A302
120
16MnDR+16MnR
H10Mn2+E5015-G
121
16MnR+0Cr13
H1Cr24Ni13、A302
122
16MnR+12Cr2Mo
TIG-J50+J507
123
16MnR+14Cr1MoR
J057
124
16MnR+1Cr18Ni9Ti
131
20R/405+奥18-8
A132、A302
132
20R+15CrMoR
16
15CrMo+P11
H13CrMoA+R307
17
P11
H13CrMoA+R307
18
P22
TIG-R40
19
P22
TIG-R40,R407
20
P22+12Cr1MoV
H08CrMoVA/R317
联想 ThinkPad T470s安全、保修和设置指南
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第一版(2017 年 2 月) © Copyright Lenovo 2017.有限权利声明:如果数据或软件依照通用服务管理(GSA )合同提供,则其使用、复制或披露将受到 GS-35F-05925 号合同的约束。
安全、保修和设置指南ThinkPad T470s产品执行标准:GB/T 9813-2000关键 Web 资源支持:/用户论坛:https:/// 产品文档:/UserManualsPN: SP40J65600 Printed in China打开包装ThinkPad ® 计算机电源线交流电源适配器文档注:您的计算机可能未附带 Windows ® 全套恢复光盘或 U 盘。
要恢复 Microsoft ®Windows 操作系统,请参阅《用户指南》中的恢复信息。
有关其他信息,请参阅本文档后面的“访问《用户指南》”。
初始设置 1.将电源线连接到交流电源适配器,再将交流电源适配器连接到您计算机上的电源接口 ,然后将电源线插入正确接地的交流电源插座 。
确保所有电源线接头均正确并且完全地插入到插座。
2. 按电源按键以开启计算机。
然后,按照屏幕上的说明完成初始设置。
控制装置和指示灯摄像头* 麦克风*屏幕(多点触控/非触控) 电源按键指纹读取器*NFC 标志* 轨迹板TrackPoint ® 按键带指示灯的 CapsLock 键 带 Fn 锁定指示灯的 Esc 键 带扬声器静音指示灯的 F1 键 带麦克风静音指示灯的 F4 键 TrackPoint 指点杆 * 某些型号配备。
访问《用户指南》《用户指南》中包含有关计算机的详细信息。
要访问《用户指南》,请执行以下操作:Windows 10:1. 打开“开始”菜单,然后单击 Lenovo Companion 。
2. 从支持部分中单击查看用户指南。
Windows 7:1. 从 Windows 桌面上,单击开始,然后单击帮助和支持。
铝电合成电容器说明书
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本产品目录之规格如有变更恕不另行通知(CAT. 2018C1)137RZW 系列特长/用途‧105℃, 4,000 ~ 10,000小时寿命保证‧低等效串联电阻(ESR),适用交换式电源供应器(SPS) ‧制品尺寸较小并可承受大纹波电流 ‧符合RoHS 指令套管与标示颜色:黑色/金色规格表寸法图制品各项寸法单位:毫米φD 5 6.3 8 10 12.5 16 18 P 2.02.53.55.0 5.07.57.5 φd 0.50.60.8α L<20: 1.5, L ≧20: 2.0β0.5制品尺寸如为12.5×16、16×16、16×20、18×16、18×20、18×25适用下列制品尺寸图:引线型容许纹波电流:毫安/均方根值(mA/rms),100k赫兹(Hz), 105℃制品尺寸与容许纹波电流一览表阻抗值:欧姆(Ω)/最大值,100k赫兹(Hz), 20℃本产品目录之规格如有变更恕不另行通知(CAT. 2018C1)138容许纹波电流:毫安/均方根值(mA/rms),100k赫兹(Hz), 105℃制品尺寸与容许纹波电流一览表阻抗值:欧姆(Ω)/最大值,100k赫兹(Hz), 20℃产品编码说明RZW系列470微法拉± 20% 16V 长脚8φ×15L 无铅引线与PET套管RZW 471 M 1C BK - 0815系列额定静电容量额定静电容量容许误差值额定电压引线加工/包装型式胶盖型式制品尺寸制品引线与套管材质注:如需了解更详细之介绍,请参阅目录第13页”引线型产品编码说明”。
引线型本产品目录之规格如有变更恕不另行通知(CAT. 2018C1) 139。
浪潮服务器商品编码 部件产品名称 Q1对应编码 Q1对应配件名称
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商品编码部件产品名称Q1对应编码Q1对应配件名称CPUSPT0CPU0002H Inspur NF8460M3,NF8465M3Inbbb Xeon E7-4809v2(6C,105W,1.9GHz)Processor Option Kit BCX305XeonE7-4809v2(1.9GHz/6c)/6.4GT/12ML3 SPT0CPU0002I Inspur NF8460M3,NF8465M3Inbbb Xeon E7-4820v2(8C,105W,2.0GHz)Processor Option Kit BCX306XeonE7-4820v2(2.00GHz/8c)/7.2GT/16ML3 SPT0CPU0002J Inspur NF8460M3,NF8465M3Inbbb Xeon E7-4830v2(10C,105W,2.2GHz)Processor Option Kit BCX307XeonE7-4830v2(2.2GHz/10c)/7.2GT/20ML3 SPT0CPU0002K Inspur NF8460M3,NF8465M3Inbbb Xeon E7-4850v2(12C,105W,2.4GHz)Processor Option Kit BCX308XeonE7-4850v2(2.3GHz/12c)/7.2GT/24ML3 SPT0CPU0002L Inspur NF8460M3,NF8465M3Inbbb Xeon E7-4860v2(12C,130W,2.6GHz)Processor Option Kit BCX309XeonE7-4860v2(2.6GHz/12c)/8.0GT/30ML3 SPT0CPU0002M Inspur NF8460M3,NF8465M3Inbbb Xeon E7-4870v2(15C,130W,2.3GHz)Processor Option Kit BCX310XeonE7-4870v2(2.3GHz/15c)/8.0GT/30ML3 SPT0CPU0002N Inspur NF8460M3,NF8465M3Inbbb Xeon E7-4880v2(15C,130W,2.5GHz)Processor Option Kit BCX311XeonE7-4880v2(2.5GHz/15c)/8.0GT/37.5ML3 SPT0CPU0002O Inspur NF8460M3,NF8465M3Inbbb Xeon E7-4890v2(15C,155W,2.8GHz)Processor Option Kit BCX312XeonE7-4890v2(2.8GHz/15c)/8.0GT/37.5ML3 SPT0CPU0002P Inspur NF8460M3,NF8465M3Inbbb Xeon E7-8857v2(12C,130W,3.0GHz)Processor Option Kit XeonE7-8857v2-Xeon3_8.0G_30M_12CSPT0CPU0002Q Inspur NF8460M3,NF8465M3Inbbb Xeon E7-8850v2(12C,105W,3.0GHz)Processor Option Kit BCX437XeonE7-8850v2-Xeon2.3_7.2G_24M_12C SPT0CPU0002R Inspur NF8460M3,NF8465M3Inbbb Xeon E7-8870v2(15C,130w,2.3GHz)Processor Option Kit XeonE7-8870v2-Xeon2.3_8.0G_30M_15CSPT0CPU0002S Inspur NF8460M3,NF8465M3Inbbb Xeon E7-8891v2(10C,155W,3.2GHz)Processor Option Kit XeonE7-8891v2-Xeon3.2_8G_37.5M_10CSPT0CPU0002T Inspur NF8460M3,NF8465M3Inbbb Xeon E7-8893v2(6C,155W,3.4GHz)Processor Option Kit XeonE7-8893v2-Xeon3.4_8G_37.5M_6CSPT0CPU0002U Inspur NF8460M4,NF8465M4Inbbb Xeon E7-4809v3(8C,115W,2.0GHz)Processor Option Kit BCX377XeonE7-4809v3(2.0GHz/8c)/6.4GT/20ML3 SPT0CPU0002V Inspur NF8460M4,NF8465M4Inbbb Xeon E7-4820v3(10C,115W,1.9GHz)Processor Option Kit BCX376XeonE7-4820v3(1.9GHz/10c)/6.4GT/25ML3 SPT0CPU0002W Inspur NF8460M4,NF8465M4Inbbb Xeon E7-4830v3(12C,115W,2.1GHz)Processor Option Kit BCX375XeonE7-4830v3(2.1GHz/12c)/8.0GT/30ML3 SPT0CPU0002X Inspur NF8460M4,NF8465M4Inbbb Xeon E7-4850v3(14C,115W,2.2GHz)Processor Option Kit BCX374XeonE7-4850v3(2.2GHz/14c)/8.0GT/35ML3 SPT0CPU0002Y Inspur NF8460M4,NF8465M4Inbbb Xeon E7-8860v3(16C,140W,2.2GHz)Processor Option Kit BCX373XeonE7-8860v3(2.2GHz/16c)/9.6GT/40ML3 SPT0CPU00030Inspur NF8460M4,NF8465M4Inbbb Xeon E7-8870v3(18C,140W,2.1GHz)Processor Option Kit BCX372XeonE7-8870v3(2.1GHz/18c)/9.6GT/45ML3 SPT0CPU00032Inspur NF8460M4,NF8465M4Inbbb Xeon E7-8880v3(18C,150W,2.3GHz)Processor Option Kit BCX371XeonE7-8880v3(2.3GHz/18c)/9.6GT/45ML3 SPT0CPU00033Inspur NF8460M4,NF8465M4Inbbb Xeon E7-8890v3(18C,165W,2.5GHz)Processor Option Kit BCX370XeonE7-8890v3(2.5GHz/18c)/9.6GT/45ML3 SPT0CPU0002Z Inspur NF8460M4,NF8465M4Inbbb Xeon E7-8867v3(16C,165W,2.5GHz)Processor Option Kit BCX369XeonE7-8867v3(2.5GHz/16c)/9.6GT45ML3 SPT0CPU00034Inspur NF8460M4,NF8465M4Inbbb Xeon E7-8891v3(10C,165W,2.8GHz)Processor Option Kit BCX368XeonE7-8891v3(2.8GHZ/10c)/9.6GT/45ML3 SPT0CPU00035Inspur NF8460M4,NF8465M4Inbbb Xeon E7-8893v3(4C,140W,3.2GHz)Processor Option Kit BCX367XeonE7-8893v3(3.2GHz/4c)/9.6GT/45ML3 SPT0CPU00003Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2609v3(6C,85W,1.9GHz)Processor Option Kit BCX323E5-2609v3(1.9GHz/6c)/6.4GT/15ML3SPT0CPU00004Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2620v3(6C,85W,2.4GHz)Processor Option Kit BCX324E5-2620v3(2.4GHz/6c)/8GT/15ML3SPT0CPU00005Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2630v3(8C,85W,2.4GHz)Processor Option Kit BCX325E5-2630v3(2.4GHz/8c)/8GT/20ML3SPT0CPU00006Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2637v3(4C,135W,3.5GHz)Processor Option Kit E5-2637v3(3.5GHz/4c)/9.6GT/15ML3SPT0CPU00007Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2640v3(8C,90W,2.6GHz)Processor Option Kit BCX326E5-2640v3(2.6GHz/8c)/8GT/20ML3SPT0CPU00008Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2643v3(6C,135W,3.4GHz)Processor Option Kit BCX339E5-2643v3(3.4GHz/6c)/9.6GT/20ML3SPT0CPU00009Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2650v3(10C,105W,2.3GHz)Processor Option Kit BCX327E5-2650v3(2.3GHz/10c)9.6GT/25ML3SPT0CPU00010Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2660v3(10C,105W,2.6GHz)Processor Option Kit BCX328E5-2660v3(2.6GHz/10c)9.6GT/25ML3 SPT0CPU00011Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2667v3(8C,135W,3.2GHz)Processor Option Kit E5-2667v3(3.2GHz/8c)9.6GT/20ML3SPT0CPU00012Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2670v3(12C,120W,2.3GHz)Processor Option Kit BCX329E5-2670v3(2.3GHz/12c)9.6GT/30ML3 SPT0CPU00013Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2680v3(12C,120W,2.5GHz)Processor Option Kit BCX330E5-2680v3(2.5GHz/12c)9.6GT/30ML3 SPT0CPU00015Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2690v3(12C,135W,2.6GHz)Processor Option Kit BCX331E5-2690v3(2.6GHz/12c)9.6GT/30ML3 SPT0CPU00016Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2695v3(14C,120W,2.3GHz)Processor Option Kit BCX333E5-2695v3(2.3GHz/14c)9.6GT/35ML3 SPT0CPU00017Inspur NF5280M4Inbbb Xeon E5-2697v3(14C,145W,2.6GHz)Processor Option Kit BCX334E5-2697v3(2.6GHz/14c)9.6GT/35ML3SPT0CPU00018Inspur NF5280M4Inbbb Xeon E5-2698v3(16C,135W,2.3GHz)Processor Option Kit BCX335E5-2698v3(2.3GHz/16c)9.6GT/40MLSPT0CPU00019Inspur NF5280M4Inbbb Xeon E5-2699v3(18C,145W,2.3GHz)Processor Option Kit E5-2699v3(2.3GHz/18c)9.6GT/45ML3SPT0CPU00014Inspur NF5280M4,NF5270M4Inbbb Xeon E5-2683v3(14C,120W,2.0GHz)Processor Option Kit E5-2683v3(2.0GHz/14C)/9.6GT/35ML3 BCX438XeonE3-1220V5(3.0GHZ)/8M/4CBCX439XeonE3-1230V5(3.40GHZ)/8M/4CBCX440XeonE3-1240V5(3.50GHZ)/8M/4CBCX441XeonE3-1240LV5(2.10GHZ)/8M/4CBCX442XeonE3-1260LV5(2.90GHZ)/8M/4CBCX443XeonE3-1270V5(3.60GHZ)/8M/4CBCX444XeonE3-1280V5(3.70GHZ)/8M/4CBCX445i3-6320(3.9GHz)/4M/2CBCX446i3-6300T(3.3GHz)/4M/2CBCX447i3-6300(3.8GHz)/4M/2CBCX448i3-6100T(3.2GHz)/3M/2CBCX449i3-6100(3.7GHz)/3M/2CBCX450G4520(3.0GHz)/3M/2CBCX451G4500T(3.0GHz)/3M/2CBCX452G4500(3.5GHz)/3M/2CBCX453G4400(3.3GHz)/3M/2CBCX322E5-2603v3(1.6GHz/6c)/6.4GT/15ML3BCX401E5-2603v4(1.7GHz/6c)/6.4GT/15ML3BCX402E5-2609v4(1.7GHz/8c)/6.4GT/20ML3BCX403E5-2620v4(2.1GHz/8c)/8GT/20ML3BCX406E5-2630v4(2.2GHz/10c)/8GT/25ML3BCX408E5-2640v4(2.4GHz/10c)/8GT/25ML3BCX412E5-2650v4(2.2GHz/12c)9.6GT/30ML3BCX414E5-2660v4(2.0GHz/14c)9.6GT/35ML3 BCX416E5-2680v4(2.4GHz/14c)9.6GT/35ML3 BCX419E5-2690v4(2.6GHz/14c)9.6GT/35ML3 BCX404E5-2623v4(2.6GHz/4c)8.0GT/10ML3 BCX407E5-2637v4(3.5GHz/4c)/9.6GT/15ML3 BCX409E5-2643v4(3.4GHz/6c)/9.6GT/20ML3 BCX415E5-2667v4(3.2GHz/8c)9.6GT/25ML3 BCX417E5-2683v4(2.1GHz/16c)/9.6GT/40ML3 BCX420E5-2695v4(2.1GHz/18c)9.6GT/45ML3 BCX422E5-2697v4(2.3GHz/18c)9.6GT/45ML3 BCX421E5-2697Av4(2.6GHz/16c)9.6GT/40ML3 BCX423E5-2698v4(2.2GHz/20c)9.6GT/50ML BCX424E5-2699v4(2.2GHz/22c)9.6GT/55ML3 BCX405E5-2630LV4(1.8GHz/10c)8.0GT/25ML3 BCX411E5-2650LV4(1.7GHz/14c)9.6GT/35ML3 BCX410E5-2648LV4(1.8GHz/14c)9.6GT/35ML3 BCX413E5-2658V4(2.3GHz/14c)9.6GT/35ML3 BCX418E5-2687WV4(3.0GHz/12c)9.6GT/35ML3 BCX425XeonE7-4809v4(2.1GHz/8C)/6.4GT/20ML3 BCX426XeonE7-4820v4(2.0GHz/10C)/6.4GT/25ML3 BCX427XeonE7-4830v4(2.0GHz/14C)/8.0GT/35ML3 BCX428XeonE7-4850v4(2.1GHz/16C)/8.0GT/40ML3 BCX429XeonE7-8860v4(2.2GHz/18C)/9.6GT/45ML3 BCX430XeonE7-8855v4(2.1GHz/14C)/8.0GT/35ML3 BCX431XeonE7-8867v4(2.4GHz/18C)/9.6GT/45ML3 BCX432XeonE7-8870v4(2.1GHz/20C)/9.6GT/50ML3 BCX433XeonE7-8880v4(2.2GHz/22C)/9.6GT/55ML3 BCX434XeonE7-8890v4(2.2GHz/24C)/9.6GT/60ML3 BCX435XeonE7-8891v4(2.8GHz/10C)/9.6GT/60ML3 BCX436XeonE7-8893v4(3.2GHz/4C)/9.6GT/60ML3 DDR3内存SPT0MEM00006Inspur32GB DDR3L-1600LRDIMM SPT0MEM00007Inspur16GB DDR3-1866RDIMMSPT0MEM00008Inspur16GB DDR3-1600RDIMMSPT0MEM00009Inspur16GB DDR3L-1600RDIMMSPT0MEM0000A Inspur8GB DDR3-1600RDIMMSPT0MEM0000B Inspur8GB DDR3L-1600RDIMMSPT0MEM0000C Inspur4GB DDR3-1600RDIMMSPT0MEM0000D Inspur4GB DDR3L-1600RDIMMDDR4内存DDR4内存BMD1558G_DDR4_UDIMM-EUBMD15616G_DDR4_UDIMM-EUSPT0MEM00002Inspur8GB DDR4-2133MHz(1Rx4)RDIMM BMD1418G RDIMM DDR4内存SPT0MEM00001Inspur16GB DDR4-2133MHz(2Rx4)RDIMM BMD14216G RDIMM DDR4内存SPT0MEM00003Inspur16GB DDR4-2133MHz(1Rx4)RDIMMSPT0MEM00004Inspur32GB DDR4-2133MHz(2Rx4)RDIMM BMD14332G LRDIMM DDR4内存SPT0MEM00005Inspur32GB DDR4-2133MHz(4Rx4)LRDIMM3.5寸企业级SATA(含托架及包装)3.5寸企业级SATA(含托架及包装)SPT0STG35007Inspur3.5"1TB7.2K Enterprise SATA6Gbps Hot Swap Hard Drive BHT0231TB SATA(企业级)SPT0STG35001Inspur3.5"2TB7.2K Enterprise SATA6Gbps Hot Swap Hard Drive BHT0422TB SATA(企业级)SPT0STG35006Inspur3.5"3TB7.2K Enterprise SATA6Gbps Hot Swap Hard Drive BHT0703TB SATA(企业级)SPT0STG35005Inspur3.5"4TB7.2K Enterprise SATA6Gbps Hot Swap Hard Drive BHT0834TB SATA(企业级)SPT0STG35003Inspur3.5"6TB7.2K Enterprise SATA6Gbps Hot Swap Hard Drive BHT1076TB SATA(企业级)SPT0STG35002Inspur3.5"8TB7.2K Enterprise SATA6Gbps Hot Swap Hard Drive8TB SATA(企业级)2.5寸企业级SATA(含托架及包装)2.5寸企业级SATA(含托架及包装)SPT0STG25006Inspur2.5"500GB7.2K Enterprise SATA6Gbps Hot Swap Hard Drive BHT062500GB SATA 2.5"(企业级)SPT0STG25005Inspur2.5"1TB7.2K Enterprise SATA6Gbps Hot Swap Hard Drive BHT0611TB SATA 2.5"(企业级)SPT0STG25004Inspur2.5''2TB7.2K Enterprise SATA6Gbps Hot Swap HardDrive2TB SATA 2.5"(企业级)2.5寸SAS(含托架及包装)2.5寸SAS(含托架及包装)7,200RPM7,204RPMSPT0STG25S03Inspur2.5"1TB7.2K Enterprise SAS12Gbps Hot Swap Hard Drive BSA0531TB SAS硬盘2.5"SPT0STG25S05Inspur2.5"1TB7.2K Enterprise SAS6Gbps Hot Swap Hard Drive BSA0531TB SAS硬盘2.5"SPT0STG25S01Inspur2.5"2TB7.2K Enterprise SAS12Gbps Hot Swap Hard Drive2TB SAS硬盘2.5"10,000RPM10,004RPMSPT0STG25001Inspur2.5"1.2TB10K Enterprise SAS12Gbps Hot Swap Hard Drive BSA0841.2T热插拔SAS硬盘(1万转)2.5" SPT0STG25002Inspur2.5"1.2TB10K Enterprise SAS6Gbps Hot Swap Hard Drive BSA0841.2T热插拔SAS硬盘(1万转)2.5"SPT0STG25S02Inspur2.5"1.8TB10K Enterprise SAS12Gbps Hot Swap Hard Drive BSA1091.8T热插拔SAS硬盘(1万转)2.5"SPT0STG25S0E Inspur2.5"300GB10K Enterprise SAS12Gbps Hot Swap Hard Drive BSA023300G热插拔SAS硬盘(1万转)2.5"SPT0STG25S0G Inspur2.5"300GB10K Enterprise SAS6Gbps Hot Swap Hard Drive BSA023300G热插拔SAS硬盘(1万转)2.5"SPT0STG25S08Inspur2.5"600GB10K Enterprise SAS12Gbps Hot Swap Hard Drive BSA036600G热插拔SAS硬盘(1万转)2.5"SPT0STG25S09Inspur2.5"600GB10K Enterprise SAS6Gbps Hot Swap Hard Drive BSA036600G热插拔SAS硬盘(1万转)2.5"SPT0STG25S04Inspur2.5"900GB10K Enterprise SAS12Gbps Hot Swap Hard Drive BSA057900G热插拔SAS硬盘(1万转)2.5"SPT0STG25S06Inspur2.5"900GB10K Enterprise SAS6Gbps Hot Swap Hard Drive BSA057900G热插拔SAS硬盘(1万转)2.5"15,000RPM15,004RPMSPT0STG25S0D Inspur2.5"300GB15K Enterprise SAS12Gbps Hot Swap Hard Drive BSA059300G热插拔SAS硬盘(1万5千转)2.5"希捷SPT0STG25S0F Inspur2.5"300GB15K Enterprise SAS6Gbps Hot Swap Hard Drive BSA059300G热插拔SAS硬盘(1万5千转)2.5"希捷SPT0STG25S07Inspur2.5"600GB15K Enterprise SAS12Gbps Hot Swap Hard Drive BSA108600G热插拔SAS硬盘(1万5千转)2.5"日立SPT0STG25003Inspur2.5"600GB15K Enterprise SAS6Gbps Hot Swap Hard Drive600G热插拔SAS硬盘(1万5千转)2.5"日立3.5寸SAS(含托架及包装)3.5寸SAS(含托架及包装)SPT0STG35S09Inspur3.5"1TB7.2K Enterprise SAS6Gbps Hot Swap Hard Drive TYP0231TB SAS硬盘SPT0STG35S08Inspur3.5"2TB7.2K Enterprise SAS6Gbps Hot Swap Hard Drive BSA0762TB SAS硬盘SPT0STG35S05Inspur3.5"2TB7.2K Enterprose SAS12Gbps Hot Swap Hard Drive BSA0762TB SAS硬盘SPT0STG35S07Inspur3.5"3TB7.2K Enterprise SAS6Gbps Hot Swap Hard Drive TCP0493TB SAS硬盘SPT0STG35S04Inspur3.5"3TB7.2K Enterprose SAS12Gbps Hot Swap Hard Drive TCP0493TB SAS硬盘SPT0STG35S06Inspur3.5"4TB7.2K Enterprise SAS6Gbps Hot Swap Hard Drive BSA1064TB SAS硬盘SPT0STG35S03Inspur3.5"4TB7.2K Enterprose SAS12Gbps Hot Swap Hard Drive BSA1064TB SAS硬盘SPT0STG35S01Inspur3.5"6TB7.2K Enterprose SAS12Gbps Hot Swap Hard Drive6TB SAS硬盘3.5寸硬盘托架,2.5寸SAS硬盘7,200RPM7,204RPMSPT0STG25S0N Inspur2.5"1TB7.2K Enterprise SAS12Gbps Hot Swap HDD in3.5"Tray BSA0531TB SAS硬盘2.5"SPT0STG25S0P Inspur2.5"1TB7.2K Enterprise SAS6Gbps Hot Swap HDD in3.5"Tray BSA0531TB SAS硬盘2.5"SPT0STG25S0H Inspur2.5"2TB7.2K Enterprise SAS12Gbps Hot Swap HDD in3.5"Tray2TB SAS硬盘2.5"10,000RPM10,004RPMSPT0STG25S0K Inspur2.5"1.2TB10K Enterprise SAS12Gbps Hot Swap HDD in3.5"Tray BSA0841.2T热插拔SAS硬盘(1万转)2.5"SPT0STG25S0M Inspur2.5"1.2TB10K Enterprise SAS6Gbps Hot Swap HDD in3.5"Tray BSA0841.2T热插拔SAS硬盘(1万转)2.5"SPT0STG25S0J Inspur2.5"1.8TB10K Enterprise SAS12Gbps Hot Swap HDD in3.5"Tray BSA1091.8T热插拔SAS硬盘(1万转)2.5"SPT0STG25S11Inspur2.5"300GB10K Enterprise SAS12Gbps Hot Swap HDD in3.5"Tray BSA023300G热插拔SAS硬盘(1万转)2.5" SPT0STG25S13Inspur2.5"300GB10K Enterprise SAS6Gbps Hot Swap HDD in3.5"Tray BSA023300G热插拔SAS硬盘(1万转)2.5" SPT0STG25S0T Inspur2.5"600GB10K Enterprise SAS12Gbps Hot Swap HDD in3.5"Tray BSA036600G热插拔SAS硬盘(1万转)2.5"SPT0STG25S0V Inspur2.5"600GB10K Enterprise SAS6Gbps Hot Swap HDD in3.5"Tray BSA036600G热插拔SAS硬盘(1万转)2.5"SPT0STG25S0Q Inspur2.5"900GB10K Enterprise SAS12Gbps Hot Swap HDD in3.5"Tray BSA057900G热插拔SAS硬盘(1万转)2.5"SPT0STG25S0R Inspur2.5"900GB10K Enterprise SAS6Gbps Hot Swap HDD in3.5"Tray BSA057900G热插拔SAS硬盘(1万转)2.5"15,000RPM15,004RPMSPT0STG25S0Z Inspur2.5"300GB15K Enterprise SAS12Gbps Hot Swap HDD in3.5"Tray BSA059300G热插拔SAS硬盘(1万5千转)2.5"希捷SPT0STG25S12Inspur2.5"300GB15K Enterprise SAS6Gbps Hot Swap HDD in3.5"Tray BSA059300G热插拔SAS硬盘(1万5千转)2.5"希捷SPT0STG25S0S Inspur2.5"600GB15K Enterprise SAS12Gbps Hot Swap HDD in3.5"Tray BSA108600G热插拔SAS硬盘(1万5千转)2.5"日立SPT0STG25S0U Inspur2.5"600GB15K Enterprise SAS6Gbps Hot Swap HDD in3.5"Tray600G热插拔SAS硬盘(1万5千转)2.5"日立3.5寸云盘和归档盘(含托架及包装)3.5寸云盘和归档盘(含托架及包装)SPT0STG3500A Inspur3.5"4TB7.2K Cloud Storage SATA6Gbps Hot Swap Hard Drive4T云盘(7200转)V03ZVSPT0STG3500E Inspur3.5"4TB5.9K Cloud Storage SATA6Gbps Hot Swap Hard Drive4T云盘(5900转)_W0CCP0B0000060053.5寸硬盘托架,2.5寸企业级SATA3.5寸硬盘托架,2.5寸企业级SATASPT0STG25008Inspur2.5"2TB7.2K Enterprise SATA6Gbps Hot Swap Hard Drive in3.5"tray2TB SATA 2.5"(企业级)SPT0STG25009Inspur2.5"1TB7.2K Enterprise SATA6Gbps Hot Swap Hard Drive in3.5"tray1TB SATA 2.5"(企业级)SPT0STG2500A Inspur2.5"500GB7.2K Enterprise SATA6Gbps Hot Swap Hard Drive in3.5"tray500GB SATA 2.5"(企业级)PCIE SSD卡PCIE SSD卡BHD025400G MLC SSD PCIe接口BHD026600G MLC SSD PCIe接口BHD024800G MLC SSD PCIe接口BHD0231.2T MLC SSD PCIe接口BHD0272.4T MLC SSD PCIe接口其他硬盘及组件其他硬盘及组件BHE00264G SATA-DOM硬盘BHD02880G MLC SSD 2.5BHD029120G MLC SSD 2.5BHD004160G MLC SSD 2.5BHD030240G MLC SSD 2.5BHD010300G MLC SSD 2.5BHD016480G MLC SSD 2.5BHD009600G MLC SSD 2.5BHD019800G MLC SSD 2.5TYP004500GB SATA(桌面级)BPT0201T SATA(桌面级)BSA012300G热插拔SAS硬盘(1万5千转)RAID卡RAID卡SPT0POC00R06Inspur SAS3008iMR12Gbps PCIe Adapter BSS012INSPUR八通道高性能SAS3008卡IMR(可选Raid key)SPT0THR00K02Inspur RAID5Upgrate key for SAS3008iMR12Gbps PCIe Adapter BSS013INSPUR八通道高性能3008Raid KeySPT0POC00R02Inspur RAID1GB9271-8i6Gbps PCIe Adapter by Avago BRE028八通道SAS高性能RAID-9271(1G缓存)SPT0THR00D02Inspur iBBU09Battery Backup Unit Upgrade for RAID2208MR,9271-8i PCIe Adapter BDC020八通道SAS高性能RAID-9271电池SPT0THR00D05Inspur Supercapacitor Upgrade for RAID2208MR,9271-8i PCIe Adapter BDC022八通道SAS高性能RAID-9271缓存断电保护模块SPT0THR00K03Inspur RAID CacheCade Pro2.0Key for2208MR,3108MR,9271-8i,9361-8i BRE032RAID卡功能模块-CacheCade模块SPT0POC00R0G Inspur RAID2GB PM806012Gbps PCIe Adapter BDC027INSPUR八通道高性能SAS RAID卡RS0820P(2G缓存)SPT0THR00D01Inspur Supercapacitor for RAID PM8060(1GB,2GB)PCIe Adapter by Adaptec BRE038INSPUR八通道高性能SAS RS0810P缓存断电保护模块SPT0POC00R09Inspur RAID1GB9361-8i12Gbps PCIe Adapter by Avago BRE034八通道SAS高性能RAID-9361(1G缓存)SPT0THR00D03Inspur Supercapacitor Upgrade for RAID1GB9361-8i PCIe Adapter by LSI BDC026八通道SAS高性能RAID-9361(1G缓存)缓存断电保护模块SPT0POC00R08Inspur RAID2GB9361-8i12Gbps PCIe Adapter by Avago BRD036八通道SAS高性能RAID-9361(2G缓存)SPT0THR00D04Inspur Supercapacitor Upgrade for RAID9361-8i(2GB),3108MR(2GB,4GB)by LSI BDC025八通道SAS高性能RAID-9361(2G缓存)缓存断电保护模块SPT0POC00R07Inspur RAID4GB9364-8i12Gbps PCIe Adapter by Avago BRD037八通道SAS高性能LSI RAID-9364(4G缓存+缓存断电保护模块)SPT0POC00R0A Inspur RAID4GB3108MR12Gbps PCIe Adapter BRE040INSPUR八通道高性能SAS RAID卡RS0840L3(4G缓存)电源电源SPT0PSU00001Inspur CRPS800W Platinum Hot Swap Power SupplySPT0PSU00002Inspur CRPS1200W Platinum Hot Swap Power SupplySPT0PSU00003Inspur CRPS550W Platinum Hot Swap Power SupplySPT0PSU00004Inspur CRPS800W Titanium Hot Swap Power SupplySPT0PSU00005Inspur CRPS800W-48VDC Hot Swap Power SupplySPT0PSU00006Inspur CRPS800W336VDC Hot Swap Power SupplyBDY096300W电源适用于NP3020M4BDY097550W白金电源适用于NP3020M4光纤通道连接配件光纤通道连接配件SPT0POC00B01Inspur LPe1250Single Port8Gb Fibre Channel HBA by Emulex TAF019光纤通道HBA卡,FC8Gb,单端口,LC接口SPT0POC00B02Inspur LPe12002Dual Port8Gb Fibre Channel HBA by Emulex TAF021光纤通道HBA卡,FC8Gb,双端口,LC接口SPT0POC00B05Inspur QLE2560Single Port8Gb Fibre Channel HBA by Qlogic TAF019光纤通道HBA卡,FC8Gb,单端口,LC接口SPT0POC00B06Inspur QLE2562Dual Port8Gb Fibre Channel HBA by Qlogic TAF021光纤通道HBA卡,FC8Gb,双端口,LC接口SPT0POC00B03Inspur LPe16000B Single Port16Gb Fibre Channel HBA by Emulex TAF028光纤通道HBA卡,FC16Gb,单端口,LC接口SPT0POC00B07Inspur QLE2670Single Port16Gb Fibre Channel HBA by Qlogic TAF028光纤通道HBA卡,FC16Gb,单端口,LC接口SPT0POC00B04Inspur LPe16002B Dual Port16Gb Fibre Channel Adapter by Emulex TAF029光纤通道HBA卡,FC16Gb,双端口,LC接口转接卡转接卡BKZ013PCI-E转接卡套件(NF8460M3)PCI-E转接卡套件(NF8460M4)网卡及远程管理卡网卡及远程管理卡SPT0POC00W01Inspur I350PCIe1Gb2Port Base-T Ethernet Adapter BNT004双口千兆网卡(RJ45接口)SPT0POC00W02Inspur I350PCIe1Gb4Port Base-T Ethernet Adapter BNT010四口千兆网卡(RJ45接口)SPT0POC00W06Inspur I350PCIe1Gb4Port SPF Ethernet Adapter BNT042四口千兆网卡(光纤接口)SPT0POC00W07Inspur82599ES PCIe10Gb1Port with Multi-mode SFP+module Ethernet Adapter单口万兆网卡(光纤接口含多模模块)SPT0POC00W09Inspur MCX312B-XCCT PCIe10Gb2Port SFP+Ethernet Adapter BNT009双口万兆网卡(光纤接口)SPT0POC00W08Inspur82599ES PCIe10Gb2Port with Multi-mode SFP+module Ethernet Adapter双口万兆网卡(光纤接口含多模模块)SPT0POC00W0J Inspur X710PCIe x8+x110Gb2Port SFP+Ethernet Daughter Card出厂前升级INSPUR双口万兆FLOM网卡(光纤接口),不含光模块SPT0POC00W0H Inspur82599ES PCIe x8+x110Gb1Port SFP+Ethernet Adapter BNT034INSPUR单口万兆网卡(光纤接口),不含光模块SPT0POC00W0K Inspur CX3PCIe x8+110Gb1Port SFP+Ethernet Adapter BNT034INSPUR单口万兆网卡(光纤接口),不含光模块SPT0POC00W0G Inspur82599ES PCIe x8+x110Gb2Port SFP+Ethernet Adapter BNT035INSPUR双口万兆网卡(光纤接口),不含光模块SPT0POC00W0L Inspur CX3PCIe x8+110Gb2Port SFP+Ethernet AdapterSPT0THR00S01Inspur1Gb Single-Mode SPF+Optical Module INSPUR千兆网卡光模块(单模,搭配INSPUR万兆网卡使用)SPT0THR00S02Inspur1Gb Multi-Mode SFP+Optical Module INSPUR千兆网卡光模块(多模,搭配INSPUR万兆网卡使用)SPT0THR00S03Inspur10Gb Single-Mode SFP+Optical Module BNT036INSPUR万兆网卡光模块(单模,搭配INSPUR万兆网卡使用)SPT0THR00S04Inspur10Gb Multi-Mode SFP+Optical Module BNT037INSPUR万兆网卡光模块(多模,搭配INSPUR万兆网卡使用)SPT0POC00W0A Inspur T580-SO-CR PCIe40Gb2Port QSFP+Ethernet Adapter BNT039双口40GbE网卡光纤接口,不含光模块,需搭配40G网卡线缆使用SPT0POC00W03Inspur X540PCIe10Gb2Port Base-T Ethernet Adapter BNT030双口万兆网卡(RJ45接口)SPT0POC00W04Inspur I350PCIe x8+11Gb4Port Base-T Ethernet Adapter出厂前升级INSPUR四口千兆网卡(RJ45接口)SPT0POC00W05Inspur X540PCIe x8+110Gb2Port Base-T Ethernet Adapter INSPUR双口万兆网卡(RJ45接口)BNT002单口千兆网卡(光纤接口)BNT005双口千兆网卡(光纤接口)BNT008单口万兆网卡(光纤接口)BNT040双口40GbE CNA网卡光纤接口,不含光模块,需搭配40G网卡线缆使用BNT04140G网卡线缆,15米Infiniband card Infiniband cardSPT0POC00C01Inspur MCX353A-FCBT56Gb1Port with QSFP Module InfiniBand Adapter TAF027HCA卡(单口IB卡56GB)SPT0POC00C02Inspur MCX353A-FCBT56Gb2Port with QSFP Module InfiniBand Adapter HCA卡(双口IB卡56GB)软驱、光驱、刻录机软驱、光驱、刻录机BHU001U盘软驱MGQ002标准DVDBCD006DVD刻录机BCD017USB DVD刻录机BCD026SLIM DVD刻录机显卡显卡BXK039显卡K420(显存1G)BXK040显卡K620(显存2G)BXK041显卡K2200(显存4G)显示器显示器BOV01419.5寸液晶显示器BOV00921.5寸液晶显示器BOV01523.6寸液晶显示器RACK机柜及组件RACK机柜及组件BOG022浪潮42U标准服务器机柜(无PDU)/2000mm×1100mm×600mm(H×D×W)BPK0396口PDU国标万用插口/10ABPK03821口PDU国标万用插口/32ABTP00140公斤机柜托盘BTP002100公斤机柜托盘BOK001键盘B0M001鼠标BOQ008四合一切换器17寸液晶8口/USBBOQ009四合一切换器17寸液晶16口/USBBOQ0018口切换器BOQ00516口切换器其他其他BPT002配件,背板_INSPUR_SAS_2.5X8BPT017硬盘模组_2.5×8BPT003配件,背板_INSPUR_SAS12G_4X3.5BPT004配件,背板_INSPUR_SAS12G_8X2.5BPT008配件,SAS线BPT010配件,风扇BPT011配件,硬盘托架_2.5寸BPT012配件,硬盘托架_3.5寸BPT013配件,包装箱BPT014配件,电源线BPT015配件,服务器用户手册及睿捷服务器套件光盘BPL001NF5270M42U前面板V08WY0208000B014SPT0BKD00001Inspur Milestone42U3.5"x4Drive Backplane Kit SPT0BKD00002Inspur Milestone42U Rear2.5"x2Drive Backplane Kit SPT0BKD00003Inspur Milestone42U2.5"x8Drive Backplane Kit。
国外军用电子元器件质量等级与国内对应一览表
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国外军用电子元器件质量等级与国内对应一览表为了保证元器件的质量,我国制定了一系列的元器件标准。
在上世纪70年代末期制定了“七专”7905技术协议和80年代初制定了“七专”8406技术协议,已具备了军用器件标准的雏形,但标准是在改革开放之前制定的,有很多局限性,很难与国际接轨。
从80年代开始,我国标准化部门参照了美国军用标准(MIL)体系建立了GJB体系,元器件的标准有规范、标准、指导性文件等三种形式。
一、国内军用元器件质量分级二、美国军标质量等级体系:MIL-PRF-19500半导体器件试验总规范(依次低→高等级)单片微电路规范(依次低→高等级)B-2级:不完全符合MIL-STD-883的节的要求,并按照政府批准文件,包括卖方等效的B级要求进行采购。
B-1级:完全符合MIL-STD-883(微电子器件试验方法和程序)的节所要求,并按照标准军用图样(SMD –Standard Microcicuit Drawing),国防电子供应中心(DESC –DefenceElectronic Supply Center)图样或政府批准的其它文件进行采购。
即通常称883级,器件上有5962 –xxx号。
S-1级:完全按照MIL-STD-975(NASA标准的电子电气和机电源器件目录)或MIL-STD-1547(航天飞行器和运载火箭用元器件、材料和工艺技术要求)进行采购,并有采购机关的规范批准。
MIL-PRF-38534D混合集成电路规范(依次低→高等级)电阻、电容、电感元件MIL 标准中有可靠性指标的元件失效等级分五级MIL 标准中有可靠性指标的失效率等级和失效率的对应关系三、欧空局元器件半导体分立器件:ESA/SCC(Europe SpaceAgency/Space Componet Cooperation)5000标准试验等级:B级、C级(从高到低)批接收等级:1级、2级、3级(从高到低)微电路:ESA/SCC(Europe SpaceAgency/Space Componet Cooperation)9000标准试验等级:B级、C级(从高到低)批接收等级:1级、2级、3级(从高到低)电阻、电容、电感器件:ESA/SCC(Europe SpaceAgency/Space Componet Cooperation)3000和4000标准试验等级:B级、C级(从高到低)批接收等级:1级、2级、3级(从高到低)四、国外军用元器件与我国军用元器件质量等级对应关系半导体分立器件质量等级对应关系微电路质量对应等级阻容电感失效率等级对应参考来源:融融网及网络资料。
英飞凌 FS75R12N2T7_B15 EconoPACK 2 模块数据表
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EconoPACK ™2 模块 采用第七代沟槽栅/场终止IGBT7和第七代发射极控制二极管带有温度检测NTC 特性•电气特性-V CES = 1200 V-I C nom = 75 A / I CRM = 150 A -沟槽栅IGBT7-低 V CEsat-过载操作达175°C•机械特性-高功率循环和温度循环能力-集成NTC 温度传感器-铜基板-低热阻的三氧化二铝 Al 2O 3 衬底-焊接技术-标准封装可选应用•辅助逆变器•电机传动•伺服驱动器产品认证•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FS75R12N2T7_B15EconoPACK ™2 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负温度系数热敏电阻 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 5特征参数图表 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 6电路拓扑图 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12 7封装尺寸 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 8模块标签代码 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14修订历史 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15免责声明 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .161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 = 1 min 2.5kV 模块基板材料Cu内部绝缘基本绝缘 (class 1, IEC 61140)Al2O3爬电距离d Creep端子至散热器10.0mm 电气间隙d Clear端子至散热器7.5mm 相对电痕指数CTI>200相对温度指数 (电)RTI封装140°C 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 sCE17nH 模块引线电阻,端子-芯片R CC'+EE'T C=25°C, 每个开关 3.3mΩ储存温度T stg-40125°C 模块安装的安装扭距M根据相应的应用手册进行安装M5, 螺丝36Nm 重量G180g 注:The current under continuous operation is limited to 50A rms per connector pin.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 = 25 °C1200V 连续集电极直流电流I CDC T vj max = 175 °C T C = 100 °C75A 集电极重复峰值电流I CRM t P = 1 ms150A 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 = 75 A, V GE = 15 V T vj = 25 °C 1.55 1.80VT vj = 125 °C 1.69T vj = 175 °C 1.77栅极阈值电压V GEth I C = 1.28 mA, V CE = V GE, T vj = 25 °C 5.15 5.80 6.45V 栅极电荷Q G V GE = ±15 V, V CE = 600 V 1.25µC 内部栅极电阻R Gint T vj = 25 °C2Ω输入电容C ies f = 100 kHz, T vj = 25 °C, V CE = 25 V, V GE = 0 V15.1nF 反向传输电容C res f = 100 kHz, T vj = 25 °C, V CE = 25 V, V GE = 0 V0.053nF 集电极-发射极截止电流I CES V CE = 1200 V, V GE = 0 V T vj = 25 °C0.014mA 栅极-发射极漏电流I GES V CE = 0 V, V GE = 20 V, T vj = 25 °C100nA开通延迟时间(感性负载)t don I C = 75 A, V CE = 600 V,V GE = ±15 V, R Gon = 5.6 ΩT vj = 25 °C0.164µs T vj = 125 °C0.178T vj = 175 °C0.185上升时间(感性负载)t r I C = 75 A, V CE = 600 V,V GE = ±15 V, R Gon = 5.6 ΩT vj = 25 °C0.048µs T vj = 125 °C0.053T vj = 175 °C0.057关断延迟时间(感性负载)t doff I C = 75 A, V CE = 600 V,V GE = ±15 V, R Goff = 5.6 ΩT vj = 25 °C0.300µs T vj = 125 °C0.380T vj = 175 °C0.420下降时间(感性负载)t f I C = 75 A, V CE = 600 V,V GE = ±15 V, R Goff = 5.6 ΩT vj = 25 °C0.120µs T vj = 125 °C0.200T vj = 175 °C0.270开通损耗能量 (每脉冲)E on I C = 75 A, V CE = 600 V,Lσ = 35 nH, V GE = ±15 V,R Gon = 5.6 Ω, di/dt =1200 A/µs (T vj = 175 °C)T vj = 25 °C7.96mJ T vj = 125 °C10.8T vj = 175 °C12.3关断损耗能量 (每脉冲)E off I C = 75 A, V CE = 600 V,Lσ = 35 nH, V GE = ±15 V,R Goff = 5.6 Ω, dv/dt =3200 V/µs (T vj = 175 °C)T vj = 25 °C 5.02mJ T vj = 125 °C7.68T vj = 175 °C9.46(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短路数据I SC V GE≤ 15 V, V CC = 800 V,V CEmax=V CES-L sCE*di/dt t P≤ 8 µs,T vj=150 °C260At P≤ 7 µs,T vj=175 °C250结-外壳热阻R thJC每个 IGBT0.475K/W 外壳-散热器热阻R thCH每个 IGBT, λgrease= 1 W/(m*K)0.141K/W 允许开关的温度范围T vj op-40175°C注:T vj op > 150°C is allowed for operation at overload conditions. For detailed specifications, please refer to AN2018-14.3二极管,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 = 25 °C1200V 连续正向直流电流I F75A 正向重复峰值电流I FRM t P = 1 ms150A I2t-值I2t t P = 10 ms, V R = 0 V T vj = 125 °C1150A²sT vj = 175 °C740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 = 75 A, V GE = 0 V T vj = 25 °C 1.72 2.10VT vj = 125 °C 1.59T vj = 175 °C 1.52反向恢复峰值电流I RM V R = 600 V, I F = 75 A,V GE = -15 V, -di F/dt =1200 A/µs (T vj = 175 °C)T vj = 25 °C43A T vj = 125 °C56T vj = 175 °C65(待续)表 6(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恢复电荷Q r V R = 600 V, I F = 75 A,V GE = -15 V, -di F/dt =1200 A/µs (T vj = 175 °C)T vj = 25 °C 4.94µC T vj = 125 °C10.2T vj = 175 °C13.7反向恢复损耗(每脉冲)E rec V R = 600 V, I F = 75 A,V GE = -15 V, -di F/dt =1200 A/µs (T vj = 175 °C)T vj = 25 °C 1.45mJ T vj = 125 °C 3.32T vj = 175 °C 4.62结-外壳热阻R thJC每个二极管0.708K/W 外壳-散热器热阻R thCH每个二极管, λgrease= 1 W/(m*K)0.153K/W 允许开关的温度范围T vj op-40175°C注:T vj op > 150°C is allowed for operation at overload conditions. For detailed specifications, please refer to AN2018-14.4负温度系数热敏电阻表 7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额定电阻值R25T NTC = 25 °C5kΩR100偏差ΔR/R T NTC = 100 °C, R100 = 493 Ω-55%耗散功率P25T NTC = 25 °C20mW B-值B25/50R2 = R25 exp[B25/50(1/T2-1/(298,15 K))]3375K B-值B25/80R2 = R25 exp[B25/80(1/T2-1/(298,15 K))]3411K B-值B25/100R2 = R25 exp[B25/100(1/T2-1/(298,15 K))]3433K 注:根据应用手册标定4 负温度系数热敏电阻6电路拓扑图图 17封装尺寸图 28 模块标签代码8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1.002021-12-16Final datasheet商标所有参照产品或服务名称和商标均为其各自所有者的财产。
电磁保护设备TeSys GV系列产品参数表说明书
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C i r c u i t b r e a k e r sCircuit breakersTeSys GV, GBC ontrol and P rotection C omponentsChapterB60.75g g 1.1g g 1.5375 2.533.5 LR2 K0308GV2LE071.1g g –––––– 2.533.5 LR2 K0308GV2LE071.5g g 1.5g g 3375451 LR2 K0310GV2LE08––– 2.2g g –––451 LR2 K0312GV2LE082.2g g 3501004375 6.378 LR2 K0312GV2LE103g g 410100 5.537510138 LR2 K0314GV2LE144g g 5.510100–––10138 LR2 K0316GV2LE14––––––7.537510138 LRD 14GV2LE14––––––937514170 LRD 16GV2LE165.515507.56751137514170 LR2 K0321GV2LE167.5155096751537518223 LRD 21GV2LE20915401147518.537525327 LRD 22GV2LE2211154015475–––25327 LRD 22GV2LE2215105018.54752237532416LRD 32GV2LE32(1) As % of Icu.g ) > 100 kA.GV2 LE10D F 526144.t i fC i r c u i t b r e a k e r s0.09––––––0.45LRD 03GV2L030.12g g –––0.37g g 0.638LRD 04GV2L040.18g g ––––––0.638LRD 04GV2L04––––––0.55g g 113LRD 05GV2L050.25g g ––––––113LRD 05GV2L05––––––0.75g g 113LRD 06GV2L050.37g g 0.37g g –––113LRD 05GV2L050.55g g 0.55g g 1.1g g 1.622.5LRD 06GV2L06–––0.75g g ––– 1.622.5LRD 06GV2L060.75g g 1.1g g 1.54100 2.533.5LRD 07GV2L07Example: GV3 L32 becomes GV3 L326.(1) As % of Icu. Associated current limiter or fuses, where required. See characteristics page B6/33.g > 100 kA.GV2 L10D F 526145.t i fGV3 L65D F 526146.t i fTeSys GVThermal-magnetic motor circuit breakers GV2 ME0.06gg––––––0.16…0.252.4GV2ME020.09g g––––––0.25…0.405GV2ME030.12 0.18g g g g – –– –– – 0.37 –g–g –0.40…0.638GV2ME040.25gg––– 0.55gg0.63…113GV2ME050.37 0.55 –g g –g g –0.37 0.55 0.75g g g g g g – 0.75 1.1– g g – g g 1…1622.5GV2ME060.75g g1.1gg1.5375 1.6...2.533.5GV2ME071.1 1.5g g g g 1.5 2.2g g g g 2.2 3 3 375 75 2.5 (4)51GV2ME082.2gg350100 43754...6.378GV2ME103 4g g g g 4 5.510 10100 100 5.5 7.5 3 375 756 (10)138GV2ME145.5 –15 –50 –7.5 – 6 –75 – 9 11 3 375 759…14170GV2ME167.5155096751537513…18223GV2ME209154011475 18.537517…23327GV2ME2111154015475 –––20…25327GV2ME22 (3)15105018.54752237524 (32)416GV2ME32Motor circuit breakers from 0.06 to 15 kW / 400 V, with lugsTo order thermal magnetic circuit breakers with connection by lugs, add the digit 6 to the end of reference selected above.Example: GV2 ME08 becomes GV2 ME086.Thermal magnetic circuit breakers GV2 ME with built-in auxiliary contact block With instantaneous auxiliary contact block (composition, see page B6/11):b GV AE1, add suffix AE1TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AE1TQ .b GV AE11, add suffix AE11TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AE11TQ .b GV AN11, add suffix AN11TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AN11TQ .These circuit breakers with built-in contact block are sold in lots of 20 units in a single pack.(1) As % of Icu.(2) The thermal trip setting must be within the range marked on the graduated knob.(3) Maximum rating which can be mounted in enclosures GV2 MC or MP , please consult your Regional Sales Office. g > 100 kA.GV2 ME10D F 526134.t i fC i r c u i t b r e a k e r sTeSys GVTeSys protection componentsThermal-magnetic motor circuit breakers GV2 MEReferences0.06g g ––– 0.16…0.25 2.4GV2ME0230.09g g ––– 0.25…0.405GV2ME0330.120.18g g g g –––0.40…0.638GV2ME0430.250.37g g g g 0.37g g 0.63…113GV2ME0530.370.55g g g g 0.370.550.75g g g g g g 1…1.622.5GV2ME0630.75g g1.1g g 1.6…2.533.5GV2ME0731.11.5g g g g 1.52.2g g g g 2.5…451GV2ME0832.2g g 350100 4…6.378GV2ME10334g g g g 45.510101001006…10138GV2ME1435.515507.5675 9…14170GV2ME1637.515509675 13…18223GV2ME203911151540401147517…23327GV2ME2131115401547520 (25)327GV2ME223Contact blocksDescription Mounting Maximum number Type of contacts Sold in lots of Unitreference Instantaneous auxiliary contactsFront 1N/O + N/C 10GVAE113N/O + N/O 10GVAE203LH side2N/O + N/C 1GVAN113N/O + N/O1GVAN203AccessoryDescriptionApplicationSold in lots of Unitreference Cable end reducerFor connection of conductors from 1 to 1.5 mm 220LA9D99(1) For connection of conductors from 1 to 1.5 mm 2, the use of an LA9 D99 cable end reducer is recommended.(2) Maximum rating which can be mounted in enclosures GV2 MC or MP , please consult your Regional Sales Office (3) The thermal trip setting must be within the range marked on the graduated knob.g > 100 kA.GV2 ME pp 3D F 526135.t i fLA9 D99D F 533898.e p sTeSys GVReferencesTeSys protection componentsThermal-magnetic motor circuit breakersGV2 P, GV3 P and GV3 ME80GV2 P10D F 526137.t i fGV3 P65D F 526139.t i fGV3 P651D F 526140.t i fC i r c u i t b r e a k e r sTeSys GVReferences93610011181001581007.59707010010091150501001001115101010010012…20GV7RS20 2.0109113636100100111518181001001518.58810010015…25GV7RE25 2.0109117070100100111550501001001518.5101010010015…25GV7RS25 2.01018.53610018.522181810010022810025…40GV7RE40 2.01018.57010018.550100221010025…40GV7RS40 2.0102236100301810030810030…50GV7RE50 2.01522701003050100301010030 (50)GV7RS502.01537361004555181810010055810048...80GV7RE80 2.040377010045555050100100551010048...80GV7RS80 2.0404536100–1810075810060...100GV7RE100 2.0404570100–50100751010060...100GV7RS100 2.0405575353510010075903030100100901108810010090 (150)GV7RE1502.020557570701001007590505010010090110101010010090…150GV7RS150 2.02090110353510010011013216030303010010010016020088100100132…220GV7RE220 2.3509011070701001001101321605050501001001001602001010100100132…220GV7RS220 2.350(1) As % of lcu.TeSys protection componentsThermal-magnetic motor circuit breakers GV7 RGV7 RE40D F 526138.t i fGV7 RS220D F 526141.t i f0.12–0.120.180.18–0.370.40…0.6313GV2RT040.090.120.250.370.250.370.370.550.63…122GV2RT050.180.250.370.550.370.550.370.550.750.751.11…1.633GV2RT060.370.750.751.1 1.11.51.6…2.551GV2RT070.550.75 1.11.5 1.51.52.2 2.23 2.5…478GV2RT081.12.22.23344…6.3138GV2RT101.52.234445.5 5.57.56…10200GV2RT142.23 5.55.57.57.59119…14280GV2RT1647.57.5991513…18400GV2RT205.5911111118.517…23400GV2RT21(1) The thermal trip setting must be within the range marked on the graduated knob.GV2 RTD F 526142.t i fC i r c u i t b r e a k e r sblack handle, blue legend plate(1) The thermal trip setting must be within the range marked on the graduated knob.(2) Other accessories such as mounting, cabling and marking accessories are identical to those used for GV2 ME motor circuit breakers, see page B6/13.GV2 RTD F 526142.t i fD F 526340.e p sC i r c u i t b r e a k e r sTeSys GVDescription Mounting Maximum number Type of contacts Sold inlots of Unitreference Instantaneous auxiliary contactsFront (1)1N/O or N/C (2)10GVAE1N/O + N/C 10GVAE11N/O + N/O10GVAE20Side (LH)2N/O + N/C1GVAN11N/O + N/O1GVAN20Fault signalling contact + instantaneous auxiliary contact Side (3) (LH)1N/O (fault)+ N/O1GVAD1010+ N/C1GVAD1001N/C (fault)+ N/O1GVAD0110+ N/C1GVAD0101Short-circuit signalling contactSide (LH)1C/O common point1GVAM11(1 block on RH sideof circuit breaker GV2 ME)50 Hz GVAX11560 Hz GVAX116127 V60 Hz GVAX115220…240 V 50 Hz GVAX22560 Hz GVAX226380…400 V50 Hz GVAX38560 Hz GVAX386415…440 V 50 Hz GVAX415440 V60 Hz GVAX385Add-on contact blocksDescriptionMountingMaximum number Reference Visible isolation block (5)Front (1)1GV2AK00 (6)LimitersAt top(GV2 ME and GV2 P)1GV1L3Independent1LA9LB920(1) Mounting of a GV AE contact block or a GV2 AK00 visible isolation block on GV2 P and GV2 L .(2) Choice of N/C or N/O contact operation, depending on which way round the reversible block is mounted.(3) The GV AD is always mounted next to the circuit breaker.(4) To order an undervoltage trip: replace the dot (p ) in the reference with a U , example: GV AU025. To order a shunt trip: replace the dot (p ) in the reference with an S , example: GV AS025.(5) Visible isolation of the 3 poles upstream of circuit breaker GV2 P and GV2 L .Visible isolation block GV2 AK00 cannot be used with motor circuit breakers GV2 P32 and GV2 L32 (Ith max = 25 A).(6) Ie Max = 32 A.ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsAdd-on blocks and accessoriesCharacteristics:pages B6/89 and B6/94Dimensions, schemes:pages B6/70 to B6/82LA9LB920D B 126629.e p sC i r c u i t b r e a k e r sTeSys GVTerminal blockfor supply to one or more GV2 G busbar setsConnection from the top1GV1G09Can be fitted with current limiter GV1 L3 (GV2 ME and GV2 P)1GV2G05Cover for terminal block For mounting in modular panels10LA9E07Flexible 3-pole connection for connecting a GV2 to a contactor LC1-D09…D25 Centre distance between mounting rails: 100…120 mm10GV1G02Set of connections upstream/downstream For connecting GV2 ME to a printed circuit board 10GV2GA01“Large Spacing” adapter UL 508 type EFor GV2 P pp H7 (except 32 A)1GV2GH7Clip-in marker holders (supplied with each circuit breaker)For GV2 P , GV2 L, GV2 LE and GV2 RT (8 x 22 mm)100LA9D92ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsAccessoriesDimensions, schemes:pages B6/70 to B6/82D B 417942.e p sTeSys GVD B 126631.e p sD B 126630.e p sD B 126632.e p s7P B 106297_45.e p sExtended Rotary HandleAllows a circuit breaker or a starter-controller installed in back of an enclosure to be operated from the front of the enclosure.A rotary handle can be black or red/yellow, IP54 or IP65. It includes a function for locking the circuit breaker or the starter in the O (Off) or I (On) position(depending of the type of rotary handle) by means of up to 3 padlocks with a shank diameter of 4 to 8 mm. The extended shaft must be adjusted to use in different size enclosures. The IP54 rotary handle is fixed with a nut (Ø22) to make easierthe assembling. The new Laser Square tool brings the accuracy to align the circuit breaker and the rotary handle.device(padlocks not included)ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsC i r c u i t b r e a k e r sTeSys GVDescriptionMounting Maximum number Type of contacts Sold inlots of Unitreference Instantaneous auxiliary contactsFront1N/O or N/C (1)10GVAE1N/O + N/C 10GVAE11 (2)N/O + N/O10GVAE20 (2)Side (LH)2N/O + N/C1GVAN11 (2)N/O + N/O1GVAN20 (2)Fault signalling contact + instantaneous auxiliary contactFront 1N/O (fault)+ N/O1GVAED101 (2)N/O (fault)+ N/C1GVAED011 (2)Side (3) (LH)1N/O (fault)+ N/O1GVAD1010+ N/C1GVAD1001N/C (fault)+ N/O1GVAD0110+ N/C1GVAD0101Short-circuit signalling contact Side (LH)1C/O common point 1GVAM11(4)MountingVoltage ReferenceSide(1 block on RH side of circuit breaker)24 V 50 Hz GVA p 02560 Hz GVA p 02648 V 50 Hz GVA p 05560 Hz GVA p 05610050 Hz GVA p 107100…110 V 60 Hz GVA p 107110…115 V 50 Hz GVA p 11560 Hz GVA p 116120…127 V 50 Hz GVA p 125127 V 60 Hz GVA p 115200 V50 Hz GVA p 207200…220 V 60 Hz GVA p 207220…240 V 50 Hz GVA p 22560 Hz GVA p 226380…400 V 50 Hz GVA p 38560 Hz GVA p 386415…440 V 50 Hz GVA p 415415 V 60 Hz GVA p 416440 V 60 Hz GVA p 385480 V 60 Hz GVA p 415500 V 50 Hz GVA p 505600 V60 HzGVA p 505AccessoriesDescription Reference Sets of 3-pole 115 A busbars Pitch: 64 mm2 tap-off GV3 P pp and GV3 L pp GV3G2643 tap-off GV3 P pp and GV3 L pp GV3G364Cover “Large Spacing” UL 508 type E (Only one cover required on supply side)GV3 P ppGV3G66(1) Choice of N/C or N/O contact operation, depending on which way round the reversible block is mounted.(2) Contact blocks available in version with spring terminal connections. Add a figure 3 at the end of the references selected above. Example: GV AED101 becomes GV AED1013.(3) The GV AD pp is always mounted next to the circuit breaker.(4) To order an undervoltage trip: replace the dot (p ) in the reference with a U , example: GV AU025. To order a shunt trip: replace the dot (p ) in the reference with an S , example: GV AS025.Add-on blocks and accessoriesGV3 G66D F 537424.e p sTeSys GVD B 126637.e p sD B 126636.e p sD B 126632.e p s7P B 106297_45.e p sExtended Rotary HandleAllows a circuit breaker or a starter-controller installed in back of an enclosure to be operated from the front of the enclosure.A rotary handle can be black or red/yellow, IP54 or IP65. It includes a function for locking the circuit breaker or the starter in the O (Off) or I (On) position(depending of the type of rotary handle) by means of up to 3 padlocks with a shank diameter of 4 to 8 mm. The extended shaft must be adjusted to use in different size enclosures. The IP54 rotary handle is fixed with a nut (Ø22) to make easierthe assembling. The new Laser Square tool brings the accurency to align the circuit breaker and the rotary handle.For English 10-GVAPSEN For German 10-GVAPSDE For Spanish10-GVAPSES For Chinese 10-GVAPSCN For Portuguese 10-GVAPSPT For Russian 10-GVAPSRU For Italian10-GVAPSITD F 526342.e p sB6/21C i r c u i t b r e a k e r sTeSys GVfor locking the Start button (on open-mounted product)using up to 3 padlocks(padlocks to be ordered separately)External operator for mounting on enclosure door.Red Ø40 knob on yellow plate, padlockable in position O (with up to 3 padlocks). Door locked when knob in position I, and when knob padlocked in position O.GK3AP03(1) 1 voltage trip OR 1 fault signalling contact to be fitted inside the motor circuit breaker.Other versions24 to 690 V, 50 or 60 Hz voltage trips for circuit breakers GV3 ME80.Please consult your Regional Sales Office.ReferencesTeSys protection componentsMotor circuit breakers GV3 ME80 and GK3 EF80Add-on blocks and accessoriesCharacteristics:pages B6/89 and B6/92Dimensions:page B6/47B6/22D F 526344.e p sB6/23C i r c u i t b r e a k e r sTeSys GVThese allow remote indication of the circuit breaker contact states. They can be used for signalling, electrical locking, relaying, etc. They are available in two versions: standard and low level. They include a terminal block and the auxiliary circuits leave the circuit breaker through a hole provided for this purpose.They perform the following functions, depending on where they are located in the circuit breaker:Low levelGV7AB11Fault discrimination devicesThese make it possible to:b either differentiate a thermal fault from a magnetic fault,b or open the contactor only in the event of a thermal fault.VoltageReference a 24...48 and c 24…72 V GV7AD111 (1)z 110…240 VGV7AD112 (1)Electric tripsThese allow the circuit breaker to be tripped via an electrical control signal.b Undervoltage trip GV7 AUv Trips the circuit breaker when the control voltage drops below the tripping threshold, which is between 0.35 and 0.7 times the rated voltage.v Circuit breaker closing is only possible if the voltage exceeds 0.85 times the rated voltage. Circuit breaker tripping by a GV7 AU trip meets the requirements of IEC 60947-2.b Shunt trip GV7 ASTrips the circuit breaker when the control voltage rises above 0.7 times the rated voltage.b Operation (GV7 AU or GV7 AS)v When the circuit breaker has been tripped by a GV7 AU or AS, it must be reset either locally or by remote control. (For remote control, please consult your Regional Sales Office).v Tripping has priority over manual closing: if a tripping instruction is present, manual action does not result in closing, even temporarily, of the contacts.v Durability: 50 % of the mechanical durability of the circuit breaker.TypeVoltageReference Undervoltage trip48 V, 50/60 HzGV7AU055 (1)110…130 V, 50/60 Hz GV7AU107 (1)200…240 V, 50/60 Hz GV7AU207 (1)380…440 V, 50/60 Hz GV7AU387 (1)525 V, 50 HzGV7AU525 (1)Shunt trip48 V, 50/60 HzGV7AS055 (1)110…130 V, 50/60 Hz GV7AS107 (1)200…240 V, 50/60 Hz GV7AS207 (1)380…440 V, 50/60 Hz GV7AS387 (1)525 V, 50 HzGV7AS525 (1)(1) For mounting of a GV7 AD or a GV7 AU or AS.ReferencesTeSys protection componentsThermal-magnetic motor circuit breakers GV7 R with screw clamp connectionsAdd-on blocks and accessoriesCharacteristics:pages B6/51, B6/52 and B6/56Dimensions:pages B6/79 to B6/81Schemes:page B6/83B6/24B6/25C i r c u i t b r e a k e r sTeSys GVDescription ApplicationFor use on contactors Sold in lots of Unitreference Clip-on connectors for GV7 RUp to 150 A, 1.5…95 mm 2–3GV7AC021Up to 220 A, 1.5…185 mm 2–3GV7AC022Spreader 3-pole (1)To increase the pitch to 45 mm–1GV7AC03Terminal shields IP 405 (1)Supplied with sealing accessory–1GV7AC01Phase barriersSafety accessories used when fitting of shields is impossible –2GV7AC04Insulating screens Ensure insulation between the connections and the backplate –2GV7AC05Kits for combination with contactor (2)Allowing link between thecircuit breaker and the contactor. The cover provides protection against direct finger contactLC1 F115…F1851GV7AC06LC1 F225 and F2651GV7AC07LC1 D115 and D1501GV7AC08Replaces the circuit breaker front cover; secured by screws. It includes a device for locking the circuit breaker in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included). A conversion accessory allows the direct rotary handle to be mounted on the enclosure door. In this case, the door cannot be opened if the circuit breaker is in the “ON” position. Circuit breaker closing is inhibited if the enclosure door is open.Description TypeDegree of protection Reference Direct rotary handleBlack handle, black legend plate IP 40GV7AP03Red handle, yellow legend plateIP 40GV7AP04Adapter plate (3)Four mounting direct rotary handle on enclosure doorIP 43GV7AP05Allows a circuit breaker installed in the back of an enclosure to be operated from the front of the enclosure. It comprises:b a unit which screws onto the front cover of the circuit breaker,b an assembly (handle and front plate) to be fitted on the enclosure door,b an extension shaft which must be adjusted (distance between the mounting surface and the door: 185 mm minimum, 600 mm maximum). It includes a device for locking the circuit breaker in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included). This prevents the enclosure door from being opened.DescriptionTypeDegree of protection Reference Extended rotary handleBlack handle, black legend plate IP 55GV7AP01Red handle, yellow legend plateIP 55GV7AP02Allows circuit breakers not fitted with a rotary handle to be locked in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included).Description ApplicationReference Locking deviceFor circuit breaker not fitted with a rotary handleGV7V01(1) Terminal shields cannot be used together with spreaders.(2) The kit comprises links, a protective shield and a depth adjustable metal bracket for the breaker.(3) This conversion accessory makes it impossible to open the door if the device is closed and prevents the device from being closed if the door is open.ReferencesTeSys protection componentsThermal-magnetic motor circuit breakers GV7 R with screw clamp connectionsAccessoriesGV7 AC07D F 537429.e p sGV7 AC08D F 537428.e p sDimensions:pages B6/79 to B6/81B6/260.5 6.63GB2DB051143GB2DB062263GB2DB073403GB2DB084503GB2DB095663GB2DB106833GB2DB1281083GB2DB14101383GB2DB16121653GB2DB20162203GB2DB21202703GB2DB22(1) Conforming to IEC 60947-1.GB2 CBppD F 526243.t i fGB2 CD ppD F 526244.t i fGB2 DBppD F 526245.t i fPresentation, selection :page B6/84Characteristics :pages B6/85 to B6/87Dimensions :page B6/88Schemes :page B6/88B6/27C i r c u i t b r e a k e r s(1) Conforming to IEC 60947-1.Accessories for circuit breakers GB2-CB, DB and CSDescriptionSold in lots of Unitreference Busbar set for supply to 10 GB2 DB or20 GB2 CB or GB2 CS with 2 connectors1GB2G210Supply connector 10GB2G01GB2 CS ppD F 526246.t i fPresentation, selection :page B6/84Characteristics :pages B6/85 to B6/87Dimensions :page B6/88Schemes :page B6/88B6/28B6/29B6/30TeSys GVCharacteristicsTeSys protection componentsMagnetic motor circuit breakers GV2 LE and GV2 LReferences:pages B6/2 and B6/3Dimensions:pages B6/43 to B6/47Schemes:page B6/48add-on contact blocks. Side by side mounting is possible up to 40 °C.(2) When mounting on a vertical rail, fit a stop to prevent any slippage.(1) As % of Icu.Average operating times at 20 °C related to multiples of the setting currentD F 534092.e p s1 3 poles from cold state2 2 poles from cold state3 3 poles from hot stateDynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VD F 534093.e p s1 Maximum peak current2 32 A3 25 A4 18 A5 14 A6 10 A7 6.3 A8 4 A9 2.5 A 10 1.6 A11 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VD F 534094.e p s1 Maximum peak current2 32 A3 25 A4 18 A5 14 A6 10 A7 6.3 A8 4 A9 2.5 A 10 1.6 A11 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Thermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22Prospective Isc (kA)D F 534095.e p s1 32 A 2 25 A3 18 A4 14 A5 10 A6 6.3 A7 4 A8 2.5 A9 1.6 AThermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22D F 534096.e p s1 25 A and 32 A 2 18 A3 14 A 4 10 A5 6.3 A6 4 A7 2.5 A8 1.6 AThermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22D F 534097.e p s1 32 A (GV2 LE32)2 25 A and 32 A (GV2 L32)3 18 A4 14 A5 10 A6 6.3 A7 4 A8 2.5 A9 1.6 A10 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Average operating time at 20 °C without prior current flowx the setting current (Ir)D F 534098.e p s1 3 poles from cold state2 2 poles from cold state3 3 poles from hot stateA Thermal overload relay protection zoneB GV3 L protection zoneDynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VProspective Isc (kA)D B 418280.e p s1 Maximum peak current2 GV3 L653 GV3 L504 GV3 L405 GV3 L326 GV3 L25Thermal limit in A 2sSum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V2Prospective Isc (kA)D B 418279.e p s1 GV3 L652 GV3 L503 GV3 L404 GV3 L325 GV3 L25TeSys GVDimensions, mountingD F 537440.e p sD F 537441.e p sD F 537444.e p sTeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LETeSys GVDimensions, mounting TeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LED B 127415.e p sD B 127414.e p sa b Mini Maxi Mini Maxi GV2 APN pp140250GV2 APN pp + GV APH02151250GV2 APN pp + GV APK11250434--GV2 APN pp + GV APH02 + GV APK11--250445TeSys GVDimensions,mounting Sets of busbars GV2 G445, GV2 G454, GV2 G472, with terminal block GV2 G05D F 537451.e p sGV2 G445224269314359GV2 G454260314368422GV2 G472332404476548D F 537452.e p sD F 537454.e p sGV2 G345 (3 x 45 mm)134GV2 G354 (3 x 54 mm)152TeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LED F 537480.e psD F 537435.e p sD F 510637.e p sD F 510638.e p sD B 127416.e p sD B 127417.e p sa b Mini Maxi Mini Maxi GV3 APN pp189300--GV3 APN pp + GV APK12300481GV3 APN pp + GV APH03--200300GV3 APN pp + GV APH03 + GV APK12--300492TeSys GVSchemesTeSys protection componentsMagnetic motor circuit breakers GV2 L, GV2 LE, GV3 LD F 537474.e p sD F 537475.e p sD F 537476.e p sGV2 ME, GV2 P , GV3 ME, GV3 P and GV7 R motor circuit breakers are 3-pole thermal-magnetic circuit breakers specifically designed for the control and protection of motors , conforming to standards IEC 60947-2 and IEC 60947-4-1.Connection GV2GV2 ME and GV2 P circuit breakers are designed for connection by screw clamp terminals.Circuit breaker GV2 ME can be supplied with lugs or spring terminal connections.Spring terminal connections ensure secure, permanent and durable clamping that is resistant to harsh environments, vibration and impact and are even more effective when conductors without cable ends are used. Each connection can take two independent conductors.GV3GV3 circuit breakers feature connection by BTR screws (hexagon socket head), tightened using a n° 4 Allen key.This type of connection uses the Ever Link ® system with creep compensation (1) (Schneider Electric patent).This technique makes it possible to achieve accurate and durable tightening torque, in order to avoid cable creep.GV3 circuit breakers are also available with connection by lugs. This type of connection meets the requirements of certain Asian markets and is suitable for applications subject to strong vibration, such as railway transport.GV7GV7 circuit breakers: with connection by screw clamp terminals (for bars and lugs) and by clip-on connectors.OperationControl is manual and local when the motor circuit breaker is used on its own.Control is automatic and remote when it is associated with a contactor.GV2 ME and GV3 ME80Pushbutton control.Energisation is controlled manually by operating the Start button “I” 1.De-energisation is controlled manually by operating the Stop button “O” 2, or automatically by the thermal-magnetic protection elements or by a voltage trip attachment.GV2 P , GV3 P and GV7 Rb Control by rotary knob: for GV2 P and GV3 P b Control by rocker lever: for GV7 R.Energisation is controlled manually by moving the knob or rocker lever to position “I” 1.De-energisation is controlled manually by moving the knob or rocker lever to position “O” 2.De-energisation due to a fault automatically places the knob or rocker lever in the “Trip” position 3.Re-energisation is possible only after having returned the knob or rocker lever to position “O”.(1) Creep: normal crushing phenomenon of copper conductors, that is accentuated over time.GV2 MEwith screw clamp terminals124D F 526134.t i fGV2 MEwith spring terminals connections124D F 526135.t i fGV3 P1324D F 526136.t ifGV2 P1342D F 526137.t i fGV7 R132D F 526138.t i f。
瑞特拉电子产品购买指南说明书
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241For additional technical information visit Metric measurements for this product are exact, imperial measurements are rounded to the nearest whole numberUseful Cooling Capacity: 2400 - 5794 BTU (703 - 1697 W)Part No. with basic controller 3303.1042)3303.1142)3304.1043304.1143304.1443305.1043305.1143305.144Part No. with comfort controller 3303.5042)3303.5142)3304.5043304.5143304.5443305.5043305.5143305.544Voltage V , Hz230, 50/60115, 60230, 50/60115, 60400, 50/ 460, 60, 3~230, 50/60115, 60400, 50/ 460, 60, 3~Dimensions inches (mm)H x W x D24 x 11 x 12 (620 x 285 x 298)40 x 16 x 14 (1020 x 405 x 358)Useful cooling capacity Q KBTU (W)T i 131 T a 1312400 (703)3916 (1147)5794 (1697)Useful cooling capacity Q K to DIN 3168 BTU (W)T i 95 T a 951708/2083(500/610)1708 (500)3415/3620 (1000/1060)5123/5157 (1500/1510)T i 95 T a 122956/1195(280/350)956 (280)2698/2869 (790/840)4201/4269 (1230/1250)Rated current maximum 2.6/2.6 A 5.7 A 5.4/5.0 A 10.6/11.1 A 2.8/2.9 A 6.0/6.5 A 12.1/13.6 A 2.6/2.9 A Starting current 5.1/6.4 A 11.5 A 12.0/14.0 A 26.0/28.0 A 11.5/12.7 A 22.0/24.0 A 42.0/46.0 A 12.2/11.3 A Pre-fuse T 10.0 A 10.0 A 10.0 A 16.0 A 10.0 A 1)16.0 A 20.0 A 10.0 A 1)Power consumption Pel toDIN 3168T i 95 T a 95360/380 W 470 W 700/650 W 725/680 W 580/550 W 850/1000 W 880/1050 W 800/980 W T i 95 T a 122420/390 W500 W 750/710 W 780/750 W 660/680 W 1000/1160 W 1040/1200 W 960/1150 W Cooling coefficient j =Q K /PelT i 95 T a 95 1.4 1.7 1.8 1.7 1.9Refrigerant R134a, 6.0 oz (170 g)R134a, 17.6 oz (500 g)R134a, 21.1 oz (600 g)Maximum allowable operating pressure 406 psi (28 bar)363 psi (25 bar)Temperature and setting range Comfort Controller - 68 to 131° F (+20 to +55° C) / Basic Controller - 86 to 131° F (+30 to +55° C)Environmental ratings UL Type 4X (IP 66)Duty cycle 100%Type of connection Plug-in terminal strip Weight lb (kg)55.1 (25)108.2 (49)119.0 (54)110.2 (50)112.4 (51)123.5 (56)114.6 (52)Material Type 304 stainless steelAir displacement offans External circuit 203 cfm (345 m 3/h)530 cfm (900 m 3/h)530 cfm (900 m 3/h)Internal circuit 182 cfm (310 m 3/h)353 cfm (600 m 3/h)471 cfm (800 m 3/h)Temperature control Basic or comfort controller (factory setting 95° F [+35° C])Accessories PU Page Door-operated switch 14127.010–Master/slave cable for comfortcontroller13124.100–3124.100267RiDiag II including cables for comfortcontroller13159.100267Interface card for comfort controller 13124.200268Condensate hose 13301.6103301.6122731) Motor circuit breaker. 2)Internal condensate evaporator not included. Special voltages and technical modifications available on request.Wallmounted UL T ype 4X Air ConditionerCon guration:Fully wired ready for connection, including drilling template and assembly parts. With nano-coated condenser and integrated condensate evaporator.Protection Ratings:UL and cUL recognized, CSA UL Type 4XUL file: SA8250 Material:Type 304 stainless steel Note:Air conditioner with comfortcontroller may be integrated into a monitoring system with an optional interface card 3124.20 (RS 232, RS 485, RS 422 and PLC interface). See page 268. Made in the USA.000C o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ŀ M o t i o n C o n t r o l ŀ H y d r a u l i c ŀ P n e u m a t i c ŀ E l e c t r i c a l ŀ M e c h a n i c a l ŀ (800) 426-5480 ŀ w w w .c m a f h .c o242For additional technical information visit Metric measurements for this product are exact, imperial measurements are rounded to the nearest whole numberUseful Cooling Capacity: 8706 - 10525 BTU (2550 - 3083 W)Part No. with basic controller 3328.1043328.1143328.1443329.1043329.1143329.144Part No. with comfort controller 3328.5043328.5143328.5443329.5043329.5143329.544Rated operating voltage V , Hz 230, 50/60115, 50/60400, 50/460, 60, 3~230, 50/60115, 50/60400, 50/460, 60, 3~Dimensions inches (mm)H x W x D 65 x 16 x 15 (1650 x 405 x 388)Useful cooling capacity Q K BTU (W)T i 131 T a 1318706 (2550)10525 (3083)Useful cooling capacity Q K to DIN 3168 BTU (W)T i 95 T a 956860/8025 (2000/2350)8538/9392 (2500/2750)T i 95 T a 1224952/5772 (1450/1690)5464/5977 (1600/1750)Rated current max. 7.5 A/9.1 A 14.7 A/17.3 A 2.8 A/3.3 A 8.6 A/10.6 A 17.0 A/22.0 A 3.7 A/3.8 A Start-up current 22.0 A/26.0 A36.0 A/39.0 A6.8 A/7.8 A 21.0 A/21.0 A44.0 A/42.0 A6.8 A/7.6 A Pre-fuse T16.0 A25.0 A 10.0A/10.0 A 1)16.0 A 25.0 A 10.0 A/10.0 A 1)Power consumption Pel to DIN 3168 T i 95 T a 951025/1200 W 1085/1250 W 1050/1275 W 1450/1675 W 1500/1725 W 1425/1625 W T i 95 T a 1221250/1350 W1300/1410 W1275/1525 W1625/2000 W1675/2065 W1675/1975 WCooling coefficient j = Q K /Pel T i 95 T a 951.72.31.92.0RefrigerantR134a, 31.7 oz (900 g)Maximum allowable operating pressure 406 psi (28 bar)Temperature and setting range Comfort Controller - 68 to 131° F (+20 to +55° C) / Basic Controller - 86 to 131° F (+30 to +55° C)Protection rating UL Type 4X (IP 66)Duty cycle 100%Type of connection Plug-in terminal stripWeight lb (kg)176.4 (80)191.8 (87)176.4 (80)183.0 (83)198.4 (90)183.0 (83)MaterialType 304 stainless steelAir displacement of fans External circuit 377 cfm (640 m 3/h)418 cfm (710 m 3/h)Internal circuit324 cfm (550 m 3/h)377 cfm (640 m 3/h)Temperature control Basic or comfort controller (factory setting 95° F [+35° C])Accessories PU Page Door-operated switch14127.010–Master/slave cable for comfort controller13124.100267RiDiag II including cables for comfort controller 13159.100267Interface card for comfort controller 13124.200268Condensate hose13301.6122731)Motor circuit breaker. Special voltages available on request. We reserve the right to make technical modifications.Wallmounted UL T ype 4X Air ConditionerCon guration:Fully wired ready for connection, including drilling template and assembly parts. With nano-coated condenser and integrated condensate evaporator.Protection Ratings: UL and cUL recognized UL Type 4X UL file: SA8250Material:Type 304 stainless steelNote:Air conditioner with comfortcontroller may be integrated into a monitoring system with an optional interface card 3124.200(RS 232, RS 485, RS 422 and PLC interface). See page 268. Made in the USA.C o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ŀ M o t i o n C o n t r o l ŀ H y d r a u l i c ŀ P n e u m a t i c ŀ E l e c t r i c a l ŀ M e c h a n i c a l ŀ (800) 426-5480 ŀ w w w .c m a f h .c o。
金属垫片标准47025
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金属垫片标准47025
首先,让我们来看一下金属垫片标准47025中可能包括的尺寸要求。
这些尺寸要求可能涉及到金属垫片的直径、厚度、孔径尺寸等方面的规定,以确保金属垫片能够准确地适配于所需的密封或连接部件之间。
其次,金属垫片标准47025可能还包括了对材料的要求。
这些要求可能涉及到金属垫片所采用的材料类型、化学成分、力学性能等方面的规定,以确保金属垫片具有足够的强度和耐腐蚀性能。
此外,制造工艺也是金属垫片标准47025可能涉及的一个重要方面。
这些制造工艺可能包括了金属垫片的冲压、切割、表面处理等工艺要求,以确保金属垫片在制造过程中能够保持所需的尺寸精度和表面质量。
在性能要求方面,金属垫片标准47025可能还包括了金属垫片在使用过程中所需满足的密封性能、承载能力、耐磨损性能等方面的要求,以确保金属垫片能够在实际应用中发挥所需的功能。
最后,金属垫片标准47025可能还包括了对金属垫片进行测试
的方法和标准,以确保金属垫片能够符合标准规定的要求。
这些测
试可能涉及到金属垫片的尺寸测量、材料性能测试、性能评价等方
面的内容。
总的来说,金属垫片标准47025涵盖了金属垫片的尺寸、材料、制造工艺、性能要求以及测试方法等多个方面的规定,以确保金属
垫片能够在工业应用中发挥所需的功能并保证质量稳定。
TDK贴片电感SLF系列特点和常用规格型号
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TDK贴片电感SLF系列采用磁屏蔽技术,性能优越,耐用可靠,拥有广泛的应用场景,满足汽车、通信、音响、电源等多种行业的需求。
它非常薄,重量轻,安装简单,使用温度范围广,-40℃到+105℃,能够满足客户的各种需求,是薄型TV、液晶显示器、 AV设备、游戏设备、其他各种电子仪器的理想之选。
TDK贴片绕线电感,满足不同需求,让您体验高性能,更加安全可靠,更加经济实惠。
以下是KOYUELEC光与电子代理TDK贴片电感SLF系列库存常用封装和规格型号SLF6025 系列 6.0×6.0×2.5mm(L×W×T)SLF6025T-4R7M1R5-PF、SLF6025T-6R8M1R3-PF、SLF6025T-100M1R0-PF、SLF6025T-220MR73-PF、SLF6025T-330MR59-PF、SLF6025T-470MR48-PF、SLF6025T-680MR42-PF、SLF6025T-101MR33-PF、SLF6028 系列 6.0×6.0×2.8mm(L×W×T)SLF6028T-4R7M1R6-PF、SLF6028T-6R8M1R5-PF、SLF6028T-100M1R3-PF、SLF6028T-470MR59-PF、SLF6028T-680MR50-PF、SLF6028T-101MR42-PF、SLF6028T-221MR26-PF、SLF6045 系列 6.0×6.0×4.5mm(L×W×T)SLF6045T-2R2N3R3-3PF、SLF6045T-3R3N2R8-3PF、SLF6045T-4R7N2R4-3PF、SLF6045T-6R8N2R0-3PF、SLF6045T-100M1R6-3PF、SLF6045T-150M1R3-3PF、SLF6045T-220M1R1-3PF、SLF7032 系列 7.0×7.0×3.2mm(L×W×T)SLF7032T-3R3M1R9-2PF、SLF7032T-4R7M1R7-2PF、SLF7032T-6R8M1R6-2PF、SLF7032T-100M1R4-2PF、SLF7032T-150M1R1-2PF、SLF7032T-220MR96-2PF、SLF7032T-470MR67-2PF、SLF7032T-101MR45-2PF、SLF7032T-221MR29-2PF、SLF7032T-471MR20-2PF、SLF7032T-681MR16-2PF、SLF7032T-102MR13-2PF、SLF7045 系列 7.0×7.0×4.5mm(L×W×T)SLF7045T-3R3M2R5-PF、SLF7045T-4R7M2R0-PF、SLF7045T-6R8M1R7-PF、SLF7045T-100M1R3-PF、SLF7045T-220MR90-PF、SLF7045T-470MR75-PF、SLF7045T-680MR60-PF、SLF7045T-101MR50-PF、SLF7045T-221MR33-PF、SLF7045T-471MR22-PF、SLF7045T-681MR20-PF、SLF7045T-102MR14-PF、SLF7055 系列 7.0×7.0×5.5mm(L×W×T)SLF7055T-1R5N4R0-3PF、SLF7055T-3R3N3R3-3PF、SLF7055T-4R7N3R1-3PF、SLF7055T-6R8N2R8-3PF、SLF7055T-100M2R5-3PF、SLF7055T-150M2R1-3PF、SLF7055T-220M1R7-3PF、SLF10145 系列 10.1×10.1×4.5mm(L×W×T)SLF10145T-3R3N3R7-PF、SLF10145T-100M2R5-PF、SLF10145T-220M1R9-PF、SLF10145T-470M1R4-PF、SLF10145T-680M1R2-PF、SLF10145T-101M1R0-PF、SLF10145T-471MR47-PF、SLF10145T-681MR38-PF、SLF10145T-102MR29-PF、SLF10145T-152MR22-PF、SLF10165 系列 10.1×10.1×6.5mm(L×W×T)SLF10165T-1R5N6R83PF、SLF10165T-2R2N6R33PF、SLF10165T-4R7N4R73PF、SLF10165T-6R8N4R33PF、SLF10165T-100M3R83PF、SLF10165T-150M3R13PF、SLF10165T-220M2R43PF、SLF12555 系列 12.5×12.5×5.5mm(L×W×T)SLF12555T-6R0N3R6-PF、SLF12555T-100M3R4-PF、SLF12555T-220M2R3-PF、SLF12555T-330M1R9-PF、SLF12555T-470M1R6-PF、SLF12555T-101M1R1-PF、SLF12555T-681MR43-PF、SLF12555T-102MR34-PF、SLF12565 系列 12.5×12.5×6.5mm(L×W×T)SLF12565T-220M3R5-PF、SLF12565T-470M2R4-PF、SLF12565T-680M2R0-PF、SLF12565T-221M1R0-PF、SLF12575 系列 12.5×12.5×7.5mm(L×W×T)SLF12575T-2R7N7R0-PF、SLF12575T-3R9N6R7-PF、SLF12575T-6R8N5R9-PF、SLF12575T-100M5R4-PF、SLF12575T-470M2R7-PF、SLF12575T-680M2R0-PF、SLF12575T-101M1R9-PF、SLF12575T-101M1R9-PF、以上就是本文全部内容,主要介绍了TDK贴片电感SLF系列特点和常用规格型号。
产品规格书
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控制方式
同步控制伎持双备份
10
控制距离
超五类双绞网线,超过100米使用光纤传输
11
软件接口
Windows
12
信号输入
RJ45
(7)屏体运行参数
1
工作电压
AC:n0V~240V∖50~60Hz伎持双备份
2
峰值功率
≤400W∕m2
3
平均功率
100W∕m2〜180W∕m2
4
连续工作时间
≥7×24hrs,支持连续不间断显示
1
LED种类
SMD1515
2
像素点间距
1.875mm
3
像素点组成
IRlGlB
(3)模组技术参数
1
模组分辨率(宽*高)
160像素*90像素
2
模组尺寸(宽X高)
(宽)30Ommχ(高)168.75mm
3
模组信号输入
支持精密镀金接插件直连
4
模组电源输入
支持精密镀金接插件直连
5
模组数据存储
支持数据存储
6
电磁兼容
5
平均无故障工作时间
>1000H
6
LED寿命
10万小时
7
离散失控点
<0.001,出厂时为0
8
连续失Hale Waihona Puke 点09盲点率
≤0.001,出厂时为0
10
屏幕温升(使用运行状态)
M5度
11
运彳再境温度
-10℃-60℃
12
运行环境湿度
10%~90%RH,猿结
注:参数指标根据项目的具体情况会有变化(产品按照提交合同规格书为准)
常见焊条焊丝型号牌号对照一览表格
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.压力容器用钢焊材一览表种类牌号中国 GB美国 AWS 碳THJ422E4303—钢THJ426E4316E6016焊THJ427E4315E6015条THJ506E5016E7016THJ507E5015E7015THJ506R E5016-G E7016-GTHJ507RH E5015-G E7015-GTHJ557R E5MoV-15—低THJ606E6016-D1E9016-D1合金THJ607E6015-D1E9015-D1钢THW707Ni E5515-C1—焊THR207E5515-B1E8015-B1条THR307E5515-B2E8015-B2THR317E5515-B2-V—THR407E6015-B3—THR507E5MoV-15—种类不锈钢焊条气保护实芯焊丝牌号中国 GB美国 AWSTHA002E308L-16E308L-16THA022E316L-16E316L-16THA102E308-16E308-16THA107E308-15E308-15THA132E347-16E347-16THA137E347-15E347-15THA202E316-16E316-16THA207E316-15E316-15THA212E318-16E318-16THA242E317-16E317-16THA302E309-16E309-16THA307E309-15E309-15THG202E410-16E410-16———THQ-G2Si EN440 G38 4MG2SiTHQ-50CG4EN440 G38 3CG4Si1型号牌号GBTHT49-1ER49-1THT-10MnSi ER50-GTHT50-6ER50-6( TIG-J50 )THT55-B2ER55-B2THT55-B2V ER55-GTHT-307H09Cr21Ni9Mn4Mo THS-307THT-307SiH10Cr21Ni10Mn6Si1 THS-307SiTHT-308H08Cr21Ni10Si THS-308THT-308LH03Cr21Ni10Si THS-308LTHT-308LSiH03Cr21Ni10Si1 THS-308LSiTHT-309H12Cr24Ni13Si THS-309THT-309MoH12Cr24Ni13Mo2 THS-309MoTHT-309LH03Cr24Ni13Si THS-309L类型碳钢焊丝珠光体耐热钢焊丝不锈钢焊丝.氩弧焊焊丝主要用途用于船舶、石化、核电话等高压管的对接及角焊用于薄板及打底焊接构造用于管道、平板等需作抛光度正确时的焊接用于工作温度550℃以下的锅炉受热面管子蒸汽管道,高压容器,石油精练设施构造的焊接用于工作温度550℃以下的锅炉受热面管子蒸汽管道,高压容器,石油精练设施构造的焊接用于防弹钢、覆面不锈钢及碳钢异材的焊接用于高锰钢、硬化性耐磨钢及非磁性钢的焊接用于 308、 301、304 等不锈钢构造的焊接用于 304L 、 308L 等不锈钢构造的焊接用于改良填补金属的工艺性、焊接操作性及流动性用于异种钢的焊接,如碳钢、低合金钢与不锈钢的焊接用于 Cr22Ni12Mo2复合钢以及异种钢的焊接用于 309S、 1Cr13、 1Cr17、低碳不锈钢、低碳覆面钢以及异种钢的焊接. THT-309LSi用于 309 型不锈钢以及 304 型不锈钢与碳钢的焊接H03Cr24Ni13Si1THS-309LSiTHT-309LMo用于异种钢的焊接或韧性较差的马氏体、铁素体不锈钢的焊接H03Cr24Ni13Mo2THS-309LMoTHT-310用于高温条件下工作的耐热钢以及1Cr5Mo 、 1Cr13 等不可以进行预热及后热办理的焊接H12Cr26Ni21SiTHS-310THT-312用于异种母材不锈钢覆面、硬化性低合金钢以及焊接困难或易发生气孔状况的焊接H15Cr30Ni9THS-312THT-316用于磷酸、亚硫酸、醋酸及盐类腐化介质构造的焊接H08Cr19Ni12Mo2SiTHS-316THT-316L用于尿素、合成纤维等构造及不可以进行热办理的铬不锈钢及复合钢的焊接H03Cr19Ni12Mo2SiTHS-316LTHT-316LSi用于同样种类不锈钢以及复合钢构造的焊接H03Cr19Ni12Mo2Si1THS-316LSiTHT-317用于重要的耐腐化化工容器的焊接H08Cr19Ni14Mo3THS-317THT-317L用于重要的耐腐化化工容器的焊接H03Cr19Ni14Mo3THS-317LTHT-321用于 304、 321、347 型不锈钢以及耐热钢的焊接H08Cr19Ni10TiTHS-321THT-347用于 304、 321、347 型不锈钢以及耐热钢的焊接H08Cr20Ni10NbTHS-347THT-410用于 410、 420 型不锈钢以及耐蚀耐磨表面的堆焊H12Cr13THS-410THT-420用于 Cr13 马氏体不锈钢耐腐化性资料的堆焊H31Cr13THS-420THT-430用于腐化(硝酸)、耐热同种类不锈钢表面堆焊H10Cr17THS-430THT-2209用于含 Cr22% 双相不绣钢的焊接H03Cr22Ni8Mo3NTHS-2209.碳钢焊条型号牌号GBJ421E4313 THJ421X E4313 THJ421Fe18E4324 THJ422E4303 THJ422GM E4303THJ423E4301E4310 THJ425XE4311熔敷金属化学成分( %)(≤)熔敷金属力学性能(≥)C MnSi S PRel/RP0.2Rm A AKV其余MPa MPa%J0.100.32/0.0300.035355440/220℃—0.300.55570470.100.32/0.0350.040330420170℃—0.300.55270.120.30/0.0350.040330420170℃—0.350.60470.100.32/0.0350.040330420220℃—0.250.55270.100.32/0.0350.040330420220℃—0.250.55270.100.32/0.0350.04033042022-20℃—0.300.55270.200.32/0.0350.04033042022-30℃—0.300.6027特色与用途焊接低碳钢构造,特别合用于薄板小件及短焊缝的中断焊和盖面焊。
压力容器法兰、垫片、紧固件NBT47020~47027-2012新标准VS旧标准
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NB/T 47020~47027-2012〈压力容器法兰,垫片、紧固件〉1.NB/T 47020-2012压力容器法兰分类与技术条件・引用标准进行了更新・取消了法兰用材料Q235A和15MnVR・增加了长颈法兰用锻件材料14Cr1MO・长颈对焊法兰的尺寸作了进一步扩充・增加了垫片规格,与长颈对焊法兰系列规格相一致・Q235B钢板不得用作毒性程度为高度或极度危害介质的压力容器法兰・法兰用厚度大于50mm的Q245R、Q345R钢板应正火状态下使用・甲型、乙型法兰的法兰环与圆筒或短节的连接焊缝应全焊透,长颈法兰与圆筒的对接焊缝应全焊透・对长颈法兰当工作压力大于或等于0.8倍本标准中规定的最大允许工作压力时,法兰与圆角的对接焊缝必须 100%射线检RTII级合格・对甲型平焊法兰、乙型平焊法兰,法兰与圆筒或短节间的连接焊缝表面100%磁粉或渗透,检测I级合格令NB/T 47020-2012规定用作法兰钢板应符合GB 150—2011 的规定。
令Q235B, Q235C钢板用作容器法兰的限制。
1)钢的化学成分应符合GB/T 700-2006的规定,钢板的质保书中磷的含量PW0.035%,硫的含量SW0.035% 的要求。
2)厚度等于大于6mm的钢板应进行冲击试验,结果应符合GB/T 700—2006 的规定。
3)设计压力小于1.6MPa。
4)使用温度Q235B为20~300℃Q235C 为 0~300℃5)用作其他受压元件(除容器壳体外)Q235B为30mmQ235C 为 40mm 6)Q235 系列的钢板不得用于毒性程度为极度和高度危害的介质。
2.NB/T 47021-2012 甲型平焊法兰・引用标准进行了更新・材料牌号进行了相应的更新・将衬环平密封面的衬环尺寸D3增至尺寸D23.NB/T 47022-2012 乙型平焊法兰・引用标准进行了更新・材料牌号进行了相应的更新・将衬环平密封面的衬环外径尺寸D3增至D24. NB/T 47023-2012 长颈对焊法兰•引用标准进行了更新•材料牌号进行了相应的更新•将衬环平密封面的衬环外径尺寸D3增至D2 〜.•PN0.6MPa 2.5 MPa的法兰直径规格增至DN2600•PN4.0MPa的法兰直径规格增至DN2000•PN6.4MPa的法兰直径规格增至DN1200•相应增加了长颈法兰高度H的修正值5. NB/T 47024-2012 非金属软垫片•规范性引用文件进行了更新•增加了橡胶、聚四氟乙烯、柔性石墨等非金属软性垫片材料•修改部分技术要求•垫片的尺寸进行扩充非金属垫片的典型材料和代号6.NB/T 47025-2012 缠绕垫片•规范性引用文件进行了更新•取消了金属带的沸腾钢牌号•取消了金属带0Cr18Ni12Mo2Ti牌号,加对典型金属带牌号进行了更新•增加了填充带的材料“非石棉纤维”•增加了典型金属带材料和填充带材料的使用温度范围•垫片的尺寸进行扩充金属带的典型材料和代号填充带材料和代号a 不同种类的非石棉纤维带材料有不同的使用温度,按生产厂的规定垫片的结构型式和代号7.NB/T 47026-2012 金属包垫片•规范性引用文件进行增加和更新•对典型金属板材料牌号进行更新•增加了典型金属板材料的最高工作温度•增加了填充带材料的类型和最高工作温度•垫片的尺寸进行了扩充金属板材料标准和代号填充材料标准和最高工作温度8. NB/T 470027-2012 压力容器法兰用紧固件•规范性引用文件进行了更新•由螺柱扩充到紧固件•螺柱的尺寸进行扩充•增加了全螺纹螺柱•修改了部分技术要求•增加了检验、验收和包装要求•A型螺柱:无螺纹部分直径d2等于螺纹大经(公称直径)•B型螺柱:无螺纹部分直径d2等于螺纹小径•C型螺柱:为全螺纹螺柱•用于公称压力PN三4.0MPa法兰的螺柱,应逐根按JB/T4730.4进行磁粉检测,II级合格•合金钢紧固件应进行法兰处理•螺柱的材料有20,35,40MnB,40MnVB,40Cr,35CrMOA,25Cr2MOVA•与螺柱相匹配螺母材料有15,20,25,45,40Mn,30CrMOA, 35CrMOA,25Cr2MOVA•螺母的厚度相当于I级螺母的厚度。
电子元器件的质量等级
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电子元器件的质量等级汇总整理? ? 张增照1元器件质量保证有关标准 (3)1.1规范 (3)1.2标准 (4)2可靠性表征方式 (5)2.1元件的失效率等级 (5)2.2产品保证等级 (6)3元器件的质量认证 (7)4元器件的质量等级 (8)4.1用于元器件生产控制、选择和采购的质量等级 (8)4.2用于电子设备可靠性预计的质量等级 (10)4.3元器件两种质量等级的比较 (10)5元器件的选用与质量标记 (19)5.1元器件的选用 (19)5.2质量标记 (21)6结束语 (22)元器件质量保证有关标准为了保证军用元器件的质量,我国制订了一系列的元器件标准。
在七十年代末期制订的“七专”7905技术协议和八十年代初期制订的“七专”8406技术条件(以下统称“七专”条件),“七专”技术条件是建立我国军用元器件标准的基础,目前按“七专”条件或其加严条件控制生产的元器件仍是航天等部门使用的主要品种。
(注:“七专”指专人、专机、专料、专批、专检、专技、专卡)根据发展的趋势,“七专”条件将逐步向元器件的**军用标准(GJB)过渡。
因此,以下将主要介绍元器件**军用标准的有关情况。
从八十年代开始,我国军用标准化组织参照美国军用标准(MIL)体系建立了GJB体系,其中元器件的标准有规范、标准、指导性技术文件三种形式:a. 规范—主要包括:元器件的总规范和详细规范,这两种规范统称产品规范。
b.标准—主要包括:试验和测量标准、质量保证大纲和生产线认证标准、元器件材料和零件标准、型号命名标准、文字和图形符号标准等;c. 指导性技术文件—主要包括:指导正确选择和使用元器件的指南、用于电子设备可靠性预计的手册、元器件系列型谱等。
根据我国的具体情况,军标分为**军用标准、行业军用标准、企业军用标准三个级别。
下面对组成**军用元器件标准体系的三种形式:规范、标准和指导性技术文件分别举例作简要的介绍。
1.1规范元器件规范主要包括:元器件的总规范(通用规范)和详细规范两个层次。
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Temperature Rise(degree)
TDK Power Inductor
Temperature Rise
SLF12575T-100M5R4-PF
40
30
20
10
0
0
2
4
6
IDC(A)
SLF12575T-150M4R7-PF
40
Temperature Rise(degree)
30
20
10
0
2
IDC(A)
Temperature Rise(degree)
Aug.2005 KY
- 12 -
C2520
IDC(A)
Aug.2005 KY
-6-
6
5
C2520
TDK Power Inductor
DC Bias & Temperature Characteristics
SLF12575T-101M1R9-PF
120
L(uH)
80
40
0 0
Te m p. -40de g. -20
0 20 65 85 105
L-Q Frequency Characteristics
SLF12575T-101M1R9-PF
200
100
160
80
L
120
60
80
40
40
Q
20
0
0
1
10
100
1000
10000
100000
Freq.(kHz)
Q
L(uH)
500 400 300 200 100
0 1
SLF12575T-151M1R5-PF
10
5
0
-5
-10
-15
-20 -40 -20
0
20
40
60
T emperature(degree)
80
100
L Change(%)
SLF12575T-680M2R0-PF
20
15 basis on L at 20degree
10
5
0
-5
-10
-15
-20 -40 -20
0
20
40
60
T emperature(degree)
100000
Freq.(kHz)
Q L(uH)
SLF12575T-330M3R2-PF
100
100
80
80
60
60
40
40
20
20
0
0
1
10
100
1000
10000
100000
Freq.(kHz)
Q
L(uH)
SLF12575T-470M2R7-PF
100
100
80
80
60
60
40
40
20
20
0
0
1
10
10
5
0
-5
-10
-15
-20 -40 -20
0
20
40
60
T emperature(degree)
80
100
L Change(%)
SLF12575T-151M1R5-PF
20
15 basis on L at 20degree
10
5
0
-5
-10
-15
-20 -40 -20
0
20
40
60
T emperature(degree)
SLF12575T-100M5R4-PF
20
15 basis on L at 20degree
10
5
0
-5
-10
-15
-20 -40 -20
0
20
40
60
T emperature(degree)
80
100
L Change(%)
SLF12575T-150M4R7-PF
20
15 basis on L at 20degree
1
2
IDC(A)
L(uH)
SLF12575T-151M1R5-PF
160
120
Te m p.
-40de g.
80Leabharlann -20020
40
65
85
105
0
0.0
0.5
1.0
1.5
IDC(A)
Aug.2005 KY
-7-
3
2.0
C2520
TDK Power Inductor
DC Bias & Temperature Characteristics
DC Bias & Temperature Characteristics
L(uH)
SLF12575T-100M5R4-PF
12
10
8
Te m p.
6
-40de g.
-20
0
4
20
65
2
85
105
0
0
2
4
6
8
IDC(A)
L(uH)
SLF12575T-150M4R7-PF
16
12
Te m p.
-40de g.
10
5
0
-5
-10
-15
-20 -40 -20
0
20
40
60
T emperature(degree)
80
100
SLF12575T-220M4R0-PF
20
15 basis on L at 20degree
10
5
0
-5
-10
-15
-20 -40 -20
0
20
40
60
T emperature(degree)
8
-20
0
20
4
65
85
105
0
0
2
4
6
8
IDC(A)
Aug.2005 KY
-4-
10
10
C2520
TDK Power Inductor
DC Bias & Temperature Characteristics
L(uH)
SLF12575T-220M4R0-PF
25
20
15
Te m p.
-40de g.
TDK Power Inductor
Technical Data
SLF12575-PF Series
CONTENTS L-Q Frequency Characteristics DC Bias & Temperature Characteristics Temperature Characteristics Temperature Rise
TDK CORPORATION
Aug.2005 KY
-1-
C2520
TDK Power Inductor
L-Q Frequency Characteristics
SLF12575T-100M5R4-PF
50
100
40
80
30
Q
60
20
L
40
10
20
0
0
1
10
100
1000
10000
100000
Freq.(kHz)
L(uH)
SLF12575T-221M1R3-PF
250
200
150
Te m p.
-40de g.
-20
100
0
20
50
65 85
105
0
0.0
0.5
1.0
1.5
2.0
IDC(A)
Aug.2005 KY
-8-
C2520
L Change(%)
TDK Power Inductor
Temperature Characteristics
8
0
1
2
3
4
5
6
IDC(A)
SLF12575T-220M4R0-PF
40
SLF12575T-330M3R2-PF
40
Temperature Rise(degree)
30
30
20
20
10
10
0
0
0
1
2
3
4
5
IDC(A)
0
1
2
3
4
5
IDC(A)
SLF12575T-470M2R7-PF
40
SLF12575T-680M2R0-PF
-20
10
0
20
65
5
85
105
0
0
2
4
6
8
IDC(A)
L(uH)
SLF12575T-330M3R2-PF
40
30
Te m p.
-40de g.
20
-20
0
20
10
65
85
105
0
0
1
2
3
4
5
6
7
IDC(A)
Aug.2005 KY
-5-
C2520