SN75HVD08_07资料

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WIDESUPPLYRANGERS-485TRANSCEIVER

FEATURES

•••••••

OperatesWitha3-Vto5.5-VSupplyConsumesLessThan90mWQuiescentPower

Open-Circuit,ShortCircuit,andIdle-BusFailsafeReceiver

1/8thUnit-Load(upto256nodesonthebus)Bus-PinESDProtectionExceeds16kVHBMDriverOutputVoltageSlew-RateLimitedforOptimumSignalQualityat10MbpsElectricallyCompatibleWithANSITIA/EIA-485Standard

Thedriverdifferentialoutputsandreceiverdifferentialinputsconnectinternallytoformadifferentialinput/output(I/O)busportthatisdesignedtoofferminimumloadingtothebuswheneverthedriverisdisabledornotpowered.Thedriversandreceivershaveactive-highandactive-lowenablesrespectively,whichcanbeexternallyconnectedtogethertofunctionasadirectioncontrol.

D or P PACKAGE(TOP VIEW)

APPLICATIONS

•••••

DataTransmissionWithRemoteStationsPoweredFromtheHost

IsolatedMultipointDataBuses

IndustrialProcessControlNetworksPoint-of-SaleNetworksElectricUtilityMetering

RREDED

12348765VCCBAGND

LOGIC DIAGRAM (Positive Logic)

AB

DDERER

DESCRIPTION

TheSN65HVD08combinesa3-statedifferentiallinedriveranddifferentiallinereceiverdesignedforbalanceddatatransmissionandinteroperationwithANSITIA/EIA-485-AandISO-8482Estandard-compliantdevices.

ThewidesupplyvoltagerangeandlowquiescentcurrentrequirementsallowtheSN65HVD08stooperatefroma5-Vpowerbusinthecablewithasmuchasa2-Vlinevoltagedrop.Busingpowerinthecablecanalleviatetheneedforisolatedpowertobegeneratedateachconnectionofaground-isolatedbus.

Pleasebeawarethatanimportantnoticeconcerningavailability,standardwarranty,anduseincriticalapplicationsofTexasInstrumentssemiconductorproductsanddisclaimerstheretoappearsattheendofthisdatasheet.

PRODUCTIONDATAinformationiscurrentasofpublicationdate.ProductsconformtospecificationsperthetermsoftheTexasInstrumentsstandardwarranty.Productionprocessingdoesnotnecessarilyincludetestingofallparameters.

Copyright©2002–2006,TexasInstrumentsIncorporated

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Remote

(One of n Shown)Host5 V PowerIsolationBarrierDirectConnectionto HostSN65HVD085 V ReturnPower Bus and Return ResistanceThesedeviceshavelimitedbuilt-inESDprotection.TheleadsshouldbeshortedtogetherorthedeviceplacedinconductivefoamduringstorageorhandlingtopreventelectrostaticdamagetotheMOSgates.

ORDERINGINFORMATION

PARTNUMBERSN65HVD08DSN65HVD08PSN75HVD08DSN75HVD08P

SPECIFIEDTEMPERATURE

RANGE

–40°Cto85°C–40°Cto85°C0°Cto70°C0°Cto70°C

PACKAGESOICPDIPSOICPDIP

PACKAGEMARKING

VP0865HVD08VN0875HVD08

PACKAGEDISSIPATIONRATINGS

PACKAGESOIC(D)PDIP(P)

TA≤25°CPOWERRATING

710mW1000mW

DERATINGFACTORABOVETA=25°C

5.7mW/°C8mW/°C

TA=85°CPOWERRATING

369mW520mW

ABSOLUTEMAXIMUMRATINGS

overoperatingfree-airtemperaturerangeunlessotherwisenoted(1)(2)

UNIT

Supplyvoltage,VCCVoltagerangeatAorB

InputvoltagerangeatD,DE,RorREVoltageinputrange,transientpulse,AandB,through100ΩReceiverouputcurrent,IOElectrostaticdischarge

HumanBodyModel

(3)

-0.3Vto6V-9Vto14V-0.5VtoVCC+0.5V

-25Vto25V–11mAto11mA

A,B,andGNDAllpinsAllpins

16kV4kV1kV

SeeDissipationRatingTable

Charged-DeviceModel(4)

Continuoustotalpowerdissipation(1)(2)(3)(4)

Stressesbeyondthoselistedunder\"absolutemaximumratings”maycausepermanentdamagetothedevice.Thesearestressratingsonly,andfunctionaloperationofthedeviceattheseoranyotherconditionsbeyondthoseindicatedunder\"recommendedoperatingconditions”isnotimplied.Exposuretoabsolute-maximum-ratedconditionsforextendedperiodsmayaffectdevicereliability.Allvoltagevalues,exceptdifferentialI/Obusvoltages,arewithrespecttonetworkgroundterminal.TestedinaccordancewithJEDECStandard22,TestMethodA114-A.TestedinaccordancewithJEDECStandard22,TestMethodC101.

2

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RECOMMENDEDOPERATINGCONDITIONS

MIN

Supplyvoltage,VCC

Inputvoltageatanybusterminal(separatelyorcommonmode),VI(1)High-levelinputvoltage,VIHLow-levelinputvoltage,VILDifferentialinputvoltage,VIDHigh-leveloutputcurrent,IOHLow-leveloutputcurrent,IOLOperatingfree-airtemperature,TA(1)

DriverReceiverDriverReceiverSN75HVD08SN65HVD08

0–40

Driver,driverenable,andreceiverenableinputs

3–72.250–12–60–8

6087085

NOM

MAX5.512VCC0.812

mAmA°CUNITVVV

Thealgebraicconvention,inwhichtheleastpositive(mostnegative)limitisdesignatedasminimumisusedinthisdatasheet.

ELECTRICALCHARACTERISTICS

overrecommendedoperatingconditionsunlessotherwisenoted

PARAMETER|VOD|∆|VOD|VOC(PP)VIT+VIT-VhysVOHVOLIIHIILIOSDriverdifferentialoutputvoltagemagnitudeChangeinmagnitudeofdriverdifferentialoutputvoltagePeak-to-peakdrivercommon-modeoutputvoltagePositive-goingreceiverdifferentialinputvoltagethresholdNegative-goingreceiverdifferentialinputvoltagethresholdReceiverdifferentialinputvoltagethresholdhysteresis(VIT+-VIT-)Receiverhigh-leveloutputvoltageReceiverlow-leveloutputvoltageDriverinput,driverenable,andreceiverenablehigh-levelinputcurrentDriverinput,driverenable,andreceiverenablelow-levelinputcurrentDrivershort-circuitoutputcurrent7V3

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DRIVERSWITCHINGCHARACTERISTICS

overrecommendedoperatingconditionsunlessotherwisenoted

PARAMETERtPHLtPLHtrtftSK(P)tentdisDriverhigh-to-lowpropagationdelaytimeDriverlow-to-highpropagationdelaytimeDriver10%-to-90%differentialoutputrisetimeDriver90%-to-10%differentialoutputfalltimeDriverdifferentialoutputpulseskew,|tPHL-tPLH|DriverenabletimeDriverdisabletimeReceiverenabled,SeeFigures4and5Receiverdisabled,SeeFigures4and5Receiverenabled,SeeFigures4and5RL=54Ω,CL=50pF,SeeFigure3TESTCONDITIONSMIN18181010TYPMAX404055552.555690nsµsnsnsUNITRECEIVERSWITCHINGCHARACTERISTICS

overrecommendedoperatingconditionsunlessotherwisenoted

PARAMETERtPHLtPLHtrtftSK(P)tentdisReceiverhigh-to-lowpropagationdelaytimeReceiverlow-to-highpropagationdelaytimeReceiver10%-to-90%differentialoutputrisetimeReceiver90%-to-10%differentialoutputfalltimeReceiverdifferentialoutputpulseskew,|tPHL-tPLH|ReceiverenabletimeReceiverdisabletimeDriverenabled,SeeFigure7Driverdisabled,SeeFigure8Driverenabled,SeeFigure7CL=15pF,SeeFigure6TESTCONDITIONSMINTYPMAX7070554.515620nsµsnsnsUNITPARAMETERMEASUREMENTINFORMATION

VCCDE0 or 3 V

DAVODB375 Ω ±1%60 Ω ±1%+_–7 V < V(test) < 12 V

375 Ω ±1%Figure1.DriverVODWithCommon-ModeLoadingTestCircuit

A

VCCDEInput

DAB27 Ω ± 1%CL = 50 pF ±20%VOC27 Ω ± 1%B

VOC(PP)VOC

VAVB∆VOC(SS)CL Includes Fixture andInstrumentation Capacitance

Input: PRR = 500 kHz, 50% Duty Cycle,tr<6ns, tf<6ns, ZO = 50 Ω

Figure2.TestCircuitandDefinitionsfortheDriverCommon-ModeOutputVoltage

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PARAMETERMEASUREMENTINFORMATION(continued)

VCCDEDInputGeneratorVI50 ΩABRL = 54 Ω± 1%CL = 50 pF ±20%

VODCL Includes Fixtureand InstrumentationCapacitance

VItPLHVOD0 V10%trGenerator: PRR = 500 kHz, 50% Duty Cycle, tr <6 ns, tf <6 ns, Zo = 50 Ω

3 V

1.5 VtPHL90%90%≈󰀀2 V0 V10%≈󰀀–2 V1.5 VtfFigure3.DriverSwitchingTestCircuitandVoltageWaveforms

A3 VDDEInputGeneratorVI50 ΩBCL = 50 pF ±20%CL Includes Fixtureand InstrumentationCapacitanceRL = 110 Ω ± 1%

tPZHVO0.5 V3 VS1VOVI1.5 V1.5 V0 VVOH

2.3 VtPHZGenerator: PRR = 500 kHz, 50% Duty Cycle, tr <6 ns, tf <6 ns, Zo = 50 Ω

≈ 0 V

Figure4.DriverHigh-LevelEnableandDisableTimeTestCircuitandVoltageWaveforms

3 VRL = 110 Ω ± 1%VO

DEInputGeneratorVI50 ΩBCL = 50 pF ±20%CL Includes Fixtureand InstrumentationCapacitanceVO2.3 VVOL≈󰀀3 V

VItPZL1.5 VtPLZ≈󰀀3 V0.5 V1.5 V0 V

A3 VDS1Generator: PRR = 500 kHz, 50% Duty Cycle, tr <6 ns, tf <6 ns, Zo = 50 Ω

Figure5.DriverLow-LevelOutputEnableandDisableTimeTestCircuitandVoltageWaveforms

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PARAMETERMEASUREMENTINFORMATION(continued)

AInputGeneratorRVI50 Ω1.5 V0 VBREVOCL = 15 pF ±20%CL Includes Fixtureand InstrumentationCapacitance

Generator: PRR = 500 kHz, 50% Duty Cycle, tr <6 ns, tf <6 ns, Zo = 50 Ω

3 V

VItPLHVO1.5 V10%tr1.5 VtPHL90%90%1.5 V0 VVOH

1.5 V10%V

OL

tfFigure6.ReceiverSwitchingTestCircuitandVoltageWaveforms

3 VDE0 V or 3 V

DBREInputGeneratorARVO1 kΩ 󰀀± 1%CL = 15 pF ±20%CL Includes Fixtureand InstrumentationCapacitance50 ΩVCCAS1B

VIGenerator: PRR = 500 kHz, 50% Duty Cycle, tr <6 ns, tf <6 ns, Zo = 50 Ω

3 VVI1.5 V1.5 V0 VtPZHtPHZVOH –0.5 VVO1.5 V≈ 0 VtPZLtPLZ≈ VCC

VO1.5 VVOL +0.5 VD at 0 VS1 to A

VOHD at 3 VS1 to B

VOL

Figure7.ReceiverEnableandDisableTimeTestCircuitandVoltageWaveformsWithDriversEnabled

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PARAMETERMEASUREMENTINFORMATION(continued)

VCC0 V or 1.5 V1.5 V or 0 VInputGeneratorABRERVO1 kΩ 󰀀± 1%CL = 15 pF ±20%CL Includes Fixtureand InstrumentationCapacitanceAS1BVI50 ΩGenerator: PRR = 100 kHz, 50% Duty Cycle, tr <6 ns, tf <6 ns, Zo = 50 Ω

3 VVI1.5 V0 VtPZHVOHVO1.5 VGNDtPZL≈ VCC

VO1.5 VVOL

A at 0 VB at 1.5 VS1 to AA at 1.5 VB at 0 VS1 to B

Figure8.ReceiverEnableTimeFromStandby(DriverDisabled)

DEVICEINFORMATION

FunctionTables

DRIVER

INPUTDHLXOpen

ENABLEDEHHLH

OUTPUTSAHLZH

BLHZL

RECEIVER

DIFFERENTIALINPUTS

VID=VA-VBVID≤-0.2V

-0.2V-0.01V≤VID

X

OpenCircuitShortCircuit

(1)

ENABLE(1)

RELLLHLL

OUTPUT(1)

RL?HZHH

H=highlevel;L=lowlevel;Z=highimpedance;X=irrelevant;?=indeterminate

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EQUIVALENTINPUTANDOUTPUTSCHEMATICDIAGRAMS

D and RE InputsVCC100 kΩInput1 kΩ9 VInput1 kΩ100 kΩ9 VDE InputVCCA InputVCC16 V100 kΩInput16 V36 kΩ36 kΩ180 kΩInput100 kΩ16 V16 VB InputVCC36 kΩ180 kΩ36 kΩA and B OutputsVCC16 VVCCR Output5 ΩOutput16 VOutput9 V8

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TYPICALCHARACTERISTICS

DIFFERENTIAL OUTPUT VOLTAGE

vs

SUPPLY VOLTAGE

4

D and DE at VCCRL = 54 Ω3.5

TA = 25°C3

TA = 85°C2.5

IO– Driver Output Current – mADifferential Output Voltage – VTA = –40°C6070TA = 25°CDE at VCCD at VCCRL = 54 ΩDRIVER OUTPUT CURRENT

vs

SUPPLY VOLTAGE

504030202

1.5

1012.5

03

5

VCC – Supply Voltage – V

3.544.55.56

00.61.21.82.433.64.2VCC – Supply Voltage – V

4.85.4Figure9.Figure10.

RMS SUPPLY CURRENT

vs

SIGNALING RATE

120

2.5

TA = 25°CRE at VCCDE at VCCRL = 54 ΩCL = 50 pFVCC = 5 VLOGIC INPUT THRESHOLD VOLTAGE

vs

SUPPLY VOLTAGE

TA = 25°CD, DE or RE inputLogic Input Threshold Voltage – V2

Positive GoingICC– RMS Supply Current – mA100

1.5Negative Going80

1

60

0.5

400

2.5

5

7.5

10

Signaling Rate – Mbps

02.5

3.54.55.5VCC – Supply Voltage – V

6.5

Figure11.Figure12.

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TYPICALCHARACTERISTICS(continued)

ENABLETIME

vs

COMMON-MODEVOLTAGE(SEEFigure14)500450400350Enable󰀀Time−ns3002503.3󰀀V5󰀀V200150100500-7-23813V(TEST)−Common-Mode󰀀Voltage−V

Figure13.

375W±1%

YD0󰀀or󰀀3󰀀VZDE375W±1%InputGeneratorV50WVOD60W±1%-7󰀀V󰀀<󰀀V(TEST)<󰀀12󰀀V50%tpZH(diff)1.5󰀀VVOD(high)

0󰀀VtpZL(diff)-1.5󰀀VVOD(low)

Figure14.DriverEnableTimeFromDEtoVOD

ThetimetpZL(x)isthemeasurefromDEtoVOD(x).VODisvalidwhenitisgreaterthan1.5V.

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APPLICATIONINFORMATION

Aselectricalloadsarephysicallydistancedfromtheirpowersource,theeffectsofsupplyandreturnlineimpedanceandtheresultantvoltagedropmustbeaccounted.Ifthesupplyregulationattheloadcannotbemaintainedtothecircuitrequirements,itforcestheuseofremotesensing,additionalregulationattheload,biggerorshortercables,oracombinationofthese.TheSN65HVD08easesthisproblembyrelaxingthesupplyrequirementstoallowformorevariationinthesupplyvoltageovertypicalRS-485transceivers.

notbeignoredanddecouplingcapacitanceattheloadisrequired.Theamountdependsuponthemagnitudeandfrequencyoftheloadcurrentchangebut,ifonlypoweringtheSN65HVD08,a0.1µFceramiccapacitorisusuallysufficient.

OPTO-ISOLATEDDATABUSES

LongRS-485circuitscancreatelargegroundloopsandpickupcommon-modenoisevoltagesinexcessoftherangetoleratedbystandardRS-485circuits.Acommonremedyistoprovidegalvanicisolationofthedatacircuitfromearthorlocalgrounds.

Transformers,capacitors,orphototransistorsmostoftenprovideisolationofthebusandthelocalnode.Transformersandcapacitorsrequirechangingsignalstotransfertheinformationovertheisolationbarrierandphototransistors(opto-isolators)canpasssteady-statesignals.Eachofthesemethodsincursadditionalcostsandcomplexity,theformerinclockencodinganddecodingofthedatastreamandthelatterinrequiringanisolatedpowersupply.

Quiteoften,thecostofisolatedpowerisrepeatedateachnodeconnectedtothebusasshowninFigure16.Thepossiblylower-costsolutionistogeneratethissupplyoncewithinthesystemandthendistributeitalongwiththedataline(s)asshowninFigure17.SUPPLYSOURCEIMPEDANCE

Inthesteadystate,thevoltagedropfromthesourcetotheloadissimplythewireresistancetimestheloadcurrentasmodeledinFigure15.RS+VS–RSVL = VS – 2RSILRL

IL+–Figure15.Steady-StateCircuitModelForexample,ifyouweretoprovide5-V±5%supplypowertoaremotecircuitwithamaximumloadrequirementof0.1A(oneSN65HVD08),thevoltageattheloadwouldfallbelowthe4.5-Vminimumofmost5-Vcircuitswithaslittleas5.8mof28-GAconductors.Table1summarizeswireresistanceandthelengthfor4.5Vand3Vattheloadwith0.1Aofloadcurrent.Themaximumlengthswouldscalelinearlyforhigherorlowerloadcurrents.

Table1.MaximumCableLengthsforMinimum

LoadVoltagesat0.1ALoad

WIRESIZE28Gage24Gage22Gage20Gage18Gage

RESISTANCE0.213Ω/m0.079Ω/m0.054Ω/m0.034Ω/m0.021Ω/m

4.5VLENGTHAT0.1A

5.8m15.8m23.1m36.8m59.5m

3-vLENGTHAT0.1A41.1m110.7m162.0m257.3m416.7m

DC-to-DCConverterOptoIsolatorsLocal PowerSourceRest ofBoardDC-to-DCConverterOptoIsolatorsLocal PowerSourceRest ofBoardUnderdynamicloadrequirements,thedistributedinductanceandcapacitanceofthepowerlinesmay

Figure16.IsolatedPoweratEachNode

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Local PowerSourceOptoIsolatorsSN65HVD08Rest ofBoardThefeaturesoftheSN65HVD08areparticularlygoodfortheapplicationofFigure17.Duetoaddedsupplysourceimpedance,thelowquiescentcurrentrequirementsandwidesupplyvoltagetoleranceallowforthepoorerloadregulation.

ANOPTOALTERNATIVE

TheISO150isatwo-channel,galvanicallyisolateddatacouplercapableofdataratesof80Mbps.Eachchannelcanbeindividuallyprogrammedtotransmitdataineitherdirection.

Local PowerSourceOptoIsolatorsRest ofBoardDataistransmittedacrosstheisolationbarrierbycouplingcomplementarypulsesthroughhigh-voltage0.4-pFcapacitors.Receivercircuitryrestoresthepulsestostandardlogiclevels.Differentialsignaltransmissionrejectsisolation-modevoltagetransientsupto1.6kV/ms.

ISO150avoidstheproblemscommonlyassociatedwithopto-couplers.Optically-isolatedcouplersrequirehighcurrentpulsesandallowancemustbemadeforLEDaging.TheISO150'sBi-CMOScircuitryoperatesat25mWperchannelwithsupplyvoltagerangematchingthatoftheSN65HVD08of3Vto5.5V.

Figure18showsatypicalcircuit.

–5 VFigure17.DistributionofIsolatedPower

+5 VData(I/O)

DD2AR/T2AGASN65HVD08ABBus

ISO150Channel 1VSBR/T2BD2BDERERSide ASide BChannel 2D1AR/T1AVSAGAR/T1BD1BDE/RE+5 V“1”+5 V

Figure18.IsolatedRS-485Interface

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PACKAGEOPTIONADDENDUM

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PACKAGINGINFORMATION

OrderableDeviceSN65HVD08DSN65HVD08DG4SN65HVD08DRSN65HVD08DRG4SN65HVD08PSN65HVD08PE4SN75HVD08DSN75HVD08DG4SN75HVD08DRSN75HVD08DRG4SN75HVD08PSN75HVD08PE4

(1)

Status(1)ACTIVEACTIVEACTIVEACTIVEACTIVEACTIVEACTIVEACTIVEACTIVEACTIVEACTIVEACTIVE

PackageTypeSOICSOICSOICSOICPDIPPDIPSOICSOICSOICSOICPDIPPDIP

PackageDrawing

DDDDPPDDDDPP

PinsPackageEcoPlan(2)

Qty888888888888

7575

Green(RoHS&noSb/Br)Green(RoHS&noSb/Br)

Lead/BallFinishCUNIPDAUCUNIPDAUCUNIPDAUCUNIPDAUCUNIPDAUCUNIPDAUCUNIPDAUCUNIPDAUCUNIPDAUCUNIPDAUCUNIPDAUCUNIPDAU

MSLPeakTemp(3)Level-1-260C-UNLIMLevel-1-260C-UNLIMLevel-1-260C-UNLIMLevel-1-260C-UNLIMN/AforPkgTypeN/AforPkgTypeLevel-1-260C-UNLIMLevel-1-260C-UNLIMLevel-1-260C-UNLIMLevel-1-260C-UNLIMN/AforPkgTypeN/AforPkgType

2500Green(RoHS&

noSb/Br)2500Green(RoHS&

noSb/Br)50507575

Pb-Free(RoHS)Pb-Free(RoHS)Green(RoHS&noSb/Br)Green(RoHS&noSb/Br)

2500Green(RoHS&

noSb/Br)2500Green(RoHS&

noSb/Br)5050

Pb-Free(RoHS)Pb-Free(RoHS)

Themarketingstatusvaluesaredefinedasfollows:ACTIVE:Productdevicerecommendedfornewdesigns.

LIFEBUY:TIhasannouncedthatthedevicewillbediscontinued,andalifetime-buyperiodisineffect.

NRND:Notrecommendedfornewdesigns.Deviceisinproductiontosupportexistingcustomers,butTIdoesnotrecommendusingthispartinanewdesign.

PREVIEW:Devicehasbeenannouncedbutisnotinproduction.Samplesmayormaynotbeavailable.OBSOLETE:TIhasdiscontinuedtheproductionofthedevice.

(2)

EcoPlan-Theplannedeco-friendlyclassification:Pb-Free(RoHS),Pb-Free(RoHSExempt),orGreen(RoHS&noSb/Br)-pleasecheckhttp://www.ti.com/productcontentforthelatestavailabilityinformationandadditionalproductcontentdetails.TBD:ThePb-Free/Greenconversionplanhasnotbeendefined.

Pb-Free(RoHS):TI'sterms\"Lead-Free\"or\"Pb-Free\"meansemiconductorproductsthatarecompatiblewiththecurrentRoHSrequirementsforall6substances,includingtherequirementthatleadnotexceed0.1%byweightinhomogeneousmaterials.Wheredesignedtobesolderedathightemperatures,TIPb-Freeproductsaresuitableforuseinspecifiedlead-freeprocesses.

Pb-Free(RoHSExempt):ThiscomponenthasaRoHSexemptionforeither1)lead-basedflip-chipsolderbumpsusedbetweenthedieandpackage,or2)lead-baseddieadhesiveusedbetweenthedieandleadframe.ThecomponentisotherwiseconsideredPb-Free(RoHScompatible)asdefinedabove.

Green(RoHS&noSb/Br):TIdefines\"Green\"tomeanPb-Free(RoHScompatible),andfreeofBromine(Br)andAntimony(Sb)basedflameretardants(BrorSbdonotexceed0.1%byweightinhomogeneousmaterial)

(3)

MSL,PeakTemp.--TheMoistureSensitivityLevelratingaccordingtotheJEDECindustrystandardclassifications,andpeaksoldertemperature.

ImportantInformationandDisclaimer:TheinformationprovidedonthispagerepresentsTI'sknowledgeandbeliefasofthedatethatitisprovided.TIbasesitsknowledgeandbeliefoninformationprovidedbythirdparties,andmakesnorepresentationorwarrantyastotheaccuracyofsuchinformation.Effortsareunderwaytobetterintegrateinformationfromthirdparties.TIhastakenandcontinuestotakereasonablestepstoproviderepresentativeandaccurateinformationbutmaynothaveconducteddestructivetestingorchemicalanalysisonincomingmaterialsandchemicals.TIandTIsuppliersconsidercertaininformationtobeproprietary,andthusCASnumbersandotherlimitedinformationmaynotbeavailableforrelease.

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InnoeventshallTI'sliabilityarisingoutofsuchinformationexceedthetotalpurchasepriceoftheTIpart(s)atissueinthisdocumentsoldbyTItoCustomeronanannualbasis.

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PACKAGEMATERIALSINFORMATION

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4-Oct-2007

TAPEANDREELBOXINFORMATION

DevicePackagePinsSite

ReelDiameter(mm)330330

ReelWidth(mm)00

A0(mm)B0(mm)K0(mm)

P1(mm)88

WPin1(mm)Quadrant1212

Q1Q1

SN65HVD08DRSN75HVD08DR

DD

88

SITE27SITE27

6.46.4

5.25.2

2.12.1

PackMaterials-Page1

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DeviceSN65HVD08DRSN75HVD08DR

Package

DD

Pins88

SiteSITE27SITE27

Length(mm)

342.9342.9

Width(mm)336.6336.6

Height(mm)

20.6420.64

PackMaterials-Page2

元器件交易网www.cecb2b.comMECHANICAL DATAMPDI001A – JANUARY 1995 – REVISED JUNE 1999P (R-PDIP-T8)0.400 (10,60)0.355 (9,02)85PLASTIC DUAL-IN-LINE0.260 (6,60)0.240 (6,10)140.070 (1,78) MAX0.325 (8,26)0.300 (7,62)0.015 (0,38)0.200 (5,08) MAXSeating Plane0.125 (3,18) MIN0.010 (0,25) NOMGage Plane0.020 (0,51) MIN0.100 (2,54)0.021 (0,53)0.015 (0,38)0.010 (0,25)M0.430 (10,92)MAX4040082/D 05/98NOTES:A.All linear dimensions are in inches (millimeters).B.This drawing is subject to change without notice.C.Falls within JEDEC MS-001For the latest package information, go to http://www.ti.com/sc/docs/package/pkg_info.htmPOST OFFICE BOX 655303 DALLAS, TEXAS 75265•元器件交易网www.cecb2b.com

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IMPORTANTNOTICE

TexasInstrumentsIncorporatedanditssubsidiaries(TI)reservetherighttomakecorrections,modifications,enhancements,

improvements,andotherchangestoitsproductsandservicesatanytimeandtodiscontinueanyproductorservicewithoutnotice.Customersshouldobtainthelatestrelevantinformationbeforeplacingordersandshouldverifythatsuchinformationiscurrentandcomplete.AllproductsaresoldsubjecttoTI’stermsandconditionsofsalesuppliedatthetimeoforderacknowledgment.TIwarrantsperformanceofitshardwareproductstothespecificationsapplicableatthetimeofsaleinaccordancewithTI’sstandardwarranty.TestingandotherqualitycontroltechniquesareusedtotheextentTIdeemsnecessarytosupportthiswarranty.Exceptwheremandatedbygovernmentrequirements,testingofallparametersofeachproductisnotnecessarilyperformed.

TIassumesnoliabilityforapplicationsassistanceorcustomerproductdesign.CustomersareresponsiblefortheirproductsandapplicationsusingTIcomponents.Tominimizetherisksassociatedwithcustomerproductsandapplications,customersshouldprovideadequatedesignandoperatingsafeguards.

TIdoesnotwarrantorrepresentthatanylicense,eitherexpressorimplied,isgrantedunderanyTIpatentright,copyright,maskworkright,orotherTIintellectualpropertyrightrelatingtoanycombination,machine,orprocessinwhichTIproductsorservicesareused.InformationpublishedbyTIregardingthird-partyproductsorservicesdoesnotconstitutealicensefromTItousesuchproductsorservicesorawarrantyorendorsementthereof.Useofsuchinformationmayrequirealicensefromathirdpartyunderthepatentsorotherintellectualpropertyofthethirdparty,oralicensefromTIunderthepatentsorotherintellectualpropertyofTI.ReproductionofTIinformationinTIdatabooksordatasheetsispermissibleonlyifreproductioniswithoutalterationandis

accompaniedbyallassociatedwarranties,conditions,limitations,andnotices.Reproductionofthisinformationwithalterationisanunfairanddeceptivebusinesspractice.TIisnotresponsibleorliableforsuchaltereddocumentation.Informationofthirdpartiesmaybesubjecttoadditionalrestrictions.

ResaleofTIproductsorserviceswithstatementsdifferentfromorbeyondtheparametersstatedbyTIforthatproductorservicevoidsallexpressandanyimpliedwarrantiesfortheassociatedTIproductorserviceandisanunfairanddeceptivebusinesspractice.TIisnotresponsibleorliableforanysuchstatements.

TIproductsarenotauthorizedforuseinsafety-criticalapplications(suchaslifesupport)whereafailureoftheTIproductwouldreasonablybeexpectedtocauseseverepersonalinjuryordeath,unlessofficersofthepartieshaveexecutedanagreement

specificallygoverningsuchuse.Buyersrepresentthattheyhaveallnecessaryexpertiseinthesafetyandregulatoryramificationsoftheirapplications,andacknowledgeandagreethattheyaresolelyresponsibleforalllegal,regulatoryandsafety-relatedrequirementsconcerningtheirproductsandanyuseofTIproductsinsuchsafety-criticalapplications,notwithstandinganyapplications-relatedinformationorsupportthatmaybeprovidedbyTI.Further,BuyersmustfullyindemnifyTIanditsrepresentativesagainstanydamagesarisingoutoftheuseofTIproductsinsuchsafety-criticalapplications.

TIproductsareneitherdesignednorintendedforuseinmilitary/aerospaceapplicationsorenvironmentsunlesstheTIproductsarespecificallydesignatedbyTIasmilitary-gradeor\"enhancedplastic.\"OnlyproductsdesignatedbyTIasmilitary-grademeetmilitaryspecifications.BuyersacknowledgeandagreethatanysuchuseofTIproductswhichTIhasnotdesignatedasmilitary-gradeissolelyattheBuyer'srisk,andthattheyaresolelyresponsibleforcompliancewithalllegalandregulatoryrequirementsinconnectionwithsuchuse.

TIproductsareneitherdesignednorintendedforuseinautomotiveapplicationsorenvironmentsunlessthespecificTIproductsaredesignatedbyTIascompliantwithISO/TS16949requirements.Buyersacknowledgeandagreethat,iftheyuseanynon-designatedproductsinautomotiveapplications,TIwillnotberesponsibleforanyfailuretomeetsuchrequirements.FollowingareURLswhereyoucanobtaininformationonotherTexasInstrumentsproductsandapplicationsolutions:ProductsAmplifiersDataConvertersDSPInterfaceLogicPowerMgmtMicrocontrollersRFIDLowPowerWireless

amplifier.ti.comdataconverter.ti.comdsp.ti.cominterface.ti.comlogic.ti.compower.ti.commicrocontroller.ti.comwww.ti-rfid.comwww.ti.com/lpwApplicationsAudioAutomotiveBroadbandDigitalControlMilitary

OpticalNetworkingSecurityTelephonyVideo&ImagingWireless

www.ti.com/audiowww.ti.com/automotivewww.ti.com/broadbandwww.ti.com/digitalcontrolwww.ti.com/militarywww.ti.com/opticalnetworkwww.ti.com/securitywww.ti.com/telephonywww.ti.com/videowww.ti.com/wirelessMailingAddress:TexasInstruments,PostOfficeBox655303,Dallas,Texas75265

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