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TLV2401-Q1,TLV2402-Q1,TLV2404-Q1www.
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cnZHCS105–4月2011年具有反向电池保护功能的每通道880nA轨至轨输入/输出运算放大器产品系列查询样品:TLV2401-Q1,TLV2402-Q1,TLV2404-Q11特性符合汽车应用要求微功耗工作.
.
.
每通道不足1A输入共模范围超过电轨.
.
.
–0.
1V至VCC+5V反向电池保护高达18V轨至轨输入/输出增益带宽产品.
.
.
5.
5kHz电源电压范围.
.
.
2.
5V至16V特定温度范围:–40°C至125°C超小型封装–5引脚SOT-23(TLV2401-Q1)–8引脚MSOP(TLV2402-Q1)通用运算放大器EVM(指EVM选择指南SLOU060)说明/订购信息TLV240x系列单电源运算放大器支持当前最低的电源电流,单位通道仅为880nA.
逆向电池保护可在电池安装不当产生过大电流时保护放大器.
在恶劣环境下,输入电压可超过正电源轨5V,不会损坏器件.
低电源电流与极低输入偏置电流相结合,使其可用于mega-W电阻器,是长时间工作便携式应用的理想选择.
典型失调电压低至390V,CMRR为120dB,2.
7V时最小开环增益为130V/mV,可确保DC准确度.
最大推荐电源电压高达16V,低至2.
5V的电压也可确保工作,电气特性电压指定为2.
7V、5V及15V.
2.
5V电压工作使其兼容于锂离子电池供电系统以及当前提供的众多微功率微处理器,其中包括德州仪器(TI)的MSP430.
该系列旗下的所有产品均采用PDIP与SOIC封装,单通道器件采用小型SOT-23封装,双通道器件采用MSOP封装,四通道产品采用TSSOP封装.
1Pleasebeawarethatanimportantnoticeconcerningavailability,standardwarranty,anduseincriticalapplicationsofTexasInstrumentssemiconductorproductsanddisclaimerstheretoappearsattheendofthisdatasheet.
PRODUCTIONDATAinformationiscurrentasofpublicationdate.
Copyright2011年,TexasInstrumentsIncorporatedProductsconformtospecificationsperthetermsoftheTexasInstrumentsstandardwarranty.
ProductionprocessingdoesnotEnglishDataSheet:SLOS716necessarilyincludetestingofallparameters.
TLV2401-Q1,TLV2402-Q1,TLV2404-Q1ZHCS105–4月2011年www.
ti.
com.
cnThesedeviceshavelimitedbuilt-inESDprotection.
TheleadsshouldbeshortedtogetherorthedeviceplacedinconductivefoamduringstorageorhandlingtopreventelectrostaticdamagetotheMOSgates.
SELECTIONOFSINGLESUPPLYOPERATIONALAMPLIFIERPRODUCTS(1)(2)SLEWVCCVIOBWICC/chDEVICERATERAIL-TO-RAIL(V)(mV)(MHz)(A)(V/s)TLV240x-Q1(2)2.
5–160.
3900.
0050.
0020.
880I/O(1)Allspecificationsaretypicalvaluesmeasuredat5V.
(2)Thisdevicealsooffers18-Vreversebatteryprotectionand5-Vover-the-railoperationontheinputs.
DEVICEINFORMATIONORDERINGINFORMATION(1)TAPACKAGE(2)ORDERABLEPARTNUMBERTOP-SIDEMARKINGMSOP–DGKReelof2500TLV2402QDGKRQ1QWXTLV2401QDRQ1SOIC–DReelof2500TLV2402QDRQ1ProductPreview–40°Cto125°CTLV2404QDRQ1SOT–DBVReelof3000TLV2401QDBVRQ1ProductPreviewTSSOP–PWReelof2000TLV2404QPWRQ1ProductPreview(1)Forthemostcurrentpackageandorderinginformation,seethePackageOptionAddendumattheendofthisdocument,orseetheTIwebsiteatwww.
ti.
com.
(2)Packagedrawings,thermaldata,andsymbolizationareavailableatwww.
ti.
com/packaging.
2Copyright2011年,TexasInstrumentsIncorporatedTLV2401-Q1,TLV2402-Q1,TLV2404-Q1www.
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com.
cnZHCS105–4月2011年ABSOLUTEMAXIMUMRATINGS(1)overoperatingfree-airtemperaturerange(unlessotherwisenoted)MINMAXUNITVCCSupplyvoltage(2)17VVIDDifferentialinputvoltagerange±20VIIInputcurrentrange(anyinput)±10mAIOOutputcurrentrange±10mASeeDissipationRatingsContinuoustotalpowerdissipationTableTAOperatingfree-airtemperaturerange–40125°CTJOperatingvirtualjunctiontemperature150°CTstgStoragetemperaturerange–60125°CHuman-BodyModel(HBM)500ESDElectrostaticdischarge(3)MachineModel(MM)200VField_Induced_ChargedDeviceModel(CDM)1000Leadtemperature1,6mm(1/16inch)fromcasefor10seconds260°C(1)StressesbeyondthoselistedunderAbsoluteMaximumRatingsmaycausepermanentdamagetothedevice.
Thesearestressratingsonly,andfunctionaloperationofthedeviceattheseoranyotherconditionsbeyondthoseindicatedunderRecommendedOperatingConditionsisnotimplied.
Exposuretoabsolute-maximum-ratedconditionsforextendedperiodsmayaffectdevicereliability.
(2)Allvoltagevalues,exceptdifferentialvoltages,arewithrespecttoGND.
(3)TestedinaccordancewithAEC-Q100.
DISSIPATIONRATINGSQJCQJATA≤25°CTA=125°CPACKAGE(°C/W)(°C/W)POWERRATINGPOWERRATINGD(8)38.
3176710mW142mWD(14)26.
9122.
61022mW204.
4mWDBV(5)55324.
1385mW77.
1mWDGK(8)54.
2259.
9481mW96.
2mWPW(14)29.
3173.
6720mW144mWRECOMMENDEDOPERATINGCONDITIONSMINMAXUNITSinglesupply2.
516VCCSupplyvoltageVSplitsupply±1.
25±8VICRCommon-modeinputvoltagerange–0.
1VCC+5VTAOperatingfree-airtemperature–40125°CCopyright2011年,TexasInstrumentsIncorporated3TLV2401-Q1,TLV2402-Q1,TLV2404-Q1ZHCS105–4月2011年www.
ti.
com.
cnELECTRICALCHARACTERISTICSDCPerformanceVCC=2.
7V,5V,and15V(unlessotherwisenoted)PARAMETERTESTCONDITIONSTAMINTYPMAXUNITDCPerformance25°C3901900VIOInputoffsetvoltageVFull2800VO=VCC/2V,VIC=VCC/2V,RS=50ΩrangeαVIOOffsetvoltagedraft25°C3V/°CVCC=2.
7V25°C60120Full56rangeVCC=5V25°C65120VIC=0toVCC,CMRRCommonmoderejectionratiodBFull58RS=50ΩrangeVCC=15V25°C73120Full73range25°C130400VCC=2.
7V,VO(pp)=1V,RL=500kΩFull12range25°C3001000Large-signaldifferentialAVDVCC=5V,VO(pp)=3V,RL=500kΩV/mVFull37voltageamplificationrange25°C10001800VCC=15V,VO(pp)=6V,RL=500kΩFull66rangeInputCharacteristics25°C25250IIOInputoffsetcurrentpAFull400rangeVO=VCC/2V,VIC=VCC/2V,RS=50Ω25°C100300IIBInputbiascurrentpAFull900rangeri(d)Differentialinputresistance25°C300MΩCommon-modeinputf=100kHz3pFCi(c)25°Ccapacitance4Copyright2011年,TexasInstrumentsIncorporatedTLV2401-Q1,TLV2402-Q1,TLV2404-Q1www.
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cnZHCS105–4月2011年ELECTRICALCHARACTERISTICSDCPerformance(continued)VCC=2.
7V,5V,and15V(unlessotherwisenoted)PARAMETERTESTCONDITIONSTAMINTYPMAXUNITOutputCharacteristics25°C2.
652.
68VCC=2.
7VFull2.
63range25°C4.
954.
98VIC=VCC/2,VCC=5VFull4.
93IOH=–2Arange25°C14.
9514.
98VCC=15VFull14.
93rangeVOHHigh-leveloutputvoltageV25°C2.
622.
65VCC=2.
7VFull2.
6range25°C4.
924.
95VIC=VCC/2,VCC=5VFull4.
9IOH=–50Arange25°C14.
9214.
95VCC=15VFull14.
9range25°C90150VIC=VCC/2,IOL=2AFull180rangeVOLLow-leveloutputvoltagemV25°C180230VIC=VCC/2,IOL=50AFull260rangeIOOutputcurrentVO=0.
5Vfromrail25°C±200APowerSupply25°C880990VCC=2.
7Vor5VFull1300rangeICCSupplycurrent(perchannel)VO=VCC/2nA25°C9001050VCC=15VFull1400rangeReversesupplycurrentVCC=–18V,VIN=0V,VO=Opencircuit25°C50nA25°C100120VCC=2.
7Vor5V,VIC=VCC/2,NoloaddBFull83rangePowersupplyrejectionratioPSRR(ΔVCC/ΔVIO)25°C100120VCC=5to15V,VIC=VCC/2,NoloaddBFull97rangeDynamicPerformanceUGBWUnitygainbandwidthRL=500kΩ,CL=100pF25°C5.
5kHzSRSlewrateatunitygain25°C2.
5V/msφMPhasemargin60°RL=500kΩ,CL=100pF25°CGainmargin15dBVCC=2.
7Vor5V,1.
84CL=100pFV(STEP)PP=1V,0.
1%RL=100kΩAV=–1,tSSettlingtime25°CmsVCC=15V,0.
1%6.
1CL=100pFV(STEP)PP=1V,32RL=100kΩ0.
01%AV=–1,Copyright2011年,TexasInstrumentsIncorporated5TLV2401-Q1,TLV2402-Q1,TLV2404-Q1ZHCS105–4月2011年www.
ti.
com.
cnELECTRICALCHARACTERISTICSDCPerformance(continued)VCC=2.
7V,5V,and15V(unlessotherwisenoted)PARAMETERTESTCONDITIONSTAMINTYPMAXUNITNoise/DistortionPerformancef=10Hz800VnEquivalentinputnoisevoltagenV/√Hzf=100Hz25°C500InEquivalentinputnoisecurrentf=100Hz8fA/√Hz6Copyright2011年,TexasInstrumentsIncorporatedTLV2401-Q1,TLV2402-Q1,TLV2404-Q1www.
ti.
com.
cnZHCS105–4月2011年TYPICALCHARACTERISTICSTableofGraphsFIGUREVIOInputOffsetVoltagevsCommon-modeinputvoltageFigure1,Figure2,Figure3IIBvsFree-airtemperatureFigure4,Figure6,Figure8InputBiasCurrentvsCommon-modeinputvoltageFigure5,Figure7,Figure9IIOvsFree-airtemperatureFigure4,Figure6,Figure8InputOffsetCurrentvsCommon-modeinputvoltageFigure5,Figure7,Figure9CMRRCommon-moderejectionratiovsFrequencyFigure10VOHHigh-leveloutputvoltagevsHigh-leveloutputcurrentFigure11,Figure13,Figure15VOLLow-leveloutputvoltagevsLow-leveloutputcurrentFigure12,Figure14,Figure16VO(PP)Outputvoltagepeak-to-peakvsFrequencyFigure17ZoOutputimpedancevsFrequencyFigure18ICCSupplycurrentvsSupplyvoltageFigure19PSRRPowersupplyrejectionratiovsFrequencyFigure20AVDDifferentialvoltagegainvsFrequencyFigure21PhasevsFrequencyFigure21Gain-bandwidthproductvsSupplyvoltageFigure22SRSlewratevsFree-airtemperatureFigure23φmPhasemarginvsCapacitiveloadFigure24GainmarginvsCapacitiveloadFigure25SupplycurrentvsReversevoltageFigure26Voltagenoiseovera10SecondPeriodFigure27LargesignalfollowerpulseresponseFigure28,Figure29,Figure30SmallsignalfollowerpulseresponseFigure31LargesignalinvertingpulseresponseFigure32,Figure33,Figure34SmallsignalinvertingpulseresponseFigure35CrosstalkvsFrequencyFigure36Copyright2011年,TexasInstrumentsIncorporated7TLV2401-Q1,TLV2402-Q1,TLV2404-Q1ZHCS105–4月2011年www.
ti.
com.
cnINPUTOFFSETVOLTAGEINPUTOFFSETVOLTAGEINPUTOFFSETVOLTAGEvsvsvsCOMMON-MODEINPUTVOLTAGECOMMON-MODEINPUTVOLTAGECOMMON-MODEINPUTVOLTAGEFigure1.
Figure2.
Figure3.
INPUTBIAS/OFFSETCURRENTINPUTBIAS/OFFSETCURRENTINPUTBIAS/OFFSETCURRENTvsvsvsFREE-AIRTEMPERATURECOMMONMODEINPUTVOLTAGEFREE-AIRTEMPERATUREFigure4.
Figure5.
Figure6.
INPUTBIAS/OFFSETCURRENTINPUTBIAS/OFFSETCURRENTINPUTBIAS/OFFSETCURRENTvsvsvsCOMMON-MODEINPUTVOLTAGEFREE-AIRTEMPERATURECOMMON-MODEINPUTVOLTAGEFigure7.
Figure8.
Figure9.
8Copyright2011年,TexasInstrumentsIncorporatedTLV2401-Q1,TLV2402-Q1,TLV2404-Q1www.
ti.
com.
cnZHCS105–4月2011年COMMON-MODEREJECTIONRATIOHIGH-LEVELOUTPUTVOLTAGELOW-LEVELOUTPUTVOLTAGEvsvsvsFREQUENCYHIGH-LEVELOUTPUTCURRENTLOW-LEVELOUTPUTCURRENTFigure10.
Figure11.
Figure12.
HIGH-LEVELOUTPUTVOLTAGELOW-LEVELOUTPUTVOLTAGEHIGH-LEVELOUTPUTVOLTAGEvsvsvsHIGH-LEVELOUTPUTCURRENTLOW-LEVELOUTPUTCURRENTHIGH-LEVELOUTPUTCURRENTFigure13.
Figure14.
Figure15.
LOW-LEVELOUTPUTVOLTAGEOUTPUTVOLTAGEPEAK-TO-PEAKOUTPUTIMPEDANCEvsvsvsLOW-LEVELOUTPUTCURRENTFREQUENCYFREQUENCYFigure16.
Figure17.
Figure18.
Copyright2011年,TexasInstrumentsIncorporated9TLV2401-Q1,TLV2402-Q1,TLV2404-Q1ZHCS105–4月2011年www.
ti.
com.
cnSUPPLYCURRENTPOWERSUPPLYREJECTIONRATIOvsvsSUPPLYVOLTAGEFREQUENCYFigure19.
Figure20.
DIFFERENTIALVOLTAGEGAINANDPHASEGAINBANDWIDTHPRODUCTvsvsFREQUENCYSUPPLYVOLTAGEFigure21.
Figure22.
SLEWRATEPHASEMARGINvsvsFREE-AIRTEMPERATURECAPACITIVELOADFigure23.
Figure24.
10Copyright2011年,TexasInstrumentsIncorporatedTLV2401-Q1,TLV2402-Q1,TLV2404-Q1www.
ti.
com.
cnZHCS105–4月2011年GAINMARGINSUPPLYCURRENTvsvsCAPACITIVELOADREVERSEVOLTAGEFigure25.
Figure26.
VOLTAGENOISELARGESIGNALFOLLOWEROVERA10SECONDPERIODPULSERESPONSEFigure27.
Figure28.
LARGESIGNALFOLLOWERLARGESIGNALFOLLOWERPULSERESPONSEPULSERESPONSEFigure29.
Figure30.
Copyright2011年,TexasInstrumentsIncorporated11TLV2401-Q1,TLV2402-Q1,TLV2404-Q1ZHCS105–4月2011年www.
ti.
com.
cnSMALLSIGNALFOLLOWERLARGESIGNALINVERTINGPULSERESPONSEPULSERESPONSEFigure31.
Figure32.
LARGESIGNALINVERTINGLARGESIGNALINVERTINGPULSERESPONSEPULSERESPONSEFigure33.
Figure34.
CROSSTALKSMALLSIGNALINVERTINGvsPULSERESPONSEFREQUENCYFigure35.
Figure36.
12Copyright2011年,TexasInstrumentsIncorporatedTLV2401-Q1,TLV2402-Q1,TLV2404-Q1www.
ti.
com.
cnZHCS105–4月2011年APPLICATIONINFORMATIONReverseBatteryProtectionTheTLV240x-Q1areprotectedagainstreversebatteryvoltageupto18V.
Whensubjectedtoreversebatteryconditionthesupplycurrentistypicallylessthan100nAat25°C(inputsgroundedandoutputsopen).
Thiscurrentisdeterminedbytheleakageof6Schottkydiodesandwillthereforeincreaseastheambienttemperatureincreases.
Whensubjectedtoreversebatteryconditionsandnegativevoltagesappliedtotheinputsoroutputs,theinputESDstructurewillturnon—thiscurrentshouldbelimitedtolessthan10mA.
Iftheinputsoroutputsarereferredtoground,ratherthanmidrail,noextraprecautionsneedbetaken.
Common-ModeInputRangeTheTLV240x-Q1hasrail-to-railinputandoutputs.
Forcommon-modeinputsfrom–0.
1VtoVCC–0.
8VaPNPdifferentialpairwillprovidethegain.
ForinputsbetweenVCC–0.
8VandVCC,twoNPNemitterfollowersbufferingasecondPNPdifferentialpairprovidethegain.
ThisspecialcombinationofNPN/PNPdifferentialpairenablestheinputstobetaken5Vabovetherails,becauseastheinputsgoaboveVCC,theNPNsswitchfromfunctioningastransistorstofunctioningasdiodes.
Thiswillleadtoanincreaseininputbiascurrent.
ThesecondPNPdifferentialpaircontinuestofunctionnormallyastheinputsexceedVCC.
TheTLV240x-Q1hasanegativecommon-inputrangethatexceedsgroundby100mV.
Iftheinputsaretakenmuchbelowthis,reducedopenloopgainwillbeobservedwiththeultimatepossibilityofphaseinversion.
OffsetVoltageTheoutputoffsetvoltage,(VOO)isthesumoftheinputoffsetvoltage(VIO)andbothinputbiascurrents(IIB)timesthecorrespondinggains.
Thefollowingschematicandformulacanbeusedtocalculatetheoutputoffsetvoltage:Figure37.
OutputOffsetVoltageModelCopyright2011年,TexasInstrumentsIncorporated13TLV2401-Q1,TLV2402-Q1,TLV2404-Q1ZHCS105–4月2011年www.
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com.
cnGeneralConfigurationsWhenreceivinglow-levelsignals,limitingthebandwidthoftheincomingsignalsintothesystemisoftenrequired.
ThesimplestwaytoaccomplishthisistoplaceanRCfilteratthenoninvertingterminaloftheamplifier(seeFigure38).
Figure38.
Single-PoleLow-PassFilterIfevenmoreattenuationisneeded,amultiplepolefilterisrequired.
TheSallen-Keyfiltercanbeusedforthistask.
Forbestresults,theamplifiershouldhaveabandwidththatis8to10timesthefilterfrequencybandwidth.
Failuretodothiscanresultinphaseshiftoftheamplifier.
Figure39.
2-PoleLow-PassSallen-KeyFilter14Copyright2011年,TexasInstrumentsIncorporatedTLV2401-Q1,TLV2402-Q1,TLV2404-Q1www.
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com.
cnZHCS105–4月2011年CircuitLayoutConsiderationsToachievethelevelsofhighperformanceoftheTLV240x-Q1,followproperprinted-circuitboarddesigntechniques.
Ageneralsetofguidelinesisgiveninthefollowing.
Groundplanes–Itishighlyrecommendedthatagroundplanebeusedontheboardtoprovideallcomponentswithalowinductivegroundconnection.
However,intheareasoftheamplifierinputsandoutput,thegroundplanecanberemovedtominimizethestraycapacitance.
Properpowersupplydecoupling–Usea6.
8-mFtantalumcapacitorinparallelwitha0.
1-mFceramiccapacitoroneachsupplyterminal.
Itmaybepossibletosharethetantalumamongseveralamplifiersdependingontheapplication,buta0.
1-mFceramiccapacitorshouldalwaysbeusedonthesupplyterminalofeveryamplifier.
Inaddition,the0.
1-mFcapacitorshouldbeplacedascloseaspossibletothesupplyterminal.
Asthisdistanceincreases,theinductanceintheconnectingtracemakesthecapacitorlesseffective.
Thedesignershouldstrivefordistancesoflessthan0.
1inchesbetweenthedevicepowerterminalsandtheceramiccapacitors.
Sockets–Socketscanbeusedbutarenotrecommended.
Theadditionalleadinductanceinthesocketpinswilloftenleadtostabilityproblems.
Surface-mountpackagessoldereddirectlytotheprinted-circuitboardisthebestimplementation.
Shorttraceruns/compactpartplacements–Optimumhighperformanceisachievedwhenstrayseriesinductancehasbeenminimized.
Torealizethis,thecircuitlayoutshouldbemadeascompactaspossible,therebyminimizingthelengthofalltraceruns.
Particularattentionshouldbepaidtotheinvertinginputoftheamplifier.
Itslengthshouldbekeptasshortaspossible.
Thiswillhelptominimizestraycapacitanceattheinputoftheamplifier.
Surface-mountpassivecomponents–Usingsurface-mountpassivecomponentsisrecommendedforhighperformanceamplifiercircuitsforseveralreasons.
First,becauseoftheextremelylowleadinductanceofsurface-mountcomponents,theproblemwithstrayseriesinductanceisgreatlyreduced.
Second,thesmallsizeofsurface-mountcomponentsnaturallyleadstoamorecompactlayouttherebyminimizingbothstrayinductanceandcapacitance.
Ifleadedcomponentsareused,itisrecommendedthattheleadlengthsbekeptasshortaspossible.
Copyright2011年,TexasInstrumentsIncorporated15TLV2401-Q1,TLV2402-Q1,TLV2404-Q1ZHCS105–4月2011年www.
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cnGeneralPowerDissipationConsiderationsForagivenθJA,themaximumpowerdissipationisshowninFigure40andiscalculatedbythefollowingformula:Where:PD=MaximumpowerdissipationofTHS240xIC(watts)TMAX=Absolutemaximumjunctiontemperature(150°C)TA=Free-ambientairtemperature(°C)θJA=θJC+θCAθJC=ThermalcoefficientfromjunctiontocaseθCA=Thermalcoefficientfromcasetoambientair(°C/W)(1)ResultsarewithnoairflowandusingJEDECStandardLow-KtestPCB.
Figure40.
MaximumPowerDissipationvsFree-AirTemperature16Copyright2011年,TexasInstrumentsIncorporatedTLV2401-Q1,TLV2402-Q1,TLV2404-Q1www.
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com.
cnZHCS105–4月2011年MacromodelInformationMacromodelinformationprovidedwasderivedusingMicrosimPartsERelease8,themodelgenerationsoftwareusedwithMicrosimPSpiceE.
TheBoylemacromodel(1)andsubcircuitinFigure41aregeneratedusingtheTLV240x-Q1typicalelectricalandoperatingcharacteristicsatTA=25°C.
Usingthisinformation,outputsimulationsofthefollowingkeyparameterscanbegeneratedtoatoleranceof20%(inmostcases):MaximumpositiveoutputvoltageswingMaximumnegativeoutputvoltageswingSlewrateQuiescentpowerdissipationInputbiascurrentOpen-loopvoltageamplificationUnity-gainfrequencyCommon-moderejectionratioPhasemarginDCoutputresistanceACoutputresistanceShort-circuitoutputcurrentlimitFigure41.
BoyleMacromodelsandSubcircuit(1)G.
R.
Boyle,B.
M.
Cohn,D.
O.
Pederson,andJ.
E.
Solomon,"MacromodelingofIntegratedCircuitOperationalAmplifiers",IEEEJournalofSolid-StateCircuits,SC-9,353(1974).
Copyright2011年,TexasInstrumentsIncorporated17重要声明德州仪器(TI)及其下属子公司有权在不事先通知的情况下,随时对所提供的产品和服务进行更正、修改、增强、改进或其它更改,并有权随时中止提供任何产品和服务.
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com10-Dec-2020Addendum-Page1PACKAGINGINFORMATIONOrderableDeviceStatus(1)PackageTypePackageDrawingPinsPackageQtyEcoPlan(2)Leadfinish/Ballmaterial(6)MSLPeakTemp(3)OpTemp(°C)DeviceMarking(4/5)SamplesTLV2401QDBVRQ1ACTIVESOT-23DBV53000RoHS&GreenNIPDAULevel-1-260C-UNLIM-40to1251WU9TLV2402QDGKRQ1ACTIVEVSSOPDGK82500RoHS&GreenNIPDAULevel-2-260C-1YEAR-40to125QWX(1)Themarketingstatusvaluesaredefinedasfollows:ACTIVE:Productdevicerecommendedfornewdesigns.
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OBSOLETE:TIhasdiscontinuedtheproductionofthedevice.
(2)RoHS:TIdefines"RoHS"tomeansemiconductorproductsthatarecompliantwiththecurrentEURoHSrequirementsforall10RoHSsubstances,includingtherequirementthatRoHSsubstancedonotexceed0.
1%byweightinhomogeneousmaterials.
Wheredesignedtobesolderedathightemperatures,"RoHS"productsaresuitableforuseinspecifiedlead-freeprocesses.
TImayreferencethesetypesofproductsas"Pb-Free".
RoHSExempt:TIdefines"RoHSExempt"tomeanproductsthatcontainleadbutarecompliantwithEURoHSpursuanttoaspecificEURoHSexemption.
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(3)MSL,PeakTemp.
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PACKAGEOPTIONADDENDUMwww.
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ti.
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220.
08TYP0.
253.
02.
62X0.
951.
91.
450.
900.
150.
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052.
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751.
45(1.
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Alllineardimensionsareinmillimeters.
Anydimensionsinparenthesisareforreferenceonly.
DimensioningandtolerancingperASMEY14.
5M.
2.
Thisdrawingissubjecttochangewithoutnotice.
3.
RefernceJEDECMO-178.
4.
Bodydimensionsdonotincludemoldflash,protrusions,orgateburrs.
Moldflash,protrusions,orgateburrsshallnotexceed0.
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0.
2CAB13452INDEXAREAPIN1GAGEPLANESEATINGPLANE0.
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000www.
ti.
comEXAMPLEBOARDLAYOUT0.
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07MINARROUND5X(1.
1)5X(0.
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9)2X(0.
95)(R0.
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45mmmaxheightDBV0005ASMALLOUTLINETRANSISTORNOTES:(continued)5.
PublicationIPC-7351mayhavealternatedesigns.
6.
Soldermasktolerancesbetweenandaroundsignalpadscanvarybasedonboardfabricationsite.
SYMMLANDPATTERNEXAMPLEEXPOSEDMETALSHOWNSCALE:15XPKG13452SOLDERMASKOPENINGMETALUNDERSOLDERMASKSOLDERMASKDEFINEDEXPOSEDMETALMETALSOLDERMASKOPENINGNONSOLDERMASKDEFINED(PREFERRED)SOLDERMASKDETAILSEXPOSEDMETALwww.
ti.
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6)(1.
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95)5X(1.
1)5X(0.
6)(R0.
05)TYPSOT-23-1.
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Lasercuttingapertureswithtrapezoidalwallsandroundedcornersmayofferbetterpasterelease.
IPC-7525mayhavealternatedesignrecommendations.
8.
Boardassemblysitemayhavedifferentrecommendationsforstencildesign.
SOLDERPASTEEXAMPLEBASEDON0.
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IMPORTANTNOTICE邮寄地址:上海市浦东新区世纪大道1568号中建大厦32楼,邮政编码:200122Copyright2020德州仪器半导体技术(上海)有限公司