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  • 型号: LM4040BIM3-2.5
  • 制造商: Texas Instruments
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LM4040BIM3-2.5产品简介:

ICGOO电子元器件商城为您提供LM4040BIM3-2.5由Texas Instruments设计生产,在icgoo商城现货销售,并且可以通过原厂、代理商等渠道进行代购。 LM4040BIM3-2.5价格参考¥3.30-¥3.61。Texas InstrumentsLM4040BIM3-2.5封装/规格:PMIC - 电压基准, 分流器 电压基准 IC ±0.2% 15mA SOT-23-3。您可以下载LM4040BIM3-2.5参考资料、Datasheet数据手册功能说明书,资料中有LM4040BIM3-2.5 详细功能的应用电路图电压和使用方法及教程。

产品参数 图文手册 常见问题
参数 数值
产品目录

集成电路 (IC)半导体

描述

IC VREF SHUNT PREC 2.5V SOT23-3参考电压 Prec MicroPwr Shunt Vtg Ref

产品分类

PMIC - 电压基准

品牌

Texas Instruments

产品手册

点击此处下载产品Datasheet

产品图片

rohs

否含铅 / 不符合限制有害物质指令(RoHS)规范要求

产品系列

电源管理 IC,参考电压,Texas Instruments LM4040BIM3-2.5-

数据手册

点击此处下载产品Datasheet

产品型号

LM4040BIM3-2.5

PCN设计/规格

点击此处下载产品Datasheet

产品培训模块

http://www.digikey.cn/PTM/IndividualPTM.page?site=cn&lang=zhs&ptm=26100

产品种类

参考电压

供应商器件封装

SOT-23-3

其它名称

LM4040BIM3-2.5CT

分流电流—最大值

15 mA

分流电流—最小值

60 uA

初始准确度

0.2 %

制造商产品页

http://www.ti.com/general/docs/suppproductinfo.tsp?distId=10&orderablePartNumber=LM4040BIM3-2.5

包装

剪切带 (CT)

参考类型

Shunt Precision References

商标

Texas Instruments

安装类型

表面贴装

安装风格

SMD/SMT

容差

±0.2%

封装

Reel

封装/外壳

TO-236-3,SC-59,SOT-23-3

封装/箱体

SOT-23

工作温度

-40°C ~ 85°C

工厂包装数量

1000

平均温度系数—典型值

20 PPM/C

最大工作温度

+ 85 C

最小工作温度

- 40 C

标准包装

1

温度系数

100ppm/°C

电压-输入

-

电压-输出

2.5V

电流-输出

15mA

电流-阴极

60µA

电流-静态

-

系列

LM4040-N

输出电压

2.5 V

通道数

1

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PDF Datasheet 数据手册内容提取

Product Sample & Technical Tools & Support & Folder Buy Documents Software Community LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 LM4040-N/-Q1 Precision Micropower Shunt Voltage Reference 1 Features 3 Description • SOT-23AECQ-100Grades1and3Available Ideal for space-critical applications, the LM4040-N 1 precision voltage reference is available in the sub- • SmallPackages:SOT-23,TO-92,andSC70 miniature SC70 and SOT-23 surface-mount package. • NoOutputCapacitorRequired The advanced design of the LM4040-N eliminates the • ToleratesCapacitiveLoads need for an external stabilizing capacitor while ensuring stability with any capacitive load, thus • FixedReverseBreakdownVoltagesof2.048V, making the LM4040-N easy to use. Further reducing 2.5V,3V,4.096V,5V,8.192V,and10V design effort is the availability of several fixed reverse • KeySpecifications(2.5-VLM4040-N) breakdown voltages: 2.048 V, 2.5 V, 3 V, 4.096 V, 5 – OutputVoltageTolerance(AGrade,25°C): V, 8.192 V, and 10 V. The minimum operating current ±0.1%(Maximum) increases from 60 μA for the 2.5-V LM4040-N to 100 μA for the 10-V LM4040-N. All versions have a – LowOutputNoise(10Hzto10kHz):35 μV rms maximumoperatingcurrentof15mA. (Typical) The LM4040-N uses a fuse and Zener-zap reverse – WideOperatingCurrentRange:60 μAto15 breakdown voltage trim during wafer sort to ensure mA that the prime parts have an accuracy of better than – IndustrialTemperatureRange: −40°Cto+85°C ±0.1% (A grade) at 25°C. Bandgap reference – ExtendedTemperatureRange: −40°Cto temperature drift curvature correction and low +125°C dynamic impedance ensure stable reverse breakdown voltage accuracy over a wide range of – LowTemperatureCoefficient:100ppm/°C operatingtemperaturesandcurrents. (Maximum) Also available is the LM4041-N with two reverse 2 Applications breakdown voltage versions: adjustable and 1.2 V. SeetheLM4041-Ndatasheet(SNOS641). • Portable,Battery-PoweredEquipment • DataAcquisitionSystems DeviceInformation(1) • Instrumentation PARTNUMBER PACKAGE BODYSIZE(NOM) • ProcessControls TO-92(3) 4.30mm×4.30mm • EnergyManagement LM4040-N SC70(5) 2.00mm×1.25mm • ProductTesting SOT-23(3) 2.92mm×1.30mm LM4040-N-Q1 SOT-23(3) 2.92mm×1.30mm • Automotives • PrecisionAudioComponents (1) For all available packages, see the orderable addendum at theendofthedatasheet. ShuntReferenceApplicationSchematic V DD R S V OUT Cathode LM4040 Anode 1 An IMPORTANT NOTICE at the end of this data sheet addresses availability, warranty, changes, use in safety-critical applications, intellectualpropertymattersandotherimportantdisclaimers.PRODUCTIONDATA.

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com Table of Contents 1 Features.................................................................. 1 6.17 ElectricalCharacteristics:5-VLM4040-NVR ToleranceGrades'C'And'D';TemperatureGrade 2 Applications........................................................... 1 'I'............................................................................... 24 3 Description............................................................. 1 6.18 ElectricalCharacteristics:5-VLM4040-NV R 4 RevisionHistory..................................................... 3 ToleranceGrades'C'And'D';TemperatureGrade 5 PinConfigurationandFunctions......................... 4 'E'............................................................................. 26 6 Specifications......................................................... 5 6.19 ElectricalCharacteristics:8.2-VLM4040-NVR ToleranceGrades'A'And'B';TemperatureGrade 6.1 AbsoluteMaximumRatings......................................5 'I'............................................................................... 27 6.2 ESDRatings..............................................................5 6.20 ElectricalCharacteristics:8.2-VLm4040-NV R 6.3 RecommendedOperatingConditions.......................6 ToleranceGrades'C'And'D';TemperatureGrade 6.4 ThermalInformation..................................................6 'I'............................................................................... 28 6.5 ElectricalCharacteristics:2-VLM4040-NVR 6.21 ElectricalCharacteristics:10-VLM4040-NVR ToleranceGrades'A'And'B';TemperatureGrade'I' 7 ToleranceGrades'A'And'B';TemperatureGrade 'I'............................................................................... 29 6.6 ElectricalCharacteristics:2-VLM4040-NV R ToleranceGrades'C','D',And'E';Temperature 6.22 ElectricalCharacteristics:10-VLM4040-NVR Grade'I'......................................................................8 ToleranceGrades'C'And'D';TemperatureGrade 'I'............................................................................... 30 6.7 ElectricalCharacteristics:2-VLM4040-NV R ToleranceGrades'C','D',And'E';Temperature 6.23 TypicalCharacteristics..........................................31 Grade'E'.................................................................. 10 7 ParameterMeasurementInformation................32 6.8 ElectricalCharacteristics:2.5-VLM4040-NVR 8 DetailedDescription............................................ 33 ToleranceGrades'A'And'B';TemperatureGrade'I' 8.1 Overview.................................................................33 (AECGrade3).........................................................11 8.2 FunctionalBlockDiagram.......................................33 6.9 ElectricalCharacteristics:2.5-VLM4040-NV R ToleranceGrades'C','D',and'E';TemperatureGrade 8.3 FeatureDescription.................................................33 'I'(AECGrade3)......................................................13 8.4 DeviceFunctionalModes........................................33 6.10 ElectricalCharacteristics:2.5-VLM4040-NVR 9 ApplicationandImplementation........................ 34 ToleranceGrades'C','D',And'E';Temperature 9.1 ApplicationInformation............................................34 Grade'E'(AECGrade1).........................................15 9.2 TypicalApplications................................................34 6.11 ElectricalCharacteristics:3-VLM4040-NV R ToleranceGrades'A'And'B';TemperatureGrade 10 PowerSupplyRecommendations..................... 41 'I'............................................................................... 17 11 Layout................................................................... 41 6.12 ElectricalCharacteristics:3-VLM4040-NVR 11.1 LayoutGuidelines.................................................41 ToleranceGrades'C','D',And'E';Temperature 11.2 LayoutExample....................................................41 Grade'I'.................................................................... 18 12 DeviceandDocumentationSupport................. 42 6.13 ElectricalCharacteristics:3-VLM4040-NV R ToleranceGrades'C','D',And'E';Temperature 12.1 DocumentationSupport........................................42 Grade'E'.................................................................. 20 12.2 RelatedLinks........................................................42 6.14 ElectricalCharacteristics:4.1-VLM4040-NV 12.3 CommunityResources..........................................42 R ToleranceGrades'A'And'B';TemperatureGrade 12.4 Trademarks...........................................................42 'I'............................................................................... 21 12.5 ElectrostaticDischargeCaution............................42 6.15 ElectricalCharacteristics:4.1-VLM4040-NV R 12.6 Glossary................................................................42 ToleranceGrades'C'and'D';TemperatureGrade 'I'............................................................................... 22 13 Mechanical,Packaging,AndOrderable Information........................................................... 42 6.16 ElectricalCharacteristics:5-VLM4040-NV R ToleranceGrades'A'And'B';TemperatureGrade 13.1 SOT-23andSC70PackageMarkingInformation 42 'I'............................................................................... 23 2 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 4 Revision History NOTE:Pagenumbersforpreviousrevisionsmaydifferfrompagenumbersinthecurrentversion. ChangesfromRevisionJ(August2015)toRevisionK Page • Updatedpinoutdiagrams ...................................................................................................................................................... 4 ChangesfromRevisionI(April2015)toRevisionJ Page • AddedESDRatingstable,FeatureDescriptionsection,DeviceFunctionalModessection,Applicationand Implementationsection,PowerSupplyRecommendationssection,Layoutsection,DeviceandDocumentation Supportsection,andMechanical,Packaging,andOrderableInformationsection ............................................................... 1 ChangesfromRevisionH(April2013)toRevisionI Page • AddedsomeofthelatestinclusionsfromnewTIformattingandmadeavailableoftheautomotivegradeforthe SOT-23package..................................................................................................................................................................... 1 ChangesfromRevisionG(July2012)toRevisionH Page • ChangedlayoutofNationalDataSheettoTIformat............................................................................................................. 1 Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 3 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 5 Pin Configuration and Functions DBZPackage 3-PinSOT-23 LPPackage TopView 3-PinTO-92 BottomView 1 NC + – + 3(1) 2 – DCKPackage 5-PinSC70 TopView 1 5 – NC 2 NC(2) 3 4 + NC PinFunctions PIN I/O DESCRIPTION NAME SOT-23 TO-92 SC70 Anode 2 1 1 O Anodepin,normallygrounded Cathode 1 2 3 I/O ShuntCurrent/OutputVoltage NC 3(1) — 2(2) — Mustfloatorconnecttoanode NC — 3 4,5 — Noconnect (1) Thispinmustbeleftfloatingorconnectedtopin2. (2) Thispinmustbeleftfloatingorconnectedtopin1. 4 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 6 Specifications 6.1 Absolute Maximum Ratings overoperatingfree-airtemperaturerange(unlessotherwisenoted)(1)(2) MIN MAX UNIT Reversecurrent 20 mA Forwardcurrent 10 mA SOT-23(M3)package 306 mW Powerdissipation(T = 25°C)(3) A TO-92(Z)package 550 mW SC70(M7)package 241 mW SOT-23(M3)PackagePeakReflow(30sec) 260 °C Solderingtemperature(4) TO-92(Z)PackageSoldering(10sec) 260 °C SC70(M7)PackagePeakReflow(30sec) 260 °C Storagetemperature –65 150 °C (1) StressesbeyondthoselistedunderAbsoluteMaximumRatingsmaycausepermanentdamagetothedevice.Thesearestressratings only,whichdonotimplyfunctionaloperationofthedeviceattheseoranyotherconditionsbeyondthoseindicatedunderRecommended OperatingConditions.Exposuretoabsolute-maximum-ratedconditionsforextendedperiodsmayaffectdevicereliability. (2) IfMilitary/Aerospacespecifieddevicesarerequired,pleasecontacttheTexasInstrumentsSalesOffice/Distributorsforavailabilityand specifications. (3) ThemaximumpowerdissipationmustbederatedatelevatedtemperaturesandisdictatedbyT (maximumjunctiontemperature), Jmax R (junctiontoambientthermalresistance),andT (ambienttemperature).Themaximumallowablepowerdissipationatany θJA A temperatureisPD =(T −T )/R orthenumbergivenintheAbsoluteMaximumRatings,whicheverislower.FortheLM4040-N, max Jmax A θJA T =125°C,andthetypicalthermalresistance(R ),whenboardmounted,is326°C/WfortheSOT-23package,and180°C/Wwith Jmax θJA 0.4″leadlengthand170°C/Wwith0.125″leadlengthfortheTO-92packageand415°C/WfortheSC70Package. (4) FordefinitionsofPeakReflowTemperaturesforSurfaceMountdevices,seetheTIAbsoluteMaximumRatingsforSolderingApplication Report(SNOA549). 6.2 ESD Ratings VALUE UNIT Human-bodymodel(HBM),perANSI/ESDA/JEDECJS-001(1) ±2000 V(ESD) Electrostaticdischarge Charged-devicemodel(CDM),perJEDECspecificationJESD22- V C101(2) ±200 (1) JEDECdocumentJEP155statesthat500-VHBMallowssafemanufacturingwithastandardESDcontrolprocess. (2) JEDECdocumentJEP157statesthat250-VCDMallowssafemanufacturingwithastandardESDcontrolprocess. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 5 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 6.3 Recommended Operating Conditions overoperatingfree-airtemperaturerange(unlessotherwisenoted)(1)(2) MIN MAX UNIT Temperature IndustrialTemperature –40°C≤TA≤85 °C (Tmin≤TA≤Tmax) ExtendedTemperature –40≤TA≤125°C °C LM4040-N-2.0 60 15 μAtomA LM4040-N-2.5 60 15 μAtomA LM4040-N-3.0 62 15 μAtomA ReverseCurrent LM4040-N-4.1 68 15 μAtomA LM4040-N-5.0 74 15 μAtomA LM4040-N-8.2 91 15 μAtomA LM4040-N-10.0 100 15 μAtomA (1) AbsoluteMaximumRatingsindicatelimitsbeyondwhichdamagetothedevicemayoccur.RecommendedOperatingConditionsindicate conditionsforwhichthedeviceisfunctional,butdonotensurespecificperformancelimits.Forensuredspecificationsandtest conditions,seetheElectricalCharacteristics.Theensuredspecificationsapplyonlyforthetestconditionslisted.Someperformance characteristicsmaydegradewhenthedeviceisnotoperatedunderthelistedtestconditions. (2) ThemaximumpowerdissipationmustbederatedatelevatedtemperaturesandisdictatedbyT (maximumjunctiontemperature), Jmax R (junctiontoambientthermalresistance),andT (ambienttemperature).Themaximumallowablepowerdissipationatany θJA A temperatureisPD =(T −T )/R orthenumbergivenintheAbsoluteMaximumRatings,whicheverislower.FortheLM4040-N, max Jmax A θJA T =125°C,andthetypicalthermalresistance(R ),whenboardmounted,is326°C/WfortheSOT-23package,and180°C/Wwith Jmax θJA 0.4″leadlengthand170°C/Wwith0.125″leadlengthfortheTO-92packageand415°C/WfortheSC70package. 6.4 Thermal Information LM4040-N/LM4040-N-Q1 THERMALMETRIC(1) DBZ(SOT-23) LP(TO-92) DCK(SC70) UNIT 3PINS 3PINS 5PINS R Junction-to-ambientthermalresistance 291.9 166 267 °C/W θJA R Junction-to-case(top)thermalresistance 114.3 88.2 95.6 °C/W θJC(top) R Junction-to-boardthermalresistance 62.3 145.2 48.1 °C/W θJB ψ Junction-to-topcharacterizationparameter 7.4 32.5 2.4 °C/W JT ψ Junction-to-boardcharacterizationparameter 61 N/A 47.3 °C/W JB R Junction-to-case(bottom)thermalresistance N/A N/A N/A °C/W θJC(bot) (1) Formoreinformationabouttraditionalandnewthermalmetrics,seetheSemiconductorandICPackageThermalMetricsapplication report,SPRA953. 6 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 6.5 Electrical Characteristics: 2-V LM4040-N V Tolerance Grades 'A' And 'B'; Temperature R Grade 'I' allotherlimitsT =T =25°C.ThegradesAandBdesignateinitialReverseBreakdownVoltagetolerancesof±0.1%and A J ±0.2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 2.048 V LM4040AIM3 ±2 LM4040AIZ LM4040BIM3 mV LM4040BIZ ±4.1 VR ReverseBreakdown LM4040BIM7 VoltageTolerance(2) IR=100μA LM4040AIM3 TA=TJ=TMINto ±15 LM4040AIZ TMAX LM4040BIM3 mV LM4040BIZ TA=TJ=TMINto ±17 LM4040BIM7 TMAX MinimumOperating TA=TJ=25°C 45 60 IRMIN Current TA=TJ=TMINtoTMAX 65 μA IR=10mA ±20 ppm/°C AverageReverse BreakdownVoltage TA=TJ=25°C ±15 ΔVR/ΔT TCeomefpfiecireantut(r2e) IR=1mA TA=TJ=TMINtoTMAX ±100 ppm/°C IR=100μA ±15 ppm/°C TA=TJ=25°C 0.3 0.8 ReverseBreakdown IRMIN≤IR≤1mA mV ΔVR/ΔI VoltageChangewith TA=TJ=TMINtoTMAX 1 R OChpaenragtein(3g)Current 1mA≤IR≤15mA TA=TJ=25°C 2.5 6 mV TA=TJ=TMINtoTMAX 8 ReverseDynamic IR=1mA,f=120 ZR Impedance Hz, 0.3 0.8 Ω IAC=0.1IR eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 35 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA VHYST ThermalHysteresis(4) ΔT=–40°Cto125°C 0.08% (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TheovertemperaturelimitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. (3) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (4) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 7 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 6.6 Electrical Characteristics: 2-V LM4040-N V Tolerance Grades 'C', 'D', And 'E'; Temperature R Grade 'I' allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 2.048 V LM4040CIM3 TA=TJ=25°C ±10 LM4040CIZ LM4040CIM7 TA=TJ=TMINtoTMAX ±23 VR ReverseBreakdown LM4040DIM3 TA=TJ=25°C ±20 VoltageTolerance(3) IR=100μA LM4040DIZ mV LM4040DIM7 TA=TJ=TMINtoTMAX ±40 LM4040EIZ TA=TJ=25°C ±41 LM4040EIM7 TA=TJ=TMINtoTMAX ±60 LM4040CIM3 TA=TJ=25°C 45 60 LM4040CIZ LM4040CIM7 TA=TJ=TMINtoTMAX 65 MinimumOperating LM4040DIM3 TA=TJ=25°C 45 65 IRMIN Current LM4040DIZ μA LM4040DIM7 TA=TJ=TMINtoTMAX 70 LM4040EIZ TA=TJ=25°C 45 65 LM4040EIM7 TA=TJ=TMINtoTMAX 70 IR=10mA ±20 LM4040CIM3 TA=TJ=25°C ±15 LM4040CIZ LM4040CIM7 TA=TJ=TMINtoTMAX ±100 AverageReverse BreakdownVoltage LM4040DIM3 TA=TJ=25°C ±15 ΔVR/ΔT Temperature IR=1mA LM4040DIZ ppm/°C Coefficient(3) LM4040DIM7 TA=TJ=TMINtoTMAX ±150 LM4040EIZ TA=TJ=25°C ±15 LM4040EIM7 TA=TJ=TMINtoTMAX ±150 IR=100μA ±15 (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) TheovertemperaturelimitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. 8 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 Electrical Characteristics: 2-V LM4040-N V Tolerance Grades 'C', 'D', And 'E'; Temperature R Grade 'I' (continued) allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT LM4040CIM3 TA=TJ=25°C 0.3 0.8 LM4040CIZ LM4040CIM7 TA=TJ=TMINtoTMAX 1 LM4040DIM3 TA=TJ=25°C 0.3 1 IRMIN≤IR≤1mA LM4040DIZ LM4040DIM7 TA=TJ=TMINtoTMAX 1.2 LM4040EIZ TA=TJ=25°C 0.3 1 ReverseBreakdown VoltageChange LM4040EIM7 TA=TJ=TMINtoTMAX 1.2 ΔVR/ΔIR wCiuthrreOnpteCrahtainngge(4) LLMM44004400CCIIMZ3 TA=TJ=25°C 2.5 6 mV LM4040CIM7 TA=TJ=TMINtoTMAX 8 LM4040DIM3 TA=TJ=25°C 2.5 8 1mA≤IR≤15mA LM4040DIZ LM4040DIM7 TA=TJ=TMINtoTMAX 10 LM4040EIZ TA=TJ=25°C 2.5 8 LM4040EIM7 TA=TJ=TMINtoTMAX 10 LM4040CIM3 LM4040CIZ 0.3 0.9 LM4040CIM7 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz LLMM44004400DDIIMZ3 0.3 1.1 Ω LM4040DIM7 LM4040EIZ 0.3 1.1 LM4040EIM7 eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 35 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA Thermal VHYST Hysteresis(5) ΔT=−40°Cto125°C 0.08% (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat25°Caftercyclingtotemperature–40°Candthe25°C measurementaftercyclingtotemperature125°C. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 9 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 6.7 Electrical Characteristics: 2-V LM4040-N V Tolerance Grades 'C', 'D', And 'E'; Temperature R Grade 'E' allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 2.048 V TA=TJ=25°C ±10 LM4040CEM3 TA=TJ=TMINtoTMAX ±30 VR ReverseBreakdown TA=TJ=25°C ±20 VoltageTolerance(3) IR=100μA LM4040DEM3 TA=TJ=TMINtoTMAX ±50 mV TA=TJ=25°C ±41 LM4040EEM3 TA=TJ=TMINtoTMAX ±70 TA=TJ=25°C 45 60 LM4040CEM3 TA=TJ=TMINtoTMAX 68 MinimumOperating TA=TJ=25°C 45 65 IRMIN Current LM4040DEM3 TA=TJ=TMINtoTMAX 73 μA TA=TJ=25°C 45 65 LM4040EEM3 TA=TJ=TMINtoTMAX 73 IR=10mA ±20 TA=TJ=25°C ±15 LM4040CEM3 TA=TJ=TMINtoTMAX ±100 AverageReverse BreakdownVoltage TA=TJ=25°C ±15 ΔVR/ΔT TCeomefpfiecireantut(r3e) IR=1mA LM4040DEM3 TA=TJ=TMINtoTMAX ±150 ppm/°C TA=TJ=25°C ±15 LM4040EEM3 TA=TJ=TMINtoTMAX ±150 IR=100μA ±15 TA=TJ=25°C 0.3 0.8 LM4040CEM3 TA=TJ=TMINtoTMAX 1 TA=TJ=25°C 0.3 1 IRMIN≤IR≤1mA LM4040DEM3 TA=TJ=TMINtoTMAX 1.2 TA=TJ=25°C 0.3 1 ReverseBreakdown LM4040EEM3 ΔVR/ΔI VoltageChangewith TA=TJ=TMINtoTMAX 1.2 mV R OChpaenragtein(4g)Current LM4040CEM3 TA=TJ=25°C 2.5 6 TA=TJ=TMINtoTMAX 8 TA=TJ=25°C 2.5 8 1mA≤IR≤15mA LM4040DEM3 TA=TJ=TMINtoTMAX 10 TA=TJ=25°C 2.5 8 LM4040EEM3 TA=TJ=TMINtoTMAX 10 (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) TheovertemperaturelimitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. 10 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 Electrical Characteristics: 2-V LM4040-N V Tolerance Grades 'C', 'D', And 'E'; Temperature R Grade 'E' (continued) allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT LM4040CEM3 0.3 0.9 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, LM4040DEM3 0.3 1.1 Ω LM4040EEM3 0.3 1.1 eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 35 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA Thermal VHYST Hysteresis(5) ΔT=−40°Cto125°C 0.08% (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat25°Caftercyclingtotemperature–40°Candthe25°C measurementaftercyclingtotemperature125°C. 6.8 Electrical Characteristics: 2.5-V LM4040-N V Tolerance Grades 'A' And 'B'; Temperature R Grade 'I' (AEC Grade 3) allotherlimitsT =T =25°C.ThegradesAandBdesignateinitialReverseBreakdownVoltagetolerancesof±0.1%and A J ±0.2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 2.5 V LM4040AIM3 TA=TJ=25°C ±2.5 LM4040AIZ VR LM4040AIM3 TA=TJ=TMINtoTMAX ±19 ReverseBreakdown VoltageTolerance(3) IR=100μA LM4040BIM3 TA=TJ=25°C ±5 mV LM4040BIZ LLMM44004400BQIBMIM73 TA=TJ=TMINtoTMAX ±21 MinimumOperating TA=TJ=25°C 45 60 IRMIN Current TA=TJ=TMINtoTMAX 65 μA IR=10mA ±20 AverageReverse BreakdownVoltage TA=TJ=25°C ±15 ΔVR/ΔT TCeomefpfiecireantut(r3e) IR=1mA TA=TJ=TMINtoTMAX ±100 ppm/°C IR=100μA ±15 (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) TheovertemperaturelimitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 11 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com Electrical Characteristics: 2.5-V LM4040-N V Tolerance Grades 'A' And 'B'; Temperature Grade R 'I' (AEC Grade 3) (continued) allotherlimitsT =T =25°C.ThegradesAandBdesignateinitialReverseBreakdownVoltagetolerancesof±0.1%and A J ±0.2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT TA=TJ=25°C 0.3 0.8 ReverseBreakdown IRMIN≤IR≤1mA ΔVR/ΔI VoltageChangewith TA=TJ=TMINtoTMAX 1 mV R OChpaenragtein(4g)Current 1mA≤IR≤15mA TA=TJ=25°C 2.5 6 TA=TJ=TMINtoTMAX 8 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, 0.3 0.8 Ω eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 35 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA VHYST ThermalHysteresis(5) ΔT=−40°Cto125°C 0.08% (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat25°Caftercyclingtotemperature–40°Candthe25°C measurementaftercyclingtotemperature125°C. 12 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 6.9 Electrical Characteristics: 2.5-V LM4040-N V Tolerance Grades 'C', 'D', and 'E'; R Temperature Grade 'I' (AEC Grade 3) allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 2.5 V LM4040CIZ TA=TJ=25°C ±12 LM4040CIM3 LLMM44004400CQICMIM73 TA=TJ=TMINtoTMAX ±29 VR LM4040DIZ TA=TJ=25°C ±25 ReverseBreakdown LM4040DIM3 VoltageTolerance(3) IR=100μA LLMM44004400DQIDMIM73 TA=TJ=TMINtoTMAX ±49 mV LM4040EIZ TA=TJ=25°C ±50 LM4040EIM3 LLMM44004400EQIEMIM73 TA=TJ=TMINtoTMAX ±74 LM4040CIZ TA=TJ=25°C 45 60 LM4040CIM3 LLMM44004400CQICMIM73 TA=TJ=TMINtoTMAX 65 LM4040DIZ TA=TJ=25°C 45 65 MinimumOperating LM4040DIM3 IRMIN Current LLMM44004400DQIDMIM73 TA=TJ=TMINtoTMAX 70 μA LM4040EIZ TA=TJ=25°C 45 65 LM4040EIM3 LLMM44004400EQIEMIM73 TA=TJ=TMINtoTMAX 70 IR=10mA ±20 LM4040CIZ TA=TJ=25°C ±15 LM4040CIM3 LLMM44004400CQICMIM73 TA=TJ=TMINtoTMAX ±100 AverageReverse LM4040DIZ TA=TJ=25°C ±15 BreakdownVoltage LM4040DIM3 ΔVR/ΔT TCeomefpfiecireantut(r3e) IR=1mA LLMM44004400DQIDMIM73 TA=TJ=TMINtoTMAX ±150 ppm/°C LM4040EIZ TA=TJ=25°C ±15 LM4040EIM3 LLMM44004400EQIEMIM73 TA=TJ=TMINtoTMAX ±150 IR=100μA ±15 (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) TheovertemperaturelimitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 13 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com Electrical Characteristics: 2.5-V LM4040-N V Tolerance Grades 'C', 'D', and 'E'; Temperature R Grade 'I' (AEC Grade 3) (continued) allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT LM4040CIZ TA=TJ=25°C 0.3 0.8 LM4040CIM3 LLMM44004400CQICMIM73 TA=TJ=TMINtoTMAX 1 LM4040DIZ TA=TJ=25°C 0.3 1 LM4040DIM3 IRMIN≤IR≤1mA LLMM44004400DQIDMIM73 TA=TJ=TMINtoTMAX 1.2 LM4040EIZ TA=TJ=25°C 0.3 1 LM4040EIM3 ΔVR/ΔI RVoelvtaegrseeCBhraenagkdeowwitnh LLMM44004400EQIEMIM73 TA=TJ=TMINtoTMAX 1.2 mV R OChpaenragtein(4g)Current LLMM44004400CCIIZM3 TA=TJ=25°C 2.5 6 LLMM44004400CQICMIM73 TA=TJ=TMINtoTMAX 8 LM4040DIZ TA=TJ=25°C 2.5 8 LM4040DIM3 1mA≤IR≤15mA LLMM44004400DQIDMIM73 TA=TJ=TMINtoTMAX 10 LM4040EIZ TA=TJ=25°C 2.5 8 LM4040EIM3 LLMM44004400EQIEMIM73 TA=TJ=TMINtoTMAX 10 LM4040CIZ LM4040CIM3 0.3 0.9 LM4040CIM7 LM4040QCIM3 LM4040DIZ ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz LLMM44004400DDIIMM37 0.3 1.1 Ω LM4040QDIM3 LM4040EIZ LM4040EIM3 0.3 1.1 LM4040EIM7 LM4040QEIM3 eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 35 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA Thermal VHYST Hysteresis(5) ΔT=−40°Cto125°C 0.08% (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat25°Caftercyclingtotemperature–40°Candthe25°C measurementaftercyclingtotemperature125°C. 14 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 6.10 Electrical Characteristics: 2.5-V LM4040-N V Tolerance Grades 'C', 'D', And 'E'; R Temperature Grade 'E' (AEC Grade 1) allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 2.5 V LM4040CEM3 TA=TJ=25°C ±12 LM4040QCEM3 TA=TJ=TMINtoTMAX ±38 VR ReverseBreakdown LM4040DEM3 TA=TJ=25°C ±25 VoltageTolerance(3) IR=100μA LM4040QDEM3 TA=TJ=TMINtoTMAX ±63 mV LM4040EEM3 TA=TJ=25°C ±50 LM4040QEEM3 TA=TJ=TMINtoTMAX ±88 LM4040CEM3 TA=TJ=25°C 45 60 LM4040QCEM3 TA=TJ=TMINtoTMAX 68 MinimumOperating LM4040DEM3 TA=TJ=25°C 45 65 IRMIN Current LM4040QDEM3 TA=TJ=TMINtoTMAX 73 μA LM4040EEM3 TA=TJ=25°C 45 65 LM4040QEEM3 TA=TJ=TMINtoTMAX 73 AverageReverse IR=10mA ±20 BreakdownVoltage Temperature LM4040CEM3 TA=TJ=25°C ±15 Coefficient(3) LM4040QCEM3 TA=TJ=TMINtoTMAX ±100 LM4040DEM3 TA=TJ=25°C ±15 ΔVR/ΔT IR=1mA LM4040QDEM3 ppm/°C TA=TJ=TMINtoTMAX ±150 LM4040EEM3 TA=TJ=25°C ±15 LM4040QEEM3 TA=TJ=TMINtoTMAX ±150 IR=100μA ±15 LM4040CEM3 TA=TJ=25°C 0.3 0.8 LM4040QCEM3 TA=TJ=TMINtoTMAX 1 LM4040DEM3 TA=TJ=25°C 0.3 1 IRMIN≤IR≤1mA LM4040QDEM3 TA=TJ=TMINtoTMAX 1.2 LM4040EEM3 TA=TJ=25°C 0.3 1 ReverseBreakdown ΔVR/ΔI VoltageChange LM4040QEEM3 TA=TJ=TMINtoTMAX 1.2 mV R wCiuthrreOnpteCrahtainngge(4) LM4040CEM3 TA=TJ=25°C 2.5 6 LM4040QCEM3 TA=TJ=TMINtoTMAX 8 LM4040DEM3 TA=TJ=25°C 2.5 8 1mA≤IR≤15mA LM4040QDEM3 TA=TJ=TMINtoTMAX 10 LM4040EEM3 TA=TJ=25°C 2.5 8 LM4040QEEM3 TA=TJ=TMINtoTMAX 10 (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) TheovertemperaturelimitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 15 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com Electrical Characteristics: 2.5-V LM4040-N V Tolerance Grades 'C', 'D', And 'E'; Temperature R Grade 'E' (AEC Grade 1) (continued) allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT LM4040CEM3 0.3 0.9 LM4040QCEM3 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, LLMM44004400DQEDMEM33 0.3 1.1 Ω LM4040EEM3 0.3 1.1 LM4040QEEM3 eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 35 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA Thermal VHYST Hysteresis(5) ΔT=−40°Cto125°C 0.08% (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. 16 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 6.11 Electrical Characteristics: 3-V LM4040-N V Tolerance Grades 'A' And 'B'; Temperature R Grade 'I' allotherlimitsT =T =25°C.ThegradesAandBdesignateinitialReverseBreakdownVoltagetolerancesof±0.1%and A J ±0.2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 3 V LM4040AIM3 TA=TJ=25°C ±3 VR ReverseBreakdown LM4040AIZ TA=TJ=TMINtoTMAX ±22 VoltageTolerance(3) IR=100μA LM4040BIM3 TA=TJ=25°C ±6 mV LM4040BIZ LM4040BIM7 TA=TJ=TMINtoTMAX ±26 MinimumOperating TA=TJ=25°C 47 62 IRMIN Current TA=TJ=TMINtoTMAX 67 μA IR=10mA ±20 AverageReverse BreakdownVoltage TA=TJ=25°C ±15 ΔVR/ΔT TCeomefpfiecireantut(r3e) IR=1mA TA=TJ=TMINtoTMAX ±100 ppm/°C IR=100μA ±15 TA=TJ=25°C 0.6 0.8 ReverseBreakdown IRMIN≤IR≤1mA ΔVR/ΔI VoltageChangewith TA=TJ=TMINtoTMAX 1.1 mV R OChpaenragtein(4g)Current 1mA≤IR≤15mA TA=TJ=25°C 2.7 6 TA=TJ=TMINtoTMAX 9 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, 0.4 0.9 Ω eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 35 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA VHYST ThermalHysteresis(5) ΔT=−40°Cto125°C 0.08% (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) TheovertemperaturelimitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 17 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 6.12 Electrical Characteristics: 3-V LM4040-N V Tolerance Grades 'C', 'D', And 'E'; R Temperature Grade 'I' allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown IR=100μA 3 V Voltage LM4040CIM3 TA=TJ=25°C ±15 LM4040CIZ LM4040CIM7 TA=TJ=TMINtoTMAX ±34 VR ReverseBreakdown LM4040DIM3 TA=TJ=25°C ±30 VoltageTolerance(3) IR=100μA LM4040DIZ mV LM4040DIM7 TA=TJ=TMINtoTMAX ±59 LM4040EIM7 TA=TJ=25°C ±60 LM4040EIZ TA=TJ=TMINtoTMAX ±89 LM4040CIM3 TA=TJ=25°C 45 60 LM4040CIZ LM4040CIM7 TA=TJ=TMINtoTMAX 65 MinimumOperating LM4040DIM3 TA=TJ=25°C 45 65 IRMIN Current LM4040DIZ μA LM4040DIM7 TA=TJ=TMINtoTMAX 70 LM4040EIM7 TA=TJ=25°C 45 65 LM4040EIZ TA=TJ=TMINtoTMAX 70 IR=10mA ±20 LM4040CIM3 TA=TJ=25°C ±15 LM4040CIZ LM4040CIM7 TA=TJ=TMINtoTMAX ±100 AverageReverse BreakdownVoltage LM4040DIM3 TA=TJ=25°C ±15 ΔVR/ΔT Temperature IR=1mA LM4040DIZ ppm/°C Coefficient(3) LM4040DIM7 TA=TJ=TMINtoTMAX ±150 LM4040EIM7 TA=TJ=25°C ±15 LM4040EIZ TA=TJ=TMINtoTMAX ±150 IR=100μA ±15 (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) TheovertemperaturelimitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. 18 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 Electrical Characteristics: 3-V LM4040-N V Tolerance Grades 'C', 'D', And 'E'; Temperature R Grade 'I' (continued) allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT LM4040CIM3 TA=TJ=25°C 0.4 0.8 LM4040CIZ LM4040CIM7 TA=TJ=TMINtoTMAX 1.1 LM4040DIM3 TA=TJ=25°C 0.4 1.1 IRMIN≤IR≤1mA LM4040DIZ LM4040DIM7 TA=TJ=TMINtoTMAX 1.3 LM4040EIM7 TA=TJ=25°C 0.4 1.1 ReverseBreakdown ΔVR/ΔI VoltageChange LM4040EIZ TA=TJ=TMINtoTMAX 1.3 mV R wCiuthrreOnpteCrahtainngge(4) LLMM44004400CCIIMZ3 TA=TJ=25°C 2.7 6 LM4040CIM7 TA=TJ=TMINtoTMAX 9 LM4040DIM3 TA=TJ=25°C 2.7 8 1mA≤IR≤15mA LM4040DIZ LM4040DIM7 TA=TJ=TMINtoTMAX 11 LM4040EIM7 TA=TJ=25°C 2.7 8 LM4040EIZ TA=TJ=TMINtoTMAX 11 LM4040CIM3 LM4040CIZ 0.4 0.9 LM4040CIM7 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz LLMM44004400DDIIMZ3 0.4 1.2 Ω LM4040DIM7 LM4040EIM7 0.4 1.2 LM4040EIZ eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 35 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA Thermal VHYST Hysteresis(5) ΔT=−40°Cto125°C 0.08% (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 19 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 6.13 Electrical Characteristics: 3-V LM4040-N V Tolerance Grades 'C', 'D', And 'E'; R Temperature Grade 'E' allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 3 V TA=TJ=25°C ±15 LM4040CEM3 TA=TJ=TMINtoTMAX ±45 VR ReverseBreakdown TA=TJ=25°C ±30 VoltageTolerance(3) IR=100μA LM4040DEM3 TA=TJ=TMINtoTMAX ±75 mV TA=TJ=25°C ±60 LM4040EEM3 TA=TJ=TMINtoTMAX ±105 TA=TJ=25°C 47 62 LM4040CEM3 TA=TJ=TMINtoTMAX 70 MinimumOperating TA=TJ=25°C 47 67 IRMIN Current LM4040DEM3 TA=TJ=TMINtoTMAX 75 μA TA=TJ=25°C 47 67 LM4040EEM3 TA=TJ=TMINtoTMAX 75 IR=10mA ±20 TA=TJ=25°C ±15 LM4040CEM3 TA=TJ=TMINtoTMAX ±100 AverageReverse BreakdownVoltage TA=TJ=25°C ±15 ΔVR/ΔT TCeomefpfiecireantut(r3e) IR=1mA LM4040DEM3 TA=TJ=TMINtoTMAX ±150 ppm/°C TA=TJ=25°C ±15 LM4040EEM3 TA=TJ=TMINtoTMAX ±150 IR=100μA ±15 TA=TJ=25°C 0.4 0.8 LM4040CEM3 TA=TJ=TMINtoTMAX 1.1 TA=TJ=25°C 0.4 1.1 IRMIN≤IR≤1mA LM4040DEM3 TA=TJ=TMINtoTMAX 1.3 TA=TJ=25°C 0.4 1.1 ReverseBreakdown LM4040EEM3 VoltageChange TA=TJ=TMINtoTMAX 1.3 ΔVR/ΔIR wCiuthrreOnpteCrahtainngge(4) LM4040CEM3 TA=TJ=25°C 2.7 6.0 mV TA=TJ=TMINtoTMAX 9 TA=TJ=25°C 2.7 8 1mA≤IR≤15mA LM4040DEM3 TA=TJ=TMINtoTMAX 11.0 TA=TJ=25°C 2.7 8 LM4040EEM3 TA=TJ=TMINtoTMAX 11.0 (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) The(overtemperature)limitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. 20 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 Electrical Characteristics: 3-V LM4040-N V Tolerance Grades 'C', 'D', And 'E'; Temperature R Grade 'E' (continued) allotherlimitsT =T =25°C.ThegradesC,DandEdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%,±1% A J and±2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT LM4040CEM3 0.4 0.9 ReverseDynamic IR=1mA,f=120 ZR Impedance Hz, LM4040DEM3 0.4 1.2 Ω IAC=0.1IR LM4040EEM3 0.4 1.2 eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 35 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA Thermal VHYST Hysteresis(5) ΔT=−40°Cto125°C 0.08% (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. 6.14 Electrical Characteristics: 4.1-V LM4040-N V Tolerance Grades 'A' And 'B'; Temperature R Grade 'I' allotherlimitsT =T =25°C.ThegradesAandBdesignateinitialReverseBreakdownVoltagetolerancesof±0.1%and A J ±0.2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 4.096 V LM4040AIM3 TA=TJ=25°C ±4.1 VR ReverseBreakdown LM4040AIZ TA=TJ=TMINtoTMAX ±31 VoltageTolerance(3) IR=100μA LM4040BIM3 TA=TJ=25°C ±8.2 mV LM4040BIZ LM4040BIM7 TA=TJ=TMINtoTMAX ±35 MinimumOperating TA=TJ=25°C 50 68 IRMIN Current TA=TJ=TMINtoTMAX 73 μA IR=10mA ±30 AverageReverse BreakdownVoltage TA=TJ=25°C ±20 ΔVR/ΔT TCeomefpfiecireantut(r3e) IR=1mA TA=TJ=TMINtoTMAX ±100 ppm/°C IR=100μA ±20 TA=TJ=25°C 0.5 0.9 ReverseBreakdown IRMIN≤IR≤1mA ΔVR/ΔI VoltageChangewith TA=TJ=TMINtoTMAX 1.2 mV R OChpaenragtein(4g)Current 1mA≤IR≤15mA TA=TJ=25°C 3 7 TA=TJ=TMINtoTMAX 10 (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) The(overtemperature)limitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 21 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com Electrical Characteristics: 4.1-V LM4040-N V Tolerance Grades 'A' And 'B'; Temperature Grade R 'I' (continued) allotherlimitsT =T =25°C.ThegradesAandBdesignateinitialReverseBreakdownVoltagetolerancesof±0.1%and A J ±0.2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, 0.5 1 Ω eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 80 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA VHYST ThermalHysteresis(5) ΔT=−40°Cto125°C 0.08% (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. 6.15 Electrical Characteristics: 4.1-V LM4040-N V Tolerance Grades 'C' and 'D'; Temperature R Grade 'I' allotherlimitsT =T =25°C.ThegradesCandDdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%and A J ±1%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 4.096 V LM4040CIM3 TA=TJ=25°C ±20 LM4040CIZ VR ReverseBreakdown LM4040CIM7 TA=TJ=TMINtoTMAX ±47 VoltageTolerance(3) IR=100μA LM4040DIM3 TA=TJ=25°C ±41 mV LM4040DIZ LM4040DIM7 TA=TJ=TMINtoTMAX ±81 LM4040CIM3 TA=TJ=25°C 50 68 LM4040CIZ MinimumOperating LM4040CIM7 TA=TJ=TMINtoTMAX 73 IRMIN Current LM4040DIM3 TA=TJ=25°C 50 73 μA LM4040DIZ LM4040DIM7 TA=TJ=TMINtoTMAX 78 IR=10mA ±30 LM4040CIM3 TA=TJ=25°C ±20 AverageReverse LM4040CIZ ΔΔVTR/ BTCeroemeafpkfiecdiroeawntutn(r3eV)oltage IR=1mA LLLMMM444000444000CDDIIIMMZ73 TTAA==TTJJ==T25M°INCtoTMAX ±20 ±100 ppm/°C LM4040DIM7 TA=TJ=TMINtoTMAX ±150 IR=100μA ±20 (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) The(overtemperature)limitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. 22 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 Electrical Characteristics: 4.1-V LM4040-N V Tolerance Grades 'C' and 'D'; Temperature Grade R 'I' (continued) allotherlimitsT =T =25°C.ThegradesCandDdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%and A J ±1%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT LM4040CIM3 TA=TJ=25°C 0.5 0.9 LM4040CIZ LM4040CIM7 TA=TJ=TMINtoTMAX 1.2 IRMIN≤IR≤1mA LM4040DIM3 TA=TJ=25°C 0.5 1.2 ReverseBreakdown LM4040DIZ ΔVR/ VoltageChangewith LM4040DIM7 TA=TJ=TMINtoTMAX 1.5 mV ΔIR OChpaenragtein(4g)Current LLMM44004400CCIIMZ3 TA=TJ=25°C 3 7 LM4040CIM7 TA=TJ=TMINtoTMAX 10 1mA≤IR≤15mA LM4040DIM3 TA=TJ=25°C 3 9 LM4040DIZ LM4040DIM7 TA=TJ=TMINtoTMAX 13 LM4040CIM3 LM4040CIZ 0.5 1 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, LLMM44004400CDIIMM73 Ω LM4040DIZ 0.5 1.3 LM4040DIM7 eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 80 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA VHYST ThermalHysteresis(5) ΔT=−40°Cto125°C 0.08% (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. 6.16 Electrical Characteristics: 5-V LM4040-N V Tolerance Grades 'A' And 'B'; Temperature R Grade 'I' allotherlimitsT =T =25°C.ThegradesAandBdesignateinitialReverseBreakdownVoltagetolerancesof±0.1%and A J ±0.2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 5 V LM4040AIM3 TA=TJ=25°C ±5 VR ReverseBreakdown LM4040AIZ TA=TJ=TMINtoTMAX ±38 VoltageTolerance(3) IR=100μA LM4040BIM3 TA=TJ=25°C ±10 mV LM4040BIZ LM4040BIM7 TA=TJ=TMINtoTMAX ±43 (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) The(overtemperature)limitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 23 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com Electrical Characteristics: 5-V LM4040-N V Tolerance Grades 'A' And 'B'; Temperature Grade R 'I' (continued) allotherlimitsT =T =25°C.ThegradesAandBdesignateinitialReverseBreakdownVoltagetolerancesof±0.1%and A J ±0.2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT MinimumOperating TA=TJ=25°C 54 74 IRMIN Current TA=TJ=TMINtoTMAX 80 μA IR=10mA ±30 AverageReverse ΔVTR/Δ BTCeroemeafpkfiecdiroeawntutn(r3eV)oltage IR=1mA TTAA==TTJJ==2T5M°INCtoTMAX ±20 ±100 ppm/°C IR=100μA ±20 TA=TJ=25°C 0.5 1 ReverseBreakdown IRMIN≤IR≤1mA ΔVR/Δ VoltageChangewith TA=TJ=TMINtoTMAX 1.4 mV IR OChpaenragtein(4g)Current 1mA≤IR≤15mA TA=TJ=25°C 3.5 8 TA=TJ=TMINtoTMAX 12 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, 0.5 1.1 Ω eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 80 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA VHYST ThermalHysteresis(5) ΔT=−40°Cto125°C 0.08% (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. 6.17 Electrical Characteristics: 5-V LM4040-N V Tolerance Grades 'C' And 'D'; Temperature R Grade 'I' allotherlimitsT =T =25°C.ThegradesCandDdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%and A J ±1%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 5 V LM4040CIM3 TA=TJ=25°C ±25 LM4040CIZ VR ReverseBreakdown LM4040CIM7 TA=TJ=TMINtoTMAX ±58 VoltageTolerance(3) IR=100μA LM4040DIM3 TA=TJ=25°C ±50 mV LM4040DIZ LM4040DIM7 TA=TJ=TMINtoTMAX ±99 (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) The(overtemperature)limitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. 24 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 Electrical Characteristics: 5-V LM4040-N V Tolerance Grades 'C' And 'D'; Temperature Grade R 'I' (continued) allotherlimitsT =T =25°C.ThegradesCandDdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%and A J ±1%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT LM4040CIM3 TA=TJ=25°C 54 74 LM4040CIZ MinimumOperating LM4040CIM7 TA=TJ=TMINtoTMAX 80 IRMIN Current LM4040DIM3 TA=TJ=25°C 54 79 μA LM4040DIZ LM4040DIM7 TA=TJ=TMINtoTMAX 85 IR=10mA ±30 LM4040CIM3 TA=TJ=25°C ±20 AverageReverse LM4040CIZ ΔVTR/Δ BTCeroemeafpkfiecdiroeawntutn(r3eV)oltage IR=1mA LLLMMM444000444000CDDIIIMMZ73 TTAA==TTJJ==T25M°INCtoTMAX ±20 ±100 ppm/°C LM4040DIM7 TA=TJ=TMINtoTMAX ±150 IR=100μA ±20 LM4040CIM3 TA=TJ=25°C 0.5 1 LM4040CIZ LM4040CIM7 TA=TJ=TMINtoTMAX 1.4 IRMIN≤IR≤1mA LM4040DIM3 TA=TJ=25°C 0.5 1.3 ReverseBreakdown LM4040DIZ ΔVR/Δ VoltageChangewith LM4040DIM7 TA=TJ=TMINtoTMAX 1.8 mV IR OChpaenragtein(4g)Current LLMM44004400CCIIMZ3 TA=TJ=25°C 3.5 8 LM4040CIM7 TA=TJ=TMINtoTMAX 12 1mA≤IR≤15mA LM4040DIM3 TA=TJ=25°C 3.5 10 LM4040DIZ LM4040DIM7 TA=TJ=TMINtoTMAX 15 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, TTAA==TTJJ==2T5M°INCtoTMAX 0.5 11..15 Ω eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 80 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA VHYST ThermalHysteresis(5) ΔT=−40°Cto125°C 0.08% (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 25 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 6.18 Electrical Characteristics: 5-V LM4040-N V Tolerance Grades 'C' And 'D'; Temperature R Grade 'E' allotherlimitsT =T =25°C.ThegradesCandDdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%and A J ±1%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP MAX(1) UNIT ReverseBreakdown Voltage IR=100μA 5 V TA=TJ=25°C ±25 VR ReverseBreakdown LM4040CEM3 TA=TJ=TMINtoTMAX ±75 VoltageTolerance(2) IR=100μA TA=TJ=25°C ±50 mV LM4040DEM3 TA=TJ=TMINtoTMAX ±125 TA=TJ=25°C 54 74 LM4040CEM3 MinimumOperating TA=TJ=TMINtoTMAX 83 IRMIN Current TA=TJ=25°C 54 79 μA LM4040DEM3 TA=TJ=TMINtoTMAX 88 IR=10mA ±30 TA=TJ=25°C ±20 AverageReverse LM4040CEM3 ΔΔVTR/ BTCeroemeafpkfiecdiroeawntutn(r2eV)oltage IR=1mA LM4040DEM3 TTAA==TTJJ==T25M°INCtoTMAX ±20 ±100 ppm/°C TA=TJ=TMINtoTMAX ±150 IR=100μA ±20 TA=TJ=25°C 0.5 1 LM4040CEM3 TA=TJ=TMINtoTMAX 1.4 IRMIN≤IR≤1mA TA=TJ=25°C 0.5 1 ReverseBreakdown LM4040DEM3 ΔVR/ VoltageChangewith TA=TJ=TMINtoTMAX 1.8 mV ΔIR OChpaenragtein(3g)Current LM4040CEM3 TA=TJ=25°C 3.5 8 TA=TJ=TMINtoTMAX 12 1mA≤IR≤15mA TA=TJ=25°C 3.5 8 LM4040DEM3 TA=TJ=TMINtoTMAX 15 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, 0.5 1.1 Ω eN WidebandNoise I1R0=H1z0≤0fμ≤A10kHz 80 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=100μA VHYST ThermalHysteresis(4) ΔT=−40°Cto125°C 0.08% (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) The(overtemperature)limitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. (3) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (4) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. 26 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 6.19 Electrical Characteristics: 8.2-V LM4040-N V Tolerance Grades 'A' And 'B'; Temperature R Grade 'I' allotherlimitsT =T =25°C.ThegradesAandBdesignateinitialReverseBreakdownVoltagetolerancesof±0.1%and A J ±0.2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=150μA 8.192 V LM4040AIM3 TA=TJ=25°C ±8.2 VR ReverseBreakdown LM4040AIZ TA=TJ=TMINtoTMAX ±61 VoltageTolerance(3) IR=150μA LM4040BIM3 TA=TJ=25°C ±16 mV LM4040BIZ TA=TJ=TMINtoTMAX ±70 MinimumOperating TA=TJ=25°C 67 91 IRMIN Current TA=TJ=TMINtoTMAX 95 μA IR=10mA ±40 AverageReverse BreakdownVoltage TA=TJ=25°C ±20 ΔVR/ΔT TCeomefpfiecireantut(r3e) IR=1mA TA=TJ=TMINtoTMAX ±100 ppm/°C IR=150μA ±20 TA=TJ=25°C 0.6 1.3 ReverseBreakdown IRMIN≤IR≤1mA ΔVR/ΔI VoltageChangewith TA=TJ=TMINtoTMAX 2.5 mV R OChpaenragtein(4g)Current 1mA≤IR≤15mA TA=TJ=25°C 7 10 TA=TJ=TMINtoTMAX 18 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, 0.6 1.5 Ω eN WidebandNoise I1R0=H1z5≤0fμ≤A10kHz 130 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=150μA VHYST ThermalHysteresis(5) ΔT=−40°Cto125°C 0.08% (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) The(overtemperature)limitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 27 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 6.20 Electrical Characteristics: 8.2-V Lm4040-N V Tolerance Grades 'C' And 'D'; Temperature R Grade 'I' allotherlimitsT =T =25°C.ThegradesCandDdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%and A J ±1%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=150μA 8.192 V LM4040CIM3 TA=TJ=25°C ±41 VR ReverseBreakdown LM4040CIZ TA=TJ=TMINtoTMAX ±94 VoltageTolerance(3) IR=150μA LM4040DIM3 TA=TJ=25°C ±82 mV LM4040DIZ TA=TJ=TMINtoTMAX ±162 LM4040CIM3 TA=TJ=25°C 67 91 MinimumOperating LM4040CIZ TA=TJ=TMINtoTMAX 95 IRMIN Current LM4040DIM3 TA=TJ=25°C 67 96 μA LM4040DIZ TA=TJ=TMINtoTMAX 100 IR=10mA ±40 LM4040CIM3 TA=TJ=25°C ±20 AverageReverse BreakdownVoltage LM4040CIZ TA=TJ=TMINtoTMAX ±100 ΔVR/ΔT TCeomefpfiecireantut(r3e) IR=1mA LM4040DIM3 TA=TJ=25°C ±20 ppm/°C LM4040DIZ TA=TJ=TMINtoTMAX ±150 IR=150μA ±20 LM4040CIM3 TA=TJ=25°C 0.6 1.3 LM4040CIZ TA=TJ=TMINtoTMAX 2.5 IRMIN≤IR≤1mA LM4040DIM3 TA=TJ=25°C 0.6 1.7 ReverseBreakdown ΔVR/ΔI VoltageChangewith LM4040DIZ TA=TJ=TMINtoTMAX 3 mV R OChpaenragtein(4g)Current LM4040CIM3 TA=TJ=25°C 7 10 LM4040CIZ TA=TJ=TMINtoTMAX 18 1mA≤IR≤15mA LM4040DIM3 TA=TJ=25°C 7 15 LM4040DIZ TA=TJ=TMINtoTMAX 24 LM4040CIM3 0.6 1.5 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, LLMM44004400CDIIZM3 Ω 0.6 1.9 LM4040DIZ eN WidebandNoise I1R0=H1z5≤0fμ≤A10kHz 130 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=150μA VHYST ThermalHysteresis(5) ΔT=−40°Cto125°C 0.08% (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) The(overtemperature)limitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. 28 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 6.21 Electrical Characteristics: 10-V LM4040-N V Tolerance Grades 'A' And 'B'; Temperature R Grade 'I' allotherlimitsT =T =25°C.ThegradesAandBdesignateinitialReverseBreakdownVoltagetolerancesof±0.1%and A J ±0.2%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown Voltage IR=150μA 10 V LM4040AIM3 TA=TJ=25°C ±10 VR ReverseBreakdown LM4040AIZ TA=TJ=TMINtoTMAX ±75 VoltageTolerance(3) IR=150μA LM4040BIM3 TA=TJ=25°C ±20 mV LM4040BIZ TA=TJ=TMINtoTMAX ±85 MinimumOperating TA=TJ=25°C 75 100 IRMIN Current TA=TJ=TMINtoTMAX 103 μA IR=10mA ±40 AverageReverse BreakdownVoltage TA=TJ=25°C ±20 ΔVR/ΔT TCeomefpfiecireantut(r3e) IR=1mA TA=TJ=TMINtoTMAX ±100 ppm/°C IR=150μA ±20 TA=TJ=25°C 0.8 1.5 ReverseBreakdown IRMIN≤IR≤1mA ΔVR/ΔI VoltageChangewith TA=TJ=TMINtoTMAX 3.5 mV R OChpaenragtein(4g)Current 1mA≤IR≤15mA TA=TJ=25°C 8 12 TA=TJ=TMINtoTMAX 23 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, 0.7 1.7 Ω eN WidebandNoise I1R0=H1z5≤0fμ≤A10kHz 180 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=150μA VHYST ThermalHysteresis(5) ΔT=−40°Cto125°C 0.08% (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) The(overtemperature)limitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 29 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 6.22 Electrical Characteristics: 10-V LM4040-N V Tolerance Grades 'C' And 'D'; Temperature R Grade 'I' allotherlimitsT =T =25°C.ThegradesCandDdesignateinitialReverseBreakdownVoltagetolerancesof±0.5%and A J ±1%,respectively. PARAMETER TESTCONDITIONS MIN(1) TYP(2) MAX(1) UNIT ReverseBreakdown IR=150μA 10 V Voltage LM4040CIM3 TA=TJ=25°C ±50 VR ReverseBreakdown LM4040CIZ TA=TJ=TMINtoTMAX ±115 VoltageTolerance(3) IR=150μA LM4040DIM3 TA=TJ=25°C ±100 mV LM4040DIZ TA=TJ=TMINtoTMAX ±198 LM4040CIM3 TA=TJ=25°C 75 100 MinimumOperating LM4040CIZ TA=TJ=TMINtoTMAX 103 IRMIN Current LM4040DIM3 TA=TJ=25°C 75 110 μA LM4040DIZ TA=TJ=TMINtoTMAX 113 IR=10mA ±40 LM4040CIM3 TA=TJ=25°C ±20 AverageReverse BreakdownVoltage LM4040CIZ TA=TJ=TMINtoTMAX ±100 ΔVR/ΔT TCeomefpfiecireantut(r3e) IR=1mA LM4040DIM3 TA=TJ=25°C ±20 ppm/°C LM4040DIZ TA=TJ=TMINtoTMAX ±150 IR=150μA ±20 LM4040CIM3 TA=TJ=25°C 0.8 1.5 LM4040CIZ TA=TJ=TMINtoTMAX 3.5 IRMIN≤IR≤1mA LM4040DIM3 TA=TJ=25°C 0.8 2 ReverseBreakdown ΔVR/ΔI VoltageChangewith LM4040DIZ TA=TJ=TMINtoTMAX 4 mV R OChpaenragtein(4g)Current LM4040CIM3 TA=TJ=25°C 8 12 LM4040CIZ TA=TJ=TMINtoTMAX 23 1mA≤IR≤15mA LM4040DIM3 TA=TJ=25°C 8 18 LM4040DIZ TA=TJ=TMINtoTMAX 29 LM4040CIM3 0.7 1.7 ZR RImepveedrsaencDeynamic IIRAC==10m.1AI,Rf=120Hz, LLMM44004400CDIIZM3 Ω 2.3 LM4040DIZ eN WidebandNoise I1R0=H1z5≤0fμ≤A10kHz 180 μVrms ReverseBreakdown t=1000hrs ΔVR VoltageLongTerm T=25°C±0.1°C 120 ppm Stability IR=150μA VHYST ThermalHysteresis(5) ΔT=−40°Cto125°C 0.08% (1) Limitsare100%productiontestedat25°C.LimitsovertemperatureareensuredthroughcorrelationusingStatisticalQualityControl (SQC)methods.ThelimitsareusedtocalculateAOQL. (2) TypicalsareatT =25°Candrepresentmostlikelyparametricnorm. J (3) The(overtemperature)limitforReverseBreakdownVoltageToleranceisdefinedastheroomtemperatureReverseBreakdownVoltage Tolerance±[(ΔV /ΔT)(maxΔT)(V )].Where,ΔV /ΔTistheV temperaturecoefficient,maxΔTisthemaximumdifferenceintemperature R R R R fromthereferencepointof25°CtoT orT ,andV isthereversebreakdownvoltage.Thetotalovertemperaturetoleranceforthe MIN MAX R differentgradesintheindustrialtemperaturerangewheremaxΔT=65°Cisshownbelow: A-grade:±0.75%=±0.1%±100ppm/°C×65°C B-grade:±0.85%=±0.2%±100ppm/°C×65°C C-grade:±1.15%=±0.5%±100ppm/°C×65°C D-grade:±1.98%=±1.0%±150ppm/°C×65°C E-grade:±2.98%=±2.0%±150ppm/°C×65°C ThetotalovertemperaturetoleranceforthedifferentgradesintheextendedtemperaturerangewheremaxΔT=100°Cisshownbelow: C-grade:±1.5%=±0.5%±100ppm/°C×100°C D-grade:±2.5%=±1.0%±150ppm/°C×100°C E-grade:±3.5%=±2.0%±150ppm/°C×100°C Therefore,asanexample,theA-grade2.5-VLM4040-NhasanovertemperatureReverseBreakdownVoltagetoleranceof±2.5V× 0.75%=±19mV. (4) Loadregulationismeasuredonpulsebasisfromnoloadtothespecifiedloadcurrent.Outputchangesduetodietemperaturechange mustbetakenintoaccountseparately. (5) Thermalhysteresisisdefinedasthedifferenceinvoltagemeasuredat+25°Caftercyclingtotemperature-40°Candthe25°C measurementaftercyclingtotemperature125°C. 30 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 6.23 Typical Characteristics Figure1.TemperatureDriftForDifferentAverage Figure2.OutputImpedancevsFrequency TemperatureCoefficient Figure3.OutputImpedancevsFrequency Figure4.ReverseCharacteristicsAndMinimumOperating Current Figure5.NoiseVoltagevsFrequency Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 31 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 6.23.1 Start-UpCharacteristics R =30k R =30k S S Figure6.InputVoltageStepResponseLM4040-N-2.5 Figure7.InputVoltageStepResponseLM4040-N-5 R =30k S Figure8.InputVoltageStepResponseLM4040-N-10 7 Parameter Measurement Information Figure9. TestCircuit 32 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 8 Detailed Description 8.1 Overview The LM4040 device is a precision micropower shunt voltage reference available in 7 different fixed-output voltage options and three different packages to meet small footprint requirements. The part is also available in fivedifferenttolerancegrades. 8.2 Functional Block Diagram 8.3 Feature Description The LM4040 device is effectively a precision Zener diode. The part requires a small quiescent current for regulation, and regulates the output voltage by shunting more or less current to ground, depending on input voltage and load. The only external component requirement is a resistor between the cathode and the input voltagetosettheinputcurrent.Anexternalcapacitorcanbeusedontheinputoroutput,butisnotrequired. 8.4 Device Functional Modes The LM4040 device is a fixed output voltage part, where the feedback is internal. Therefore, the part can only operate is a closed loop mode and the output voltage cannot be adjusted. The output voltage will remain in regulation as long as I is between I , see Electrical Characteristics: 2-V LM4040-N V Tolerance Grades 'A' R RMIN R And 'B'; Temperature Grade 'I', and I , 15 mA. Proper selection of the external resistor for input voltage range RMAX andloadcurrentrangewillensuretheseconditionsaremet. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 33 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 9 Application and Implementation NOTE Information in the following applications sections is not part of the TI component specification, and TI does not warrant its accuracy or completeness. TI’s customers are responsible for determining suitability of components for their purposes. Customers should validateandtesttheirdesignimplementationtoconfirmsystemfunctionality. 9.1 Application Information The LM4040-N is a precision micropower curvature-corrected bandgap shunt voltage reference. For space critical applications, the LM4040-N is available in the sub-miniature SOT-23 and SC70 surface-mount package. The LM4040-N has been designed for stable operation without the need of an external capacitor connected between the + pin and the − pin. If, however, a bypass capacitor is used, the LM4040-N remains stable. Reducing design effort is the availability of several fixed reverse breakdown voltages: 2.048 V, 2.5 V, 3 V, 4.096 V, 5 V, 8.192 V, and 10 V. The minimum operating current increases from 60 µA for the LM4040-N-2.048 and LM4040-N-2.5to100μAforthe10-VLM4040-N.Allversionshaveamaximumoperatingcurrentof15mA. LM4040-Ns in the SOT-23 packages have a parasitic Schottky diode between pin 2 (−) and pin 3 (Die attach interfacecontact).Therefore,pin3oftheSOT-23packagemustbeleftfloatingorconnectedtopin2. LM4040-Ns in the SC70 have a parasitic Schottky diode between pin 1 (−) and pin 2 (Die attach interface contact).Therefore,pin2mustbeleftfloatingorconnectedtopin1. The 4.096-V version allows single 5-V 12-bit ADCs or DACs to operate with an LSB equal to 1 mV. For 12-bit ADCsorDACsthatoperateonsuppliesof10Vorgreater,the8.192-Vversiongives2mVperLSB. The typical thermal hysteresis specification is defined as the change in 25°C voltage measured after thermal cycling. The device is thermal cycled to temperature –40°C and then measured at 25°C. Next the device is thermal cycled to temperature 125°C and again measured at 25°C. The resulting V delta shift between the OUT 25°C measurements is thermal hysteresis. Thermal hysteresis is common in precision references and is induced by thermal-mechanical package stress. Changes in environmental storage temperature, operating temperature andboardmountingtemperatureareallfactorsthatcancontributetothermalhysteresis. In a conventional shunt regulator application (Figure 10) , an external series resistor (R ) is connected between S the supply voltage and the LM4040-N. R determines the current that flows through the load (I ) and the S L LM4040-N (I ). Since load current and supply voltage may vary, R should be small enough to supply at least Q S the minimum acceptable I to the LM4040-N even when the supply voltage is at its minimum and the load Q current is at its maximum value. When the supply voltage is at its maximum and I is at its minimum, R should L S belargeenoughsothatthecurrentflowingthroughtheLM4040-Nislessthan15mA. R is determined by the supply voltage, (V ), the load and operating current, (I and I ), and the LM4040-N's S S L Q reversebreakdownvoltage,V . R (1) 9.2 Typical Applications 9.2.1 ShuntRegulator Figure10. ShuntRegulatorSchematic 34 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 Typical Applications (continued) 9.2.1.1 DesignRequirements V >V IN OUT SelectR suchthat: S I <I <I whereI =15mA RMIN R RMAX RMAX SeeElectricalCharacteristics:2-VLM4040-NV ToleranceGrades'A'And 'B';TemperatureGrade 'I' R forminimumoperatingcurrentforeachvoltageoptionandgrade. 9.2.1.2 DetailedDesignProcedure The resistor R must be selected such that current IR will remain in the operational region of the part for the S entire V range and load current range. The two extremes to consider are V at its minimum, and the load at its IN IN maximum, where R must be small enough for I to remain above I . The other extreme is V at its S R RMIN IN maximum, and the load at its minimum, where R must be large enough to maintain I < I . For most S R RMAX designs,0.1mA≤ I ≤ 1mAisagoodstartingpoint. R UseEquation2andEquation3tosetR betweenR andR . S S_MIN S_MAX V -V R = IN_MAX OUT S_MIN I +I LOAD_MIN R_MAX (2) V -V R = IN_MIN OUT S_MAX I +I LOAD_MAX R_MIN (3) 9.2.1.3 ApplicationCurve Figure11.ReverseCharacteristicsAndMinimumOperatingCurrent Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 35 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com Typical Applications (continued) 9.2.2 4.1-VADCApplication **Ceramicmonolithic *Tantalum Figure12. 4.1-VLM4040-N'SNominal4.096BreakdownVoltageGivesADC124511MV/LSB 9.2.2.1 DesignRequirements Theonlydesignrequirementisforanoutputvoltageof4.096V. 9.2.2.2 DetailedDesignProcedure Using an LM4040-4.1, select an appropriate R to sufficiently power the device. Set the target I for 1 mA. With S R aninputvoltageof5V,theresistorcanbecalculated: 5V-4.096V R= =904W 1mA (4) Theclosestavailableresistanceof909 Ωisusedhere,whichinturnyieldsanI of994 μA. R 36 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 Typical Applications (continued) 9.2.3 BoundedAmplifier Nominalclampingvoltageis±11.5V(LM4040-N'sreversebreakdownvoltage+2diodeV ). F Figure13. BoundedAmplifierReducesSaturation-InducedDelaysand CanPreventSucceedingStageDamage 9.2.3.1 DesignRequirements Designanamplifierwithoutputclampedat ±11.5V. 9.2.3.2 DetailedDesignProcedure With amplifier rails of ±15 V, the output can be bound to ±11.5 V with the LM4040-10 and two nominal diode voltagedropsof0.7V. V =2×VFWD+VZ (5) OUTBound V =1.4V+10V (6) OUTBound SelectR =15kΩ tokeepI low.CalculateI toconfirmRSselection. S R R I =(V –V )/R,howeverinthiscase,thenegativesupplymustbetakenintoaccount. (7) R IN OUT I =(V –V –V )/R=(30V–10V)/(R +R )=20V/30kΩ=0.667mA (8) R IN+ IN- OUT S1 S2 This is an acceptable value for I that will not draw excessive current, but prevents the part from being starved R forcurrent. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 37 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com Typical Applications (continued) 9.2.4 ProtectingOp-AmpInput Theboundingvoltageis±4Vwiththe2.5-VLM4040-N(LM4040-N'sreversebreakdownvoltage+3diodeV ). F Figure14. ProtectingOpAmpInput 9.2.4.1 DesignRequirements Limittheinputvoltagetotheop-ampto ±4V. 9.2.4.2 DetailedDesignProcedure Similar to Bounded Amplifier, this design uses a LM4040-2.5 and three forward diode voltage drops to create a voltage clamp. The procedure for selecting the R resistors, in this case 5 kΩ, is the same as Detailed Design S Procedure. I =(V –V –V )/R=(10V–2.5V)/(R +R )=7.5V/10kΩ=0.750mA (9) R IN+ IN- OUT S1 S2 38 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 Typical Applications (continued) 9.2.5 Precision ±4.096-VReference Figure15. Precision ±4.096-VReference 9.2.5.1 DesignRequirements Useasinglevoltagereferencetocreatepositiveandnegativereferencerails, ±4.096V. 9.2.5.2 DetailedDesignProcedure The procedure for selecting the R resistor is same as detailed in Detailed Design Procedure. The output of the S voltagereferenceisusedastheinvertinginputtotheop-amp,withunitygain. Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 39 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com Typical Applications (continued) 9.2.6 PrecisionCurrentSink/Source Figure16. Precision1-mACurrentSink Figure17. Precision1-mACurrentSource 9.2.6.1 DesignRequirements Createprecision1-mAcurrentsinkand/or1-mAcurrentsource. 9.2.6.2 DetailedDesignProcedure SetR1suchthatthecurrentthroughtheshuntreference,I ,isgreaterthanI . R RMIN I =V /R whereV isthevoltagedropacrosstheshuntreference.Inthiscase, OUT OUT 2 OUT I =2.5/R OUT 2 40 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 10 Power Supply Recommendations While a bypass capacitor is not required on the input voltage line, TI recommends reducing noise on the input whichcouldaffecttheoutput.A0.1-µFceramiccapacitororlargerisrecommended. 11 Layout 11.1 Layout Guidelines Place external components as close to the device as possible. Place RS close the cathode, as well as the input bypasscapacitor,ifused. 11.2 Layout Example R physically close to device cathode S R S C C IN OUT C physically C physically IN OUT close to device close to device Figure18. LayoutDiagram Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 41 ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 SNOS633K–OCTOBER2000–REVISEDJUNE2016 www.ti.com 12 Device and Documentation Support 12.1 Documentation Support 12.1.1 RelatedDocumentation Forrelateddocumentation,seethefollowing: LM4041-N/LM4041-N-Q1PrecisionMicropowerShuntVoltageReference,SNOS641 12.2 Related Links The table below lists quick access links. Categories include technical documents, support and community resources,toolsandsoftware,andquickaccesstosampleorbuy. Table1.RelatedLinks TECHNICAL TOOLS& SUPPORT& PARTS PRODUCTFOLDER SAMPLE&BUY DOCUMENTS SOFTWARE COMMUNITY LM4040-N Clickhere Clickhere Clickhere Clickhere Clickhere LM4040-N-Q1 Clickhere Clickhere Clickhere Clickhere Clickhere LM4040-N-Q1 Clickhere Clickhere Clickhere Clickhere Clickhere 12.3 Community Resources The following links connect to TI community resources. Linked contents are provided "AS IS" by the respective contributors. They do not constitute TI specifications and do not necessarily reflect TI's views; see TI's Terms of Use. TIE2E™OnlineCommunity TI'sEngineer-to-Engineer(E2E)Community.Createdtofostercollaboration amongengineers.Ate2e.ti.com,youcanaskquestions,shareknowledge,exploreideasandhelp solveproblemswithfellowengineers. DesignSupport TI'sDesignSupport QuicklyfindhelpfulE2Eforumsalongwithdesignsupporttoolsand contactinformationfortechnicalsupport. 12.4 Trademarks E2EisatrademarkofTexasInstruments. Allothertrademarksarethepropertyoftheirrespectiveowners. 12.5 Electrostatic Discharge Caution Thesedeviceshavelimitedbuilt-inESDprotection.Theleadsshouldbeshortedtogetherorthedeviceplacedinconductivefoam duringstorageorhandlingtopreventelectrostaticdamagetotheMOSgates. 12.6 Glossary SLYZ022—TIGlossary. Thisglossarylistsandexplainsterms,acronyms,anddefinitions. 13 Mechanical, Packaging, And Orderable Information The following pages include mechanical, packaging, and orderable information. This information is the most current data available for the designated devices. This data is subject to change without notice and revision of thisdocument.Forbrowser-basedversionsofthisdatasheet,refertotheleft-handnavigation. 13.1 SOT-23 and SC70 Package Marking Information Only three fields of marking are possible on the SOT-23's and SC70's small surface. This table gives the meaningofthethreefields. FirstField: 42 SubmitDocumentationFeedback Copyright©2000–2016,TexasInstrumentsIncorporated ProductFolderLinks:LM4040-N LM4040-N-Q1

LM4040-N,LM4040-N-Q1 www.ti.com SNOS633K–OCTOBER2000–REVISEDJUNE2016 SOT-23 and SC70 Package Marking Information (continued) R=Reference SecondField:VoltageOption J=2.048-VVoltageOption 2=2.5-VVoltageOption K=3-VVoltageOption 4=4.096-VVoltageOption 5=5-VVoltageOption 8=8.192-VVoltageOption 0=10-VVoltageOption ThirdField:InitialReverseBreakdownVoltageorReferenceVoltageTolerance A= ±0.1% B= ±0.2% C=+0.5% D=±1.0% E= ±2.0% PARTMARKING FIELDDEFINITION RJA(SOT-23only) Reference,2.048V,±0.1% R2A(SOT-23only) Reference,2.5V,±0.1% RKA(SOT-23only) Reference,3V,±0.1% R4A(SOT-23only) Reference,4.096V,±0.1% R5A(SOT-23only) Reference,5V,±0.1% R8A(SOT-23only) Reference,8.192V,±0.1% R0A(SOT-23only) Reference,10V,±0.1% RJB Reference,2.048V,±0.2% R2B Reference,2.5V,±0.2% RKB Reference,3V,±0.2% R4B Reference,4.096V,±0.2% R5B Reference,5V,±0.2% R8B(SOT-23only) Reference,8.192V,±0.2% R0B(SOT-23only) Reference,10V,±0.2% RJC Reference,2.048V,±0.5% R2C Reference,2.5V,±0.5% RKC Reference,3V,±0.5% R4C Reference,4.096V,±0.5% R5C Reference,5V,±0.5% R8C(SOT-23only) Reference,8.192V,±0.5% R0C(SOT-23only) Reference,10V,±0.5% RJD Reference,2.048V,±1.0% R2D Reference,2.5V,±1.0% RKD Reference,3V,±1.0% R4D Reference,4.096V,±1.0% R5D Reference,5V,±1.0% R8D(SOT-23only) Reference,8.192V,±1.0% R0D(SOT-23only) Reference,10V,±1.0% RJE Reference,2.048V,±2.0% R2E Reference,2.5V,±2.0% RKE Reference,3V,±2.0% Copyright©2000–2016,TexasInstrumentsIncorporated SubmitDocumentationFeedback 43 ProductFolderLinks:LM4040-N LM4040-N-Q1

PACKAGE OPTION ADDENDUM www.ti.com 6-Feb-2020 PACKAGING INFORMATION Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) LM4040AIM3-10.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R0A LM4040AIM3-10.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM -40 to 85 R0A & no Sb/Br) LM4040AIM3-2.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI RJA LM4040AIM3-2.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RJA & no Sb/Br) LM4040AIM3-2.5 ACTIVE SOT-23 DBZ 3 1000 TBD Call TI Call TI R2A LM4040AIM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R2A & no Sb/Br) LM4040AIM3-3.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RKA & no Sb/Br) LM4040AIM3-4.1 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R4A LM4040AIM3-4.1/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R4A & no Sb/Br) LM4040AIM3-5.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R5A LM4040AIM3-5.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R5A & no Sb/Br) LM4040AIM3X-10/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R0A & no Sb/Br) LM4040AIM3X-2.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM RJA & no Sb/Br) LM4040AIM3X-2.5 NRND SOT-23 DBZ 3 3000 TBD Call TI Call TI R2A LM4040AIM3X-2.5/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R2A & no Sb/Br) LM4040AIM3X-3.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM RKA & no Sb/Br) LM4040AIM3X-4.1/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R4A & no Sb/Br) LM4040AIM3X-5.0 NRND SOT-23 DBZ 3 3000 TBD Call TI Call TI R5A LM4040AIM3X-5.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R5A & no Sb/Br) LM4040AIZ-10.0/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040A & no Sb/Br) IZ10 Addendum-Page 1

PACKAGE OPTION ADDENDUM www.ti.com 6-Feb-2020 Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) LM4040AIZ-2.5/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040A & no Sb/Br) IZ2.5 LM4040AIZ-4.1/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040A & no Sb/Br) IZ4.1 LM4040AIZ-5.0/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040A & no Sb/Br) IZ5.0 LM4040BIM3-10.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R0B LM4040BIM3-10.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R0B & no Sb/Br) LM4040BIM3-2.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RJB & no Sb/Br) LM4040BIM3-2.5 ACTIVE SOT-23 DBZ 3 1000 TBD Call TI Call TI R2B LM4040BIM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R2B & no Sb/Br) LM4040BIM3-3.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI RKB LM4040BIM3-3.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RKB & no Sb/Br) LM4040BIM3-4.1 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R4B LM4040BIM3-4.1/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R4B & no Sb/Br) LM4040BIM3-5.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R5B LM4040BIM3-5.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R5B & no Sb/Br) LM4040BIM3-8.2 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R8B LM4040BIM3-8.2/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R8B & no Sb/Br) LM4040BIM3X-10/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R0B & no Sb/Br) LM4040BIM3X-2.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM RJB & no Sb/Br) LM4040BIM3X-2.5 NRND SOT-23 DBZ 3 3000 TBD Call TI Call TI R2B LM4040BIM3X-2.5/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R2B & no Sb/Br) LM4040BIM3X-3.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM RKB & no Sb/Br) Addendum-Page 2

PACKAGE OPTION ADDENDUM www.ti.com 6-Feb-2020 Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) LM4040BIM3X-4.1 NRND SOT-23 DBZ 3 3000 TBD Call TI Call TI R4B LM4040BIM3X-4.1/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R4B & no Sb/Br) LM4040BIM3X-5.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R5B & no Sb/Br) LM4040BIM7-2.0/NOPB ACTIVE SC70 DCK 5 1000 Green (RoHS SN Level-1-260C-UNLIM RJB & no Sb/Br) LM4040BIM7-2.5 NRND SC70 DCK 5 1000 TBD Call TI Call TI R2B LM4040BIM7-2.5/NOPB ACTIVE SC70 DCK 5 1000 Green (RoHS SN Level-1-260C-UNLIM R2B & no Sb/Br) LM4040BIM7-5.0/NOPB ACTIVE SC70 DCK 5 1000 Green (RoHS SN Level-1-260C-UNLIM R5B & no Sb/Br) LM4040BIM7X-2.5/NOPB ACTIVE SC70 DCK 5 3000 Green (RoHS SN Level-1-260C-UNLIM R2B & no Sb/Br) LM4040BIZ-10.0/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040B & no Sb/Br) IZ10 LM4040BIZ-2.5/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040B & no Sb/Br) IZ2.5 LM4040BIZ-4.1/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040B & no Sb/Br) IZ4.1 LM4040BIZ-5.0/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040B & no Sb/Br) IZ5.0 LM4040CEM3-2.5 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R2C LM4040CEM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R2C & no Sb/Br) LM4040CEM3-3.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RKC & no Sb/Br) LM4040CEM3-5.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R5C LM4040CEM3-5.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R5C & no Sb/Br) LM4040CEM3X-3.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM RKC & no Sb/Br) LM4040CEM3X-5.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R5C & no Sb/Br) LM4040CIM3-10.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R0C Addendum-Page 3

PACKAGE OPTION ADDENDUM www.ti.com 6-Feb-2020 Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) LM4040CIM3-10.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R0C & no Sb/Br) LM4040CIM3-2.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI RJC LM4040CIM3-2.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RJC & no Sb/Br) LM4040CIM3-2.5 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R2C LM4040CIM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R2C & no Sb/Br) LM4040CIM3-3.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI RKC LM4040CIM3-3.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RKC & no Sb/Br) LM4040CIM3-4.1 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R4C LM4040CIM3-4.1/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R4C & no Sb/Br) LM4040CIM3-5.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R5C LM4040CIM3-5.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R5C & no Sb/Br) LM4040CIM3-8.2 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R8C LM4040CIM3-8.2/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R8C & no Sb/Br) LM4040CIM3X-10/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R0C & no Sb/Br) LM4040CIM3X-2.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM RJC & no Sb/Br) LM4040CIM3X-2.5 NRND SOT-23 DBZ 3 3000 TBD Call TI Call TI R2C LM4040CIM3X-2.5/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R2C & no Sb/Br) LM4040CIM3X-3.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM RKC & no Sb/Br) LM4040CIM3X-4.1/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R4C & no Sb/Br) LM4040CIM3X-5.0 NRND SOT-23 DBZ 3 3000 TBD Call TI Call TI R5C LM4040CIM3X-5.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R5C & no Sb/Br) Addendum-Page 4

PACKAGE OPTION ADDENDUM www.ti.com 6-Feb-2020 Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) LM4040CIM7-2.0/NOPB ACTIVE SC70 DCK 5 1000 Green (RoHS SN Level-1-260C-UNLIM RJC & no Sb/Br) LM4040CIM7-2.5/NOPB ACTIVE SC70 DCK 5 1000 Green (RoHS SN Level-1-260C-UNLIM R2C & no Sb/Br) LM4040CIM7X-2.5/NOPB ACTIVE SC70 DCK 5 3000 Green (RoHS SN Level-1-260C-UNLIM R2C & no Sb/Br) LM4040CIZ-10.0/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040C & no Sb/Br) IZ10 LM4040CIZ-2.5/LFT8 ACTIVE TO-92 LP 3 2000 Green (RoHS SN N / A for Pkg Type 4040C & no Sb/Br) IZ2.5 LM4040CIZ-2.5/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040C & no Sb/Br) IZ2.5 LM4040CIZ-4.1/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040C & no Sb/Br) IZ4.1 LM4040CIZ-5.0/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040C & no Sb/Br) IZ5.0 LM4040DEM3-2.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI RJD LM4040DEM3-2.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RJD & no Sb/Br) LM4040DEM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R2D & no Sb/Br) LM4040DEM3-3.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RKD & no Sb/Br) LM4040DEM3-5.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R5D LM4040DEM3-5.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R5D & no Sb/Br) LM4040DEM3X-2.5/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R2D & no Sb/Br) LM4040DEM3X-5.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R5D & no Sb/Br) LM4040DIM3-10.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R0D LM4040DIM3-10.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R0D & no Sb/Br) LM4040DIM3-2.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RJD & no Sb/Br) LM4040DIM3-2.5 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R2D Addendum-Page 5

PACKAGE OPTION ADDENDUM www.ti.com 6-Feb-2020 Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) LM4040DIM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R2D & no Sb/Br) LM4040DIM3-3.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RKD & no Sb/Br) LM4040DIM3-4.1 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R4D LM4040DIM3-4.1/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R4D & no Sb/Br) LM4040DIM3-5.0 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R5D LM4040DIM3-5.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R5D & no Sb/Br) LM4040DIM3-8.2/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R8D & no Sb/Br) LM4040DIM3X-10/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R0D & no Sb/Br) LM4040DIM3X-2.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM RJD & no Sb/Br) LM4040DIM3X-2.5 NRND SOT-23 DBZ 3 3000 TBD Call TI Call TI R2D LM4040DIM3X-2.5/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R2D & no Sb/Br) LM4040DIM3X-3.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM RKD & no Sb/Br) LM4040DIM3X-4.1/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R4D & no Sb/Br) LM4040DIM3X-5.0 NRND SOT-23 DBZ 3 3000 TBD Call TI Call TI R5D LM4040DIM3X-5.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R5D & no Sb/Br) LM4040DIM7-2.0/NOPB ACTIVE SC70 DCK 5 1000 Green (RoHS SN Level-1-260C-UNLIM RJD & no Sb/Br) LM4040DIM7-2.5/NOPB ACTIVE SC70 DCK 5 1000 Green (RoHS SN Level-1-260C-UNLIM R2D & no Sb/Br) LM4040DIM7-5.0 NRND SC70 DCK 5 1000 TBD Call TI Call TI R5D LM4040DIM7-5.0/NOPB ACTIVE SC70 DCK 5 1000 Green (RoHS SN Level-1-260C-UNLIM R5D & no Sb/Br) LM4040DIZ-10.0/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040D & no Sb/Br) IZ10 Addendum-Page 6

PACKAGE OPTION ADDENDUM www.ti.com 6-Feb-2020 Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) LM4040DIZ-2.5/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040D & no Sb/Br) IZ2.5 LM4040DIZ-4.1/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040D & no Sb/Br) IZ4.1 LM4040DIZ-5.0/LFT1 ACTIVE TO-92 LP 3 2000 Green (RoHS SN N / A for Pkg Type 4040D & no Sb/Br) IZ5.0 LM4040DIZ-5.0/NOPB ACTIVE TO-92 LP 3 1800 Green (RoHS SN N / A for Pkg Type 4040D & no Sb/Br) IZ5.0 LM4040EEM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R2E & no Sb/Br) LM4040EIM3-2.5 NRND SOT-23 DBZ 3 1000 TBD Call TI Call TI R2E LM4040EIM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R2E & no Sb/Br) LM4040EIM3-3.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM RKE & no Sb/Br) LM4040EIM3X-2.5 NRND SOT-23 DBZ 3 3000 TBD Call TI Call TI R2E LM4040EIM3X-2.5/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R2E & no Sb/Br) LM4040EIM3X-3.0/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM RKE & no Sb/Br) LM4040EIM7-2.0/NOPB ACTIVE SC70 DCK 5 1000 Green (RoHS SN Level-1-260C-UNLIM RJE & no Sb/Br) LM4040QAIM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R6A & no Sb/Br) LM4040QAIM3X2.5/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R6A & no Sb/Br) LM4040QBIM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R6B & no Sb/Br) LM4040QBIM3X2.5/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R6B & no Sb/Br) LM4040QCEM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R2C & no Sb/Br) LM4040QCEM3-3.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM -40 to 125 R3C & no Sb/Br) LM4040QCIM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R6C & no Sb/Br) Addendum-Page 7

PACKAGE OPTION ADDENDUM www.ti.com 6-Feb-2020 Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) LM4040QCIM3X2.5/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R6C & no Sb/Br) LM4040QDEM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R2D & no Sb/Br) LM4040QDEM3-3.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM -40 to 125 R3D & no Sb/Br) LM4040QDIM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R6D & no Sb/Br) LM4040QDIM3X2.5/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R6D & no Sb/Br) LM4040QEEM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R2E & no Sb/Br) LM4040QEEM3-3.0/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM -40 to 125 R3E & no Sb/Br) LM4040QEIM3-2.5/NOPB ACTIVE SOT-23 DBZ 3 1000 Green (RoHS SN Level-1-260C-UNLIM R6E & no Sb/Br) LM4040QEIM3X2.5/NOPB ACTIVE SOT-23 DBZ 3 3000 Green (RoHS SN Level-1-260C-UNLIM R6E & no Sb/Br) (1) The marketing status values are defined as follows: ACTIVE: Product device recommended for new designs. LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect. NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design. PREVIEW: Device has been announced but is not in production. Samples may or may not be available. OBSOLETE: TI has discontinued the production of the device. (2) RoHS: TI defines "RoHS" to mean semiconductor products that are compliant with the current EU RoHS requirements for all 10 RoHS substances, including the requirement that RoHS substance do not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, "RoHS" products are suitable for use in specified lead-free processes. TI may reference these types of products as "Pb-Free". RoHS Exempt: TI defines "RoHS Exempt" to mean products that contain lead but are compliant with EU RoHS pursuant to a specific EU RoHS exemption. Green: TI defines "Green" to mean the content of Chlorine (Cl) and Bromine (Br) based flame retardants meet JS709B low halogen requirements of <=1000ppm threshold. Antimony trioxide based flame retardants must also meet the <=1000ppm threshold requirement. (3) MSL, Peak Temp. - The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature. (4) There may be additional marking, which relates to the logo, the lot trace code information, or the environmental category on the device. Addendum-Page 8

PACKAGE OPTION ADDENDUM www.ti.com 6-Feb-2020 (5) Multiple Device Markings will be inside parentheses. Only one Device Marking contained in parentheses and separated by a "~" will appear on a device. If a line is indented then it is a continuation of the previous line and the two combined represent the entire Device Marking for that device. (6) Lead/Ball Finish - Orderable Devices may have multiple material finish options. Finish options are separated by a vertical ruled line. Lead/Ball Finish values may wrap to two lines if the finish value exceeds the maximum column width. Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals. TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release. In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis. OTHER QUALIFIED VERSIONS OF LM4040-N, LM4040-N-Q1 : •Catalog: LM4040-N •Automotive: LM4040-N-Q1 NOTE: Qualified Version Definitions: •Catalog - TI's standard catalog product •Automotive - Q100 devices qualified for high-reliability automotive applications targeting zero defects Addendum-Page 9

PACKAGE MATERIALS INFORMATION www.ti.com 29-Sep-2019 TAPE AND REEL INFORMATION *Alldimensionsarenominal Device Package Package Pins SPQ Reel Reel A0 B0 K0 P1 W Pin1 Type Drawing Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant (mm) W1(mm) LM4040AIM3-10.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3-10.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3-2.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3-2.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3-2.5 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3-3.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3-4.1 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3-4.1/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3-5.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3-5.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3X-10/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3X-2.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3X-2.5 SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3X-2.5/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3X-3.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3X-4.1/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040AIM3X-5.0 SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 PackMaterials-Page1

PACKAGE MATERIALS INFORMATION www.ti.com 29-Sep-2019 Device Package Package Pins SPQ Reel Reel A0 B0 K0 P1 W Pin1 Type Drawing Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant (mm) W1(mm) LM4040AIM3X-5.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-10.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-10.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-2.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-2.5 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-3.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-3.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-4.1 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-4.1/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-5.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-5.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-8.2 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3-8.2/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3X-10/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3X-2.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3X-2.5 SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3X-2.5/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3X-3.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3X-4.1 SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3X-4.1/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM3X-5.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040BIM7-2.0/NOPB SC70 DCK 5 1000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040BIM7-2.5 SC70 DCK 5 1000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040BIM7-2.5/NOPB SC70 DCK 5 1000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040BIM7-5.0/NOPB SC70 DCK 5 1000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040BIM7X-2.5/NOPB SC70 DCK 5 3000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040CEM3-2.5 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CEM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CEM3-3.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CEM3-5.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CEM3-5.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CEM3X-3.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CEM3X-5.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-10.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-10.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-2.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-2.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-2.5 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-3.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-3.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-4.1 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 PackMaterials-Page2

PACKAGE MATERIALS INFORMATION www.ti.com 29-Sep-2019 Device Package Package Pins SPQ Reel Reel A0 B0 K0 P1 W Pin1 Type Drawing Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant (mm) W1(mm) LM4040CIM3-4.1/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-5.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-5.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-8.2 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3-8.2/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3X-10/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3X-2.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3X-2.5 SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3X-2.5/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3X-3.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3X-4.1/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3X-5.0 SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM3X-5.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040CIM7-2.0/NOPB SC70 DCK 5 1000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040CIM7-2.5/NOPB SC70 DCK 5 1000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040CIM7X-2.5/NOPB SC70 DCK 5 3000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040DEM3-2.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DEM3-2.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DEM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DEM3-3.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DEM3-5.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DEM3-5.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DEM3X-2.5/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DEM3X-5.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3-10.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3-10.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3-2.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3-2.5 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3-3.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3-4.1 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3-4.1/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3-5.0 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3-5.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3-8.2/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3X-10/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3X-2.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3X-2.5 SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3X-2.5/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3X-3.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3X-4.1/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3X-5.0 SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040DIM3X-5.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 PackMaterials-Page3

PACKAGE MATERIALS INFORMATION www.ti.com 29-Sep-2019 Device Package Package Pins SPQ Reel Reel A0 B0 K0 P1 W Pin1 Type Drawing Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant (mm) W1(mm) LM4040DIM7-2.0/NOPB SC70 DCK 5 1000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040DIM7-2.5/NOPB SC70 DCK 5 1000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040DIM7-5.0 SC70 DCK 5 1000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040DIM7-5.0/NOPB SC70 DCK 5 1000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040EEM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040EIM3-2.5 SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040EIM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040EIM3-3.0/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040EIM3X-2.5 SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040EIM3X-2.5/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040EIM3X-3.0/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040EIM7-2.0/NOPB SC70 DCK 5 1000 178.0 8.4 2.25 2.45 1.2 4.0 8.0 Q3 LM4040QAIM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040QAIM3X2.5/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040QBIM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040QBIM3X2.5/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040QCEM3-2.5/NOP SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 B LM4040QCEM3-3.0/NOP SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 B LM4040QCIM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040QCIM3X2.5/NOP SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 B LM4040QDEM3-2.5/NOP SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 B LM4040QDEM3-3.0/NOP SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 B LM4040QDIM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040QDIM3X2.5/NOP SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 B LM4040QEEM3-2.5/NOP SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 B LM4040QEEM3-3.0/NOP SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 B LM4040QEIM3-2.5/NOPB SOT-23 DBZ 3 1000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 LM4040QEIM3X2.5/NOPB SOT-23 DBZ 3 3000 178.0 8.4 3.3 2.9 1.22 4.0 8.0 Q3 PackMaterials-Page4

PACKAGE MATERIALS INFORMATION www.ti.com 29-Sep-2019 *Alldimensionsarenominal Device PackageType PackageDrawing Pins SPQ Length(mm) Width(mm) Height(mm) LM4040AIM3-10.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040AIM3-10.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040AIM3-2.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040AIM3-2.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040AIM3-2.5 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040AIM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040AIM3-3.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040AIM3-4.1 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040AIM3-4.1/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040AIM3-5.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040AIM3-5.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040AIM3X-10/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040AIM3X-2.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040AIM3X-2.5 SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040AIM3X-2.5/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040AIM3X-3.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040AIM3X-4.1/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040AIM3X-5.0 SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040AIM3X-5.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040BIM3-10.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 PackMaterials-Page5

PACKAGE MATERIALS INFORMATION www.ti.com 29-Sep-2019 Device PackageType PackageDrawing Pins SPQ Length(mm) Width(mm) Height(mm) LM4040BIM3-10.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3-2.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3-2.5 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3-3.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3-3.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3-4.1 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3-4.1/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3-5.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3-5.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3-8.2 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3-8.2/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040BIM3X-10/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040BIM3X-2.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040BIM3X-2.5 SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040BIM3X-2.5/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040BIM3X-3.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040BIM3X-4.1 SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040BIM3X-4.1/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040BIM3X-5.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040BIM7-2.0/NOPB SC70 DCK 5 1000 210.0 185.0 35.0 LM4040BIM7-2.5 SC70 DCK 5 1000 210.0 185.0 35.0 LM4040BIM7-2.5/NOPB SC70 DCK 5 1000 210.0 185.0 35.0 LM4040BIM7-5.0/NOPB SC70 DCK 5 1000 210.0 185.0 35.0 LM4040BIM7X-2.5/NOPB SC70 DCK 5 3000 210.0 185.0 35.0 LM4040CEM3-2.5 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CEM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CEM3-3.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CEM3-5.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CEM3-5.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CEM3X-3.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040CEM3X-5.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040CIM3-10.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-10.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-2.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-2.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-2.5 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-3.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-3.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-4.1 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-4.1/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-5.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-5.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 PackMaterials-Page6

PACKAGE MATERIALS INFORMATION www.ti.com 29-Sep-2019 Device PackageType PackageDrawing Pins SPQ Length(mm) Width(mm) Height(mm) LM4040CIM3-8.2 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3-8.2/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040CIM3X-10/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040CIM3X-2.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040CIM3X-2.5 SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040CIM3X-2.5/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040CIM3X-3.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040CIM3X-4.1/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040CIM3X-5.0 SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040CIM3X-5.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040CIM7-2.0/NOPB SC70 DCK 5 1000 210.0 185.0 35.0 LM4040CIM7-2.5/NOPB SC70 DCK 5 1000 210.0 185.0 35.0 LM4040CIM7X-2.5/NOPB SC70 DCK 5 3000 210.0 185.0 35.0 LM4040DEM3-2.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DEM3-2.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DEM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DEM3-3.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DEM3-5.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DEM3-5.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DEM3X-2.5/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040DEM3X-5.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040DIM3-10.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DIM3-10.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DIM3-2.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DIM3-2.5 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DIM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DIM3-3.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DIM3-4.1 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DIM3-4.1/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DIM3-5.0 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DIM3-5.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DIM3-8.2/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040DIM3X-10/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040DIM3X-2.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040DIM3X-2.5 SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040DIM3X-2.5/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040DIM3X-3.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040DIM3X-4.1/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040DIM3X-5.0 SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040DIM3X-5.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040DIM7-2.0/NOPB SC70 DCK 5 1000 210.0 185.0 35.0 LM4040DIM7-2.5/NOPB SC70 DCK 5 1000 210.0 185.0 35.0 LM4040DIM7-5.0 SC70 DCK 5 1000 210.0 185.0 35.0 LM4040DIM7-5.0/NOPB SC70 DCK 5 1000 210.0 185.0 35.0 PackMaterials-Page7

PACKAGE MATERIALS INFORMATION www.ti.com 29-Sep-2019 Device PackageType PackageDrawing Pins SPQ Length(mm) Width(mm) Height(mm) LM4040EEM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040EIM3-2.5 SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040EIM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040EIM3-3.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040EIM3X-2.5 SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040EIM3X-2.5/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040EIM3X-3.0/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040EIM7-2.0/NOPB SC70 DCK 5 1000 210.0 185.0 35.0 LM4040QAIM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040QAIM3X2.5/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040QBIM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040QBIM3X2.5/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040QCEM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040QCEM3-3.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040QCIM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040QCIM3X2.5/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040QDEM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040QDEM3-3.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040QDIM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040QDIM3X2.5/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 LM4040QEEM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040QEEM3-3.0/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040QEIM3-2.5/NOPB SOT-23 DBZ 3 1000 210.0 185.0 35.0 LM4040QEIM3X2.5/NOPB SOT-23 DBZ 3 3000 210.0 185.0 35.0 PackMaterials-Page8

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4203227/C

PACKAGE OUTLINE DBZ0003A SOT-23 - 1.12 mm max height SCALE 4.000 SMALL OUTLINE TRANSISTOR 2.64 C 2.10 1.12 MAX 1.4 1.2 B A 0.1 C PIN 1 INDEX AREA 1 0.95 3.04 1.9 2.80 3 2 0.5 3X 0.3 0.10 0.2 C A B (0.95) TYP 0.01 0.25 GAGE PLANE 0.20 TYP 0.08 0.6 TYP 0 -8 TYP 0.2 SEATING PLANE 4214838/C 04/2017 NOTES: 1. All linear dimensions are in millimeters. Any dimensions in parenthesis are for reference only. Dimensioning and tolerancing per ASME Y14.5M. 2. This drawing is subject to change without notice. 3. Reference JEDEC registration TO-236, except minimum foot length. www.ti.com

EXAMPLE BOARD LAYOUT DBZ0003A SOT-23 - 1.12 mm max height SMALL OUTLINE TRANSISTOR PKG 3X (1.3) 1 3X (0.6) SYMM 3 2X (0.95) 2 (R0.05) TYP (2.1) LAND PATTERN EXAMPLE SCALE:15X SOLDER MASK SOLDER MASK METAL UNDER METAL OPENING OPENING SOLDER MASK 0.07 MAX 0.07 MIN ALL AROUND ALL AROUND NON SOLDER MASK SOLDER MASK DEFINED DEFINED (PREFERRED) SOLDER MASK DETAILS 4214838/C 04/2017 NOTES: (continued) 4. Publication IPC-7351 may have alternate designs. 5. Solder mask tolerances between and around signal pads can vary based on board fabrication site. www.ti.com

EXAMPLE STENCIL DESIGN DBZ0003A SOT-23 - 1.12 mm max height SMALL OUTLINE TRANSISTOR PKG 3X (1.3) 1 3X (0.6) SYMM 3 2X(0.95) 2 (R0.05) TYP (2.1) SOLDER PASTE EXAMPLE BASED ON 0.125 THICK STENCIL SCALE:15X 4214838/C 04/2017 NOTES: (continued) 6. Laser cutting apertures with trapezoidal walls and rounded corners may offer better paste release. IPC-7525 may have alternate design recommendations. 7. Board assembly site may have different recommendations for stencil design. www.ti.com

None

PACKAGE OUTLINE LP0003A TO-92 - 5.34 mm max height SCALE 1.200 SCALE 1.200 TO-92 5.21 4.44 EJECTOR PIN OPTIONAL 5.34 4.32 (1.5) TYP (2.54) SEATING 2X NOTE 3 PLANE 4 MAX (0.51) TYP 6X 0.076 MAX SEATING PLANE 3X 12.7 MIN 0.43 2X 0.55 3X 3X 0.35 2.6 0.2 0.38 2X 1.27 0.13 FORMED LEAD OPTION OTHER DIMENSIONS IDENTICAL STRAIGHT LEAD OPTION TO STRAIGHT LEAD OPTION 2.67 3X 2.03 4.19 3.17 3 2 1 3.43 MIN 4215214/B 04/2017 NOTES: 1. All linear dimensions are in millimeters. Any dimensions in parenthesis are for reference only. Dimensioning and tolerancing per ASME Y14.5M. 2. This drawing is subject to change without notice. 3. Lead dimensions are not controlled within this area. 4. Reference JEDEC TO-226, variation AA. 5. Shipping method: a. Straight lead option available in bulk pack only. b. Formed lead option available in tape and reel or ammo pack. c. Specific products can be offered in limited combinations of shipping medium and lead options. d. Consult product folder for more information on available options. www.ti.com

EXAMPLE BOARD LAYOUT LP0003A TO-92 - 5.34 mm max height TO-92 FULL R TYP 0.05 MAX (1.07) ALL AROUND METAL 3X ( 0.85) HOLE TYP TYP 2X METAL (1.5) 2X (1.5) 2X SOLDER MASK OPENING 1 2 3 (R0.05) TYP 2X (1.07) (1.27) SOLDER MASK (2.54) OPENING LAND PATTERN EXAMPLE STRAIGHT LEAD OPTION NON-SOLDER MASK DEFINED SCALE:15X 0.05 MAX ( 1.4) 2X ( 1.4) ALL AROUND METAL TYP 3X ( 0.9) HOLE METAL 2X (R0.05) TYP 1 2 3 SOLDER MASK OPENING (2.6) SOLDER MASK OPENING (5.2) LAND PATTERN EXAMPLE FORMED LEAD OPTION NON-SOLDER MASK DEFINED SCALE:15X 4215214/B 04/2017 www.ti.com

TAPE SPECIFICATIONS LP0003A TO-92 - 5.34 mm max height TO-92 13.7 11.7 32 23 (2.5) TYP 0.5 MIN 16.5 15.5 11.0 9.75 8.5 8.50 19.0 17.5 2.9 6.75 3.7-4.3 TYP TYP 2.4 5.95 13.0 12.4 FOR FORMED LEAD OPTION PACKAGE 4215214/B 04/2017 www.ti.com

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