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SN74LVC1G79DCKT产品简介:

ICGOO电子元器件商城为您提供SN74LVC1G79DCKT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。 SN74LVC1G79DCKT价格参考¥2.05-¥5.06。Texas InstrumentsSN74LVC1G79DCKT封装/规格:逻辑 - 触发器, 。您可以下载SN74LVC1G79DCKT参考资料、Datasheet数据手册功能说明书,资料中有SN74LVC1G79DCKT 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 D-TYPE POS TRG SNGL SC70-5触发器 SNGL Pos Edge Trigrd DType FlipFlop

产品分类

逻辑 - 触发器

品牌

Texas Instruments

产品手册

http://www.ti.com/lit/gpn/sn74lvc1g79

产品图片

rohs

符合RoHS无铅 / 符合限制有害物质指令(RoHS)规范要求

产品系列

逻辑集成电路,触发器,Texas Instruments SN74LVC1G79DCKT74LVC

数据手册

点击此处下载产品Datasheet

产品型号

SN74LVC1G79DCKT

PCN设计/规格

点击此处下载产品Datasheet点击此处下载产品Datasheet

不同V、最大CL时的最大传播延迟

4.5ns @ 5V,50pF

产品种类

触发器

传播延迟时间

5 ns

低电平输出电流

32 mA

元件数

1

其它名称

296-32307-1

功能

标准

包装

剪切带 (CT)

单位重量

2.500 mg

商标

Texas Instruments

安装类型

表面贴装

安装风格

SMD/SMT

封装

Reel

封装/外壳

6-TSSOP(5 引线),SC-88A,SOT-353

封装/箱体

SC-70-5

工作温度

-40°C ~ 125°C (TA)

工厂包装数量

250

最大工作温度

+ 85 C

最小工作温度

- 40 C

极性

Non-Inverting

标准包装

1

每元件位数

1

电压-电源

1.65 V ~ 5.5 V

电流-输出高,低

32mA,32mA

电流-静态

10µA

电源电压-最大

5.5 V

电源电压-最小

1.65 V

电路数量

1

类型

D 型

系列

SN74LVC1G79

触发器类型

正边沿

输入电容

4pF

输入类型

Single-Ended

输入线路数量

1

输出类型

非反相

输出线路数量

1

逻辑类型

Single-Gate

逻辑系列

LVC

频率-时钟

160MHz

高电平输出电流

- 32 mA

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PDF Datasheet 数据手册内容提取

Product Order Technical Tools & Support & Folder Now Documents Software Community SN74LVC1G79 SCES220U–APRIL1999–REVISEDAPRIL2017 SN74LVC1G79 Single Positive-Edge-Triggered D-Type Flip-Flop 1 Features 3 Description • AvailableintheTexasInstruments The SN74LVC1G79 device is a single positive-edge- 1 triggered D-type flip-flop that is designed for 1.65-V to NanoFree™Package 5.5-VV operation. • Latch-UpPerformanceExceeds100mAPer CC JESD78,ClassII When data at the data (D) input meets the setup time requirement, the data is transferred to the Q output • ESDProtectionExceedsJESD22 on the positive-going edge of the clock pulse. Clock – 2000-VHuman-BodyModel(A114-A) triggering occurs at a voltage level and is not directly – 200-VMachineModel(A115-A) related to the rise time of the clock pulse. Following the hold-time interval, data at the D input can be – 1000-VCharged-DeviceModel(C101) changedwithoutaffectingthelevelattheoutput. • Supports5-VV Operation CC NanoFree™ package technology is a major • InputsAcceptVoltagesto5.5V breakthrough in IC packaging concepts, using the die • SupportsDownTranslationtoVCC asthepackage. • Maxt of6nsat3.3Vand50pFload pd This device is fully specified for partial-power-down • LowPowerConsumption,10-µAMaxICC applications using Ioff. The Ioff circuitry disables the • ±24-mAOutputDriveat3.3V outputs when the device is powered down. This inhibits current backflow into the device which • I supportsPartial-Power-DownModeandBack- off preventsdamagetothedevice. DriveProtection DeviceInformation(1) 2 Applications PARTNUMBER PACKAGE BODYSIZE • TestandMeasurement SN74LVC1G79DBV SOT-23(5) 2.90mm×1.60mm • EnterpriseSwitching SN74LVC1G79DCK SC70(5) 2.00mm×1.25mm • TelecomInfrastructure SN74LVC1G79DRL SOT(5) 1.60mm×1.20mm • PersonalElectronics SN74LVC1G79YZP DSBGA(5) 1.14mm×0.91mm • WhiteGoods (1) For all available packages, see the orderable addendum at theendofthedatasheet. LogicDiagram(PositiveLogic) 2 CLK C C C 4 TG Q C C C C 1 D TG TG TG C C C Copyright © 2017,Texas Instruments Incorporated 1 An IMPORTANT NOTICE at the end of this data sheet addresses availability, warranty, changes, use in safety-critical applications, intellectualpropertymattersandotherimportantdisclaimers.PRODUCTIONDATA.

SN74LVC1G79 SCES220U–APRIL1999–REVISEDAPRIL2017 www.ti.com Table of Contents 1 Features.................................................................. 1 8 DetailedDescription............................................ 11 2 Applications........................................................... 1 8.1 Overview.................................................................11 3 Description............................................................. 1 8.2 FunctionalBlockDiagram.......................................11 4 RevisionHistory..................................................... 2 8.3 FeatureDescription.................................................11 8.4 DeviceFunctionalModes........................................12 5 PinConfigurationandFunctions......................... 3 9 ApplicationandImplementation........................ 13 6 Specifications......................................................... 4 9.1 ApplicationInformation............................................13 6.1 AbsoluteMaximumRatings......................................4 9.2 TypicalApplication .................................................13 6.2 ESDRatings..............................................................4 10 PowerSupplyRecommendations..................... 14 6.3 RecommendedOperatingConditions.......................5 6.4 ThermalInformation..................................................5 11 Layout................................................................... 14 6.5 ElectricalCharacteristics...........................................6 11.1 LayoutGuidelines.................................................14 6.6 TimingRequirements:T =–40°Cto+85°C............6 11.2 LayoutExample....................................................14 A 6.7 TimingRequirements:T =–40°Cto+125°C..........6 12 DeviceandDocumentationSupport................. 15 A 6.8 SwitchingCharacteristics:C =15pF,T =–40°Cto 12.1 DocumentationSupport........................................15 L A +85°C......................................................................... 7 12.2 ReceivingNotificationofDocumentationUpdates15 6.9 SwitchingCharacteristics:CL=30or50pF,TA= 12.3 CommunityResources..........................................15 –40°Cto+85°C..........................................................7 12.4 Trademarks...........................................................15 6.10 SwitchingCharacteristics:C =30pFor50pF,T L A 12.5 ElectrostaticDischargeCaution............................15 =–40°Cto+125°C.....................................................7 12.6 Glossary................................................................15 6.11 OperatingCharacteristics........................................7 13 Mechanical,Packaging,andOrderable 6.12 TypicalCharacteristics............................................8 Information........................................................... 15 7 ParameterMeasurementInformation..................9 4 Revision History NOTE:Pagenumbersforpreviousrevisionsmaydifferfrompagenumbersinthecurrentversion. ChangesfromRevisionT(December2013)toRevisionU Page • AddedDeviceInformationtable,ESDRatingstable,ThermalInformationtable,FeatureDescriptionsection,Device FunctionalModes,ApplicationandImplementationsection,PowerSupplyRecommendationssection,Layout section,DeviceandDocumentationSupportsection,andMechanical,Packaging,andOrderableInformation section ................................................................................................................................................................................... 1 • ChangedthermalinformationtoalignwithJEDECstandards. ............................................................................................. 5 ChangesfromRevisionS(November2007)toRevisionT Page • UpdateddocumenttonewTIdatasheetformat.................................................................................................................... 1 • RemovedOrderingInformationtable..................................................................................................................................... 1 • UpdatedI inFeatures.......................................................................................................................................................... 1 off • Updatedoperatingtemperaturerange................................................................................................................................... 5 • AddedESDwarning............................................................................................................................................................. 15 2 SubmitDocumentationFeedback Copyright©1999–2017,TexasInstrumentsIncorporated ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 www.ti.com SCES220U–APRIL1999–REVISEDAPRIL2017 5 Pin Configuration and Functions DBVPackage 5-PinSOT-23 DRLPackage TopView 5-PinSOT TopView D 1 5 V CC CLK 2 GND 3 4 Q YZPPackage 5-PinDSBGA DCKPackage BottomView 5-PinSC70 1 2 TopView C GND Q D 1 5 V CC CLK 2 B CLK GND 3 4 Q A D VCC Seemechanicaldrawingsfordimensions. Not to scale PinFunctions PIN DBV,DCK, I/O DESCRIPTION NAME YZP DRL D 1 A1 I Datainput CLK 2 B1 I Positive-Edge-TriggeredClockinput GND 3 C1 — Ground Q 4 C2 O Non-invertedoutput V 5 A2 — PositiveSupply CC Copyright©1999–2017,TexasInstrumentsIncorporated SubmitDocumentationFeedback 3 ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 SCES220U–APRIL1999–REVISEDAPRIL2017 www.ti.com 6 Specifications 6.1 Absolute Maximum Ratings overoperatingfree-airtemperaturerange(unlessotherwisenoted)(1) MIN MAX UNIT V Supplyvoltage –0.5 6.5 V CC V Inputvoltage(2) –0.5 6.5 V I V Voltagerangeappliedtoanyoutputinthehigh-impedanceorpower-offstate(2) –0.5 6.5 V O V Voltagerangeappliedtoanyoutputinthehighorlowstate(2)(3) –0.5 V +0.5 V O CC I Inputclampcurrent V <0 –50 mA IK I I Outputclampcurrent V <0 –50 mA OK O I Continuousoutputcurrent ±50 mA O ContinuouscurrentthroughV orGND ±100 mA CC T Storagetemperature –65 150 °C stg T Junctiontemperature 150 °C J (1) StressesbeyondthoselistedunderAbsoluteMaximumRatingsmaycausepermanentdamagetothedevice.Thesearestressratings only,andfunctionaloperationofthedeviceattheseoranyotherconditionsbeyondthoseindicatedunderRecommendedOperating Conditionsisnotimplied.Exposuretoabsolute-maximum-ratedconditionsforextendedperiodsmayaffectdevicereliability. (2) Theinputnegative-voltageandoutputvoltageratingsmaybeexceedediftheinputandoutputcurrentratingsareobserved. (3) ThevalueofV isprovidedintheRecommendedOperatingConditionstable. CC 6.2 ESD Ratings VALUE UNIT Humanbodymodel(HBM),perANSI/ESDA/JEDECJS-001(1) ±2000 V Electrostatic Chargeddevicemodel(CDM),perJEDECspecificationJESD22-C101(2) ±1000 V (ESD) discharge MachineModel(MM),A115-A 200 (1) JEDECdocumentJEP155statesthat500-VHBMallowssafemanufacturingwithastandardESDcontrolprocess. (2) JEDECdocumentJEP157statesthat250-VCDMallowssafemanufacturingwithastandardESDcontrolprocess. 4 SubmitDocumentationFeedback Copyright©1999–2017,TexasInstrumentsIncorporated ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 www.ti.com SCES220U–APRIL1999–REVISEDAPRIL2017 6.3 Recommended Operating Conditions overoperatingfree-airtemperaturerange(unlessotherwisenoted)(1) MIN MAX UNIT Operating 1.65 5.5 VCC Supplyvoltage V Dataretentiononly 1.5 VCC=1.65Vto1.95V 0.65×VCC VCC=2.3Vto2.7V 1.7 VIH High-levelinputvoltage V VCC=3Vto3.6V 2 VCC=4.5Vto5.5V 0.7×VCC VCC=1.65Vto1.95V 0.35×VCC VCC=2.3Vto2.7V 0.7 VIL Low-levelinputvoltage V VCC=3Vto3.6V 0.8 VCC=4.5Vto5.5V 0.3×VCC VI Inputvoltage 0 5.5 V VO Outputvoltage 0 VCC V VCC=1.65V –4 VCC=2.3V –8 IOH High-leveloutputcurrent –16 mA VCC=3V –24 VCC=4.5V –32 VCC=1.65V 4 VCC=2.3V 8 IOL Low-leveloutputcurrent 16 mA VCC=3V 24 VCC=4.5V 32 VCC=1.8V±0.15V,2.5V±0.2V 20 Δt/Δv Inputtransitionriseorfallrate VCC=3.3V±0.3V 10 ns/V VCC=5V±0.5V 5 TA Operatingfree-airtemperature –40 125 °C (1) AllunusedinputsofthedevicemustbeheldatV orGNDtoensureproperdeviceoperation.SeeImplicationsofSloworFloating CC CMOSInputs,SCBA004. 6.4 Thermal Information SN74LVC1G79 THERMALMETRIC(1) DBV(SOT-23) DCK(SC70) DRL(SOT) YZP(DSBGA) UNIT 5PINS 5PINS 5PINS 5PINS R Junction-to-ambientthermalresistance 247.2 277.6 294.3 144.4 °C/W θJA R Junction-to-case(top)thermalresistance 154.5 179.5 129.9 1.3 °C/W θJC(top) R Junction-to-boardthermalresistance 86.8 75.9 143.4 39.9 °C/W θJB ψ Junction-to-topcharacterizationparameter 58.0 49.7 14.3 0.5 °C/W JT Junction-to-boardcharacterization ψ 86.4 75.1 144.0 39.7 °C/W JB parameter (1) Formoreinformationabouttraditionalandnewthermalmetrics,seetheSemiconductorandICPackageThermalMetricsapplication report. Copyright©1999–2017,TexasInstrumentsIncorporated SubmitDocumentationFeedback 5 ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 SCES220U–APRIL1999–REVISEDAPRIL2017 www.ti.com 6.5 Electrical Characteristics overrecommendedoperatingfree-airtemperaturerange(unlessotherwisenoted) TA=–40°Cto+85°C TA=–40°Cto+125°C PARAMETER TESTCONDITIONS VCC MIN TYP(1) MAX MIN TYP(1) MAX UNIT IOH=–100µA 1.65Vto5.5V VCC–0.1 VCC–0.1 IOH=–4mA 1.65V 1.2 1.2 IOH=–8mA 2.3V 1.9 1.9 VOH V IOH=–16mA 2.4 2.4 3V IOH=–24mA 2.3 2.3 IOH=–32mA 4.5V 3.8 3.8 IOL=100µA 1.65Vto5.5V 0.1 0.1 IOL=4mA 1.65V 0.45 0.45 IOL=8mA 2.3V 0.3 0.3 VOL V IOL=16mA 0.4 0.4 3V IOL=24mA 0.55 0.55 IOL=32mA 4.5V 0.55 0.55 II Allinputs VI=5.5VorGND 0to5.5V ±10 ±5 µA Ioff VIorVO=5.5V 0 ±10 ±10 µA ICC VI=5.5VorGND, IO=0 1.65Vto5.5V 10 10 µA ΔICC OOntheerinipnuptuatstaVtCVCC–C0o.r6GVN,D 3Vto5.5V 500 500 µA Ci VI=VCCorGND 3.3V 4 4 pF (1) AlltypicalvaluesareatV =3.3V,T =25°C. CC A 6.6 Timing Requirements: T = –40°C to +85°C A overoperatingfree-airtemperaturerange(unlessotherwisenoted)(seeFigure3) TA=–40°Cto+85°C PARAMETER VCC=1.8 VCC=2.5 VCC=3.3V VCC=5V UNIT ±0.15V ±0.2V ±0.3V ±0.5V MIN MAX MIN MAX MIN MAX MIN MAX fclock Clockfrequency 160 160 160 160 MHz tw Pulseduration,CLKhighorlow 2.5 2.5 2.5 2.5 ns Datahigh 2.2 1.4 1.3 1.2 tsu SetuptimebeforeCLK↑ ns Datalow 2.6 1.4 1.3 1.2 th Holdtime,dataafterCLK↑ 0.3 0.4 1 0.5 ns 6.7 Timing Requirements: T = –40°C to +125°C A overoperatingfree-airtemperaturerange(unlessotherwisenoted)(seeFigure3) TA=–40°Cto+125°C PARAMETER VCC=1.8 VCC=2.5 VCC=3.3V VCC=5V UNIT ±0.15V ±0.2V ±0.3V ±0.5V MIN MAX MIN MAX MIN MAX MIN MAX fclock Clockfrequency 160 160 160 160 MHz tw Pulseduration,CLKhighorlow 2.5 2.5 2.5 2.5 ns Datahigh 2.2 1.4 1.3 1.2 tsu SetuptimebeforeCLK↑ ns Datalow 2.6 1.4 1.3 1.2 th Holdtime,dataafterCLK↑ 0.3 0.4 1 0.5 ns 6 SubmitDocumentationFeedback Copyright©1999–2017,TexasInstrumentsIncorporated ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 www.ti.com SCES220U–APRIL1999–REVISEDAPRIL2017 6.8 Switching Characteristics: C = 15 pF, T = –40°C to +85°C L A overrecommendedoperatingfree-airtemperaturerange,C =15pF(unlessotherwisenoted)(seeFigure3) L TA=–40°Cto+85°C PARAMETER FROM TO VCC=1.8V VCC=2.5V VCC=3.3V VCC=5V UNIT (INPUT) (OUTPUT) ±0.15V ±0.2V ±0.3V ±0.5V MIN MAX MIN MAX MIN MAX MIN MAX fmax 160 160 160 160 MHz tpd CLK Q 2.5 9.1 1.2 6 1 4 0.8 3.8 ns 6.9 Switching Characteristics: C = 30 or 50 pF, T = –40°C to +85°C L A overrecommendedoperatingfree-airtemperaturerange,C =30pFor50pF(unlessotherwisenoted)(seeFigure4) L TA=–40°Cto+85°C PARAMETER FROM TO VCC=1.8V VCC=2.5V VCC=3.3V VCC=5V UNIT (INPUT) (OUTPUT) ±0.15V ±0.2V ±0.3V ±0.5V MIN MAX MIN MAX MIN MAX MIN MAX fmax 160 160 160 160 MHz tpd CLK Q 3.9 9.9 2 7 1.7 5 1 4.5 ns 6.10 Switching Characteristics: C = 30 pF or 50 pF, T = –40°C to +125°C L A overrecommendedoperatingfree-airtemperaturerange,C =30pFor50pF(unlessotherwisenoted)(seeFigure4) L TA=–40°Cto+125°C PARAMETER FROM TO VCC=1.8V VCC=2.5V VCC=3.3V VCC=5V UNIT (INPUT) (OUTPUT) ±0.15V ±0.2V ±0.3V ±0.5V MIN MAX MIN MAX MIN MAX MIN MAX fmax 160 160 160 160 MHz tpd CLK Q 3.9 12 2 8.5 1.7 6 1 5 ns 6.11 Operating Characteristics T =25°C A TEST VCC=1.8V VCC=2.5V VCC=3.3V VCC=5V PARAMETER UNIT CONDITIONS TYP TYP TYP TYP Cpd Powerdissipationcapacitance f=10MHz 26 26 27 30 pF Copyright©1999–2017,TexasInstrumentsIncorporated SubmitDocumentationFeedback 7 ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 SCES220U–APRIL1999–REVISEDAPRIL2017 www.ti.com 6.12 Typical Characteristics ThisplotshowsthedifferentI valuesforvariousvoltagesonthedatainput(D).Voltagesweepontheinputisfrom0Vto CC 6.5V. 2 20 VCC = 1.8 V VCC = 3.3 V 1.8 VCC = 2.5 V 18 VCC = 5.0 V 1.6 16 A] A] m 1.4 m 14 [C [C C 1.2 C 12 nt I nt I e 1 e 10 urr urr C 0.8 C 8 y y ppl 0.6 ppl 6 u u S S 0.4 4 0.2 2 0 0 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 Data (D) Input Voltage [V] Data (D) Input Voltage [V] ICCv ICCv VCC=1.8V VCC=2.5V VCC=3.3V VCC=5V Figure1.SupplyCurrent(I )vsData(D)InputVoltage Figure2.SupplyCurrent(I )vsData(D)InputVoltage CC CC 8 SubmitDocumentationFeedback Copyright©1999–2017,TexasInstrumentsIncorporated ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 www.ti.com SCES220U–APRIL1999–REVISEDAPRIL2017 7 Parameter Measurement Information V LOAD R S1 Open From Output L TEST S1 Under Test GND t /t Open C PLH PHL (see NoteA)L RL tPLZ/tPZL VLOAD t /t GND PHZ PZH LOAD CIRCUIT INPUTS V V V C R V CC V t/t M LOAD L L D I r f 1.8 V±0.15 V V £2 ns V /2 2 ×V 15 pF 1 MW 0.15 V CC CC CC 2.5 V±0.2 V V £2 ns V /2 2 ×V 15 pF 1 MW 0.15 V CC CC CC 3.3 V±0.3 V 3 V £2.5 ns 1.5 V 6 V 15 pF 1 MW 0.3 V 5 V±0.5 V V £2.5 ns V /2 2 ×V 15 pF 1 MW 0.3 V CC CC CC V I Timing Input V M 0 V t W VI tsu th V Input V V I M M Data Input V V M M 0 V 0 V VOLTAGE WAVEFORMS VOLTAGE WAVEFORMS PULSE DURATION SETUPAND HOLD TIMES Input VM VM VI COounttpruotl VM VM VI 0 V 0 V t t t t PLH PHL PZL PLZ V Output V /2 Output VM VM OH WSav1e afot rVm 1 VM V + V LOAD VOL (see NoteL OBAD) OL D VOL t t PHL PLH t t PZH PHZ Output VM VM VOH WSa1v eaOfto uGrtmpNu D2t VM VOH–VD VOH VOL (see Note B) »0 V VOLTAGE WAVEFORMS VOLTAGE WAVEFORMS PROPAGATION DELAYTIMES ENABLEAND DISABLE TIMES INVERTINGAND NONINVERTING OUTPUTS LOW-AND HIGH-LEVELENABLING NOTES: A. C includes probe and jig capacitance. L B. Waveform 1 is for an output with internal conditions such that the output is low, except when disabled by the output control. Waveform 2 is for an output with internal conditions such that the output is high, except when disabled by the output control. C. All input pulses are supplied by generators having the following characteristics: PRR£10 MHz, Z = 50W. O D. The outputs are measured one at a time, with one transition per measurement. E. t and t are the same as t . PLZ PHZ dis F. t and t are the same as t . PZL PZH en G.t and t are the same as t . PLH PHL pd H. All parameters and waveforms are not applicable to all devices. Figure3. LoadCircuitandVoltageWaveforms Copyright©1999–2017,TexasInstrumentsIncorporated SubmitDocumentationFeedback 9 ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 SCES220U–APRIL1999–REVISEDAPRIL2017 www.ti.com Parameter Measurement Information (continued) V LOAD R S1 Open From Output L TEST S1 Under Test GND t /t Open C PLH PHL (see NoteA)L RL tPLZ/tPZL VLOAD t /t GND PHZ PZH LOAD CIRCUIT INPUTS V V V C R V CC V t/t M LOAD L L D I r f 1.8 V±0.15 V V £2 ns V /2 2 ×V 30 pF 1 kW 0.15 V CC CC CC 2.5 V±0.2 V V £2 ns V /2 2 ×V 30 pF 500W 0.15 V CC CC CC 3.3 V±0.3 V 3 V £2.5 ns 1.5 V 6 V 50 pF 500W 0.3 V 5 V±0.5 V V £2.5 ns V /2 2 ×V 50 pF 500W 0.3 V CC CC CC V I Timing Input V M 0 V t W VI tsu th V Input V V I M M Data Input V V M M 0 V 0 V VOLTAGE WAVEFORMS VOLTAGE WAVEFORMS PULSE DURATION SETUPAND HOLD TIMES Input VM VM VI COounttpruotl VM VM VI 0 V 0 V t t t t PLH PHL PZL PLZ V Output V /2 Output VM VM OH WSav1e afot rVm 1 VM V + V LOAD VOL (see NoteL OBAD) OL D VOL t t PHL PLH t t PZH PHZ Output VM VM VOH WSa1v eaOfto uGrtmpNu D2t VM VOH–VD VOH VOL (see Note B) »0 V VOLTAGE WAVEFORMS VOLTAGE WAVEFORMS PROPAGATION DELAYTIMES ENABLEAND DISABLE TIMES INVERTINGAND NONINVERTING OUTPUTS LOW-AND HIGH-LEVELENABLING NOTES: A. C includes probe and jig capacitance. L B. Waveform 1 is for an output with internal conditions such that the output is low, except when disabled by the output control. Waveform 2 is for an output with internal conditions such that the output is high, except when disabled by the output control. C. All input pulses are supplied by generators having the following characteristics: PRR£10 MHz, Z = 50W. O D. The outputs are measured one at a time, with one transition per measurement. E. t and t are the same as t . PLZ PHZ dis F. t and t are the same as t . PZL PZH en G.t and t are the same as t . PLH PHL pd H. All parameters and waveforms are not applicable to all devices. Figure4. LoadCircuitandVoltageWaveforms 10 SubmitDocumentationFeedback Copyright©1999–2017,TexasInstrumentsIncorporated ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 www.ti.com SCES220U–APRIL1999–REVISEDAPRIL2017 8 Detailed Description 8.1 Overview The SN74LVC1G79 is a single positive-edge-triggered D-type flip-flop. Data at the input (D) is transferred to the output (Q) on the positive-going edge of the clock pulse when the setup time requirement is met. Because the clock triggering occurs at a voltage level, it is not directly related to the rise time of the clock pulse. This allows fordataattheinputtobechangedwithoutaffectingthelevelattheoutput,followingthehold-timeinterval. 8.2 Functional Block Diagram 2 CLK C C C 4 TG Q C C C C 1 D TG TG TG C C C Copyright © 2017,Texas Instruments Incorporated Figure5. LogicDiagram(PositiveLogic) 8.3 Feature Description 8.3.1 BalancedHigh-DriveCMOSPush-PullOutputs A balanced output allows the device to sink and source similar currents. The high drive capability of this device creates fast edges into light loads so routing and load conditions should be considered to prevent ringing. Additionally, the outputs of this device are capable of driving larger currents than the device can sustain without being damaged. It is important for the power output of the device to be limited to avoid thermal runaway and damage due to over-current. The electrical and thermal limits defined the in the Absolute Maximum Ratings must befollowedatalltimes. 8.3.2 StandardCMOSInputs Standard CMOS inputs are high impedance and are typically modeled as a resistor in parallel with the input capacitance given in the Electrical Characteristics. The worst case resistance is calculated with the maximum input voltage, given in the Recommended Operating Conditions, and the maximum input leakage current, given intheElectricalCharacteristics,usingohm'slaw(R=V ÷ I). Signals applied to the inputs need to have fast edge rates, as defined by Δt/Δv in Recommended Operating Conditions to avoid excessive currents and oscillations. If tolerance to a slow or noisy input signal is required, a device with a Schmitt-trigger input should be utilized to condition the input signal prior to the standard CMOS input. Copyright©1999–2017,TexasInstrumentsIncorporated SubmitDocumentationFeedback 11 ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 SCES220U–APRIL1999–REVISEDAPRIL2017 www.ti.com Feature Description (continued) 8.3.3 ClampDiodes Theinputsandoutputstothisdevicehavenegativeclampingdiodes. CAUTION Voltages beyond the values specified in the Absolute Maximum Ratings table can cause damage to the device. The input negative-voltage and output voltage ratings maybeexceedediftheinputandoutputclamp-currentratingsareobserved. V Device CC Input Logic Output -IIK -IOK GND Figure6. ElectricalPlacementofClampingDiodesforEachInputandOutput 8.3.4 PartialPowerDown(I ) off The inputs and outputs for this device enter a high impedance state when the supply voltage is 0 V. The maximum leakage into or out of any input or output pin on the device is specified by I in the Electrical off Characteristics. 8.3.5 Over-VoltageTolerantInputs Input signals to this device can be driven above the supply voltage so long as they remain below the maximum inputvoltagevaluespecifiedintheAbsoluteMaximumRatings. 8.4 Device Functional Modes Table1liststhefunctionalmodesofSN74LVC1G79. Table1.FunctionTable INPUTS OUTPUT CLK D Y ↑ H H ↑ L L L X Q 0 12 SubmitDocumentationFeedback Copyright©1999–2017,TexasInstrumentsIncorporated ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 www.ti.com SCES220U–APRIL1999–REVISEDAPRIL2017 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 A useful application for the SN74LVC1G79 is using it as a data latch with low-voltage data retention. This application implements the use of a microcontroller GPIO pin to act as a clock to set the output state and a second GPIO to provide the input data. If the SN74LVC1G79 is being powered from 1.8 V and there is concern that a power glitch could exist as low as 1.5 V, the device will retain the state of the Q output. An example of this data retention is shown in Figure 8 where the V drops to 1.5 V and the Q output maintains the HIGH output CC statewhenV returnsto1.8V.IftheV voltagedropsbelow1.5V,dataretentionisnotguaranteed. CC CC 9.2 Typical Application V > 1.65V for Operation CC V > 1.50V for Data Retention CC GPIO 1 D VCC 5 MCU SN74LVC1G79 2 CLK CLK 3 GND Q 4 Copyright © 2017, Texas Instruments Incorporated Figure7. LowVoltageDataRetentionWithSN74LVC1G79 9.2.1 DesignRequirements The SN74LVC1G79 device uses CMOS technology and has balanced output drive. Take care to avoid bus contentionbecauseitcandrivecurrentsthatwouldexceedmaximumlimits. 9.2.2 DetailedDesignProcedure 1. Recommendedinputconditions: – Forrisetimeandfalltimespecifications,see Δt/ΔvinRecommendedOperatingConditions. – Forspecifiedhighandlowlevels,seeV andV inRecommendedOperatingConditions. IH IL – Input voltages are recommended to not go below 0 V and not exceed 5.5 V for any V . See CC RecommendedOperatingConditions. 2. Recommendedoutputconditions: – Loadcurrentsshouldnotexceed ±50mA.SeeAbsoluteMaximumRatings. – Output voltages are recommended to not go below 0 V and not exceed the V voltage. See CC RecommendedOperatingConditions. Copyright©1999–2017,TexasInstrumentsIncorporated SubmitDocumentationFeedback 13 ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 SCES220U–APRIL1999–REVISEDAPRIL2017 www.ti.com Typical Application (continued) 9.2.3 ApplicationCurve Positive Supply Voltage (V ) CC NNoonn--iinnvveerrtteedd OOuuttppuutt ((QQ)) Figure8. DataRetentionWithV GlitchDownto1.5V CC 10 Power Supply Recommendations The power supply can be any voltage between the minimum and maximum supply voltage rating listed in RecommendedOperatingConditions.A0.1-µFbypasscapacitorisrecommendedtobeconnectedfromtheVCC terminal to GND to prevent power disturbance. To reject different frequencies of noise, use multiple bypass capacitors in parallel. Capacitors with values of 0.1 µF and 1 µF are commonly used in parallel. The bypass capacitormustbeinstalledasclosetothepowerterminalaspossibleforbestresults. 11 Layout 11.1 Layout Guidelines When a PCB trace turns a corner at a 90° angle, a reflection can occur. A reflection occurs primarily because of the change of width of the trace. At the apex of the turn, the trace width increases to 1.414 times the width. This increase upsets the transmission-line characteristics, especially the distributed capacitance and self–inductance of the trace which results in the reflection. Not all PCB traces can be straight and therefore some traces must turn corners. Figure 9 shows progressively better techniques of rounding corners. Only the last example (BEST) maintainsconstanttracewidthandminimizesreflections. 11.2 Layout Example WORST BETTER BEST W 2 1W min. W Figure9. TraceExample 14 SubmitDocumentationFeedback Copyright©1999–2017,TexasInstrumentsIncorporated ProductFolderLinks:SN74LVC1G79

SN74LVC1G79 www.ti.com SCES220U–APRIL1999–REVISEDAPRIL2017 12 Device and Documentation Support 12.1 Documentation Support 12.1.1 RelatedDocumentation Forrelateddocumentationseethefollowing: • ImplicationsofSloworFloatingCMOSInputs,SCBA004 • UnderstandingandInterpretingStandardLogicDataSheets,SZZA036 • Power-UpBehaviorofClockedDevices,SCHA005 12.2 Receiving Notification of Documentation Updates To receive notification of documentation updates, navigate to the device product folder on ti.com. In the upper right corner, click on Alert me to register and receive a weekly digest of any product information that has changed.Forchangedetails,reviewtherevisionhistoryincludedinanyreviseddocument. 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 NanoFree,E2EaretrademarksofTexasInstruments. 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.Forbrowserbasedversionsofthisdatasheet,refertothelefthandnavigation. Copyright©1999–2017,TexasInstrumentsIncorporated SubmitDocumentationFeedback 15 ProductFolderLinks:SN74LVC1G79

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) SN74LVC1G79DBVR ACTIVE SOT-23 DBV 5 3000 Green (RoHS NIPDAU | SN Level-1-260C-UNLIM -40 to 125 (C795, C79F, C79J, & no Sb/Br) C79R) SN74LVC1G79DBVT ACTIVE SOT-23 DBV 5 250 Green (RoHS NIPDAU | SN Level-1-260C-UNLIM -40 to 125 (C795, C79F, C79J, & no Sb/Br) C79R) SN74LVC1G79DBVTG4 ACTIVE SOT-23 DBV 5 250 Green (RoHS NIPDAU Level-1-260C-UNLIM -40 to 125 C79F & no Sb/Br) SN74LVC1G79DCKR ACTIVE SC70 DCK 5 3000 Green (RoHS NIPDAU | SN Level-1-260C-UNLIM -40 to 125 (CR5, CRF, CRJ, CR & no Sb/Br) R) SN74LVC1G79DCKRE4 ACTIVE SC70 DCK 5 3000 Green (RoHS NIPDAU Level-1-260C-UNLIM -40 to 125 CR5 & no Sb/Br) SN74LVC1G79DCKRG4 ACTIVE SC70 DCK 5 3000 Green (RoHS NIPDAU Level-1-260C-UNLIM -40 to 125 CR5 & no Sb/Br) SN74LVC1G79DCKT ACTIVE SC70 DCK 5 250 Green (RoHS NIPDAU | SN Level-1-260C-UNLIM -40 to 125 (CR5, CRF, CRJ, CR & no Sb/Br) R) SN74LVC1G79DCKTG4 ACTIVE SC70 DCK 5 250 Green (RoHS NIPDAU Level-1-260C-UNLIM -40 to 125 CR5 & no Sb/Br) SN74LVC1G79DRLR ACTIVE SOT-5X3 DRL 5 4000 Green (RoHS NIPDAU | NIPDAUAG Level-1-260C-UNLIM -40 to 125 (CR7, CRR) & no Sb/Br) SN74LVC1G79YZPR ACTIVE DSBGA YZP 5 3000 Green (RoHS SNAGCU Level-1-260C-UNLIM -40 to 85 (CR7, CRN) & 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. Addendum-Page 1

PACKAGE OPTION ADDENDUM www.ti.com 6-Feb-2020 (4) There may be additional marking, which relates to the logo, the lot trace code information, or the environmental category on the device. (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 SN74LVC1G79 : •Automotive: SN74LVC1G79-Q1 •Enhanced Product: SN74LVC1G79-EP NOTE: Qualified Version Definitions: •Automotive - Q100 devices qualified for high-reliability automotive applications targeting zero defects •Enhanced Product - Supports Defense, Aerospace and Medical Applications Addendum-Page 2

PACKAGE MATERIALS INFORMATION www.ti.com 24-Jul-2020 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) SN74LVC1G79DBVR SOT-23 DBV 5 3000 178.0 9.0 3.23 3.17 1.37 4.0 8.0 Q3 SN74LVC1G79DBVR SOT-23 DBV 5 3000 180.0 8.4 3.23 3.17 1.37 4.0 8.0 Q3 SN74LVC1G79DBVR SOT-23 DBV 5 3000 178.0 9.2 3.3 3.23 1.55 4.0 8.0 Q3 SN74LVC1G79DBVR SOT-23 DBV 5 3000 178.0 9.0 3.3 3.2 1.4 4.0 8.0 Q3 SN74LVC1G79DBVT SOT-23 DBV 5 250 178.0 9.0 3.3 3.2 1.4 4.0 8.0 Q3 SN74LVC1G79DBVT SOT-23 DBV 5 250 180.0 8.4 3.23 3.17 1.37 4.0 8.0 Q3 SN74LVC1G79DBVT SOT-23 DBV 5 250 178.0 9.2 3.3 3.23 1.55 4.0 8.0 Q3 SN74LVC1G79DBVT SOT-23 DBV 5 250 178.0 9.0 3.3 3.2 1.4 4.0 8.0 Q3 SN74LVC1G79DBVTG4 SOT-23 DBV 5 250 178.0 9.0 3.23 3.17 1.37 4.0 8.0 Q3 SN74LVC1G79DCKR SC70 DCK 5 3000 180.0 8.4 2.47 2.3 1.25 4.0 8.0 Q3 SN74LVC1G79DCKR SC70 DCK 5 3000 178.0 9.0 2.4 2.5 1.2 4.0 8.0 Q3 SN74LVC1G79DCKR SC70 DCK 5 3000 178.0 9.2 2.4 2.4 1.22 4.0 8.0 Q3 SN74LVC1G79DCKRG4 SC70 DCK 5 3000 178.0 9.2 2.4 2.4 1.22 4.0 8.0 Q3 SN74LVC1G79DCKT SC70 DCK 5 250 178.0 9.2 2.4 2.4 1.22 4.0 8.0 Q3 SN74LVC1G79DCKT SC70 DCK 5 250 178.0 9.0 2.4 2.5 1.2 4.0 8.0 Q3 SN74LVC1G79DCKTG4 SC70 DCK 5 250 178.0 9.2 2.4 2.4 1.22 4.0 8.0 Q3 SN74LVC1G79DRLR SOT-5X3 DRL 5 4000 180.0 8.4 1.98 1.78 0.69 4.0 8.0 Q3 SN74LVC1G79DRLR SOT-5X3 DRL 5 4000 180.0 9.5 1.78 1.78 0.69 4.0 8.0 Q3 PackMaterials-Page1

PACKAGE MATERIALS INFORMATION www.ti.com 24-Jul-2020 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) SN74LVC1G79YZPR DSBGA YZP 5 3000 178.0 9.2 1.02 1.52 0.63 4.0 8.0 Q1 *Alldimensionsarenominal Device PackageType PackageDrawing Pins SPQ Length(mm) Width(mm) Height(mm) SN74LVC1G79DBVR SOT-23 DBV 5 3000 180.0 180.0 18.0 SN74LVC1G79DBVR SOT-23 DBV 5 3000 202.0 201.0 28.0 SN74LVC1G79DBVR SOT-23 DBV 5 3000 180.0 180.0 18.0 SN74LVC1G79DBVR SOT-23 DBV 5 3000 180.0 180.0 18.0 SN74LVC1G79DBVT SOT-23 DBV 5 250 180.0 180.0 18.0 SN74LVC1G79DBVT SOT-23 DBV 5 250 202.0 201.0 28.0 SN74LVC1G79DBVT SOT-23 DBV 5 250 180.0 180.0 18.0 SN74LVC1G79DBVT SOT-23 DBV 5 250 180.0 180.0 18.0 SN74LVC1G79DBVTG4 SOT-23 DBV 5 250 180.0 180.0 18.0 SN74LVC1G79DCKR SC70 DCK 5 3000 202.0 201.0 28.0 SN74LVC1G79DCKR SC70 DCK 5 3000 180.0 180.0 18.0 SN74LVC1G79DCKR SC70 DCK 5 3000 180.0 180.0 18.0 SN74LVC1G79DCKRG4 SC70 DCK 5 3000 180.0 180.0 18.0 SN74LVC1G79DCKT SC70 DCK 5 250 180.0 180.0 18.0 SN74LVC1G79DCKT SC70 DCK 5 250 180.0 180.0 18.0 SN74LVC1G79DCKTG4 SC70 DCK 5 250 180.0 180.0 18.0 PackMaterials-Page2

PACKAGE MATERIALS INFORMATION www.ti.com 24-Jul-2020 Device PackageType PackageDrawing Pins SPQ Length(mm) Width(mm) Height(mm) SN74LVC1G79DRLR SOT-5X3 DRL 5 4000 202.0 201.0 28.0 SN74LVC1G79DRLR SOT-5X3 DRL 5 4000 184.0 184.0 19.0 SN74LVC1G79YZPR DSBGA YZP 5 3000 220.0 220.0 35.0 PackMaterials-Page3

PACKAGE OUTLINE DBV0005A SOT-23 - 1.45 mm max height SCALE 4.000 SMALL OUTLINE TRANSISTOR C 3.0 2.6 0.1 C 1.75 1.45 1.45 B A 0.90 PIN 1 INDEX AREA 1 5 2X 0.95 3.05 2.75 1.9 1.9 2 4 3 0.5 5X 0.3 0.15 0.2 C A B (1.1) TYP 0.00 0.25 GAGE PLANE 0.22 TYP 0.08 8 TYP 0.6 0 0.3 TYP SEATING PLANE 4214839/E 09/2019 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. Refernce JEDEC MO-178. 4. Body dimensions do not include mold flash, protrusions, or gate burrs. Mold flash, protrusions, or gate burrs shall not exceed 0.15 mm per side. www.ti.com

EXAMPLE BOARD LAYOUT DBV0005A SOT-23 - 1.45 mm max height SMALL OUTLINE TRANSISTOR PKG 5X (1.1) 1 5 5X (0.6) SYMM (1.9) 2 2X (0.95) 3 4 (R0.05) TYP (2.6) LAND PATTERN EXAMPLE EXPOSED METAL SHOWN SCALE:15X SOLDER MASK SOLDER MASK METAL UNDER METAL OPENING OPENING SOLDER MASK EXPOSED METAL EXPOSED METAL 0.07 MAX 0.07 MIN ARROUND ARROUND NON SOLDER MASK SOLDER MASK DEFINED DEFINED (PREFERRED) SOLDER MASK DETAILS 4214839/E 09/2019 NOTES: (continued) 5. Publication IPC-7351 may have alternate designs. 6. Solder mask tolerances between and around signal pads can vary based on board fabrication site. www.ti.com

EXAMPLE STENCIL DESIGN DBV0005A SOT-23 - 1.45 mm max height SMALL OUTLINE TRANSISTOR PKG 5X (1.1) 1 5 5X (0.6) SYMM 2 (1.9) 2X(0.95) 3 4 (R0.05) TYP (2.6) SOLDER PASTE EXAMPLE BASED ON 0.125 mm THICK STENCIL SCALE:15X 4214839/E 09/2019 NOTES: (continued) 7. Laser cutting apertures with trapezoidal walls and rounded corners may offer better paste release. IPC-7525 may have alternate design recommendations. 8. Board assembly site may have different recommendations for stencil design. www.ti.com

PACKAGE OUTLINE YZP0005 DSBGA - 0.5 mm max height SCALE 8.000 DIE SIZE BALL GRID ARRAY B E A BALL A1 CORNER D C 0.5 MAX SEATING PLANE 0.19 0.05 C 0.15 BALL TYP 0.5 TYP C SYMM 1 B D: Max = 1.418 mm, Min =1 .358 mm TYP 0.5 TYP E: Max = 0.918 mm, Min =0 .858 mm A 0.25 5X 1 2 0.21 0.015 C A B SYMM 4219492/A 05/2017 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. www.ti.com

EXAMPLE BOARD LAYOUT YZP0005 DSBGA - 0.5 mm max height DIE SIZE BALL GRID ARRAY (0.5) TYP 5X ( 0.23) 1 2 A (0.5) TYP SYMM B C SYMM LAND PATTERN EXAMPLE SCALE:40X SOLDER MASK 0.05 MAX 0.05 MIN ( 0.23) OPENING SOLDER MASK OPENING ( 0.23) METAL METAL UNDER SOLDER MASK NON-SOLDER MASK SOLDER MASK DEFINED DEFINED (PREFERRED) SOLDER MASK DETAILS NOT TO SCALE 4219492/A 05/2017 NOTES: (continued) 3. Final dimensions may vary due to manufacturing tolerance considerations and also routing constraints. For more information, see Texas Instruments literature number SNVA009 (www.ti.com/lit/snva009). www.ti.com

EXAMPLE STENCIL DESIGN YZP0005 DSBGA - 0.5 mm max height DIE SIZE BALL GRID ARRAY (0.5) TYP 5X ( 0.25) (R0.05) TYP 1 2 A (0.5) TYP B SYMM C METAL SYMM TYP SOLDER PASTE EXAMPLE BASED ON 0.1 mm THICK STENCIL SCALE:40X 4219492/A 05/2017 NOTES: (continued) 4. Laser cutting apertures with trapezoidal walls and rounded corners may offer better paste release. www.ti.com

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