LITTLE LOGIC SELECTION GUIDE - Texas Instruments

1 RELIABLE. LOGIC . 2002(actual size of chip)DBVDCKDBVDCKAHCCBTDDBVDCKCBTLVDBVDC KDBV(5)DCK(5)DCTDBV(6)DCUDCK(6)YEAYZAAUC LV CDBV(5)DCK(5)DCTDBV(6)DCUDCK(6)YEAYZADBV DCKCBTAHCT2 OverviewTexas InstrumentsOverviewSelection GuideCross-ReferencePackagingWCSP Design SummaryResources and SupportA WINNING DESIGN IS LIKE A Instruments GIVES YOU THE RIGHT Package OptionsQuad-Gate14-pin TSSOP33,66 mm2 Single-Gate5-pin YEA1,26 mm2Up to 96% less spaceDual-Gate8-pin DCU11,8 mm2Up to 35% less spaceLittle LOGIC devices from TexasInstruments (TI) are the piecesthat help complete the designpuzzle. Their extremely smallsize gives designers the abilityto greatly simplify design rout-ing and maximize ASIC designdevelopment. LITTLE Logicdevices in 5-pin SOT-23, 5-pinSC-70, 6-pin SOT-23, 6-pin SC-70, 8-pin SM-8, 8-pin US-8and the NanoStar andNanoFree packages allowdesigners to place a particulargate function close to relatedcircuitry, shortening and sim-plifying routes on a board.

2 Thisrepresents a major advanceover multiple-gate devices,which require the routing ofmultiple etches from distinctpartitions on a printed circuitboard (PCB) through one logicdevice. In addition, TI s LittleLogic devices also allow design-ers to alter the output of anASIC without redesign andmanufacture, effectivelyextending the life of the deviceand maximizing design invest-ment. TI s growing line of LittleLogic products is helpingdesigners in almost every end-equipment build more simple,powerful and cost-effectivedesigns. If you would like moreinformation on how TI s LittleLogic can help you put all yourdesign pieces together, callyour local TI Field Sales officeor your authorized TI distribu-tor. Or visit our Web site LOGIC Simplifies Board Layout and Offers Better Overall PerformanceSimplified RoutingQuick Fixes for ASICsAfterBeforeHighLowHighASICLow PBufferQuad Gate14-pinTSSOPS ingleGateSingleGateSingleGateSingleGateC ONTENTSO verview2 LITTLE LOGIC Products by Performance3 LITTLE LOGIC Signal Switches4 LOGIC Migration to Future4 SELECTION Guide5 Single-Gate Functions5 Dual-Gate Functions6 Triple-Gate Functions7 Signal-Switch Functions7 Cross-Reference8 Competitor Cross-Reference8 Part Number Definition12 Competitor Part Prefixes12 Packaging13 LITTLE LOGIC Packaging and MechanicalData13 LITTLE LOGIC Package Cross-Reference13 WCSP Design Summary14 Introduction to WCSP14 Package Data14IR Reflow Profile16 PCB Design Guidelines16 Stencil Vitals17 Packaging Tape and Reel17 Electrical Characteristics18 Board Level Reliability Data18 Thermal

3 Characteristics18 Resources and Support19On-Line Help19 Literature19 LITTLE LOGIC Sample Requests19TI Worldwide Technical Support20 Texas InstrumentsOverview 3 OverviewSelection GuideCross-ReferencePackagingWCSP Design SummaryResources and SupportAHC (Advanced High-Speed CMOS) Operating range: 2 to VCC 5-ns typical tpdSN74 AHC1G00SN74 AHC1G14SN74 AHC1G02SN74 AHC1G32SN74 AHC1G04SN74 AHC1G86SN74 AHC1GU04SN74 AHC1G125SN74 AHC1G08SN74 AHC1G126 AHCT (Advanced High-Speed CMOS) Operating range: to VCC typical tpdSN74 AHCT1G00SN74 AHCT1G32SN74 AHCT1G02SN74 AHCT1G86SN74 AHCT1G04SN74 AHCT1G125SN74 AHCT1G08SN74 AHCT1G126SN74 AHCT1G14SN74 LVC1G00SN74 LVC1G02SN74 LVC1G04SN74 LVC1GU04SN74 LVC1G06SN74 LVC1G07SN74 LVC1G08SN74 LVC1G14SN74 LVC1G17SN74 LVC1G18SN74 LVC1G32SN74 LVC1G66SN74 LVC1G79SN74 LVC1G80SN74 LVC1G86SN74 LVC1G125SN74 LVC1G126SN74 LVC1G240SN74 LVC2G00SN74 LVC2G02SN74 LVC2G04SN74 LVC2GU04SN74 LVC2G06SN74 LVC2G07SN74 LVC2G08SN74 LVC2G14SN74 LVC2G17SN74 LVC2G32SN74 LVC2G34SN74 LVC2G53SN74 LVC2G66SN74 LVC2G74SN74 LVC2G79SN74 LVC2G80SN74 LVC2G86SN74 LVC2G125SN74 LVC2G126SN74 LVC2G157SN74 LVC2G240SN74 LVC2G241SN74 LVC3G04SN74 LVC3GU04SN74 LVC3G06SN74 LVC3G07SN74 LVC3G14SN74 LVC3G17SN74 LVC3G34 LVC (Low Voltage CMOS) Operating range.

4 To VCC typical tpdLITTLE LOGIC PRODUCTS BY PERFORMANCE SN74 AUC1G00SN74 AUC1G02SN74 AUC1G04SN74 AUC1GU04SN74 AUC1G06SN74 AUC1G07SN74 AUC1G08SN74 AUC1G14SN74 AUC1G17SN74 AUC1G32SN74 AUC1G66SN74 AUC1G79SN74 AUC1G80SN74 AUC1G86SN74 AUC1G125SN74 AUC1G126SN74 AUC1G240SN74 AUC2G00SN74 AUC2G02SN74 AUC2G04SN74 AUC2GU04SN74 AUC2G06SN74 AUC2G08SN74 AUC2G14SN74 AUC2G17SN74 AUC2G32SN74 AUC2G34SN74 AUC2G53SN74 AUC2G66SN74 AUC2G74SN74 AUC2G79SN74 AUC2G80SN74 AUC2G86SN74 AUC2G125SN74 AUC2G126SN74 AUC2G157SN74 AUC2G240SN74 AUC2G241SN74 AUC3G04SN74 AUC3GU04SN74 AUC3G06SN74 AUC3G07SN74 AUC3G14SN74 AUC3G17SN74 AUC3G34 AUC (Advanced Ultra-Low Voltage CMOS) Operating range: to VCC typical tpdPerformance ComparisonsOperatingOptimizedPropagation OutputInputVoltage RangeVoltageDelay - tpdDriveToleranceIOFFF amily(V)(V)(typ) (ns)(mA)(V) to to to to to to to The progagation delay is the calculated RC time constant of the typical on-state resistance of the switch and the specified load capacitance, when driven by an ideal voltagesource (zero output impedance).

5 The value listed is a maximum. The FET switch has no output drive. The drive current at the output terminal is determined by the drive current of the device connected at the input terminal of the FET OverviewTexas InstrumentsOverviewSelection GuideCross-ReferencePackagingWCSP Design SummaryResources and SupportLOGIC MIGRATION TO FUTUREAs portable electronics design-ers look to extend battery life,operating voltages decrease. TImakes the migration to loweroperating system voltagessimple by offering numerouslogic technologies with mixedvoltage operation from The above chart repre-sents TI s LOGIC technologyoffering in LITTLE LOGIC atvarious operating voltages andpropagation AdvancementSupply Voltage (VCC) V3210 AHC nsLVC nsLVC nsAUC ns5 VLVC nsAUC nsAUC nsAUC nsAUC ns+++++++AHC nsAHCT nsLVC nsLITTLE LOGIC SIGNAL SWITCHESCBT (Bus Switch) Operating range: 4-V to VCC typical tpdSN74 CBT1G125SN74 CBT1G384SN74 CBTD1G125SN74 CBTD1G384 CBTLV (Low Voltage Bus Switch) Operating range: to VCC typical tpdSN74 CBTLV1G125 LVC (Low Voltage CMOS) Operating range: to VCC typical tpdSN74 LVC1G66SN74 LVC2G66 AUC (Advanced Ultra-Low-VoltageCMOS) Operating range.

6 To VCC typical tpdSN74 AUC1G53SN74 AUC1G66SN74 AUC2G66 The LVC1G66 can be used forsimple translation from 5-VTTL levels to LVTTL. Thecontrol pin is tolerant to Vand, with a maximum ronof LVC1G66 TTL-to-LVTTL Level Shifter15 at VCC= V, the volt-age drop across the switch isonly V with 24 mA ofthrough the Application Report,Choosing the Right TI Signal VLVTTL5-V TTLS ignalTexas InstrumentsSelection GUIDE 5 OverviewSelection GuideCross-ReferencePackagingWCSP Design SummaryResources and SupportSINGLE-GATE FUNCTIONSP erformancePackageFunctionDescriptionAHCA HCTLVCAUCDBVDCKYEA*YZA*1G00 Single 2-Input NAND GateAAAAAAAA1G02 Single 2-Input NOR GateAAAAAAAA1G04 Single InverterAAAAAAAA1GU04 Single Inverter (Unbuffered)AAAAAPP1G06 Single Inverter Buffer/Driver With Open Drain OutputAAAAPP1G07 Single Buffer/Driver With Open Drain OutputAAAAAA1G08 Single 2-Input AND GateAAAAAAAA1G14 Single Schmitt Trigger InverterAAAAAAAA1G17 Single Schmitt Trigger BufferAAAAPP1G181 of 2 Non-Inverting MuxPPPPPP1G32 Single 2-Input OR GateAAAAAAAA1G66 Single Analog SwitchAAAAAA1G79 Single D-Type Flip-Flop (Q Output)APAAAA1G80 Single D-Type Flip-Flop (Q_Output)APAAPP1G86 Single 2-Input Exclusive-OR GateAAAPAAAA1G125 Single Bus Buffer Gate With 3-State Output AAAAAAPP1G126 Single Bus Buffer Gate With 3-State Output AAAAAAPP1G240 Single Buffer/Driver With 3-State OutputAAAAPP*YEA and YZA (NanoStar and NanoFree) are only active in LVC and AUC technologies.

7 A = AvailableP = Planned*YZA (NanoFree) is the lead-free version of : Visit product release updates. Information above valid as of July Diagrams6 SELECTION GuideTexas InstrumentsOverviewSelection GuideCross-ReferencePackagingWCSP Design SummaryResources and SupportDUAL-GATE FUNCTIONSP erformancePackageFunctionDescriptionLVCA UCDBV (6)DCK (6)DCTDCUYEA*YZA*2G00 Dual 2-Input NAND GatesAPAAPP2G02 Dual 2-Input NOR GatesAPAAPP2G04 Dual InvertersAPAAPP2GU04 Dual Inverters (Unbuffered)APAAPP2G06 Dual Inverter Buffer/Drivers With Open DrainsAPAAPP2G07 Dual Non-Inverters With Open DrainsAPAAPP2G08 Dual 2-Input AND GatesAPAAPP2G14 Dual Schmitt Trigger InvertersAPAAPP2G17 Dual Schmitt Trigger Input BuffersAAAPP2G32 Dual 2-Input OR GatesAPAAPP2G34 Dual Buffer Gates APAAPP2G53 Dual Analog Mux/DemuxesAPAAAA2G66 Dual Analog SwitchesAPAAAA2G74 Single Positive Edge Triggered D-Type Flip-Flop APAAPPWith Clear & Reset2G79 Dual D-Type Flip-Flop (Q Output)

8 PPPPPP2G80 Dual D-Type Flip-Flop (Q_Output)PPPPPP2G86 Dual 2-Input Exclusive-OR GatesAPAAPP2G125 Dual Bus Buffer Gate With 3-State OutputsAPAAPP2G126 Dual Bus Buffer Gate With 3-State OutputsAPAAPP2G157 Single 2 Line-to-1 Line Data Selector/MultiplexerAPAAPP2G240 Dual Bus Buffer Gates With 3-State OutputsPPPPPP2G241 Dual Buffer/Drivers With 3-State OutputsAPAAPP*YEA and YZA (NanoStar and NanoFree) are only active in LVC and AUC technologies. A = AvailableP = Planned*YZA (NanoFree) is the lead-free version of : Visit product release updates. Information above valid as of July DiagramsTexas InstrumentsSelection GUIDE 7 OverviewSelection GuideCross-ReferencePackagingWCSP Design SummaryResources and SupportTRIPLE-GATE FUNCTIONSP erformancePackageFunctionDescriptionLVCA UCDCTDCUYEA*YZA*3G04 Triple InvertersAPAAPP3GU04 Triple Inverters (Unbuffered)PPPPPP3G06 Triple Inverter Buffer/Drivers With Open Drain OutputsAPAAPP3G07 Triple Buffer/Drivers With Open Drain OutputsAPAAPP3G14 Triple Schmitt Trigger InvertersAPAAPP3G17 Triple Schmitt Trigger BuffersPPPPPP3G34 Triple Buffer GatesAPAAPP*YEA and YZA (NanoStar and NanoFree) are only active in LVC and AUC = AvailableP = Planned*YZA (NanoFree) is the lead-free version of : Visit product release updates.

9 Information above valid as of July FUNCTIONSP erformancePackagingFunctionDescriptionCB TCBTDCBTLVLVCAUCDBV (5)DCK (5)DCTDCUYEA*YZA*1G66 Single Analog SwitchAAAAPP1G125 Single Bus SwitchAA AAAPP1G384 Single Bus SwitchAAAAPP2G53 Dual Analog Mux/DemuxesAPAAAA2G66 Dual Analog SwitchesAPAAAA*YEA and YZA (NanoStar and NanoFree) are only active in LVC and AUC technologies. A = AvailableP = Planned*YZA (NanoFree) is the lead-free version of : Visit product release updates. Information above valid as of July DiagramsSignal-Switch Diagrams8 Cross-ReferenceTexas InstrumentsOverviewSelection GuideCross-ReferencePackagingWCSP Design SummaryResources and SupportAHCT Devices (5-pin, unless noted)FunctionCompany (Prefix):TI (AHCT)Toshiba (TC7SE/WT)Fairchild (NC7ST)ON (VHC1GT)STMicro (V1T) 1G00 Single 2-Input NAND GateSN74 AHCT1G00TC7 SET00NC7ST00MC74 VHC1GT0074V1T001G02 Single 2-Input NOR GateSN74 AHCT1G02TC7 SET02NC7ST02MC74 VHC1GT0274V1T021G04 Single InverterSN74 AHCT1G04TC7 SET04NC7ST04MC74 VCH1GT0474V1T041G08 Single 2-Input AND GateSN74 AHCT1G08TC7 SET08NC7ST08MC74 VHC1GT0874V1T081G14 Single Schmitt Trigger InverterSN74 AHCT1G14MC74 VHC1GT1474V1T141G32 Single 2-Input OR GateSN74 AHCT1G32TC7 SET32NC7ST32MC74 VHC1GT3274V1T321G86 Single 2-Input Exclusive-OR GateSN74 AHCT1G86TC7 SET86NC7ST86MC74 VHC1GT8674V1T861G125 Single Bus Buffer Gate w/3-State OutputSN74 AHCT1G125MC74 VHC1GT12574V1T1251G126 Single Bus Buffer Gate w/3-State OutputSN74 AHCT1G126MC74 VHC1GT12674V1T126 LVC DevicesFunctionCompany (Prefix).

10 TI (LVC)Toshiba (TC7S/WZ)Fairchild (NC7S/WZ)ON (VHC)STMicro (LX) Philips (LVC)IDT (LVC)Pericom (STX)Single Gate (5-pin, unless noted)1G00 Single 2-Input NAND GateSN74 LVC1G00TC7SZ00NC7SZ00NL17SZ0074LX1G0074 LVC1G00 IDT74 LVC1G00 API74 STX1G001G02 Single 2-Input NOR GateSN74 LVC1G02TC7SZ02NC7SZ02NL17SZ0274LX1G0274 LVC1G02 IDT74 LVC1G02PI74 STX1G021G04 Single InverterSN74 LVC1G04TC7SZ04NC7SZ0474LX1G0474 LVC1G04 IDT74 LVC1G04 API74 STX1G041GU04 Single Inverter (Unbuffered)SN74 LVC1GU04TC7 SZU04NC7 SZU04NL17 SZU0474LX1GU0474 LVC1GU04 IDT74 LVC1GU04 API74 STX1GU041G06 Single Inverter Buffer/Driver w/Open DrainSN74 LVC1G06TC7SE05NC7SZ05NL17SZ0674LX1G0574 LVC1G06 IDT74 LVC1G06A1G07 Single Buffer/Driver w/Open Drain OutputSN74 LVC1G07NL17SZ0774LX1G0774 LVC1G07 IDT74 LVC1G07A1G08 Single 2-Input AND GateSN74 LVC1G08TC7SZ08NC7SZ08NL17SZ0874LX1G0874 LVC1G08 IDT74 LVC1G08 API74 STX1G081G14 Single Schmitt Trigger InverterSN74 LVC1G14NC7SZ14NL17SZ1474LX1G1474 LVC1G14PI74 STX1G141G17 Single Schmitt Trigger BufferSN74 LVC1G17NL17SZ171G181 of 2 Non-Inverting MuxSN74 LVC1G181*NC7SZ181 AHC Devices (5-pin, unless noted)For up-to-date cross-reference information, (Prefix).