400043 SO mSm3 National 4^ Semiconductor 5 Linear Applications Handbook ZH National (D MM > Semiconductor 3 Q. LINEAR APPLICATIONS oO- O HANDBOOK Thepurposeofthishandbookisto provideafullyindexed Thetemperature rangeof lineardevices is indicated byei- and cross-referenced collection of linear integrated circuit therthefirstdigitinthepartnumber,oraletterfollowingthe applications using both monolithicand hybrid circuits from basepartnumber. NationalSemiconductor. SpecifiedTemperature Individual application notes are normallywritten to explain Grade Range PartNumber tvahreiooupsermaetitohnodasndofuascecoomfpolnisehipanrgtiacugliavrednefvuinccetioorn.tTohdeetoari-l Military -55°C ^TA^ +125°C LMIXXorLMXXXM ganizationofthis handbooktakesadvantageofthisinnate Extended* -40°C <; TA^ +125°C LMXXXE coherencebykeepingeachapplicationnoteintact, arrang- Industrial* -25°C ^ TA^ +85°C LM2XXorLMXXXI ing them in numerical order, and providing adetailed Sub- Commercial 0°C ^ TA <: +70°C LM3XXorLMXXXC jectIndex. *Someindustrialtemperaturerangedevicesmayberated Manyoftheapplicationschematicscalloutthegenericfam- forthe extended(alsoknownasautomotive) temperature ily,identifiedbyeitherthemilitarytemperaturerangeversion range. Otherextendedtemperaturerangedevicesmaynot or commercial temperature range version of the device. includea temperaturerangedesignationintheirpartnum- Generally, anydeviceinthe genericfamilywillwork inthe ber. Checkthedevicedatasheetforthespecifiedtempera- circuit. For example, an amplifier indicated as an LM108 turerange(s). referstothegeneric"108"family, anddoes notimplythat Becausecommercial partsarelessexpensivethan military tonanerleyyd(mooirlnilitynadrubsyet-rgciraoalnd)esiaddneedvriepcdreiswmhweielelnlewctothrreikicrailtnigt(h"htAee"ra)pepgllericactdareticiaodlne.vliiMmciiletis-s oidnregsiitngodnu.dstertiealr,mitnheestehepmoionsttscsohsotu-lefdfebcetikveepatpipnromaicnhdtwohaengivtreyn- orwidertemperaturerangewarrantstheiruse. TRADEMARKS FollowingisthemostcurrentlistofNationalSemiconductorCorporation'strademarksandregisteredtrademarks. 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Z80® isaregisteredtrademarkofZilogCorporation. LIFESUPPORTPOLICY NATIONAL'SPRODUCTSARENOTAUTHORIZEDFORUSEASCRITICALCOMPONENTSINLIFESUPPORTDEVICESOR SYSTEMSWITHOUTTHE EXPRESSWRITTENAPPROVALOFTHE PRESIDENTOF NATIONALSEMICONDUCTORCOR- PORATION.Asusedherein: 1.wLihfiechs,up(pa)oratredeivnitceensdeodrfsorysstuergmiscaalreimdpelavnitceisntoorthseysbtoedmys, 2.Adevcriicteicaolrcsyosmtpeomnewnhtosiseafaniylucreomtopopenrefnotrmofcaanlbifee sreuapspoonr-t or (b) support or sustain life, and whose failure to per- ablyexpectedtocausethefailureofthelifesupportde- form,whenproperlyusedinaccordancewithinstructions viceorsystem,ortoaffectitssafetyoreffectiveness. for use provided in the labeling, can be reasonably ex- pectedtoresultinasignificantinjurytotheuser. NationalSemiconductorCorporation 2900SemiconductorDrive P.O. 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HH National SlM Semiconductor Linear Applications Numerical List Revision ApplicationNotes Date Date Page AN-3 DriftCompensation—TechniquesforIntegratedDCAmplifiers 11/67 6/86 1 AN-4 MonolithicOp-Amp TheUniversalLinearComponent 4/68 6/86 6 AN-13 ApplicationoftheLH0002CurrentAmplifier 9/68 6/86 16 AN-20 AnApplicationGuideforOpAmps 8/80 8/90 19 — AN-23 TheLM105—AnImprovedPositiveRegulator 1/69 31 AN-24 ASimplifiedTestSetforOpAmpCharacterization 1/86 6/86 39 AN-29 ICOpAmpBeatsFETsonInputCurrent 12/69 3/91 49 AN-30 LogConverters 11/69 3/91 66 AN-31 OpAmpCircuitCollection 2/78 3/91 70 AN-32 FETCircuitApplications 2/70 6/86 94 AN-41 PrecisionICComparatorRunsfrom +5VLogicSupply 10/70 8—/90 107 AN-42 ICProvidesOn-CardRegulationforLogicCircuits 2/71 113 AN-46 ThePhaseLockedLoopICasaCommunicationsSystemBuildingBlock 6/71 8/90 119 — AN-48 ApplicationsforaNewUltra-HighSpeedBuffer 8/71 133 — AN-49 PinDiodeDrivers /75 140 — AN-56 1.2VReference 12/71 146 — AN-69 LM380PowerAudioAmplifier 12/72 150 — AN-71 MicropowerCircuitsUsingtheLM4250ProgrammableOpAmp 7/72 157 AN-72 TheLM3900—ANewCurrent-DifferencingQuad + InputAmplifiers 9/72 6/86 166 — AN-74 LM139/LM239/LM339—AQuadofIndependentlyFunctioningComparators 1/73 211 — AN-79 ICPre-AmpChallengesChoppersonDrift 2/73 227 AN-82 LM125/LM126PrecisionDual-TrackingRegulators 8/80 6/86 235 AN-87 ComparingtheHighSpeedComparators 6/73 8/90 251 AN-88 CMOSLinearApplications 7/73 6/86 257 AN-97 VersatileTimerOperatesfromMicrosecondstoHours 12/73 10/90 260 — AN-103 LM340SeriesThreeTerminalPositiveRegulators 8/80 272 AN-104 NoiseSpecsConfusing? 5/74 8/90 284 — AN-110 FastICPowerTransistorwithThermalProtection 5/74 291 AN-116 UsetheLM158/258/358Dual,SingleSupplyOpAmp 8/80 3/91 298 — AN-127 LM143MonolithicHighVoltageOperationAmplifierApplications 4/76 302 AN-146 FMRemoteSpeakerSystem 6/75 8/90 314 AN-154 1.3VICFlasher,Oscillator,TriggerorAlarm 12/75 3/91 318 AN-156 SpecifyingA/DandD/AConverters 2/76 6/86 333 — AN-161 ICVoltageReferenceHas1 ppmperDegreeDrift 6/76 339 AN-162 LM2907Tachometer/SpeedSwitchBuildingBlockApplications 6/76 8/90 345 — AN-173 ICZenerEasesReferenceDesign 11/76 — 362 AN-178 ApplicationsforanAdjustableICPowerRegulator 1/77 — 365 AN-181 3-TerminalRegulatorisAdjustable 3/77 369 — AN-182 ImprovingPowerSupplyReliabilitywithICPowerRegulators 4/77 375 — AN-184 ReferencesforA/DConverters 7/77 378 — AANN--129030 SCiMngOlSeCAh/iDpDCoantvaeArctqeurisCihtiiposnSEayssitleymInStiemrpflaicfeietsoA8n0a8l0oAgMtoicDrigoiptraolcCeosnsvoerrSsiyosntem 73//7787 — 338825 AN-202 ADigitalMultimeterUsingADD3501 7/80 6/86 395 AN-210 NewPhase-LockedLoopsHaveAdvantageasFrequencytoVoltageConverters (andmore) 4/7g 8/90 399 AN-211 NewOpAmpsIdeas 12/78 3/91 407 AN-222 SuperMatchedBipolarTransistorPairSetsNewStandardforDriftandNoise 7/79 8/90 433 1 Linear Applications Numerical List (continued) Revision ApplicationNotes _ . Date Page — AN-225 ICTemperatureSensorProvidesThermocoupleCold-JunctionCompensation 4/79 443 AN-227 ApplicationsofWidebandBuffers 10/79 3—/91 449 AN-233 TheA/DEasilyAllowsManyUnusualApplications 1/80 465 AN-236 AnIntroductiontoSamplingTheorem 1/80 6/86 469 AN-237 Convolution:DigitalSignalProcessing 1/80 6/86 481 AN-240 Wide-RangeCurrent-to-FrequencyConverters 5/80 8/90 489 AN-241 WorkingwithHighImpedanceOpAmps 2/80 3/91 495 AN-242 ApplyingaNewPrecisionOpAmp 4/80 10/90 501 — AN-245 ApplicationoftheADC-1210CMOSA/DConverter 6/86 523 AN-247 UsingtheADC0808/ADC08098-BitjuPCompatibleA/DConverterswith8-Channel AnalogMultiplexer 9/80 6—/86 531 AN-253 LH0024andLH0032HighSpeedOpAmpApplications /80 — 547 AN-255 PowerSpectrumEstimation 11/80 — 558 AN-256 CircuitryforInexpensiveRelativeHumidityMeasurement 8/81 586 AN-258 DataAcquisitionUsingtheADC0816andADC08178-BitA/DConverterwithOn-Chip 16ChannelMultiplexer 1/81 6—/86 590 AN-260 A20-Bit(1 ppm)LinearSlope-IntegratingA/DConverter 1/81 612 AN-261 LowDistortionWidebandPowerOpAmp 7/81 8/90 618 AN-262 ApplyingDualandQuadFETOpAmps 5/81 6/86 627 AN-263 SineWaveGenerationTechniques 3/81 3/91 634 AN-265 AnElectronicWatt-WattHourMeter 2/84 6/86 646 AN-266 CircuitApplicationsofSample-HoldAmplifiers 1/81 6/86 651 AN-269 CircuitApplicationsofMultiplyingCMOSA/DConverters 9/81 6/86 659 AN-271 ApplyingtheNewCMOSMICRO-DAC 9/81 6/86 664 AN-272 OpAmpBoosterDesigns 9/81 6/86 674 AN-274 CMOSA/DConverterInterfacesEasilywithManyMicroprocessors 7/81 6—/86 681 AN-275 CMOSD/AConvertersMatchMostMicroprocessors 7/81 — 685 AN-276 ANewLow-CostSampledData10-BitCMOSA/DConverter 7/81 690 AN-277 TheNewMICRO-DACProductLineforMicroprocessorSystems 7/81 6/86 695 AN-278 DesigningwithaNewSuperFastDualNortonAmplifier 9/81 6—/86 701 AN-280 A/DConvertersEasilyInterfacewith70SeriesMicroprocessors 11/81 709 AN-281 DataAcquisitionUsingINS8048 11/81 6/86 715 AN-284 Single-SupplyApplicationsofCMOSMICRO-DACs 9/81 3/91 720 AN-285 AnAcousticTransformerPoweredSuper-HighIsolationAmplifier 10/81 6/86 724 AN-286 ApplicationsoftheLM392ComparatorOpAmpIC 9/81 6/86 728 AN-288 System-OrientedDC-DCConversionTechniques 4/82 6/86 734 AN-292 ApplicationsoftheLM3524Pulse-WidthModulator 8/82 6/86 739 AN-293 ControlApplicationsofCMOSDACs 3/82 6/86 744 AN-294 SpecialSampleandHoldTechniques 4/82 6/86 750 AN-295 AHighPerformanceIndustrialWeighingSystem 3/82 6/86 754 AN-298 IsolationTechniquesforSignalConditioning 5/82 6/86 758 AN-299 AudioApplicationsofLinearIntegratedCircuits 4/82 8—/90 765 AN-300 SimpleCircuitDetectsLossof4mA-20mASignal 5/82 — 770 AN-301 SignalConditioningforSophisticatedTransducers 1/82 774 AN-307 IntroducingtheMF10:AVersatileMonolithicActiveFilterBuildingBlock 8/82 8/90 786 AN-31 TheoryandApplicationsofLogarithmicAmplifiers 7/82 4—/91 797 AN-336 UnderstandingIntegratedCircuitPackagePowerCapabilities 3/83 802 AN-343 LH1605SwitchingRegulator 9/83 6/86 807 AN-344 LF13006/LF13007PrecisionDigitalGainSetApplications 3/84 6/86 817 AN-346 High-PerformanceAudioApplicationsoftheLM833 8/85 8—/90 822 AN-384 AudioNoiseReductionandMasking 3/85 — 831 AN-386 ANon-ComplementaryAudioNoiseReductionSystem 3/85 — 837 AN-390 DNR®ApplicationsoftheLM1894 3/85 847 AN-391 TheLM1823:AHighQualityTVVideoI.F.AmplifierandSynchronousDetector forCableReceivers 3/85 856 1 Linear Applications Numerical List (continued) Revision ApplicationNotes Date Date Page AN-402 LM2889R.F.Modulator 6/85 6/86 872 AN-435 LMC835DigitalControlledGraphicEqualizer 3/86 883 AN-446 A150WICOpAmpSimplifiesDesignofPowerCircuits 4/86 891 AN-447 ProtectionSchemesforBIFETAmplifiersandSwitches 4/86 8/90 905 AN-460 LM34/LM35PrecisionMonolithicTemperatureSensors 6/86 11/90 908 AN-656 UnderstandingtheOperationofCRTMonitor 11/89 917 AN-693 LM628ProgrammingGuide 4/90 4/91 923 AN-694 ADMOS3A,55VH-Bridge:TheLMD18200 6/90 943 AN-706 LM628/LM629UserGuide 8/90 952 AN-71 LM78S40SwitchingVoltageRegulatorApplications 11/90 974 AN-715 LM385FeedbackProvidesRegulatorIsolation 11/90 989 AN-769 DynamicSpecificationsforSamplingA/DConverters 5/91 990 AN-775 SpecificationsandArchitecturesofSample-and-HoldAmplifiers 7/92 9/93 996 AN-776 20WSimpleSwitcherForwardConverter 6/91 1002 AN-777 LM2577ThreeOutput,IsolatedFlybackRegulator 6/91 1006 AN-779 ABasicIntroductiontoFilters—Active,Passive,andSwitched-Capacitor 4/91 1008 AN-813 TopicsonUsingtheLM6181—ANewCurrentFeedbackAmplifier 3/92 1030 AN-828 IncreasingtheHighSpeedTorqueofBipolarStepperMotors 5/93 1040 AN-840 DevelopmentofanExtensiveSPICEMacromodelfor"CurrentFeedback"Amplifiers ... 11/93 1049 AN-856 ASPICECompatibleMacromodelforCMOSOperationalAmplifiers 11/93 1063 AN-861 GuidetoCRTDesign 1/93 1067 AN-867 DesigningtheVideoSectionof1600x1280-PixelCRTs 12/93 1082 AN-898 AudioAmplifiersUtilizing:SPIKEtmProtection 10/93 1093 AN-906 InterfacingtheLM12454/8DataAcquisitionSystemChipstoMicroprocessors andMicrocontrollers 10/93 1102 AB-7 MultivibratorTimerCAD 3/86 8/90 1132 AB-10 FluidLevelControlSystem 11/83 1134 AB-11 High-EfficiencyRegulatorHasLowDrop-OutVoltage 9/83 6/86 1136 AB-12 WideAdjustableRangePNPVoltageRegulator 2/84 1137 AB-24 BenchTestingLM3900andLM359InputParameters 12/85 8/90 1138 AB-25 DitheringDisplayExpandsBarGraph'sResolution 8/81 1140 AB-30 RS-232LineDriverPowerSupply 6/86 8/90 1142 LB-1 InstrumentationAmplifier 3/69 1144 LB-2 FeedforwardCompensationSpeedsOpAmps 3/69 1146 LB-4 FastCompensationExtendsPowerBandwidth 4/69 1148 LB-5 HighQNotchFilter 3/69 1149 LB-6 FastVoltageComparatorswithLowInputCurrent 5/69 1150 LB-8 PrecisionAC/DCConverters 8/69 1153 LB-9 UniversalBalancingTechniques 8/69 1155 LB-11 TheLM110—AnImprovedICVoltageFollower 3/70 1157 LB-12 AnICVoltageComparatorforHighImpedanceCircuitry 1/70 1160 LB-14 SpeedUptheLM108withFeedforwardCompensation 11/70 1162 LB-15 HighStabilityRegulators 1/71 1164 LB-16 EasilyTunedSineWaveOscillators 3/71 1166 LB-17 LM118OpAmpSlews70V/ju,s 9/71 1168 LB-18 +5Vto -15VConverter 7/72 1170 LB-19 PredictingOpAmpSlewRateLimitedResponse 8/72 1172 LB-20 AFullyDifferentialInputVoltageAmplifier 12/72 1174 LB-21 InstrumentationalAmplifier 6/73 8/90 1176 LB-22 LowDriftAmplifier 3/86 1178 LB-23 PreciseTri-WaveGeneration 6/73 1179 LB-24 VersatileICPre-AmpMakesThermocoupleAmplifierwithColdJunction — Compensation 6/73 1180 — LB-25 TruermsDetector 6/73 1182 — LB-26 SpecifyingSelectedOpAmpsandComparators 10/73 — 1184 LB-27 MicropowerThermometer 1/74 1186 Linear Applications Numerical List (continued) Revision ApplicationNotes D t Da—te Page LB-28 GeneralPurposePowerSupply 6/74 — 1188 LB-32 MicrovoltComparator 6/76 — 1190 LB-34 AMicropowerVoltageReference 6/76 — 1192 LB-35 Adjustable3-TerminalRegulatorforLow-CostBatteryChargingSystems 8/76 — 1193 LB-38 WideRangeTimer 2/77 — 1195 LB-39 CircuitTechniquesforAvoidingOscillationsinComparatorApplications 1/78 — 1196 LB-41 PrecisionReferenceUsesOnlyTenMicroamperes 6/78 — 1198 LB-42 GetFastStableResponsefromImprovedUnity-GainFollowers 8/78 — 1200 LB-44 GetMorePowerOutofDualorQuadOpAmps 4/79 1202 LB-45 Frequency-to-VoltageConverterUsesSample-and-HoldtoImproveResponse andRipple 4/79 1204 LB-46 ANewProductionTechniqueforTrimmingVoltageRegulators 7/79 6/—86 1206 LB-47 HighVoltageAdjustablePowerSupplies 3/80 — 1208 LB-48 SimpleVoltmeterMonitorsTTLSupplies 2/80 1210 LB-49 ProgrammablePowerRegulatorsHelpCheckOutComputerSystemOperating Margins 1/85 — 1212 LB-51 AddKelvinSensingandParallelCapabilityto3-TerminalRegulators 3/81 — 1214 LB-52 ALowNoisePrecisionOpAmp 12/80 1216 LB-53 /xPInterfaceforaFreeRunningA/DAllowsAsynchronousReads 7/81 6/86 1218 AppendixA TheMonolithicOperationalAmplifier:ATutorialStudy 12/84 6/86 1220 AppendixC V/FConverterIC'sHandleFrequency-to-VoltageNeeds — 8/80 6/86 1241 AppendixD VersatileMonolithicV/F'sCanComputeaswellasConvertwithHighAccuracy 8/80 6/—86 1247 AppendixH StandardResistanceValues 6/86 1254 gH National MM SSeemmiiccoonndduuccttoorr Device/Application Literature Cross-Reference DeviceNumber ApplicationLiterature ADCXXXX AN-156 ADC80 AN-360 ADC0801 AN-233,AN-271,AN-274,AN-280,AN-281,AN-294,LB-53 ADC0802 AN-233,AN-274,AN-280,AN-281 LB-53 , ADC0803 AN-233,AN-274,AN-280,AN-281 LB-53 , ADC08031 AN-460 ADC0804 AN-233,AN-274,AN-276,AN-280,AN-281,AN-301,AN-460,LB-53 ADC0805 AN-233,AN-274,AN-280,AN-281 LB-53 , ADC0808 AN-247,AN-280,AN-281 ADC0809 AN-247,AN-280 ADC0816 AN-193,AN-247,AN-258,AN-280 ADC0817 AN-247,AN-258,AN-280 ADC0820 AN-237 ADC0831 AN-280,AN-281 ADC0832 AN-280,AN-281 ADC0833 AN-280,AN-281 ADC0834 AN-280,AN-281 ADC0838 AN-280,AN-281 ADC1001 AN-276,AN-280,AN-281 ADC1005 AN-280 ADC10461 AN-769 ADC10462 AN-769 ADC10464 AN-769 ADC10662 AN-769 ADC10664 AN-769 ADC1210 AN-245 ADC12441 AN-769 ADC12451 AN-769 ADC3501 AN-200,AN-202 ADC3511 AN-200 ADC3701 AN-200 ADC3711 AN-200 CD4016 AB-10 DACXXXX AN-156 DAC0800 AN-693 DAC0830 AN-284 DAC0831 AN-271,AN-284 DAC0832 AN-271 AN-284 , DAC1000 AN-271,AN-275,AN-277,AN-284 DAC1001 AN-271,AN-275,AN-277,AN-284 DAC1002 AN-271 AN-275,AN-277,AN-284 , DAC1006 AN-271,AN-275,AN-277,AN-284 DAC1007 AN-271,AN-275,AN-277,AN-284 111 Device/Application Literature Cross-Reference (continued) DeviceNumber ApplicationLiterature DAC1008 AN-271,AN-275,AN-277,AN-284 DAC1020 AN-263,AN-269,AN-2293,AN-294,AN-299 DAC1021 AN-269 DAC1022 AN-269 DAC1208 AN-271,AN-284 DAC1209 AN-271,AN-284 DAC1210 AN-271,AN-284 DAC1218 AN-293 DAC1219 AN-693 DAC1220 AN-253,AN-269 DAC1221 AN-269 DAC1222 AN-269 DAC1230 AN-284 DAC1231 AN-271 AN-284 , DAC1232 AN-271,AN-284 DAC1280 AN-261,AN-263 DH0034 AN-253 DH0035 AN-49 INS8070 AN-260 LF11 LB-39 LF155 AN-263,AN-447 LF198 AN-245,AN-294 LF311 AN-301 LF347 AN-256,AN-262,AN-263,AN-265,AN-266,AN-301 AN-344,AN-447,LB-44 , LF351 AN-242,AN-263,AN-266,AN-271,AN-275,AN-293,AN-447,AppendixC LF351A AN-240 LF351B AppendixD LF353 AN-256,AN-258,AN-262,AN-263,AN-266,AN-271,AN-285,AN-293,AN-447,LB-44,AppendixD LF356 AN-253,AN-258,AN-260,AN-263,AN-266,AN-271,AN-272, AN-275,AN-293,AN-294,AN-295,AN-301 AN-447,AN-693 , LF357 AN-263,AN-447,LB-42 LF398 AN-247,AN-258,AN-266,AN-294,AN-298,LB-45 LF41 AN-294,AN-301 AN-344,AN-447 , LF412 AN-272,AN-299,AN-301,AN-344,AN-447 LF441 AN-301,AN-447 LF13006 AN-344 LF13007 AN-344 LF13331 AN-294,AN-447 LH0002 AN-13,AN-227,AN-263,AN-272,AN-301 LH0024 AN-253 LH0032 AN-242,AN-253 LH0033 AN-48,AN-227,AN-253 LH0063 AN-227 LH0070 AN-301 LH0071 AN-245 LH0094 AN-301 LH0101 AN-261 LH1605 AN-343 LH2424 AN-867 LM10 AN-211,AN-247,AN-258,AN-271,AN-288,AN-299,AN-300,AN-460,AN-693 LM1 AN-241,AN-242,AN-260,AN-266,AN-271