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OPAx836 Very-Low-Power, Rail-to-Rail Out, Negative-Rail In, VFB Op Amps PDF

57 Pages·2015·2.11 MB·English
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Product Sample & Technical Tools & Support & Reference Folder Buy Documents Software Community Design OPA836,OPA2836 SLOS712G–JANUARY2011–REVISEDOCTOBER2015 OPAx836 Very-Low-Power, Rail-to-Rail Out, Negative-Rail In, Voltage-Feedback Operational Amplifiers 1 Features For battery-powered, portable applications where power is a key importance, the low power • LowPower: 1 consumption and high-frequency performance of the – SupplyVoltage:2.5Vto5.5V OPA836 and OPA2836 devices offer designers – QuiescentCurrent:1mA(Typ) performance versus power that is not attainable in other devices. Coupled with a power-saving mode – PowerDownMode:0.5 µATyp) that reduces current to less than 1.5 μA, these • Bandwidth:205MHz devices offer an attractive solution for high-frequency • SlewRate:560V/µs amplifiersinbattery-poweredapplications. • RiseTime:3ns(2VSTEP) The OPA836 RUN package option includes • SettlingTime(0.1%):22ns(2V ) integrated gain-setting resistors for the smallest STEP possible footprint on a printed circuit board • OverdriveRecoveryTime:60ns (approximately 2 mm × 2 mm). By adding circuit • SNR: 0.00013% (–117.6dBc)at1kHz(1V ) RMS traces on the PCB, gains of +1, –1, –1.33, +2, +2.33, • THD: 0.00003% (–130dBc)at1kHz(1V ) –3, +4, –4, +5, –5.33, +6.33, –7, +8 and inverting RMS attenuations of –0.1429, –0.1875, –0.25, –0.33, –0.75 • HD /HD :–85dBc/–105dBcat1MHz(2V ) 2 3 PP canbeachieved. SeeTable3andTable4fordetails. • InputVoltageNoise:4.6nV/√Hz(f=100kHz) The OPA836 and OPA2836 devices are • InputOffsetVoltage:65 µV(±400-µVMax) characterized for operation over the extended • CMRR:116dB industrialtemperaturerangeof –40°Cto125°C. • Output CurrentDrive:50mA • RRO:Rail-to-RailOutput DeviceInformation(1) • InputVoltageRange:–0.2Vto+3.9V PARTNUMBER PACKAGE BODYSIZE(NOM) (5-VSupply) SOT-23(6) 2.90mm×1.60mm OPA836 • OperatingTemperatureRange: WQFN(10) 2.00mm×2.00mm –40°Cto+125°C SOIC(8) 4.90mm×3.91mm VSSOP(10) 3.00mm×3.00mm 2 Applications OPA2836 UQFN(10) 2.00mm×2.00mm • Low-PowerSignalConditioning WQFN(10) 2.00mm×2.00mm • AudioADCInputBuffers (1) Forallavailablepackages,seethepackageoptionaddendum attheendofthedatasheet. • Low-PowerSARandΔΣ ADCDrivers • PortableSystems HarmonicDistortionvsFrequency • Low-PowerSystems -40 • High-DensitySystems VS= 2.7 V, -50 G = 1, VOUT= 1 Vpp, 3 Description -60 RF= 0W, The OPA836 and OPA2836 devices are single- and dBc -70 RL= 1 kW dual-channel, ultralow power, rail-to-rail output, on - -80 naemgpalitfiiveers-radilesiginnpeudt,tovooplteargaete-feoevdebracakpoowpeerr-asutiopnpalyl Distorti -90 HD2 range of 2.5 V to 5.5 V (single supply), or ±1.25 V to nic -100 o ±2.75 V (dual supply). Consuming only 1 mA per arm -110 channel and a unity gain bandwidth of 205 MHz, H -120 HD3 these amplifiers set an industry-leading power-to- performanceratioforrail-to-railamplifiers. -130 -140 10k 100k 1M 10M f - Frequency - Hz 1 An IMPORTANT NOTICE at the end of this data sheet addresses availability, warranty, changes, use in safety-critical applications, intellectualpropertymattersandotherimportantdisclaimers.PRODUCTIONDATA. OPA836,OPA2836 SLOS712G–JANUARY2011–REVISEDOCTOBER2015 www.ti.com Table of Contents 1 Features.................................................................. 1 8.3 FeatureDescription.................................................24 2 Applications........................................................... 1 8.4 DeviceFunctionalModes........................................27 3 Description............................................................. 1 9 ApplicationandImplementation........................ 30 4 RevisionHistory..................................................... 2 9.1 ApplicationInformation............................................30 9.2 TypicalApplications................................................36 5 OPA836-RelatedDevices...................................... 4 10 PowerSupplyRecommendations..................... 40 6 PinConfigurationandFunctions......................... 4 11 Layout................................................................... 40 7 Specifications......................................................... 6 11.1 LayoutGuidelines.................................................40 7.1 AbsoluteMaximumRatings......................................6 11.2 LayoutExample....................................................41 7.2 ESDRatings..............................................................6 12 DeviceandDocumentationSupport................. 42 7.3 RecommendedOperatingConditions.......................6 7.4 ThermalInformation:OPA836..................................6 12.1 DeviceSupport ....................................................42 7.5 ThermalInformation:OPA2836................................7 12.2 RelatedLinks........................................................42 7.6 ElectricalCharacteristics:V =2.7V........................7 12.3 CommunityResources..........................................42 S 7.7 ElectricalCharacteristics:V =5V...........................9 12.4 Trademarks...........................................................42 S 7.8 TypicalCharacteristics............................................12 12.5 ElectrostaticDischargeCaution............................42 12.6 Glossary................................................................42 8 DetailedDescription............................................ 24 13 Mechanical,Packaging,andOrderable 8.1 Overview.................................................................24 Information........................................................... 42 8.2 FunctionalBlockDiagrams.....................................24 4 Revision History ChangesfromRevisionF(June2015)toRevisionG Page • ChangedtextinfirstparagraphofPower-DownOperationsection..................................................................................... 25 ChangesfromRevisionE(September2013)toRevisionF Page • ChangedFeaturessection..................................................................................................................................................... 1 • AddedPinConfigurationandFunctionssection,ESDRatingstable,FeatureDescriptionsection,DeviceFunctional Modes,ApplicationandImplementationsection,PowerSupplyRecommendationssection,Layoutsection,Device andDocumentationSupportsection,andMechanical,Packaging,andOrderableInformationsection .............................. 1 • ChangedDeviceComparisonTable....................................................................................................................................... 4 • ChangedPinFunctionstable................................................................................................................................................. 5 • ChangedOpenLoopGainvsFrequencygraph................................................................................................................... 15 • ChangedInputReferredNoisevsFrequencygraph ........................................................................................................... 15 • ChangedOpenLoopGainvsFrequencygraph ................................................................................................................. 21 • ChangedInputReferredNoisevsFrequencygraph............................................................................................................ 21 ChangesfromRevisionD(October2011)toRevisionE Page • AddedOPA2836RMCpackagetodocument........................................................................................................................ 1 • AddedRMCpindefinitionstoPinFunctionstable................................................................................................................. 5 • DeletedPackaging/OrderingInformationtable,leavingonlynotetoPOA............................................................................. 6 • AddedOPA2836RMCpackagetoThermalInformationtable............................................................................................... 7 2 SubmitDocumentationFeedback Copyright©2011–2015,TexasInstrumentsIncorporated ProductFolderLinks:OPA836 OPA2836 OPA836,OPA2836 www.ti.com SLOS712G–JANUARY2011–REVISEDOCTOBER2015 ChangesfromRevisionC(September2011)toRevisionD Page • RemovedProductPreviewfromOPA835IRUNTandOPA835IRUNR.................................................................................. 4 • RemovedProductPreviewfromOPA836IRUNTandOPA836IRUNR.................................................................................. 6 • ChangedResistorTemperatureCoefficientTypvalueFrom:TBDTo:<10.......................................................................... 9 • ChangedQuiescentoperatingcurrentTo:Quiescentoperatingcurrentperamplifier........................................................... 9 • ChangedResistorTemperatureCoefficientTypvalueFrom:TBDTo:<10........................................................................ 11 • ChangedQuiescentoperatingcurrentTo:Quiescentoperatingcurrentperamplifier......................................................... 11 ChangesfromRevisionB(May2011)toRevisionC Page • Addedthe"TheOPA836RUNpackage..."texttotheDescription........................................................................................ 1 • RemovedProductPreviewfromalldevicesexceptOPA835IRUNTandOPA835IRUNR.................................................... 4 • RemovedProductPreviewfromalldevicesexceptOPA836IRUNTandOPA836IRUNR.................................................... 6 • Changed-Channeltochannelcrosstalk(OPA2836)TypvalueFrom:TBDTo:–120dB.................................................... 8 • ChangedtheCommon-moderejectionratioMinvalueFrom:94dBTo:91dB.................................................................... 8 • AddedGAINSETTINGRESISTORS(OPA836IRUNONLY)................................................................................................ 9 • ChangedtheQuiescentoperatingcurrent(T =25°C)MinvalueFrom:0.8mATo:0.7mA................................................ 9 A • ChangedthePowersupplyrejection(±PSRR)MinvalueFrom:95dBTo:91dB................................................................ 9 • ChangedthePower-downpinbiascurrentCONDITIONSFrom:PD=0.7VTo:PD=0.5V............................................... 9 • ChangedthePower-downquiescentcurrentCONDITIONSFrom:PD=0.7VTo:PD=0.5V............................................ 9 • Changed-Channeltochannelcrosstalk(OPA2836)TypvalueFrom:TBDTo:–120dB.................................................. 10 • ChangedtheCommon-moderejectionratioMinvalueFrom:97dBTo:94dB.................................................................. 11 • AddedGAINSETTINGRESISTORS(OPA836IRUNONLY)............................................................................................. 11 • ChangedtheQuiescentoperatingcurrent(T =25°C)MinvalueFrom:0.9mATo:0.8mA.............................................. 11 A • ChangedthePowersupplyrejection(±PSRR)MinvalueFrom:97dBTo:94dB.............................................................. 11 • ChangedthePower-downquiescentcurrentCONDITIONSFrom:PD=0.7VTo:PD=0.5V......................................... 11 • ChangedthePower-downquiescentcurrentConditionsFrom:PD=0.7VTo:PD=0.5V............................................... 11 • AddedFigureCrosstalkvsFrequency................................................................................................................................. 16 • AddedFigureCrosstalkvsFrequency................................................................................................................................. 22 • AddedsectionSingleEndedtoDifferentialAmplifier........................................................................................................... 31 ChangesfromRevisionA(March2011)toRevisionB Page • ChangedOPA836fromproductpreviewtoproductiondata.................................................................................................. 1 Copyright©2011–2015,TexasInstrumentsIncorporated SubmitDocumentationFeedback 3 ProductFolderLinks:OPA836 OPA2836 OPA836,OPA2836 SLOS712G–JANUARY2011–REVISEDOCTOBER2015 www.ti.com 5 OPA836-Related Devices DEVICE BW(AV=1) SLEWRATE Iq(+5V) INPUTNOISE RAIL-TO-RAILIN/OUT DUALS (MHz) (V/µs) (mA) (nV/√Hz) OPA836 205 560 1 4.6 –VS/Out OPA2836 OPA835 30 110 0.25 9.3 –VS/Out OPA2835 OPA365 50 25 5 4.5 In/Out OPA2365 THS4281 95 35 0.75 12.5 In/Out LMH6618 140 45 1.25 10 In/Out LMH6619 OPA830 310 600 3.9 9.5 –VS/Out OPA2830 ForacompleteselectionofTIHighSpeedAmplifiers,visitti.com. 6 Pin Configuration and Functions OPA836DBVPackage 6-PinSOT-23 OPA2836DPackage TopView 8-PinSOIC TopView VOUT 1 6 VS+ VOUT1 1 8 VS+ VS- 2 + - 5 PD VIN1- 2 - 7 VOUT2 V 3 4 V + IN+ IN- V 3 6 V IN1+ - IN2- + V 4 5 V S- IN2+ OPA836RUNPackage 10-PinWQFN TopView OPA2836DGSPackage V 10-PinVSSOP S+ TopView VOUT 1 10 9 FB1 1.6k VOUT1 1 10 VS+ - + VIN- 2 8 FB2 VIN1- 2 - 9 VOUT2 1.2k + VIN+ 3 7 FB3 VIN1+ 3 - 8 VIN2- 400 VS- 4 + 7 VIN2+ FB PD 4 5 6 4 PD1 5 6 PD2 V S- 4 SubmitDocumentationFeedback Copyright©2011–2015,TexasInstrumentsIncorporated ProductFolderLinks:OPA836 OPA2836 OPA836,OPA2836 www.ti.com SLOS712G–JANUARY2011–REVISEDOCTOBER2015 OPA2836RUN,RMCPackages 10-PinWQFN,UQFN TopView V S+ VOUT1 1 10 9 VOUT2 - + + - V 2 8 V IN1- IN2- VIN1+ 3 7 VIN2+ PD1 4 6 PD2 5 V S- PinFunctions PIN OPA836 OPA2836 TYPE DESCRIPTION NAME WQFN, SOT-23 WQFN SOIC VSSOP UQFN FB 9 I/O Connectiontotopof2.4-kΩinternalgainsettingresistors 1 Connectiontojunctionof1.8-kΩand2.4-kΩinternalgain FB 8 I/O 2 settingresistors — Connectiontojunctionof600-Ωand1.8-kΩinternalgain FB 7 — — I/O 3 settingresistors FB 6 I/O Connectiontobottomof600-Ωinternalgainsettingresistors 4 AmplifierPowerDown,low=low-powermode, PD 5 4 — I high=normaloperation(pinmustbedriven) Amplifier1PowerDown,low=low-powermode, PD1 5 4 I high=normaloperation(pinmustbedriven) — — Amplifier2PowerDown,low=low-powermode, PD2 6 6 I high=normaloperation(pinmustbedriven) V 3 3 I Amplifiernoninvertinginput IN+ — — V 4 2 I Amplifierinvertinginput IN– V 3 3 3 I Amplifier1noninvertinginput IN1+ V 2 2 2 I Amplifier1invertinginput IN1– — — V 5 7 7 I Amplifier2noninvertinginput IN2+ V 6 8 8 I Amplifier2invertinginput IN2– V 1 1 — — — O Amplifieroutput OUT V 1 1 1 O Amplifier1output OUT1 — — V 7 9 9 O Amplifier2output OUT2 V 6 10 8 10 10 POW Positivepowersupplyinput S+ V 2 5 4 4 5 POW Negativepowersupplyinput S– Copyright©2011–2015,TexasInstrumentsIncorporated SubmitDocumentationFeedback 5 ProductFolderLinks:OPA836 OPA2836 OPA836,OPA2836 SLOS712G–JANUARY2011–REVISEDOCTOBER2015 www.ti.com 7 Specifications 7.1 Absolute Maximum Ratings overoperatingfree-airtemperaturerange(unlessotherwisenoted)(1) MIN MAX UNIT V toV Supplyvoltage 5.5 V S– S+ V Inputvoltage V –0.7 V +0.7 V I S– S+ V Differentialinputvoltage 1 V ID I Continuousinputcurrent 0.85 mA I I Continuousoutputcurrent 60 mA O SeeThermalInformation:OPA836 Continuouspowerdissipation and ThermalInformation:OPA2836 T Maximumjunctiontemperature 150 °C J T Operatingfree-airtemperature –40 125 °C A T Storagetemperature –65 150 °C stg (1) StressesbeyondthoselistedunderAbsoluteMaximumRatingsmaycausepermanentdamagetothedevice.Thesearestressratings only,whichdonotimplyfunctionaloperationofthedeviceattheseoranyotherconditionsbeyondthoseindicatedunderRecommended OperatingConditions.Exposuretoabsolute-maximum-ratedconditionsforextendedperiodsmayaffectdevicereliability. 7.2 ESD Ratings VALUE UNIT Humanbodymodel(HBM),perANSI/ESDA/JEDECJS-001(1) ±6000 V Electrostaticdischarge Charged-devicemodel(CDM),perJEDECspecificationJESD22-C101(2) ±1000 V (ESD) Machinemodel ±200 (1) JEDECdocumentJEP155statesthat500-VHBMallowssafemanufacturingwithastandardESDcontrolprocess. (2) JEDECdocumentJEP157statesthat250-VCDMallowssafemanufacturingwithastandardESDcontrolprocess. 7.3 Recommended Operating Conditions overoperatingfree-airtemperaturerange(unlessotherwisenoted) MIN NOM MAX UNIT V Singlesupplyvoltage 2.5 5 5.5 V S+ T Ambienttemperature –40 25 125 °C A 7.4 Thermal Information: OPA836 OPA836 THERMALMETRIC(1) SOT23-6 WQFN-10 UNIT (DBV) (RUN) 6PINS 10PINS R Junction-to-ambientthermalresistance 194 145.8 °C/W θJA R Junction-to-case(top)thermalresistance 129.2 75.1 °C/W θJC(top) R Junction-to-boardthermalresistance 39.4 38.9 °C/W θJB ψ Junction-to-topcharacterizationparameter 25.6 13.5 °C/W JT ψ Junction-to-boardcharacterizationparameter 38.9 104.5 °C/W JB (1) Formoreinformationabouttraditionalandnewthermalmetrics,seetheSemiconductorandICPackageThermalMetricsapplication report,SPRA953. 6 SubmitDocumentationFeedback Copyright©2011–2015,TexasInstrumentsIncorporated ProductFolderLinks:OPA836 OPA2836 OPA836,OPA2836 www.ti.com SLOS712G–JANUARY2011–REVISEDOCTOBER2015 7.5 Thermal Information: OPA2836 OPA2836 VSSOP THERMALMETRIC(1) SOIC-8 MSOP-10 WQFN-10 UQFN-10 UNIT (D) (RUN) (RMC) (DGS) 8PINS 10PINS 10PINS 10PINS R Junction-to-ambientthermalresistance 150.1 206 145.8 143.2 °C/W θJA R Junction-to-case(top)thermalresistance 83.8 75.3 75.1 49.0 °C/W θJCtop R Junction-to-boardthermalresistance 68.4 96.2 38.9 61.9 °C/W θJB ψ Junction-to-topcharacterizationparameter 33.0 12.9 13.5 3.3 °C/W JT ψ Junction-to-boardcharacterizationparameter 67.9 94.6 104.5 61.9 °C/W JB (1) Formoreinformationabouttraditionalandnewthermalmetrics,seetheSemiconductorandICPackageThermalMetricsapplication report,SPRA953. 7.6 Electrical Characteristics: V = 2.7 V S Testconditionsunlessotherwisenoted:V =+2.7V,V =0V,V =1V ,R =0Ω,R =2kΩ,G=1V/V,inputand S+ S– OUT PP F L outputreferencedtomid-supply,V =mid-supply–0.5V.T =25°C,unlessotherwisenoted. IN_CM A TEST PARAMETER TESTCONDITIONS MIN TYP MAX UNIT LEVEL(1) ACPERFORMANCE VOUT=100mVPP,G=1 200 VOUT=100mVPP,G=2 100 Small-signalbandwidth MHz C VOUT=100mVPP,G=5 26 VOUT=100mVPP,G=10 11 Gain-bandwidthproduct VOUT=100mVPP,G=10 110 MHz C Large-signalbandwidth VOUT=1VPP,G=2 60 MHz C Bandwidthfor0.1-dBflatness VOUT=1VPP,G=2 25 MHz C Slewrate,rise VOUT=1VSTEP,G=2 260 V/µs C Slewrate,fall VOUT=1VSTEP,G=2 240 V/µs C Risetime VOUT=1VSTEP,G=2 4 ns C Falltime VOUT=1VSTEP,G=2 4.5 ns C Settlingtimeto1%,rise VOUT=1VSTEP,G=2 15 ns C Settlingtimeto1%,fall VOUT=1VSTEP,G=2 15 ns C Settlingtimeto0.1%,rise VOUT=1VSTEP,G=2 30 ns C Settlingtimeto0.1%,fall VOUT=1VSTEP,G=2 25 ns C Settlingtimeto0.01%,rise VOUT=1VSTEP,G=2 50 ns C Settlingtimeto0.01%,fall VOUT=1VSTEP,G=2 45 ns C Overshoot/Undershoot VOUT=1VSTEP,G=2 5%/3% C f=10kHz,VIN_CM=mid-supply–0.5V –133 C Second-orderharmonicdistortion f=100kHz,VIN_CM=mid-supply–0.5V –120 dBc C f=1MHz,VIN_CM=mid-supply–0.5V –84 C f=10kHz,VIN_CM=mid-supply–0.5V –137 C Third-orderharmonicdistortion f=100kHz,VIN_CM=mid-supply–0.5V –130 dBc C f=1MHz,VIN_CM=mid-supply–0.5V –105 C f=1MHz,200-kHzToneSpacing, Second-orderintermodulationdistortion VOUTEnvelope=1VPP, –90 dBc C VIN_CM=mid-supply–0.5V f=1MHz,200-kHzToneSpacing, Third-orderintermodulationdistortion VOUTEnvelope=1VPP, –90 dBc C VIN_CM=mid-supply–0.5V Inputvoltagenoise f=100KHz 4.6 nV/√Hz C Voltagenoise1/fcornerfrequency 215 Hz C Inputcurrentnoise f=1MHz 0.75 pA/√Hz C (1) Testlevels(allvaluessetbycharacterizationandsimulation):(A)100%testedat25°C;overtemperaturelimitsbycharacterizationand simulation.(B)Nottestedinproduction;limitssetbycharacterizationandsimulation.(C)Typicalvalueonlyforinformation. Copyright©2011–2015,TexasInstrumentsIncorporated SubmitDocumentationFeedback 7 ProductFolderLinks:OPA836 OPA2836 OPA836,OPA2836 SLOS712G–JANUARY2011–REVISEDOCTOBER2015 www.ti.com Electrical Characteristics: V = 2.7 V (continued) S Testconditionsunlessotherwisenoted:V =+2.7V,V =0V,V =1V ,R =0Ω,R =2kΩ,G=1V/V,inputand S+ S– OUT PP F L outputreferencedtomid-supply,V =mid-supply–0.5V.T =25°C,unlessotherwisenoted. IN_CM A TEST PARAMETER TESTCONDITIONS MIN TYP MAX UNIT LEVEL(1) ACPERFORMANCE(continued) Currentnoise1/fcornerfrequency 31.7 kHz C Overdriverecoverytime,over/under Overdrive=0.5V 55/60 ns C Closed-loopoutputimpedance f=100kHz 0.02 Ω C Channel-to-channelcrosstalk(OPA2836) f=10kHz –120 dB C DCPERFORMANCE Open-loopvoltagegain(AOL) 100 125 dB A TA=25°C –400 ±65 400 A TA=0°Cto70°C –680 680 Inputreferredoffsetvoltage µV TA=–40°Cto85°C –760 760 B TA=–40°Cto125°C –1060 1060 TA=0°Cto70°C –6.2 ±1 6.2 Inputoffsetvoltagedrift(2) TA=–40°Cto85°C –6 ±1 6 µV/°C B TA=–40°Cto125°C –6.6 ±1.1 6.6 TA=25°C 300 650 1000 A Inputbiascurrent(3) TA=0°Cto70°C 190 1400 nA TA=–40°Cto85°C 120 1500 B TA=–40°Cto125°C 120 1800 TA=0°Cto70°C –2 ±0.33 2 Inputbiascurrentdrift(2) TA=–40°Cto85°C –1.9 ±0.32 1.9 nA/°C B TA=–40°Cto125°C –2.1 ±0.37 2.1 TA=25°C –180 ±30 180 A TA=0°Cto70°C –200 ±30 200 Inputoffsetcurrent nA TA=–40°Cto85°C –215 ±30 215 B TA=–40°Cto125°C –240 ±30 240 TA=0°Cto70°C –460 ±77 460 Inputoffsetcurrentdrift(2) TA=–40°Cto85°C –575 ±95 575 pA/°C B TA=–40°Cto125°C –600 ±100 600 INPUT TA=25°C, –0.2 0 V A <3-dBdegradationinCMRRlimit Common-modeinputrangelow TA=–40°Cto125°C, –0.2 0 V B <3-dBdegradationinCMRRlimit TA=25°C, 1.5 1.6 V A <3-dBdegradationinCMRRlimit Common-modeinputrangehigh TA=–40°Cto125°C, 1.5 1.6 V B <3-dBdegradationinCMRRlimit Inputlinearoperatingvoltagerange TA=25°C, –0.3to V C <6-dBdegradationinTHD 1.75 Common-moderejectionratio 91 114 dB A Inputimpedancecommonmode 200||1.2 kΩ||pF C Inputimpedancedifferentialmode 200||1 kΩ||pF C (2) InputOffsetVoltageDrift,InputBiasCurrentDrift,andInputOffsetCurrentDriftareaveragevaluescalculatedbytakingdataattheend points,computingthedifference,anddividingbythetemperaturerange. (3) Currentisconsideredpositiveoutofthepin. 8 SubmitDocumentationFeedback Copyright©2011–2015,TexasInstrumentsIncorporated ProductFolderLinks:OPA836 OPA2836 OPA836,OPA2836 www.ti.com SLOS712G–JANUARY2011–REVISEDOCTOBER2015 Electrical Characteristics: V = 2.7 V (continued) S Testconditionsunlessotherwisenoted:V =+2.7V,V =0V,V =1V ,R =0Ω,R =2kΩ,G=1V/V,inputand S+ S– OUT PP F L outputreferencedtomid-supply,V =mid-supply–0.5V.T =25°C,unlessotherwisenoted. IN_CM A TEST PARAMETER TESTCONDITIONS MIN TYP MAX UNIT LEVEL(1) OUTPUT TA=25°C,G=5 0.15 0.2 V A Linearoutputvoltagelow TA=–40°Cto125°C,G=5 0.15 0.2 V B TA=25°C,G=5 2.45 2.5 V A Linearoutputvoltagehigh TA=–40°Cto125°C,G=5 2.45 2.5 V B Outputsaturationvoltage,high/low TA=25°C,G=5 80/40 mV C TA=25°C ±40 ±45 mA A Linearoutputcurrentdrive TA=–40°Cto125°C ±40 ±45 mA B GAINSETTINGRESISTORS(OPA836IRUNONLY) ResistorFB1toFB2 DCresistance 1584 1600 1616 Ω A ResistorFB2toFB3 DCresistance 1188 1200 1212 Ω A ResistorFB3toFB4 DCresistance 396 400 404 Ω A Resistortolerance DCresistance –1% 1% A Resistortemperaturecoefficient DCresistance <10 PPM C POWERSUPPLY Specifiedoperatingvoltage 2.5 5.5 V B TA=25°C 0.7 0.95 1.15 mA A Quiescentoperatingcurrentperamplifier TA=–40°Cto125°C 0.6 1.4 mA B Powersupplyrejection(±PSRR) 91 108 dB A POWERDOWN Enablevoltagethreshold Specified"on"aboveVS–+2.1V 2.1 V A Disablevoltagethreshold Specified"off"belowVS–+0.7V 0.7 V A Power-downpinbiascurrent PD=0.5V 20 500 nA A Power-downquiescentcurrent PD=0.5V 0.5 1.5 µA A Turnontimedelay TimefromPD=hightoVOUT=90%offinal 200 ns C value Turnofftimedelay TimefromPD=lowtoVOUT=10%oforiginal 25 ns C value 7.7 Electrical Characteristics: V = 5 V S Testconditionsunlessotherwisenoted:V =+5V,V =0V,V =2V ,R =0Ω,R =1kΩ,G=1V/V,inputandoutput S+ S– OUT PP F L referencedtomid-supply.T =25°C,unlessotherwisenoted. A TEST PARAMETER TESTCONDITIONS MIN TYP MAX UNIT LEVEL(1) ACPERFORMANCE VOUT=100mVPP,G=1 205 VOUT=100mVPP,G=2 100 Small-signalbandwidth MHz C VOUT=100mVPP,G=5 28 VOUT=100mVPP,G=10 11.8 Gain-bandwidthproduct VOUT=100mVPP,G=10 118 MHz C Large-signalbandwidth VOUT=2VPP,G=2 87 MHz C Bandwidthfor0.1-dBflatness VOUT=2VPP,G=2 29 MHz C Slewrate,rise VOUT=2-VStep,G=2 560 V/µs C Slewrate,fall VOUT=2-VStep,G=2 580 V/µs C Risetime VOUT=2-VStep,G=2 3 ns C Falltime VOUT=2-VStep,G=2 3 ns C (1) Testlevels(allvaluessetbycharacterizationandsimulation):(A)100%testedat25°C;overtemperaturelimitsbycharacterizationand simulation.(B)Nottestedinproduction;limitssetbycharacterizationandsimulation.(C)Typicalvalueonlyforinformation. Copyright©2011–2015,TexasInstrumentsIncorporated SubmitDocumentationFeedback 9 ProductFolderLinks:OPA836 OPA2836 OPA836,OPA2836 SLOS712G–JANUARY2011–REVISEDOCTOBER2015 www.ti.com Electrical Characteristics: V = 5 V (continued) S Testconditionsunlessotherwisenoted:V =+5V,V =0V,V =2V ,R =0Ω,R =1kΩ,G=1V/V,inputandoutput S+ S– OUT PP F L referencedtomid-supply.T =25°C,unlessotherwisenoted. A TEST PARAMETER TESTCONDITIONS MIN TYP MAX UNIT LEVEL(1) ACPERFORMANCE(continued) Settlingtimeto1%,rise VOUT=2-VStep,G=2 22 ns C Settlingtimeto1%,fall VOUT=2-VStep,G=2 22 ns C Settlingtimeto0.1%,rise VOUT=2-VStep,G=2 30 ns C Settlingtimeto0.1%,fall VOUT=2-VStep,G=2 30 ns C Settlingtimeto0.01%,rise VOUT=2-VStep,G=2 40 ns C Settlingtimeto0.01%,fall VOUT=2-VStep,G=2 45 ns C Overshoot/Undershoot VOUT=2-VStep,G=2 7.5%/5% C f=10kHz –133 Second-orderharmonicdistortion f=100kHz –120 dBc C f=1MHz –85 f=10kHz –140 Third-orderharmonicdistortion f=100kHz –130 dBc C f=1MHz –105 f=1MHz,200kHzToneSpacing, Second-orderintermodulationdistortion –79 dBc C VOUTEnvelope=2VPP f=1MHz,200kHzToneSpacing, Third-orderintermodulationdistortion –91 dBc C VOUTEnvelope=2VPP Signal-to-noiseratio,SNR f=1kHz,VOUT=1VRMS, 0.00013% C 22kHzbandwidth –117.6 dBc 0.00003% Totalharmonicdistortion,THD f=1kHz,VOUT=1VRMS C –130 dBc Inputvoltagenoise f=100KHz 4.6 nV/√Hz C Voltagenoise1/fcornerfrequency 215 Hz C Inputcurrentnoise f>1MHz 0.75 pA/√Hz C Currentnoise1/fcornerfrequency 31.7 kHz C Overdriverecoverytime,over/under Overdrive=0.5V 55/60 ns C Closed-loopoutputimpedance f=100kHz 0.02 Ω C Channeltochannelcrosstalk(OPA2836) f=10kHz –120 dB C DCPERFORMANCE Open-loopvoltagegain(AOL) 100 122 dB A TA=25°C –400 ±65 400 A TA=0°Cto70°C –685 685 Inputreferredoffsetvoltage µV TA=–40°Cto85°C –765 765 B TA=–40°Cto125°C –1080 1080 TA=0°Cto70°C –6.3 ±1.05 6.3 Inputoffsetvoltagedrift(2) TA=–40°Cto85°C –6.1 ±1 6.1 µV/°C B TA=–40°Cto125°C –6.8 ±1.1 6.8 TA=25°C 300 650 1000 A Inputbiascurrent(3) TA=0°Cto70°C 190 1400 nA TA=–40°Cto85°C 120 1550 B TA=–40°Cto125°C 120 1850 TA=0°Cto70°C ±0.34 ±2 Inputbiascurrentdrift(2) TA=–40°Cto85°C ±0.34 ±2 nA/°C B TA=–40°Cto125°C ±0.38 ±2.3 (2) InputOffsetVoltageDrift,InputBiasCurrentDrift,andInputOffsetCurrentDriftareaveragevaluescalculatedbytakingdataattheend points,computingthedifference,anddividingbythetemperaturerange. (3) Currentisconsideredpositiveoutofthepin. 10 SubmitDocumentationFeedback Copyright©2011–2015,TexasInstrumentsIncorporated ProductFolderLinks:OPA836 OPA2836

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industry-leading power-to-performance ratio for rail- . Changed text in sections throughout the data sheet to be more clear and concise . Changed the power-down pin bias current test condition from PD = 0.7 V to PD = 0.5 V ..
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