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THS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003HIGHEFFICIENCYCLASS-GADSLLINEDRIVERFEATURESDLowTotalPowerConsumptionIncreasesADSLLineCardDensity(20dBmonLine)–600mWw/ActiveTermination(FullBias)–530mWw/ActiveTermination(LowBias)DLowMTPRof–74dBc(AllBiasConditions)DHighOutputCurrentof500mA(typ)DWideSupplyVoltageRangeof±5Vto±15V[VCC(H)]and±3.
3Vto±15V[VCC(L)]DWideOutputVoltageSwingof43VppInto100-DifferentialLoad[VCC(H)=±12V]DMultipleBiasModesAllowLowQuiescentPowerConsumptionforShortLineLengths–160-mW/chFullBiasMode–135-mW/chMidBiasMode–110-mW/chLowBiasMode–75-mW/chTerminateOnlyMode–13-mW/chShutdownModeDLowNoiseforIncreasedReceiverSensitivity–3.
3pA/√HzNoninvertingCurrentNoise–9.
5pA/√HzInvertingCurrentNoise–3.
5nV/√HzVoltageNoiseAPPLICATIONSDIdealforActiveTerminationFullRateADSLDMTapplications(20-dBmLinePower)DESCRIPTIONTheTHS6132isaClass-GcurrentfeedbackdifferentiallinedriveridealforfullrateADSLDMTsystems.
Itsextremelylowpowerconsumptionof600mWorlowerisidealforADSLsystemsthatmustachievehighdensitiesinADSLcentralofficerackapplications.
TheuniquepatentpendingarchitectureoftheTHS6132allowsthequiescentcurrenttobemuchlowerthanexistinglinedriverswhilestillachievingveryhighlinearity.
Inaddition,themultiplebiassettingsoftheamplifiersallowforevenlowerpowerconsumptionforlinelengthswherethefullperformanceoftheamplifierisnotrequired.
TheoutputvoltageswinghasbeenvastlyimprovedoverfirstgenerationGlass-Gamplifiersandallowstheuseoflowerpowersupplyvoltagesthathelpconservepower.
Formaximumflexibility,theTHS6132canbeconfiguredinclassicalClass-ABmoderequiringonlyasfewasonepowersupply.
THS6132a1:1–6V12.
41001k1k1.
33k1.
33k576CODECVIN–CODECVIN+12.
4+20dBmLinePowerTHS6132b+–+6V+15V–+TypicalADSLCOLineDriverCircuitUtilizingActiveImpedanceSupportingA6.
3CrestFactor–15VPRODUCTIONDATAinformationiscurrentasofpublicationdate.
ProductsconformtospecificationsperthetermsofTexasInstrumentsstandardwarranty.
Productionprocessingdoesnotnecessarilyincludetestingofallparameters.
Pleasebeawarethatanimportantnoticeconcerningavailability,standardwarranty,anduseincriticalapplicationsofTexasInstrumentssemiconductorproductsanddisclaimerstheretoappearsattheendofthisdatasheet.
www.
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comCopyright2002–2003,TexasInstrumentsIncorporatedTHS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
ti.
com2Thesedeviceshavelimitedbuilt-inESDprotection.
Theleadsshouldbeshortedtogetherorthedeviceplacedinconductivefoamduringstorageorhandlingtopreventelectrostaticdamage.
ORDERINGINFORMATIONPRODUCTPACKAGEPACKAGESYMBOLTORDERNUMBERTRANSPORTPRODUCTPACKAGEPACKAGECODESYMBOLTAORDERNUMBERTRANSPORTMEDIATHS6132VFPTQFP32PowerPADVFP32THS6132THS6132VFPTubeTHS6132VFPTQFP-32PowerPADVFP–32THS6132–40°Cto85°CTHS6132VFPRTapeandreelTHS6132RGWLeadless25-pin5,mmx5,mmPowerPADRGW–256132–40°Cto85°CTHS6132RGWRTapeandreelPACKAGEDISSIPATIONRATINGSPACKAGEΘJAΘJCTA≤25°CPOWERRATING(1)TA=70°CPOWERRATING(1)TA=85°CPOWERRATING(1)VFP–3229.
4°C/W0.
96°C/W3.
57W2.
04W1.
53WRGW–2531°C/W1.
7°C/W3.
39W1.
94W1.
45W(1)Powerratingisdeterminedwithajunctiontemperatureof130°C.
Thisisthepointwheredistortionstartstosubstantiallyincrease.
ThermalmanagementofthefinalPCBshouldstrivetokeepthejunctiontemperatureatorbelow125_Cforbestperformance.
ABSOLUTEMAXIMUMRATINGSoveroperatingfree-airtemperaturerangeunlessotherwisenoted(1)THS6132Supplyvoltage,VCC(H)andVCC(L)(2)±16.
5VInputvoltage,VI±VCC(L)Outputcurrent,IO(3)900mADifferentialinputvoltage,VIO±2VMaximumjunctiontemperature,TJ(seeDissipationRatingTableformoreinformation)150°COperatingfree–airtemperature,TA–40°Cto85°CStoragetemperature,TStg65°Cto150°CLeadtemperature,1,6mm(1/16–inch)fromcasefor10seconds300°CHBM1kVESDratingsCDM500VESDratingsMM200V(1)Stressesbeyondthoselistedunder"absolutemaximumratings"maycausepermanentdamagetothedevice.
Thesearestressratingsonly,andfunctionaloperationofthedeviceattheseoranyotherconditionsbeyondthoseindicatedunder"recommendedoperatingconditions"isnotimplied.
Exposuretoabsolute-maximum-ratedconditionsforextendedperiodsmayaffectdevicereliability.
(2)VCC(H)mustalwaysbegreaterthanorequaltoVCC(L)forproperoperation.
Class-ABmodeoperationoccurswhenVCC(H)isequaltoVCC(L)andisconsideredacceptableoperationfortheTHS6132eventhoughitisnotfullyspecifiedinthismodeofoperation.
(3)TheTHS6132incorporatesaPowerPADontheundersideofthechip.
Thisactsasaheatsinkandmustbeconnectedtoathermallydissipatingplaneforproperpowerdissipation.
Failuretodosomayresultinexceedingthemaximumjunctiontemperaturethatcouldpermanentlydamagethedevice.
SeeTITechnicalBriefSLMA002formoreinformationaboututilizingthePowerPADthermallyenhancedpackage.
PowerPADisatrademarkofTexasInstruments.
THS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
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com3RECOMMENDEDOPERATINGCONDITIONSMINNOMMAXUNITSupplyvoltage+VCC(H)to–VCC(H)±VCC(L)±15±16VSupplyvoltage+VCC(L)to–VCC(L)±3.
3±5±VCC(H)VOperatingfree-airtemperature,TA–4085°CELECTRICALCHARACTERISTICSoverrecommendedoperatingfree-airtemperaturerange,TA=25°C,VCC(H)=±15V,VCC(L)=±5VRF=1.
5k,Gain=+10,FullBiasMode,RL=50(unlessotherwisenoted)NOISE/DISTORTIONPERFORMANCEPARAMETERTESTCONDITIONSMINTYPMAXUNITMultitonepowerratioGain=+11,163kHzto1.
1MHzDMT,+20dBmLinePower,1:1.
1transformer,activetermination,synthesisfactor=4–74dBcReceivebandspill-overGain=+11,25kHzto138kHzwithMTPRsignalapplied–95dBc2ndharmonicDifferentialload=100–84dBcHDHarmonicdistortion(DifferentialConfigurationf1MHz2ndharmonicDifferentialload=25–69dBcHDConfiguration,f=1MHz,VO(PP)=2VGain=+10)3rdharmonicDifferentialload=100–92dBcVO(PP)=2V,Gain=+10)3rdharmonicDifferentialload=25–73dBcVnInputvoltagenoisef=10kHz3.
5nV/√HzIInputcurrentnoise+Inputf=10kHz3.
3pA/√HzInInputcurrentnoise–Inputf=10kHz9.
5pA/√HzCrosstalkf=1MHz,RL=100,VO(PP)=2V,Gain=+2–52dBcOUTPUTCHARACTERISTICSVCC(H)=±12VRL=100±10.
4±10.
8VVOSingleendedoutputvoltageswingVCC(H)=±12VRL=30±9.
9±10.
4VVOSingle–endedoutputvoltageswingVCC(H)=±15VRL=100±13.
3±13.
8VVCC(H)=±15VRL=50±13±13.
6VOutputvoltagetransitionfromVCC(L)toRL=50VCC(L)=±5V±3.
1VOututvoltagetransitionfromVCC(L)toVCC(H)(PointwhereICC(L)=ICC(H))RL=50VCC(L)=±6V±3.
9VIOOutputcurrent(1)RL=10VCC(H)=±12V±500mAIOOutputcurrent(1)RL=10VCC(H)=±15V±400±500mAI(SC)Short-circuitcurrent(1)RL=1VCC(H)=±15V±750mAOutputresistanceOpen-loop5Outputresistance—terminatemodef=1MHz,Gain=+100.
35Outputresistance—shutdownmodef=1MHz,Open-loop5.
5k(1)Aheatsinkisrequiredtokeepthejunctiontemperaturebelowabsolutemaximumratingwhenanoutputisheavilyloadedorshorted.
SeeAbsoluteMaximumRatingssectionformoreinformation.
THS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
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com4ELECTRICALCHARACTERISTICS(continued)overrecommendedoperatingfree-airtemperaturerange,TA=25°C,VCC(H)=±15V,VCC(L)=±5VRF=1.
5k,Gain=+10,FullBiasMode,RL=50(unlessotherwisenoted)POWERSUPPLYPARAMETERTESTCONDITIONSMINTYPMAXUNITVCC()Operatingrange±VCC(H)±VCC(L)±15±16.
5VVCC(x)Operatingrange±VCC(L)±3±5±VCC(H)VVCC(L)=±5V;TA=25°C5.
76.
47.
5mAQitt(hdi)VCC(L)±5V(VCC(H)=±15V)TA=fullrange8.
1mAQuiescentcurrent(eachdriver)Full-biasmodeVCC(L)=±6V;TA=25°C6.
7mAFull-biasmode(Bias–1=1,Bias–2=1,VCC(L)±6V(VCC(H)=±15V)TA=fullrangemA(Bias–1=1,Bias–2=1,Bias–3=X)(ItidithV±15VVCC(H)=±12V;TA=25°C3.
1mA)(IcctrimmedwithVCC(H)=±15V,VCC(L)=±5V)VCC(H)±12V(VCC(L)=±5V)TA=fullrangemAVCC(L)=±5V)VCC(H)=±15V;TA=25°C2.
93.
253.
75mAICCVCC(H)±15V(VCC(L)=±5V)TA=fullrange4.
25mAICCMid;Bias–1=1,Bias–2=0,Bias–3=15.
05.
66.
8Quiescentcurrent(eachdriver)VariablebiasmodesLow;Bias–1=1,Bias–2=0,Bias–3=04.
254.
86.
0mAVariablebiasmodes,VCC(L)=±5VTerminate;Bias–1=0,Bias–2=1,Bias–3=X(1)3.
23.
84.
5mAVCC(L)=±5VShutdown;Bias–1=0,Bias–2=0,Bias–3=X(1)11.
3Mid;Bias–1=1,Bias–2=0,Bias–3=12.
42.
73.
0Quiescentcurrent(eachdriver)VariablebiasmodesLow;Bias–1=1,Bias–2=0,Bias–3=01.
92.
152.
4mAVariablebiasmodes,VCC(H)=±15VTerminate;Bias–1=0,Bias–2=1,Bias–3=X(1)1.
11.
31.
5mAVCC(H)=±15VShutdown;Bias–1=0,Bias–2=0,Bias–3=X(1)0.
10.
5VCC(L)=±5VTA=25°C–70–82PSRRPowersupplyrejectionratioVCC(L)=±5VTA=fullrange–68dBPSRRPowersulyrejectionratio(VCC(x)=±1V)VCC(H)=±15VTA=25°C–70–82dB(CC(x))VCC(H)=±15VTA=fullrange–68(1)Xisusedtodenotealogicstateofeither1or0.
THS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
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com5ELECTRICALCHARACTERISTICS(continued)overrecommendedoperatingfree-airtemperaturerange,TA=25°C,VCC(H)=±15V,VCC(L)=±5VRF=1.
5k,Gain=+10,FullBiasMode,RL=50(unlessotherwisenoted)DYNAMICPERFORMANCEPARAMETERTESTCONDITIONSMINTYPMAXUNITGain=+1,RF=75080RL100Gain=+2,RF=62070MHzRL=100Gain=+5,RF=50060MHzBWSingle-endedsmall-signalbandwidthGain=+10,RF=1k20BWSingleendedsmallsignalbandwidth(–3dB),VO=0.
1VrmsGain=+1,RF=75060(3dB),VO0.
1VrmsRL25Gain=+2,RF=62055MHzRL=25Gain=+5,RF=50050MHzGain=+10,RF=1k17SRSingle-endedslew-rate(1)VO=20VPP,Gain=+10300V/s(1)Slew-rateisdefinedfromthe25%tothe75%outputlevelsDCPERFORMANCEPARAMETERTESTCONDITIONSMINTYPMAXUNITInputoffsetvoltageTA=25°C115InputoffsetvoltageTA=fullrange20mVVOSDifferentialoffsetvoltageVCC(L)=±5V,±6VTA=25°C0.
36mVVOSDifferentialoffsetvoltageVCC(L)±5V,±6VTA=fullrange8OffsetdriftTA=fullrange40V/°CInputbiascurrentTA=25°C115I–InputbiascurrentVCC(L)±5V±6VTA=fullrange20AIIB+InputbiascurrentVCC(L)=±5V,±6VTA=25°C1.
515A+InputbiascurrentTA=fullrange20ZOLOpenlooptransimpedanceRL=1k2MTHS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
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com6ELECTRICALCHARACTERISTICS(continued)overrecommendedoperatingfree-airtemperaturerange,TA=25°C,VCC(H)=±15V,VCC(L)=±5VRF=1.
5k,Gain=+10,FullBiasMode,RL=50(unlessotherwisenoted)INPUTCHARACTERISTICSPARAMETERTESTCONDITIONSMINTYPMAXUNITVCC(L)±5VTA=25°C±2.
7±3.
0VICRInputcommon–modevoltagerange(1)VCC(L)=±5VTA=fullrange±2.
6VVICRInutcommonmodevoltagerange()VCC(L)=±6VTA=25°C±4.
0VREFpininputvoltagerangeVCC–(L)=±5V±2.
5VREFpininputvoltagerangeVCC(L)=±6V±3.
5VCMRRCommonmoderejectionratioVCC(L)±5V±6VTA=25°C6067dBCMRRCommon-moderejectionratioVCC(L)=±5V,±6VTA=fullrange57dBRInputresistance+Input800kRIInputresistance–Input45CIDifferentialInputcapacitance1.
2pF(1)Toconserveasmuchpoweraspossible,theinputstageoftheTHS6132ispoweredfromtheVCC(L)suppliesandislimitedbytheVCC(L)supplyvoltage.
ForClass-ABoperation,connecttheVCC(L)suppliestoVCC(H).
LOGICCONTROLCHARACTERISTICSPARAMETERTESTCONDITIONSMINTYPMAXUNITVIHBiaspinvoltageforlogic1RelativetoDGNDpinvoltage2.
0VVILBiaspinvoltageforlogic0RelativetoDGNDpinvoltage0.
8VIIHBiaspincurrentforlogic1VIH=5V,DGND=0V–0.
1–0.
2AIILBiaspincurrentforlogic0VIL=0V,DGND=0V–0.
1–0.
2ATransitiontime—logic0tologic1(1)0.
1sTransitiontime—logic1tologic0(1)0.
2sDGNDuseablerange–VCC(H)+VCC(H)–5V(1)Transitiontimeisdefinedasthetimefromwhenthelogicsignalisappliedtothetimewhenthesupplycurrenthasreachedhalfitsfinalvalue.
LOGICTABLEBIAS-1BIAS-2BIAS-3FUNCTIONDESCRIPTION11X(1)FullbiasmodeAmplifiersONwithlowestdistortionpossible101MidbiasmodeAmplifiersONwithpowersavingswithareductionindistortionperformance100LowbiasmodeAmplifiersONwithenhancedpowersavingsandareductionofdistortionperformance01X(1)TerminatemodeLowestpowerstatewith+VinpinsinternallyconnecttoREFpinandoutputhaslowimpedance00X(1)ShutdownmodeAmplifiersOFFandoutputhashighimpedance(1)Xisusedtodenotealogicstateofeither1or0.
NOTE:Thedefaultstateforalllogicpinsisalogicone(1).
THS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
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com7THS6132a1:1.
2–5V8.
661001k1k1.
33k1.
33k953CODECVIN–CODECVIN+8.
66+20dBmLinePowerTHS6132b–12V+–+5V+12V–+Figure1.
±12VActiveTerminationADSLCOLineDriverCircuit(SynthesisFactor=4;CF=5.
6)PINASSIGNMENTSPowerPADTM3231302928272625910111213141516242322212019181712345678THS6132TQFPPowerPAD(VFP)PACKAGE(TOPVIEW)PowerPADTMTHS6132Leadless5X5PowerPAD(RGW)PACKAGE(TOPVIEW)NCNCNCNC+VCCH+VCCH+VCCH+VCCL+VCCLNCNCNCOUT1IN1–IN2–OUT2NCNCNCIN1+IN2+REFDGNDBIAS–1BIAS–2BIAS–3NC–VCCH–VCCL–VCCH–VCCH–VCCLBIAS–2BIAS–3–VCCH–VCCL–VCCHOUT1OUT2IN1–NCIN2–NCNCIN1+IN2+REFDGNDBIAS–1+VCCH+VCCL+VCCHTHS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
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com8TYPICALCHARACTERISTICSTableofGraphsFIGUREOutputvoltageheadroomvsOutputcurrent2Common-moderejectionratiovsFrequency3CrosstalkvsFrequency4QuiescentcurrentvsTemperature5,6LargesignalbandwidthvsFrequency7–10NoisevsFrequency11Overdriverecovery12PowersupplyrejectionratiovsFrequency13Smallsignalfrequencyresponse14,15,16SmallsignalbandwidthvsFrequency17–28SlewratevsOutputvoltage29Closed-loopoutputimpedancevsFrequency30,31Shutdownresponse32Common-moderejectionratiovsCommon-modeinputvoltage33InputbiascurrentvsTemperature34InputoffsetvoltagevsTemperature35CurrentdrawdistributionvsOutputvoltage36,37OutputvoltagevsTemperature38DifferentialdistortionvsFrequency39–52DifferentialdistortionvsDifferentialoutputvoltage53–63SingleendeddistortionvsFrequency64,65Figure2012345678910100200300400500600OutputCurrent–mAOutputVoltageHeadroom–VCC–VoutVCCH±15VVCCL=±5VGain=10OUTPUTVOLTAGEHEADROOMvsOUTPUTCURRENTFigure301020304050607010k100k1M10M100MGain=2Gain=10Gain–dBf–Frequency–HzCOMMON-MODEREJECTIONRATIOvsFREQUENCYFigure4–80–70–60–50–40–30–20–100100k1M10M100Mf–Frequency–HzGain–dBRload=100Gain=10Gain=2CROSSTALKvsFREQUENCYTHS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
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com9Figure5012345678–40–20020406080100LowBiasFullBiasMidBiasTerminateModeShutdownT–Temperature–°CQuiescentCurrent–mAVCCH=±15VVCCL=±5VQUIESCENTCURRENTvsTEMPERATUREFigure60246810121416–40–20020406080100LowBiasFullBiasMidBiasTerminateModeShutdownT–Temperature–°CVCCH=±15VVCCL=±5VQUIESCENTCURRENTvsTEMPERATUREQuiescentCurrent–mAFigure7–18–12–60612182430100k1M10M100M1GVO=16VPPVO=8VPPVO=4VPPVCCH=±15VVCCL=±5VGain=5Rf=1kRl=25f–Frequency–HzGain–dBVO=2VPPVO=1VPPVO=0.
5VPPVO=0.
25VPPLARGESIGNALBANDWIDTHvsFREQUENCYFigure8–18–12–60612182430VO=16VPPVO=8VPPVO=4VPPVCCH=±15VVCCL=±5VGain=5Rf=1kRl=100f–Frequency–HzGain–dBVO=2VPPVO=1VPPVO=0.
5VPPVO=0.
25VPPLARGESIGNALBANDWIDTHvsFREQUENCY100k1M10M100M1GFigure9–18–12–60612182430VO=16VPPVO=8VPPVO=4VPPVCCH=±15VVCCL=±5VGain=10Rf=1kRl=25f–Frequency–HzOutputVoltage–dBVO=2VPPVO=1VPPVO=0.
5VPPVO=0.
25VPPLARGESIGNALBANDWIDTHvsFREQUENCY100k1M10M100M1GFigure10–18–12–60612182430VO=16VPPVO=8VPPVO=4VPPVCCH=±15VVCCL=±5VGain=10Rf=1kRl=100f–Frequency–HzOutputVoltage–dBVO=2VPPVO=1VPPVO=0.
5VPPVO=0.
25VPPLARGESIGNALBANDWIDTHvsFREQUENCY100k1M10M100M1GFigure11110100101001k10k100k110100f–Frequency–Hz–VoltageNoise–nV/HzVnIn–VnIn+–CurrentNoise–pA/HzInNOISEvsFREQUENCYFigure12–1.
5–1–0.
500.
511.
500.
20.
40.
60.
81–15–10–5051015t–Time–ns–InputVoltage–VVIVCCH=±15VVCCL=±5VGain=10Rload=100OVERDRIVERECOVERYFigure1301020304050607080901k10k100k1M10M100Mf–Frequency–HzPSRR–dB±VCCL±VCCHPOWERSUPPLYREJECTIONRATIOvsFREQUENCYTHS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
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com10Figure14–7–6–5–4–3–2–1012100k1M10M100MVCCH=±15VVCCL=±5VGain=1VO=0.
1VrmsRf=750Rl=25MidBiasFullBiasLowBiasf–Frequency–HzGain–dBSMALLSIGNALFREQUENCYRESPONSEFigure15–7–6–5–4–3–2–1012VCCH=±15VVCCL=±5VGain=1VO=0.
1VrmsRf=750Rl=100MidBiasFullBiasLowBiasGain–dBSMALLSIGNALFREQUENCYRESPONSE100k1M10M100Mf–Frequency–HzFigure16–7–6–5–4–3–2–1012VCCH=±15VVCCL=±15VGain=1VO=0.
1VrmsRf=750Rl=25MidBiasFullBiasLowBiasf–Frequency–HzGain–dBSMALLSIGNALFREQUENCYRESPONSE100k1M10M100MFigure17f–Frequency–HzGain–dB–7–6–5–4–3–2–1012VCCH=±15VVCCL=±15VGain=1VO=0.
1VrmsRf=750Rl=25MidBiasFullBiasLowBiasSMALLSIGNALBANDWIDTHvsFREQUENCY100k1M10M100MFigure18f–Frequency–HzGain–dB–1012345678LowBiasMidBiasFullBiasVCCH=±15VVCCL=±5VGain=2VO=0.
1VrmsRf=620Rl=100SMALLSIGNALBANDWIDTHvsFREQUENCY100k1M10M100MFigure19f–Frequency–HzGain–dB–1012345678LowBiasMidBiasFullBiasVCCH=±15VVCCL=±15VGain=2VO=0.
1VrmsRf=620Rl=25SMALLSIGNALBANDWIDTHvsFREQUENCY100k1M10M100MFigure20f–Frequency–HzGain–dB6789101112131415100k1M10M100MRF=2kRF=1kRF=500VCCH=±15VVCCL=±5VGain=5VO=0.
1VrmsRl=25FullBiasSMALLSIGNALBANDWIDTHvsFREQUENCYFigure21f–Frequency–HzGain–dB6789101112131415100k1M10M100MRF=2kRF=1kRF=500VCCH=±15VVCCL=±5VGain=5VO=0.
1VrmsRl=25MidBiasSMALLSIGNALBANDWIDTHvsFREQUENCYFigure22f–Frequency–HzGain–dB6789101112131415100k1M10M100MRF=2kRF=1kRF=500VCCH=±15VVCCL=±5VGain=5VO=0.
1VrmsRl=25LowBiasSMALLSIGNALBANDWIDTHvsFREQUENCYTHS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
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com11Figure23f–Frequency–HzGain–dB6789101112131415100k1M10M100MRF=2kRF=1kRF=500VCCH=±15VVCCL=±5VGain=5VO=0.
1VrmsRl=100FullBiasSMALLSIGNALBANDWIDTHvsFREQUENCYFigure24f–Frequency–HzGain–dB6789101112131415100k1M10M100MRF=2kRF=1kRF=500VCCH=±15VVCCL=±5VGain=5VO=0.
1VrmsRl=100LowBiasSMALLSIGNALBANDWIDTHvsFREQUENCYFigure25–12581114172023100k1M10M100MMidBiasLowBiasFullBiasVCCH=±15VVCCL=±5VGain=10VO=0.
1VrmsRf=1kRL=25f–Frequency–HzGain–dBSMALLSIGNALBANDWIDTHvsFREQUENCYFigure26–12581114172023MidBiasLowBiasFullBiasVCCH=±15VVCCL=±5VGain=10VO=0.
1VrmsRf=1kRL=100f–Frequency–HzGain–dBSMALLSIGNALBANDWIDTHvsFREQUENCY100k1M10M100MFigure27–12581114172023MidBiasLowBiasFullBiasVCCH=±15VVCCL=±5VGain=–10VO=0.
1VrmsRf=1kRL=100f–Frequency–HzGain–dBSMALLSIGNALBANDWIDTHvsFREQUENCY100k1M10M100MFigure28–12581114172023MidBiasLowBiasFullBiasVCCH=±15VVCCL=±5VGain=–10VO=0.
1VrmsRf=1kRL=25f–Frequency–HzGain–dBSMALLSIGNALBANDWIDTHvsFREQUENCY100k1M10M100MFigure2905010015020025030035040005101520VO–OutputVoltage–VPPSlew-Rate–sV/–SR+SRVCCH=±15VVCCL=±5VGain=5Rload=100SLEWRATEvsOUTPUTVOLTAGEFigure300.
010.
1110100100010000ShutdownGain=2TerminateLowBiasFullBiasf–Frequency–HzClosed-LoopOutputImpedance–CLOSEDLOOPOUTPUTIMPEDANCEvsFREQUENCY100k1M10M100MFigure310.
010.
1110100100010000ShutdownGain=10TerminateLowBiasFullBiasf–Frequency–HzClosed-LoopOutputImpedance–CLOSEDLOOPOUTPUTIMPEDANCEvsFREQUENCY100k1M10M100MTHS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
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com12Figure32VCCH=±15VVCCL=±5VGain=5VIN=1VdcRload=100–1012345600.
10.
20.
30.
40.
50.
60.
70.
80.
91t–Time–nsV–Voltage_VOutputVoltageV–SHDNSHUTDOWNRESPONSEFigure3301020304050607080–4–3–2–101234–40°C25°C85°CVCCH=±15VVCCL=±5VCommon-ModeInputVoltage–±VCCLCommon-ModeRejectionRatio–dBCOMMON-MODEREJECTIONRATIOvsCOMMON-MODEINPUTVOLTAGEFigure34–2–1.
5–1–0.
500.
5–40–20020406080100InputBiasCurrent–T–Temperature–°CVCCH=±15VVCCL=±5VAlib–lib+INPUTBIASCURRENTvsTEMPERATUREFigure35–1.
4–1.
2–1–0.
8–0.
6–0.
4–0.
200.
2–40–20020406080100InputOffsetVoltage–mVT–Temperature–°CVCCH=±15VVCCL=±5VVio–ChannelAVio–ChannelBINPUTOFFSETVOLTAGEvsTEMPERATUREFigure3602040608010001234567VCCL=±7.
5VVCCL=±6VVCCL=±5VVCCH=±15VRload=25Gain=10f=1MHzOutputVoltage–VRMS–CurrentDrawDistribution–%ICCLCURRENTDRAWDISTRIBUTIONvsOUTPUTVOLTAGEFigure37VCCL=±7.
5VVCCL=±5VVCCH=±15VRload=25Gain=10f=1MHzOutputVoltage–VRMS02040608010001234567VCCL=±6VCURRENTDRAWDISTRIBUTIONvsOUTPUTVOLTAGE–CurrentDrawDistribution–%ICCHFigure389.
51010.
51111.
51212.
51313.
51414.
5–40–20020406080100VCCH=±15V,Rl=100VCCH=±15V,Rl=50VCCH=±12V,Rl=100VCCH=±12V,Rl=30OutputVoltage–|V|T–Temperature–°COUTPUTVOLTAGEvsTEMPERATUREFigure39–110–100–90–80–70–60–50–40–30–20HD3HD2Gain=10FullBiasVO=2VPPRf=1kRL=100VCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcDIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure40–110–100–90–80–70–60–50–40–30–20Gain=10MidBiasVO=2VPPRf=1kRL=100VCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MTHS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
ti.
com13Figure41–110–100–90–80–70–60–50–40–30–20Gain=10LowBiasVO=2VPPRf=1kRL=100VCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure42–110–100–90–80–70–60–50–40–30–20Gain=10FullBiasVO=2VPPRf=1kRL=25VCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure43–110–100–90–80–70–60–50–40–30–20Gain=10MidBiasVO=2VPPRf=1kRL=25VCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure44–110–100–90–80–70–60–50–40–30–20Gain=10LowBiasVO=2VPPRf=1kRL=25VCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure45–110–100–90–80–70–60–50–40–30–20Gain=5FullBiasVO=2VPPRf=1kRL=100VCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure46–110–100–90–80–70–60–50–40–30–20Gain=5MidBiasVO=2VPPRf=1kRL=100VCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure47–110–100–90–80–70–60–50–40–30–20Gain=5LowBiasVO=2VPPRf=1kRL=100VCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure48–110–100–90–80–70–60–50–40–30–20Gain=5FullBiasVO=2VPPRf=1kRL=100VCCH=±15VVCCL=±15Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure49–110–100–90–80–70–60–50–40–30–20Gain=5FullBiasVO=2VPPRf=1kRL=25VCCH±15VVCCL=±5Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MTHS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
ti.
com14Figure50–110–100–90–80–70–60–50–40–30–20Gain=5MidBiasVO=2VPPRf=1kRL=25VCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure51–110–100–90–80–70–60–50–40–30–20Gain=5LowBiasVO=2VPPRf=1kRL=25VCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure52–110–100–90–80–70–60–50–40–30–20Gain=5FullBiasVO=2VPPRf=1kRL=25VCCH=±15VVCCL=±15Vf–Frequency–HzDistortion–dBcHD3HD2DIFFERENTIALDISTORTIONvsFREQUENCY100k1M10M100MFigure53–90–85–80–75–70–65–60–55–5035791113151DifferentialOutputVoltage–VPPDistortion–dBcGain=5FullBiasRf=1kRL=25f=1MHzVCCH=±15VVCCL=±5VHD3HD2DIFFERENTIALDISTORTIONvsDIFFERENTIALOUTPUTVOLTAGEFigure54–90–85–80–75–70–65–60–55–5035791113151DifferentialOutputVoltage–VPPDistortion–dBcGain=5MidBiasRf=1kRL=25f=1MHzVCCH=±15VVCCL=±5VHD3HD2DIFFERENTIALDISTORTIONvsDIFFERENTIALOUTPUTVOLTAGEFigure55–90–85–80–75–70–65–60–55–5035791113151DifferentialOutputVoltage–VPPDistortion–dBcGain=5LowBiasRf=1kRL=25f=1MHzVCCH=±15VVCCL=±5VHD3HD2DIFFERENTIALDISTORTIONvsDIFFERENTIALOUTPUTVOLTAGEFigure56DifferentialOutputVoltage–VPPDistortion–dBcGain=5FullBiasRf=1kRL=100f=1MHzVCCH=±15VVCCL=±5VHD3HD2–105–100–95–90–85–80–75–70–655101520253035400DIFFERENTIALDISTORTIONvsDIFFERENTIALOUTPUTVOLTAGEFigure57DifferentialOutputVoltage–VPPDistortion–dBcGain=5MidBiasRf=1kRL=100f=1MHzVCCH=±15VVCCL=±5VHD3HD2–105–100–95–90–85–80–75–70–655101520253035400DIFFERENTIALDISTORTIONvsDIFFERENTIALOUTPUTVOLTAGEFigure58DifferentialOutputVoltage–VPPDistortion–dBc–105–100–95–90–85–80–75–70–65010203040Gain=5LowBiasRf=1kRL=100f=1MHzVCCH=±15VVCCL=±5VHD3HD2DIFFERENTIALDISTORTIONvsDIFFERENTIALOUTPUTVOLTAGETHS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
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com15Figure59DifferentialOutputVoltage–VPPDistortion–dBc–105–100–95–90–85–80–75–70–65010203040Gain=5FullBiasRf=1kRL=100f=1MHzVCCH=±15VVCCL=±15VHD3HD2DIFFERENTIALDISTORTIONvsDIFFERENTIALOUTPUTVOLTAGEFigure60DifferentialOutputVoltage–VPPDistortion–dBcHD3HD2–90–85–80–75–70–65–60–55–5013579111315Gain=10FullBiasRf=1kRL=25f=1MHzVCCH=±15VVCCL=±5VDIFFERENTIALDISTORTIONvsDIFFERENTIALOUTPUTVOLTAGEFigure61DifferentialOutputVoltage–VPPDistortion–dBc–100–95–90–85–80–75–70–65–60010203040HD3HD2Gain=10FullBiasRf=1kRL=100f=1MHzVCCH=±15VVCCL=±5VDIFFERENTIALDISTORTIONvsDIFFERENTIALOUTPUTVOLTAGEFigure62DifferentialOutputVoltage–VPPDistortion–dBc–100–95–90–85–80–75–70–65–60010203040HD3HD2Gain=10MidBiasRf=1kRL=100f=1MHzVCCH=±15VVCCL=±5VDIFFERENTIALDISTORTIONvsDIFFERENTIALOUTPUTVOLTAGEFigure63DifferentialOutputVoltage–VPPDistortion–dBc–100–95–90–85–80–75–70–65–60010203040HD3HD2Gain=10LowBiasRf=1kRL=100f=1MHzVCCH=±15VVCCL=±5VDIFFERENTIALDISTORTIONvsDIFFERENTIALOUTPUTVOLTAGEFigure64–110–100–90–80–70–60–50–40–30–20100k1M10M100MHD3HD2Gain=5FullBiasRf=1kRL=25VO=2VPPVCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcSINGLEENDEDDISTORTIONvsFREQUENCYFigure65–110–100–90–80–70–60–50–40–30–20100k1M10M100MHD3HD2Gain=5FullBiasRf=1kRL=100VO=2VPPVCCH=±15VVCCL=±5Vf–Frequency–HzDistortion–dBcSINGLEENDEDDISTORTIONvsFREQUENCYTHS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
ti.
com16MECHANICALDATARGW(S-PQFP-N20)PLASTICQUADFLATPACKSeatingPlane4204100/A01/021,000,800,230,380,05ExposedThermalDiePad(SeeNoteD)Pin1IndexAreaTopandBottom0,0015,153,25SQMAX0,750,354,850,080,104,855,155206111516102,6020X20X0,650,20REF.
NOTES:A.
Alllineardimensionsareinmillimeters.
B.
Thisdrawingissubjecttochangewithoutnotice.
C.
QuadFlatpack,No-leads,(QFN)packageconfiguration.
D.
Thepackagethermalperformancemaybeenhancedbybondingthethermaldiepadtoanexternalthermalplane.
E.
FallswithinJEDECM0-220.
THS6132SLLS543A–SEPTEMBER2002–REVISEDFEBRUARY2003www.
ti.
com17MECHANICALDATAVFP(S-PQFP-G32)PowerPADPLASTICQUADFLATPACK4200791/A04/00GagePlaneSeatingPlane1,60MAX1,451,358,809,20SQ0,05MIN0,450,750,250°–7°0,13NOM5,60TYP1327,206,802425SQ8917160,300,45(SeeNoteD)ThermalPadM0,220,100,80NOTES:A.
Alllineardimensionsareinmillimeters.
B.
Thisdrawingissubjecttochangewithoutnotice.
C.
Bodydimensionsdonotincludemoldflashorprotrusion.
D.
Thepackagethermalperformancemaybeenhancedbybondingthethermalpadtoanexternalthermalplane.
Thispadiselectricallyandthermallyconnectedtothebacksideofthedieandpossiblyselectedleads.
E.
FallswithinJEDECMS-026PowerPADisatrademarkofTexasInstruments.
PACKAGINGINFORMATIONOrderableDeviceStatus(1)PackageTypePackageDrawingPinsPackageQtyEcoPlan(2)Lead/BallFinishMSLPeakTemp(3)THS6132RGWRACTIVEQFNRGW203000TBDCUNIPDAULevel-2-220C-1YEARTHS6132VFPACTIVEHLQFPVFP32250Green(RoHS&noSb/Br)CUNIPDAULevel-2-260C-1YEARTHS6132VFPRACTIVEHLQFPVFP321000Green(RoHS&noSb/Br)CUNIPDAULevel-2-260C-1YEAR(1)Themarketingstatusvaluesaredefinedasfollows:ACTIVE:Productdevicerecommendedfornewdesigns.
LIFEBUY:TIhasannouncedthatthedevicewillbediscontinued,andalifetime-buyperiodisineffect.
NRND:Notrecommendedfornewdesigns.
Deviceisinproductiontosupportexistingcustomers,butTIdoesnotrecommendusingthispartinanewdesign.
PREVIEW:Devicehasbeenannouncedbutisnotinproduction.
Samplesmayormaynotbeavailable.
OBSOLETE:TIhasdiscontinuedtheproductionofthedevice.
(2)EcoPlan-Theplannedeco-friendlyclassification:Pb-Free(RoHS)orGreen(RoHS&noSb/Br)-pleasecheckhttp://www.
ti.
com/productcontentforthelatestavailabilityinformationandadditionalproductcontentdetails.
TBD:ThePb-Free/Greenconversionplanhasnotbeendefined.
Pb-Free(RoHS):TI'sterms"Lead-Free"or"Pb-Free"meansemiconductorproductsthatarecompatiblewiththecurrentRoHSrequirementsforall6substances,includingtherequirementthatleadnotexceed0.
1%byweightinhomogeneousmaterials.
Wheredesignedtobesolderedathightemperatures,TIPb-Freeproductsaresuitableforuseinspecifiedlead-freeprocesses.
Green(RoHS&noSb/Br):TIdefines"Green"tomeanPb-Free(RoHScompatible),andfreeofBromine(Br)andAntimony(Sb)basedflameretardants(BrorSbdonotexceed0.
1%byweightinhomogeneousmaterial)(3)MSL,PeakTemp.
--TheMoistureSensitivityLevelratingaccordingtotheJEDECindustrystandardclassifications,andpeaksoldertemperature.
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