THS403x 100-MHz Low-Noise High-Speed Amplifiers Datasheet .

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OrderNowProductFolderSupport &CommunityTools &SoftwareTechnicalDocumentsTHS4031, THS4032SLOS224I – JULY 1999 – REVISED MAY 2018THS403x 100-MHz Low-Noise High-Speed Amplifiers1 Features3 Description The THS4031 and THS4032 are ultra-low voltagenoise, high-speed voltage feedback amplifiers thatare ideal for applications requiring low voltage noise,including communications and imaging. The singleamplifier THS4031 and the dual amplifier THS4032offer good AC performance with 100-MHz bandwidth(G 2), 100-V/μs slew rate, and 60-ns settling time(0.1%). The THS4031 and THS4032 are unity-gainstable with 275-MHz bandwidth. These amplifiershave a high drive capability of 90 mA and draw only8.5-mA supply current per channel. With –90 dBc oftotal harmonic distortion (THD) at f 1 MHz and avery low noise of 1.6 nV/ Hz, the THS4031 andTHS4032 are designed for applications requiring lowdistortion and low noise such as buffering analog-todigital converters.Ultra-Low 1.6 nV/ Hz Voltage NoiseHigh Speed:– 100-MHz Bandwidth [G 2 (–1), –3 dB]– 100-V/μs Slew RateVery Low Distortion– THD –72 dBc (f 1 MHz, RL 150 Ω)– THD –90 dBc (f 1 MHz, RL 1 kΩ)Low 0.5-mV (Typical) Input Offset Voltage90-mA Output Current Drive (Typical)Typical Operation from 5 V to 15 VAvailable in Standard SOIC and MSOPPowerPAD , PackagesEvaluation Module Available1 Device Information(1)2 Applications PART NUMBERLow-Noise, Wideband Amplifier for IndustrialApplicationsVoltage-Controlled OscillatorsActive FiltersVideo AmplifiersCable Drivers High-Performance, Low-Noise Driver for 16-BitSAR ADCsTHS4031,THS4032PACKAGEBODY SIZE (NOM)SOIC (8)4.90 mm 3.91 mmMSOP-PowerPAD (8)3.00 mm 3.00 mm(1) For all available packages, see the orderable addendum atthe end of the data sheet.Voltage Noise and Current Noise vs Frequency2049.9 ŸVCC 15 V AND 5 VTA 25 C-VCC1000 Ÿ3 VIN VCC49.9 Ÿ8Vpp0V IN60.1 µF7Vincm 0 V12 Ÿ6THS4031220 pFADS84228VppC0G-VIN-VCC-4Vtime41000 Ÿ. V4.0960.1 µF23 THS403160.1 µF71000 Ÿ-VIN 8 Vpp withVincm 0 V12 Ÿ7-INI n Current Noise pA/ Hz1000 ŸVn Voltage Noise nV/ Hz2-VIN 8 Vpp with 4 V0.1 µF44.096 V10Vn VCCIn1101001k10 k100 kf Frequency Hz1An IMPORTANT NOTICE at the end of this data sheet addresses availability, warranty, changes, use in safety-critical applications,intellectual property matters and other important disclaimers. PRODUCTION DATA.

THS4031, THS4032SLOS224I – JULY 1999 – REVISED MAY 2018www.ti.comTable of Contents123456Features .Applications .Description .Revision History.Pin Configuration and Functions 4Absolute Maximum Ratings . 4ESD Ratings. 4Recommended Operating Conditions. 4Thermal Information: THS4031. 5Thermal Information: THS4032. 5Electrical Characteristics: RL 150 Ω. 6Electrical Characteristics: RL 1 kΩ. 8Typical Characteristics . 10Typical Characteristics . 11Parameter Measurement Information . 19Detailed Description . 208.1 Overview . 208.2 Functional Block Diagrams . 208.3 Feature Description. 218.4 Device Functional Modes. 249Application and Implementation . 259.1 Application Information. 259.2 Typical Application . 2510 Power Supply Recommendations . 2811 Layout. 2811.1 Layout Guidelines . 2811.2 Layout Example . 2811.3 General PowerPAD Design Considerations. 2912 Device and Documentation Support . 3212.112.212.312.412.512.612.712.8Device Support .Documentation Support .Related Links .Receiving Notification of Documentation UpdatesCommunity Resources.Trademarks .Electrostatic Discharge Caution .Glossary .323232323233333313 Mechanical, Packaging, and OrderableInformation . 334 Revision HistoryNOTE: Page numbers for previous revisions may differ from page numbers in the current version.Changes from Revision H (March 2016) to Revision IPage Deleted Available Options table (POA information) . 3 Corrected mathematical symbols inside square root symbol of Equation 1. 21Changes from Revision G (March 2010) to Revision HPage Added ESD Ratings table, Feature Description section, Device Functional Modes, Application and Implementationsection, Power Supply Recommendations section, Layout section, Device and Documentation Support section, andMechanical, Packaging, and Orderable Information section. . 1 Removed obselete JG and FK packages . 1 Deleted Lead temperature row for JG package and case temperature row for FK package from Absolute MaximumRatings . 4 Changed Thermal Information tables . 5 Removed the graphs in the General PowerPAD Design Considerations section . 29 Moved the information in the Related Devices table to the Development Support section . 32Changes from Revision F (September 2008) to Revision G PageChanged units for input voltage noise parameter (full range of TA specifications) from nA/ Hz to nV Hz . 8Changes from Revision E (June 2007) to Revision FPage Deleted bullet point for Stable in Gain of 2 (–1) or greater . 1 Editorial changes to paragraph format . 282Submit Documentation FeedbackCopyright 1999–2018, Texas Instruments IncorporatedProduct Folder Links: THS4031 THS4032

THS4031, THS4032www.ti.comSLOS224I – JULY 1999 – REVISED MAY 20185 Pin Configuration and FunctionsTHS4031 D or DGN Package8-Pin SOIC or HVSSOPTop ViewNULL18NULLIN í27V CC IN 36OUTV CCí45NCNC - No internal connectionPin Functions: THS4031PINNAMENO.I/ODESCRIPTIONIN–2IInverting inputIN 3INoninverting inputNC5—NULL1, 8INo connectionVoltage offset adjustOUT6OOutput of amplifierVCC 7—Positive power supplyVCC–4—Negative power supplyTHS4032 D or DGN Package8-Pin SOIC or HVSSOPTop View1OUT1IN 1IN VCC18273645VCC 2OUT2IN 2IN Cross-Section View ShowingPowerPAD Option (DGN)Pin Functions: THS4032PINI/ODESCRIPTIONNAMENO.1OUT1OChannel 1 output1IN–2IChannel 1 inverting input1IN 3IChannel 1 noninverting input2IN 5IChannel 2 noninverting input2IN–6IChannel 2 inverting input2OUT7OChannel 2 outputVCC 8—Positive power supply–VCC4—Negative power supplyCopyright 1999–2018, Texas Instruments IncorporatedProduct Folder Links: THS4031 THS4032Submit Documentation Feedback3

THS4031, THS4032SLOS224I – JULY 1999 – REVISED MAY 2018www.ti.com6 Specifications6.1 Absolute Maximum RatingsOver operating free-air temperature range (unless otherwise noted). (1)MINSupply voltage, VCC to VCC–, VCCInput voltage, VIMAXUNIT33V VCCOutput current, IO150mADifferential input voltage, VIO 4VSee General PowerPAD DesignConsiderationsContinuous total power dissipationOperating free-air temperature, TAC-suffix070I-suffix–4085M-suffix–55125 CMaximum junction temperature (any condition), TJ150 CMaximum junction temperature, continuous operation, long term reliability (2)130 C300 C150 CLead temperature 1,6 mm (1/16 inch) from case for 10 secondsStorage temperature, Tstg(1)(2)–65Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratingsonly, which do not imply functional operation of the device at these or any other conditions beyond those indicated under RecommendedOperating Conditions. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.The maximum junction temperature for continuous operation is limited by package constraints. Operation above this temperature mayresult in reduced reliability and/or lifetime of the device. Does not apply to the JG package or FK package.6.2 ESD n-body model (HBM), per ANSI/ESDA/JEDEC JS-001(1)UNIT 1000Charged-device model (CDM), per JEDEC specification JESD22-C101 (2)V 1000JEDEC document JEP155 states that 500-V HBM allows safe manufacturing with a standard ESD control process.JEDEC document JEP157 states that 250-V CDM allows safe manufacturing with a standard ESD control process.6.3 Recommended Operating ConditionsVCC and VCC– Supply g free-airtemperatureSubmit Documentation FeedbackMINNOMMAX 4.5 15 TV CCopyright 1999–2018, Texas Instruments IncorporatedProduct Folder Links: THS4031 THS4032

THS4031, THS4032www.ti.comSLOS224I – JULY 1999 – REVISED MAY 20186.4 Thermal Information: THS4031THS4031THERMAL METRIC (1)D (SOIC)DGN (HVSSOP)8 PINS8 PINSUNITRθJAJunction-to-ambient thermal resistance128.961.6 C/WRθJC(top)Junction-to-case (top) thermal resistance80.953.9 C/WRθJBJunction-to-board thermal resistance69.243.2 C/WψJTJunction-to-top characterization parameter23.73.8 C/WψJBJunction-to-board characterization parameter68.842.9 C/WRθJC(bot)Junction-to-case (bottom) thermal resistanceN/A14.5 C/W(1)For more information about traditional and new thermal metrics, see the Semiconductor and IC Package Thermal Metrics applicationreport.6.5 Thermal Information: THS4032THS4032THERMAL METRIC(1)D (SOIC)DGN (HVSSOP)8 PINS8 PINSUNITRθJAJunction-to-ambient thermal resistance121.256.5 C/WRθJC(top)Junction-to-case (top) thermal resistance72.848.4 C/WRθJBJunction-to-board thermal resistance61.437.7 C/WψJTJunction-to-top characterization parameter18.22.5 C/WψJBJunction-to-board characterization parameter6137.5 C/WRθJC(bot)Junction-to-case (bottom) thermal resistanceN/A9.9 C/W(1)For more information about traditional and new thermal metrics, see the Semiconductor and IC Package Thermal Metrics applicationreport.Copyright 1999–2018, Texas Instruments IncorporatedProduct Folder Links: THS4031 THS4032Submit Documentation Feedback5

THS4031, THS4032SLOS224I – JULY 1999 – REVISED MAY 2018www.ti.com6.6 Electrical Characteristics: RL 150 Ωat TA 25 C, VCC 15 V, and RL 150 Ω for the THS403xC, THS403xI (unless otherwise noted)PARAMETERTEST CONDITIONS(1)MINTYPMAXUNITDYNAMIC PERFORMANCESmall-signal bandwidth (–3dB)Bandwidth for 0.1-dB flatnessBWFull power bandwidthSRSlew rate(2)(3)Settling time to 0.1%tSSettling time to 0.01%VCC 15 VGain –1 or 2100VCC 5 VGain –1 or 290VCC 15 VGain –1 or 250VCC 5 VGain –1 or 245VO(pp) 20 VVCC 15 VRL 1 kΩ2.3VO(pp) 5 VVCC 5 VRL 1 kΩ7.2VCC 15 V20-V step, gain –1100VCC 5 V5-V step, gain –180VCC 15 V5-V step, gain –160VCC 5 V2.5-V step, gain –145VCC 15 V5-V step, gain –190VCC 5 V2.5-V step, gain –180MHzMHzMHzV/µsnsnsNOISE AND DISTORTION PERFORMANCETHDTotal harmonic distortionTHS4031:VCC 5 V or 15 V, f 1MHzVO(pp) 2 V, gain 2RL 150 Ω–81RL 1 kΩ–96THS4032:VCC 5 V or 15 V, f 1MHzVO(pp) 2 V, gain 2RL 150 Ω–72RL 1 kΩ–90VnInput voltage noiseVCC 5 V or 15 V, f 10 kHzInInput current noiseVCC 5 V or 15 V, f 10 kHzDifferential gain errorDifferential phase errorChannel-to-channel crosstalk(THS4032 only)VCC 15 VVCC 5 VVCC 15 VVCC 5 VdBc1.6nV/ Hz1.2pA/ Hz0.015%Gain 240 IRE modulationNTSC and PAL 100 IRE ramp0.02%0.0250.03VCC 5 V or 15 V, f 1 MHZ–61 dBcDC PERFORMANCEOpen loop gain(1)(2)(3)6VCC 15 VRL 1 kΩVO 10 VTA 25 C93TA Full range92VCC 5 VRL 1 kΩVO 2.5 VTA 25 C90TA Full range899895dBFull range 0 C to 70 C for THS403xC and –40 C to 85 C for THS403xI suffix.Full power bandwidth slew rate / [ 2 πVOC(Peak)].Slew rate is measured from an output level range of 25% to 75%.Submit Documentation FeedbackCopyright 1999–2018, Texas Instruments IncorporatedProduct Folder Links: THS4031 THS4032

THS4031, THS4032www.ti.comSLOS224I – JULY 1999 – REVISED MAY 2018Electrical Characteristics: RL 150 Ω (continued)at TA 25 C, VCC 15 V, and RL 150 Ω for the THS403xC, THS403xI (unless otherwise noted)PARAMETERVOSTEST CONDITIONS(1)MINTA 25 CTYPMAX30250UNITInput offset voltageVCC 5 V or 15 VOffset voltage driftVCC 5 V or 15 VTA Full range2µV/ CInput offset current driftVCC 5 V or 15 VTA Full range0.2nA/ CTA Full rangenA400INPUT CHARACTERISTICSVICRCMRRCommon-mode input voltagerangeVCC 15 V 13.5 14VCC 5 V 3.8 495VCC 15 VVICR 12.VTA 25 C85TA Full range80VCC 5 VVICR 2.5 VTA 25 C90TA Full range85Common-mode rejection ratioriInput resistanceCiInput capacitanceVdB1002MΩ1.5pFOUTPUT CHARACTERISTICSVCC 15 VVOOutput voltage swingOutput currentISCShort-circuit currentROOutput resistance 13.6 3.4 3.8 12 12.9VCC 5 V, RL 250 Ω 3 3.560905070VCC 5 V(4) 13VCC 15 V, RL 150 ΩVCC 15 V(4)IOVCC 5 VRL 1 kΩRL 20 ΩVCC 15 VOpen loopVmA150mA13ΩPOWER SUPPLYVCCSupply voltage operatingrangeICCSupply current (eachamplifier)Dual supplySingle supplyVCC 15 VVCC 5 VPSRR(4)Power-supply rejection ratioVCC 5 V or 15 V 4.5 16.5933TA 25 C8.5TA Full range1011TA 25 C7.5TA Full rangeV9mA10.5TA 25 C85TA Full range8095dBObserve power dissipation ratings to keep the junction temperature below the absolute maximum rating when the output is heavilyloaded or shorted. See the Absolute Maximum Ratings in this data sheet for more information.Copyright 1999–2018, Texas Instruments IncorporatedProduct Folder Links: THS4031 THS4032Submit Documentation Feedback7

THS4031, THS4032SLOS224I – JULY 1999 – REVISED MAY 2018www.ti.com6.7 Electrical Characteristics: RL 1 kΩover operating free-air temperature range (unless otherwise noted)PARAMETERTEST CONDITIONS(1)MINTYP100 (2)120MAXUNITDYNAMIC PERFORMANCEVCC 15 V, closed loopRL 1 kΩUnity-gain bandwidthSmall-signal bandwidth(–3 dB)BWBandwidth for 0.1-dB flatnessFull power bandwidthSR(3)Slew rateSettling time to 0.1%tSSettling time to 0.01%VCC 15 VGain –1 or 2100VCC 5 VGain –1 or 290VCC 15 VGain –1 or 250VCC 5 VGain –1 or 245VO(pp) 20 VVCC 15 VRL 1 kΩ2.3VO(pp) 5 VVCC 5 VRL 1 kΩ7.1MHzMHzMHzMHz80 (2)VCC 15 V RL 1 kΩ100VCC 15 V5-V step, gain –160VCC 5 V2.5-V step, gain –145VCC 15 V5-V step, gain –190VCC 5 V2.5-V step, gain –180V/µsnsnsNOISE AND DISTORTION PERFORMANCETHDTotal harmonic distortionVCC 5 V or 15 Vf 1 MHz, gain 2VO(pp) 2 VTA 25 CVnInput voltage noiseVCC 5 V or 15 VTA 25 Cf 10 kHz, RL 150 Ω1.6nV/ HzInInput current noiseVCC 5 V or 15 VTA 25 C, f 10 kHz, RL 150 Ω1.2pA/ HzDifferential gain errorDifferential phase errorGain 2, 40 IRE modulation,TA 25 C, NTSC and PAL, 100 IRE ramp, RL 150 ΩRL 150 Ω–81RL 1 kΩdBc96VCC 5 V0.015%VCC 15 V0.02%VCC 5 V0.025VCC 15 V0.03 DC PERFORMANCEVCC 15 V, RL 1 kΩ, VO 10 VTA 25 C93TA Full range92VCC 15 V, RL 1 kΩ, VO 2.5 VTA 25 C92TA Full range91Open loop gainVOSInput offset voltageVCC 5 V or 15 VIIBInput bias currentVCC 5 V or 15 V(1)(2)(3)8TA 25 C98dB950.5TA Full range23TA 25 C3TA Full range68mVµAFull range 0 C to 70 C for THS403xC and –40 C to 85 C for THS403xI suffix.This parameter is not tested.Full power bandwidth slew rate / [ 2 πVOC(Peak)].Submit Documentation FeedbackCopyright 1999–2018, Texas Instruments IncorporatedProduct Folder Links: THS4031 THS4032

THS4031, THS4032www.ti.comSLOS224I – JULY 1999 – REVISED MAY 2018Electrical Characteristics: RL 1 kΩ (continued)over operating free-air temperature range (unless otherwise noted)PARAMETERIOSTEST CONDITIONS(1)MINTA 25 CTYPMAX30250UNITInput offset currentVCC 5 V or 15 VOffset voltage driftVCC 5 V or 15 V, TA full range2µV/ CInput offset current driftVCC 5 V or 15 V, TA full range0.2nA/ CTA Full rangenA400INPUT CHARACTERISTICSVICRCommon-mode input voltagerangeVCC 15 V 13.5 14.3VCC 5 V 3.8 4.3TA 25 C8595TA Full range80TA 25 C90TA Full range85VCC 15 V, VICR 12 VCMRR Common-mode rejection ratioVCC 5 V, VICR 2.5 VriInput resistanceCdInput capacitanceVdB1002MΩ1.5pFOUTPUT CHARACTERISTICSVOOutput voltage swing(4)IOOutput currentISCShort-circuit currentROOutput resistance(4)VCC 15 V, RL 1 kΩ 13VCC 5 V, RL 1 kΩ 3.4 3.8VCC 15 V, RL 150 Ω 12 12.9VCC 5 V, RL 250 Ω 3 3.5VCC 15 V, RL 20 Ω6090VCC 5 V, RL 20 Ω5070VCC 15 VOpen loop 13.6VmA150mA13ΩPOWER SUPPLYVCCSupply voltage operating rangeDual supplySingle supplyVCC 15 VICCSupply current (each amplifier)VCC 5 VPSRR Power supply rejection ratio(4)VCC 5 V or 15 V 4.5 16.5933TA 25 C8.5TA Full range1011TA 25 C7.5TA Full rangeV9mA10TA 25 C85TA Full range8095dBObserve power dissipation ratings to keep the junction temperature below the absolute maximum rating when the output is heavilyloaded or shorted. See the Absolute Maximum Ratings in this data sheet for more information.Copyright 1999–2018, Texas Instruments IncorporatedProduct Folder Links: THS4031 THS4032Submit Documentation Feedback9

THS4031, THS4032SLOS224I – JULY 1999 – REVISED MAY 2018www.ti.com6.8 Typical CharacteristicsTable 1. Table of GraphsFIGUREFigure 1,Figure 2Input Offset Voltage DistributionInput Offset Voltagevs Free-Air TemperatureFigure 3Input Bias Currentvs Free-Air TemperatureFigure 4Output Voltage Swingvs Supply VoltageFigure 5Maximum Output Voltage Swingvs Free-Air TemperatureFigure 6Maximum Output Currentvs Free-Air TemperatureFigure 7Supply Currentvs Free-Air TemperatureFigure 8Common-Mode Input Voltagevs Supply VoltageFigure 9Closed-Loop Output Impedancevs FrequencyFigure 10Open-Loop Gain and Phase Responsevs FrequencyFigure 11Power-Supply Rejection Ratiovs FrequencyFigure 12Common-Mode Rejection Ratiovs FrequencyFigure 13Crosstalkvs FrequencyFigure 14Harmonic Distortionvs FrequencyFigure 15,Figure 16Harmonic Distortionvs Peak-to-Peak Output VoltageFigure 17,Figure 18Slew Ratevs Free-Air T

RθJB Junction-to-board thermal resistance 69.2 43.2 C/W ψJT Junction-to-top characterization parameter 23.7 3.8 C/W ψJB Junction-to-board characterization parameter 68.8 42.9 C/W RθJC(bot) Junction-to-case (bottom) thermal resistance N/A 14.5 C/W

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