• Have any questions?
  • info.zbook.org@gmail.com

LMV321 SINGLE, LMV358 DUAL LMV324 QUAD, LMV324S

2m ago
8 Views
0 Downloads
894.98 KB
35 Pages
Last View : 1d ago
Last Download : n/a
Upload by : Grady Mosby
Share:
Transcription

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comFEATURES 2.7-V and 5-V Performance–40 C to 125 C OperationLow-Power Shutdown Mode (LMV324S)No Crossover DistortionLow Supply Current– LMV321 . . . 130 μA Typ– LMV358 . . . 210 μA Typ– LMV324 . . . 410 μA Typ– LMV324S . . . 410 μA TypRail-to-Rail Output SwingESD Protection Exceeds JESD 22– 2000-V Human-Body Model (A114-A)– 1000-V Charged-Device Model (C101)DESCRIPTION/ORDERING INFORMATIONThe LMV321, LMV358, and LMV324/LMV324S aresingle, dual, and quad low-voltage (2.7 V to 5.5 V)operational amplifiers with rail-to-rail output swing.The LMV324S, which is a variation of the standardLMV324, includes a power-saving shutdown featurethat reduces supply current to a maximum of 5 μAper channel when the amplifiers are not needed.Channels 1 and 2 together are put in shutdown, asare channels 3 and 4. While in shutdown, the outputsactively are pulled low.The LMV321, LMV358, LMV324, and LMV324S arethe most cost-effective solutions for applicationswhere low-voltage operation, space saving, and lowcost are needed. These amplifiers were designedspecifically for low-voltage (2.7 V to 5 V) operation,with performance specifications meeting orexceeding the LM358 and LM324 devices thatoperate from 5 V to 30 V. Additional features of theLMV3xx devices are a common-mode input voltagerange that includes ground, 1-MHz unity-gainbandwidth, and 1-V/μs slew rate.SLOS263S – AUGUST 1999 – REVISED JULY 2007LMV324 . . . D (SOIC) OR PW (TSSOP) PACKAGE(TOP VIEW)1OUT1IN–1IN VCC 2IN 2IN–2OUT11421331241151069784OUT4IN–4IN GND3IN 3IN–3OUTLMV324S . . . D (SOIC) OR PW (TSSOP) PACKAGE(TOP VIEW)1OUT1IN–1IN VCC2IN 2IN–2OUT1/2 SHDN116215314413512611710894OUT4IN–4IN GND3IN 3IN–3OUT3/4 SHDNLMV358 . . . D (SOIC), DDU (VSSOP),DGK (MSOP), OR PW (TSSOP) PACKAGE(TOP VIEW)1OUT1IN–1IN GND18273645VCC 2OUT2IN–2IN LMV321 . . . DBV (SOT-23) OR DCK (SC-70) PACKAGE(TOP VIEW)1IN 1GND21IN–35VCC 4OUTThe LMV321 is available in the ultra-small DCK(SC-70) package, which is approximately one-halfthe size of the DBV (SOT-23) package. Thispackage saves space on printed circuit boards andenables the design of small portable electronicdevices. It also allows the designer to place thedevice closer to the signal source to reduce noisepickup and increase signal integrity.Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of TexasInstruments semiconductor products and disclaimers thereto appears at the end of this data sheet.PRODUCTION DATA information is current as of publication date.Products conform to specifications per the terms of the TexasInstruments standard warranty. Production processing does notnecessarily include testing of all parameters.Copyright 1999–2007, Texas Instruments Incorporated

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007ORDERING INFORMATION (1)PACKAGE (2)TASC-70 – DCKSingleSOT-23 – DBVMSOP/VSSOP – DGKDual–40 C to 85 CSOIC – DTSSOP – PWVSSOP – DDUSOIC – DQuadTSSOP – PWMSOP/VSSOP – DGKDualSOIC – DTSSOP – PW–40 C to 125 CVSSOP – DDUSOIC – DQuadTSSOP – PW(1)(2)(3)2TOP-SIDEMARKING (3)ORDERABLE PART NUMBERReel of 3000LMV321IDCKRReel of 250LMV321IDCKTReel of 3000LMV321IDBVRReel of 250LMV321IDBVTReel of 2500LMV358IDGKRR5Reel of 250LMV358IDGKTPREVIEWTube of 75LMV358IDReel of 2500LMV358IDRTube of 150LMV358IPWReel of 2000LMV358IPWRReel of 3000LMV358IDDURTube of 50LMV324IDReel of 2500LMV324IDRTube of 50LMV324SIDReel of 2500LMV324SIDRReel of 2000LMV324IPWRMV324IReel of 2000LMV324SIPWRMV324SIReel of 2500LMV358QDGKRReel of 250LMV358QDGKTTube of 75LMV358QDReel of 2500LMV358QDRTube of 150LMV358QPWReel of 2000LMV358QPWRReel of 3000LMV358QDDURTube of 50LMV324QDReel of 2500LMV324QDRTube of 90LMV324QPWReel of RHMV358QMV358QRAHLMV324QMV324QFor the most current package and ordering information, see the Package Option Addendum at the end of this document, or see the TIweb site at www.ti.com.Package drawings, standard packing quantities, thermal data, symbolization, and PCB design guidelines are available atwww.ti.com/sc/package.DBV/DCK/DGK: The actual top-side marking has one additional character that designates the wafer fab/assembly site.Submit Documentation Feedback

www.ti.comLMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSSLOS263S – AUGUST 1999 – REVISED JULY 2007SYMBOL (EACH AMPLIFIER)IN––OUTIN LMV324 SIMPLIFIED SCHEMATICVCCVBIAS1VCC –VBIAS2 Output–VCC VCCVBIAS3 ININ VBIAS4– –Submit Documentation Feedback3

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007Absolute Maximum Ratings (1)over operating free-air temperature range (unless otherwise noted)MINVCCSupply voltage (2)VIDDifferential input voltage (3)VIInput voltage range (either input)–0.2Duration of output short circuit (one amplifier) to ground(4)At or below TA 25 C,VCC 5.5 VD packageθJAPackage thermal impedance (5) (6)Operating virtual junction temperatureTstgStorage temperature range(1)(2)(3)(4)(5)(6)UNIT5.5V 5.5V5.5VUnlimited8 pin9714 pin8616 pin73DBV package5 pin206DCK package5 pin252DDU package8 pinTBDDGK package8 pin1728 pin14914 pin11316 pin108PW packageTJMAX–65 C/W150 C150 CStresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratingsonly, and functional operation of the device at these or any other conditions beyond those indicated under Recommended OperatingConditions is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.All voltage values (except differential voltages and VCC specified for the measurement of IOS) are with respect to the network GND.Differential voltages are at IN with respect to IN–.Short circuits from outputs to VCC can cause excessive heating and eventual destruction.Maximum power dissipation is a function of TJ(max), θJA, and TA. The maximum allowable power dissipation at any allowable ambienttemperature is PD (TJ(max) – TA)/θJA. Operating at the absolute maximum TJ of 150 C can affect reliability.The package thermal impedance is calculated in accordance with JESD 51-7.Recommended Operating Conditions (1)VCCVIHAmplifier turn-on voltage level (LMV324S) (2)VILAmplifier turn-off voltage level (LMV324S)TAOperating free-air temperature(1)(2)4Supply voltage (single-supply operation)MINMAX2.75.5VCC 2.7 V1.7VCC 5 V3.5UNITVVVCC 2.7 V0.7VCC 5 V1.5I temperature–4085Q temperature–40125V CAll unused control inputs of the device must be held at VCC or GND to ensure proper device operation. See the TI application report,Implications of Slow or Floating CMOS Inputs, literature number SCBA004.VIH should not be allowed to exceed VCC.Submit Documentation Feedback

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007Electrical CharacteristicsVCC 2.7 V, TA 25 C (unless otherwise noted)PARAMETERTEST CONDITIONSMINTYP (1)MAX1.77UNITVIOInput offset voltageαVIOAverage temperature coefficient ofinput offset voltageIIBInput bias currentIIOInput offset currentCMRRCommon-mode rejection ratioVCM 0 to 1.7 V5063dBkSVRSupply-voltage rejection ratioVCC 2.7 V to 5 V, VO 1 V5060dB0–0.2Common-mode input voltagerangeCMRR 50 dBVOOutput swingRL 10 kΩ to 1.35 VSupply currentB1Unity-gain bandwidthΦmGmVnEquivalent input noise voltageInEquivalent input noise current(1)11250nA550nA1.9High levelVCC – 1001.7VCC – 10Low level6018080170LMV358I (both amplifiers)140340LMV324I/LMV324SI (all four amplifiers)260680LMV321IICCμV/ C5VICRCL 200 pFmVVmVμA1MHzPhase margin60degGain margin10dBf 1 kHz46nV/ Hzf 1 kHz0.17pA/ HzTypical values represent the likely parametric nominal values determined at the time of characterization. Typical values depend on theapplication and configuration and may vary over time. Typical values are not ensured on production material.Shutdown Characteristics (LMV324S)VCC 2.7 V, TA 25 C (unless otherwise noted)PARAMETERTEST CONDITIONSMINTYP (1)MAXUNITICC(SHDN)Supply current in shutdown mode(per channel)SHDN 0.6 Vt(on)Amplifier turn-on timeAV 1, RL Open (measured at 50% point)2μst(off)Amplifier turn-off timeAV 1, RL Open (measured at 50% point)40ns(1)5μATypical values represent the likely parametric nominal values determined at the time of characterization. Typical values depend on theapplication and configuration and may vary over time. Typical values are not ensured on production material.Submit Documentation Feedback5

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007Electrical CharacteristicsVCC 5 V, at specified free-air temperature (unless otherwise noted)PARAMETERTEST CONDITIONSMIN25 CTYP (2)MAX1.77UNITVIOInput offset voltageαVIOAverage temperaturecoefficient of input offsetvoltageIIBInput bias currentIIOInput offset currentCMRRCommon-mode rejectionratioVCM 0 to 4 V25 C5065dBkSVRSupply-voltagerejection ratioVCC 2.7 V to 5 V, VO 1 V,VCM 1 V25 C5060dBVICRCommon-mode inputvoltage rangeCMRR 50 dB25 C0–0.2Full rangeOutput swingHigh levelRL 10 kΩ to 2.5 VLow levelAVDIOSOutput short-circuitcurrentRL 2 kΩSourcing, VO 0 VSinking, VO 5 VSupply currentUnity-gain bandwidthΦm155LMV358I (both amplifiers)VCC – 300Full rangeVCC – 40025 C120VCC – 100Full rangeVCC – 20025 CV30040025 CVCC – 1065Full rangemV18028025 C15Full range1010056010160130V/mVmA250350210Full range25 C4nAVCC – 40Full range25 C50nA440615410Full rangeμA830116025 C1MHzPhase margin25 C60degGmGain margin25 C10dBVnEquivalent inputnoise voltagef 1 kHz25 C39nV/ HzInEquivalent inputnoise currentf 1 kHz25 C0.21pA/ HzSRSlew rate25 C1(1)(2)CL 200 pF25 C25 C2501504.2mVμV/ C500Full rangeLMV324I/LMV324SI(all four amplifiers)B125 C25 CLMV321IICC525 CLow levelLarge-signal differentialvoltage gain25 CFull rangeRL 2 kΩ to 2.5 VVO9Full rangeHigh level6TA (1)V/μsFull range TA –40 C to 85 C for I temperature and –40 C to 125 C for Q temperature.Typical values represent the likely parametric nominal values determined at the time of characterization. Typical values depend on theapplication and configuration and may vary over time. Typical values are not ensured on production material.Submit Documentation Feedback

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007Shutdown Characteristics (LMV324S)VCC 5 V, TA 25 C (unless otherwise noted)PARAMETERTEST CONDITIONSMINTYP (1)MAXUNITICC(SHDN)Supply current in shutdown mode(per channel)SHDN 0.6 V, TA –40 C to 85 Ct(on)Amplifier turn-on timeAV 1, RL Open (measured at 50% point)2μst(off)Amplifier turn-off timeAV 1, RL Open (measured at 50% point)40ns(1)5μATypical values represent the likely parametric nominal values determined at the time of characterization. Typical values depend on theapplication and configuration and may vary over time. Typical values are not ensured on production material.Submit Documentation Feedback7

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007TYPICAL CHARACTERISTICSLMV321 FREQUENCY RESPONSEvsRESISTIVE LOADLMV321 FREQUENCY RESPONSEvsRESISTIVE LOADVs 2.7 VRL 100 kΩ, 2 kΩ, 600 Ω70Phase60Gain dB4070906075602 kΩ100 kΩ3010545Gain2030600 Ω10100 kΩ 101k10 k100 kFrequency Hz90600 ΩPhase50752 kΩ6040100 kΩ3045Gain2010151M00 1510 M 101k1510 k70100100PhasePhase0 pF80806060500 pF6050100 pF 20Vs 5.0 VRL 600 ΩCL 0 pF100 pF500 pF1000 pF 3010 k 20100 pF 40500 pF0 pF 601000 pF 80100 k1MFrequency Hz 10010 MGain dBGain dBGain4040302020010 20Vs 5.0 VRL 100 kΩ 10 CL 0 pF100 pF 20500 pF1000 pF 3010 k100 k0Figure 3.8500 pFGain0 pF 40100 pF 60500 pF 801000 pF1MFrequency HzFigure 4.Submit Documentation FeedbackPhase Margin Deg020 1020Phase Margin Deg500 pF1000 pF100 pF1000 pF40400 1510 M100 k1MFrequency HzLMV321 FREQUENCY RESPONSEvsCAPACITIVE LOAD70600600 ΩFigure 2.LMV321 FREQUENCY RESPONSEvsCAPACITIVE LOAD1030100 kΩFigure 1.301052 kΩ2 kΩ0120Vs 5.0 VRL 100 kΩ, 2 kΩ, 600 ΩPhase Margin Deg600 Ω80Phase Margin Deg50120Gain dB80 10010 M

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007TYPICAL CHARACTERISTICS (continued)STABILITYvsCAPACITIVE LOADLMV321 FREQUENCY RESPONSEvsTEMPERATURE12080Vs 5.0 VRL 2 kΩ607525 C6040 40 C45Gain203085 C25 C10 101k10 k100VCC 2.5 VAV 1RL 2 kΩVO 100 mVPP10 2 1510 M100 k1MFrequency Hz 1.5 1100002.5 VRLCLCapacitive Load nFCapacitive Load pFVO 2.5 VLMV324S(25% Overshoot)100VCC 2.5 VRL 2 kΩAV 10VO 100 mVPP11.5 1 0.50Output Voltage V0.51LMV324S(25% Overshoot)1000LMV3xx(25% Overshoot)100134 kΩ1.21 MΩ 2.5 VVCC 2.5 VAV 1RL 1 MΩVO 100 mVPPLMV3xx(25% Overshoot) 1.50.5STABILITYvsCAPACITIVE LOAD1000010 2.00Figure 6.STABILITYvsCAPACITIVE LOAD1000 0.5Output Voltage VFigure 5.VICLLMV3xx(25% Overshoot)0 40 CVORL 2.5 V1000150 VIPhase Margin DegPhase302.5 VLMV324S(25% Overshoot)9085 C50Gain dB105Capacitive Load pF7010000VI VORLCL 2.5 V1.510 2.0Figure 7. 1.5 1 0.50Output Voltage V0.511.5Figure 8.Submit Documentation Feedback9

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007TYPICAL CHARACTERISTICS (continued)STABILITYvsCAPACITIVE LOADSLEW RATEvsSUPPLY VOLTAGE100001.500RL 100 kΩ1.400LMV3xx(25% Overshoot)1.300Slew Rate V/µsCapacitive Load nFVCC 2.5 VRL 1 MΩAV 10VO 100 mVPP1000LMV324S(25% Overshoot)100134 kΩ1.21 MΩGain1.200NSLEW1.1001.000LMV3xxPSLEW0.9000.800 2.5 VNSLEWVIVO RL0.700CL 2.5 V10 2.0 1.5 1LMV324S0.600PSLEW 0.500.510.5002.51.5Output Voltage V3.03.54.55.0V CC Supply Voltage VFigure 9.Figure 10.SUPPLY CURRENTvsSUPPLY VOLTAGE QUAD AMPLIFIERINPUT CURRENTvsTEMPERATURE700 10VCC 5 VVI VCC/2LMV3xx600LMV324S 20TA 85 C500Input Current nASupply Current µA4.0TA 25 C400300TA 40 C200 30LMV3xx 40 50100LMV324S00123456 60 40 30 20 10 0 10 20 30 40 50 60 70 80TA CVCC Supply Voltage VFigure 11.10Figure 12.Submit Documentation Feedback

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007TYPICAL CHARACTERISTICS (continued)SOURCE CURRENTvsOUTPUT VOLTAGESOURCE CURRENTvsOUTPUT VOLTAGE100100VCC 2.7 VVCC 5 V10Sourcing Current mASourcing Current LMV3xx0.010.110.0010.001100.01Output Voltage Referenced to VCC VFigure 13.10SINKING CURRENTvsOUTPUT VOLTAGE100100VCC 5 VVCC 2.7 V1010LMV324SSinking Current mASinking Current mA1Figure 14.SINKING CURRENTvsOUTPUT 010.1Output Voltage Referenced to VCC V0.010.11100.0010.001Output Voltage Referenced to GND VFigure 15.0.010.1110Output Voltage Referenced to GND VFigure 16.Submit Documentation Feedback11

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007TYPICAL CHARACTERISTICS (continued)SHORT-CIRCUIT CURRENTvsTEMPERATURESHORT-CIRCUIT CURRENTvsTEMPERATURE120300LMV324SVCC 5 V270Sinking Current mALMV324SVCC 5 V210Sourcing Current mA100240LMV3xxVCC 5 V180150120LMV3xxVCC 2.7 V9060LMV324SVCC 2.7 V80LMV3xxVCC 5 V60LMV3xxVCC 2.7 V40LMV324SVCC 2.7 V20300 40 30 20 10 0010 20 30 40 50 60 70 80 90TA C 40 30 20 10 0TA CFigure 17.Figure 18. kSVRvsFREQUENCY kSVRvsFREQUENCY8090LMV324SVCC 5 VRL 10 kΩ70LMV324SVCC 5 VRL 10 kΩ807060LMV3xxLMV3xx6050 k SVR dB kSVR dB10 20 30 40 50 60 70 80 90403050403020201001001001k10k100k1M100Frequency Hz10kFrequency HzFigure 19.121kFigure 20.Submit Documentation Feedback100k1M

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007TYPICAL CHARACTERISTICS (continued) kSVRvsFREQUENCY kSVRvsFREQUENCY8080VCC 2.7 VRL 10 kΩLMV324S7070LMV3xx k SVR requency Hz10kOUTPUT VOLTAGEvsFREQUENCY670RL 10 kΩTHD 5%AV 3RL 10 kΩ60Peak Output Voltage V OPP5LMV3xxLMV324SNegative Swing1MFigure 22.OUTPUT VOLTAGE SWING FROM RAILSvsSUPPLY VOLTAGE50100kFrequency HzFigure 21.Output Voltage Swing vs Supply Voltage mVVCC 2.7 VRL 10 kΩ6060 kSVR dBLMV324S403020Positive SwingLMV3xxVCC 5 V4LMV324SVCC 5 V3LMV3xxVCC 2.7 V2LMV324SVCC 2.7 V110002.53.03.54.04.55.01k10k100k1M10MFrequency HzVCC Supply Voltage VFigure 23.Figure 24.Submit Documentation Feedback13

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007TYPICAL CHARACTERISTICS (continued)OPEN-LOOP OUTPUT IMPEDANCEvsFREQUENCYCROSSTALK REJECTIONvsFREQUENCY150110LMV3xxVCC 5 VImpedance Ω908070LMV324SVCC 2.7 V6050LMV324SVCC 5 V40VCC 5 VRL 5 kΩAV 1VO 3 VPP140Crosstalk Rejection dB100LMV3xxVCC 2.7 V130120110100302011M2M3M901004MFrequency Hz1k10kFrequency HzFigure 25.Figure 26.NONINVERTING LARGE-SIGNALPULSE RESPONSENONINVERTING LARGE-SIGNALPULSE RESPONSEInputLMV3xxLMV3xx1 V/Div1 V/DivInputLMV324SLMV324SVCC 2.5 VRL 2 kΩTA 85 CVCC 2.5 VRL 2 kΩT 25 C1 µs/Div1 µs/DivFigure 27.14Figure 28.Submit Documentation Feedback100k

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007TYPICAL CHARACTERISTICS (continued)NONINVERTING SMALL-SIGNALPULSE RESPONSENONINVERTING LARGE-SIGNALPULSE RESPONSEInputInputLMV3xx50 mV/Div1 V/DivLMV3xxLMV324SLMV324SVCC 2.5 VRL 2 kΩTA 25 CVCC 2.5 VRL 2 kΩTA 40 C1 µs/Div1 µs/DivFigure 29.Figure 30.NONINVERTING SMALL-SIGNALPULSE RESPONSENONINVERTING SMALL-SIGNALPULSE RESPONSEInputInputLMV3xx50 mV/Div50 mV/DivLMV3xxLMV324SLMV324SVCC 2.5 VRL 2 kΩTA 85 CVCC 2.5 VRL 2 kΩTA 40 C1 µs/Div1 µs/DivFigure 31.Figure 32.Submit Documentation Feedback15

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007TYPICAL CHARACTERISTICS (continued)INVERTING LARGE-SIGNALPULSE RESPONSEINVERTING LARGE-SIGNALPULSE RESPONSEInputInputLMV3xx1 V/Div1 V/DivLMV3xxLMV324SLMV324SVCC 2.5 VRL 2 kΩTA 25 CVCC 2.5 VRL 2 kΩTA 85 C1 µs/Div1 µs/DivFigure 33.Figure 34.INVERTING LARGE-SIGNALPULSE RESPONSEINVERTING SMALL-SIGNALPULSE RESPONSEInputInputLMV3xx1 V/Div50 mV/DivLMV3xxLMV324SVCC 2.5 VRL 2 kΩTA 40 C16LMV324SVCC 2.5 VRL 2 kΩTA 25 C1 µs/Div1 µs/DivFigure 35.Figure 36.Submit Documentation Feedback

LMV321 SINGLE,, LMV358 DUALLMV324 QUAD, LMV324S QUAD WITH SHUTDOWNLOW-VOLTAGE RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERSwww.ti.comSLOS263S – AUGUST 1999 – REVISED JULY 2007TYPICAL CHARACTERISTICS (continued)INVERTING SMALL-SIGNALPULSE RESPONSEInputInputLMV3xxLMV3xx50 mV/Div50 mV/DivINVERTING SMALL-SIGNALPULSE RESPONSELMV324SLMV324SVCC 2.5 VRL 2 kΩTA 40

LMV324 QUAD, LMV324S QUAD WITH SHUTDOWN LOW-VOLTAGERAIL-TO-RAILOUTPUT OPERATIONAL AMPLIFIERS SLOS263S– AUGUST 1999– REVISED JULY 2007 VCC 2.7 V, TA 25 C (unless otherwise noted) PARAMETER TEST CONDITIONS MIN TYP(1) MAX UNIT VIO Input offset voltage 1.7 7 mV Average temperature coeffici