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

LMV321 - Single, Dual, Quad Low-Voltage, Rail-to-Rail .

2m ago
9 Views
0 Downloads
566.87 KB
22 Pages
Last View : 1d ago
Last Download : n/a
Upload by : Arnav Humphrey
Share:
Transcription

Single, Dual, QuadLow-Voltage, Rail-to-RailOperational AmplifiersLMV321, NCV321, LMV358,LMV324The LMV321, LMV321I, NCV321, LMV358/LMV358I andLMV324 are CMOS single, dual, and quad low voltage operationalamplifiers with rail to rail output swing. These amplifiers are acost effective solution for applications where low power consumptionand space saving packages are critical. Specification tables areprovided for operation from power supply voltages at 2.7 V and 5 V.Rail to Rail operation provides improved signal to noisepreformance. Ultra low quiescent current makes this series ofamplifiers ideal for portable, battery operated equipment. Thecommon mode input range includes ground making the device usefulfor low side current shunt measurements. The ultra small packagesallow for placement on the PCB in close proximity to the signal sourcethereby reducing noise pickup. 51Operation from 2.7 V to 5.0 V Single Sided Power SupplyLMV321 Single Available in Ultra Small 5 Pin SC70 PackageNo Output Crossover DistortionRail to Rail OutputLow Quiescent Current: LMV358 Dual 220 mA, Max per ChannelNo Output Phase Reversal from Overdriven InputNCV Prefix for Automotive and Other Applications RequiringUnique Site and Control Change Requirements; AEC Q100Qualified and PPAP CapableThese Devices are Pb Free, Halogen Free/BFR Free and are RoHSCompliant1TSOP 5CASE 483SC 70CASE 419A1Micro8CASE 846A881Features www.onsemi.comSOIC 8CASE 7511UDFN8CASE 517AJ11SOIC 14CASE 751ATSSOP 14CASE 948GORDERING AND MARKING INFORMATIONSee detailed ordering and shipping information in the packagedimensions section on page 12 of this data sheet.Typical Applications Notebook Computers and PDA’s Portable Battery Operated Instruments Active Filters Semiconductor Components Industries, LLC, 2015January, 2021 Rev. 161Publication Order Number:LMV321/D

LMV321, NCV321, LMV358, LMV324MARKING DIAGRAMSSC 70Micro8TSOP 585V358AYWGG3ACAYWGGAAC MGG1AAC Specific Device CodeM Date CodeG Pb Free Package(Note: Microdot may be in either location)13AC Specific Device CodeA Assembly LocationY YearW Work WeekG Pb Free Package(Note: Microdot may be in either location)V358 Specific Device CodeA Assembly LocationY YearW Work WeekG Pb Free Package(Note: Microdot may be in either location)SOIC 8UDFN88V358ALYWGAC MG1 Specific Device Code Assembly Location Wafer Lot Year Work Week Pb Free PackageV358ALYWGAC Specific Device CodeM Date CodeG Pb Free PackageSOIC 14TSSOP 141414LMV324ALYWLMV324AWLYWWG11LMV324 Specific Device CodeA Assembly LocationWL Wafer LotY YearWW Work WeekG Pb Free PackageLMV324 Specific Device CodeA Assembly LocationL Wafer LotY YearW Work WeekG Pb Free PackagePIN CONNECTIONS2V 3 ININ A 4IN A 27 OUT B6 IN B 3B OUTPUTV A 4(Top View)5 IN B 113 IN D IN A 2312 IN D IN A 312 IN D 411 V V 411 V 510 IN C IN B 510 IN C 69IN B 6IN A 2IN A V IN B OUT B(Top View)A B7D C(Top View)www.onsemi.com2TSSOP 14OUT A1IN B SOIC 1414 OUT DOUT A V IN8 V 1 UDFN8/Micro8/SOIC 8OUT A58IN C OUT COUT B7A 1BD SC70 5/TSOP 5C(Top View)14 OUT D13 IN D 9IN C 8OUT C

LMV321, NCV321, LMV358, LMV324MAXIMUM RATINGSSymbolVSRatingSupply Voltage (Operating Range VS 2.7 V to 5.5 V)ValueUnit5.5VVIDRInput Differential Voltage Supply VoltageVVICRInput Common Mode Voltage Range 0.5 to (V ) 0.5V10mAMaximum Input CurrenttSoOutput Short Circuit (Note 1)TJMaximum Junction TemperatureTAOperating Ambient Temperature RangeqJAThermal Resistance:TstgContinuousLMV321, LMV358, LMV324LMV321I, LMV358INCV321 (Note 2) C 40 to 85 40 to 125 40 to 125 C C C C/WSC 70280Micro8238TSOP 5333UDFN8 (1.2 mm x 1.8 mm x 0.5 mm)350SOIC 8212SOIC 14156TSSOP 14190Storage TemperatureMounting Temperature (Infrared or Convection 20 sec)VESD150ESD Tolerance (Note 3)LMV321, LMV321I, NCV321Machine ModelHuman Body ModelLMV358/358I/324Machine ModelHuman Body Mode 65 to 150 C260 CV10010001002000Stresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionality should not be assumed, damage may occur and reliability may be affected.1. Continuous short circuit operation to ground at elevated ambient temperature can result in exceeding the maximum allowed junctiontemperature of 150 C. Output currents in excess of 45 mA over long term may adversely affect reliability. Shorting output to either V or V will adversely affect reliability.2. NCV prefix is qualified for automotive usage.3. Human Body Model, applicable std. MIL STD 883, Method 3015.7Machine Model, applicable std. JESD22 A115 A (ESD MM std. of JEDEC)Field Induced Charge Device Model, applicable std. JESD22 C101 C (ESD FICDM std. of JEDEC).www.onsemi.com3

LMV321, NCV321, LMV358, LMV3242.7 V DC ELECTRICAL CHARACTERISTICS (Unless otherwise specified, all limits are guaranteed for TA 25 C, V 2.7 V,RL 1 MW, V 0 V, VO V /2)ParameterTypMaxUnitTA TLow to THigh (Note 4)1.79mVICVOSTA TLow to THigh (Note 4)5mV/ CInput Bias CurrentIBTA TLow to THigh (Note 4) 1nAInput Offset CurrentIIOTA TLow to THigh (Note 4) 1nACommon Mode Rejection RatioCMRR0 V v VCM v 1.7 V5063dBPower Supply Rejection RatioPSRR2.7 V v V v 5 V,VO 1 V5060dBInput Common Mode Voltage RangeVCMFor CMRR w 50 dB0 to 1.7 0.2 to 1.9VOutput SwingVOHRL 10 kW to 1.35 VVCC 100VCC 10mVVOLRL 10 kW to 1.35 V (Note 5)Input Offset VoltageInput Offset Voltage Average DriftSupply CurrentLMV321, NCV321LMV358/LMV358I (Both Amplifiers)LMV324 (4 185340680mA2.7 V AC ELECTRICAL CHARACTERISTICS (Unless otherwise specified, all limits are guaranteed for TA 25 C, V 2.7 V,RL 1 MW, V 0 V, VO V /2)ParameterGain Bandwidth ProductSymbolConditionGBWPCL 200 pFPhase MarginQmGain MarginGmInput Referred Voltage Noiseenf 50 kHzMinTypMaxUnit1MHz60 10dB50nV/ HzProduct parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Productperformance may not be indicated by the Electrical Characteristics if operated under different conditions.4. For LMV321, LMV358, LMV324: TA 40 C to 85 CFor LMV321I, LMV358I, NCV321: TA 40 C to 125 C.5. Guaranteed by design and/or characterization.www.onsemi.com4

LMV321, NCV321, LMV358, LMV3245.0 V DC ELECTRICAL CHARACTERISTICS (Unless otherwise specified, all limits are guaranteed for TA 25 C, V 5.0 V,RL 1 MW, V 0 V, VO V /2)ParameterTypMaxUnitTA TLow to THigh (Note 6)1.79mVTCVIOTA TLow to THigh (Note 6)5mV/ CInput Bias Current (Note 7)IBTA TLow to THigh (Note 6) 1nAInput Offset Current (Note 7)IIOTA TLow to THigh (Note 6) 1nACommon Mode Rejection RatioCMRR0 V v VCM v 4 V5065dBPower Supply Rejection RatioPSRR2.7 V v V v 5 V,VO 1 V, VCM 1 V5060dBVCMFor CMRR w 50 dB0 to 4 0.2 to 4.2VAVRL 2 kW15100V/mVTA TLow to THigh (Note 6)10VOHRL 2 kW to 2.5 VTA TLow to THigh (Note 6)VCC 300VCC 400VCC 40mVVOLRL 2 kW to 2.5 V (Note 7)TA TLow to THigh (Note 6)VOHRL 10 kW to 2.5 V (Note 7)TA TLow to THigh (Note 6)VOLRL 10 kW to 2.5 VTA TLow to THigh (Note 6)Output Short Circuit CurrentIOSourcing VO 0 V (Note 7)Sinking VO 5 V (Note 7)Supply CurrentICCLMV321TA TLow to THigh (Note 6)130250350NCV321TA TLow to THigh (Note 6)130250350LMV358/358I Both AmplifiersTA TLow to THigh (Note 6)210440615LMV324 All Four AmplifiersTA TLow to THigh (Note 6)4108301160Input Offset VoltageInput Offset Voltage Average DriftInput Common Mode Voltage RangeLarge Signal Voltage Gain (Note 7)Output SwingSymbolConditionVIOMin120300400VCC 100VCC 200mV651010mV18028060160mVmAmA5.0 V AC ELECTRICAL CHARACTERISTICS (Unless otherwise specified, all limits are guaranteed for TA 25 C, V 5.0 V,RL 1 MW, V 0 V, VO V /2)ParameterSymbolGain Bandwidth ProductGBWPSlew RateConditionSRCL 200 pFMinTypMaxUnit1V/ms1MHzPhase MarginQm60 Gain MarginGm10dBInput Referred Voltage Noiseen50nV/ Hzf 50 kHzProduct parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Productperformance may not be indicated by the Electrical Characteristics if operated under different conditions.6. For LMV321, LMV358, LMV324: TA 40 C to 85 CFor LMV321I, LMV358I, NCV321: TA 40 C to 125 C.7. Guaranteed by design and/or characterization.www.onsemi.com5

LMV321, NCV321, LMV358, LMV324TYPICAL CHARACTERISTICS(TA 25 C and VS 5 V unless otherwise specified)120170100150PHASE MARGIN ( )GAIN (dB)806040200 201011090705030Same Gain 1.8 dB (Typ)1001301k10k100kFREQUENCY (Hz)1010M1M109075807070656060CMRR (dB)CMRR (dB)80504055100k1M10M452040103510k30 0.5100kVS 2.7 Vf 10 kHz50301k10kFigure 2. Open Loop Phase Margin(RL 2 kW, TA 255C, VS 5 V)1001001kFREQUENCY (Hz)Figure 1. Open Loop Frequency Response(RL 2 kW, TA 255C, VS 5 V)01010000.511.522.5FREQUENCY (Hz)INPUT COMMON MODE VOLTAGE (V)Figure 3. CMRR vs. Frequency(RL 5 kW, VS 5 V)Figure 4. CMRR vs. Input Common ModeVoltage80310090708060PSRR (dB)CMRR (dB)70VS 5 Vf 10 kHz506050403020401030 10123401k510k100k1MINPUT COMMON MODE VOLTAGE (V)FREQUENCY (Hz)Figure 5. CMRR vs. Input Common ModeVoltageFigure 6. PSRR vs. Frequency(RL 5 kW, VS 2.7 V, PSRR)www.onsemi.com610M

LMV321, NCV321, LMV358, LMV324TYPICAL CHARACTERISTICS(TA 25 C and VS 5 V unless otherwise specified)901008090708070PSRR (dB)PSRR REQUENCY (Hz)90804703.5603VOS (mV)PSRR (dB)54.550402.52301.5201100.510k100k1M010MVS 2.7 V00.5FREQUENCY (Hz)2001804160SUPPLY CURRENT (mA)53.5VOS (mV)1.522.53Figure 10. VOS vs CMR4.532.521.5VS 5.0 V0.501VCM (V)Figure 9. PSRR vs. Frequency(RL 5 kW, VS 5 V, PSRR)110MFigure 8. PSRR vs. Frequency(RL 5 kW, VS 5 V, PSRR)1001k1MFREQUENCY (Hz)Figure 7. PSRR vs. Frequency(RL 5 kW, VS 2.7 V, 0.511.522.533.544.5VCM (V)SUPPLY VOLTAGE (V)Figure 11. VOS vs CMRFigure 12. Supply Current vs. Supply Voltagewww.onsemi.com75

LMV321, NCV321, LMV358, LMV324TYPICAL CHARACTERISTICS(TA 25 C and VS 5 V unless otherwise specified)10VOUT REFERENCED TO V (V)RL 10 kWVout 1 VPPAv 1(%)0.10.011001k10k 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.12.54.55Figure 14. Output Voltage Swing vs SupplyVoltage (RL 10k) 200.080.070.060.050.040.030.0233.54SUPPLY VOLTAGE (V) 60 80 100 120 140Negative Swing0.01 404.5 16050 20100SOURCE CURRENT (mA)120 40 60 80 10023411.522.5Figure 16. Sink Current vs. Output VoltageVS 2.7 V010.5VOUT REFERENCED TO V (V)Figure 15. Output Voltage Swing vs SupplyVoltage (RL 10k)SINK CURRENT (mA)4Figure 13. THD N vs Frequency0.0903.5SUPPLY VOLTAGE (V)0 1203(Hz)0.102.5Positive Swing 0.02100kSINK CURRENT (mA)VOUT REFERENCED TO V (V)0.00110 0.018060402005VOUT REFERENCED TO V (V)00.51.01.52.0VOUT REFERENCED TO V (V)Figure 17. Sink Current vs. Output VoltageVS 5.0 VFigure 18. Source Current vs. Output VoltageVS 2.7 Vwww.onsemi.com82.5

LMV321, NCV321, LMV358, LMV324TYPICAL CHARACTERISTICS(TA 25 C and VS 5 V unless otherwise specified)110RL 2 kWAV 150 mV/div2 ms/divSOURCE CURRENT (mA)100908070605040302010001234VOUT REFERENCED TO V (V)5Figure 19. Source Current vs. Output VoltageVS 5.0 VFigure 20. Settling Time vs. Capacitive Load50 mV/div2 ms/divRL 1 MWAV 150 mV/div2 ms/divNon Inverting (G 1)InputOutputFigure 21. Settling Time vs. Capacitive LoadFigure 22. Step Response Small Signal50 mV/div2 ms/div1 V/div2 ms/divNon Inverting (G 1)Inverting (G 1)InputInputOutputOutputFigure 24. Step Response Large SignalFigure 23. Step Response Small Signalwww.onsemi.com9

LMV321, NCV321, LMV358, LMV324TYPICAL CHARACTERISTICS(TA 25 C and VS 5 V unless otherwise specified)1 V/div2 ms/divInverting (G 1)InputOutputFigure 25. Step Response Large Signalwww.onsemi.com10

LMV321, NCV321, LMV358, LMV324APPLICATIONS50 kR15.0 kVCCVCCR210 kREF2.5 VVOLMV321VOLMV321VCC Vref 1V ref V CC2R1V O 2.5 V(1 ))R2RRFigure 26. Voltage ReferencefO CC12pRCFor: fo 1.0 kHzR 16 kWC 0.01 mFFigure 27. Wien Bridge OscillatorVCCCR1VinR2CR3 HysteresisVinR1 R2VOHVrefLMV321 VOVOLVOCO 10 CVrefVO COLMV321VinLGiven: fo center frequencyA(fo) gain at center frequencyVinHChoose value fo, CQThen : R3 pf O CVrefR1(V OL * V ref) ) V refR1 ) R2R1V inH (V OH * V ref) ) V refR1 ) R2R1H (V OH * V OL)R1 ) R2V inL R1 R2 R32 A(f O)R1 R34Q 2 R1 * R3Figure 28. Comparator with HysteresisFor less than 10% error from operational amplifier,((QO fO)/BW) 0.1 where fo and BW are expressed in Hz.If source impedance varies, filter may be preceded withvoltage follower buffer to stabilize filter parameters.Figure 29. Multiple Feedback Bandpass Filterwww.onsemi.com11

LMV321, NCV321, LMV358, LMV324ORDERING INFORMATIONNumberofChannelsSpecific Device MarkingPackage TypeShipping†SingleAACSC 70(Pb Free)3000 / Tape & ReelLMV321SN3T1GSingle3ACTSOP 5(Pb Free)3000 / Tape & ReelLMV321ISN3T1GSingle3ACTSOP 5(Pb Free)3000 / Tape & ReelNCV321SN3T1G*Single3ACTSOP 5(Pb Free)3000 / Tape & ReelLMV358DMR2GDualV358Micro8(Pb Free)4000 / Tape & ReelLMV358MUTAGDualACUDFN8(Pb Free)3000 / Tape & ReelLMV358DR2GDualV358SOIC 8(Pb Free)2500 / Tape & ReelLMV358IDR2GDualV358SOIC 8(Pb Free)2500 / Tape & ReelLMV324DR2GQuadLMV324SOIC 14(Pb Free)2500 / Tape & ReelLMV324DTBR2GQuadLMV324TSSOP 14(Pb Free)2500 / Tape & ReelOrder NumberLMV321SQ3T2G†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel PackagingSpecifications Brochure, BRD8011/D.*NCV Prefix for Automotive and Other Applications Requiring Unique Site and Control Change Requirements; AEC Q100 Qualified and PPAPCapable.www.onsemi.com12

MECHANICAL CASE OUTLINEPACKAGE DIMENSIONSSC 88A (SC 70 5/SOT 353)CASE 419A 02ISSUE LSCALE 2:1ANOTES:1. DIMENSIONING AND TOLERANCINGPER ANSI Y14.5M, 1982.2. CONTROLLING DIMENSION: INCH.3. 419A 01 OBSOLETE. NEW STANDARD419A 02.4. DIMENSIONS A AND B DO NOT INCLUDEMOLD FLASH, PROTRUSIONS, OR GATEBURRS.G54 B S12DATE 17 JAN 2013DIMABCDGHJKNS3D 5 PL0.2 0430.0040.0120.026 BSC--0.0040.0040.0100.0040.0120.008 1.100.100.300.65 BSC--0.100.100.250.100.300.20 REF2.002.20JGENERIC MARKINGDIAGRAM*CKHXXXMGGSOLDER FOOTPRINT0.500.0197XXX Specific Device CodeM Date CodeG Pb Free Package0.650.0250.650.0250.400.01571.90.0748SCALE 20:1(Note: Microdot may be in either location)*This information is generic. Please refer todevice data sheet for actual part marking.Pb Free indicator, “G” or microdot “G”, mayor may not be present. Some products maynot follow the Generic Marking.mm ǓǒinchesSTYLE 1:PIN 1. BASE2. EMITTER3. BASE4. COLLECTOR5. COLLECTORSTYLE 2:PIN 1. ANODE2. EMITTER3. BASE4. COLLECTOR5. CATHODESTYLE 3:PIN 1. ANODE 12. N/C3. ANODE 24. CATHODE 25. CATHODE 1STYLE 4:PIN 1. SOURCE 12. DRAIN 1/23. SOURCE 14. GATE 15. GATE 2STYLE 6:PIN 1. EMITTER 22. BASE 23. EMITTER 14. COLLECTOR5. COLLECTOR 2/BASE 1STYLE 7:PIN 1. BASE2. EMITTER3. BASE4. COLLECTOR5. COLLECTORSTYLE 8:PIN 1. CATHODE2. COLLECTOR3. N/C4. BASE5. EMITTERSTYLE 9:PIN 1. ANODE2. CATHODE3. ANODE4. ANODE5. ANODEDOCUMENT NUMBER:DESCRIPTION:98ASB42984BSTYLE 5:PIN 1. CATHODE2. COMMON ANODE3. CATHODE 24. CATHODE 35. CATHODE 4Note: Please refer to datasheet forstyle callout. If style type is not calledout in the datasheet refer to the devicedatasheet pinout or pin assignment.Electronic versions are uncontrolled except when accessed directly from the Document Repository.Printed versions are uncontrolled except when stamped “CONTROLLED COPY” in red.SC 88A (SC 70 5/SOT 353)PAGE 1 OF 1ON Semiconductor andare trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries.ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regardingthe suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specificallydisclaims any and all liability, including without limitation special, consequential or incidental damages. ON Semiconductor does not convey any license under its patent rights nor therights of others. Semiconductor Components Industries, LLC, 2018www.onsemi.com

MECHANICAL CASE OUTLINEPACKAGE DIMENSIONSTSOP 5CASE 483ISSUE N51SCALE 2:1NOTES:1. DIMENSIONING AND TOLERANCING PER ASMEY14.5M, 1994.2. CONTROLLING DIMENSION: MILLIMETERS.3. MAXIMUM LEAD THICKNESS INCLUDES LEAD FINISHTHICKNESS. MINIMUM LEAD THICKNESS IS THEMINIMUM THICKNESS OF BASE MATERIAL.4. DIMENSIONS A AND B DO NOT INCLUDE MOLDFLASH, PROTRUSIONS, OR GATE BURRS. MOLDFLASH, PROTRUSIONS, OR GATE BURRS SHALL NOTEXCEED 0.15 PER SIDE. DIMENSION A.5. OPTIONAL CONSTRUCTION: AN ADDITIONALTRIMMED LEAD IS ALLOWED IN THIS LOCATION.TRIMMED LEAD NOT TO EXTEND MORE THAN 0.2FROM BODY.D 5XNOTE 52XDATE 12 AUG 20200.20 C A B0.10 TM2X0.20 T5B142BS3KDETAIL ZGAATOP VIEWDIMABCDGHJKMSDETAIL ZJC0.05HCSIDE VIEWSEATINGPLANEEND VIEWGENERICMARKING DIAGRAM*SOLDERING 650.901.100.250.500.95 XAYWGG11Analog2.40.094XXX Specific Device CodeA Assembly LocationY YearW Work WeekG Pb Free Package1.00.039XXX MGGDiscrete/LogicXXX Specific Device CodeM Date CodeG Pb Free Package(Note: Microdot may be in either location)0.70.028SCALE 10:1mm Ǔǒinches*For additional information on our Pb Free strategy and solderingdetails, please download the ON Semiconductor Soldering andMounting Techniques Reference Manual, SOLDERRM/D.DOCUMENT NUMBER:DESCRIPTION:98ARB18753CTSOP 5*This information is generic. Please refer todevice data sheet for actual part marking.Pb Free indicator, “G” or microdot “ G”,may or may not be present.Electronic versions are uncontrolled except when accessed directly from the Document Repository.Printed versions are uncontrolled except when stamped “CONTROLLED COPY” in red.PAGE 1 OF 1ON Semiconductor andare trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries.ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regardingthe suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specificallydisclaims any and all liability, including without limitation special, consequential or incidental damages. ON Semiconductor does not convey any license under its patent rights nor therights of others. Semiconductor Components Industries, LLC, 2018www.onsemi.com

MECHANICAL CASE OUTLINEPACKAGE DIMENSIONSUDFN8 1.8x1.2, 0.4PCASE 517AJ 01ISSUE O81DATE 08 NOV 2006SCALE 4:1A BDÉÉÉÉ0.10 CPIN ONEREFERENCE0.10 CL1EDETAIL ANOTE 5TOP VIEW(A3)0.05 CDIMAA1A3bb2DEeLL1L2A0.05 CSIDE VIEWe/2(b2)A1e1485CSEATINGPLANEDETAIL A8XL8X b0.10MC A B0.05MCNOTE 3MOUNTING FOOTPRINTSOLDERMASK 050.127 REF0.150.250.30 REF1.80 BSC1.20 BSC0.40 BSC0.450.550.000.030.40 REFGENERICMARKING DIAGRAM*(L2)BOTTOM VIEWNOTES:1. DIMENSIONING AND TOLERANCING PERASME Y14.5M, 1994.2. CONTROLLING DIMENSION: MILLIMETERS.3. DIMENSION b APPLIES TO PLATEDTERMINAL AND IS MEASURED BETWEEN0.15 AND 0.30 mm FROM TERMINAL TIP.4. MOLD FLASH ALLOWED ON TERMINALSALONG EDGE OF PACKAGE. FLASH MAYNOT EXCEED 0.03 ONTO BOTTOMSURFACE OF TERMINALS.5. DETAIL A SHOWS OPTIONALCONSTRUCTION FOR TERMINALS.XXMGXX Specific Device CodeM Date CodeG Pb Free Package*This information is generic. Please refer todevice data sheet for actual part marking.Pb Free indicator, “G” or microdot “ G”,may or may not

Single, Dual, Quad Low-Voltage, Rail-to-Rail Operational Amplifiers LMV321, NCV321, LMV358, LMV324 The LMV321, LMV321I, NCV321, LMV358/LMV358I and LMV324 are CMOS single, dual, and quad low voltage operational amplifiers with rail to rail output swing. These amplifiers are a cost effective solution for