ADS8519 www.ti.com SLAS462D–JUNE2007–REVISEDSEPTEMBER2010 16-Bit, 250kSPS, Serial, CMOS, Sampling ANALOG-TO-DIGITAL CONVERTER CheckforSamples:ADS8519 FEATURES DESCRIPTION 1 • 0Vto8.192V,±5V,and ±10VInputRanges The ADS8519 is a complete 16-bit sampling 23 • 93dBSNRwith20kHzInput analog-to-digital (A/D) converter using state-of-the-art CMOS structures. It contains a complete 16-bit, • ±1.5LSBMaxINL capacitor-based, successive approximation register • ±1LSBMaxDNL;16Bits, NoMissingCodes (SAR) A/D converter with sample-and-hold, • SPI™-CompatibleSerialOutputwith reference, clock, and a serial data interface. Data can Daisy-Chain(TAG)Featureand 3-StateBus be output using the internal clock or synchronized to an external data clock. The ADS8519 also provides • 5VAnalogSupply,1.65Vto5.25VI/OSupply an output synchronization pulse for ease-of-use with • PinoutSimilar to16-BitADS7809(Low-Speed) standardDSPprocessors. and12-BitADS7808and ADS8508 The ADS8519 is specified at a 250kSPS sampling • NoExternalPrecisionResistorsRequired rateoverthefulltemperaturerange. Internalprecision • UsesInternalor ExternalReference resistors provide various input ranges including ±10V, • 110mWTypPowerDissipationat250kSPS ±5V, and 0V to 8.192V, while the innovative design allows operation from a single 5V supply with power • 28-PinSSOPPackage dissipationunder125mW. • SimpleDSPInterface The ADS8519 is available in a 28-pin SSOP package, and is fully specified for operation over the APPLICATIONS industrial–40°Cto+85°Ctemperaturerange. • IndustrialProcessControl • DataAcquisitionSystems • DigitalSignalProcessing • MedicalEquipment • Instrumentation Successive Approximation Register Clock EXT/INT 7kW CDAC R1IN 7kW BUSY R2IN Serial DATACLK 2.87kW R3IN 25.67kW Comparator DOautta TAG and DATA CAP Control R/C Buffer Internal SB/BTC +4.096V Ref CS 4kW PWRD REF 1 Pleasebeawarethatanimportantnoticeconcerningavailability,standardwarranty,anduseincriticalapplicationsofTexas Instrumentssemiconductorproductsanddisclaimerstheretoappearsattheendofthisdatasheet. SPIisatrademarkofMotorola,Inc. 2 Allothertrademarksarethepropertyoftheirrespectiveowners. 3 PRODUCTIONDATAinformationiscurrentasofpublicationdate. Copyright©2007–2010,TexasInstrumentsIncorporated Products conform to specifications per the terms of the Texas Instruments standard warranty. Production processing does not necessarilyincludetestingofallparameters. ADS8519 SLAS462D–JUNE2007–REVISEDSEPTEMBER2010 www.ti.com This integrated circuit can be damaged by ESD. Texas Instruments recommends that all integrated circuits be handled with appropriateprecautions.Failuretoobserveproperhandlingandinstallationprocedurescancausedamage. ESDdamagecanrangefromsubtleperformancedegradationtocompletedevicefailure.Precisionintegratedcircuitsmaybemore susceptibletodamagebecauseverysmallparametricchangescouldcausethedevicenottomeetitspublishedspecifications. PACKAGE/ORDERINGINFORMATION(1) MINIMUM NO MINIMUM SPECIFIED INL MISSING SINAD TEMPERATURE PACKAGE- PACKAGE ORDERING TRANSPORT PRODUCT (LSB) CODES (dB) RANGE LEAD DESIGNATOR NUMBER MEDIA,QTY ADS8519IBDB Tube,50 ADS8519IB ±1.5 16-Bit 90 –40°Cto+85°C SSOP-28 DB ADS8519IBDBR TapeandReel,2000 ADS8519IDB Tube,50 ADS8519I ±3 15-Bit 87 –40°Cto+85°C SSOP-28 DB ADS8519IDBR TapeandReel,2000 (1) Forthemostcurrentpackageandorderinginformation,seethePackageOptionAddendumattheendofthisdocument,orseetheTI websiteatwww.ti.com. ABSOLUTE MAXIMUM RATINGS(1) (2) Overoperatingfree-airtemperaturerange(unlessotherwisenoted). UNIT R1 ±25V IN R2 ±25V IN Analoginputs R3 ±25V IN REF +V +0.3VtoAGND2–0.3V ANA DGND,AGND2 ±0.3V Groundvoltagedifferences V 6V ANA V 6V DIG Digitalinputs –0.3Vto+V +0.3V DIG Internalpowerdissipation 700mW Maximumjunctiontemperature +165°C Leadtemperature(soldering,10s) +300°C (1) StressesabovethoselistedunderAbsoluteMaximumRatingsmaycausepermanentdamagetothedevice.Exposuretoabsolute maximumconditionsforextendedperiodsmayaffectdevicereliability. (2) Allvoltagevaluesarewithrespecttonetworkgroundterminal. ELECTRICAL CHARACTERISTICS AtT =–40°Cto+85°C,f =250kSPS,andV =V =5V,usinginternalreference(unlessotherwisespecified). A s DIG ANA ADS8519I ADS8519IB PARAMETER TESTCONDITIONS MIN TYP MAX MIN TYP MAX UNIT Resolution 16 16 Bits ANALOGINPUT Voltageranges(1) Impedance(1) Capacitance 50 50 pF THROUGHPUTSPEED Conversioncycletime Acquireandconvert 4 4 ms Throughputrate 250 250 kSPS (1) ±10V,±5V,0Vto8.192V,etc.(seeTable2) 2 SubmitDocumentationFeedback Copyright©2007–2010,TexasInstrumentsIncorporated ProductFolderLink(s):ADS8519 ADS8519 www.ti.com SLAS462D–JUNE2007–REVISEDSEPTEMBER2010 ELECTRICAL CHARACTERISTICS (continued) AtT =–40°Cto+85°C,f =250kSPS,andV =V =5V,usinginternalreference(unlessotherwisespecified). A s DIG ANA ADS8519I ADS8519IB PARAMETER TESTCONDITIONS MIN TYP MAX MIN TYP MAX UNIT DCACCURACY INL Integrallinearityerror –3 3 –1.5 1.5 LSB(2) DNL Differentiallinearityerror –2 2 –1 1 LSB Nomissingcodes 15 16 Bits Transitionnoise(3) 0.67 0.67 LSB Full-scale ±10Vrange Internalreference –0.5 0.5 –0.25 0.25 error(4)(5) Allotherranges Internalreference –0.5 –0.05 0.5 –0.5 –0.05 0.5 %FSR Full-scaleerrordrift Internalreference ±7 ±7 ppm/°C Full-scale ±10Vrange Externalreference –0.05 0.003 0.05 –0.05 0.003 0.05 error(4)(5) Allotherranges Externalreference –0.5 0.5 –0.5 0.5 %FSR Full-scaleerrordrift Externalreference ±2 ±2 ppm/°C Bipolarzeroerror(4) –4 4 –2 2 mV Bipolarzeroerrordrift ±2 ±2 ppm/°C Unipolarzero error(4) 8.192V –20 6 20 –20 6 20 mV Unipolarzeroerrordrift ±0.4 ±0.4 ppm/°C Recoverytoratedaccuracyafter 1mFcapacitortoCAP 1 1 ms powerdown Powersupplysensitivity (VDIG=VANA=VD) +4.75V<VD<+5.25V –8 8 –8 8 LSB ACACCURACY SFDR Spurious-freedynamicrange fI=20kHz 95 100 97 100 dB(6) THD Totalharmonicdistortion fI=20kHz –96 –94 –98 –96 dB fI=20kHz 87 91 90 92 dB SINAD Signal-to-(noise+distortion) –60dBInput 30 32 dB SNR Signal-to-noiseratio fI=20kHz 88 92 91 93 dB Full-powerbandwidth(7) 500 500 kHz SAMPLINGDYNAMICS Aperturedelay 5 5 ns Transientresponse FSstep 2 2 ms Overvoltagerecovery(8) 150 150 ns REFERENCE Internalreferencevoltage Noload 4.076 4.096 4.116 4.076 4.096 4.116 V Internalreferencesourcecurrent 1 1 mA (mustuseexternalbuffer) Internalreferencedrift 8 8 ppm/°C Externalreferencevoltagerange 3.9 4.096 4.2 3.9 4.096 4.2 V forspecifiedlinearity Externalreferencecurrentdrain External4.096Vref. 100 100 mA (2) LSBmeansLeastSignificantBit.Forthe±10Vinputrange,oneLSBis305mV. (3) Typicalrmsnoiseatworst-casetransitionsandtemperatures. (4) AsmeasuredwithcircuitshowninFigure29andFigure30. (5) Forbipolarinputranges,full-scaleerroristheworstcaseof–Full-Scaleor+Full-Scaleuncalibrateddeviationfromidealfirstandlast codetransitions,dividedbythetransitionvoltage(notdividedbythefull-scalerange)andincludestheeffectofoffseterror.Forunipolar inputranges,full-scaleerroristhedeviationofthelastcodetransitiondividedbythetransitionvoltage.Italsoincludestheeffectof offseterror. (6) AllspecificationsindBarereferredtoafull-scale±10Vinput. (7) Full-powerbandwidthisdefinedasthefull-scaleinputfrequencyatwhichsignal-to-(noise+distortion)degradesto60dB. (8) Recoverstospecifiedperformanceafter2xFSinputovervoltage. Copyright©2007–2010,TexasInstrumentsIncorporated SubmitDocumentationFeedback 3 ProductFolderLink(s):ADS8519 ADS8519 SLAS462D–JUNE2007–REVISEDSEPTEMBER2010 www.ti.com ELECTRICAL CHARACTERISTICS (continued) AtT =–40°Cto+85°C,f =250kSPS,andV =V =5V,usinginternalreference(unlessotherwisespecified). A s DIG ANA ADS8519I ADS8519IB PARAMETER TESTCONDITIONS MIN TYP MAX MIN TYP MAX UNIT DIGITALINPUTS Logiclevels VIL Low-levelinputvoltage(9) VDIG=1.65Vto5.25V –0.3 0.6 –0.3 0.6 V VIH High-levelinputvoltage(9) VDIG=1.65Vto5.25V 0.5xVDIG VDIG+0.3 0.5xVDIG VDIG+0.3 V IIL Low-levelinputcurrent VIL=0V ±10 ±10 mA IIH High-levelinputcurrent VIH=5V ±10 ±10 mA DIGITALOUTPUTS Dataformat Serial,16-bits Serial,16-bits Binary2'scomplement Binary2'scomplement Datacoding orstraightbinary orstraightbinary Conversionresultsonlyavailable Conversionresultsonlyavailable Pipelinedelay aftercompletedconversion aftercompletedconversion Selectableforinternal Selectableforinternal Dataclock orexternaldataclock orexternaldataclock Internalclock(outputonlywhen EXT/INTlow 9 9 MHz transmittingdata) Externalclock(canrun continuallybutnotrecommended EXT/INThigh 0.1 26 0.1 26 MHz foroptimumperformance) VOL Low-leveloutputvoltage IVSDINIGK==11..665mVA,to5.25V 0.45 0.45 V VOH High-leveloutputvoltage IVSDOIUGR=CE1=.655V00tmoA5,.25V VDIG–0.45 VDIG–0.45 V Hi-Zstate, Leakagecurrent ±5 ±5 mA VOUT=0VtoVDIG Outputcapacitance Hi-Zstate 15 15 pF POWERSUPPLIES VDIG Digitalinputvoltage Mustbe≤VANA 1.65 5.25 1.65 5.25 V VANA Analoginputvoltage Mustbe≤VANA 4.75 5 5.25 4.75 5 5.25 V IDIG Digitalinputcurrent Mustbe≤VANA 0.1 1 0.1 1 mA IANA Analoginputcurrent Mustbe≤VANA 22 25 22 25 mA POWERDISSIPATION PWRDLow fS=250kSPS 110 125 110 125 mW PWRDHigh 20 20 mW TEMPERATURERANGE Specifiedperformance –40 +85 –40 +85 °C Deratedperformance(10) –55 +125 –55 +125 °C Storage –65 +150 –65 +150 °C qJA Thermalresistance 67 67 °C/W (9) TTL-compatibleat5Vsupply. (10) Theinternalreferencemaynotbestartedcorrectlybeyondtheindustrialtemperaturerange(–40°Cto+85°C);therefore,useofan externalreferenceisrecommended. 4 SubmitDocumentationFeedback Copyright©2007–2010,TexasInstrumentsIncorporated ProductFolderLink(s):ADS8519 ADS8519 www.ti.com SLAS462D–JUNE2007–REVISEDSEPTEMBER2010 PIN CONFIGURATION DBPACKAGE (TOPVIEW) R1IN 1 28 VDIG AGND1 2 27 VANA R2IN 3 26 PWRD R3IN 4 25 BUSY NC 5 24 CS CAP 6 23 NC REF 7 22 NC NC 8 21 R/C AGND2 9 20 NC NC 10 19 TAG NC 11 18 NC SB/BTC 12 17 DATA EXT/INT 13 16 DATACLK DGND 14 15 SYNC Copyright©2007–2010,TexasInstrumentsIncorporated SubmitDocumentationFeedback 5 ProductFolderLink(s):ADS8519 ADS8519 SLAS462D–JUNE2007–REVISEDSEPTEMBER2010 www.ti.com PinAssignments PIN NAME NO. I/O DESCRIPTION AGND1 2 – Analogground.Usedinternallyasgroundreferencepoint.Minimalcurrentflow. AGND2 9 – Analogground Busyoutput.Fallswhenaconversionisstarted,andremainslowuntiltheconversioniscompletedand BUSY 25 O thedataarelatchedintotheoutputshiftregister. CS 24 – Chipselect.InternallyORedwithR/C. CAP 6 Referencebuffercapacitor,2.2mFtantalumcapacitortoground. Serialdataoutput.DataaresynchronizedtoDATACLK,withtheformatdeterminedbythelevelof SB/BTC.Intheexternalclockmode,after16bitsofdata,theADS8519outputsthelevelinputonTAG DATA 17 O aslongasCSislowandR/Cishigh(seeFigure8andFigure9).IfEXT/INTislow,dataarevalidon boththerisingandfallingedgesofDATACLK,andbetweenconversionsDATAstaysatthelevelofthe TAGinputwhentheconversionwasstarted. Eitheraninputoranoutput,dependingontheEXT/INTlevel.Outputdataaresynchronizedtothis DATACLK 16 I/O clock.IfEXT/INTislow,DATACLKtransmits16pulsesaftereachconversion,andthenremainslow betweenconversions. DGND 14 – Digitalground Selectsexternalorinternalclockfortransmittingdata.Ifhigh,dataareoutputsynchronizedtothe EXT/INT 13 – clockinputonDATACLK.Iflow,aconvertcommandinitiatesthetransmissionofthedatafromthe previousconversion,alongwith16clockpulsesoutputonDATACLK. 5,8,10,11, NC 18,20,22, – Notconnected 23 Powerdowninput.Ifhigh,conversionsareinhibitedandpowerconsumptionissignificantlyreduced. PWRD 26 I Resultsfromthepreviousconversionaremaintainedintheoutputshiftregister. Read/convertinput.WithCSlow,afallingedgeonR/Cputstheinternalsample-and-holdintothehold stateandstartsaconversion.WhenEXT/INTislow,thisalsoinitiatesthetransmissionofthedata R/C 21 I resultsfromthepreviousconversion.IfEXT/INTishigh,arisingedgeonR/CwithCSlow,orafalling edgeonCSwithR/Chigh,initiatesthetransmissionofdatafromthepreviousconversion. Referenceinput/output.Outputsinternal4.096Vreference.Canalsobedrivenbyexternalsystem REF 7 I/O reference.Inbothcases,bypasstogroundwitha2.2mFtantalumcapacitor. R1 1 I Analoginput.SeeTable2forinputrangeconnections. IN R2 3 I Analoginput.SeeTable2forinputrangeconnections. IN R3 4 I Analoginput.SeeTable2forinputrangeconnections. IN Selectstraightbinaryorbinarytwo'scomplementdataoutputformat.Ifhigh,dataareoutputina SB/BTC 12 I straightbinaryformat.Iflow,dataareoutputinabinarytwo'scomplementformat. Syncoutput.ThispinisusedtosupplyadatasynchronizationpulsewhentheEXTlevelishighandat SYNC 15 O leastoneexternalclockpulsehasoccurredwhennotinthereadmode.SeetheExternalDATACLK sectionfortheexternalclockmodedescription. Taginputforuseintheexternalclockmode.IfEXTishigh,digitaldatainputfromTAGisoutputon TAG 19 I DATAwithadelaythatdependsontheexternalclockmode.SeeFigure8andFigure9. Analogsupplyinput.Nominally+5V.Connectdirectlytopin20,anddecoupletogroundwith0.1mF V 27 I ANA ceramicand10mFtantalumcapacitors. V 28 I Digitalsupplyinput.Connectdirectlytopin19. DIG 6 SubmitDocumentationFeedback Copyright©2007–2010,TexasInstrumentsIncorporated ProductFolderLink(s):ADS8519 ADS8519 www.ti.com SLAS462D–JUNE2007–REVISEDSEPTEMBER2010 TIMING REQUIREMENTS, T = –40°C to +85°C A PARAMETER MIN TYP MAX UNIT t Pulseduration,convert 40 ns w1 t Delaytime,BUSYfromR/Clow 6 20 ns d1 t Pulseduration,BUSYlow 2.2 ms w2 t Delaytime,BUSY,afterendofconversion 5 ns d2 t Delaytime,aperture 5 ns d3 t Conversiontime 2.2 ms conv t Acquisitiontime 1.8 ms acq t +t Cycletime 4 ms conv acq t Delaytime,R/CLowtointernalDATACLKoutput 270 ns d4 t Cycletime,internalDATACLK 110 ns c1 t Delaytime,datavalidtointernalDATACLKhigh 15 35 ns d5 t Delaytime,datavalidafterinternalDATACLKlow 20 35 ns d6 t Cycletime,externalDATACLK 35 ns c2 t Pulseduration,externalDATACLKhigh 15 ns w3 t Pulseduration,externalDATACLKlow 15 ns w4 t Setuptime,R/Crise/falltoexternalDATACLKhigh 15 ns su1 t Setuptime,R/CtransitiontoCStransition 10 ns su2 t Delaytime,SYNC,afterexternalDATACLKhigh 3 35 ns d7 t Delaytime,datavalidfromexternalDATACLKhigh 2 13 ns d8 t Delaytime,CSrisingedgetoexternalDATACLKrisingedge 10 ns d9 t Delaytime,previousdataavailableafterCS,R/Clow 2 ms d10 t Setuptime,BUSYtransitiontofirstexternalDATACLK 5 ns su3 t Delaytime,finalexternalDATACLKtoBUSYrisingedge 1 ms d11 t Setuptime,TAGvalid 0 ns su4 t Holdtime,TAGvalid 2 ns h1 TIMING DIAGRAMS CS R/C R/C CS tsu1 tsu1 tsu1 tsu1 External External DATACLK DATACLK CS Set Low, Discontinuous Ext DATACLK R/C Set Low, Discontinuous Ext DATACLK CS BUSY tsu2 tsu2 tsu3 1 2 External R/C DATACLK Setup Time, R/C to CS CS Set Low, Discontinuous Ext DATACLK Figure1. CriticalTiming Copyright©2007–2010,TexasInstrumentsIncorporated SubmitDocumentationFeedback 7 ProductFolderLink(s):ADS8519 ADS8519 SLAS462D–JUNE2007–REVISEDSEPTEMBER2010 www.ti.com TIMING DIAGRAMS (continued) tw1 tw1 R/C td1 tw2 td1 tw2 BUSY td3 tdt2d11 td3 td2td11 STATUS Nth Conversion ECrorrorrection (N+1)th Accquisition (N+1)th Conversion ECrorrorrection (N+2)th Accquisition tconv tacq tconv tacq td4 tc1 td4 Internal DATACLK 1 2 16 1 2 16 td6 td5 DATA TAG = 0 D15 D0 TAG = 0 D15 D0 TAG = 0 (N−1)th Conversion Data Nth Conversion Data CS, EXT/INT, and TAG are tied low 8starts READ Figure2. BasicConversionTiming:InternalDATACLK(ReadPreviousDataDuringConversion) tw1 tw1 R/C td1 tw2 td1 tw2 BUSY td2 td2 td3 td11 td3 td11 STATUS Nth Conversion Error (N+1)th Accquisition (N+1)th ConversionError (N+2)th Accquisition Correction Correction tconv tacq tconv tacq tsu1 tsu3 tsu1 tsu3 External DATACLK 1 16 1 2 16 1 16 1 2 16 No more No more DATA TAG = 0 dshaitfat otout TAG = 0 Nth Data TAG = 0 dshaitfat otout TAG = 0 (N+1)th Data TAG = 0 EXT/INT tied high, CS and TAG are tied low tw1 + tsu1 starts READ Figure3. BasicConversionTiming:ExternalDATACLK 8 SubmitDocumentationFeedback Copyright©2007–2010,TexasInstrumentsIncorporated ProductFolderLink(s):ADS8519 ADS8519 www.ti.com SLAS462D–JUNE2007–REVISEDSEPTEMBER2010 TIMING DIAGRAMS (continued) tw1 R/C td1 tw2 tsu1 td1 BUSY td2 td3 td11 td3 STATUS Nth Conversion Error (N+1)th Accquisition Correction tconv tsu3 tacq External tw3tc2 tw4 tsu1 DATACLK 0 1 2 3 4 5 10 11 12 13 14 15 16 SYNC = 0 td8 Nth Conversion Data td8 DATA D15 D14 D13 D12 D11 D10 D05 D04 D03 D02 D01 D00 Null T00 Txx tsu4 th1 TAG T00 T01 T02 T03 T04 T05 T06 T11 T12 T13 T14 T15 T16 Null T17 Tyy EXT/INT tied high, CS tied low tw1 + tsu1 starts READ Figure4. ReadAfter Conversion(DiscontinuousExternalDATACLK) tw1 R/C td1 tw2 BUSY td3 td10 td2 Error STATUS Nth Conversion Correction tsu3 tconv tc2 tsu1 tw3 tw4 td11 External DATACLK 0 1 2 3 4 5 10 11 12 13 14 15 16 SYNC = 0 td8 Nth Conversion Data td8 DATA D15 D14 D13 D12 D11 D10 D05 D04 D03 D02 D01 D00 EXT/INT tied high, CS and TAG tied low Rising DATACLK change DATA, tw1 + tsu1 Starts READ TAG is not recommended for this mode. There is not enough time to do so without violating td11. Figure5. ReadDuringConversion(DiscontinuousExternalDATACLK) Copyright©2007–2010,TexasInstrumentsIncorporated SubmitDocumentationFeedback 9 ProductFolderLink(s):ADS8519 ADS8519 SLAS462D–JUNE2007–REVISEDSEPTEMBER2010 www.ti.com TIMING DIAGRAMS (continued) tw1 R/C td1 tsu1 tsu1 td1 tw2 BUSY td2 td3 td11 td3 Error STATUS Nth ConversionCorrection (N+1)th Accquisition tconv tacq tsu1 tsu3 tw3 tc2 tw4 tsu1 External DATACLK 0 1 2 3 4 5 6 7 12 13 14 15 16 17 18 tc2 td7 SYNC=0 td8 Nth Conversion Data td8 DATA D15 D14 D13 D12 D11 D10 D05 D04 D03 D02 D01 D00 Null T00 Txx tsu4 th1 TAG T00 T01 T02 T03 T04 T05 T06 T11 T12 T13 T14 T15 T16 T17 Tyy EXT/INT tied high, CS tied low tw1 + tsu1 starts READ Figure6. ReadAfterConversionWithSYNC(DiscontinuousExternalDATACLK) tw1 R/C td1 tw2 BUSY td3 td10 td2 Error STATUS Nth Conversion Correction tsu3 tconv Externtsaul1 tsu1 tsu1 tw3 ttcw24 td11 DATACLK 0 1 2 3 4 5 6 7 12 13 14 15 16 17 18 td7 tc2 SYNC = 0 td8 Nth Conversion Data td8 DATA D15 D14 D13 D12 D11 D10 D05 D04 D03 D02 D01 D00 tw1 + tsu1 Starts READ EXT/INT tied high, CS and TAG tied low TAG is not recommended for this mode. There is not enough time to do so without violating td11. Figure7. ReadDuringConversionWithSYNC(DiscontinuousExternalDATACLK) 10 SubmitDocumentationFeedback Copyright©2007–2010,TexasInstrumentsIncorporated ProductFolderLink(s):ADS8519