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DS1D6CQ1_Datasheet PDF

发帖时间:2021-06-15 02:38:28

Do not use or store the device in temperature above +150 centigrade and below -55 centigrade.

Moreover this transistor can also be used as a switch or controlling variety of loads under 100mA.driving load more than 100mA may burn the transistor or make it weak in performance.

DS1D6CQ1_Datasheet PDF

with the 100mA collector current it can be used to control variety of loads in the electronic circuit like relays.The noise figure value of the transistor is only 1.2db which is a quite good value to use this transistor in audio related applications.

DS1D6CQ1_Datasheet PDF

where and how to use this transistor in your electronic circuits.This transistor is available in different part numbers and all the part numbers have different current gain value like BC549 current gain value is from 110 to 800.

DS1D6CQ1_Datasheet PDF

push({});Where We Can Use BC549 How to Use:It can be used in many general purpose applications for example it can be used in audio amplifier and audio preamplifier circuits.

Equivalent other detailed information about its uses.L293Disaquadruplehigh-currenthalf-Hdriver.ThisblogcoversL293Dmotordriverpinout,datasheet,equivalents,featuresandotherinformationonhowtouseandwheretousethisdevice.ThisvideoshowshowtorunasteppermotorwithArduinoandL293D.CatalogL293DIntroductionL293DPinConfigurationandFunctionsL293DFeaturesWheretouseL293DICHowtouseanL293DMotorDriverICL293DApplicationsL293DTypicalApplicationL293DEquivalentsL293DLayoutExampleL293DManufacturerComponentDatasheetFAQOrderingQuantityL293DIntroductionL293Disdesignedtodriveawidearrayofinductiveloadssuchasrelays,solenoids,DCandbipolarsteppingmotors,aswellasotherhigh-currentandhigh-voltageloads.AllinputsareTTLcompatibleandtolerantupto7V.Eachoutputisacompletetotem-poledrivecircuit,withaDarlingtontransistorsinkandapseudo-Darlingtonsource.Driversareenabledinpairs,withdrivers1and2enabledby1,2ENanddrivers3and4enabledby3,4EN.Whenanenableinputishigh,theassociateddriversareenabled,andtheiroutputsareactiveandinphasewiththeirinputs.Whentheenableinputislow,thosedriversaredisabled,andtheiroutputsareoffandinthehigh-impedancestate.Withtheproperdatainputs,eachpairofdriversformsafull-H(orbridge)reversibledrivesuitableforsolenoidormotorapplications.Theexternalhigh-speedoutputclampdiodesoftheL293Dareintegratedtoreducesystemcomplexityandoverallsystemsize.AVCC1terminal,separatefromVCC2,isprovidedforthelogicinputstominimizedevicepowerdissipation.TheL293Discharacterizedforoperationfrom0Cto70C.L293DPinConfigurationandFunctionsThedatasheetbelowissetforyourbetterunderstandingofthe16pinsofthepackages,thedetailsofall16pinsandthefunctionofeachpinareasfollows:L293DL293DPinoutPinoutfunctions:PINNAMENO.TYPEDESCRIPTION1,2EN1IEnabledriverchannels1and2(activehighinput)1:4A2,7,10,15IDriverinputs,noninverting1:4Y3,6,11,14ODriveroutputs3,4EN9IEnabledriverchannels3and4(activehighinput)GROUND4,5,12,13Devicegroundandheatsinkpin.Connecttoprinted-circuit-boardgroundplanewithmultiplesolidviasVCC1165-VsupplyforinternallogictranslationVCC28PowerVCCfordrivers4.5Vto36VL293DFeaturesWideSupply-VoltageRange:4.5Vto36VSeparateInput-LogicSupplyInternalESDProtectionHigh-Noise-ImmunityInputsOutputCurrent1APerChannel(600mAforL293D)PeakOutputCurrent2APerChannel(1.2AforL293D)OutputClampDiodesforInductiveTransientSuppression(L293D)WheretouseL293DICTheL293Disapopular16-PinMotorDriverIC.Asthenamesuggestsitismainlyusedtodrivemotors.AsingleL293DICiscapableofrunningtwoDCmotorsatthesametime;alsothedirectionofthesetwomotorscanbecontrolledindependently.Soifyouhavemotorswhichhaveanoperatingvoltagelessthan36Vandoperatingcurrentlessthan600mA,whicharetobecontrolledbydigitalcircuitslikeOp-Amp,555timers,digitalgatesorevenMicronrollerslikeArduino,PIC,ARM,etc.thisICwillbetherightchoiceforyou.HowtouseanL293DMotorDriverICUsingthisL293DmotordriverICisverysimple.TheICworksontheprincipleoftheHalfH-Bridge,letusnotgotoodeepintowhatH-Bridgemeans,butfornow,justknowthatHbridgeisasetupwhichisusedtorunmotorsbothinclockwiseandanti-clockwisedirection.AssaidearlierthisICiscapableofrunningtwomotorsattheanydirectionatthesametime,thecircuittoachievethesameisshownbelow.AlltheGroundpinsshouldbegrounded.TherearetwopowerpinsforthisIC,oneistheVss(Vcc1)whichprovidesthevoltagefortheICtowork,thismustbeconnectedto+5V.TheotherisVs(Vcc2)whichprovidesthevoltageforthemotorstorun,basedonthespecificationofyourmotoryoucanconnectthispintoanywherebetween4.5Vto36V,hereIhaveconnectedto+12V.TheEnablepins(Enable1,2andEnable3,4)areusedtoEnableInputpinsforthemotor1andthemotor2respectively.Sinceinmostcaseswewillbeusingboththemotors,boththepinsareheldhighbydefaultbyconnectingto+5Vsupply.TheinputpinsInput1,2areusedtocontrolthemotor1andInputpins3,4areusedtocontrolthemotor2.Theinputpinsareconnectedtoanydigitalcircuitormicrocontrollertocontrolthespeedanddirectionofthemotor.Youcantoggletheinputpinsbasedonthefollowingtabletocontrolyourmotor.Input1=HIGH(5v)Output1=HIGHMotor1rotatesinClockwiseDirectionInput2=LOW(0v)Output2=LOWInput3=HIGH(5v)Output1=HIGHMotor2rotatesinClockwiseDirectionInput4=LOW(0v)Output2=LOWInput1=LOW(0v)Output1=LOWMotor1rotatesinAnti-ClockwiseDirectionInput2=HIGH(5v)Output2=HIGHInput3=LOW(0v)Output1=LOWMotor2rotatesinAnti-ClockwiseDirectionInput4=HIGH(5v)Output2=HIGHInput1=HIGH(5v)Output1=HIGHMotor1staysstillInput2=HIGH(5v)Output2=HIGHInput3=HIGH(5v)Output1=LOWMotor2staysstillInput4=HIGH(5v)Output2=HIGHL293DApplicationsStepperMotorDriversDCMotorDriversLatchingRelayDriversL293DTypicalApplicationAtypicalapplicationfortheL293deviceisdrivingatwo-phasemotor.Belowisanexampleschematicdisplayinghowtoproperlyconnectatwo-phasemotortotheL293device.Providea5-VsupplytoVCC1andvalidlogicinputlevelstodataandenableinputs.VCC2mustbeconnectedtoapowersupplycapableofsupplyingtheneededcurrentandvoltagedemandfortheloadsconnectedtotheoutputs.L293DEquivalentsL293DLayoutExampleL293DManufacturerTexasInstrumentsIncorporated(TI)isanAmericantechnologycompanyheadquarteredinDallas,Texas,thatdesignsandmanufacturessemiconductorsandvariousintegratedcircuits,whichitsellstoelectronicsdesignersandmanufacturersglobally.Itisoneofthetop10semiconductorcompaniesworldwidebasedonsalesvolume.Thecompanysfocusisondevelopinganalogchipsandembeddedprocessors,whichaccountformorethan80%ofitsrevenue.TIalsoproducesTIdigitallightprocessingtechnologyandeducationtechnologyproductsincludingcalculators,microcontrollersandmulti-coreprocessors.Thecompanyholds45,000patentsworldwideasof2016.ComponentDatasheetL293DDatasheetFAQWhatisl293d?L293DICisadualH-bridgemotordriverIC.OneH-bridgeiscapabletodriveadcmotorinbidirection.L293DICisacurrentenhancingICastheoutputfromthesensorisnotabletodrivemotorsitselfsoL293Disusedforthispurpose.Whichisbetterl293dvsl298n?L293DDriversOperatesat4.5Vto36VwhereasL298NcanbeOperatesatupto46V.Maximum600mAcurrentcanbedrawnthroughbothchannelsofL293DwhereasL298NMotorDrivercandrawupto2Afrombothchannels.WhatistheuseofEnablepininl293d?L293DhasanenablefacilitywhichhelpsyouenabletheICoutputpins.Ifanenablepinissettologichigh,thenstateoftheinputsmatchesthestateoftheoutputs.Ifyoupullthislow,thentheoutputswillbeturnedoffregardlessoftheinputstates.HowmanyDCmotorscanbecontrolledbyanICl293d?TheL293Disa16-pinMotorDriverICwhichcancontroluptotwoDCmotorssimultaneously,inanydirection.HowdoIconnectmyArduinotol293d?Connect5VtoEnable1,Vss,andVsontheL293D.Connectdigitaloutputpins(wereusing6and7)toinput1andinput2ontheL293D.ConnectyourArduinosGNDtobothGNDpinsonthesamesideoftheL293D.Finally,connectoutput1andoutput2oftheL293Dtoyourmotorpins.WhatisHbridgeinl293d?AnH-BridgeCircuit.AnHbridgeisanelectroniccircuitthatallowsavoltagetobeappliedacrossaloadinanydirection.H-bridgecircuitsarefrequentlyusedinroboticsandmanyotherapplicationstoallowDCmotorstorunforwardbackward.WhatisthefunctionofHbridge?AnH-bridgeisanelectroniccircuitthatswitchesthepolarityofavoltageappliedtoaload.ThesecircuitsareoftenusedinroboticsandotherapplicationstoallowDCmotorstorunforwardsorbackwards.Whatisl293dmotordrivershield?L293DshieldisadriverboardbasedonL293IC,whichcandrive4DCmotorsand2stepperorServomotorsatthesametime.Eachchannelofthismodulehasthemaximumcurrentof1.2Aanddoesntworkifthevoltageismorethan25vorlessthan4.5v.HowdoIusethel293dmotordrivermodule?Connect5VtoEnable1,Vss,andVsontheL293D.Connectdigitaloutputpins(wereusing6and7)toinput1andinput2ontheL293D.ConnectyourArduinosGNDtobothGNDpinsonthesamesideoftheL293D.

MAX3232isacommonlyusedrs232tottlconverteric.ThisblogwillprovideyouasmuchinformationaspossibleabouttheMAX3232,includingitspinout,features,itsdifferencesbetweenMAX232,whereandhowtouseit,etc.Hopethisbloghelps!Thisisatutorialvideoshowinghowtoconvertttltors232usingMAX3232indetails.CatalogMAX3232DescriptionMAX3232PinoutMAX3232FeaturesMAX3232ParameterMAX3232SchematicMAX3232vsMAX232MAX3232EquivalentWheretouseMAX3232icHowtouseMAX3232icMAX3232ApplicationMAX3232PackageComponentDatasheetMAX3232DescriptionMAX3232isacommonlyusedrs232tottlconverteric.Itconsistsoftwolinedrivers,twolinereceivers,andadualcharge-pumpcircuitwithterminaltoterminalESDprotectionof15kV.(serial-portconnectionterminals,includingGND).ThedevicecomplieswithTIA/EIA-232-Fstandardsandprovidestheelectricalinterfacebetweenanasynchronouscommunicationcontrollerandaserial-portconnector.Thechargepumpandfoursmallexternalcapacitorsallowthedevicetooperatefromasingle3Vto5.5Vsupply.Thedeviceshavedatasignalingratesofupto250kbit/sandamaximumdriveroutputslewrateof30V/s.Whenpoweredfroma3.0Vto5.5Vpowersupply,themax3232usesaproprietarylow-dropouttransmitteroutputstagewithdualchargepumpstoachievetrueRS232performance.Thedeviceonlyrequiresfour0.1uFexternalsmallsizechargepumpcapacitors.max3232maintainstheRS-232outputlevelwhileensuringadatarateof120kbps.MAX3232PinoutMAX3232MAX3232PinoutPinNumberPinNameDescription1C1+PositiveleadofC1capacitor2V+Positivechargepumpoutputforstoragecapacitoronly3C1-NegativeleadofC1capacitor4C2+PositiveleadofC2capacitor5C2-NegativeleadofC2capacitor6V-Negativechargepumpoutputforstoragecapacitoronly7DOUT2RS232linedataoutput(toremoteRS232system)8RIN2RS232linedatainput(fromremoteRS232system)9ROUT2Logicdataoutput(toUART)10DIN2Logicdatainput(fromUART)11DIN1Logicdatainput(fromUART)12ROUT1Logicdataoutput(toUART)13RIN1RS232linedatainput(fromremoteRS232system)14DOUT1RS232linedataoutput(toremoteRS232system)15GroundConnectstothegroundofthecircuit16VccSupplyVoltage,Connecttoexternal3Vto5.5VpowersupplyMAX3232FeaturesRS-232Bus-TerminalESDProtectionExceeds15kVUsingHuman-BodyModel(HBM)MeetsorExceedstheRequirementsofTIA/EIA-232-FandITUV.28StandardsOperatesWith3-Vto5.5-VVCCSupplyOperatesupto250kbit/sTwoDriversandTwoReceiversLowSupplyCurrent:300ATypicalExternalCapacitors:40.1FAccepts5-VLogicInputWith3.3-VSupplyAlternativeHigh-SpeedTerminal-CompatibleDevices(1Mbit/s):SN65C3232(40Cto85C)/SN75C3232(0Cto70C)MAX3232ParameterManufacturer:TexasInstrumentsSeries:-Packaging:TapeReel(TR)PartStatus:ActiveType:TransceiverProtocol:RS232NumberofDrivers/Receivers:2/2Duplex:FullDataRate:250kbpsVoltage-Supply:3V~5.5VOperatingTemperature:0C~70CMountingType:SurfaceMountPackage/Case:16-SOIC(0.1543.90mmWidth)SupplierDevicePackage:16-SOICReceiverHysteresis:300mVBasePartNumber:MAX3232MAX3232SchematicMAX3232vsMAX232MAX232MAX232isasinglepowersupplylevelconversionchipfortheRS-232standardserialport.Ituses+5vsinglepowersupply.Thedeviceisidealforbattery-poweredsystemsduetoitslow-powershutdownmode,whichcanreducepowerconsumptiontolessthan5uW.TheMAX225,MAX233,MAX235,andMAX245/MAX246/MAX247donotrequireanyexternalcomponentsandareidealforapplicationswithlimitedprintedcircuitboardspace.Thereisnodifferenceinperformancebetweenthetwo.Differences:MAX232ispoweredby5Vvoltage,andmax3232ispoweredby5Vor3.3Vvoltage.ThepowerconsumptionofMAX232islarge,whenthesupplyvoltageis5V,thepowerconsumptionis5mA;whilethepowerconsumptionofMAX3232issmall,whenthesupplyvoltageis5Vor3.3V,thepowerconsumptionis0.3mA.MAX232externallyconnectedwithfour1uFcapacitors;whileMAX3232externallyconnectedwithfour0.1uFcapacitors.MAX232generalcivilianproductapplication;andMAX3232generalmilitaryuse(suchasaerospaceandotherplaceswithstrictpowerconsumptionrequirements).Thepriceisslightlydifferent.MAX3232EquivalentTheequivalentictoMAX3232isMAX232.BothICshavethesamepin-outandpackagestyle,sotheyareadirectsubstitute.ThemainimprovementinMAX3232isthatitcansupportboth3.3Vand5Vsystems,whereasthepredecessorMAX232couldonlysupport5Vsystems.Asaresult,ifyouareworkingwitha3.3Vsystem,MAX3232isabetterchoicethanMAX232becauseitavoidstheproblemoflogiclevelconversion.WheretouseMAX3232icMAX3232isaTTL/CMOStoRS232converter.Mostofourmicrocontrollers(PIC/ARM/Atmel)operateonTTL/CMOSlogic,whichmeanstheycommunicatevia0Vor+5V,whereasourcomputersuseRS232,whichoperatesatlogiclevels-24Vor+24V.So,inordertoconnectthesemicrocontrollerstoacomputer,wemustconverttheTTL/CMOSlogictoRS232logic.Asaresult,ifyourelookingforanICtoperformthisconversionandinterfaceaMicrocontrollerwithyourcomputer,thisistheone.HowtouseMAX3232icThisintegratedcircuitissimpletosetupanduse.TheICoperateson3.3V/+5V,sopowertheVccwiththerequiredvoltageandconnectthegroundpintothecircuitground.TheICalsorequiresfourcapacitors,whichcanrangeinvaluefrom1uFto22uF.TheICcanassistyouinconvertingtwologiclevels,whichmeansyoucanusetwoMicrocontrollers,buttogetstarted,wewilluseonlyoneMCUandconnectittoacomputer;thecompletecircuitisshownbelow.Becausewearenotusingthesecondmodule,thepins(T2out,R2in,T2in,R2out)areleftfree.EverymicrocontrollerthatsupportsserialcommunicationwillhaveaTxandaRxpin.ThesetwopinsshouldbeconnectedtotheT1in(pin10)andR1out(pin13)pins.ThisistheTTL/CMOSlogicinputs,andtheconverterRS232logicsignalscanbeobtainedfromR1in(pin13)andT1out(pin14).Youmaybewonderinghowa3.3V/5Vsignalisconvertedtoa+25VsignalwhentheICispoweredby3.3V/5V.Thisismadepossiblebyachargepumpmethod,whichconsistsofacapacitorthatchargesuptoprovide25V.MAX3232ApplicationBattery-PoweredSystemsPDAsNotebooksLaptopsPalmtopPCsHand-HeldEquipmentMAX3232PackageComponentDatasheetMAX3232DatasheetThisblogprovidesyouwithabasicoverviewoftheSTM32F7Series,includingitsspecifications,datasheet,frequentlyaskedquestions,etc.,tohelpyouquicklyunderstandwhatSTM32F7Seriesare.WewillbegladtofindthatthisblogcanbeusefulforSTM32F7Serieslover.CatalogSTM32F7AdvantageSTM32F7x0ValuelineSTM32F7x2STM32F7x3STM32F7x5STM32F7x6STM32F7x7STM32F7x9STM32H7ManufacturerComponentDatasheetFAQSTM32F7AdvantageSTMicroSTM32F7SeriesTheSTM32F7microcontrollersarebasedonanArmCortex-M7coreofferingfrom216MHz/462DMIPS.ThankstoanL1cache,theseriesdeliversthemaximumpossibletheoreticalperformanceoftheCortex-M7core.TheSTM32F7seriesincludesadvancedandfoundationlinesaswellastheSTM32F7x0valueline.STM32F7seriesofveryhigh-performanceMCUswithArmCortex-M7coreTakingadvantageofSTsARTAcceleratoraswellasanL1cache,STM32F7microcontrollersdeliverthemaximumtheoreticalperformanceoftheCortex-M7core,regardlessifcodeisexecutedfromembeddedFlashorexternalmemory:1082CoreMark/462DMIPSat216MHzfCPU.SmartarchitecturewithnewperipheralsetTheSTM32F7seriesunleashestheCortex-M7core:AXIandmulti-AHBbusmatrixesforinterconnectingcore,peripheralsandmemoriesUpto16Kbytes+16KbytesofI-cacheandD-cacheUpto2MbytesofembeddedFlashmemory,withRead-While-WritecapabilityoncertaindevicesTwogeneral-purposeDMAcontrollersanddedicatedDMAcontrollersforEthernet(onsomevariants),high-speedUSBOn-The-GointerfacesandtheChrom-ARTgraphicaccelerator(onsomevariants)PeripheralspeedisindependentfromCPUspeed(dualclocksupport)allowingsystemclockchangeswithoutanyimpactonperipheraloperationsEvenmoreperipherals,suchastwoserialaudiointerfaces(SAI)withSPDIFoutputsupport,threeIShalf-duplexinterfaceswithSPDIFinputsupport,twoUSBOTGinterfaceswithdedicatedpowersupplyandDual-modeQuad-SPIFlashmemoryinterfaceLargeSRAMwithascatteredarchitecture:Upto512Kbytesofuniversaldatamemory,includingupto128KbytesofTightly-CoupledMemoryforData(DTCM)fortimecriticaldatahandling(stack,heap...)16KbytesofTightly-CoupledMemoryforInstructions(ITCM)fortime-criticalroutines4KbytesofbackupSRAMtokeepdatainthelowestpowermodesProtectedcodeexecutionfeature(PC-ROP)onsomevariantsOn-chipUSBhigh-speedPHYonsomevariantsPowerefficiency7CoreMark/mWat1.8V100AtypicalcurrentconsumptioninStopmodewithallcontextandSRAMsavedCompatibilityCortex-M7isbackwardscompatiblewiththeCortex-M4instructionsetSTM32F7seriesispin-to-pincompatiblewiththeSTM32F4series**Note:seedatasheetforthespecificcaseof64-and100-pinpackagesSTM32F7SeriesAdvancedLinesSTM32F7SeriesFoundationLinesSTM32F7SeriesValueLinesSTM32F7x0ValuelineTheSTM32F730andSTM32F750ValuelinesprovidetheperformanceoftheArmCortex-M7core(withfloatingpointunit)runningatupto216MHzatalowcostbyreducingembeddedFlashtotheessentials.TheSTM32F7x0ValuelinesrepresentthelowestpricepointfortheSTM32F7Seriesever.PerformanceTheSTM32F7x0line,witha216MHzfCPU,achieves1082CoreMark/462DMIPSperformancewhenexecutingfromFlashmemory,with0-waitstatesthankstoSTsARTAccelerator.TheFPUandDSPinstructionsbroadentheaddressableapplications.BecauseoftheL1cache(I/Dupto8Kbytes+8Kbytes),externalmemorycanbeusedwithoutsacrificingperformance.PowerefficiencySTs90nmprocess,ARTAcceleratoranddynamicpowerscalingenablesthepowerconsumptioninRunmodeandexecutingfromFlashmemorytobeat7CoreMark/mWat1.8V.InStopmode,powerconsumptionistypically100A.Themaximumjunctiontemperaturesupportedisupto125C,allowingtoleveragethefullcoreandperipheralsperformanceevenwhentheambienttemperatureincreases.GraphicsTheSTM32F750lineincludesanLCD-TFTcontrollerinterfacewithdual-layersupportthattakesadvantageoftheChrom‑ARTAccelerator.Thisgraphicsacceleratorcreatescontenttwiceasfastasthecorealone.Aswellasefficient2-Drawdatacopy,additionalfunctionsaresupportedbytheChrom-ARTAcceleratorsuchasimageformatconversionorimageblending(imagemixingwithsometransparency).Asaresult,theChrom-ARTAcceleratorboostsgraphicscontentcreationandsavestheprocessingbandwidthoftheMCUcoreforotherapplications.IntegrationAudio:TwodedicatedaudioPLLs,threehalf-duplexISinterfacesandanewserialaudiointerface(SAI)supportingtime-divisionmultiplex(TDM)mode.Upto25communicationinterfaces(includingfourUSARTsinadditiontofourUARTsrunningatupto12.5Mbit/s,uptosixSPIsrunningatupto50Mbit/s,uptofourICinterfaceswithanewoptionaldigitalfiltercapability,uptotwoCAN,uptotwoSDMMC,USB2.0full-speeddevice/host/OTGcontrollerwithanoptionalon-chipPHYandaUSB2.0high-speed/full-speeddevice/host/OTGcontroller(withon-chiphigh-speedPHY),optionalSPDIF-INandoptionalHDMI-CEC.Analog:Two12-bitDACs,three12-bitADCsreaching2.4Msample/sor7.2Msample/sinInterleavedmode.Uptoeighteen16-and32-bittimersrunningatupto216MHz.Easilyextendablememoryrangeusingtheflexiblememorycontrollerwith32-bitparallelinterface,andsupportingCompactFlash,SRAM,PSRAM,NOR,NANDandSDRAMmemoriesorusingtheDual-modeQuad-SPIFlashmemoryinterfacetoallowcodeexecutionfromanexternalserialFlashmemory.Ananalogtruerandomnumbergenerator.SecurityTheSTM32F7x0linecomeswiththeproprietarycoderead-out-protectionfeatureandintegratesacryptoprocessorprovidinghardwareaccelerationforAES-128and-256encryption.TheSTM32F7x0lineintegratesacrypto/hashprocessorprovidinghardwareaccelerationforAES-128,-192and-256encryption,withsupportforGCMandCCM,TripleDES,andhash(MD5,SHA-1andSHA-2)algorithms.TheSTM32F7x0Valuelineprovides64KbytesofFlashmemoryand320KbytesofSRAMincludingupto64KbytesofTightly-CoupledMemoryforData(DTCM),16KbytesofTightly-CoupledMemoryforInstructions(ITCM),and4-KbyteBackupRAM,inLQFP64,LQFP100,LQFP144,UFBGA176-andTFBGA216pinpackages.STM32F7x2TheSTM32F7x2lineofferstheperformanceoftheCortex-M7core(withfloatingpointunit)runningupto216MHzwhilereachingsimilarlowerstaticpowerconsumption(Stopmode)versustheSTM32F427/429/437/439lines.Performance:At216MHzfCPU,theSTM32F7x2delivers1082CoreMark/462DMIPSperformanceexecutingfromFlashmemory,with0-waitstatesthankstoSTsARTAccelerator.TheFPUandDSPinstructionsenlargetherangeofaddressableapplications.ExternalmemorycanbeusedwithnoperformancepenaltythankstotheL1cache(I/D8Kbytes+8Kbytes).Powerefficiency:STs90nmprocess,ARTAcceleratoranddynamicpowerscalingenablesthepowerconsumptioninRunmodeandexecutingfromFlashmemorytobeat7CoreMark/mWat1.8V.InStopmode,powerconsumptionistypically100A.Integration:Audio:TwodedicatedaudioPLLs,threehalf-duplexISinterfacesandanewserialaudiointerface(SAI)supportingtime-divisionmultiplex(TDM)mode.Upto21communicationinterfaces(includingfourUSARTsinadditiontofourUARTsrunningatupto12.5Mbit/s,uptofiveSPIsrunningatupto50Mbit/s,threeICinterfaceswithanewoptionaldigitalfiltercapability,oneCAN,twoSDIO,USB2.0full-speeddevice/host/OTGcontrollerwithon-chipPHY.USB2.0high-speed/full-speeddevice/host/OTGcontrollerwithdedicatedDMA(withon-chipfull-speedPHYandULPI).Analog:Two12-bitDACs,three12-bitADCsreaching2.4Msample/sor7.2Msample/sinInterleavedmode.Uptoeighteen16-and32-bittimersrunningatupto216MHz.Easilyextendablememoryrangeusingtheflexiblememorycontroller(onpackageswiththan100pins)with32-bitparallelinterface,andsupportingCompactFlash,SRAM,PSRAM,NOR,NANDandSDRAMmemoriesorusingtheDual-modeQuad-SPIFlashmemoryinterfacetoallowcodeexecutionfromexternalserialFlashmemory.Ananalogtruerandomnumbergenerator.TheSTM32F7x2linecomeswiththeproprietarycodeRead-out-protectionfeatureTheSTM32F7x2lineprovidesvariantsfrom256to512KbytesofFlashmemoryandupto256KbytesofSRAMincludingupto64KbytesofTightly-CoupledMemoryforData(DTCM),16KbytesofTightly-CoupledMemoryforInstructions(ITCM),and4KbytesofBackupRAM,in64-to176-pinpackages.STM32F7x3TheSTM32F7x3lineofferstheperformanceoftheCortex-M7core(withfloatingpointunit)runningupto216MHzwhilereachingsimilarlowerstaticpowerconsumption(Stopmode)versustheSTM32F427/429/437/439lines.Performance:At216MHzfCPU,theSTM32F7x3delivers1082CoreMark/462DMIPSperformanceexecutingfromFlashmemory,with0-waitstatesthankstoSTsARTAccelerator.TheFPUandDSPinstructionsenlargetherangeofaddressableapplications.ExternalmemorycanbeusedwithnoperformancepenaltythankstotheL1cache(I/D8Kbytes+8Kbytes).Powerefficiency:STs90nmprocess,ARTAcceleratoranddynamicpowerscalingenablesthepowerconsumptioninRunmodeandexecutingfromFlashmemorytobeat7CoreMark/mWat1.8V.InStopmode,powerconsumptionistypically100A.Integration:Audio:TwodedicatedaudioPLLs,threehalf-duplexISinterfacesandanewserialaudiointerface(SAI)supportingtime-divisionmultiplex(TDM)mode.Upto21communicationinterfaces(includingfourUSARTsinadditiontofourUARTsrunningatupto12.5Mbit/s,uptofiveSPIsrunningatupto50Mbit/s,threeICinterfaceswithanewoptionaldigitalfiltercapability,oneCAN,twoSDIO,USB2.0full-speeddevice/host/OTGcontrollerwithanon-chipPHYandaUSB2.0high-speed/full-speeddevice/host/OTGcontroller(withon-chiphigh-speedPHY).Analog:Two12-bitDACs,three12-bitADCsreaching2.4Msample/sor7.2Msample/sinInterleavedmode.Uptoeighteen16-and32-bittimersrunningatupto216MHz.Easilyextendablememoryrangeusingtheflexiblememorycontrollerwith32-bitparallelinterface,andsupportingCompactFlash,SRAM,PSRAM,NOR,NANDandSDRAMmemoriesorusingtheDual-modeQuad-SPIFlashmemoryinterfacetoallowcodeexecutionfromexternalserialFlashmemory.Ananalogtruerandomnumbergenerator.TheSTM32F7x3linecomeswiththeproprietarycodeRead-out-protectionfeatureTheSTM32F7x3lineprovidesvariantsfrom256to512KbytesofFlashmemoryandupto256KbytesofSRAMincludingupto64KbytesofTightly-CoupledMemoryforData(DTCM),16KbytesofTightly-CoupledMemoryforInstructions(ITCM),and4-KbyteBackupRAM,in100-to176-pinpackages.STM32F7x5TheSTM32F745lineofferstheperformanceoftheCortex-M7core(withfloatingpointunit)runningupto216MHzwhilereachingsimilarlowerstaticpowerconsumption(Stopmode)versustheSTM32F427/429/437/439lines.Performance:At216MHzfCPU,theSTM32F745delivers1082CoreMark/462DMIPSperformanceexecutingfromFlashmemory,with0-waitstatesthankstoSTsARTAccelerator.TheDSPinstructionsandthefloatingpointunitenlargetherangeofaddressableapplications.ExternalmemorycanbeusedwithnoperformancepenaltythankstotheL1cache(I/D4Kbytes+4Kbytes).Powerefficiency:STs90nmprocess,ARTAcceleratoranddynamicpowerscalingenablesthepowerconsumptioninRunmodeandexecutingfromFlashmemorytobeat7CoreMark/mWat1.8V.InStopmode,powerconsumptionistypically100A,whichissimilartotheSTM32F427/429/437/439lines.Graphics:AscomparedtotheSTM32F746/756lines,theSTM32F745doesntembedtheLCD-TFTcontrollerinterface.However,theSTM32F745embedstheChrom‑ARTAccelerator.Thisgraphicsacceleratorperformscontentcreationtwiceasfastasthecorealone.Aswellasefficient2-Drawdatacopy,additionalfunctionsaresupportedbytheChrom-ARTAcceleratorsuchasimageformatconversionorimageblending(imagemixingwithsometransparency).Asaresult,theChrom-ARTAcceleratorboostsgraphicscontentcreationandsavestheprocessingbandwidthoftheMCUcorefortherestoftheapplication.TheSTM32F745canthenbeusedtodrivedisplaysusingastandardserialinterface.Integration:Audio:TwodedicatedaudioPLLs,threehalf-duplexISinterfacesandanewserialaudiointerface(SAI)supportingtime-divisionmultiplex(TDM)mode.Upto25communicationinterfaces(includingfourUSARTsinadditiontofourUARTsrunningatupto12.5Mbit/s,sixSPIsrunningatupto50Mbit/s,fourICinterfaceswithanewoptionaldigitalfiltercapability,twoCAN,SDIO,USB2.0full-speeddevice/host/OTGcontrollerwithanon-chipPHYandaUSB2.0high-speed/full-speeddevice/host/OTGcontroller,on-chipfull-speedPHYandULPI,EthernetMAC,SPDIF-INandHDMI-CEC).Analog:Two12-bitDACs,three12-bitADCsreaching2.4MSPSor7.2MSPSinInterleavedmode.Upto18timers:16-and32-bitrunningatupto216MHz.Easilyextendablememoryrangeusingtheflexiblememorycontrollerwith32-bitparallelinterface,andsupportingCompactFlash,SRAM,PSRAM,NOR,NANDandSDRAMmemoriesorusingtheDual-modeQuad-SPItoallowcodeexecutionfromexternalserialFlashmemory.Ananalogtruerandomnumbergenerator.TheSTM32F745lineprovidesfrom512Kbytesto1MbyteofFlashmemory,320-KbyteSRAM,16-KbyteITCMRAM,4-KbyteBackupRAMand100-to176-pinpackages.STM32F7x6TheSTM32F746/756linesoffertheperformanceoftheCortex-M7core(withfloatingpointunit)runningupto216MHzwhilereachingsimilarlowerstaticpowerconsumption(Stopmode)versustheSTM32F427/429/437/439lines.Performance:At216MHzfCPU,theSTM32F746/756linesdeliver1082CoreMark/462DMIPSperformanceexecutingfromFlashmemory,with0-waitstatesthankstoSTsARTAccelerator.TheDSPinstructionsandthefloatingpointunitenlargetherangeofaddressableapplications.ExternalmemorycanbeusedwithnoperformancepenaltythankstotheL1cache(I/D4Kbytes+4Kbytes).Powerefficiency:STs90nmprocess,ARTAcceleratoranddynamicpowerscalingenablesthepowerconsumptioninRunmodeandexecutingfromFlashmemorytobeat7CoreMark/mWat1.8V.InStopmode,powerconsumptionistypically100A,whichissimilartotheSTM32F427/429/437/439lines.Graphics:ThenewLCD-TFTcontrollerinterfacewithdual-layersupporttakesadvantageoftheChrom‑ARTAccelerator.Thisgraphicsacceleratorcreatescontenttwiceasfastasthecorealone.Aswellasefficient2-Drawdatacopy,additionalfunctionsaresupportedbytheChrom-ARTAcceleratorsuchasimageformatconversionorimageblending(imagemixingwithsometransparency).Asaresult,theChrom-ARTAcceleratorboostsgraphicscontentcreationandsavestheprocessingbandwidthoftheMCUcorefortherestoftheapplication.Integration:Audio:TwodedicatedaudioPLLs,threehalf-duplexISinterfacesandanewserialaudiointerface(SAI)supportingtime-divisionmultiplex(TDM)mode.Upto25communicationinterfaces(includingfourUSARTsinadditiontofourUARTsrunningatupto12.5Mbit/s,sixSPIsrunningatupto50Mbit/s,fourICinterfaceswithanewoptionaldigitalfiltercapability,twoCAN,SDIO,USB2.0full-speeddevice/host/OTGcontrollerwithanon-chipPHYandaUSB2.0high-speed/full-speeddevice/host/OTGcontroller,on-chipfull-speedPHYandULPI,EthernetMAC,SPDIF-INandHDMI-CEC).Analog:Two12-bitDACs,three12-bitADCsreaching2.4MSPSor7.2MSPSinInterleavedmode.Upto18timers:16-and32-bitrunningatupto216MHz.Easilyextendablememoryrangeusingtheflexiblememorycontrollerwith32-bitparallelinterface,andsupportingCompactFlash,SRAM,PSRAM,NOR,NANDandSDRAMmemoriesorusingtheDual-modeQuadSPItoallowcodeexecutionfromexternalserialFlashmemory.Ananalogtruerandomnumbergenerator.TheSTM32F756lineintegratesacrypto/hashprocessorprovidinghardwareaccelerationforAES-128,-192and-256encryption,withsupportforGCMandCCM,TripleDES,andhash(MD5,SHA-1andSHA-2)algorithms.TheSTM32F746andSTM32F756portfolioprovidesfrom512Kbytesto1MbyteofFlashmemory,320-KbyteSRAM,16-KbyteITCMRAM,4-KbyteBackupRAMand100-to216-pinpackagesassmallas4.5x5.5mminaCSPformfactor.STM32F7x7TheSTM32F767/777linesoffertheperformanceoftheCortex-M7core(withdouble-precisionfloatingpointunit)runningupto216MHzwhilereachingsimilarlowerstaticpowerconsumption(Stopmode)versustheSTM32F427/429/437/439lines.Performance:At216MHzfCPU,theSTM32F767/777linesdeliver1082CoreMark/462DMIPSperformanceexecutingfromFlashmemory,with0-waitstatesthankstoSTsARTAccelerator.TheDSPinstructionsandthefloatingpointunitenlargetherangeofaddressableapplications.ExternalmemorycanbeusedwithnoperformancepenaltythankstotheL1cache(I/D16Kbytes+16Kbytes).Powerefficiency:STs90nmprocess,ARTAcceleratoranddynamicpowerscalingenablesthepowerconsumptioninRunmodeandexecutingfromFlashmemorytobeat7CoreMark/mWat1.8V.InStopmode,powerconsumptionistypically100A,whichissimilartotheSTM32F427/429/437/439lines.Graphics:ThenewLCD-TFTcontrollerinterfacewithdual-layersupporttakesadvantageoftheChrom‑ARTAccelerator.Thisgraphicsacceleratorcreatescontenttwiceasfastasthecorealone.Aswellasefficient2-Drawdatacopy,additionalfunctionsaresupportedbytheChrom-ARTAcceleratorsuchasimageformatconversionorimageblending(imagemixingwithsometransparency).Asaresult,theChrom-ARTAcceleratorboostsgraphicscontentcreationandsavestheprocessingbandwidthoftheMCUcorefortherestoftheapplication.InadditiontheSTM32F767/777linesembedaJPEGhardwareacceleratorforfastJPEGencodinganddecodingoff-loadingtheCPUwhichremainsavailableforothertasks.Integration:Audio:TwodedicatedaudioPLLs,threehalf-duplexISinterfaces,anewserialaudiointerface(SAI)supportingtime-divisionmultiplex(TDM)modeandaDFSDM(Digitalfiltersforsigma-deltamodulatorsorMEMSmicrophone)Upto28communicationinterfacesincludingfourUSARTsinadditiontofourUARTsrunningatupto12.5Mbit/s,sixSPIsrunningatupto50Mbit/s,fourICinterfaceswithanewoptionaldigitalfiltercapability,threeCAN,twoSDIO,USB2.0full-speeddevice/host/OTGcontrollerwithanon-chipPHYandaUSB2.0high-speed/full-speeddevice/host/OTGcontroller,on-chipfull-speedPHYandULPI,EthernetMAC,SPDIF-IN,HDMI-CEC,andMDIOslave.Analog:Two12-bitDACs,three12-bitADCsreaching2.4or7.2MSPSinInterleavedmode.Upto18timers:16-and32-bitrunningatupto216MHz.Easilyextendablememoryrangeusingtheflexiblememorycontrollerwith32-bitparallelinterface,andsupportingCompactFlash,SRAM,PSRAM,NOR,NANDandSDRAMmemoriesorusingtheDual-modeQuad-SPItoallowcodeexecutionfromexternalserialFlashmemory.Ananalogtruerandomnumbergenerator.TheSTM32F777lineintegratesacrypto/hashprocessorprovidinghardwareaccelerationforAES-128,-192and-256encryption,withsupportforGCMandCCM,TripleDES,andhash(MD5,SHA-1andSHA-2)algorithms.TheSTM32F767andSTM32F777portfolioprovidesfrom1to2MbytesofFlashmemory,512-KbyteSRAMincludingupto128KbytesofTightly-CoupledMemoryforData(DTCM),16-KbyteITCMRAM,4-KbyteBackupRAMand100-to216-pinpackages.STM32F7x9TheSTM32F769/779linesoffertheperformanceoftheCortex-M7core(withdoubleprecisionfloatingpointunit)runningupto216MHzwhilereachingsimilarlowerstaticpowerconsumption(Stopmode)versustheSTM32F427/429/437/439lines.Performance:At216MHzfCPU,theSTM32F769/779linesdeliver1082CoreMark/462DMIPSperformanceexecutingfromFlashmemory,with0-waitstatesthankstoSTsARTAccelerator.TheDSPinstructionsandthefloatingpointunitenlargetherangeofaddressableapplications.ExternalmemorycanbeusedwithnoperformancepenaltythankstotheL1cache(I/D16Kbytes+16Kbytes).Powerefficiency:STs90nmprocess,ARTAcceleratoranddynamicpowerscalingenablesthepowerconsumptioninRunmodeandexecutingfromFlashmemorytobeat7CoreMark/mWat1.8V.InStopmode,powerconsumptionistypically100A,whichissimilartotheSTM32F427/429/437/439lines.Graphics:ThenewLCD-TFTcontrollerinterfacewithdual-layersupporttakesadvantageoftheChrom‑ARTAccelerator.Thisgraphicsacceleratorcreatescontenttwiceasfastasthecorealone.Aswellasefficient2-Drawdatacopy,additionalfunctionsaresupportedbytheChrom-ARTAcceleratorsuchasimageformatconversionorimageblending(imagemixingwithsometransparency).Asaresult,theChrom-ARTAcceleratorboostsgraphicscontentcreationandsavestheprocessingbandwidthoftheMCUcorefortherestoftheapplication.TheSTM32F769/779linesembedaJPEGhardwareacceleratorforfastJPEGencodinganddecodingoff-loadingtheCPUwhichremainsavailableforothertasks.TheSTM32F769/779linesalsoembedaMIPI-DSIinterfaceallowingthedriveofDSIdisplaytechnologywhicharecommonlyfoundinthemobilemarket.Integration:Audio:TwodedicatedaudioPLLs,threehalf-duplexISinterfaces,anewserialaudiointerface(SAI)supportingtime-divisionmultiplex(TDM)modeandaDFSDM(Digitalfiltersforsigma-deltamodulatorsorMemsMicrophone)Upto28communicationinterfacesincludingfourUSARTsinadditiontofourUARTsrunningatupto12.5Mbit/s,sixSPIsrunningatupto50Mbit/s,fourICinterfaceswithanewoptionaldigitalfiltercapability,threeCAN,twoSDIO,USB2.0full-speeddevice/host/OTGcontrollerwithanon-chipPHYandaUSB2.0high-speed/full-speeddevice/host/OTGcontroller,on-chipfull-speedPHYandULPI,EthernetMAC,SPDIF-IN,HDMI-CEC,MDIOslave.Analog:Two12-bitDACs,three12-bitADCsreaching2.4MSPSor7.2MSPSinInterleavedmode.Upto18timers:16-and32-bitrunningatupto216MHz.Easilyextendablememoryrangeusingtheflexiblememorycontrollerwith32-bitparallelinterface,andsupportingCompactFlash,SRAM,PSRAM,NOR,NANDandSDRAMmemoriesorusingtheDual-modeQuad-SPItoallowcodeexecutionfromexternalserialFlashmemory.Ananalogtruerandomnumbergenerator.TheSTM32F779lineintegratesacrypto/hashprocessorprovidinghardwareaccelerationforAES-128,-192and-256encryption,withsupportforGCMandCCM,TripleDES,andhash(MD5,SHA-1andSHA-2)algorithms.TheSTM32F769andSTM32F779portfolioprovidesfrom1Mbyteto2MbyteofFlashmemory,512-KbyteSRAMincludingupto128KbytesofTightly-CoupledMemoryforData(DTCM),16-KbyteITCMRAM,4-KbyteBackupRAMand100-to216-pinpackagesincludingaWLCSP*formfactorassmallas5.6x6.1mm.Note:*whiletheregulatorofffeatureisavailableintheSTM32F7x9LQFPandBGApackagevariantsuponactivationviaadedicatedinput,thefeatureisnotavailableonstandardWLCSPproductvariants.However,twospecificWLCSPregulatoroffdevicesareavailable,STM32F778(withcrypto/hashaccelerator)andSTM32F768(withoutcrypto/hashaccelerator),operatingat180MHzmaximumCPUfrequency.STM32H7ManufacturerSTMicroelectronicsisaSwiss-domiciledmultinationalelectronicsandsemiconductormanufacturerheadquarteredinGeneva,Switzerland.STMicroelectronicsisaworldleaderinprovidingthesemiconductorsolutionsthatmakeapositivecontributiontopeopleslives,todayandintothefuture.ComponentDatasheetSTM32F7DatasheetFAQWhyisSTM32SoPopular?TheSTM32seriesofmicrocontrollersfromSTMicroelectronicsisapopular,andverylarge,familyofARM-based32-bitmicrocontrollers....WhiletheSTM32microcontrollersarequiteversatileandhighlyconfigurable,itisthisveryfactthatmakesthemhardtoinitialize.WhereisSTM32Used?TherearevarioustypesandvarietiesofSTM32MicrocontrollersavailableandtheybelongtotheARM-architecturefamilyofMicrocontrollers.Thesemicrocontrollersareusedinavarietyofapplications,fromsimpleprinterstocomplexcircuitboardsinvehicles.HowDoIStartSTM32?GettingstartedwithSTM32step-by-stepStep1:Pre-requisites:Inthispart,usermustinstallallrequiredsoftwaretoolsandmakesureithasboardforfurtherdevelopment.Step2:LEDblinkingusingSTM32CubeMxandNUCLEO-L476RGdevelopmentboard.Step3:UARTinterfaceonNUCLEO-L476RGandL475IoTNodeDiscoveryboard.

A1N4001isadiodeof1N400xseries,alldiodesofthisseriesarewidelyusedinelectronicdevices.The1N4001diodeismanufacturedwithgoodspecifications,suchas1Aupstreamcurrent,3Wpowerdissipation,smallinsizewithlowprice,whichmakesitidealforawidevarietyofelectronicapplications.HowtouseaDiode(1N4001example)?Catalog1N4001Pinout1N4001CADModel1N4001Parameters1N4001Alternatives1N4001Advantage1N4001Features1N4001Application1N4001DocumentsMedia1N4001MechanicalCharacteristics1N4001EnvironmentalandExportClassifications1N4001AmbientMountingData1N4001Package1N4001MeaningProductManufacturerComponentDatasheetFAQ1N4001Pinout1N4001diodehasacathode(-)andanode(+).Intheschematicsymbol,thetipofthetrianglewiththelineontopofitisthecathode.DiodepolarityCurrentcanflowfromtheanodetothecathodeonlyandneverfromthecathodetotheanode-1N4001diodeislikeaone-wayvalve.PinNo.PinNameDescription1AnodeCurrentalwaysEntersthroughAnode2CathodeCurrentalwaysExitsthroughCathode1N4001CADModel1N4001Symbol1N4001Footprint1N40013DModel1N4001ParametersAverageRectifiedCurrent1ABrandONSemiconductorCapacitance15pFConfigurationSingleContactPlatingTin,MatteCurrentRating1ADiameter2.72mmElementConfigurationSingleForwardCurrent1AForwardVoltage1.1VHeight5.2mmIf-ForwardCurrent1AIr-ReverseCurrent10uALeadFreeLeadFreeLength5.2mmManufacturerONSemiconductorMaxOperatingTemperature175CMaxReverseCurrent5uAMaxReverseVoltage(DC)50VMaxSurgeCurrent30AMaximumOperatingTemperature+175CMountThroughHoleNumberofPins2OutputCurrent1APackage/CaseDO-41-2PolarityStandardPowerDissipation3WREACHSVHCNoSVHCReverseVoltage50VRoHSNSubcategoryDiodesRectifiersTerminationStyleThroughHoleTypeStandardRecoveryRectifiersUnitWeight0.010935ozVf-ForwardVoltage1.1VVoltageRating(DC)50VVr-ReverseVoltage50VWeight0.245g1N4001AlternativesManufacturerManufacturerPartNo.Diodes1N4002-TDiodes1N4002G-TONSemiconductor1N4002GDiodesZetex1N4002-BVishaySemiconductors1N4002E-E3/73VishaySemiconductors1N4002-E3/54VishaySemiconductors1N4002-E3/73VishaySemiconductors1N4002E-E3/54VishaySemiconductors1N4002E-E3/53VishaySemiconductors1N4002-E3/531N4001Advantage1N4001DiodeAdiodeisadevicewhichallowscurrentflowthroughonlyonedirection.ThatisthecurrentshouldalwaysflowfromtheAnodetocathode.Thecathodeterminalcanbeidentifiedbyusingagreybarasshowninthepictureabove.For1N4001Diode,themaximumcurrentcarryingcapacityis1Aitwithstandpeaksupto30A.Hencewecanusethisincircuitsthataredesignedforlessthan1A.Thereversecurrentis5uAwhichisnegligible.Itcanwithstandreversevoltagepeakupto50V.1N4001FeaturesAverageforwardcurrentis1ANon-repetitivepeakcurrentis30AReversecurrentis5uA.RMSreversevoltageis35VPeakrepetitiveReversevoltageis50VAvailableinDO-41Package1N4001ApplicationCanbeusedtopreventreversepolarityproblemHalfWaveandFullWaverectifiersUsedasaprotectiondeviceCurrentflowregulators1N4001DocumentsMediaResourceTypeLinkEnvironmentalInformationMaterialDeclaration1N4001PCNObsolescence/EOLMultipleDevices19/Jun/2009PCNPartStatusChangeStatusChg22/Feb/2017HTMLDatasheet1N4001-4007Datasheet1N4001MechanicalCharacteristicsCase:Epoxy,MoldedWeight:0.4gram(approximately)Finish:AllExternalSurfacesCorrosionResistantandTerminalLeadsareReadilySolderableLeadandMountingSurfaceTemperatureforSolderingPurposes:260CMax.for10Seconds,1/16in.fromcasePolarity:CathodeIndicatedbyPolarityBand1N4001EnvironmentalandExportClassificationsAttributeDescriptionMoistureSensitivityLevel(MSL)1(Unlimited)1N4001AmbientMountingDataDatashownforthermalresistance,junctiontoambient(RJA)forthemountingsshownistobeusedastypicalguidelinevaluesforpreliminaryengineeringorincasethetiepointtemperaturecannotbemeasured.1N4001Package1N4001Meaning1N4001seriesdiodesare1Amperecurrenthandlinggeneralpurposerectifierdiode.1NisstandsforAmericanstandardsemiconductor(Genericname)withONEJUNCTION.400XSerieslike4001,4002to4007isindicatesthevoltage,currentandpowerratingofthediodes.1N=MeansOneJunctionbetweenP-typeandN-Type.400=MeansSerialnumberoftherectifier.1=MeansDefinesits(1A)currentrating.ProductManufacturerONSemiconductor(Nasdaq:ON)isaFortune500companydrivingenergyefficientinnovations,empoweringcustomerstoreduceglobalenergyuse.Thecompanyisaleadingsupplierofsemiconductor-basedsolutions,offeringacomprehensiveportfolioofenergyefficientpowerandsignalmanagement,logic,standardandcustomdevices.Thecompanysproductshelpengineerssolvetheiruniquedesignchallengesinautomotive,communications,computing,consumer,industrial,medicalandmilitary/aerospaceapplications.ONSemiconductoroperatesaresponsive,reliable,world-classsupplychainandqualityprogram,andanetworkofmanufacturingfacilities,salesofficesanddesigncentersinkeymarketsthroughoutNorthAmerica,Europe,andtheAsiaPacificregions.ns.ComponentDatasheet1N4001DatasheetFAQWhatis1N4001diodeusedfor?The1N400x(or1N4001or1N4000)seriesisafamilyofpopularone-amperegeneral-purposesiliconrectifierdiodescommonlyusedinACadaptersforcommonhouseholdappliances.Itsblockingvoltagevariesfrom50volts(1N4001)to1000volts(1N4007).Whatisthedifferencebetween1N4001and1N4007diodes?Differencesare:PeakRepetitiveReverseVoltageof1N4001is50Vwhilethatof1N4007is1000V.RMSReverseVoltageof1N4001is35Vwhilethatof1N4007is700V.TypicalJunctionCapacitanceof1N4001is15pFwhilethatof1N4007is8pF.Whatispurposeofadiode?Itallowscurrenttofloweasilyinonedirection,butseverelyrestrictscurrentfromflowingintheoppositedirection.Diodesarealsoknownasrectifiersbecausetheychangealternatingcurrent(ac)intopulsatingdirectcurrent(dc).Diodesareratedaccordingtotheirtype,voltage,andcurrentcapacity.ADS1115isa16-bitADCconverterwithIICinterfaceintroducedbyTexasInstruments.Ithasanultra-smallX2QFNorVSSOPpackage,lowpowerconsumption(20uA),widevoltageinput2.0V-5.5V,programmabledataconversionrate8SPS-860SPS,foursingle-endedinputsortwodifferentialinputs.Itcanbeusedinbatteryvoltageandcurrentdetection,low-speedportablemeters,andtemperaturemeasurementsystems.ThisblogprovidesyouwithabasicoverviewoftheADS1115ADCs,includingitspindescriptions,functionsandspecifications,alternativeproducts,etc.,tohelpyouquicklyunderstandwhatADS1115is.Wewillbegladtofindthatthisblogcanbeusefulforpeoplelovingelectroniccomponents;)ADS111516BitADCModulewithArduinoCatalogADS1115PinoutADS1115FeatureADS1115AdvantageADS1115SimplifiedBlockDiagramsADS1115CAD/CAESymbolsADS1115SpecificationADS1115CircuitADS1115FunctionalBlockDiagramsADS1115PackageComponentDatasheetFAQADS1115PinoutPinNo.PinNameDescription1ADDRI2Cslaveaddressselect2ALERT/DRYComparatoroutputorconversionready3GNDGround4AIN0Analoginput05AIN1Analoginput16AIN2Analoginput27AIN3Analoginput38VDDPowersupply.Connecta0.1-F,power-supplydecouplingcapacitortoGND.9SDASerialdata.Transmitsandreceivesdata10SCLSerialclockinput.locksdataonSDAADS1115FeatureUltra-SmallX2QFNPackage:2mm1.5mm0.4mmWideSupplyRange:2.0Vto5.5VLowCurrentConsumption:150A(Continuous-ConversionMode)ProgrammableDataRate:8SPSto860SPSSingle-CycleSettlingInternalLow-DriftVoltageReferenceInternalOscillatorI2CInterface:FourPin-SelectableAddressesFourSingle-EndedorTwoDifferentialInputsProgrammableComparatorOperatingTemperatureRange:40Cto+125CADS1115AdvantageTheADS1115isanAnalogtoDigital(ADC)devicethatisdrivenbythei2CProtocol.TheADS1115isaprecisionanalogtodigitalconverterwith16bitsofresolutioninanultra-smallleadless(QFN)andonanMSPO-10package.TheADS1115isdesignedwithprecision,power,andsimplicityinmind.Thisdeviceincludesanon-boardreferenceandoscillator.Datawillbecommunicatedviaani2Cserialinterface,andfourslavescanbeconnectedbasedoni2caddressselection.Thesedevicesoperateonavoltagerangeof2.0vto5.5v.ADS1115SimplifiedBlockDiagramsADS1115CAD/CAESymbolsPackagePinsDownloadVSSOP(DGS)10ViewoptionsX2QFN(RUG)10ViewoptionsADS1115SpecificationResolution(Bits)16Numberofinputchannels4Samplerate(Max)(kSPS)0.86InterfacetypeI2CArchitectureDelta-SigmaInputtypeDifferential,Single-EndedMulti-channelconfigurationMultiplexedRatingCatalogReferencemodeIntInputrange(Max)(V)5.5Inputrange(Min)(V)0FeaturesComparator,Oscillator,PGAOperatingtemperaturerange(C)-40to125Powerconsumption(Typ)(mW)0.3AnalogvoltageAVDD(Min)(V)2AnalogvoltageAVDD(Max)(V)5.5INL(Max)(+/-LSB)1Digitalsupply(Min)(V)2Digitalsupply(Max)(V)5.5ADS1115CircuitLow-SideCurrentShuntMonitoringADS1115FunctionalBlockDiagramsADS1115PackageVSSOP(DGS)X2QFN(RUG)ComponentDatasheetADS1115DatasheetFAQWhatisADS1115?TheADS1115isaprecise16bitADCwithfourmultiplexedinputs-Youcanuseeachinputonitsown,orinpairsfordifferentialmeasurements....Italsocovershowthedeviceisabletomeasurenegativevoltageeventhoughitonlyoperatesusingasinglesupply.WhatisADS1115ADC?TheADS1115isanexternaldigitalanalogconverter(ADC)thatwecanconnecttoaprocessorlikeArduinotomeasureanalogsignals....TheADS1115provides416-bitADCs,15forthemeasurementandonelastforthesign.TheADS1115isconnectedbyI2C,soitiseasytoread.Whatis16bitADC?Analog-to-DigitalConverters(ADCs)transformananalogvoltagetoabinarynumber(aseriesof1sand0s),andtheneventuallytoadigitalnumber(base10)forreadingonameter,monitor,orchart....Similarly,forthesame0to10VDCrange,a16-bitADCresolutionis10/216=10/65,536=0.153mV.

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