stressingwww.dm8.cc

CC2642R-Q1SimpleLinkBluetooth5.
1LowEnergyWirelessMCU1FeaturesQualifiedforautomotiveapplicationsgAEC-Q100qualifiedwiththefollowingresults:–Devicetemperaturegrade2:–40°Cto+105°Cambientoperatingtemperaturerange–DeviceHBMESDClassificationLevel2–DeviceCDMESDClassificationLevelC3Microcontroller–Powerful48-MHzArmCortex-M4Fprocessor–EEMBCCoreMarkscore:148–Clockspeedupto48MHz–352KBofin-systemProgrammableFlash–256KBofROMforprotocolsandlibraryfunctions–8KBofcacheSRAM–80KBofultra-lowleakageSRAM.
TheSRAMisprotectedbyparitytoensurehighreliabilityofoperation.
–2-pincJTAGandJTAGdebugging–SupportsOver-the-Airupgrade(OTA)RoHS-compliantpackage–7-mmx7-mmVQFN48withwettableflanksRadiosection–2.
4GHzRFtransceivercompatiblewithBluetooth5.
1lowenergyandearlierspecifications–Excellentreceiversensitivity:–105dBmforBluetooth125-kbps(LEcodedPHY)–97dBmfor1-MbpsPHY–Outputpowerupto+5dBmwithtemperaturecompensation–Suitableforsystemstargetingcompliancewithworldwideradiofrequencyregulations:EN300328(Europe)EN300440Category2(Europe)FCCCFR47Part15(US)ARIBSTD-T66(Japan)Lowpower–Widesupplyvoltagerange:1.
8Vto3.
63V–ActivemodeRX:6.
9mA–ActivemodeTX0dBm:7.
3mA–ActivemodeTX5dBm:9.
6mA–ActivemodeMCU48MHz(CoreMark):3.
4mA(71μA/MHz)–Sensorcontroller,low-powermode,2MHz,runninginfiniteloop:31.
9μA–Sensorcontroller,activemode,24MHz,runninginfiniteloop:808.
5μA–Standby:0.
94A(RTCon,80KBRAMandCPUretention)–Shutdown:150nA(wakeuponexternalevents)Peripherals–31GPIOs,digitalperipheralscanberoutedtoanyGPIO–4*32-bitor8*16-bitgeneral-purposetimers–12-bitADC,200kSamples/s,8channels–2*comparatorswithinternalreferenceDAC(1*continuoustime,1*ultra-lowpower)–Programmablecurrentsource–2*UART–2*SSI(SPI,MICROWIRE,TI)–I2C–I2S–Real-timeclock(RTC)–AES128-bitand256-bitcryptoaccelerator–ECCandRSApublickeyhardwareaccelerator–SHA2accelerator(fullsuiteuptoSHA-512)–Truerandomnumbergenerator(TRNG)–Capacitivesensing,upto8channels–IntegratedtemperatureandbatterymonitorExternalsystem–On-chipbuckDC/DCconverterUltra-lowpowersensorcontrollerwith4KBofSRAM–OperationindependentfromsystemCPU–Sample,store,andprocesssensordata–Fastwake-upforlow-poweroperationTI-RTOS,drivers,bootloader,Bluetooth5.
1LowEnergycontrollerinROMforoptimizedapplicationsizeDevelopmentToolsandSoftware–CC26x2R1LaunchPadDevelopmentKit–SimpleLinkCC13x2andCC26x2SoftwareDevelopmentKit(SDK)–SmartRFStudioforsimpleradioconfiguration–SensorControllerStudioforbuildinglow-powersensingapplications–AutomotiveBluetoothLowEnergycaraccesssatellitenodereferencedesign–BluetoothAngleofArrival(AoA)AntennaDesignApplicationReport2ApplicationsAutomotivewww.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback1CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020AnIMPORTANTNOTICEattheendofthisdatasheetaddressesavailability,warranty,changes,useinsafety-criticalapplications,intellectualpropertymattersandotherimportantdisclaimers.
PRODUCTIONDATA.
–CaraccessandsecuritysystemsPassiveentrypassivestart(PEPS)Phoneasakey(PaaK)Remotekeylessentry(RKE)–Batterymanagementsystem(BMS)–Advanceddriverassistancesystems(ADAS)–Telematicscontrolunit(TCU)HeadunitIndustrial–Industrialtransport-assettracking–Factoryautomationandcontrol3DescriptionTheSimpleLinkCC2642R-Q1deviceisanAEC-Q100compliantwirelessmicrocontroller(MCU)targetingBluetooth5LowEnergyautomotiveapplications.
Thedeviceisoptimizedforlow-powerwirelesscommunicationinapplicationssuchascaraccessincludingpassiveentrypassivestart(PEPS)andremotekeylessentry(RKE),batterymanagementsystems(BMS),carsharing,pilotedparking,cablereplacement,andsmartphoneconnectivity.
Thehighlightedfeaturesofthisdeviceinclude:SupportforBluetooth5.
1features:LECodedPHYs(LongRange),LE2-MbitPHY(HighSpeed),AdvertisingExtensions,MultipleAdvertisementSets,CSA#2,aswellasbackwardscompatibilityandsupportforkeyfeaturesfromtheBluetooth5andearlierLowEnergyspecifications.
Fully-qualifiedBluetooth5.
1softwareprotocolstackincludedwiththeSimpleLinkCC13x2andCC26x2SoftwareDevelopmentKit(SDK),whichenablesAngleofArrival(AoA).
Longerbatterylifewirelessapplicationswithlowstandbycurrentof0.
94AwithfullRAMretention.
AEC-Q100qualifiedattheGrade2temperaturerange(–40°Cto+105°C)andisofferedina7-mmx7-mmVQFNpackagewithwettableflanks.
Dedicatedsoftwarecontrolledradiocontroller(ArmCortex-M0)providingflexiblelow-powerRFtransceivercapabilitytosupportmultiplephysicallayersandRFstandards,suchasreal-timelocalization(RTLS)technologies.
Excellentradiosensitivityandrobustness(selectivityandblocking)performanceforBluetoothLowEnergy(-105dBmfor125-kbpsLECodedPHY).
TheCC2642R-Q1deviceispartoftheSimpleLinkMCUplatform,whichconsistsofWi-Fi,BluetoothLowEnergy,Thread,Zigbee,Sub-1GHzMCUs,andhostMCUsthatallshareacommon,easy-to-usedevelopmentenvironmentwithasinglecoresoftwaredevelopmentkit(SDK)andrichtoolset.
Aone-timeintegrationoftheSimpleLinkplatformenablesyoutoaddanycombinationoftheportfolio'sdevicesintoyourdesign,allowing100percentcodereusewhenyourdesignrequirementschange.
Formoreinformation,visitSimpleLinkMCUplatform.
DeviceInformation(1)PARTNUMBERPACKAGEBODYSIZE(NOM)CC2642R1TWFRTCQ1VQFN(48)7.
00mm*7.
00mm(1)Forthemostcurrentpart,package,andorderinginformationforallavailabledevices,seethePackageOptionAddenduminSection12,orseetheTIwebsite.
CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com2SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporated4FunctionalBlockDiagramFigure4-1.
CC2642R-Q1BlockDiagramwww.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback3TableofContents1Features.
12Applications.
13Description.
24FunctionalBlockDiagram.
35RevisionHistory.
46DeviceComparison.
57TerminalConfigurationandFunctions.
67.
1PinDiagram–RTCPackage(TopView)67.
2SignalDescriptions.
77.
3ConnectionsforUnusedPinsandModules.
88Specifications.
98.
1AbsoluteMaximumRatings98.
2ESDRatings98.
3RecommendedOperatingConditions98.
4PowerSupplyandModules98.
5PowerConsumption-PowerModes108.
6PowerConsumption-RadioModes118.
7Nonvolatile(Flash)MemoryCharacteristics118.
8ThermalResistanceCharacteristics118.
9BluetoothLowEnergy-Receive(RX)128.
10BluetoothLowEnergy-Transmit(TX)158.
11TimingandSwitchingCharacteristics.
158.
12PeripheralCharacteristics.
208.
13TypicalCharacteristics.
279DetailedDescription.
419.
1Overview.
419.
2SystemCPU.
419.
3Radio(RFCore)429.
4Memory.
439.
5SensorController.
449.
6Cryptography.
459.
7Timers.
469.
8SerialPeripheralsandI/O.
479.
9BatteryandTemperatureMonitor.
479.
10DMA.
479.
11Debug.
479.
12PowerManagement.
489.
13ClockSystems.
499.
14NetworkProcessor.
4910Application,Implementation,andLayout.
5010.
1ReferenceDesigns.
5010.
2JunctionTemperatureCalculation.
5111DeviceandDocumentationSupport.
5211.
1ToolsandSoftware.
5211.
2DocumentationSupport.
5411.
3SupportResources.
5511.
4Trademarks.
5511.
5ElectrostaticDischargeCaution.
5511.
6Glossary.
5512Mechanical,Packaging,andOrderableInformation.
5612.
1PackagingInformation.
565RevisionHistoryNOTE:Pagenumbersforpreviousrevisionsmaydifferfrompagenumbersinthecurrentversion.
ChangesfromRevision*(January2020)toRevisionA(October2020)PageUpdatedthenumberingformatfortables,figures,andcross-referencesthroughoutthedocument.
1AddedanotetoSection8.
1abouttheinjectioncurrentandassociatedthisnotewiththe"Voltageonanydigitalpin"specification.
9ChangedVDDSto3.
0VinSection8.
69Added"Zerocycles"asthetestconditionfortheflashsectorerasetimeinSection8.
79Addedanewrowfortheflashsectorerasetimeat30000cyclesinSection8.
79Removedtheflashwritetimespecification'sassociationwithnote4inSection8.
79Changedthe14-bitmodetestconditionsto600HzinSection8.
12.
1.
120Changedthe15-bitmodetestconditionsto150HzinSection8.
12.
1.
120AddedGPIOdataforVDDSat3.
63VinSection8.
12.
6.
126ChangedtheGPIOminimumVIHMAXvoltagevlauetoMINinSection8.
12.
6.
126ChangedtheGPIOmaximumVILMINvoltagevaluetoMAXinSection8.
12.
6.
126CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com4SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporated6DeviceComparisonTable6-1.
DeviceFamilyOverviewDEVICERADIOSUPPORTFLASH(KB)RAM(KB)GPIOPACKAGESIZECC1312RSub-1GHz3528030RGZ(7-mm*7-mmVQFN48)CC1352PMultiprotocolSub-1GHzBluetooth5.
1LowEnergyZigbeeThread2.
4GHzproprietaryFSK-basedformats+20-dBmhigh-poweramplifier3528026RGZ(7-mm*7-mmVQFN48)CC1352RMultiprotocolSub-1GHzBluetooth5.
1LowEnergyZigbeeThread2.
4GHzproprietaryFSK-basedformats3528028RGZ(7-mm*7-mmVQFN48)CC2642RBluetooth5.
1LowEnergy2.
4GHzproprietaryFSK-basedformats3528031RGZ(7-mm*7-mmVQFN48)CC2642R-Q1Bluetooth5.
1LowEnergy3528031RTC(7-mm*7-mmVQFN48)CC2652RMultiprotocolBluetooth5.
1LowEnergyZigbeeThread2.
4GHzproprietaryFSK-basedformats3528031RGZ(7-mm*7-mmVQFN48)CC2652RBMultiprotocolBluetooth5.
1LowEnergyZigbeeThread2.
4GHzproprietaryFSK-basedformats3528031RGZ(7-mm*7-mmVQFN48)CC2652PMultiprotocolBluetooth5.
1LowEnergyZigbeeThread2.
4GHzproprietaryFSK-basedformats+19.
5-dBmhigh-poweramplifier3528026RGZ(7-mm*7-mmVQFN48)CC1310Sub-1GHz32–12816–2010–31RGZ(7-mm*7-mmVQFN48)RHB(5-mm*5-mmVQFN32)RSM(4-mm*4-mmVQFN32)CC2640R2FBluetooth5.
1LowEnergy2.
4GHzproprietaryFSK-basedformats1282010–31RGZ(7-mm*7-mmVQFN48)RHB(5-mm*5-mmVQFN32)RSM(4-mm*4-mmVQFN32)YFV(2.
7-mm*2.
7-mmDSBGA34)CC2640R2F-Q1Bluetooth5.
1LowEnergy2.
4GHzproprietaryFSK-basedformats1282031RGZ(7-mm*7-mmVQFN48)www.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback57TerminalConfigurationandFunctions7.
1PinDiagram–RTCPackage(TopView)Figure7-1.
RTC(7-mm*7-mm)Pinout,0.
5-mmPitch(TopView)ThefollowingI/OpinsmarkedinFigure7-1inboldhavehigh-drivecapabilities:Pin10,DIO_5Pin11,DIO_6Pin12,DIO_7Pin24,JTAG_TMSCPin26,DIO_16Pin27,DIO_17ThefollowingI/OpinsmarkedinFigure7-1initalicshaveanalogcapabilities:Pin36,DIO_23Pin37,DIO_24Pin38,DIO_25Pin39,DIO_26Pin40,DIO_27Pin41,DIO_28Pin42,DIO_29Pin43,DIO_30CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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2SignalDescriptionsTable7-1.
SignalDescriptions–RTCPackagePINI/OTYPEDESCRIPTIONNAMENO.
DCDC_SW33—PowerOutputfrominternalDC/DCconverter(1)DCOUPL23—Power1.
27-Vregulateddigital-supply(decouplingcapacitor)(2)DIO_05I/ODigitalGPIO,SensorControllerDIO_16I/ODigitalGPIO,SensorControllerDIO_27I/ODigitalGPIO,SensorControllerDIO_38I/ODigitalGPIO,SensorControllerDIO_49I/ODigitalGPIO,SensorControllerDIO_510I/ODigitalGPIO,SensorController,high-drivecapabilityDIO_611I/ODigitalGPIO,SensorController,high-drivecapabilityDIO_712I/ODigitalGPIO,SensorController,high-drivecapabilityDIO_814I/ODigitalGPIODIO_915I/ODigitalGPIODIO_1016I/ODigitalGPIODIO_1117I/ODigitalGPIODIO_1218I/ODigitalGPIODIO_1319I/ODigitalGPIODIO_1420I/ODigitalGPIODIO_1521I/ODigitalGPIODIO_1626I/ODigitalGPIO,JTAG_TDO,high-drivecapabilityDIO_1727I/ODigitalGPIO,JTAG_TDI,high-drivecapabilityDIO_1828I/ODigitalGPIODIO_1929I/ODigitalGPIODIO_2030I/ODigitalGPIODIO_2131I/ODigitalGPIODIO_2232I/ODigitalGPIODIO_2336I/ODigitalorAnalogGPIO,SensorController,analogDIO_2437I/ODigitalorAnalogGPIO,SensorController,analogDIO_2538I/ODigitalorAnalogGPIO,SensorController,analogDIO_2639I/ODigitalorAnalogGPIO,SensorController,analogDIO_2740I/ODigitalorAnalogGPIO,SensorController,analogDIO_2841I/ODigitalorAnalogGPIO,SensorController,analogDIO_2942I/ODigitalorAnalogGPIO,SensorController,analogDIO_3043I/ODigitalorAnalogGPIO,SensorController,analogEGP——GNDGround–exposedgroundpadJTAG_TMSC24I/ODigitalJTAGTMSC,high-drivecapabilityJTAG_TCKC25IDigitalJTAGTCKCRESET_N35IDigitalReset,activelow.
NointernalpullupresistorRF_P1—RFPositiveRFinputsignaltoLNAduringRXPositiveRFoutputsignalfromPAduringTXRF_N2—RFNegativeRFinputsignaltoLNAduringRXNegativeRFoutputsignalfromPAduringTXVDDR45—Power1.
7-Vto1.
95-Vsupply,mustbepoweredfromtheinternalDC/DCconverterortheinternalGlobalLDO(3)(2)www.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback7Table7-1.
SignalDescriptions–RTCPackage(continued)PINI/OTYPEDESCRIPTIONNAMENO.
VDDR_RF48—Power1.
7-Vto1.
95-Vsupply,mustbepoweredfromtheinternalDC/DCconverterortheinternalGlobalLDO(4)(2)VDDS44—Power1.
8-Vto3.
63-Vmainchipsupply(1)VDDS213—Power1.
8-Vto3.
63-VDIOsupply(1)VDDS322—Power1.
8-Vto3.
63-VDIOsupply(1)VDDS_DCDC34—Power1.
8-Vto3.
63-VDC/DCconvertersupplyX48M_N46—Analog48-MHzcrystaloscillatorpin1X48M_P47—Analog48-MHzcrystaloscillatorpin2X32K_Q13—Analog32-kHzcrystaloscillatorpin1X32K_Q24—Analog32-kHzcrystaloscillatorpin2(1)Formoredetails,seethetechnicalreferencemanuallistedinSection11.
2.
(2)Donotsupplyexternalcircuitryfromthispin.
(3)IfinternalDC/DCconverterisnotused,thispinissuppliedinternallyfromtheGlobalLDO.
(4)IfinternalDC/DCconverterisnotused,thispinmustbeconnectedtoVDDRforsupplyfromtheGlobalLDO.
7.
3ConnectionsforUnusedPinsandModulesTable7-2.
ConnectionsforUnusedPinsFUNCTIONSIGNALNAMEPINNUMBERACCEPTABLEPRACTICE(1)PREFERREDPRACTICE(1)GPIODIO_n5–1214–2126–3236–43NCorGNDNC32.
768-kHzcrystalX32K_Q13NCNCX32K_Q24DC/DCconverter(2)DCDC_SW33NCNCVDDS_DCDC34VDDSVDDS(1)NC=Noconnect(2)WhentheDC/DCconverterisnotused,theinductorbetweenDCDC_SWandVDDRcanberemoved.
VDDRandVDDR_RFmuststillbeconnectedandtheVDDRdecouplingcapacitormustbeconnectedandmovedclosetoVDDR.
CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com8SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporated8Specifications8.
1AbsoluteMaximumRatingsoveroperatingfree-airtemperaturerange(unlessotherwisenoted)(1)(2)MINMAXUNITVDDS(3)Supplyvoltage–0.
34.
1VVoltageonanydigitalpin(4)(5)–0.
3VDDS+0.
3,max4.
1VVoltageoncrystaloscillatorpins,X32K_Q1,X32K_Q2,X48M_NandX48M_P–0.
3VDDR+0.
3,max2.
25VVinVoltageonADCinputVoltagescalingenabled–0.
3VDDSVVoltagescalingdisabled,internalreference–0.
31.
49Voltagescalingdisabled,VDDSasreference–0.
3VDDS/2.
9Inputlevel,RFpins5dBmTstgStoragetemperature–40150°C(1)StressesbeyondthoselistedunderAbsoluteMaximumRatingsmaycausepermanentdamagetothedevice.
Thesearestressratingsonly,andfunctionaloperationofthedeviceattheseoranyotherconditionsbeyondthoseindicatedunderRecommendedOperatingConditionsisnotimplied.
Exposuretoabsolute-maximum-ratedconditionsforextendedperiodsmayaffectdevicereliability.
(2)Allvoltagevaluesarewithrespecttoground,unlessotherwisenoted.
(3)VDDS2andVDDS3mustbeatthesamepotentialasVDDS.
(4)IncludinganalogcapableDIO.
(5)InjectioncurrentisnotsupportedonanyGPIOpin8.
2ESDRatingsVALUEUNITVESDElectrostaticdischargeHumanbodymodel(HBM),perAECQ100-002(1)(2)Allpins±2000VChargeddevicemodel(CDM),perAECQ100-011(3)Allpins±500V(1)AECQ100-002indicatesHBMstressingisdoneinaccordancewiththeANSI/ESDA/JEDECJS-001specification.
(2)JEDECdocumentJEP155statesthat500-VHBMallowssafemanufacturingwithastandardESDcontrolprocess(3)JEDECdocumentJEP157statesthat250-VCDMallowssafemanufacturingwithastandardESDcontrolprocess8.
3RecommendedOperatingConditionsoveroperatingfree-airtemperaturerange(unlessotherwisenoted)MINMAXUNITOperatingambienttemperaturerange–40105°COperatingsupplyvoltage(VDDS)1.
83.
63VRisingsupplyvoltageslewrate0100mV/sFallingsupplyvoltageslewrate(1)020mV/s(1)Forsmallcoin-cellbatteries,withhighworst-caseend-of-lifeequivalentsourceresistance,a22-FVDDSinputcapacitormustbeusedtoensurecompliancewiththisslewrate.
8.
4PowerSupplyandModulesoveroperatingfree-airtemperaturerange(unlessotherwisenoted)PARAMETERTYPUNITVDDSPower-on-Reset(POR)threshold1.
1-1.
55VVDDSBrown-outDetector(BOD)Risingthreshold1.
77VVDDSBrown-outDetector(BOD),beforeinitialboot(1)Risingthreshold1.
70VVDDSBrown-outDetector(BOD)Fallingthreshold1.
75V(1)Brown-outDetectoristrimmedatinitialboot,valueiskeptuntildeviceisresetbyaPORresetortheRESET_Npinwww.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback98.
5PowerConsumption-PowerModesWhenmeasuredontheCC26x2REM-7ID-Q1referencedesignwithTc=25°C,VDDS=3.
0VwithDC/DCenabledunlessotherwisenoted.
PARAMETERTESTCONDITIONSTYPUNITCoreCurrentConsumptionIcoreResetandShutdownReset.
RESET_NpinassertedorVDDSbelowpower-on-resetthreshold150nAShutdown.
Noclocksrunning,noretention150StandbywithoutcacheretentionRTCrunning,CPU,80KBRAMand(partial)registerretention.
RCOSC_LF0.
94ARTCrunning,CPU,80KBRAMand(partial)registerretentionXOSC_LF1.
09AStandbywithcacheretentionRTCrunning,CPU,80KBRAMand(partial)registerretention.
RCOSC_LF3.
2ARTCrunning,CPU,80KBRAMand(partial)registerretention.
XOSC_LF3.
3AIdleSupplySystemsandRAMpoweredRCOSC_HF675AActiveMCUrunningCoreMarkat48MHzRCOSC_HF3.
39mAPeripheralCurrentConsumptionIperiPeripheralpowerdomainDeltacurrentwithdomainenabled97.
7ASerialpowerdomainDeltacurrentwithdomainenabled7.
2RFCoreDeltacurrentwithpowerdomainenabled,clockenabled,RFCoreidle210.
9DMADeltacurrentwithclockenabled,moduleisidle63.
9TimersDeltacurrentwithclockenabled,moduleisidle(3)81.
0I2CDeltacurrentwithclockenabled,moduleisidle10.
8I2SDeltacurrentwithclockenabled,moduleisidle27.
6SSIDeltacurrentwithclockenabled,moduleisidle82.
9UARTDeltacurrentwithclockenabled,moduleisidle(1)167.
5CRYPTO(AES)Deltacurrentwithclockenabled,moduleisidle(2)25.
6PKADeltacurrentwithclockenabled,moduleisidle84.
7TRNGDeltacurrentwithclockenabled,moduleisidle35.
6SensorControllerEngineConsumptionISCEActivemode24MHz,infiniteloop808.
5ALow-powermode2MHz,infiniteloop31.
9(1)OnlyoneUARTrunning(2)OnlyoneSSIrunning(3)OnlyoneGPTimerrunningCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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6PowerConsumption-RadioModesWhenmeasuredontheCC26x2REM-7ID-Q1referencedesignwithTc=25°C,VDDS=3.
0VwithDC/DCenabledunlessotherwisenoted.
PARAMETERTESTCONDITIONSTYPUNITRadioreceivecurrent2440MHz6.
9mARadiotransmitcurrent0dBmoutputpowersetting2440MHz7.
3mA+5dBmoutputpowersetting2440MHz9.
6mA8.
7Nonvolatile(Flash)MemoryCharacteristicsOveroperatingfree-airtemperaturerangeandVDDS=3.
0V(unlessotherwisenoted)PARAMETERTESTCONDITIONSMINTYPMAXUNITFlashsectorsize8KBSupportedflasherasecyclesbeforefailure,fullbank(1)30kCyclesSupportedflasherasecyclesbeforefailure,singlesector(2)60kCyclesMaximumnumberofwriteoperationsperrowbeforesectorerase(3)83WriteOperationsFlashretention105°C11.
4Yearsat105°CFlashsectorerasecurrentAveragedeltacurrent10.
7mAFlashsectorerasetime(4)Zerocycles10msFlashsectorerasetime(4)30kcycles4000msFlashwritecurrentAveragedeltacurrent,4bytesatatime6.
2mAFlashwritetime4bytesatatime21.
6s(1)Afullbankeraseiscountedasasingleerasecycleoneachsector(2)Upto4customer-designatedsectorscanbeindividuallyerasedanadditional30ktimesbeyondthebaselinebanklimitationof30kcycles(3)Eachwordlineis2048bits(or256bytes)wide.
Thislimitationcorrespondstosequentialmemorywritesof4(3.
1)bytesminimumperwriteoverawholewordline.
Ifadditionalwritestothesamewordlinearerequired,asectoreraseisrequiredoncethemaximumnumberofwriteoperationsperrowisreached.
(4)ThisnumberisdependentonFlashagingandincreasesovertimeanderasecycles8.
8ThermalResistanceCharacteristicsTHERMALMETRIC(1)PACKAGEUNITRTC(VQFN)48PINSRθJAJunction-to-ambientthermalresistance23.
0°C/W(2)RθJC(top)Junction-to-case(top)thermalresistance13.
2°C/W(2)RθJBJunction-to-boardthermalresistance7.
5°C/W(2)ψJTJunction-to-topcharacterizationparameter0.
3°C/W(2)ψJBJunction-to-boardcharacterizationparameter7.
4°C/W(2)RθJC(bot)Junction-to-case(bottom)thermalresistance1.
3°C/W(2)(1)Formoreinformationabouttraditionalandnewthermalmetrics,seeSemiconductorandICPackageThermalMetrics.
(2)°C/W=degreesCelsiusperwatt.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback118.
9BluetoothLowEnergy-Receive(RX)WhenmeasuredontheCC26x2REM-7ID-Q1referencedesignwithTc=25°C,VDDS=3.
0V,fRF=2440MHzwithDC/DCenabledunlessotherwisenoted.
AllmeasurementsareperformedattheantennainputwithacombinedRXandTXpath.
Allmeasurementsareperformedconducted.
PARAMETERTESTCONDITIONSMINTYPMAXUNIT125kbps(LECoded)ReceiversensitivityDifferentialmode.
BER=10–3–105dBmReceiversaturationDifferentialmode.
BER=10–3>5dBmFrequencyerrortoleranceDifferencebetweentheincomingcarrierfrequencyandtheinternallygeneratedcarrierfrequency>(–300/300)kHzDatarateerrortoleranceDifferencebetweenincomingdatarateandtheinternallygenerateddatarate(37-bytepackets)>(–320/240)ppmDatarateerrortoleranceDifferencebetweenincomingdatarateandtheinternallygenerateddatarate(255-bytepackets)>(–100/125)ppmCo-channelrejection(1)Wantedsignalat–79dBm,modulatedinterfererinchannel,BER=10–3–1.
5dBSelectivity,±1MHz(1)Wantedsignalat–79dBm,modulatedinterfererat±1MHz,BER=10–38/4.
5(2)dBSelectivity,±2MHz(1)Wantedsignalat–79dBm,modulatedinterfererat±2MHz,BER=10–344/39(2)dBSelectivity,±3MHz(1)Wantedsignalat–79dBm,modulatedinterfererat±3MHz,BER=10–346/44(2)dBSelectivity,±4MHz(1)Wantedsignalat–79dBm,modulatedinterfererat±4MHz,BER=10–344/46(2)dBSelectivity,±6MHz(1)Wantedsignalat–79dBm,modulatedinterfererat±6MHz,BER=10–348/44(2)dBSelectivity,±7MHzormore(1)Wantedsignalat–79dBm,modulatedinterfererat±7MHzormore,BER=10–351/45(2)dBSelectivity,Imagefrequency(1)Wantedsignalat–79dBm,modulatedinterfereratimagefrequency,BER=10–339dBSelectivity,Imagefrequency±1MHz(1)NotethatImagefrequency+1MHzistheCo-channel–1MHz.
Wantedsignalat–79dBm,modulatedinterfererat±1MHzfromimagefrequency,BER=10–34.
5/44(2)dB500kbps(LECoded)ReceiversensitivityDifferentialmode.
BER=10–3–100dBmReceiversaturationDifferentialmode.
BER=10–3>5dBmFrequencyerrortoleranceDifferencebetweentheincomingcarrierfrequencyandtheinternallygeneratedcarrierfrequency>(–300/300)kHzDatarateerrortoleranceDifferencebetweenincomingdatarateandtheinternallygenerateddatarate(37-bytepackets)>(–350/450)ppmDatarateerrortoleranceDifferencebetweenincomingdatarateandtheinternallygenerateddatarate(255-bytepackets)>(–175/175)ppmCo-channelrejection(1)Wantedsignalat–72dBm,modulatedinterfererinchannel,BER=10–3–4dBSelectivity,±1MHz(1)Wantedsignalat–72dBm,modulatedinterfererat±1MHz,BER=10–38/4(2)dBSelectivity,±2MHz(1)Wantedsignalat–72dBm,modulatedinterfererat±2MHz,BER=10–344/36(2)dBSelectivity,±3MHz(1)Wantedsignalat–72dBm,modulatedinterfererat±3MHz,BER=10–346/46(2)dBSelectivity,±4MHz(1)Wantedsignalat–72dBm,modulatedinterfererat±4MHz,BER=10–345/47(2)dBCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
ti.
com12SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedWhenmeasuredontheCC26x2REM-7ID-Q1referencedesignwithTc=25°C,VDDS=3.
0V,fRF=2440MHzwithDC/DCenabledunlessotherwisenoted.
AllmeasurementsareperformedattheantennainputwithacombinedRXandTXpath.
Allmeasurementsareperformedconducted.
PARAMETERTESTCONDITIONSMINTYPMAXUNITSelectivity,±6MHz(1)Wantedsignalat–72dBm,modulatedinterfererat±6MHz,BER=10–346/45(2)dBSelectivity,±7MHzormore(1)Wantedsignalat–72dBm,modulatedinterfererat±7MHzormore,BER=10–349/45(2)dBSelectivity,Imagefrequency(1)Wantedsignalat–72dBm,modulatedinterfereratimagefrequency,BER=10–336dBSelectivity,Imagefrequency±1MHz(1)NotethatImagefrequency+1MHzistheCo-channel–1MHz.
Wantedsignalat–72dBm,modulatedinterfererat±1MHzfromimagefrequency,BER=10–34/46(2)dB1Mbps(LE1M)ReceiversensitivityDifferentialmode.
BER=10–3–97dBmReceiversaturationDifferentialmode.
BER=10–3>5dBmFrequencyerrortoleranceDifferencebetweentheincomingcarrierfrequencyandtheinternallygeneratedcarrierfrequency>(–350/340)kHzDatarateerrortoleranceDifferencebetweenincomingdatarateandtheinternallygenerateddatarate(37-bytepackets)>(–750/750)ppmCo-channelrejection(1)Wantedsignalat–67dBm,modulatedinterfererinchannel,BER=10–3–6dBSelectivity,±1MHz(1)Wantedsignalat–67dBm,modulatedinterfererat±1MHz,BER=10–37/4(2)dBSelectivity,±2MHz(1)Wantedsignalat–67dBm,modulatedinterfererat±2MHz,BER=10–340/33(2)dBSelectivity,±3MHz(1)Wantedsignalat–67dBm,modulatedinterfererat±3MHz,BER=10–336/41(2)dBSelectivity,±4MHz(1)Wantedsignalat–67dBm,modulatedinterfererat±4MHz,BER=10–336/45(2)dBSelectivity,±5MHzormore(1)Wantedsignalat–67dBm,modulatedinterfererat±5MHzormore,BER=10–340dBSelectivity,imagefrequency(1)Wantedsignalat–67dBm,modulatedinterfereratimagefrequency,BER=10–333dBSelectivity,imagefrequency±1MHz(1)NotethatImagefrequency+1MHzistheCo-channel–1MHz.
Wantedsignalat–67dBm,modulatedinterfererat±1MHzfromimagefrequency,BER=10–34/41(2)dBOut-of-bandblocking(3)30MHzto2000MHz–10dBmOut-of-bandblocking2003MHzto2399MHz–18dBmOut-of-bandblocking2484MHzto2997MHz–12dBmOut-of-bandblocking3000MHzto12.
75GHz–2dBmIntermodulationWantedsignalat2402MHz,–64dBm.
Twointerferersat2405and2408MHzrespectively,atthegivenpowerlevel–42dBmSpuriousemissions,30to1000MHz(4)Measurementina50-Ωsingle-endedload.
5dBmFrequencyerrortoleranceDifferencebetweentheincomingcarrierfrequencyandtheinternallygeneratedcarrierfrequency>(–440/500)kHzDatarateerrortoleranceDifferencebetweenincomingdatarateandtheinternallygenerateddatarate(37-bytepackets)>(–700/750)ppmCo-channelrejection(1)Wantedsignalat–67dBm,modulatedinterfererinchannel,BER=10–3–7dBSelectivity,±2MHz(1)Wantedsignalat–67dBm,modulatedinterfererat±2MHz,Imagefrequencyisat–2MHz,BER=10–38/4(2)dBSelectivity,±4MHz(1)Wantedsignalat–67dBm,modulatedinterfererat±4MHz,BER=10–336/34(2)dBSelectivity,±6MHzormore(1)Wantedsignalat–67dBm,modulatedinterfererat±6MHzormore,BER=10–337/36(2)dBSelectivity,imagefrequency(1)Wantedsignalat–67dBm,modulatedinterfereratimagefrequency,BER=10–34dBSelectivity,imagefrequency±2MHz(1)NotethatImagefrequency+2MHzistheCo-channel.
Wantedsignalat–67dBm,modulatedinterfererat±2MHzfromimagefrequency,BER=10–3–7/36(2)dBOut-of-bandblocking(3)30MHzto2000MHz–16dBmOut-of-bandblocking2003MHzto2399MHz–21dBmOut-of-bandblocking2484MHzto2997MHz–15dBmOut-of-bandblocking3000MHzto12.
75GHz–12dBmIntermodulationWantedsignalat2402MHz,–64dBm.
Twointerferersat2405and2408MHzrespectively,atthegivenpowerlevel–38dBmRSSIdynamicrange63dBRSSIAccuracy(+/-)±4dB(1)NumbersgivenasI/CdB(2)X/Y,whereXis+NMHzandYis–NMHz(3)ExcludingoneexceptionatFwanted/2,perBluetoothSpecification(4)Suitableforsystemstargetingcompliancewithworldwideradio-frequencyregulationsETSIEN300328andEN300440Category2(Europe),FCCCFR47Part15(US),andARIBSTD-T66(Japan)CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com14SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporated8.
10BluetoothLowEnergy-Transmit(TX)WhenmeasuredontheCC26x2REM-7ID-Q1referencedesignwithTc=25°C,VDDS=3.
0V,fRF=2440MHzwithDC/DCenabledunlessotherwisenoted.
AllmeasurementsareperformedattheantennainputwithacombinedRXandTXpath.
Allmeasurementsareperformedconducted.
PARAMETERTESTCONDITIONSMINTYPMAXUNITGeneralParameters5dBmoutputpowerDifferentialmode,deliveredtoasingle-ended50Ωloadthroughabalun5dBmOutputpowerprogrammablerangeDifferentialmode,deliveredtoasingle-ended50Ωloadthroughabalun26dBSpuriousemissionsandharmonicsSpuriousemissions(1)f1GHz,includingharmonics+5dBmsetting–1LSBINLIntegralnonlinearity±4LSBENOBEffectivenumberofbitsInternal4.
3Vequivalentreference(2),200kSamples/s,9.
6kHzinputtone9.
8BitsInternal4.
3Vequivalentreference(2),200kSamples/s,9.
6kHzinputtone,DC/DCenabled9.
8VDDSasreference,200kSamples/s,9.
6kHzinputtone10.
1Internalreference,voltagescalingdisabled,32samplesaverage,200kSamples/s,300Hzinputtone11.
1Internalreference,voltagescalingdisabled,14-bitmode,200kSamples/s,600Hzinputtone(5)11.
3Internalreference,voltagescalingdisabled,15-bitmode,200kSamples/s,150Hzinputtone(5)11.
6THDTotalharmonicdistortionInternal4.
3Vequivalentreference(2),200kSamples/s,9.
6kHzinputtone–65dBVDDSasreference,200kSamples/s,9.
6kHzinputtone–70Internalreference,voltagescalingdisabled,32samplesaverage,200kSamples/s,300Hzinputtone–72SINAD,SNDRSignal-to-noiseanddistortionratioInternal4.
3Vequivalentreference(2),200kSamples/s,9.
6kHzinputtone60dBVDDSasreference,200kSamples/s,9.
6kHzinputtone63Internalreference,voltagescalingdisabled,32samplesaverage,200kSamples/s,300Hzinputtone68SFDRSpurious-freedynamicrangeInternal4.
3Vequivalentreference(2),200kSamples/s,9.
6kHzinputtone70dBVDDSasreference,200kSamples/s,9.
6kHzinputtone73Internalreference,voltagescalingdisabled,32samplesaverage,200kSamples/s,300Hzinputtone75ConversiontimeSerialconversion,time-to-output,24MHzclock50clock-cyclesCurrentconsumptionInternal4.
3Vequivalentreference(2)0.
42mACurrentconsumptionVDDSasreference0.
6mACC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com20SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedTc=25°C,VDDS=3.
0Vandvoltagescalingenabled,unlessotherwisenoted.
(1)PerformancenumbersrequireuseofoffsetandgainadjustementsinsoftwarebyTI-providedADCdrivers.
PARAMETERTESTCONDITIONSMINTYPMAXUNITReferencevoltageEquivalentfixedinternalreference(inputvoltagescalingenabled).
Forbestaccuracy,theADCconversionshouldbeinitiatedthroughtheTI-RTOSAPIinordertoincludethegain/offsetcompensationfactorsstoredinFCFG14.
3(2)(3)VReferencevoltageFixedinternalreference(inputvoltagescalingdisabled).
Forbestaccuracy,theADCconversionshouldbeinitiatedthroughtheTI-RTOSAPIinordertoincludethegain/offsetcompensationfactorsstoredinFCFG1.
Thisvalueisderivedfromthescaledvalue(4.
3V)asfollows:Vref=4.
3V*1408/40951.
48VReferencevoltageVDDSasreference,inputvoltagescalingenabledVDDSVReferencevoltageVDDSasreference,inputvoltagescalingdisabledVDDS/2.
82(3)VInputimpedance200kSamples/s,voltagescalingenabled.
Capacitiveinput,Inputimpedancedependsonsamplingfrequencyandsamplingtime>1MΩ(1)UsingIEEEStd1241-2010forterminologyandtestmethods(2)Inputsignalscaleddowninternallybeforeconversion,asifvoltagerangewas0to4.
3V(3)AppliedvoltagemustbewithinAbsoluteMaximumRatings(seeSection8.
1)atalltimes(4)Nomissingcodes(5)ADC_output=∑(4nsamples)>>n,n=desiredextrabitswww.
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12.
2DAC8.
12.
2.
1Digital-to-AnalogConverter(DAC)CharacteristicsTc=25°C,VDDS=3.
0V,unlessotherwisenoted.
PARAMETERTESTCONDITIONSMINTYPMAXUNITGeneralParametersResolution8BitsVDDSSupplyvoltageAnyload,anyVREF,pre-chargeOFF,DACcharge-pumpON1.
83.
63VAnyload,VREF=DCOUPL,pre-chargeON2.
63.
63FDACClockfrequencyBufferOFF(internalload)161000kHzVoltageoutputsettlingtimeVREF=VDDS,bufferOFF,internalload131/FDACInternalLoad-ContinuousTimeComparator/LowPowerClockedComparatorDNLDifferentialnonlinearityVREF=VDDS,load=ContinuousTimeComparatororLowPowerClockedComparatorFDAC=250kHz±1LSB(1)DifferentialnonlinearityVREF=VDDS,load=ContinuousTimeComparatororLowPowerClockedComparatorFDAC=16kHz±1.
2Offseterror(2)Load=ContinuousTimeComparatorVREF=VDDS=3.
63V±0.
67LSB(1)VREF=VDDS=3.
0V±0.
81VREF=VDDS=1.
8V±1.
27VREF=DCOUPL,pre-chargeON±3.
43VREF=DCOUPL,pre-chargeOFF±2.
88Offseterror(2)Load=LowPowerClockedComparatorVREF=VDDS=3.
63V±0.
77LSB(1)VREF=VDDS=3.
0V±0.
77VREF=VDDS=1.
8V±3.
46VREF=DCOUPL,pre-chargeON±3.
44VREF=DCOUPL,pre-chargeOFF±4.
70Maxcodeoutputvoltagevariation(2)Load=ContinuousTimeComparatorVREF=VDDS=3.
63V±1.
61LSB(1)VREF=VDDS=3.
0V±1.
71VREF=VDDS=1.
8V±2.
10VREF=DCOUPL,pre-chargeON±6.
00VREF=DCOUPL,pre-chargeOFF±3.
85Maxcodeoutputvoltagevariation(2)Load=LowPowerClockedComparatorVREF=VDDS=3.
63V±2.
92LSB(1)VREF=VDDS=3.
0V±3.
06VREF=VDDS=1.
8V±3.
91VREF=DCOUPL,pre-chargeON±7.
84VREF=DCOUPL,pre-chargeOFF±4.
06CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com22SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedTc=25°C,VDDS=3.
0V,unlessotherwisenoted.
PARAMETERTESTCONDITIONSMINTYPMAXUNITOutputvoltagerange(2)Load=ContinuousTimeComparatorVREF=VDDS=3.
63V,code10.
03VVREF=VDDS=3.
63V,code2553.
46VREF=VDDS=3.
0V,code10.
02VREF=VDDS=3.
0V,code2552.
86VREF=VDDS=1.
8V,code10.
01VREF=VDDS=1.
8V,code2551.
71VREF=DCOUPL,pre-chargeOFF,code10.
01VREF=DCOUPL,pre-chargeOFF,code2551.
21VREF=DCOUPL,pre-chargeON,code11.
27VREF=DCOUPL,pre-chargeON,code2552.
46Outputvoltagerange(2)Load=LowPowerClockedComparatorVREF=VDDS=3.
63V,code10.
03VVREF=VDDS=3.
63V,code2553.
46VREF=VDDS=3.
0V,code10.
02VREF=VDDS=3.
0V,code2552.
85VREF=VDDS=1.
8V,code10.
01VREF=VDDS=1.
8V,code2551.
71VREF=DCOUPL,pre-chargeOFF,code10.
01VREF=DCOUPL,pre-chargeOFF,code2551.
21VREF=DCOUPL,pre-chargeON,code11.
27VREF=DCOUPL,pre-chargeON,code2552.
46(1)1LSB(VREF3.
63V/3.
0V/1.
8V/DCOUPL/ADCREF)=13.
44mV/11.
13mV/6.
68mV/4.
67mV/5.
48mV(2)Includescomparatoroffsetwww.
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12.
3TemperatureandBatteryMonitor8.
12.
3.
1TemperatureSensorMeasuredontheCC26x2REM-7ID-Q1referencedesignwithTc=25°C,VDDS=3.
0V,unlessotherwisenoted.
PARAMETERTESTCONDITIONSMINTYPMAXUNITResolution2°CAccuracy-40°Cto0°C±4.
0°CAccuracy0°Cto105°C±2.
5°CSupplyvoltagecoefficient(1)3.
6°C/V(1)ThetemperaturesensorisautomaticallycompensatedforVDDSvariationwhenusingtheTI-provideddriver.
8.
12.
3.
2BatteryMonitorMeasuredontheCC26x2REM-7ID-Q1referencedesignwithTc=25°C,unlessotherwisenoted.
PARAMETERTESTCONDITIONSMINTYPMAXUNITResolution25mVRange1.
83.
63VIntegralnonlinearity(max)2872mVAccuracyVDDS=3.
0V22.
5mVOffseterror-32mVGainerror-1.
3%CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com24SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporated8.
12.
4Comparators8.
12.
4.
1ContinuousTimeComparatorTc=25°C,VDDS=3.
0V,unlessotherwisenoted.
PARAMETERTESTCONDITIONSMINTYPMAXUNITInputvoltagerange(1)0VDDSVOffsetMeasuredatVDDS/2±5mVDecisiontimeStepfrom–10mVto10mV0.
78sCurrentconsumptionInternalreference8.
6A(1)TheinputvoltagescanbegeneratedexternallyandconnectedthroughoutI/OsoraninternalreferencevoltagecanbegeneratedusingtheDAC8.
12.
4.
2Low-PowerClockedComparatorTc=25°C,VDDS=3.
0V,unlessotherwisenoted.
PARAMETERTESTCONDITIONSMINTYPMAXUNITInputvoltagerange0VDDSVClockfrequencySCLK_LFInternalreferencevoltage(1)UsinginternalDACwithVDDSasreferencevoltage,DACcode=0-2550.
024-2.
865VOffsetMeasuredatVDDS/2,includeserrorfrominternalDAC±5mVDecisiontimeStepfrom–50mVto50mV1ClockCycle(1)Thecomparatorcanuseaninternal8bitsDACasitsreference.
TheDACoutputvoltagerangedependsonthereferencevoltageselected.
SeeSection8.
12.
2.
18.
12.
5CurrentSource8.
12.
5.
1ProgrammableCurrentSourceTc=25°C,VDDS=3.
0V,unlessotherwisenoted.
PARAMETERTESTCONDITIONSMINTYPMAXUNITCurrentsourceprogrammableoutputrange(logarithmicrange)0.
25-20AResolution0.
25Awww.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback258.
12.
6GPIO8.
12.
6.
1GPIODCCharacteristicsPARAMETERTESTCONDITIONSMINTYPMAXUNITTA=25°C,VDDS=1.
8VGPIOVOHat8mAloadIOCURR=2,high-driveGPIOsonly1.
44VGPIOVOLat8mAloadIOCURR=2,high-driveGPIOsonly0.
36VGPIOVOHat4mAloadIOCURR=11.
44VGPIOVOLat4mAloadIOCURR=10.
36VGPIOpullupcurrentInputmode,pullupenabled,Vpad=0V3268110AGPIOpulldowncurrentInputmode,pulldownenabled,Vpad=VDDS1118.
539AGPIOlow-to-highinputtransition,withhysteresisIH=1,transitionvoltageforinputreadas0→10.
721.
081.
17VGPIOhigh-to-lowinputtransition,withhysteresisIH=1,transitionvoltageforinputreadas1→00.
540.
720.
87VGPIOinputhysteresisIH=1,differencebetween0→1and1→0points0.
180.
360.
51VGPIOminimumVIHLowestGPIOinputvoltagereliablyinterpretedasHigh1.
17VGPIOmaximumVILHighestGPIOInputvoltagereliablyinterpretedasLow0.
63VTA=25°C,VDDS=3.
0VGPIOVOHat8mAloadIOCURR=2,high-driveGPIOsonly2.
4VGPIOVOLat8mAloadIOCURR=2,high-driveGPIOsonly0.
6VGPIOVOHat4mAloadIOCURR=12.
4VGPIOVOLat4mAloadIOCURR=10.
6VTA=25°C,VDDS=3.
63VGPIOVOHat8mAloadIOCURR=2,high-driveGPIOsonly2.
9VGPIOVOLat8mAloadIOCURR=2,high-driveGPIOsonly0.
6VGPIOVOHat4mAloadIOCURR=12.
9VGPIOVOLat4mAloadIOCURR=10.
6VGPIOpullupcurrentInputmode,pullupenabled,Vpad=0V135264380AGPIOpulldowncurrentInputmode,pulldownenabled,Vpad=VDDS64102178AGPIOlow-to-highinputtransition,withhysteresisIH=1,transitionvoltageforinputreadas0→11.
521.
902.
21VGPIOhigh-to-lowinputtransition,withhysteresisIH=1,transitionvoltageforinputreadas1→01.
141.
481.
83VGPIOinputhysteresisIH=1,differencebetween0→1and1→0points0.
380.
421.
07VGPIOminimumVIHLowestGPIOinputvoltagereliablyinterpretedasaHigh2.
47VGPIOmaximumVILHighestGPIOinputvoltagereliablyinterpretedasaLow1.
33VCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com26SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporated8.
13TypicalCharacteristicsAllmeasurementsinthissectionaredonewithTc=25°CandVDDS=3.
0V,unlessotherwisenoted.
SeeRecommendedOperatingConditions,Section8.
3,fordevicelimits.
Valuesexceedingtheselimitsareforreferenceonly.
8.
13.
1MCUCurrentFigure8-4.
ActiveMode(MCU)Currentvs.
SupplyVoltage(VDDS)Figure8-5.
StandbyMode(MCU)Currentvs.
Temperaturewww.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback27Figure8-6.
StandbyMode(MCU)Currentvs.
Temperature(VDDS=3.
6V)8.
13.
2RXCurrentFigure8-7.
RXCurrentvs.
Temperature(BLE1Mbps,2.
44GHz)CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
ti.
com28SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedFigure8-8.
RXCurrentvs.
SupplyVoltage(VDDS)(BLE1Mbps,2.
44GHz)www.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback298.
13.
3TXCurrentFigure8-9.
TXCurrentvs.
Temperature(BLE1Mbps,2.
44GHz)Figure8-10.
TXCurrentvs.
SupplyVoltage(VDDS)(BLE1Mbps,2.
44GHz)CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com30SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedTable8-1showstypicalTXcurrentandoutputpowerfordifferentoutputpowersettings.
Table8-1.
TypicalTXCurrentandOutputPowerCC2642R-Q1at2.
4GHz,VDDS=3.
0V(MeasuredonCC2652REM-7ID-Q1)txPowerTXPowerSetting(SmartRFStudio)TypicalOutputPower[dBm]TypicalCurrentConsumption[mA]0x721755.
49.
40x4E6344.
18.
50x385D33.
08.
10x325921.
97.
50x285611.
07.
10x28530-0.
46.
50x12D6-5-5.
45.
70x0ACF-10-10.
45.
20x06CA-15-15.
24.
80x04C6-20-20.
64.
6www.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback318.
13.
4RXPerformanceFigure8-11.
Sensitivityvs.
Frequency(BLE1Mbps,2.
44GHz)Figure8-12.
Sensitivityvs.
Temperature(BLE1Mbps,2.
44GHz)CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com32SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedFigure8-13.
Sensitivityvs.
SupplyVoltage(VDDS)(BLE1Mbps,2.
44GHz)Figure8-14.
Sensitivityvs.
SupplyVoltage(VDDS)(BLE1Mbps,2.
44GHz,DCDCOff)www.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback33Figure8-15.
RSSIErrorvs.
InputLevel(dBm)(BLE1Mbps)CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com34SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporated8.
13.
5TXPerformanceFigure8-16.
OutputPowervs.
Temperature(BLE1Mbps,2.
44GHz)Figure8-17.
OutputPowervs.
Temperature(BLE1Mbps,2.
44GHz,+5dBm)www.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback35Figure8-18.
OutputPowervs.
SupplyVoltage(VDDS)(BLE1Mbps,2.
44GHz)Figure8-19.
OutputPowervs.
SupplyVoltage(VDDS)(BLE1Mbps,2.
44GHz,+5dBm)CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
ti.
com36SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedFigure8-20.
OutputPowervs.
Frequency(BLE1Mbps,2.
44GHz)Figure8-21.
OutputPowervs.
Frequency(BLE1Mbps,2.
44GHz,+5dBm)www.
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comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback378.
13.
6ADCPerformanceFigure8-22.
ENOBvs.
InputFrequencyFigure8-23.
ENOBvs.
SamplingFrequencyCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com38SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedFigure8-24.
INLvs.
ADCCodeFigure8-25.
DNLvs.
ADCCodewww.
ti.
comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback39Figure8-26.
ADCAccuracyvs.
TemperatureFigure8-27.
ADCAccuracyvs.
SupplyVoltage(VDDS)CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
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com40SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporated9DetailedDescription9.
1OverviewFigure4-1showsthecoremodulesoftheCC2642R-Q1device.
9.
2SystemCPUTheCC2642R-Q1SimpleLinkWirelessMCUcontainsanArmCortex-M4FsystemCPU,whichrunstheapplicationandthehigherlayersoftheBluetooth5lowenergyradioprotocolstack.
ThesystemCPUisthefoundationofahigh-performance,low-costplatformthatmeetsthesystemrequirementsofminimalmemoryimplementation,andlow-powerconsumption,whiledeliveringoutstandingcomputationalperformanceandexceptionalsystemresponsetointerrupts.
Itsfeaturesincludethefollowing:ARMv7-Marchitectureoptimizedforsmall-footprintembeddedapplicationsArmThumb-2mixed16-and32-bitinstructionsetdeliversthehighperformanceexpectedofa32-bitArmcoreinacompactmemorysizeFastcodeexecutionpermitsincreasedsleepmodetimeDeterministic,high-performanceinterrupthandlingfortime-criticalapplicationsSingle-cyclemultiplyinstructionandhardwaredivideHardwaredivisionandfastdigital-signal-processingorientedmultiplyaccumulateSaturatingarithmeticforsignalprocessingIEEE754-compliantsingle-precisionFloatingPointUnit(FPU)MemoryProtectionUnit(MPU)forsafety-criticalapplicationsFulldebugwithdatamatchingforwatchpointgeneration–DataWatchpointandTraceUnit(DWT)–JTAGDebugAccessPort(DAP)–FlashPatchandBreakpointUnit(FPB)Tracesupportreducesthenumberofpinsrequiredfordebuggingandtracing–InstrumentationTraceMacrocellUnit(ITM)–TracePortInterfaceUnit(TPIU)withasynchronousserialwireoutput(SWO)Optimizedforsingle-cycleflashmemoryaccessTightlyconnectedto8-KB4-wayrandomreplacementcacheforminimalactivepowerconsumptionandwaitstatesUltra-low-powerconsumptionwithintegratedsleepmodes48MHzoperation1.
25DMIPSperMHzwww.
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3Radio(RFCore)TheRFCoreisahighlyflexibleandfutureproofradiomodulewhichcontainsanArmCortex-M0processorthatinterfacestheanalogRFandbase-bandcircuitry,handlesdatatoandfromthesystemCPUside,andassemblestheinformationbitsinagivenpacketstructure.
TheRFCoreoffersahighlevel,command-basedAPItothemainCPUthatconfigurationsanddataarepassedthrough.
TheArmCortex-M0processorisnotprogrammablebycustomersandisinterfacedthroughtheTI-providedRFdriverthatisincludedwiththeSimpleLinkSoftwareDevelopmentKit(SDK).
TheRFCorecanautonomouslyhandlethetime-criticalaspectsoftheradioprotocols,thusoffloadingthemainCPU,whichreducespowerconsumptionandleavesmoreresourcesfortheuserapplication.
SeveralsignalsarealsoavailabletocontrolexternalcircuitrysuchasRFswitchesorrangeextendersautonomously.
ThevariousphysicallayerradioformatsarepartlybuiltasasoftwaredefinedradiowheretheradiobehavioriseitherdefinedbyradioROMcontentsorbynon-ROMradioformatsdeliveredinformoffirmwarepatcheswiththeSimpleLinkSDKs.
Thisallowstheradioplatformtobeupdatedforsupportoffutureversionsofstandardsevenwithover-the-air(OTA)upgradeswhilestillusingthesamesilicon.
9.
3.
1Bluetooth5lowenergyTheRFCoreoffersfullsupportforBluetooth5lowenergy,includingthehigh-speed2-Mbpsphysicallayerandthe500-kbpsand125-kbpslongrangePHYs(CodedPHY)throughtheTIprovidedBluetooth5stackorthroughahigh-levelBluetoothAPI.
TheBluetooth5PHYandpartofthecontrollerareinradioandsystemROM,providingsignificantsavingsinmemoryusageandmorespaceavailableforapplications.
Thenewhigh-speedmodeallowsdatatransfersupto2Mbps,twicethespeedofBluetooth4.
2andfivetimesthespeedofBluetooth4.
0,withoutincreasingpowerconsumption.
Inadditiontofasterspeeds,thismodeofferssignificantimprovementsforenergyefficiencyandwirelesscoexistencewithreducedradiocommunicationtime.
Bluetooth5alsoenablesunparalleledflexibilityforadjustmentofspeedandrangebasedonapplicationneeds,whichcapitalizesonthehigh-speedorlong-rangemodesrespectively.
Datatransfersarenowpossibleat2Mbps,enablingdevelopmentofapplicationsusingvoice,audio,imaging,anddataloggingthatwerenotpreviouslyanoptionusingBluetoothlowenergy.
Withhigh-speedmode,existingapplicationsdeliverfasterresponses,richerengagement,andlongerbatterylife.
Bluetooth5enablesfast,reliablefirmwareupdates.
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4MemoryTheupto352-KBnonvolatile(Flash)memoryprovidesstorageforcodeanddata.
Theflashmemoryisin-systemprogrammableanderasable.
ThelastflashmemorysectormustcontainaCustomerConfigurationsection(CCFG)thatisusedbybootROMandTIprovideddriverstoconfigurethedevice.
Thisconfigurationisdonethroughtheccfg.
csourcefilethatisincludedinallTIprovidedexamples.
Theultra-lowleakagesystemstaticRAM(SRAM)issplitintouptofive16-KBblocksandcanbeusedforbothstorageofdataandexecutionofcode.
RetentionofSRAMcontentsinStandbypowermodeisenabledbydefaultandincludedinStandbymodepowerconsumptionnumbers.
Paritycheckingfordetectionofbiterrorsinmemoryisbuilt-in,whichreduceschip-levelsofterrorsandtherebyincreasesreliability.
SystemSRAMisalwaysinitializedtozeroesuponcodeexecutionfromboot.
Toimprovecodeexecutionspeedandlowerpowerwhenexecutingcodefromnonvolatilememory,a4-waynonassociative8-KBcacheisenabledbydefaulttocacheandprefetchinstructionsreadbythesystemCPU.
Thecachecanbeusedasageneral-purposeRAMbyenablingthisfeatureintheCustomerConfigurationArea(CCFG).
Thereisa4-KBultra-lowleakageSRAMavailableforusewiththeSensorControllerEnginewhichistypicallyusedforstoringSensorControllerprograms,dataandconfigurationparameters.
ThisRAMisalsoaccessiblebythesystemCPU.
TheSensorControllerRAMisnotclearedtozeroesbetweensystemresets.
TheROMincludesaTI-RTOSkernelandlow-leveldrivers,aswellassignificantpartsofselectedradiostacks,whichfreesupflashmemoryfortheapplication.
TheROMalsocontainsaserial(SPIandUART)bootloaderthatcanbeusedforinitialprogrammingofthedevice.
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5SensorControllerTheSensorControllercontainscircuitrythatcanbeselectivelyenabledinbothStandbyandActivepowermodes.
TheperipheralsinthisdomaincanbecontrolledbytheSensorControllerEngine,whichisaproprietarypower-optimizedCPU.
ThisCPUcanreadandmonitorsensorsorperformothertasksautonomously;therebysignificantlyreducingpowerconsumptionandoffloadingthesystemCPU.
TheSensorControllerEngineisuserprogrammablewithasimpleprogramminglanguagethathasasyntaxsimilartoC.
Thisprogrammabilityallowsforsensorpollingandothertaskstobespecifiedassequentialalgorithmsratherthanstaticconfigurationofcomplexperipheralmodules,timers,DMA,registerprogrammablestatemachines,oreventrouting.
Themainadvantagesare:Flexibility-datacanbereadandprocessedinunlimitedmannerswhilestillensuringultra-lowpower2MHzlow-powermodeenableslowestpossiblehandlingofdigitalsensorsDynamicreuseofhardwareresources40-bitaccumulatorsupportingmultiplication,additionandshiftObservabilityanddebuggingoptionsSensorControllerStudioisusedtowrite,test,anddebugcodefortheSensorController.
ThetoolproducesCdriversourcecode,whichtheSystemCPUapplicationusestocontrolandexchangedatawiththeSensorController.
Typicalusecasesmaybe(butarenotlimitedto)thefollowing:ReadanalogsensorsusingintegratedADCorcomparatorsInterfacedigitalsensorsusingGPIOs,SPI,UART,orI2C(UARTandI2Carebit-banged)CapacitivesensingWaveformgenerationVerylow-powerpulsecounting(flowmetering)KeyscanTheSensorControllerperipheralsincludethefollowing:Thelow-powerclockedcomparatorcanbeusedtowakethesystemCPUfromanystateinwhichthecomparatorisactive.
AconfigurableinternalreferenceDACcanbeusedinconjunctionwiththecomparator.
TheoutputofthecomparatorcanalsobeusedtotriggeraninterruptortheADC.
Capacitivesensingfunctionalityisimplementedthroughtheuseofaconstantcurrentsource,atime-to-digitalconverter,andacomparator.
Thecontinuoustimecomparatorinthisblockcanalsobeusedasahigher-accuracyalternativetothelow-powerclockedcomparator.
TheSensorControllertakescareofbaselinetracking,hysteresis,filtering,andotherrelatedfunctionswhenthesemodulesareusedforcapacitivesensing.
TheADCisa12-bit,200-ksamples/sADCwitheightinputsandabuilt-involtagereference.
TheADCcanbetriggeredbymanydifferentsourcesincludingtimers,I/Opins,software,andcomparators.
TheanalogmodulescanconnecttouptoeightdifferentGPIOsDedicatedSPImasterwithupto6MHzclockspeedTheSensorControllerperipheralscanalsobecontrolledfromthemainapplicationprocessor.
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6CryptographyTheCC2642R-Q1devicecomeswithawidesetofmoderncryptography-relatedhardwareaccelerators,drasticallyreducingcodefootprintandexecutiontimeforcryptographicoperations.
Italsohasthebenefitofbeinglowerpowerandimprovesavailabilityandresponsivenessofthesystembecausethecryptographyoperationsrunsinabackgroundhardwarethread.
Togetherwithalargeselectionofopen-sourcecryptographylibrariesprovidedwiththeSoftwareDevelopmentKit(SDK),thisallowsforsecureandfutureproofIoTapplicationstobeeasilybuiltontopoftheplatform.
Thehardwareacceleratormodulesare:TrueRandomNumberGenerator(TRNG)moduleprovidesatrue,nondeterministicnoisesourceforthepurposeofgeneratingkeys,initializationvectors(IVs),andotherrandomnumberrequirements.
TheTRNGisbuilton24ringoscillatorsthatcreateunpredictableoutputtofeedacomplexnonlinear-combinatorialcircuit.
SecureHashAlgorithm2(SHA-2)withsupportforSHA224,SHA256,SHA384,andSHA512AdvancedEncryptionStandard(AES)with128and256bitkeylengthsPublicKeyAccelerator-Hardwareacceleratorsupportingmathematicaloperationsneededforellipticcurvesupto512bitsandRSAkeypairgenerationupto1024bits.
ThroughuseofthesemodulesandtheTIprovidedcryptographydrivers,thefollowingcapabilitiesareavailableforanapplicationorstack:KeyAgreementSchemes–EllipticcurveDiffie–Hellmanwithstaticorephemeralkeys(ECDHandECDHE)–EllipticcurvePasswordAuthenticatedKeyExchangebyJuggling(ECJ-PAKE)SignatureGeneration–EllipticcurveDiffie-HellmanDigitalSignatureAlgorithm(ECDSA)CurveSupport–ShortWeierstrassform(fullhardwaresupport),suchas:NIST-P224,NIST-P256,NIST-P384,NIST-P521Brainpool-256R1,Brainpool-384R1,Brainpool-512R1secp256r1–Montgomeryform(hardwaresupportformultiplication),suchas:Curve25519SHA2basedMACs–HMACwithSHA224,SHA256,SHA384,orSHA512Blockciphermodeofoperation–AESCCM–AESGCM–AESECB–AESCBC–AESCBC-MACTruerandomnumbergenerationOthercapabilities,suchasRSAencryptionandsignaturesaswellasEdwardstypeofellipticcurvessuchasCurve1174orEd25519,canalsobeimplementedusingtheprovidedhardwareacceleratorsbutarenotpartoftheTISimpleLinkSDKfortheCC2642R-Q1device.
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7TimersAlargeselectionoftimersareavailableaspartoftheCC2642R-Q1device.
Thesetimersare:Real-TimeClock(RTC)A70-bit3-channeltimerrunningonthe32kHzlowfrequencysystemclock(SCLK_LF)ThistimerisavailableinallpowermodesexceptShutdown.
ThetimercanbecalibratedtocompensateforfrequencydriftwhenusingtheRCOSC_LFasthelowfrequencysystemclock.
IfanexternalLFclockwithfrequencydifferentfrom32.
768kHzisused,theRTCtickspeedcanbeadjustedtocompensateforthis.
WhenusingTI-RTOS,theRTCisusedasthebasetimerintheoperatingsystemandshouldthusonlybeaccessedthroughthekernelAPIssuchastheClockmodule.
TherealtimeclockcanalsobereadbytheSensorControllerEnginetotimestampsensordataandalsohasdedicatedcapturechannels.
Bydefault,theRTChaltswhenadebuggerhaltsthedevice.
General-PurposeTimers(GPTIMER)ThefourflexibleGPTIMERscanbeusedaseither4*32bittimersor8*16bittimers,allrunningonupto48MHz.
Eachofthe16-or32-bittimerssupportawiderangeoffeaturessuchasone-shotorperiodiccounting,pulsewidthmodulation(PWM),timecountingbetweenedgesandedgecounting.
Theinputsandoutputsofthetimerareconnectedtothedeviceeventfabric,whichallowsthetimerstointeractwithsignalssuchasGPIOinputs,othertimers,DMAandADC.
TheGPTIMERsareavailableinActiveandIdlepowermodes.
SensorControllerTimersTheSensorControllercontains3timers:AUXTimer0and1are16-bittimerswitha2Nprescaler.
Timerscaneitherincrementonaclockoroneachedgeofaselectedticksource.
Bothone-shotandperiodicaltimermodesareavailable.
AUXTimer2isa16-bittimerthatcanoperateat24MHz,2MHzor32kHzindependentoftheSensorControllerfunctionality.
Thereare4captureorcomparechannels,whichcanbeoperatedinone-shotorperiodicalmodes.
ThetimercanbeusedtogenerateeventsfortheSensorControllerEngineortheADC,aswellasforPWMoutputorwaveformgeneration.
RadioTimerAmultichannel32-bittimerrunningat4MHzisavailableaspartofthedeviceradio.
Theradiotimeristypicallyusedasthetimingbaseinwirelessnetworkcommunicationusingthe32-bittimingwordasthenetworktime.
TheradiotimerissynchronizedwiththeRTCbyusingadedicatedradioAPIwhenthedeviceradioisturnedonoroff.
Thisensuresthatforanetworkstack,theradiotimerseemstoalwaysberunningwhentheradioisenabled.
TheradiotimerisinmostcasesusedindirectlythroughthetriggertimefieldsintheradioAPIsandshouldonlybeusedwhenrunningtheaccurate48MHzhighfrequencycrystalasthesourceofSCLK_HF.
WatchdogtimerThewatchdogtimerisusedtoregaincontrolifthesystemoperatesincorrectlyduetosoftwareerrors.
Itistypicallyusedtogenerateaninterrupttoandresetofthedeviceforthecasewhereperiodicmonitoringofthesystemcomponentsandtasksfailstoverifyproperfunctionality.
Thewatchdogtimerrunsona1.
5MHzclockrateandcannotbestoppedonceenabled.
ThewatchdogtimerpausestoruninStandbypowermodeandwhenadebuggerhaltsthedevice.
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8SerialPeripheralsandI/OTheSSIsaresynchronousserialinterfacesthatarecompatiblewithSPI,MICROWIRE,andTI'ssynchronousserialinterfaces.
TheSSIssupportbothSPImasterandslaveupto4MHz.
TheSSImodulessupportconfigurablephaseandpolarity.
TheUARTsimplementuniversalasynchronousreceiverandtransmitterfunctions.
Theysupportflexiblebaud-rategenerationuptoamaximumof3Mbps.
TheI2Sinterfaceisusedtohandledigitalaudioandcanalsobeusedtointerfacepulse-densitymodulationmicrophones(PDM).
TheI2CinterfaceisalsousedtocommunicatewithdevicescompatiblewiththeI2Cstandard.
TheI2Cinterfacecanhandle100kHzand400kHzoperation,andcanserveasbothmasterandslave.
TheI/Ocontroller(IOC)controlsthedigitalI/OpinsandcontainsmultiplexercircuitrytoallowasetofperipheralstobeassignedtoI/Opinsinaflexiblemanner.
AlldigitalI/Osareinterruptandwake-upcapable,haveaprogrammablepullupandpulldownfunction,andcangenerateaninterruptonanegativeorpositiveedge(configurable).
Whenconfiguredasanoutput,pinscanfunctionaseitherpush-pulloropen-drain.
FiveGPIOshavehigh-drivecapabilities,whicharemarkedinboldinSection7.
Alldigitalperipheralscanbeconnectedtoanydigitalpinonthedevice.
Formoreinformation,seetheCC13x2,CC26x2SimpleLinkWirelessMCUTechnicalReferenceManual.
9.
9BatteryandTemperatureMonitorAcombinedtemperatureandbatteryvoltagemonitorisavailableintheCC2642R-Q1device.
Thebatteryandtemperaturemonitorallowsanapplicationtocontinuouslymonitoron-chiptemperatureandsupplyvoltageandrespondtochangesinenvironmentalconditionsasneeded.
ThemodulecontainswindowcomparatorstointerruptthesystemCPUwhentemperatureorsupplyvoltagegooutsidedefinedwindows.
TheseeventscanalsobeusedtowakeupthedevicefromStandbymodethroughtheAlways-On(AON)eventfabric.
9.
10DMAThedeviceincludesadirectmemoryaccess(DMA)controller.
TheDMAcontrollerprovidesawaytooffloaddata-transfertasksfromthesystemCPU,thusallowingformoreefficientuseoftheprocessorandtheavailablebusbandwidth.
TheDMAcontrollercanperformatransferbetweenmemoryandperipherals.
TheDMAcontrollerhasdedicatedchannelsforeachsupportedon-chipmoduleandcanbeprogrammedtoautomaticallyperformtransfersbetweenperipheralsandmemorywhentheperipheralisreadytotransfermoredata.
SomefeaturesoftheDMAcontrollerincludethefollowing(thisisnotanexhaustivelist):Highlyflexibleandconfigurablechanneloperationofupto32channelsTransfermodes:memory-to-memory,memory-to-peripheral,peripheral-to-memory,andperipheral-to-peripheralDatasizesof8,16,and32bitsPing-pongmodeforcontinuousstreamingofdata9.
11DebugTheon-chipdebugsupportisdonethroughadedicatedcJTAG(IEEE1149.
7)orJTAG(IEEE1149.
1)interface.
ThedevicebootsbydefaultintocJTAGmodeandmustbereconfiguredtouse4-pinJTAG.
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12PowerManagementTominimizepowerconsumption,theCC2642R-Q1supportsanumberofpowermodesandpowermanagementfeatures(seeTable9-1).
Table9-1.
PowerModesMODESOFTWARECONFIGURABLEPOWERMODESRESETPINHELDACTIVEIDLESTANDBYSHUTDOWNCPUActiveOffOffOffOffFlashOnAvailableOffOffOffSRAMOnOnRetentionOffOffRadioAvailableAvailableOffOffOffSupplySystemOnOnDutyCycledOffOffRegisterandCPUretentionFullFullPartialNoNoSRAMretentionFullFullFullNoNo48MHzhigh-speedclock(SCLK_HF)XOSC_HForRCOSC_HFXOSC_HForRCOSC_HFOffOffOff2MHzmedium-speedclock(SCLK_MF)RCOSC_MFRCOSC_MFAvailableOffOff32kHzlow-speedclock(SCLK_LF)XOSC_LForRCOSC_LFXOSC_LForRCOSC_LFXOSC_LForRCOSC_LFOffOffPeripheralsAvailableAvailableOffOffOffSensorControllerAvailableAvailableAvailableOffOffWake-uponRTCAvailableAvailableAvailableOffOffWake-uponpinedgeAvailableAvailableAvailableAvailableOffWake-uponresetpinOnOnOnOnOnBrownoutdetector(BOD)OnOnDutyCycledOffOffPower-onreset(POR)OnOnOnOffOffWatchdogtimer(WDT)AvailableAvailablePausedOffOffInActivemode,theapplicationsystemCPUisactivelyexecutingcode.
ActivemodeprovidesnormaloperationoftheCPUandalloftheperipheralsthatarecurrentlyenabled.
Thesystemclockcanbeanyavailableclocksource(seeTable9-1).
InIdlemode,allactiveperipheralscanbeclocked,buttheApplicationCPUcoreandmemoryarenotclockedandnocodeisexecuted.
Anyinterrupteventbringstheprocessorbackintoactivemode.
InStandbymode,onlythealways-on(AON)domainisactive.
Anexternalwake-upevent,RTCevent,orSensorControllereventisrequiredtobringthedevicebacktoactivemode.
MCUperipheralswithretentiondonotneedtobereconfiguredwhenwakingupagain,andtheCPUcontinuesexecutionfromwhereitwentintostandbymode.
AllGPIOsarelatchedinstandbymode.
InShutdownmode,thedeviceisentirelyturnedoff(includingtheAONdomainandSensorController),andtheI/Osarelatchedwiththevaluetheyhadbeforeenteringshutdownmode.
AchangeofstateonanyI/Opindefinedasawakefromshutdownpinwakesupthedeviceandfunctionsasaresettrigger.
TheCPUcandifferentiatebetweenresetinthiswayandreset-by-resetpinorpower-onresetbyreadingtheresetstatusregister.
TheonlystateretainedinthismodeisthelatchedI/Ostateandtheflashmemorycontents.
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com48SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedTheSensorControllerisanautonomousprocessorthatcancontroltheperipheralsintheSensorInterfaceindependentlyofthesystemCPU.
ThismeansthatthesystemCPUdoesnothavetowakeup,forexampletoperformanADCsamplingorpolladigitalsensoroverSPI,thussavingbothcurrentandwake-uptimethatwouldotherwisebewasted.
TheSensorControllerStudiotoolenablestheusertoprogramtheSensorController,controlitsperipherals,andwakeupthesystemCPUasneeded.
AllSensorControllerperipheralscanalsobecontrolledbythesystemCPU.
NoteThepower,RFandclockmanagementfortheCC2642R-Q1devicerequirespecificconfigurationandhandlingbysoftwareforoptimizedperformance.
ThisconfigurationandhandlingisimplementedintheTI-provideddriversthatarepartoftheCC2642R-Q1softwaredevelopmentkit(SDK).
Therefore,TIhighlyrecommendsusingthissoftwareframeworkforallapplicationdevelopmentonthedevice.
ThecompleteSDKwithTI-RTOS,devicedrivers,andexamplesareofferedfreeofchargeinsourcecode.
9.
13ClockSystemsTheCC2642R-Q1devicehasseveralinternalsystemclocks.
The48MHzSCLK_HFisusedasthemainsystem(MCUandperipherals)clock.
Thiscanbedrivenbytheinternal48MHzRCOscillator(RCOSC_HF)oranexternal48MHzcrystal(XOSC_HF).
Radiooperationrequiresanexternal48MHzcrystal.
SCLK_MFisaninternal2MHzclockthatisusedbytheSensorControllerinlow-powermodeandalsoforinternalpowermanagementcircuitry.
TheSCLK_MFclockisalwaysdrivenbytheinternal2MHzRCOscillator(RCOSC_MF).
SCLK_LFisthe32.
768kHzinternallow-frequencysystemclock.
ItcanbeusedbytheSensorControllerforultra-low-poweroperationandisalsousedfortheRTCandtosynchronizetheradiotimerbeforeorafterStandbypowermode.
SCLK_LFcanbedrivenbytheinternal32.
8kHzRCOscillator(RCOSC_LF),a32.
768kHzwatch-typecrystal,oraclockinputonanydigitalIO.
WhenusingacrystalortheinternalRCoscillator,thedevicecanoutputthe32kHzSCLK_LFsignaltootherdevices,therebyreducingtheoverallsystemcost.
9.
14NetworkProcessorDependingontheproductconfiguration,theCC2642R-Q1devicecanfunctionasawirelessnetworkprocessor(WNP-adevicerunningthewirelessprotocolstackwiththeapplicationrunningonaseparatehostMCU),orasasystem-on-chip(SoC)withtheapplicationandprotocolstackrunningonthesystemCPUinsidethedevice.
Inthefirstcase,theexternalhostMCUcommunicateswiththedeviceusingSPIorUART.
Inthesecondcase,theapplicationmustbewrittenaccordingtotheapplicationframeworksuppliedwiththewirelessprotocolstack.
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TI'scustomersareresponsiblefordeterminingsuitabilityofcomponentsfortheirpurposes.
Customersshouldvalidateandtesttheirdesignimplementationtoconfirmsystemfunctionality.
Forgeneraldesignguidelinesandhardwareconfigurationguidelines,refertoCC13xx/CC26xxHardwareConfigurationandPCBDesignConsiderationsApplicationReport.
10.
1ReferenceDesignsThefollowingreferencedesignsshouldbefollowedcloselywhenimplementingdesignsusingtheCC2642R-Q1device.
SpecialattentionmustbepaidtoRFcomponentplacement,decouplingcapacitorsandDC/DCregulatorcomponents,aswellasgroundconnectionsforallofthese.
CC26x2REM-7ID-Q1DesignFilesSPACERTheCC26x2REM-7ID-Q1referencedesignprovidesschematic,layoutandproductionfilesforthecharacterizationboardusedforderivingtheperformancenumberfoundinthisdocument.
LAUNCHXL-CC26X2R1DesignFilesSPACERTheCC26X2RLaunchPadDesignFilescontaindetailedschematicsandlayoutstobuildapplicationspecificboardsusingtheCC2642R-Q1device.
Sub-1GHzand2.
4GHzAntennaKitforLaunchPadDevelopmentKitandSensorTagSPACERTheantennakitallowsreal-lifetestingtoidentifytheoptimalantennaforyourapplication.
Theantennakitincludes16antennascoveringfrequenciesfrom169MHzto2.
4GHz,including:PCBantennasHelicalantennasChipantennasDual-bandantennasfor868MHzand915MHzcombinedwith2.
4GHzTheantennakitincludesaJSCcabletoconnecttotheWirelessMCULaunchPadDevelopmentKitsandSensorTags.
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2JunctionTemperatureCalculationThissectionshowsthedifferenttechniquesforcalculatingthejunctiontemperatureundervariousoperatingconditions.
Formoredetails,seeSemiconductorandICPackageThermalMetrics.
Therearethreerecommendedwaystoderivethejunctiontemperaturefromothermeasuredtemperatures:1.
Frompackagetemperature:TJ=ψJT*P+Tcase(1)2.
Fromboardtemperature:TJ=ψJB*P+Tboard(2)3.
Fromambienttemperature:TJ=RθJA*P+TA(3)Pisthepowerdissipatedfromthedeviceandcanbecalculatedbymultiplyingcurrentconsumptionwithsupplyvoltage.
ThermalresistancecoefficientsarefoundinSection8.
8.
Example:UsingEquation3,thetemperaturedifferencebetweenambienttemperatureandjunctiontemperatureiscalculated.
Inthisexample,weassumeasimpleusecasewheretheradioistransmittingcontinuouslyat0dBmoutputpower.
Letusassumetheambienttemperatureis105°Candthesupplyvoltageis3V.
TocalculateP,weneedtolookupthecurrentconsumptionforTxat105°CinFigure8-9.
Fromtheplot,weseethatthecurrentconsumptionis7.
9mA.
ThismeansthatPis7.
9mA*3V=23.
7mW.
Thejunctiontemperatureisthencalculatedas:TJ=23.
0°CW*23.
7mW+TA=0.
5°C+TA(4)Ascanbeseenfromtheexample,thejunctiontemperaturewillbe0.
5°ChigherthantheambienttemperaturewhenrunningcontinuousTxat105°C.
Forvariousapplicationusecasescurrentconsumptionforothermodulesmayhavetobeaddedtocalculatetheappropriatepowerdissipation.
Forexample,theMCUmayberunningsimultaneouslyastheradio,peripheralmodulesmaybeenabled,etc.
Typically,theeasiestwaytofindthepeakcurrentconsumption,andthusthepeakpowerdissipationinthedevice,istomeasureasdescribedinMeasuringCC13xxandCC26xxcurrentconsumption.
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Toolsandsoftwaretoevaluatetheperformanceofthedevice,generatecode,anddevelopsolutionsarelistedasfollows.
11.
1ToolsandSoftwareTheCC2642R-Q1deviceissupportedbyavarietyofsoftwareandhardwaredevelopmenttools.
DevelopmentKitCC26x2LaunchPadDevelopmentKitTheCC26x2RLaunchPadDevelopmentKitenablesdevelopmentofhigh-performancewirelessapplicationsthatbenefitfromlow-poweroperation.
ThekitfeaturestheCC2652RSimpleLinkWirelessMCU,whichallowsquickevaluationandprototypingof2.
4-GHzwirelessapplicationssuchasBluetooth5.
1LowEnergy,ZigbeeandThread,pluscombinationsofthese.
ThekitworkswiththeLaunchPadecosystem,easilyenablingadditionalfunctionalitylikesensors,displayandmore.
Thebuilt-inEnergyTracesoftwareisanenergy-basedcodeanalysistoolthatmeasuresanddisplaystheapplication'senergyprofileandhelpstooptimizeitforultra-low-powerconsumption.
SeeSection6forguidanceinselectingthecorrectdeviceforsingle-protocolproducts.
SoftwareSimpleLinkCC13X2-CC26X2SDKTheSimpleLinkCC13X2-CC26X2SoftwareDevelopmentKit(SDK)providesacompletepackageforthedevelopmentofwirelessapplicationsontheCC13X2/CC26X2familyofdevices.
TheSDKincludesacomprehensivesoftwarepackagefortheCC2642R-Q1device,includingthefollowingprotocolstacks:BluetoothLowEnergy4and5Thread(basedonOpenThread)Zigbee3.
0TI15.
4-Stack-anIEEE802.
15.
4-basedstarnetworkingsolutionforSub-1GHzand2.
4GHzEasyLink-alargesetofbuildingblocksforbuildingproprietaryRFsoftwarestacksMultiprotocolsupport-concurrentoperationbetweenstacksusingtheDynamicMultiprotocolManager(DMM)TheSimpleLinkCC13X2-CC26X2SDKispartofTI'sSimpleLinkMCUplatform,offeringasingledevelopmentenvironmentthatdeliversflexiblehardware,softwareandtooloptionsforcustomersdevelopingwiredandwirelessapplications.
FormoreinformationabouttheSimpleLinkMCUPlatform,visithttp://www.
ti.
com/simplelink.
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com52SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedDevelopmentToolsCodeComposerStudioIntegratedDevelopmentEnvironment(IDE)CodeComposerStudioisanintegrateddevelopmentenvironment(IDE)thatsupportsTI'sMicrocontrollerandEmbeddedProcessorsportfolio.
CodeComposerStudiocomprisesasuiteoftoolsusedtodevelopanddebugembeddedapplications.
ItincludesanoptimizingC/C++compiler,sourcecodeeditor,projectbuildenvironment,debugger,profiler,andmanyotherfeatures.
TheintuitiveIDEprovidesasingleuserinterfacetakingyouthrougheachstepoftheapplicationdevelopmentflow.
Familiartoolsandinterfacesallowuserstogetstartedfasterthaneverbefore.
CodeComposerStudiocombinestheadvantagesoftheEclipsesoftwareframeworkwithadvancedembeddeddebugcapabilitiesfromTIresultinginacompellingfeature-richdevelopmentenvironmentforembeddeddevelopers.
CCShassupportforallSimpleLinkWirelessMCUsandincludessupportforEnergyTracesoftware(applicationenergyusageprofiling).
Areal-timeobjectviewerpluginisavailableforTI-RTOS,partoftheSimpleLinkSDK.
CodeComposerStudioisprovidedfreeofchargewhenusedinconjunctionwiththeXDSdebuggersincludedonaLaunchPadDevelopmentKit.
CodeComposerStudioCloudIDECodeComposerStudio(CCS)Cloudisaweb-basedIDEthatallowsyoutocreate,editandbuildCCSandEnergiaprojects.
Afteryouhavesuccessfullybuiltyourproject,youcandownloadandrunitonyourconnectedLaunchPad.
Basicdebugging,includingfeatureslikesettingbreakpointsandviewingvariablevaluesisnowsupportedwithCCSCloud.
IAREmbeddedWorkbenchforArmIAREmbeddedWorkbenchisasetofdevelopmenttoolsforbuildinganddebuggingembeddedsystemapplicationsusingassembler,CandC++.
Itprovidesacompletelyintegrateddevelopmentenvironmentthatincludesaprojectmanager,editor,andbuildtools.
IARhassupportforallSimpleLinkWirelessMCUs.
Itoffersbroaddebuggersupport,includingXDS110,IARI-jetandSeggerJ-Link.
Areal-timeobjectviewerpluginisavailableforTI-RTOS,partoftheSimpleLinkSDK.
IARisalsosupportedout-of-the-boxonmostsoftwareexamplesprovidedaspartoftheSimpleLinkSDK.
A30-dayevaluationora32KBsize-limitedversionisavailablethroughiar.
com.
SmartRFStudioSmartRFStudioisaWindowsapplicationthatcanbeusedtoevaluateandconfigureSimpleLinkWirelessMCUsfromTexasInstruments.
TheapplicationwillhelpdesignersofRFsystemstoeasilyevaluatetheradioatanearlystageinthedesignprocess.
ItisespeciallyusefulforgenerationofconfigurationregistervaluesandforpracticaltestinganddebuggingoftheRFsystem.
SmartRFStudiocanbeusedeitherasastandaloneapplicationortogetherwithapplicableevaluationboardsordebugprobesfortheRFdevice.
FeaturesoftheSmartRFStudioinclude:Linktests-sendandreceivepacketsbetweennodesAntennaandradiationtests-settheradioincontinuouswaveTXandRXstatesExportradioconfigurationcodeforusewiththeTISimpleLinkSDKRFdriverCustomGPIOconfigurationforsignalingandcontrolofexternalswitcheswww.
ti.
comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback53SensorControllerStudioSensorControllerStudioisusedtowrite,testanddebugcodefortheSensorControllerperipheral.
ThetoolgeneratesaSensorControllerInterfacedriver,whichisasetofCsourcefilesthatarecompiledintotheSystemCPUapplication.
ThesesourcefilesalsocontaintheSensorControllerbinaryimageandallowtheSystemCPUapplicationtocontrolandexchangedatawiththeSensorController.
FeaturesoftheSensorControllerStudioinclude:Ready-to-useexamplesforseveralcommonusecasesFulltoolchainwithbuilt-incompilerandassemblerforprogramminginaC-likeprogramminglanguageProvidesrapiddevelopmentbyusingtheintegratedsensorcontrollertasktestinganddebuggingfunctionality,includingvisualizationofsensordataandverificationofalgorithmsCCSUniFlashCCSUniFlashisastandalonetoolusedtoprogramon-chipflashmemoryonTIMCUs.
UniFlashhasaGUI,commandline,andscriptinginterface.
CCSUniFlashisavailablefreeofcharge.
11.
1.
1SimpleLinkMicrocontrollerPlatformTheSimpleLinkmicrocontrollerplatformsetsanewstandardfordeveloperswiththebroadestportfolioofwiredandwirelessArmMCUs(System-on-Chip)inasinglesoftwaredevelopmentenvironment.
Deliveringflexiblehardware,softwareandtooloptionsforyourIoTapplications.
InvestonceintheSimpleLinksoftwaredevelopmentkitanduseitthroughoutyourentireportfolio.
Learnmoreonti.
com/simplelink.
11.
2DocumentationSupportToreceivenotificationofdocumentationupdatesondatasheets,errata,applicationnotesandsimilar,navigatetothedeviceproductfolderonti.
com/product/CC2642R-Q1.
Intheupperrightcorner,clickonAlertmetoregisterandreceiveaweeklydigestofanyproductinformationthathaschanged.
Forchangedetails,reviewtherevisionhistoryincludedinanyreviseddocument.
ThecurrentdocumentationthatdescribestheMCU,relatedperipherals,andothertechnicalcollateralislistedasfollows.
TIResourceExplorerTIResourceExplorerSPACERSoftwareexamples,libraries,executables,anddocumentationareavailableforyourdeviceanddevelopmentboard.
ErrataCC2642R-Q1SiliconErrataSPACERThesiliconerratadescribestheknownexceptionstothefunctionalspecificationsforeachsiliconrevisionofthedeviceanddescriptiononhowtorecognizeadevicerevision.
ApplicationReportsAllapplicationreportsfortheCC2642R-Q1devicearefoundonthedeviceproductfolderat:ti.
com/product/CC2642R-Q1.
CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
ti.
com54SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedTechnicalReferenceManual(TRM)CC13x2,CC26x2SimpleLinkWirelessMCUTRMSPACERTheTRMprovidesadetaileddescriptionofallmodulesandperipheralsavailableinthedevicefamily.
11.
3SupportResourcesTIE2Esupportforumsareanengineer'sgo-tosourceforfast,verifiedanswersanddesignhelp—straightfromtheexperts.
Searchexistinganswersoraskyourownquestiontogetthequickdesignhelpyouneed.
Linkedcontentisprovided"ASIS"bytherespectivecontributors.
TheydonotconstituteTIspecificationsanddonotnecessarilyreflectTI'sviews;seeTI'sTermsofUse.
11.
4TrademarksSmartRF,LaunchPad,EnergyTrace,CodeComposerStudio,TIE2EaretrademarksofTexasInstruments.
I-jetisatrademarkofIARSystemsAB.
J-LinkisatrademarkofSEGGERMicrocontrollerSystemeGmbH.
Arm,Cortex,andArmThumbareregisteredtrademarksofArmLimited(oritssubsidiaries).
CoreMarkisaregisteredtrademarkofEmbeddedMicroprocessorBenchmarkConsortium.
BluetoothisaregisteredtrademarkofBluetoothSIGInc.
Wi-FiisaregisteredtrademarkofWi-FiAlliance.
EclipseisaregisteredtrademarkofEclipseFoundation.
IAREmbeddedWorkbenchisaregisteredtrademarkofIARSystemsAB.
WindowsisaregisteredtrademarkofMicrosoftCorporation.
Alltrademarksarethepropertyoftheirrespectiveowners.
11.
5ElectrostaticDischargeCautionThisintegratedcircuitcanbedamagedbyESD.
TexasInstrumentsrecommendsthatallintegratedcircuitsbehandledwithappropriateprecautions.
Failuretoobserveproperhandlingandinstallationprocedurescancausedamage.
ESDdamagecanrangefromsubtleperformancedegradationtocompletedevicefailure.
Precisionintegratedcircuitsmaybemoresusceptibletodamagebecauseverysmallparametricchangescouldcausethedevicenottomeetitspublishedspecifications.
11.
6GlossaryTIGlossaryThisglossarylistsandexplainsterms,acronyms,anddefinitions.
www.
ti.
comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback5512Mechanical,Packaging,andOrderableInformation12.
1PackagingInformationThefollowingpagesincludemechanicalpackagingandorderableinformation.
Thisinformationisthemostcurrentdataavailableforthedesignateddevices.
Thisdataissubjecttochangewithoutnoticeandrevisionofthisdocument.
Forbrowser-basedversionsofthisdatasheet,refertotheleft-handnavigation.
CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
ti.
com56SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedwww.
ti.
comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback57CC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020www.
ti.
com58SubmitDocumentFeedbackCopyright2020TexasInstrumentsIncorporatedwww.
ti.
comCC2642R-Q1SWRS229A–JANUARY2020–REVISEDOCTOBER2020Copyright2020TexasInstrumentsIncorporatedSubmitDocumentFeedback59PACKAGEOPTIONADDENDUMwww.
ti.
com10-Dec-2020Addendum-Page1PACKAGINGINFORMATIONOrderableDeviceStatus(1)PackageTypePackageDrawingPinsPackageQtyEcoPlan(2)Leadfinish/Ballmaterial(6)MSLPeakTemp(3)OpTemp(°C)DeviceMarking(4/5)SamplesCC2642R1TWFRTCRQ1ACTIVEVQFNRTC482500RoHS&GreenNIPDAUAGLevel-3-260C-168HR-40to105CC2642Q1R1F(1)Themarketingstatusvaluesaredefinedasfollows:ACTIVE:Productdevicerecommendedfornewdesigns.
LIFEBUY:TIhasannouncedthatthedevicewillbediscontinued,andalifetime-buyperiodisineffect.
NRND:Notrecommendedfornewdesigns.
Deviceisinproductiontosupportexistingcustomers,butTIdoesnotrecommendusingthispartinanewdesign.
PREVIEW:Devicehasbeenannouncedbutisnotinproduction.
Samplesmayormaynotbeavailable.
OBSOLETE:TIhasdiscontinuedtheproductionofthedevice.
(2)RoHS:TIdefines"RoHS"tomeansemiconductorproductsthatarecompliantwiththecurrentEURoHSrequirementsforall10RoHSsubstances,includingtherequirementthatRoHSsubstancedonotexceed0.
1%byweightinhomogeneousmaterials.
Wheredesignedtobesolderedathightemperatures,"RoHS"productsaresuitableforuseinspecifiedlead-freeprocesses.
TImayreferencethesetypesofproductsas"Pb-Free".
RoHSExempt:TIdefines"RoHSExempt"tomeanproductsthatcontainleadbutarecompliantwithEURoHSpursuanttoaspecificEURoHSexemption.
Green:TIdefines"Green"tomeanthecontentofChlorine(Cl)andBromine(Br)basedflameretardantsmeetJS709Blowhalogenrequirementsof<=1000ppmthreshold.
Antimonytrioxidebasedflameretardantsmustalsomeetthe<=1000ppmthresholdrequirement.
(3)MSL,PeakTemp.
-TheMoistureSensitivityLevelratingaccordingtotheJEDECindustrystandardclassifications,andpeaksoldertemperature.
(4)Theremaybeadditionalmarking,whichrelatestothelogo,thelottracecodeinformation,ortheenvironmentalcategoryonthedevice.
(5)MultipleDeviceMarkingswillbeinsideparentheses.
OnlyoneDeviceMarkingcontainedinparenthesesandseparatedbya"~"willappearonadevice.
IfalineisindentedthenitisacontinuationofthepreviouslineandthetwocombinedrepresenttheentireDeviceMarkingforthatdevice.
(6)Leadfinish/Ballmaterial-OrderableDevicesmayhavemultiplematerialfinishoptions.
Finishoptionsareseparatedbyaverticalruledline.
Leadfinish/Ballmaterialvaluesmaywraptotwolinesifthefinishvalueexceedsthemaximumcolumnwidth.
ImportantInformationandDisclaimer:TheinformationprovidedonthispagerepresentsTI'sknowledgeandbeliefasofthedatethatitisprovided.
TIbasesitsknowledgeandbeliefoninformationprovidedbythirdparties,andmakesnorepresentationorwarrantyastotheaccuracyofsuchinformation.
Effortsareunderwaytobetterintegrateinformationfromthirdparties.
TIhastakenandcontinuestotakereasonablestepstoproviderepresentativeandaccurateinformationbutmaynothaveconducteddestructivetestingorchemicalanalysisonincomingmaterialsandchemicals.
TIandTIsuppliersconsidercertaininformationtobeproprietary,andthusCASnumbersandotherlimitedinformationmaynotbeavailableforrelease.
InnoeventshallTI'sliabilityarisingoutofsuchinformationexceedthetotalpurchasepriceoftheTIpart(s)atissueinthisdocumentsoldbyTItoCustomeronanannualbasis.
PACKAGEOPTIONADDENDUMwww.
ti.
com10-Dec-2020Addendum-Page2OTHERQUALIFIEDVERSIONSOFCC2642R-Q1:Catalog:CC2642RNOTE:QualifiedVersionDefinitions:Catalog-TI'sstandardcatalogproductTAPEANDREELINFORMATION*AlldimensionsarenominalDevicePackageTypePackageDrawingPinsSPQReelDiameter(mm)ReelWidthW1(mm)A0(mm)B0(mm)K0(mm)P1(mm)W(mm)Pin1QuadrantCC2642R1TWFRTCRQ1VQFNRTC482500330.
016.
47.
37.
31.
112.
016.
0Q2PACKAGEMATERIALSINFORMATIONwww.
ti.
com19-Nov-2020PackMaterials-Page1*AlldimensionsarenominalDevicePackageTypePackageDrawingPinsSPQLength(mm)Width(mm)Height(mm)CC2642R1TWFRTCRQ1VQFNRTC482500336.
6336.
631.
8PACKAGEMATERIALSINFORMATIONwww.
ti.
com19-Nov-2020PackMaterials-Page2IMPORTANTNOTICEANDDISCLAIMERTIPROVIDESTECHNICALANDRELIABILITYDATA(INCLUDINGDATASHEETS),DESIGNRESOURCES(INCLUDINGREFERENCEDESIGNS),APPLICATIONOROTHERDESIGNADVICE,WEBTOOLS,SAFETYINFORMATION,ANDOTHERRESOURCES"ASIS"ANDWITHALLFAULTS,ANDDISCLAIMSALLWARRANTIES,EXPRESSANDIMPLIED,INCLUDINGWITHOUTLIMITATIONANYIMPLIEDWARRANTIESOFMERCHANTABILITY,FITNESSFORAPARTICULARPURPOSEORNON-INFRINGEMENTOFTHIRDPARTYINTELLECTUALPROPERTYRIGHTS.
TheseresourcesareintendedforskilleddevelopersdesigningwithTIproducts.
Youaresolelyresponsiblefor(1)selectingtheappropriateTIproductsforyourapplication,(2)designing,validatingandtestingyourapplication,and(3)ensuringyourapplicationmeetsapplicablestandards,andanyothersafety,security,orotherrequirements.
Theseresourcesaresubjecttochangewithoutnotice.
TIgrantsyoupermissiontousetheseresourcesonlyfordevelopmentofanapplicationthatusestheTIproductsdescribedintheresource.
Otherreproductionanddisplayoftheseresourcesisprohibited.
NolicenseisgrantedtoanyotherTIintellectualpropertyrightortoanythirdpartyintellectualpropertyright.
TIdisclaimsresponsibilityfor,andyouwillfullyindemnifyTIanditsrepresentativesagainst,anyclaims,damages,costs,losses,andliabilitiesarisingoutofyouruseoftheseresources.
TI'sproductsareprovidedsubjecttoTI'sTermsofSale(www.
ti.
com/legal/termsofsale.
html)orotherapplicabletermsavailableeitheronti.
comorprovidedinconjunctionwithsuchTIproducts.
TI'sprovisionoftheseresourcesdoesnotexpandorotherwisealterTI'sapplicablewarrantiesorwarrantydisclaimersforTIproducts.
MailingAddress:TexasInstruments,PostOfficeBox655303,Dallas,Texas75265Copyright2020,TexasInstrumentsIncorporated