ENwin7如何关闭445端口

SemiconductorComponentsIndustries,LLC,2006November,2006Rev.
121PublicationOrderNumber:MC10E445/DMC10E445,MC100E4455VECL4-BitSerial/ParallelConverterDescriptionTheMC10/100E445isanintegrated4-bitserialtoparalleldataconverter.
ThedeviceisdesignedtooperateforNRZdataratesofupto2.
0Gb/s.
Thechipgeneratesadivideby4andadivideby8clockforboth4-bitconversionandatwochip8-bitconversionfunction.
TheconversionsequencewaschosentoconvertthefirstserialbittoQ0,thesecondtoQ1etc.
TwoselectableserialinputsprovidealoopbackcapabilityfortestingpurposeswhenthedeviceisusedinconjunctionwiththeE446paralleltoserialconverter.
ThestartbitforconversioncanbemovedusingtheSYNCinput.
AsinglepulseappliedasynchronouslyforatleasttwoinputclockcyclesshiftsthestartbitforconversionfromQntoQn1.
ForeachadditionalshiftrequiredanadditionalpulsemustbeappliedtotheSYNCinput.
AssertingtheSYNCinputwillforcetheinternalclockdividersto"swallow"aclockpulse,effectivelyshiftingabitfromtheQntotheQn1output(seeTimingDiagramB).
TheMODEinputisusedtoselecttheconversionmodeofthedevice.
WiththeMODEinputLOW,oropen,thedevicewillfunctionasa4-bitconverter.
WhenthemodeinputisdrivenHIGHthedataontheoutputwillchangeoneveryeighthclockcyclethusallowingforan8-bitconversionschemeusingtwoE445's.
Whencascadedinan8-bitconversionschemethedeviceswillnotoperateatthe2.
0Gb/sdatarateofasingledevice.
RefertotheapplicationssectionofthisdatasheetformoreinformationoncascadingtheE445.
Uponpower-uptheinternalflip-flopswillattainarandomstate.
TosynchronizemultipleE445'sinasystemthemasterresetmustbeasserted.
TheVBBpin,aninternallygeneratedvoltagesupply,isavailabletothisdeviceonly.
Forsingle-endedinputconditions,theunuseddifferentialinputisconnectedtoVBBasaswitchingreferencevoltage.
VBBmayalsorebiasACcoupledinputs.
Whenused,decoupleVBBandVCCviaa0.
01mFcapacitorandlimitcurrentsourcingorsinkingto0.
5mA.
Whennotused,VBBshouldbeleftopen.
The100Seriescontainstemperaturecompensation.
FeaturesOn-ChipClock÷4and÷82.
0Gb/sDataRateCapabilityDifferentialClockandSerialInputsVBBOutputforSingle-EndedInputApplicationsAsynchronousDataSynchronizationModeSelecttoExpandto8-BitsPECLModeOperatingRange:VCC=4.
2Vto5.
7VwithVEE=0VNECLModeOperatingRange:VCC=0VwithVEE=4.
2Vto5.
7VInternalInput50kWPulldownResistorsESDProtection:HumanBodyModel;>2kV,MachineModel;>100VMeetsorExceedsJEDECSpecEIA/JESD78ICLatchupTestMoistureSensitivityLevel:Pb=1;PbFree=3ForAdditionalInformation,seeApplicationNoteAND8003/DFlammabilityRating:UL94V0@0.
125in,OxygenIndex:28to34TransistorCount=528devicesPECLModeOperatingRange:VCC=4.
2Vto5.
7VwithVEE=0VPbFreePackagesareAvailable**ForadditionalinformationonourPbFreestrategyandsolderingdetails,pleasedownloadtheONSemiconductorSolderingandMountingTechniquesReferenceManual,SOLDERRM/D.
MARKINGDIAGRAM*xxx=10or100A=AssemblyLocationWL=WaferLotYY=YearWW=WorkWeekG=PbFreePackagePLCC28FNSUFFIXCASE776http://onsemi.
com*Foradditionalmarkinginformation,refertoApplicationNoteAND8002/D.
Seedetailedorderingandshippinginformationinthepackagedimensionssectiononpage11ofthisdatasheet.
ORDERINGINFORMATIONMCxxxE445FNGAWLYYWW128MC10E445,MC100E445http://onsemi.
com2VCCONCMODESINASINAQ3VCCOCL/4CL/4VCCOCL/8CL/8SOUTSOUTVCCQ0Q1VCCOQ2SINBSINBSELVEECLKCLKVBB18171615141312192021222324251110987652627281234MC10E445RESETSYNC*AllVCCandVCCOpinsaretiedtogetheronthedie.
Warning:AllVCC,VCCO,andVEEpinsmustbeexternallycon-nectedtoPowerSupplytoguaranteeproperoperation.
Figure1.
Pinout:PLCC28(TopView)Table1.
PINDESCRIPTIONPINFUNCTIONSINA,SINASINB,SINBSELQ0Q3CLK,CLKCL/4,CL/4CL/8,CL/8MODESYNCHVBBVCC,VCCOVEENCECLDifferentialSerialDataInputAECLDifferentialSerialDataInputBECLSerialInputSelectorPinECLParallelDataOutputsECLDifferentialClockInputsECLDifferential÷4ClockOutputECLDifferential÷8ClockOutputECLConversionMode4-Bit/8-BitECLConversionSynchronizingInputReferenceVoltageOutputPositiveSupplyNegativeSupplyNoConnectMC10E445,MC100E445http://onsemi.
com3QDSINBQ3SOUTSOUTCL/4CL/4CL/8CL/8SINBSINASINACLKCLKMODERESETSYNCSELQDQDQ2QDQDQ1QDQDQ0QD10÷4ROut÷2ROutLatchENOutInQDQDVBBFigure2.
LogicDiagramTable2.
FUNCTIONTABLESModeConversionSELSerialInputLH4-Bit8-BitHLABMC10E445,MC100E445http://onsemi.
com4Table3.
MAXIMUMRATINGSSymbolParameterCondition1Condition2RatingUnitVCCPECLModePowerSupplyVEE=0V8VVIPECLModeInputVoltageNECLModeInputVoltageVEE=0VVCC=0VVI≤VCCVI≥VEE66VVIoutOutputCurrentContinuousSurge50100mAmAIBBVBBSink/Source±0.
5mATAOperatingTemperatureRange0to+85°CTstgStorageTemperatureRange65to+150°CqJAThermalResistance(JunctiontoAmbient)0lfpm500lfpmPLCC28PLCC2863.
543.
5°C/W°C/WqJCThermalResistance(JunctiontoCase)StandardBoardPLCC2822to26°C/WTsolWaveSolderPbPbFree265265°CStressesexceedingMaximumRatingsmaydamagethedevice.
MaximumRatingsarestressratingsonly.
FunctionaloperationabovetheRecommendedOperatingConditionsisnotimplied.
ExtendedexposuretostressesabovetheRecommendedOperatingConditionsmayaffectdevicereliability.
MC10E445,MC100E445http://onsemi.
com5Table4.
10ESERIESPECLDCCHARACTERISTICSVCCx=5.
0V;VEE=0.
0V(Note1)0°C25°C85°CSymbolCharacteristicMinTypMaxMinTypMaxMinTypMaxUnitIEEPowerSupplyCurrent154185154185154185mAVOHOutputHIGHVoltage(Note2)398040704160402041054190409041854280mVVOHsoutOutputHIGHVoltagesout/sout397541703975417039754170mVVOLOutputLOWVoltage(Note2)305032103370305032103370305032273405mVVIHInputHIGHVoltage(SingleEnded)383039954160387040304190394041104280mVVILInputLOWVoltage(SingleEnded)305032853520305032853520305033023555mVVBBOutputVoltageReference3.
623.
743.
653.
753.
693.
81VVIHCMRInputHIGHVoltageCommonModeRange(DifferentialConfiguration)(Note3)2.
24.
62.
24.
62.
24.
6VIIHInputHIGHCurrent150150150mAIILInputLOWCurrent0.
50.
30.
50.
250.
30.
2mANOTE:Devicewillmeetthespecificationsafterthermalequilibriumhasbeenestablishedwhenmountedinatestsocketorprintedcircuitboardwithmaintainedtransverseairflowgreaterthan500lfpm.
Electricalparametersareguaranteedonlyoverthedeclaredoperatingtemperaturerange.
Functionaloperationofthedeviceexceedingtheseconditionsisnotimplied.
Devicespecificationlimitvaluesareappliedindividuallyundernormaloperatingconditionsandnotvalidsimultaneously.
1.
Inputandoutputparametersvary1:1withVCC.
VEEcanvary0.
46V/+0.
06V.
2.
Outputsareterminatedthrougha50WresistortoVCC2.
0V.
3.
VIHCMRminvaries1:1withVEE,maxvaries1:1withVCC.
Table5.
10ESERIESNECLDCCHARACTERISTICSVCCx=0.
0V;VEE=5.
0V(Note4)0°C25°C85°CSymbolCharacteristicMinTypMaxMinTypMaxMinTypMaxUnitIEEPowerSupplyCurrent154185154185154185mAVOHOutputHIGHVoltage(Note5)1020930840980895810910815720mVVOHsoutOutputHIGHVoltagesout/sout102583010258301025830mVVOLOutputLOWVoltage(Note5)195017901630195017901630195017731595mVVIHInputHIGHVoltage(SingleEnded)1170100584011309708101060970720mVVILInputLOWVoltage(SingleEnded)195017151480195017151480195016981445mVVBBOutputVoltageReference1.
381.
271.
351.
251.
311.
19VVIHCMRInputHIGHVoltageCommonModeRange(DifferentialConfiguration)(Note6)2.
80.
42.
80.
42.
80.
4VIIHInputHIGHCurrent150150150mAIILInputLOWCurrent0.
50.
30.
50.
0650.
30.
2mANOTE:Devicewillmeetthespecificationsafterthermalequilibriumhasbeenestablishedwhenmountedinatestsocketorprintedcircuitboardwithmaintainedtransverseairflowgreaterthan500lfpm.
Electricalparametersareguaranteedonlyoverthedeclaredoperatingtemperaturerange.
Functionaloperationofthedeviceexceedingtheseconditionsisnotimplied.
Devicespecificationlimitvaluesareappliedindividuallyundernormaloperatingconditionsandnotvalidsimultaneously.
4.
Inputandoutputparametersvary1:1withVCC.
VEEcanvary0.
46V/+0.
06V.
5.
Outputsareterminatedthrougha50WresistortoVCC2.
0V.
6.
VIHCMRminvaries1:1withVEE,maxvaries1:1withVCC.
MC10E445,MC100E445http://onsemi.
com6Table6.
100ESERIESPECLDCCHARACTERISTICSVCCx=5.
0V;VEE=0.
0V(Note7)0°C25°C85°CSymbolCharacteristicMinTypMaxMinTypMaxMinTypMaxUnitIEEPowerSupplyCurrent154185154185177212mAVOHOutputHIGHVoltage(Note8)397540504120397540504120397540504120mVVOHsoutOutputHIGHVoltagesout/sout397541703975417039754170mVVOLOutputLOWVoltage(Note8)319032953380319032553380319032603380mVVIHInputHIGHVoltage(SingleEnded)383539754120383539754120383539754120mVVILInputLOWVoltage(SingleEnded)319033553525319033553525319033553525mVVBBOutputVoltageReference3.
623.
743.
623.
743.
623.
74VVIHCMRInputHIGHVoltageCommonModeRange(DifferentialConfigurationConfiguration)(Note9)2.
24.
62.
24.
62.
24.
6VIIHInputHIGHCurrent150150150mAIILInputLOWCurrent0.
50.
30.
50.
250.
50.
2mANOTE:Devicewillmeetthespecificationsafterthermalequilibriumhasbeenestablishedwhenmountedinatestsocketorprintedcircuitboardwithmaintainedtransverseairflowgreaterthan500lfpm.
Electricalparametersareguaranteedonlyoverthedeclaredoperatingtemperaturerange.
Functionaloperationofthedeviceexceedingtheseconditionsisnotimplied.
Devicespecificationlimitvaluesareappliedindividuallyundernormaloperatingconditionsandnotvalidsimultaneously.
7.
Inputandoutputparametersvary1:1withVCC.
VEEcanvary0.
46V/+0.
8V.
8.
Outputsareterminatedthrougha50WresistortoVCC2.
0V.
9.
VIHCMRminvaries1:1withVEE,maxvaries1:1withVCC.
Table7.
100ESERIESNECLDCCHARACTERISTICSVCCx=0.
0V;VEE=5.
0V(Note10)0°C525°C85°CSymbolCharacteristicMinTypMaxMinTypMaxMinTypMaxUnitIEEPowerSupplyCurrent154185154185177212mAVOHOutputHIGHVoltage(Note11)102595088010259508801025950880mVVOHsoutOutputHIGHVoltagesout/sout102583010258301025830mVVOLOutputLOWVoltage(Note11)181017051620181017451620181017401620mVVIHInputHIGHVoltage(SingleEnded)116510258801165102588011651025880mVVILInputLOWVoltage(SingleEnded)181016451475181016451475181016451475mVVBBOutputVoltageReference1.
381.
261.
381.
261.
381.
26VVIHCMRInputHIGHVoltageCommonModeRange(Differential)Configuration(Note12)2.
80.
42.
80.
42.
80.
4VIIHInputHIGHCurrent150150150mAIILInputLOWCurrent0.
50.
30.
50.
250.
50.
2mANOTE:Devicewillmeetthespecificationsafterthermalequilibriumhasbeenestablishedwhenmountedinatestsocketorprintedcircuitboardwithmaintainedtransverseairflowgreaterthan500lfpm.
Electricalparametersareguaranteedonlyoverthedeclaredoperatingtemperaturerange.
Functionaloperationofthedeviceexceedingtheseconditionsisnotimplied.
Devicespecificationlimitvaluesareappliedindividuallyundernormaloperatingconditionsandnotvalidsimultaneously.
10.
Inputandoutputparametersvary1:1withVCC.
VEEcanvary0.
46V/+0.
8V.
11.
Outputsareterminatedthrougha50WresistortoVCC2.
0V.
12.
VIHCMRminvaries1:1withVEE,maxvaries1:1withVCC.
MC10E445,MC100E445http://onsemi.
com7Table8.
ACCHARACTERISTICSVCCx=5.
0V;VEE=0.
0VorVCCx=0.
0V;VEE=5.
0V(Note13)0°C25°C85°CSymbolCharacteristicMinTypMaxMinTypMaxMinTypMaxUnitfMAXMaximumConversionFrequency2.
02.
02.
0Gb/sNRZtPLHtPHLPropagationDelaytoOutputCLKtoQ,ResettoQCLKtoSOUT(Diff)CLKtoCL/4(Diff)CLKtoCL/8(Diff)150080011001100180097513251325210011501550155015008001100110018009751325132521001150155015501500800110011001800975132513252100115015501550pstsSetupTimeSINA,SINBSEL100025020010002502001000250200psthHoldTimeSINA,SINB,SEL450300450300450300pstRRResetRecoveryTime500300500300500300pstPWMinimumPulseWidthCLK,MR400400400pstJITTERRandomClockJitter(RMS)<1<1<1psVPPInputVoltageSwing(DifferentialConfiguration)150100015010001501000mVtrtfRise/FallTimes20%80%SOUTOther100200225425350650100200225425350650100200225425350650psNOTE:Devicewillmeetthespecificationsafterthermalequilibriumhasbeenestablishedwhenmountedinatestsocketorprintedcircuitboardwithmaintainedtransverseairflowgreaterthan500lfpm.
Electricalparametersareguaranteedonlyoverthedeclaredoperatingtemperaturerange.
Functionaloperationofthedeviceexceedingtheseconditionsisnotimplied.
Devicespecificationlimitvaluesareappliedindividuallyundernormaloperatingconditionsandnotvalidsimultaneously.
13.
10Series:VEEcanvary0.
46V/+0.
06V.
100Series:VEEcanvary0.
46V/+0.
8V.
14.
DevicesaredesignedtomeettheACspecificationsshownintheabovetable,afterthermalequilibriumhasbeenestablished.
Thecircuitisinatestsocketormountedonaprintedcircuitboardandtransverseairflowgreaterthan500lfpmismaintained.
ResetCLK/CLKtRRFigure3.
MC10E445,MC100E445http://onsemi.
com8TimingDiagramA.
1:4SerialtoParallelConversionDn-4Dn-3Dn-2Dn-1DnDn+1Dn+2Dn+3Dn-4Dn-3Dn-2Dn-1DnDn+1Dn+2Dn+3Dn-4Dn-3Dn-2Dn-1DnDn+1Dn+2Dn+3CLKSINRESETQ0Q1Q2Q3SOUTCL/4CL/8Dn-4Dn-3Dn-2Dn-1Dn+1Dn+2Dn+3Dn+4Dn-4Dn-3Dn-2Dn-1DnDn+1Dn+2Dn+3Dn-4Dn-3Dn-2Dn-1DnDn+1Dn+2Dn+3CLKSINRESETQ0Q1Q2Q3SOUTCL/4CL/8SYNCTimingDiagramB.
1:4SerialtoParallelConversionWithSYNCPulseDn+4Dn+4Figure4.
TimingDiagramsMC10E445,MC100E445http://onsemi.
com9APPLICATIONSINFORMATIONTheMC10E/100E445isanintegrated1:4serialtoparallelconverter.
ThechipisdesignedtoworkwiththeE446devicetoprovidebothtransmissionandreceivingofahighspeedserialdatapath.
TheE445,canconvertuptoa2.
0Gb/sNRZdatastreaminto4-bitparalleldata.
Thedevicealsoprovidesadividebyfourclockoutputtobeusedtosynchronizetheparalleldatawiththerestofthesystem.
TheE445featuresmultiplexeddualserialinputstoprovidetestloopcapabilitywhenusedinconjunctionwiththeE446.
Figure5illustratesthelooptestarchitecture.
Thearchitectureallowsfortheelectricaltestingofthelinkwithoutrequiringactualtransmissionovertheserialdatapathmedium.
TheSINAserialinputoftheE445hasanextrabufferdelayandthusshouldbeusedastheloopbackserialinput.
SINBSINBSINASINASOUTSOUTPARALLELDATAPARALLELDATATOSERIALMEDIUMFROMSERIALMEDIUMFigure5.
LoopbackTestArchitectureTheE445featuresadifferentialserialoutputandadivideby8clockoutputtofacilitatethecascadingoftwodevicestobuilda1:8demultiplexer.
Figure6illustratesthearchitecturefora1:8demultiplexerusingtwoE445's;thetimingdiagramforthisconfigurationcanbefoundonthefollowingpage.
Noticetheserialoutputs(SOUT)ofthelowerorderconverterfeedtheserialinputsofthethehigherorderdevice.
Thisfeedthroughoftheserialinputsboundstheupperendofthefrequencyofoperation.
Theclocktoserialoutputpropagationdelayplusthesetuptimeoftheserialinputpinsmustfitintoasingleclockperiodforthecascadearchitecturetofunctionproperly.
Usingtheworstcasevaluesforthesetwoparametersfromthedatasheet,TPDCLKtoSOUT=1150psandtSforSIN=100ps,yieldsaminimumperiodof1050psoraclockfrequencyof950MHz.
Theclockfrequencyissignificantlylowerthanthatofasingleconverter,toincreasethisfrequencysomegamescanbeplayedwiththeclockinputofthehigherorderE445.
BydelayingtheclockfeedingthesecondE445relativetotheclockofthefirstE445thefrequencyofoperationcanbeincreased.
Thedelaybetweenthetwoclockscanbeincreaseduntiltheminimumdelayofclocktoserialoutwouldpotentiallycauseaserialbittobeswallowed(Figure7).
Q3Q7Q2Q6Q1Q5Q0Q4SINSINSOUTSOUTE445aQ3Q3Q2Q2Q1Q1Q0Q0SINSINE445bCLOCKCLOCKSERIALINPUTDATAPARALLELOUTPUTDATA800ps1150ps100psCLOCKTpdCLKtoSOUTFigure6.
Cascaded1:8ConverterArchitectureWithaminimumdelayof800psonthisoutputtheclockforthelowerorderE445cannotbedelayedmorethan800psrelativetotheclockofthefirstE445withoutpotentiallymissingabitofinformation.
BecausethesetuptimeontheserialinputpinisnegativecoincidentexcursionsonthedataandclockinputsoftheE445willresultincorrectoperation.
Figure7.
CascadeFrequencyLimitation800ps1150psCLOCKBTpdCLKtoSOUTCLOCKAPerhapstheeasiestwaytodelaythesecondclockrelativetothefirstistotakeadvantageofthedifferentialclockinputsoftheE445.
ByconnectingtheclockforthesecondE445tothecomplementaryclockinputpinthedevicewillclockahalfaclockperiodafterthefirstE445(Figure8).
Utilizingthissimpletechniquewillraisethepotentialconversionfrequencyupto1.
4GHz.
ThedividebyeightclockofthesecondE445shouldbeusedtosynchronizetheparalleldatatotherestofthesystemastheparalleldataofthetwoE445'swillnolongerbesynchronized.
Thisskewproblembetweentheoutputscanbeworkedaroundastheparallelinformationwillbestaticforeightmoreclockpulses.
MC10E445,MC100E445http://onsemi.
com10Figure8.
ExtendedFrequency1:8Demultiplexer800ps1150psCLOCKBTpdCLKtoSOUTCLOCKA700ps(1.
4GHz)100psQ3Q7Q2Q6Q1Q5Q0Q4SINSINSOUTSOUTE445aQ3Q3Q2Q2Q1Q1Q0Q0SINSINE445bCLOCKCLOCKSERIALINPUTDATAPARALLELOUTPUTDATAFigure9.
TimingDiagramA.
1:8SerialtoParallelConversionDn-4Dn-3Dn-2Dn-1DnDn+1Dn+2Dn+3Dn-4Dn-3Dn-2Dn-1DnDn+1Dn+2Dn+3Dn-4Dn-3Dn-2Dn-1DnDn+1Dn+2Dn+3CLKSINaQ0Q1Q2Q3Q4(Q0a)Q5(Q1a)Dn-4Dn-3Dn-2Dn-1DnDn+1Q6(Q2a)Q7(Q3a)SOUTaSOUTbCL/4aCL/4bCL/8aCL/8bMC10E445,MC100E445http://onsemi.
com11Figure10.
TypicalTerminationforOutputDriverandDeviceEvaluation(SeeApplicationNoteAND8020/DTerminationofECLLogicDevices.
)DriverDeviceReceiverDeviceQDQDZo=50WZo=50W50W50WVTTVTT=VCC2.
0VORDERINGINFORMATIONDevicePackageShippingMC10E445FNPLCC2837Units/RailMC10E445FNGPLCC28(PbFree)37Units/RailMC10E445FNR2PLCC28500/Tape&ReelMC10E445FNR2GPLCC28(PbFree)500/Tape&ReelMC100E445FNPLCC2837Units/RailMC100E445FNGPLCC28(PbFree)37Units/RailMC100E445FNR2PLCC28500/Tape&ReelMC100E445FNR2GPLCC28(PbFree)500/Tape&ReelForinformationontapeandreelspecifications,includingpartorientationandtapesizes,pleaserefertoourTapeandReelPackagingSpecificationsBrochure,BRD8011/D.
ResourceReferenceofApplicationNotesAN1405/DECLClockDistributionTechniquesAN1406/DDesigningwithPECL(ECLat+5.
0V)AN1503/DECLinPStI/OSPiCEModelingKitAN1504/DMetastabilityandtheECLinPSFamilyAN1568/DInterfacingBetweenLVDSandECLAN1672/DTheECLTranslatorGuideAND8001/DOddNumberCountersDesignAND8002/DMarkingandDateCodesAND8020/DTerminationofECLLogicDevicesAND8066/DInterfacingwithECLinPSAND8090/DACCharacteristicsofECLDevicesMC10E445,MC100E445http://onsemi.
com12PACKAGEDIMENSIONSPLCC28FNSUFFIXPLASTICPLCCPACKAGECASE77602ISSUEENMLVWDDYBRK281VIEWSSLMS0.
010(0.
250)NSTSLMM0.
007(0.
180)NST0.
004(0.
100)G1GJCZREASEATINGPLANESLMM0.
007(0.
180)NSTTBSLMS0.
010(0.
250)NSTSLMM0.
007(0.
180)NSTUSLMM0.
007(0.
180)NSTZG1XVIEWDDSLMM0.
007(0.
180)NSTK1VIEWSHKFSLMM0.
007(0.
180)NSTNOTES:1.
DATUMSL,M,ANDNDETERMINEDWHERETOPOFLEADSHOULDEREXITSPLASTICBODYATMOLDPARTINGLINE.
2.
DIMENSIONG1,TRUEPOSITIONTOBEMEASUREDATDATUMT,SEATINGPLANE.
3.
DIMENSIONSRANDUDONOTINCLUDEMOLDFLASH.
ALLOWABLEMOLDFLASHIS0.
010(0.
250)PERSIDE.
4.
DIMENSIONINGANDTOLERANCINGPERANSIY14.
5M,1982.
5.
CONTROLLINGDIMENSION:INCH.
6.
THEPACKAGETOPMAYBESMALLERTHANTHEPACKAGEBOTTOMBYUPTO0.
012(0.
300).
DIMENSIONSRANDUAREDETERMINEDATTHEOUTERMOSTEXTREMESOFTHEPLASTICBODYEXCLUSIVEOFMOLDFLASH,TIEBARBURRS,GATEBURRSANDINTERLEADFLASH,BUTINCLUDINGANYMISMATCHBETWEENTHETOPANDBOTTOMOFTHEPLASTICBODY.
7.
DIMENSIONHDOESNOTINCLUDEDAMBARPROTRUSIONORINTRUSION.
THEDAMBARPROTRUSION(S)SHALLNOTCAUSETHEHDIMENSIONTOBEGREATERTHAN0.
037(0.
940).
THEDAMBARINTRUSION(S)SHALLNOTCAUSETHEHDIMENSIONTOBESMALLERTHAN0.
025(0.
635).
DIMMINMAXMINMAXMILLIMETERSINCHESA0.
4850.
49512.
3212.
57B0.
4850.
49512.
3212.
57C0.
1650.
1804.
204.
57E0.
0900.
1102.
292.
79F0.
0130.
0190.
330.
48G0.
050BSC1.
27BSCH0.
0260.
0320.
660.
81J0.
0200.
51K0.
0250.
64R0.
4500.
45611.
4311.
58U0.
4500.
45611.
4311.
58V0.
0420.
0481.
071.
21W0.
0420.
0481.
071.
21X0.
0420.
0561.
071.
42Y0.
0200.
50Z210210G10.
4100.
43010.
4210.
92K10.
0401.
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