关闭

关闭

封号提示

内容

首页 15寸AU双灯 G150XG01 V1.pdf

15寸AU双灯 G150XG01 V1.pdf

15寸AU双灯 G150XG01 V1.pdf

上传者: like708 2011-06-23 评分1 评论0 下载7 收藏0 阅读量776 暂无简介 简介 举报

简介:本文档为《15寸AU双灯 G150XG01 V1pdf》,可适用于电子通讯领域,主题内容包含GXGVrevGXGV()PreliminarySpecifications(V)FinalSpecificationsModuleInchColo符等。

GXGVrevGXGV()PreliminarySpecifications(V)FinalSpecificationsModuleInchColorTFTLCDModelNameGXGVCustomerDateCheckedApprovedbyNote:ThisSpecificationissubjecttochangewithoutnoticeApprovedbyDateDebbieChiuPreparedbyDannyWangGeneralDisplayBusinessDivisionAUOptronicscorporationGXGVrevGXGVContentsOperatingPrecautionsGeneralDescriptionDisplayCharacteristicsOpticalCharacteristicsFunctionalBlockDiagramAbsoluteMaximumRatingsAbsoluteRatingsofTFTLCDModuleAbsoluteRatingsofEnvironmentElectricalCharacteristicsTFTLCDModuleBacklightUnitSignalCharacteristicPixelFormatImageScanningDirectionSignalDescriptionTheInputDataFormatInterfaceTimingPowerONOFFSequenceConnectorPinAssignmentTFTLCDModule:LVDSConnectorBacklightUnit:LampConnectorLampConnectorPinAssignmentReliabilityTestCriteriaMechanicalCharacteristicsLCMFrontViewandRearViewLCMOutlineDimension(FrontView)LCMOutlineDimension(RearView)LabelandPackagingShippingLabel(ontherearsideofTFTLCDdisplay)CartonPackageSafetySharpEdgeRequirementsMaterialsCapacitorsNationalTestLabRequirementGXGVrevGXGVRecordofRevisionVersionandDatePageOlddescriptionNewDescriptionAllFirstEditionAllFinalVersionHotStorage:HotStorage:OutlineDimension(T:NA)OutlineDimension(T:mm)GXGVrevGXGVOperatingPrecautions)Sincefrontpolarizeriseasilydamaged,pleasebecautiousandnottoscratchit)Besuretoturnoffpowersupplywheninsertingordisconnectingfrominputconnector)WipeoffwaterdropimmediatelyLongcontactwithwatermaycausediscolorationorspots)Whenthepanelsurfaceissoiled,wipeitwithabsorbentcottonorsoftcloth)Sincethepanelismadeofglass,itmaybebrokenorcrackedifdroppedorbumpedonhardsurface)SinceCMOSLSIisusedinthismodule,takecareofstaticelectricityandinsurehumanearthwhenhandling)Donotopennormodifythemoduleassembly)Donotpressthereflectorsheetatthebackofthemoduletoanydirection)Incaseifamodulehastobeputbackintothepackingcontainerslotafteritwastakenoutfromthecontainer,donotpressthecenteroftheCCFLReflectoredgeInstead,pressatthefarendsoftheCFLReflectoredgesoftlyOtherwisetheTFTModulemaybedamaged)AttheinsertionorremovaloftheSignalInterfaceConnector,besurenottorotatenortilttheInterfaceConnectoroftheTFTModule)AfterinstallationoftheTFTModuleintoanenclosure(NotebookPCBezel,forexample),donottwistnorbendtheTFTModuleevenmomentaryAtdesigningtheenclosure,itshouldbetakenintoconsiderationthatnobendingtwistingforcesareappliedtotheTFTModulefromoutsideOtherwisetheTFTModulemaybedamaged)ColdcathodefluorescentlampinLCDcontainsasmallamountofmercuryPleasefollowlocalordinancesorregulationsfordisposal)SmallamountofmaterialshavingnoflammabilitygradeisusedintheLCDmoduleTheLCDmoduleshouldbesuppliedbypowercompliedwithrequirementsofLimitedPowerSource(IECorUL),orbeappliedexemption)TheLCDmoduleisdesignedsothattheCFLinitissuppliedbyLimitedCurrentCircuit(IECorUL)DonotconnecttheCFLinHazardousVoltageCircuit)Severetemperatureconditionmayresultindifferentluminance,responsetimeandlampignitionvoltage)ContinuousoperatingTFTLCDdisplayunderlowtemperatureenvironmentmayacceleratelampexhaustionandreduceluminancedramatically)ThedataonthisspecificationsheetisapplicablewhenLCDmoduleisplacedinlandscapeposition)ContinuousdisplayingfixedpatternmayinduceimagestickingIt’srecommendedtousescreensaverorshufflecontentperiodicallyiffixedpatternisdisplayedonthescreenGXGVrevGXGVGeneralDescriptionGXGVisaColorActiveMatrixLiquidCrystalDisplaycomposedofaTFTLCDdisplay,adrivercircuit,andabacklightsystemThescreenformatisintendedtosupportXGA((H)x(V))screenandM(RGBbits)orkcolors(RGBbits)AllinputsignalsareLVDSinterfacecompatibleInvertercardofbacklightisnotincludedAlldesignrulesofthismodulecancorrespondtoPSWGstandardGXGVisdesignedforindustrialdisplayapplicationsDisplayCharacteristicsThefollowingitemsarecharacteristicssummaryonthetableundercondition:ItemsUnitSpecificationsScreenDiagonalinchActiveAreamm(H)x(V)PixelsHxVx(RGB)xPixelPitchmmxPixelArrangementRGBVerticalStripeDisplayModeTN,NormallyWhiteNominalInputVoltageVDDVolttypTypicalPowerConsumptionWatt(GrayBarPattern,excludeinverter)WeightGramsg(typ)PhysicalSizemm(H)x(V)x(D)(typ)ElectricalInterfacechannelLVDSSurfaceTreatmentAntiglare,HardnessHSupportColorMKcolorsTemperatureRangeOperatingStorage(NonOperating)oCoCto(oCaspanelsurfacetemperature)toRoHSComplianceRoHSComplianceGXGVrevGXGVOpticalCharacteristicsTheopticalcharacteristicsaremeasuredunderstableconditionsat(RoomTemperature):ItemUnitConditionsMinTypMaxNoteWhiteLuminancecdmIRCFL=mA(centerpoint)UniformityPoints,,ContrastRatioCrosstalkmsecRisingmsecFallingResponseTimemsecRaisingFallingdegreedegreeHorizontal(Right)CR=(Left)ViewingAngledegreedegreeVertical(Upper)CR=(Lower)RedxRedyGreenxGreenyBluexBlueyWhitexColorChromaticityCoordinates(CIE)WhiteyColorGamutNote:MeasurementmethodEquipmentPatternGenerator,PowerSupply,DigitalVoltmeter,Luminancemeter(SRorequivalent)AperturewithcmviewingdistanceTestPointCenterEnvironment<luxLCDModuleSRorequivalentMeasuringdistanceModuleDrivingEquipmentGXGVrevGXGVNote:Definitionofpointsposition(Displayactivearea:(H)x(V))Note:TheluminanceuniformityofpointsisdefinedbydividingtheminimumluminancevaluesbythemaximumtestpointluminanceNote:Definitionofcontrastratio(CR):Note:Definitionofcrosstalk(CT)CT=|YB–YA|YA()WhereYA=Luminanceofmeasuredlocationwithoutgraylevelpattern(cdm)YB=Luminanceofmeasuredlocationwithgraylevelpattern(cdm)MinimumBrightnessofninepointsδW=MaximumBrightnessofninepointsContrastratio(CR)=Brightnessonthe“White”stateBrightnessonthe“Black”stateABA’B’graylevelGXGVrevGXGVNote:Definitionofresponsetime:Theoutputsignalsofphotodetectoraremeasuredwhentheinputsignalsarechangedfrom“White”to“Black”(fallingtime)andfrom“Black”to“White”(risingtime),respectivelyTheresponsetimeintervalisbetweenandofamplitudesPleaserefertothefigureasbelowNote:DefinitionofviewingangleViewingangleisthemeasurementofcontrastratio,atthescreencenter,overahorizontalandverticalrange(offnormalviewingangles)Theviewinganglerangeisbrokendownasbelow:(θ)horizontalleftandright,and(Φ)verticalhigh(up)andlow(down)ThemeasurementdirectionistypicallyperpendiculartothedisplaysurfacewiththescreenrotatedtoitscentertodevelopthedesiredmeasurementviewingangleOpticalresponseWhiteBlackWhiteTfTrOpticalresponseWhiteBlackWhiteTrGXGVrevGXGVFunctionalBlockDiagramThefollowingdiagramshowsthefunctionalblockoftheinchcolorTFTLCDmodule:FNRMSBEJSTBHRVSMatingType:HRSDFSCSM()BBHSTBCCFLConnectorLVDSReceiverTimingControllerInverterDCPOWERAUASICRSDSLVDSVTFTLCD()*PixelsYDriverICGGDDGateDriverICSourceDriverICDCDCConverterGammaCorrectionGXGVrevGXGVAbsoluteMaximumRatingsAbsoluteRatingsofTFTLCDModuleItemSymbolMinMaxUnitLogicLCDDriveVoltageVinVoltAbsoluteRatingsofEnvironmentItemSymbolMinMaxUnitOperatingTemperatureTOPoCOperationHumidityHOPRHStorageTemperatureTSToCStorageHumidityHSTRHNote:MaximumWetBulbshouldbeandnocondensationT=C,H=T=C,H=GXGVrevGXGVElectricalCharacteristicsTFTLCDModulePowerSpecificationSymbolParameterMinTypMaxUnitsRemarkVDDLogicLCDDriveVoltageVoltIDDVDDCurrentmAGrayBarPattern(VDD=V,atHz)IrushLCDInrushCurrentANotePDDVDDPowerWattGrayBarPattern(VDD=V,atHz)Note:Measurementcondition:QAOGDSDDDQAOGDSDDDCuFVCuFVCuFVFVRKVVCCSWSWMAGSPST(HightoLow)ControlSignal(LCDModuleInput)RKVRKRKVDDrisingtimeVVusVDDGraypatternGXGVrevGXGVSignalElectricalCharacteristicsInputsignalsshallbeloworHiZstatewhenVDDisoffNote:LVDSSignalWaveformSymbolItemMinTypMaxUnitRemarkVTHDifferentialInputHighThresholdmVVCM=VVTLDifferentialInputLowThresholdmVVCM=V|VID|InputDifferentialVoltagemVVICMDifferentialInputCommonModeVoltageVVTHVTL=mVGXGVrevGXGVBacklightUnitParameterguidelineforCCFLFollowingcharacteristicsaremeasuredunderastableconditionusinganinverterat(RoomTemperature):SymbolParameterMinTypMaxUnitRemarkIRCFLCCFLoperationrangemArms(Ta=oC)NoteFCFLCCFLFrequencyKHz(Ta=oC)NoteViCFL(oC)(reference)CCFLIgnitionVoltageVoltrms(Ta=oC)ViCFL(oC)(reference)CCFLIgnitionVoltageVoltrms(Ta=oC)VCFLCCFLDischargeVoltageVoltrms(Ta=oC)NoteIRCFL=mAVCFL=TypPCFLCCFLPowerconsumption(inverterexcluded)Watt(Ta=oC)NoteIRCFL=mALampLife,Hrs(Ta=oC)NoteIRCFL=mANote:IRCFLisdefinedasthereturncurrentofaninverter(InFigure)(Figure:Measurementofreturncurrent)AstableIRCFLisacurrentwithoutflickerorbiasingwaveformprovidedbyinverterthatensuresthebacklightperformtoitsspecificationTheidealsinewaveformshouldbesymmetricinpositiveandnegativepolaritiesandtheasymmetryrateoftheinverterwaveformshouldbebelow(Note)Ip:PositivepeakvalueIp:NegativepeakvalueIrms:EffectivevalueIpIpReferenceDCBias=(|Ip–Ip|Irms)x<CrestFactor=Ipor(Ip)IrmsshouldhavetherangewithinInverterLampHiLomAGXGVrevGXGVItisrecommendedtousetheinverterwithdetectioncircuit(ie:balanceandprotectioncircuit)toavoidovervoltage,overcurrent,ormismatchingwaveformNote:CCFLfrequencyshouldbecarefullydeterminedtoavoidinterferencebetweeninverterandTFTLCDHigherfrequencywillinducehigherleakagecurrentandfurtherimpactlamplifeNote:Calculatorvalueforreference(IRCFLxVCFLx=PCFL)Note:Thedefinitionoflamplifemeanswhenanyoffollowingconditionshappen:a)Luminancefallstoorlessoftheinitialvalueb)Normallightingisnomoreavailable(flickering,pinklighting,nolighting,etc)c)LampvoltageorlightingstartvoltageexceedsthespecifiedvalueLamplifetimeshortensaccordingtoa)Placingmethodology:mercuryisunevenlydistributedinportraitmountingb)Environmentalcondition:lowtemperaturereducesthepresenceofmercuryvapor,whichresultsinapproximatelylamplifeof,hoursc)CCFLsurfacetemperature:Presenceofgradientinlampsurfacetemperaturecausesunevenmercurymigrationd)Inverterdesign:itsresonancecapacitorshouldbefinetunedaccordingtotheimpedanceofCCFLe)Overdrivingcurrent(>mA)shortenslamplifetimedramaticallyNote:Thedisplayiswithduallampdesign,andtheCCFLcurrentinabovetablereferstoeachlampGXGVrevGXGVSignalCharacteristicPixelFormatImageFollowingfigureshowstherelationshipbetweeninputsignalandLCDpixelformatScanningDirectionThefollowingfiguresshowtheimageseenfromthefrontviewThearrowindicatesthedirectionofscanFigNormalscan(Pin,REV=LoworNC)FigReversescan(Pin,REV=High)GXGVrevGXGVSignalDescriptionThemoduleusingapairofLVDSreceiverSNLVDS(TexasInstruments)orcompatibleLVDSisadifferentialsignaltechnologyforLCDinterfaceandhighspeeddatatransferdeviceTransmittershallbeSNLVDS(negativeedgesampling)orcompatibleThefirstLVDSport(RxOxxx)transmitsoddpixelswhilethesecondLVDSport(RxExxx)transmitsevenpixelsFNR(ET)MSBE(STM)PinNoSymbolDescriptionVDDPowerSupply,V(typical)VDDPowerSupply,V(typical)VSSGroundREVReverseScanselection*NoteRinLVDSdifferentialdatainput(RR,G)RinLVDSdifferentialdatainput(RR,G)VSSGroundRinLVDSdifferentialdatainput(GG,BB)RinLVDSdifferentialdatainput(GG,BB)VSSGroundRinLVDSdifferentialdatainput(BB,HS,VS,DE)RinLVDSdifferentialdatainput(BB,HS,VS,DE)VSSGroundClkINLVDSdifferentialclockinputClkI

类似资料

编辑推荐

[蔡康永说话之道].扫描版.pdf

明朝的锦衣卫.pdf

B0602《西印度毁灭述略》([西]巴托洛海·德拉斯·卡萨斯着,孙家堃译,商务印书馆1991).pdf

户外结绳.pdf

Schaum's Outlines - Programming with Java.pdf

职业精品

精彩专题

中国制造,引领“世界第一”

近十年来,我国制造业持续快速发展,总体规模大幅提升,综合实力不断增强,不仅对国内经济和社会发展做出了重要贡献,而且成为支撑世界经济的重要力量。你绝对想不到,中国制造有这么多“世界第一”

用户评论

0/200
    暂无评论
上传我的资料

精选资料

热门资料排行换一换

  • 诚信的背后 摩根士丹利圈钱游戏黑…

  • 罗尔斯+-+正义论.pdf

  • 《赢》.pdf

  • 苏联历史档案选编.第5卷.pdf

  • 苏联历史档案选编.第27卷.pdf

  • 社会的麦当劳化.(美)乔治·里茨…

  • 六祖大师法宝坛经曹溪原本-内页-…

  • 股史风云话投资.pdf

  • 约翰·聂夫的成功投资_12071…

  • 资料评价:

    / 28
    所需积分:5 立即下载

    意见
    反馈

    返回
    顶部