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Liquid Crystal Displays: Addressing Schemes and Electro-Optical Effects, Second Edition PDF

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Liquid Crystal Displays Liquid Crystal Displays: Addressing Schemes and Electro-Optical Effects, Second Edition Ernst Lueder © 2010 John Wiley & Sons, Ltd. ISBN: 978-0-470-74519-9 Wiley-SID Series inDisplay Technology Series Editor: Anthony C.Lowe ConsultantEditor: Michael A.Kriss Display Systems:Design andApplications Lindsay W. MacDonald andAnthony C.Lowe (Eds.) Electronic Display Measurement: Concepts, Techniques, andInstrumentation Peter A.Keller ReflectiveLiquidCrystal Displays Shin-Tson Wu and Deng-Ke Yang Colour Engineering: Achieving Device IndependentColour Phil Green and Lindsay MacDonald (Eds.) Display Interfaces: Fundamentals and Standards Robert L. Myers Digital Image Display: Algorithms andImplementation Gheorghe Berbecel FlexibleFlat PanelDisplays Gregory Crawford(Ed.) Polarization Engineering for LCD Projection Michael G.Robinson, JianminChen, andGary D.Sharp Fundamentals ofLiquid Crystal Devices Deng-KeYang and Shin-Tson Wu Introduction toMicrodisplays David Armitage, Ian Underwood, and Shin-Tson Wu Mobile Displays: Technologyand Applications Achintya K.Bhowmik,Zili Li, andPhilipBos (Eds.) Photoalignment of Liquid CrystallineMaterials: Physicsand Applications Vladimir G.Chigrinov, VladimirM. Kozenkov,and Hoi-Sing Kwok ProjectionDisplays, Second Edition Matthew S.Brennesholtz andEdwardH. Stupp Introduction toFlat Panel Displays Jiun-HawLee,David N. Liu,and Shin-Tson Wu LCD Backlights Shunsuke Kobayashi,Shigeo Mikoshiba, andSungkyoo Lim (Eds.) Liquid Crystal Displays: AddressingSchemesand Electro-OpticalEffects, Second Edition Ernst Lueder Liquid Crystal Displays ADDRESSING SCHEMES AND ELECTRO-OPTICAL EFFECTS, SECOND EDITION Ernst Lueder University of Stuttgart, Germany and Electro-Optical Consultancy, LLC, USA Thiseditionfirstpublished2010 (cid:1)2010,JohnWiley&Sons,Ltd Registeredoffice JohnWiley&SonsLtd,TheAtrium,SouthernGate,Chichester,WestSussex,PO198SQ,UnitedKingdom Fordetailsofourglobaleditorialoffices,forcustomerservicesandforinformationabouthowtoapplyfor permissiontoreusethecopyrightmaterialinthisbookpleaseseeourwebsiteatwww.wiley.com. Therightoftheauthortobeidentifiedastheauthorofthisworkhasbeenassertedinaccordancewiththe Copyright,DesignsandPatentsAct1988. Allrightsreserved.Nopartofthispublicationmaybereproduced,storedinaretrievalsystem,or transmitted,inanyformorbyanymeans,electronic,mechanical,photocopying,recordingorotherwise, exceptaspermittedbytheUKCopyright,DesignsandPatentsAct1988,withoutthepriorpermission ofthepublisher. Wileyalsopublishesitsbooksinavarietyofelectronicformats. Somecontentthatappearsin printmaynotbeavailableinelectronicbooks. Designationsusedbycompaniestodistinguishtheirproductsareoftenclaimedastrademarks.Allbrandnames andproductnamesusedinthisbookaretradenames,servicemarks,trademarksorregisteredtrademarksof theirrespectiveowners.Thepublisherisnotassociatedwithanyproductorvendormentionedinthisbook. Thispublicationisdesignedtoprovideaccurateandauthoritativeinformationinregardtothesubjectmatter covered.Itissoldontheunderstandingthatthepublisherisnotengagedinrenderingprofessionalservices. Ifprofessionaladviceorotherexpertassistanceisrequired,theservicesofacompetentprofessional shouldbesought. LibraryofCongressCataloguing-in-PublicationData Lueder,Ernst,1932- Liquidcrystaldisplays:addressingschemesandelectro-opticaleffects /ErnstLueder.—2nded. p.cm. Includesbibliographicalreferencesandindex. ISBN978-0-470-74519-9(cloth) 1. Liquidcrystaldisplays.2. Liquidcrystals—Electricproperties.3. Liquidcrystals—Opticalproperties. I.Title. TK7872.L56L842010 621.3815’422–dc22 2009049550 AcataloguerecordforthisbookisavailablefromtheBritishLibrary. ISBN:978-0-470-74519-9 Setin10/12ptTimesbyThomsonDigital,Noida,India PrintedinGreatBritainbyCPIAntonyRowe,Chippenham,Wiltshire To Helen Whose assistance andpatience made thisbook possible Contents Foreword xiii PrefacetotheFirstEdition xv PrefacetotheSecondEdition xvii AbouttheAuthor xix 1 Introduction 1 2 Liquid Crystal Materials and Liquid Crystal Cells 3 2.1 PropertiesofLiquidCrystals 3 2.1.1 Shapeandphasesofliquidcrystals 3 2.1.2 Materialpropertiesofanisotropicliquidcrystals 6 2.2 TheOperationofaTwistedNematicLCD 11 2.2.1 Theelectro-opticaleffectsintransmissivetwistednematicLCcells 11 2.2.2 TheaddressingofLCDsbyTFTs 18 3 Electro-optic Effects in Untwisted Nematic Liquid Crystals 21 3.1 ThePlanarandHarmonicWaveofLight 21 3.2 PropagationofPolarizedLightinBirefringentUntwistedNematic LiquidCrystalCells 26 3.2.1 ThepropagationoflightinaFre´ederickszcell 26 3.2.2 ThetransmissiveFre´ederickszcell 31 3.2.3 ThereflectiveFre´ederickszcell 37 3.2.4 TheFre´ederickszcellasaphase-onlymodulator 39 3.2.5 TheDAPcellortheverticallyalignedcell 42 3.2.6 TheHANcell 44 3.2.7 Thepcell 46 3.2.8 SwitchingdynamicsofuntwistednematicLCDs 48 3.2.9 Fastbluephaseliquidcrystals 54 4 Electro-optic Effects in Twisted Nematic Liquid Crystals 57 4.1 ThePropagationofPolarizedLightinTwistedNematicLiquidCrystalCells 57 viii CONTENTS 4.2 TheVariousTypesofTNCells 67 4.2.1 TheregularTNcell 67 4.2.2 ThesupertwistednematicLCcell(STN-LCD) 70 4.2.3 Themixedmodetwistednematiccell(MTNcell) 74 4.2.4 ReflectiveTNcells 76 4.3 ElectronicallyControlledBirefringencefortheGenerationofColour 80 5 Descriptions of Polarization 83 5.1 TheCharacterizationsofPolarization 83 5.2 ADifferentialEquationforthePropagationofPolarizedLight throughAnisotropicMedia 91 5.3 SpecialCasesforPropagationofLight 95 5.3.1 Incidenceoflinearlypolarizedlight 95 5.3.2 Incidentlightiscircularlypolarized 97 6 Propagation of Light with an Arbitrary Incident Angle through Anisotropic Media 99 6.1 BasicEquationsforthePropagationofLight 99 6.2 EnhancementofthePerformanceofLCCells 107 6.2.1 Thedegradationofpicturequality 107 6.2.2 Opticalcompensationfoilsfortheenhancementofpicturequality 109 6.2.2.1 Theenhancementofcontrast 109 6.2.2.2 CompensationfoilsforLCmoleculeswithdifferentopticalaxis 110 6.2.3 Suppressionofgreyshadeinversionandthepreservation ofgreyshadestability 115 6.2.4 Fabricationofcompensationfoils 116 6.3 Electro-opticEffectswithWideViewingAngle 116 6.3.1 Multidomainpixels 116 6.3.2 In-planeswitching 117 6.3.3 Opticallycompensatedbendcells 119 6.4 MultidomainVACells,EspeciallyforTV 121 6.4.1 Thetorquegeneratedbyanelectricfield 122 6.4.2 TherequirementsforaVAdisplay,especiallyforTV 124 6.4.2.1 Thespeedsofoperation 124 6.4.2.2 Colourshift,changeincontrastandimagesticking 124 6.4.3 VAcellsforTVapplications 129 6.4.3.1 MultidomainVAcellswithprotrusions(MVAs) 129 6.4.3.2 PatternedVAcells(PVAs) 130 6.4.3.3 PVAcellswithtwosubpixels(CS-S-PVAs) 132 6.4.3.4 Celltechnologiesavoidingadelayedopticalresponse 136 –Polymersustainedalignment(PSA) 136 –Mountainshapedcellsurface 137 6.4.3.5 Thecontinuouspinwheelalignment(CPA) 139 6.5 PolarizerswithIncreasedLuminousOutput 140 6.5.1 Areflectivelinearpolarizer 140 6.5.2 Areflectivepolarizerworkingwithcircularlypolarizedlight 141 6.6 TwoNon-birefringentFoils 142 7 Modified Nematic Liquid Crystal Displays 145 7.1 PolymerDispersedLCDs(PDLCDs) 145 7.1.1 TheoperationofaPDLCD 145 7.1.2 ApplicationsofPDLCDs 149 CONTENTS ix 7.2 Guest-HostDisplays 150 7.2.1 TheoperationofGuest-HostDisplays 150 7.2.2 ReflectiveGuest-HostDisplays 154 8 Bistable Liquid Crystal Displays 159 8.1 FerroelectricLiquidCrystalDisplays(FLCDs) 159 8.2 ChiralNematicLiquidCrystalDisplays 168 8.3 BistableNematicLiquidCrystalDisplays 174 8.3.1 Bistabletwistcells 174 8.3.2 Gratingalignednematicdevices 175 8.3.3 Monostablesurfaceanchoringswitching 177 9 Continuously Light Modulating Ferroelectric Displays 179 9.1 DeformedHelixFerroelectricDevices 179 9.2 AntiferroelectricLCDs 181 10 Addressing Schemes for Liquid Crystal Displays 185 11 Direct Addressing 189 12 Passive Matrix Addressing of TN Displays 191 12.1 TheBasicAddressingSchemeandtheLawofAltandPleshko 191 12.2 ImplementationofPMAddressing 196 12.3 MultipleLineAddressing 201 12.3.1 Thebasicequations 201 12.3.2 Waveformsfortherowselection 203 12.3.3 ColumnvoltageforMLA 205 12.3.4 Implementationofmulti-lineaddressing 206 12.3.5 ModifiedPMaddressingofSTNcells 210 12.3.5.1 Decreasedlevelsofaddressingvoltages 210 12.3.5.2 ContrastandgreyshadesforMLA 212 12.4 TwoFrequencyDrivingofPMLCDs 218 13 Passive Matrix Addressing of Bistable Displays 223 13.1 AddressingofFerroelectricLCDs 223 13.1.1 TheV–t addressingscheme 225 min 13.1.2 TheV–1/taddressingscheme 226 13.1.3 ReducingcrosstalkinFLCDs 228 13.1.4 Ioniceffectsduringaddressing 228 13.2 AddressingofChiralNematicLiquidCrystalDisplays 231 14 Addressing of Liquid Crystal Displays with a-Si Thin Film Transistors (a-Si-TFTs) 239 14.1 Propertiesofa-SiThinFilmTransistors 239 14.2 StaticOperationofTFTsinanLCD 244 14.3 TheDynamicsofSwitchingbyTFTs 252 14.4 Bias-TemperatureStressTestofTFTs 259 14.5 DriversforAMLCDs 260 x CONTENTS 14.6 TheEntireAddressingSystem 266 14.7 LayoutsofPixelswithTFTSwitches 269 14.8 FabricationProcessesofa-SiTFTs 272 14.9 AddressingofVADisplays 277 14.9.1 OvershootandundershootdrivingofLCDs 277 14.9.2 Thedynamiccapacitancecompensation(DCC) 281 14.9.3 Fringefieldaccelerateddecayofluminance 288 14.9.4 Theaddressingoftwosubpixels 292 14.9.5 Biasedverticalalignment(BVA) 295 14.10 MotionBlur 298 14.10.1 Causes,characterizationandremediesofblur 298 14.10.2 Systemswithdecreasedblur 310 14.10.2.1 Edgeenhancementforreducedblur 310 14.10.2.2 Blackinsertiontechniques 312 14.10.2.3 Scanningbacklights 313 14.10.2.4 Higherframeratesforreducingblur 315 14.10.3 Modellingofblur 320 14.11 TheOpticalResponseofaVACell 329 14.12 ReductionoftheOpticalResponseTimebyaSpecial AddressingWaveform 334 15 Addressing of LCDs with Poly-Si TFTs 339 15.1 FabricationStepsforTop-andBottom-Gate Poly-SiTFTs 340 15.2 LaserCrystallizationbyScanningor LargeAreaAnneal 344 15.3 LightlyDopedDrainsforPoly-SiTFTs 345 15.4 TheKinkEffectanditsSuppression 347 15.5 CircuitswithPoly-SiTFTs 349 16 Liquid Crystal on Silicon Displays 353 16.1 FabricationofLCOSwithDRAM-TypeAnalogAddressing 353 16.2 SRAM-TypeDigitalAddressingofLCOS 355 16.3 MicrodisplaysUsingLCOSTechnology 360 17 Addressing of Liquid Crystal Displays with Metal-Insulator-Metal Pixel Switches 363 18 Addressing of LCDs with Two-Terminal Devices and Optical, Plasma, Laser and e-beam Techniques 373 19 Components of LCD Cells 381 19.1 AdditiveColoursGeneratedbyAbsorptivePhotosensitive PigmentedColourFilters 381 19.2 AdditiveandSubtractiveColoursGeneratedbyReflective DichroicColourFilters 383 19.3 ColourGenerationbyThreeStackedDisplays 385 19.4 LEDBacklights 386 19.4.1 TheadvantagesofLEDsasbacklights 386 CONTENTS xi 19.4.2 LEDtechnology 386 19.4.3 OpticsforLEDbacklights 395 19.4.4 SpecialapplicationsforLEDbacklights 405 19.4.4.1 SavingpowerandrealizingscanningwithLEDbacklights 405 19.4.4.2 FieldsequentialdisplayswithLEDbacklights 407 19.4.4.3 ActivematrixaddressedLEDbacklights 409 19.4.5 TheelectronicaddressingofLEDs 409 19.5 CellAssembly 411 20 Projectors with Liquid Crystal Light Valves 415 20.1 SingleTransmissiveLightValveSystems 415 20.1.1 Thebasicsinglelightvalvesystem 415 20.1.2 Thefieldsequentialcolourprojector 416 20.1.3 Asinglepanelscrollingprojector 417 20.1.4 Singlelightvalveprojectorwithangularcolourseparation 418 20.1.5 Singlelightvalveprojectorswithacolourgrating 418 20.2 SystemswithThreeLightValves 420 20.2.1 Projectorswiththreetransmissivelightvalves 420 20.2.2 Projectorswiththreereflectivelightvalves 421 20.2.3 ProjectorswiththreeLCOSlightvalves 422 20.3 ProjectorswithTwoLCLightValves 422 20.4 ARearProjectorwithOneorThreeLightValves 422 20.5 AProjectorwithThreeOpticallyAddressedLightValves 423 21 Liquid Crystal Displays with Plastic Substrates 427 21.1 AdvantagesofPlasticSubstrates 427 21.2 PlasticSubstratesandtheirProperties 428 21.3 BarrierLayersforPlasticSubstrates 429 21.4 Thermo-MechanicalProblemswithPlastics 430 21.5 FabricationofTFTsandMIMsatLowProcessTemperatures 435 21.5.1 Fabricationofa-Si:HTFTsatlowtemperature 435 21.5.2 Fabricationoflowtemperaturepoly-SiTFTs 435 21.5.3 FabricationofMIMsatlowtemperature 437 21.5.4 Conductorsandtransparentelectrodesforplasticsubstrates 438 21.6 TransferofHighTemperatureFabricatedAMLCDs toaFlexibleSubstrate 438 22 Printing of Layers for LC Cells 443 22.1 PrintingTechnologies 443 22.1.1 Flexographicprinting 443 22.1.2 Knifecoating 444 22.1.3 Ink-jetprinting 444 22.1.4 Silkscreenprinting 448 22.2 SurfacePropertiesforPrinting 449 22.3 PrintingofComponentsforDisplays 455 22.3.1 Ink-jetprintedcolourfilters,alignmentlayers andphosphorsforLEDBacklights 455 22.3.2 Flexographicprintingofalignmentlayersandofnematicliquidcrystals 456 22.3.3 PrintingofOTFTs 457 22.4 CellBuildingbyLamination 461

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