Upload
baaak
View
276
Download
15
Embed Size (px)
Citation preview
7/31/2019 Sanyo Lcd Tv Training Manual
1/32
FILE NO.
REFERENCE NO. TI5110LCD
Training ManualPrinciple of LCD Display
CONTENTSPages
1. Construction of LCD Display ----------------------------------------------------------------------- 2 - 51-1 Principle of LCD Display ------------------------------------------------------------------------------- 21-2 Construction of LCD Display --------------------------------------------------------------------- 2 - 31-3 Main Component of LCD Display --------------------------------------------------------------- 4 - 5
2. Principle of Liquid Crystal --------------------------------------------------------------------------- 6 - 82-1 Liquid Crystal --------------------------------------------------------------------------------------------- 62-2 Rubbing-process------------------------------------------------------------------------------------- 6 - 72-3 Operation of Liquid Crystal ---------------------------------------------------------------------------- 8
3. Principle of LCD --------------------------------------------------------------------------------------- 9 - 113-1 Operation of Polarized Board for LCD Panel (Shutter)----------------------------------------- 93-2 Operation of Alignment Film------------------------------------------------------------------------- 103-3 Operation of LCD Panel ------------------------------------------------------------------------ 10 - 113-4 Transparent Electrode -------------------------------------------------------------------------------- 11
4. Type of LCD Display Construction ------------------------------------------------------------ 12 - 134-1 Twisted Nematic (TN) Type -------------------------------------------------------------------- 12- 134-2 Super TN (STN) Type---------------------------------------------------------------------------- 12- 134-3 Triple STN (TSTN) Type / Film STN (FSTN) Type --------------------------------------- 12- 13
5. System of LCD Display ---------------------------------------------------------------------------- 14 - 205-1 Dot-Matrix System ------------------------------------------------------------------------------------- 145-2 Colorization ---------------------------------------------------------------------------------------------- 155-3 Drive System -------------------------------------------------------------------------------------------- 165-4 Passive Matrix System-------------------------------------------------------------------------- 16 - 175-5 Active Matrix System---------------------------------------------------------------------------- 18 - 195-6 Drive of Active Matrix System----------------------------------------------------------------- 19 - 20
6. Improvement Technology of LCD Display -------------------------------------------------- 21 - 276-1 Subject of LCD Display ------------------------------------------------------------------------------- 216-1-1 Angle of View----------------------------------------------------------------------------------------- 216-1-2 Response Characteristic--------------------------------------------------------------------------- 21
6-2 Angle of View-------------------------------------------------------------------------------------------- 226-3 Multi-Domain System --------------------------------------------------------------------------------- 236-4 MVA (Multi-domain Vertical Alignment) System ----------------------------------------------- 246-5 IPS (In-Plain Switching) System ------------------------------------------------------------------- 256-6 Optically Compensated Film ------------------------------------------------------------------------ 266-7 OCB (Optically Compensated Birefringence) System ---------------------------------------- 266-8 Improvement of Response Speed ----------------------------------------------------------------- 276-8-1 Inpulse System--------------------------------------------------------------------------------------- 276-8-2 FFD (Feed Forward Driving) System----------------------------------------------------------- 27
7. Appendix ----------------------------------------------------------------------------------------------- 28 - 317-1 Backlight-------------------------------------------------------------------------------------------------- 287-2 LVDS Circuit--------------------------------------------------------------------------------------------- 297-3 Block Diagram Example------------------------------------------------------------------------ 30 - 31
7/31/2019 Sanyo Lcd Tv Training Manual
2/32-2-
Training Manual Principle of LCDI Construction of LCD Display
1. Construction of LCD Display1-1 Principle of LCD DisplayThe LCD (Liquid Crystal Device) Display is used to display the electric signal, converted from picturedata similar to a CRT display. The transistor (TFT) switched by the electric signal changes the transmis-sion to light in small picture elements (pixels) of the LCD. The LCD display makes the picture by groupingthese elements of each RGB color.
1-2 Construction of LCD DisplayLCD DisplayLiquid Crystal is packed between the board modules (TFT and Common) and the LCD panel (or LCDshutter) is constructed. A back light is attached to the LCD panel for LCD Display.
Board Module (Common Electrode)
The Common Electrode consists of a polarized board, a color filter, and a transparent electrode on aglass plate. An alignment film is formed on the transparent electrode.
Board Module (TFT Electrode)The TFT Electrode consists of a polarized board and a transparent electrode (pixel electrode and drivetransistor) on a glass plate. An alignment film is formed on the transparent electrode.
BacklightA fluorescent light is used for the Backlight.
TFT: Thin Film Transistor
LCD Panel and LCD Shutter: They are the same things, but in the explanation LCD panel is used
for structure and LCD shutter is used for function.
7/31/2019 Sanyo Lcd Tv Training Manual
3/32-3-
Training Manual Principle of LCDConstruction of LCD Display
BoardModule
(TFT side)
Board Module(Common side)
The light of each picture element is transmittedby switching the drive transistor (TFT) on and off.
LCD Layer
Backlight
PolarizedBoard
PolarizedBoard
Pixel(Picture Element)
TFTTransparentElectrode
(Pixel, TFT)
Color Filter
TransparentElectrode(Common)
GlassPlate
GlassPlate
Note: Alignment fi lm is notshown in this figure.
Fig. 1 Construction of LCD Display(Transparent Type TFT LCD)
7/31/2019 Sanyo Lcd Tv Training Manual
4/32-4-
Training Manual Principle of LCDConstruction of LCD Display
1-3 Main component of LCD DisplayLCD ShutterSupplying voltage to the transparent electrodes between the pixel and common sides changes thearrangement of liquid crystal. By assembling two polarized boards, the transfer of light from the backlight
can be controlled by the transparent ratio of the LCD Shutter.
Liquid CrystalLiquid Crystal is a material whose state is between a solid and a liquid. It has both characteristics ofsolids and liquids, and generally it is a white turbid liquid. Its molecules are normally arranged compara-tively opaque and change to transparent with the application of voltage or heat.
Transparent Electrode (Film)An LCD shutter is operated by supplying voltage derived from the video signal. Transparent film is used
for its electrode.
Alignment FilmThis is a film for arranging liquid crystal molecules and is made of Polymid resin.
Polarized BoardThe light with a specified direction passes through a polarized board.
Drive Transistor
The thin film transistor (TFT) is used to drive the LCD shutter of each pixel.
Color FilterIt is a filter with three colors (R, G, B) arranged for each pixel.
BacklightLiquid crystal does not emit light. A light source is needed for display. The light source placed on thereverse side of the LCD panel is called Backlight.
7/31/2019 Sanyo Lcd Tv Training Manual
5/32-5-
Training Manual Principle of LCDConstruction of LCD Display
Backlight
PolarizedBoard
PolarizedBoard
GlassPlate
Glass Plate
Alignment Film
Alignment FilmLiquid Crystal
Transparent Electrode(Pixel, TFT)
Transparent Electrode(Common)Color Filter
Module(Back)
Module(Front)
LCD LayerLCDShutter
TFT DisplayDrive Circuit(with IC)
LCDDisplay
Backlight
LCDModule
LCD Panel(LCD Shutter)
Fig. 2 Construction of LCD Display(Cross Section)
Fig. 3 Assembly of LCD Display
7/31/2019 Sanyo Lcd Tv Training Manual
6/32-6-
Training Manual Principle of LCD
2. Principle of Liquid Crystal2-1 Liquid CrystalWhat is Liquid Crystal? Liquid Crystal is a material whose state is between a solid and liquid. It has characteristics of both solidsand liquids, and generally is a white turbid liquid. Its molecules are normally arranged comparativelyopaque and change to transparent with the application of voltage or heat.Almost all the materials consist of an organic compound taking the form of a slender stick or a flat plate.There are three types of liquid crystal as shown in Fig. 4, and they depend on the construction andarrangement of molecules.Generally Nematic liquid crystal is used for the display apparatus.
(a) SmecticMolecules are in layers and arranged parallel to each other. The center of gravity is arranged at randomin the layer.
(b) NematicMolecules are not in layers. They are arranged parallel. The center of gravity is able to move freely to themajor axis.
(c) CholestericMolecules are in layers and arranged parallel. The arranging direction of the major axis for the neighbor-ing layers is shifted gradually.
In order to use liquid crystal for display, it is necessary to regularly arrange the molecules of Nematic(Rubbing-process).
2-2 Rubbing-processAfter chemicals for arranging are put on the glass plate, they are hardened, and then the surface on theplate is rubbed with a cloth to fix the direction of the gaps that are made. The arranging direction of mole-cules is settled in the gaps.This process is used to change the characteristics so the molecules that touch the rubbed surface arearranged to the major axis of the rubbed direction.This thin film on the glass plate is called Alignment film.
I Principle of Liquid Crystal
7/31/2019 Sanyo Lcd Tv Training Manual
7/32-7-
Training Manual Principle of LCDPrinciple of Liquid Crystal
Alignment Film
Arranging
RubbingDirection
Natural Condition
Liquid Crystal Molecule
Fig. 4 Liquid Crystal
(a) Smectic
(c) Cholesteric
(b) Nematic
Fig. 5 Rubbing-Process
7/31/2019 Sanyo Lcd Tv Training Manual
8/32-8-
Training Manual Principle of LCDPrinciple of Liquid Crystal
2-3 Operation of Liquid CrystalThe chemistry substance required for liquid crystal material is one that reacts so that the arrangementdirection is changed according to an applied electric field.In the LCD display, a liquid crystal is placed between two electrodes. When the voltage is suppliedbetween them, an electric field is generated in the liquid crystal, and liquid crystal molecules are movedand arranged. The Backlight applied to the liquid crystal is either passed or blocked according to thearrangement of the molecules.If an electric field from an external source is applied to liquid crystal, electric dipoles will be generatedthat will react to the intensity and direction of the electric field. Through the operation of these electricdipoles and the electric field, the power changing direction of liquid crystal molecules is generated.Therefore, according to an external electric field, liquid crystal molecules move and change directionfrom horizontal to vertical.
ElectricDipole
Liquid CrystalMolecule
Liquid Crystal
ElectricField
ElectricField
TransparentElectrode
Fig. 6 Operation of Liquid Crystal
7/31/2019 Sanyo Lcd Tv Training Manual
9/32-9-
Training Manual Principle of LCD
3. Principle of LCD3-1 Operation of Polarized Board for LCD Panel (Shutter)Light is an electromagnetic wave that is oscillating at right angles to the direction of advance. In fact, theoscillating directions of all light is mixed. A polarized board can let only the light in the specific directionpass from the light with which these various oscillating directions were mixed. Therefore, only the light ofthe same direction as the polarization direction of a polarized board can be taken out by letting the lightpass through this polarized board. That is, if the oscillating direction of light and the direction of a polar-ized board are in agreement, the light will pass through a polarized board. Moreover, if the direction of apolarized board differs from the oscillating direction of light, the light cannot pass through a polarizedboard. When the oscillating direction of a polarized board and light are shifted 90(right-angled), the lightis blocked completely. The light passes and looks bright if the two boards are in the same direction whenlooking at two polarized boards in piles, however, if shifted at right-angles, the light is blocked and looksdark.
I Principle of LCD
PolarizedBoard
White
Light Light
Black
Fig. 7 Operation ofPolarized Board
Fig. 8 Operation ofPolarized Board
Oscillating direction of light Oscillating direction of light
The oscillating directionof light and the directionof a polarized board arein agreement.
The direction of apolarized board differsfrom the oscillatingdirection of light
Passage Interception
The two boards arethe same directions.
The two boards areshifted right-angled.
7/31/2019 Sanyo Lcd Tv Training Manual
10/32-10-
Training Manual Principle of LCD
3-2 Operation of Alignment FilmLiquid crystal is inserted into alignment films of an upper and lower plate that have the direction ofgrooves shifted by 90 on the LCD display. The liquid crystal molecules of upper alignment plate arearranged along with the upper alignment film. The liquid crystal molecules of lower alignment plate arearranged along with the lower alignment film. The liquid crystal layer between these alignment films istwisted little by little and is arranged so that a spiral is formed. Light entering through the first alignmentplate will have its oscillating direction twisted 90 by the liquid crystal layer between the alignment films.Now the direction of oscillation is aligned with the second alignment plate and the light will pass through.
Principle of Liquid Crystal
AlignmentFilm
AlignmentFilm
AlignmentPlate
Directionof Groove
Directionof Groove
LiquidCrystal
Molecule
Fig. 9 Operation ofAlignment Film
By the upper-and-loweralignment films, spirally, aliquid crystal molecules aretwisted 90 and arranged.
3-3 Operation of LCD Panel
In the LCD panel, a liquid crystal is inserted and enclosed between two glass plates. The polarizedboard, transparent electrode, and the alignment film are formed on these glass plates. The light can bepassed or blocked by supplying voltage or not to this LCD panel.In the condition (Switch-Off) that the voltage is not supplied, the liquid crystal molecules are twisted 90sideways and arranged spirally. The oscillating direction of the light that passed the upper polarizedboard is changed by the twisted liquid crystal molecule arrangement. Therefore, the direction of a polar-ized board and the oscillating direction of the light which is shifted 90 and arranged become the same,and this light can now pass through a polarized board. This is the liquid crystal shutter-on condition andan LCD panel (LCD shutter) passes the light.
7/31/2019 Sanyo Lcd Tv Training Manual
11/32-11-
Training Manual Principle of LCDPrinciple of Liquid Crystal
L i g h t L i g h t
PolarizedBoard Polarized
Board
PolarizedBoard
TransparentElectrode(Lower)
TransparentElectrode(Upper)
AlignmentFilm
LiquidCrystal
AlignmentFilm
PolarizedBoard
TransparentElectrode
(Lower)
TransparentElectrode
(Upper)
AlignmentFilm
LiquidCrystal
AlignmentFilm
Fig. 10 Operation ofLCD PanelPassage Interception
3-4 Transparent ElectrodeIn order to generate an electric field in liquid crystal, voltage is supplied to the upper-and-lower elec-trodes. If metal is used for these electrodes, the light is interrupted by this metal and cannot pass into theliquid crystal. Therefore, a transparent electrode that passes light is used for the electrode of the LCDshutter.
On the contrary, in the condition (Switch-On) that voltage is supplied, the liquid crystal molecules arearranged in a line at right angles to a glass plate. Since vertical liquid crystal molecules do not affect theoscillating direction of light, the light that passed the upper polarized board passes as it is without chang-ing the oscillating direction. Since the oscillating direction of this light differs from direction of the lowerpolarized board which is shifted 90 and arranged, the light collides with this polarized board and cannotpass. This is the liquid crystal shutter-off condition and the LCD panel (LCD shutter) blocks the light.This is the basic structure (OnOff of the light by the LCD shutter) of an LCD panel. It is a sandwichstructure of the upper and lower sides of transparent electrodes, alignment films, and polarized boards,with an enclosed liquid crystal material between them.The LCD panel shown in Fig. 10 is a type of panel that changes the light into a passage condition whenvoltage is not supplied between the upper-and-lower polarized boards that are arranged at 90. This typeof panel has the advantage that black contrast is improved, and it usually works well. This mode is calledNormally White Mode.An LCD panel that passes light when voltage is not supplied is referred to as Normally Black Mode. Inpractice, with this type (when the upper-and-lower polarized boards are arranged in the same direction),
displaying perfect black becomes difficult due to the leakage of light caused by variations in the arrange-ment of the liquid crystal molecules.
7/31/2019 Sanyo Lcd Tv Training Manual
12/32-12-
Training Manual Principle of LCDI Type of LCD Display Construction
4 Type of LCD Display Construction4-1 Twisted Nematic (TN) TypeA Nematic type of LCD Display where the liquid crystal molecules are twisted 90 between upper andlower boards is called a Twisted Nematic type (TN type) liquid crystal.
Most LCD displays are of this type and feature high contrast (ratio) under low voltage and power.
4-2 Super TN (STN) TypeSuper TN type (STN type) LCD Displays are used for LCD televisions, personal computer monitors, cel-lular phones, etc. A liquid crystal material developed to improve visual characteristics, such as contrastratio is used.In this STN type liquid crystal molecules are twisted 180 to 270 and arranged between upper and lowerelectrodes. By supplying voltage to this liquid crystal, the transparent ratio of light changes more steeply.Therefore, with the STN type as compared to the TN type, contrast and rise characteristic of the voltage(response of switch On and Off) are improved, and a clearer picture on larger screens becomes possible.
4-3 Triple STN (TSTN) Type / Film STN (FSTN) TypeA fault of the STN type is that the display colors during On and Off of the LCD shutter become yellowishgreen and navy blue. (In TN type, they are white and black.) This is because light of a specific wave-length is reflected and scattered by the thickness of the LCD panel. Therefore, even if a color filter ofRGB is attached to an STN type liquid crystal, bluish green is mixed with the colors from black, gray towhite, and a natural color picture cannot be displayed. The triple STN type (TSTN type) and the film STNtype (FSTN type) have been developed as an advanced type of STN.In the TSTN type, optically compensated films (high polymer films) which sandwich the upper and lowerLCD panels are used. They compensate for the twist of the light crystal cell, and the display colors of yel-lowish green and navy blue are changed to the correct white and black. The FSTN type uses a singleoptically compensated film
7/31/2019 Sanyo Lcd Tv Training Manual
13/32-13-
Training Manual Principle of LCDType of LCD Display Construction
Module
LCD Layer
Module
Module
LCD Layer
Module
Module
LCD Layer
OpticallyCompensated
Film
Module
OpticallyCompensated
Film
Fig. 11 Type of LCD Display Construction
Twist of molecule(90)
Twist of molecule(180 - 270)
TSTN Type
STN Type
TN Type
7/31/2019 Sanyo Lcd Tv Training Manual
14/32-14-
Training Manual Principle of LCD
5 System of LCD Display5-1 Dot-Matrix SystemLCD displays have two drive systems, Segment and Dot-Matrix. The Dot-Matrix system is used for LCDtelevision displays.
The picture elements (pixels) of the display unit are arranged horizontally (X line) and vertically (Y row)by this Dot-Matrix system, and various characteristics and figures can be displayed.Fig. 12 shows a matrix of X x Y = 10 (pixels) with the character Y displayed. In this Dot-Matrix system,by making the size of a pixel smaller and increasing the whole number of pixels, the big screen with finecharacter or picture becomes possible.With the present liquid crystal manufacture technology, the number of pixels per inch has reached200ppi*, and very high definition screen display is possible. Moreover, the number of pixels of an LCDdisplay panel corresponding to bigger screen sizes can be specified and manufactured. For example, thenumber of pixels of the SXGA* panel is about 1,300,000 (1,280 x 1,024 = 1,310,720 pixels).
ppi: p ixel p er inch
SXGA: S uper e Xtended Graphics Array
I System of LCD Display
Y
XR G B
Fig. 12 Dot-Matrix System
In colorization of LCD panel,one pixel consists of 3 RGBdots (sub-pixels).
A character or a figure isdisplayed by making thepixel of each X and Y inter-section turn on (or off).
7/31/2019 Sanyo Lcd Tv Training Manual
15/32-15-
Training Manual Principle of LCD
5-2 ColorizationSince an LCD shutter only passes or blocks light, in itself it cannot display a color picture. The color pic-ture is made by mixing the three colors of RGB (three primary colors of light) respectively, like the CRTcolor television. The color LCD panel has a color filter of RGB attached to the monochrome panel. SeeFig. 13. In this color LCD panel, by controlling the voltages and the waveforms that are supplied at eachRGB pixel, the transparent ratio is controlled and hue and brightness are adjusted. Therefore, smallerpixels and more numbers of pixels are required for the color LCD Display. For example, although theSXGA panel described before has about 1,300,000 pixels, in colorization, there are about 4 million dots(sub-pixels).
System of LCD Display
Fig. 13 Colorization of LCD Display
R GB
LCD ShutterColor Filter
Backlight
W h i t e
C o l o r
LCD Shutter
Backlight
W h i t e
M o n o c
h r o m e
Color Panel Monochrome Panel
7/31/2019 Sanyo Lcd Tv Training Manual
16/32-16-
Training Manual Principle of LCD
5-3 Drive SystemThe drive systems for LCD display are divided into the following classifications:The Static Drive System , which is seldom used;The Passive Matrix System , which is used for still pictures, such as calculators and notebook PCs;The Active Matrix System , which is suitable for high definition and the high-speed response needed forbig screen LCD television.
System of LCD Display
Drive System Static Drive System
Dynamic Drive System Passive Matrix System
Active Matrix SystemClassification of LCD Drive System
5-4 Passive Matrix SystemIn the structure of a passive matrix system, Y electrodes of the vertical direction (Y-direction) are formedin upper glass plate, and X electrodes of the horizontal direction (X direction) are formed in lower glassplate as a matrix. The liquid crystal molecules are sandwiched between these electrodes. By supplyingvoltage between the Y electrode and the X electrode in sequence, at a certain time, an electric field isgenerated in the liquid crystal where the selected Y electrode and X electrode cross. Therefore, the liquidcrystal molecules of this pixel address (X, Y electrode intersection) change arrangement and an LCDshutter is turned On or Off.
GlassPlate
Y Electrode
X Electrode
Y0 Y1 Y2 Y3 Y4
GlassPlate
LiquidCrystalLayer
X0
X1
X2X3
X4
Fig. 14 Passive Matrix System
These electrodes aretransparent electrodes.
7/31/2019 Sanyo Lcd Tv Training Manual
17/32-17-
Training Manual Principle of LCDSystem of LCD Display
Y1
Y0 Y1 Y2
LiquidCrystal
X2
X0
X1
X2
X3
Fig. 15 Passive Matrix System
LCD shutter is turned on
or turned off in thisaddress (X2, Y1).
In the dynamic drive system, since the electric signal (voltage) is supplied to the Y electrode and the Xelectrode in sequence, the number of pixels which makes all pixels (the total number of pixels are X xY) turn on or off becomes X+Y. Therefore, compared with the static drive system that has an indepen-dent electrode for each pixel, the number of electrodes of the dynamic drive system is very few.However, with this dynamic drive system, since the electrode itself is the wiring, it has resistance thatcannot be disregarded in the big screens. This resistance causes the speed of the shutter to becomeslower. Therefore, when displaying moving pictures etc., an afterimage is generated.This passive matrix system is not suitable for LCD televisions with big screens that require moving pic-tures and high resolution.
The active matrix system was developed in order to overcome these faults.
7/31/2019 Sanyo Lcd Tv Training Manual
18/32-18-
Training Manual Principle of LCD
5-5 Active Matrix SystemIn the active matrix system, a switch element is attached for every pixel at the intersection of the X and Y-electrodes of a passive matrix system. Each pixel is now controlled by the switch element (active ele-ment). Since the switch for each pixel is turned On and Off independently, the response speed isincreased. Thin Film Transistor (TFT) is used for the switch element and is attached on the glass board.
The LCD display using this TFT is called TFT LCD display.The upper electrode for the whole pattern is formed on the upper glass plate and is called the CommonElectrode. A pixel electrode (pixel pattern), TFT (switch element) which drives a pixel electrode, and Xelectrode for gate input and Y electrode for source input of TFT are formed on the lower glass plate. Inthis structure, the electric field is generated in the area between the pixel electrode and the commonelectrode, and the LCD shutter for 1 pixel is operated.When an electric signal (voltage) is supplied to the Y and X electrode of TFT, TFT is turned On, and theliquid crystal molecules are operated as a light switch. Refer to Fig. 17 (Address X1 and Y0).
System of LCD Display
Glass Plate(Upper)
Y Electrode
X Electrode
Pixel Electrode(Pixel Pattern)
Glass Plate(Lower)
LiquidCrystalLayer
COMMONElectrode
TFT(Switch Element)
Y Electrode
Equivalent Circuit(TFT)
Y0
Y0
Y1
X1X1
Y0
X1
X2X Electrode
Pixel Electrode
Pixel
Electrode
Liquid
Crystal
LiquidCrystal
COMMONElectrode
COMMON
COMMONElectrode
Drain
Gate
SourceTFT TFT
Equivalent Circuit(Switch)
COMMON
Drain
Gate
SourceSwitch(On / Off)
Fig. 16 Structure of ActiveMatrix System
Fig. 17 Equivalent Circuit ofActive Matrix System
By TFT, the shutter of a pixel at theaddress (X1, Y0) is turned On or Off.
7/31/2019 Sanyo Lcd Tv Training Manual
19/32-19-
Training Manual Principle of LCDSystem of LCD Display
Y0 Y1 Y2 Y3X0
X1
X2
X3
Liquid CrystalCOMMON Electrode
TFT (Switch)
Fig. 18 Structure of TFT Matrix
The LCD shutter is operated byTFT at the address (X1, Y0).
The amplification operation of a transistor is used for the TFT switch in the active matrix system. In thissystem, switching speed is unified over the whole display, increasing drive response speed as comparedwith the passive matrix system. Therefore, TFT LCD display (active matrix system) is adopted for thehighly efficient display, which can provide the response speed required for big screens or quickly movingpictures. However, further response speed is needed for high definition LCD television. This will bedescribed later.
5-6 Drive of Active Matrix SystemThe TFT LCD display consists of a matrix of n lines of X direction (X0 - Xn-1) and of n rows of Y direction(Y0 - Yn-1). The line of X direction is called the gate line and the line (row) of Y direction is called thedata line.First, the scan is started from the pixel address(X0, Y0), and when the address (X0, Yn-1) isselected the scan of X0 line is completed. Next, allthe pixels from X1 line to Xn-1 line are scanned insequence, and the final address is (Xn-1, Yn-1).The operation of selected pixel address (X1, Y2)is explained below.
First, (signal) voltage is supplied to X1 line (gateof TFT), next voltage is supplied to Y2 row (sourceof TFT), and the address of the intersection of X1line and Y2 row is selected and its TFT is turnedOn or Off. However, just switching the TFT on andoff will not change the brightness of the screen.The brightness of a screen is changed by control-ling the voltage of a data line (Y row). Fig. 19shows the voltage characteristic of the matrix sys-tem.
Time
Active Matrix System
V o l t a g e t o l i q u i d c r y s t a l
Passive Matrix System
Fig. 19 Voltage Characteristic of Matrix System
Since the time for the drive voltage to reach itsrequired value is shorter in the active matrix system,the response time of the display becomes quicker.
7/31/2019 Sanyo Lcd Tv Training Manual
20/32-20-
Training Manual Principle of LCD
In Fig. 20, the voltage of the data line (Y2) is supplied in the positive direction to a common electrode(DC drive). In practice a uniform AC voltage is supplied to the common electrode (AC drive) to prolongthe life of the liquid crystal.
Y0
Data Line Drive Circuit (Y row)
G a t e L
i n e D r i v e C i r c u i t ( X l i n e )
Y1 Y2 Y3
Yn-1
X0X1X2X3
Xn-1
COMMON
COMMON
COMMON
Brightnessof Screen
PowerCircuit
X Direction
VariableVoltage
TFT: On (X1, Y2)
TFT: On
TFT: Off
Video DataProcessor
Timming Controller(Scan Converter)Y Direction
X1
Y2
Y2
Y2
Y2
Y2
LiquidCrystal
PixelElectrode
Glass Plate(Common)
Glass Plate(TFT)
TFT
Fig. 20 LCD Drive Circuit (Normally White Type)
In practice, driven by AC signalto COMMON. (AC Drive)
System of LCD Display
7/31/2019 Sanyo Lcd Tv Training Manual
21/32-21-
Training Manual Principle of LCD
6 Improvement Technology of LCD Display6-1 Subject of LCD Display6-1-1 Angle of ViewAngle of view means the normal visible range (angle) of a screen.In an LCD display, the angle of view is narrow compared with a CRT or PDP (Plasma Display Panel). Theviewing angle of the typical TN type LCD display is about 100. However with the new improved technolo-gy that has been developed the angle of view for LCD display has increased to 160 or 170. Thisimproved system will be described later. (The angle of view for a CRT or PDP is 180.)
I Improvement Technology of LCD Display
6-1-2 Response CharacteristicThe response characteristic of the LCD display is the speed at which the display is refreshed by the inputsignal (video data signal).If this response characteristic is slow, an afterimage will appear on the screen. Therefore, in large screenLCD television, improving this response characteristic becomes very important.
Angle of View
Angle of View
Vertical
Horizontal
Fig. 21 Angle of View
7/31/2019 Sanyo Lcd Tv Training Manual
22/32-22-
Training Manual Principle of LCD
6-2 Angle of View (TN Type)The principle of optical penetration and the interception of the LCD shutter by the arranged direction ofcylindrical liquid crystal molecules controls the direction of light. Therefore, brightness, hue, and contrastdepend on the direction of view of the LCD display. The range (angle) where these look normal is calledthe angle of view. The fault of the TN LCD display is that this angle of view is narrow.Fig. 22 shows that brightness changes depending on the angle the screen with a gray picture is viewed.In this figure, the liquid crystal molecule leans diagonally. Therefore, the amount of optical penetration willchange depending on the angle when watching the screen from the front or the side.
PolarizedBoard
PolarizedBoard
GlassPlate
Alignment Film
Alignment Film
Liquid Crystal Molecule
GlassPlate
Transparent Electrode(Pixel, TFT)
Transparent Electrode(Common)
Fig. 22 Angle of View (TN type)
Improvement Technology of LCD Display
The brightness becomesdifferent depending on theangle of view.
7/31/2019 Sanyo Lcd Tv Training Manual
23/32-23-
Training Manual Principle of LCD
6-3 Multi-Domain SystemThe arrangement of the TN LCD display is one directional. In this Multi-Domain System, one pixel isdivided into two or more different arranged domains.Fig. 23 shows the example of Multi-Domain System with two domains. The quantity of the light per pixelfrom various angles is equalized by this system. Moreover, the angle of view becomes even wider byincreasing the number of divisions. However, manufacturing is difficult in the rubbing process*. Refer to 2-2 Rubbing-process.
Improvement Technology of LCD Display
PolarizedBoard
PolarizedBoard
GlassPlate
Alignment Film
Alignment Film(Right)
Liquid Crystal Molecule
GlassPlate
Transparent Electrode(Pixel, TFT)
Alignment Film(Left)
Transparent Electrode(Common)
Fig. 23 Multi-Domain System
The brightness of a screenis equalized as macro view.
7/31/2019 Sanyo Lcd Tv Training Manual
24/32-24-
Training Manual Principle of LCDImprovement Technology of LCD Display
6-4 MVA (Multi-domain Vertical Alignment) SystemIn the MVA system, the (alignment) film is arranged so that the liquid crystal molecules are stood vertical-ly. The MVA system combines vertical alignment with the Multi-domain system. By vertically aligning theliquid crystal molecules, the influence of optical interception is lost, and the angle of view and contrastare improved.A type of material is used that causes the liquid crystal molecules to become vertical to the glass platewithout supplying voltage. (Nega-Nematic liquid crystal*)In the MVA system, attaching the boss by resin and making the liquid crystal molecules stand diagonallyon the transparent electrode make multiple alignment domains. Therefore, since the rubbing process canbe skipped at the alignment film production, manufacturing becomes easier compared with the multi-domain system.
Generally, a Posi-Nematic system is used that aligns the liquid crystal molecules by supplying voltage.
PolarizedBoard
PolarizedBoard
GlassPlate
Alignment Film
(Right)
Liquid Crystal Molecule(Nega-Nematic)
GlassPlate
Transparent Electrode(Pixel, TFT)
Alignment Film
(Left)
Transparent Electrode(Common)
Boss
Fig. 24 MVA (Multi-domain Vertical Alignment) System
7/31/2019 Sanyo Lcd Tv Training Manual
25/32-25-
Training Manual Principle of LCDImprovement Technology of LCD Display
6-5 IPS (In-Plain Switching) SystemThe structure of an IPS system is shown in Fig. 25. The pixel and common electrodes are mounted tothe transparent film (drive transistor) side and the electric field is generated horizontally to the glassplate. With this electric field, the alignment direction of liquid crystal molecules is rotated 90 in parallel tothe glass plate.In the IPS system, liquid crystal molecules rotate all at once in the horizontal direction. Since these liquidcrystal molecules do not lean like the TN type, there is little change in the picture characteristics (con-trast, brightness, hue, etc.) and the angle of view becomes wider. However, there are a few problems.The quantity of transparent light is reduced, slower response speed, and a white picture becomes a littlebluish or yellowish depending on the viewing direction. The S-IPS (Super-IPS) type was developed toimprove upon these problems. In the S-IPS type, the structure of the electrode for driving the liquid crys-tal molecules becomes a zigzag form, which reduces the change of color, increases the viewing angle toabout 160 and has high definition equivalent to a CRT.
Polarized
Board
PolarizedBoard
PolarizedBoard
Glass Plate(Without Transparent Electrode)
Alignment Film
Alignment Film
Liquid Crystal Molecule(Vertical)
Liquid CrystalMolecule
(Vertical)
ElectricField
Dark (Switch Off) Bright (Switch On)
Glass Plate
Transparent Electrode(Pixel)
Transparent Electrode(Common)
Alignment Film
Fig. 25 IPS (In-Plain Switching) System
Basic Structure of IPS System
Normally Black Mode
7/31/2019 Sanyo Lcd Tv Training Manual
26/32-26-
Training Manual Principle of LCDImprovement Technology of LCD Display
6-6 Optically Compensated FilmBy using the optically compensated film, the phase shift of the STN type of LCD display is corrected, andthe angle of view and contrast are improved.(Refer to 4-3 Triple STN Type.)Three methods for attaching the optically compensated film are shown in Fig. 26.
Polarized Board
PolarizedBoard
CompensatedFilm
Liquid Crystal
Polarized Board
PolarizedBoard
Compensated Film 1
Liquid Crystal
Compensated Film 2
Polarized Board
PolarizedBoard
CompensatedFilm 1
Liquid Crystal
CompensatedFilm 2
Fig. 26 Optically Compensated Film
1 sheet / 1 side 2 sheets / 1 side 2 sheets / 2 sides
6-7 OCB (Optically Compensated Birefringence) SystemThe OCB system combines the bend-alignment system where the liquid crystal molecules are bent andaligned between the upper and lower boards and optically compensation film. This system has the fea-tures of increased angle of view and quicker response speeds. However, bend-alignment is difficult tomake uniform and stable.
Optically CompensatedFilm
PolarizedBoard
Polarized Board
GlassPlate
Alignment Film
Alignment Film
Liquid Crystal Molecule
GlassPlate
Transparent Electrode(Pixel, TFT)
Transparent Electrode(Common)
Fig. 27 OCB System
7/31/2019 Sanyo Lcd Tv Training Manual
27/32-27-
Training Manual Principle of LCD
6-8 Improvement of Response Speed6-8-1 Inpulse SystemIn order to reduce afterimage and dim outline, there is the system that has the backlight blinked for everywriting of one picture or an all black picture in inserted in the fixed cycle. It is called the Inpulse System.For example, with the system called Super Inpulse System, the black data is written in every 1/60 sec-ond, and the afterimage and the ghosts are reduced.
Improvement Technology of LCD Display
With the usual LCD panel, since thepicture is displayed continuously,the front picture becomes dim asthe afterimage.In the inpulse system, by insertingblack data between the picturedata, the afterimage is reduced andthe high-speed response isimproved.
Picture Data
Black Data
Fig. 28 Inpulse System
6-8-2 FFD (Feed Forward Driving) SystemThe response speed of LCD brightness can be improved by adding over-shoot characteristic to the dataline voltage. Fig. 29 shows the actual overdrive circuit used in a digital drive system.
Time
Over-Shoot
V o l t a g e
Time
ResponseTime
B r i g h t n e s s
Time
V o l t a g e
Time
V o l t a g e
Time
Response Time(By Overdrive Circuit)
B r i g h t n e s s
Time
V o l t a g e
Fig. 29 Overdrive Circuit
Waveform (Normal) Waveform with Over-Shoot
Drive Circuit (Normal) Overdrive Circuit
7/31/2019 Sanyo Lcd Tv Training Manual
28/32-28-
Training Manual Principle of LCD
7 Appendix7-1 BacklightAn LCD panel does not emit light itself. For the display, a light source is required, and normally fluores-cent lights are used for the backlight of the LCD television.
The backlight consists of fluorescent lights, a reflective plate, and a diffusion sheet (or board). Fig. 30shows the structure and photograph of 30V and 15V LCD televisions backlights.
Fig. 30 Backlight
30V Type
15V Type
Diffusion Sheet (Board)
Reflective PlateFluorescent Lights(30V: 16pcs)
LCD Panel
Diffusion Sheet
Reflective PlateFluorescent Lights(15V: 2pcs, 20V:3pcs)
LCD Panel
I Appendix
7/31/2019 Sanyo Lcd Tv Training Manual
29/32-29-
Training Manual Principle of LCD
7-2 LVDS Circuit(1) LVDS InterfaceFor transmitting the video signal information, an interface circuit with an LVDS ( Low Noise DifferentiaS ignaling) standard is used, which has the merit of low noise, high speed operation by a small amplitude,and low power consumption.
The LVDS cable connects the transmitter in the driving circuit and the receiver in the module.
(2) Driving CircuitFig. 32 shows the block diagrams of a panel driving circuit. The final video information (signal) from thevideo processor (for example pixelworks) is transmitted to the LCD panel module through an LVDS cable.
1.2V 345/200mV
100
Terminated3.5mAReceiver(LCD Panel)
Transmitter(DrivingCircuit)
LVDS Cable
Fig. 31 LVDS Interface
BLANK
PARITY
PDWN
DATA (LVDS)
CLOCK (LVDS)
RxOUTRxINTxOUTTxINR 8
G 8
B 8
R 8
G 8
B 8
VsyncVsync
Hsync
VsyncVsync
Hsync
DCLK
BLANK
PARITY
RxCLKOUT
DCLK
TxCLKIN LVDS
LVDS Transmitter LVDS Receiver
V i d e o
P r o c e
s s o r
( p i x e
l w o r k s
)
L C D M o
d u
l e
Part of (Panel) Driving Circuit Part of Panel Display (in the module)
Fig. 32 Block Diagrams of Panel Driving Circuit
Appendix
7/31/2019 Sanyo Lcd Tv Training Manual
30/32-30-
Training Manual Principle of LCD
CXA2089QAV Switch U46
U36
U30
U45
U101TU201
U44
U19
C V B S
_ O U T
L_
O U T
V_
T V
R_
T V
L_
T V
R_
O U T
S 1 S
Y 1
S C 1
Monitor Output
AV1 Input AV2 Input
Video Decoder
VPC3230D
TMQJ8Tuner / IF
PIXELWORKSPW113-10Q
M37272M6Sub CPU
IIC+CONTROL
Tuner Board
Main BoardAudio Processor
NJW1138M
LA4263
Audio AMP
R L
Headphone (J26)
R
L
R
L
Main Scaler / (Main)CPUVY [0-7]
VUV [0-7]DGO [0-7]
DRO [0-7]
DBO [0-7]
LCD Panel
S_CLK / SIN_OUT/ ENABLE_IN / ENABLE_OUT
Speaker (R)
Speaker (L)
LV R LVSR LV R Y Cb Cr
8Mbits
Flash ROM
MENORYDATA
C V B S 1
L 1
R 1 C
V B S 2
L 2
R 2
ComponentD-SUB
S E L E C T E D
_ Y
I N P U T
_ Y
I N P U T
_ C b / P b
I N P U
T_
C r /
P r
S E L E C T E D
_ C
C V B S
A U D I O
_ R
A U D I O
_ L
VCPU 33/18
VCPU 33
V33D
+9V16
6717
+12V4
+9V34
323033
4743 4539
301
1
3
238
108
41
717472 5 4 6
4048 46
1198427 3 5 1
321
37
CC_RCC_GCC_B
U6
IC1
PC Input
AD9883Graphic A/D
R X I N +
/ - [ 0 - 3
]
R X C L K +
/ -
R e
d_
P C
H S
_ P C
G_
P C
V S
_ P C
B_
P C
L_PC
R_PC
V33
V33D
AVDD
PVDD
54 30 3148 43
18
16
G R E
[ 0 - 7
]
G G E
[ 0 - 7
]
G B E
[ 0 - 7
]
RH
G BV
THC63LVDM83A
LVDSInterface
7-3 Block Diagram Example(1) CLT-1583
Appendix
(2) CLT-2053
CXA2089QAV Switch U46
U36
U30
U45
U101TU201
U44
U19
C V B S
_ O U T
L_
O U T
V_
T V
R_
T V
L_
T V
R_
O U T
S 1 S
Y 1
S C 1
Monitor Output
AV1 Input
AV2 Input
AV3 Input
Video Decoder
VPC3230D
TMQJ8Tuner / IF
PIXELWORKSPW113-10Q
M37272M6Sub CPU
IIC+CONTROL
Tuner Board
Main BoardAudio ProcessorNJW1138M
LA4263
Audio AMP
R L
Headphone (J26)
R
L
R
L
Main Scaler / (Main)CPUVY [0-7]
VUV [0-7]DGO [0-7]
DRO [0-7]
DBO [0-7]LCD Panel
S_CLK / SIN_OUT/ ENABLE_IN / ENABLE_OUT
Speaker (R)
Speaker (L)
LV R LVSR LV R L R Y Cb Cr
Audio
Board
8Mbits
Flash ROM
MENORYDATA
C V B S 1
L 1
R 1 C
V B S 2
L 2
R 2
L 3
R 3
Component
S E L E C T E D
_ Y
I N P U T
_ Y
I N P U T
_ C b / P b
I N P U T
_ C r /
P r
S E L E C T E D
_ C
C V B S
A U D I O_ R
A U D I O_ L
VCPU 33/18
VCPU 33
V33D
+9V16
6717
+14V4
+9V34
323033
4743 4539
301
1
3
238
108
41
717472 5 4 6
4048 46
18
16
1198427 3 5 1
321
37
CC_RCC_GCC_B
Fig. 33 Block Diagram: CLT-1583
Fig. 34 Block Diagram: CLT-2053
7/31/2019 Sanyo Lcd Tv Training Manual
31/32-31-
Training Manual Principle of LCDAppendix
(3) CLT1554 / CLT2054
AV1
Composite VideoS Video
AV1_CV1
Video SW
Audio SWAudio Control
Surround
Audio
AV2
IC1001
Composite Video
Audio
AV3Component Video
Audio
TV(A201)
TunerIF
Sound Multiplex
IC001
Audio AMP
IC101
Video SW
IC1002DD Converter
IC871
SDRAMIC361
LVDSTransmitter
IC781
LCD PANE(20V)
A/D Converter
IC4101
Sync SeparationIC1701
Digital Decoderwith
Y/C Separation
IC2001
CPU
(480i)
(For 20V)
(For 15V)
IC801
IP ConverterScreen Controller
IC301
AV1_Y
AV1/TV_Y/CV
DEC_Y/C (0-7)
(Y/UV)
3
AV1_C90 85
AV3_Y 3
AD_Y26
AV3_Cr92
AV2_V 1
AV1_L/RL: 30R: 1
AV2_L/RL: 29R: 2
AV3_L/RL: 28R: 3
TV_L/RL: 27R: 4
TV_CV 5
5
7
AD_HS16
30AD_VS
28
31
OSD_HD
154
22 VD
OSD_HD
OSD_CC
VD153
23 18R
152R
151G
150B
148Y
149I
19G 20B 21Y 16I12 10
13 11
7
36 37(For Caption)
SEL_Y/CV
10 SEL_R16 R-OUT (+)
15 R-OUT (-)
21
13
9SEL_L
AV3_Cb94
(480p)
AD_Cr54
AD_Y48
AD_Cb43
IIC Bus
IIC Bus
IIC Bus
IIC Bus
IIC Bus IIC Bus
AD_R/G (0-7)
R/G/B (0-7)
R/G/B (0-7)
AD_CLAMP
15
38
3.3V
5V
LCD PANE(15V)
SPEAKER(Right)
24 L-OUT (+)
25 L-OUT (-)SPEAKER
(Left)
Fig. 35 Block Diagram: CLT1554 / CLT2054
7/31/2019 Sanyo Lcd Tv Training Manual
32/32