TT4761B01-3 Product Specification
MODEL: TT4761B01-3
Ver.0.1
Date:08.May.2013
Customer’s Approval
Signature Date
CSOT
Approved By Product Director
Name: Richard Lung
Signature:
Reviewed By PM Manager
Name: Aaron Tu
Signature:
Reviewed ByProject Leader
Name: KC Lee
Signature:
Reviewed ByPM
Name: Zou Yingnan
Signature:
Date
Date
Date
Date
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Optoelectronics Technology Co., Ltd.
Any unauthorized use is prohibited.
Contents
TT4761B01-3 Product Specification
1. General Description ....................................................................................................................................... 4
1.1 Product Features .................................................................................................................................. 4
1.2 Overview .............................................................................................................................................. 4
1.3 General Information ............................................................................................................................. 4
2.Absolute Maximum Ratings ........................................................................................................................... 5
2.1 Absolute Maximum Ratings (TA= 25 ± 2 °C) ...................................................................................... 5
2.2 Environment Requirement (Based on CSOT ModuleMT4761B01-1) ................................................ 5
2.3 Absolute Ratings of Environment (Open Cell) .................................................................................... 5
3.Electrical Specification ................................................................................................................................... 6
3.1 Open Cell Power Consumption (TA = 25 ± 2 °C) ............................................................................... 6
3.2 LVDS Characteristics ........................................................................................................................... 7
4. Input Terminal Pin Assignment ..................................................................................................................... 8
4.1 Interface Pin Assignment ..................................................................................................................... 8
4.2 Block Diagram of Interface ............................................................................................................... 10
4.3 LVDS Interface .................................................................................................................................. 11
4.3.1 VESA Format (SELLVDS = H) .............................................................................................. 11
4.3.2 JEIDA Format (SELLVDS = L or Open) ................................................................................ 11
5.Interface Timing ............................................................................................................................................ 12
5.1 Timing Table (DE Only Mode) .......................................................................................................... 12
6. Optical Characteristics ................................................................................................................................. 15
6.1 Measurement Conditions ................................................................................................................... 15
6.2 Optical Specifications ........................................................................................................................ 16
7. MechanicalCharacteristics ........................................................................................................................... 19
7.1 Mechanical Specification ................................................................................................................... 19
7.1.1 Open Cell Mechanical Specification ...................................................................................... 19
7.1.2 TCON Board Mechanical Specification ................................................................................. 20
7.1.3 FFC Mechanical Specification................................................................................................ 21
7.2 Packing............................................................................................................................................... 22
7.2.1 PackingSpecifications ............................................................................................................. 22
7.2.2 PackingMethod ....................................................................................................................... 22
8. Definition of Labels ..................................................................................................................................... 24
8.1 Open Cell Label ................................................................................................................................. 24
8.2 Carton Label ...................................................................................................................................... 24
8.3 PalletLabel ......................................................................................................................................... 25
9. Precautions ................................................................................................................................................... 26
9.1 Assembly and Handling Precautions ................................................................................................. 26
9.2 Safety Precautions.............................................................................................................................. 26
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TT4761B01-3 Product Specification
Revision History
Version Date Page (New) Section Description Revision by
Ver. 0.1 08.May.2013
26 9
Tentative Specification was First Issued. ZouYingnan
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1. General Description
Typical value measured at CSOT’s
TT4761B01-3 Product Specification
1.1 Product Features
- FHD Resolution (1920 x 1080)
- Very High Contrast Ratio:4000:1
- Fast Response Time
- Ultra Wide Viewing Angle: 178° (H)/178° (V)(CR≥ ≥≥≥10)
- DE (Data Enable) Mode
- LVDS (Low Voltage Differential Signaling) Interface
1.2 Overview
TT4761B01-3 is a diagonal47.6”color active matrix LCD open cell with 2ch-LVDS interface. This open cell is
atransmissive type display operating in the normally black mode. It supports 1920x1080 FHD resolutions and can display up
to16.7M colors (8bit). Each pixel is divided into Red, Green and Blue sub-pixels which are arranged in vertical stripe.
This open celldedicates for LCD TV products and provides excellent performance which includes high transparency, ultra
wide viewing angleand high color depth. CSOT open cell comply with RoHS for identification.
1.3 General Information
Item Specification Unit Note
Active Area 1054.08(H)x592.92(V) mm
Cell Size 1068.750(H) x 607.610 (V) x 1.350 (D) mm
Weight 2.0 kg Max.
Driving Scheme a-Si TFT Active Matrix -
Number of Pixels 1920x1080 pixel
Pixel Pitch (Sub Pixel) 0.183 (H) x 0.549 (V) mm
Pixel Arrangement RGB Vertical Stripe -
Display Colors 16.7 M color 8bit
Display Mode Transmissive Mode, Normally Black -
Glass Thickness (Array/CF) 0.5/0.5 mm
R=(0.633,0.334)
Color Chromaticity
G=(0.322,0.631)
B=(0.159,0.049)
W=(0.280,0.290)
Contrast Ratio 4000:1(Typ.)
module: MT4761B01-1
Cell Transmittance 5.6 % (Typ.) %
View Angle(CR>10) +89/-89(H),+89/-89(V) (Typ.)
Polarizer(CF side) Anti-glare, Haze2%, Hard Coating(3H)
Polarizer(TFT side) Hard Coating(3H)
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2. Absolute Maximum Ratings
2.1 Absolute Maximum Ratings (TA= 25 ± 2 °C)
The followings are maximum values which, if exceeded, may cause damage to the unit.
TT4761B01-3 Product Specification
Item Symbol
Min. Max.
Power Supply Voltage VCC -0.3 13.8 V
Input Signal Voltage VIN -0.3 4.0 V
Value
2.2 Environment Requirement (Based on CSOT Module MT4761B01-1)
(1) Temperature and relative humidity range are shown as below.
Relative Humidity (%RH)
100
39ºC,90%
80
60
Operating Range
40
-40
-20
20
Storage Range
0
Fig. 2.1Operating and storage environment
20
40
60
Temperature (ºC)
80
Unit
(a) 90%RH maximum (TA≤39 ºC).
(b) Wet-bulb temperature should be 39ºCmaximum (TA>39 ºC).
(c) No condensation.
(2) The storage temperature is between - 20 ºC to 60 ºC, and the operating ambient temperature is between 0 ºC to 50
ºC.The maximum operating temperature is based on the testcondition that the surface temperature of display area is less
than or equalto 65ºC with LCD module in a temperature controlled chamber alone. Thermalmanagement should be
considered in final product design to prevent the surface temperature of display area from being over 65ºC. The range
of operating temperature may degrade in case of improper thermal management in the end product design.
(3) The rating of environment is based on LCD module. Leave LCD cell alone, this environment conditioncan’t be
guaranteed. Except LCD cell, the customer has to consider the ability of other parts of LCD module and LCD module
process.
2.3 Absolute Ratings of Environment (Open Cell)
When storing open cell as spares for a long time, please follow the precaution instructions:
(1) Do not store the module in high temperature and high humidity for a long time. It is highly recommended to store the
module with temperature from20ºC to 30ºCin normal humidity (50±10%RH) with shipping package.
(2) The open cell should be keep within one month shelf life
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3. Electrical Specification
ell Power Consum p t i o n ( T A = 2 5 ± 2 ° C )
The ripple voltage should be controlled
T
1B01-3 Product Specification
3.1 Open C
Parameter
Power Supply Voltage
Rush Current
White Pattern
Power Supply
Horizontal Stripe
Current
Black Pattern
Note:
(1)
(2)Measurement condition: VCC=12V
GND
less than10% of VCC.
time=470μs.
,
V
x 0.1
470μs
Value
Symbol
Min.
VCC 10.8 12.0
I
- -
RUSH
ICC -
ICC -
ICC -
VCCx 0.9
Typ.
0.38
0.78
0.34
VCC
Unit Note
V (1)
A (2)
A
A
A
(3)
(3)Measurement condition: VCC=12V, Ta
A.
C. Black Pattern
Fig.
.1 VCC rising time condition
F = 60 Hz. The test patterns are
Fig. 3.2 Test patterns
. Horizontal Pattern
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Ver. 0.1
3.2 LVDS Characteristics
Parameter
Symbol
TT4761B01-3 Product Specification
Value
Unit Note
Min. Typ. Max.
Differential Input High
Threshold Voltage
Differential Input Low
Threshold Voltage
LVDS Interface
Common Input Voltage
Differential Input Voltage |VID| 200 400 600 mV
Terminating Resistor RT 87.5 100 112.5 ohm
Input High Threshold Voltage VIH 2.7 - 3.3 V
CMOS Interface
Input Low Threshold Voltage VIL 0 - 0.7 V
Note:
(1) The LVDS input signal has been defined as follows:
VCM
VTH +100 - - mV
VTL - - -100 mV
VCM 1.0 1.2 1.4 V
VTH
|VID|
VTL
(1)
GND
Fig. 3.3 LVDS input signal
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4. Input Terminal Pin Assignment
TT4761B01-3 Product Specification
4.1 Interface Pin Assignment
CN1: CT000041-513C (FCN) or equivalent (see Note (1))
Pin No.
Symbol Description Note
1 N.C No Connection (1)
2 SCL I2C Serial Clock (for adjust VCOM) (2)
3 SDA I2C Serial Data (for adjust VCOM)
4 N.C No Connection (1)
Output Signal for Left Right Glasses Control
5 L/R_O
(High: Left Glass turn on Low: Right glass turn on)
6 N.C. No Connection
Input Signal for LVDS Data Format Selection
7 SELLVDS
(High:VESA Format, Low or Open JEIDA Format)
8 N.C. No Connection (1)
9 N.C. No Connection (1)
10 N.C. No Connection (1)
11 GND Ground
(3)
12 ORX0- Odd Pixel Negative LVDS Differential Data Input. Channel 0
13 ORX0+ Odd Pixel Positive LVDS Differential Data Input. Channel 0
14 ORX1- Odd Pixel Negative LVDS Differential Data Input. Channel 1
15 ORX1+ Odd Pixel Positive LVDS Differential Data Input. Channel 1
16 ORX2- Odd Pixel Negative LVDS Differential Data Input. Channel 2
17 ORX2+ Odd Pixel Positive LVDS Differential Data Input. Channel 2
18 GND Ground
19 OCLK- Odd Pixel Negative LVDS Differential Clock Input
20 OCLK+ Odd Pixel Positive LVDS Differential Clock Input
21 GND Ground
22 ORX3- Odd Pixel Negative LVDS Differential Data Input. Channel 3
23 ORX3+ Odd Pixel Positive LVDS Differential Data Input. Channel 3
24 N.C. No Connection (1)
25 N.C. No Connection (1)
Input Signal for 2D/3D Mode Selection
26 2D/3D
(High:3D Enable,LOW:3D Disable)
27 N.C. No Connection (1)
28 ERX0- Even Pixel Negative LVDS Differential Data Input. Channel 0
29 ERX0+ Even pixel Positive LVDS Differential Data Input. Channel 0
30 ERX1- Even Pixel Negative LVDS Differential Data Input. Channel 1
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TT4761B01-3 Product Specification
31 ERX1+ Even Pixel Positive LVDS Differential Data Input. Channel 1
32 ERX2- Even Pixel Negative LVDS Differential Data Input. Channel 2
33 ERX2+ Even Pixel Positive LVDS Differential Data Input. Channel 2
34 GND Ground
35 ECLK- Even Pixel Negative LVDS Differential Clock Input
36 ECLK+ Even Pixel Negative LVDS Differential Clock Input
37 GND Ground
38 ERX3- Even Pixel Negative LVDS Differential Data Input. Channel 3
39 ERX3+ Even Pixel Positive LVDS Differential Data Input. Channel 3
40 N.C. No Connection
41 N.C. No Connection
42 N.C. No Connection (1)
43 N.C. No Connection (1)
44 GND Ground
45 GND Ground
46 GND Ground
47 N.C. No Connection (1)
48 VCC +12V Power Supply
49 VCC +12V Power Supply
50 VCC +12V Power Supply
51 VCC +12V Power Supply
Note:
(1) For CSOT internal only, please let it opens.
(2) 3D Format: Default line by line.
(3) High: connect to +3.3V→ VESA Format; Low: connect to GND or Open→ JEIDA format.
(4) The first LVDS data is ODD LVDS data
(5) The direction of pin assignment is shown as below:
( 1 )
( 2 )
#1
( 3 )
#51
( 4 )
CN1
CN1
( 5 )
#51
#1
Fig. 4.1 LVDS connector direction sketch map
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If the customer's converter without the use o f S L I , P G p i n m u s t b e p u l l h i g h
Block Diagram of Interfa c e
res i s t o r b e t w e e n p o s i t i v e a n d n e g a t i v e l i n e s o f e a c h r e c e i v e r i n p u t
ohm s p e r s i g n a l l i n e o r a b o u t
T
, PG tim i n g i s s y n c h r o n i z a t i o n w i t h
1B01-3 Product Specification
CN1: 0-12002024-5 (XINDAYITONG)
Control board
Pin NO. Symbol
12 NC
11 NC
10 PDIM
9 SI
8 SO
7 SC
6 GND
5 GSCLK
4 PG
3 FLT
2 2D/3D
Pin NO.
1 NC
2 NC
3 3 NC
4 NC
5 NC
6 NC
FFC 7
8 NC
9 PG
10 NC
11
Converter
Feature
NC
NC
NC
NC
GND
NC
PG
NC
NC
ON/OFF,Low:2D,High,3D
1 VSYNC
Note:
the backlight enable signal.
4.2
Attention:
Timing Controller
12
(high=3.3V)
VSYNC
(1) This open cell uses a 100 ohms (Ω)
(2) LVDS cable impedance shall be 50
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100 ohms per twist-
.
respectively.
Ver. 0.1
4.3 LVDS Interface
4.3.1 VESA Format (SELLVDS = H)
RCLK1P/ RCLK2P
TT4761B01-3 Product Specification
RA1P/ RA2P
RB1P/ RB2P
RC1P/ RC2P
RD1P/ RD2P
4.3.2 JEIDA Format (SELLVDS = L or Open)
RCLK1P / RCLK2P
RA1P/ RA2P
RB1P/ RB2P
RC1P/ RC2P
G0 R5 R4 R3 R2 R1 R0
B1 B0 G5 G4 G3 G2 G1
DE VS HS B5 B4 B3 B2
NA B7 B6 G7 G6 R7 R6
Fig. 4.2VESAformat
G2 R7 R6 R5 R4 R3 R2
B3 B2 G7 G6 G5 G4 G3
DE VS HS B7 B6 B5 B4
RD1P/ RD2P
4.4 Pattern FOR Vcom Adjustment
Dot - inversion pattern
Frame N Frame N+1
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
NA B1 B0 G1 G0 R1 R0
Fig. 4.3 JEIDA format
+
-
+
-
+
-
+
-
+
-
+
-
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
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5. Interface Timing
5.1 Timing Table (DE Only Mode)
Signal Item Symbol Min. Typ. Max. Unit Note
Frequency
Input cycle to
LVDS
cycle jitter
F
(=1/T
T
CLK
rcl
CLK
TT4761B01-3 Product Specification
60 74.25 77 MHz (2)
)
-
-
200 ps (3)
Receiver Clock
LVDS
Receiver Data
Frame Rate
2D
Vertical
Term
3D
Spread spectrum
modulation range
F
clkin_mod
F
clkin
-2%
-
F
+2% MHz (4)
clkin
Spread spectrum
modulation frequency
SSM
200 KHz
F
Receiver Skew Margin
T
RSM
-400
-
400 ps (5)
2D Mode F 47 60 62 Hz
3D Mode F 60 60 60 Hz (7)
Total TV 1115 1125 1380 TH
Display TVD 1080
TH
Blank TVB 35 45 300 TH
Total TV 1125 TH
Blank TVB 45 TH
TV = TVD
+TVB
(6) , (8) Display TVD 1080 TH
Total TH 1050 1100 1150 TCLK
TH = THD +
THB
Horizontal
Term
2D
Display THD 960
Blank THB 90 140 190 TCLK
TCLK
TH = THD +
Total TH 1050 1100 1150 TCLK
3D
Display THD 960 TCLK
Blank THB 90 140 190 TCLK
THB
Notes:
(1)The module is operated in DE only mode, H sync and V sync input signal have no effect on normal operation.
(2) Please make sure the range of pixel clock follows the following equations:
Fclkin(max) ≥ Fmax×Tv×Th
Fmin×Tv×Th≥Fclkin(min)
T
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V
TT4761B01-3 Product Specification
TVD TVB
DE
TH
DCLK
DE
T
CLK
THB
THD
DATA
Valid Display Data(960 clocks)
Fig. 5.1 Interface signal timing diagram
(3) The input clock cycle-to-cycle jitter is defined as the following figure. Trcl = I T1– TI
T
T1=T± 200ps
±
Fig. 5.2 jitter
(4) The SSCG (Spread Spectrum Clock Generator) is defined as the following figure.
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TT4761B01-3 Product Specification
(5) The LVDS timing diagram and setup/hold time is defined and showed as the following figure.
LVDS RECEIVERINTERFACE TIMING DIAGRAM
(6) Please fix the vertical timing in 3D mode.(Vertical Total =1125/Display=1080/Blank=45)
(7) In 3D mode, the setup F should be in Typ. In order to ensure that the eclectic function performance to avoid no display
symptom.(Except picture quality symptom)
(8) In 3D mode, the setup Tv and Tvb should be in Typ. In order to ensure that the electric function performance to avoid no
display symptom.(Except picture quality symptom)
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6. Optical Characteristics
6.1 Measurement Conditions
The table below is the test condition of optical measurement.
Item Symbol Value Unit
TT4761B01-3 Product Specification
Ambient Temperature TA
Ambient Humidity HA
25± 2
50± 10
ºC
%RH
Supply Voltage VCC 12 V
Driving Signal Refer to the typical value in Chapter 3: Electrical Specification
Vertical Refresh Rate FR 120 Hz
To avoid abrupt temperature change during optical measurement, it’s suggested to warm up the LCD module more than 60
minutes after lighting the backlight and in the windless environment.
To measure the LCD cell, it is suggested to set up the standard measurement system as Fig. 6.1. The measuring area S
should contain at least 500 pixels of the LCD cell as illustrated in Fig.6.2(A means the area allocated to one pixel).In this model,
for example, the minimum measuring distance Z is 370mm when θ is 2 degree. Hence, 500mm is the typical measuring
distance. This measuring condition is referred to 301-2H of VESA FPDM 2.0 about viewing distance, angle, and angular field
of view definition.
θ
Z
For Square
S = πr²
Fig. 6.1The standard set-up system of measurement
θ
r
Z
Fig. 6.2The area S contains at least 500 pixels to be measured
≥
500pixels
N means the actual number of the pixels in the area S.
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TT4761B01-3 Product Specification
6.2 Optical Specifications
The table below of optical characteristics is measured by MINOLTA CS2000,MINOLTA CA310, ELDIM OPTIScope-SA
and ELDIM EZ Contrast in dark room.
Item Symbol
Static Contrast Ratio CR
Condition Min.
- 4000 - - (1) (2)
Typ. Max. Unit Note
Response Time TL - 6.5 12 ms (3)
Center Transmittance T% - 5.65 % (2)(4)
0.633
0.334
0.322
0.631
0.159
0.049
0.280
Typ.
+0.03
-
-
-
(2) (5)
-
-
-
Color
Chromaticity
(CIE1931)
Red
Green
Blue
RX
RY
GX
GY
BX
BY
WX
θH=0°, θV=0°
Normal direction at
center point with
CSOT’s module:
MT4761B01-1
Typ.
- 0.03
White
0.290
- 89 -
-
Color Gamut
WY
CG - 72 - % NTSC
θH+
Horizontal
89
89
Deg. (6)
-
Viewing Angle
θH-
θV+
-
CR≥ 10
-
Vertical
θV-
-
89
-
Note:
(1)Definition of static contrast ratio (CR):
It’s necessary to switch off all the dynamic and dimming function when measuring the static contrast ratio.
Static Contrast Ratio (CR) =
CR-D
CR-W is the luminance measured by LMD (light-measuring device) at the center point of the LCD module with
full-screen displaying white. The standard setup of measurement is illustrated in Fig. 6.3; CR-D is the luminance measured
by LMD at the center point of the LCD module with full-screen displaying black. The LMD in this item is CS2000.
(2)The LMD in the item could be a spectroradiometer such as (KONICA MINOLTA) CS2000, CS1000(TOPCON), SR-UL2
or the same level spectroradiometer. Other display color analyzer (KONICA MINOLTA) CA210, CA310 or (TOPCON)
BM-7 could be involved after being calibrated with a spectroradiometer on each stage of a product.
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Black & White
TT4761B01-3 Product Specification
LMD
LCD Module
Fig. 6.3 The standard setup of CR measurement
(3) Response time TLis defined as the average transition time in the response time matrix. The table below is the response time
matrix in which each element t
ratiosamong0%,25%,50%,75%, and 100%luminance. The transition time t
90% of the luminance difference between X and Y (X<Y) as illustrated in Fig.6.4. When X>Y, the definition of t
the time taken from 90% to 10% of the luminance difference between X and Y.The response time is optimized on refresh
rate Fr =60Hz.
Measured
Transition Time
0%
Luminance
Ratio of
Current Frame
25% t
50% t
75% t
is the transition time from luminance ratio X to Y. X and Yare two different luminance
X to Y
is defined as the time taken from 10% to
X to Y
Luminance Ratio of Previous Frame
0% 25% 50% 75% 100%
0% to 25%
0% to 50%
0% to 75%
t
t
t
25% to 50%
25% to 75%
25% to 0%
t
t
50% to 0%
t
50% to 25%
50% to 75%
t
t
75% to 0%
75% to 25%
t
75% to 50%
t
t
t
100% to 0%
100% to 25%
100% to 50%
t
100% to 75%
X to Y
is
100% t
t
means the transition time from luminance ratio X to Y.
X to Y
0% to 100%
t
25% to 100%
t
50% to 100%
t
75% to 100%
L u m i n a n c e
Luminance
t
t
X to Y
1 0 0 %
9 0 %
90%
X t o Y
Y:0%, 25%,50%,75%,100%
Y : 0 % , 2 5 % 5 0 % , 7 5 % , 1 0 0 %
B r i g h t e r s t a t e
Brighter State
Darker State
10%
1 0 %
D a r k e r s t a t e
0 %
X : 0 % , 2 5 % 5 0 % , 7 5 % , 1 0 0 %
T i m e
Fig. 6.4The definition of t
X to Y
Time
All the transition time is measured at the center point of the LCD module by ELDIM OPTIScope-SA.
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(4) Definition of center Transmittance (T%):
The transmittance is measured with full white pattern (Gray 255)
TT4761B01-3 Product Specification
Static Contrast Ratio (CR) =
Luminance of Backlight
(5) Definition of color chromaticity:
Each chromaticity coordinates (x, y) are measured in CIE1931 color space when full-screen displaying primary color R, G,
B and white. The color gamut is defined as the fraction in percent of the area of the triangle bounded by R, G, B
coordinates and the area is defined by NTSC 1953 color standard in the CIE color space. Chromaticity coordinates are
measured by CS2000 and the standard setup of measurement is shown in Fig. 6.5.
Colors
LMD
LCD Module
Fig. 6.5 The standard setup of color chromaticity measurement
(6)Definition of viewing angle coordinate system (θ H,θ V):
The contrast ratio is measured at the center point of the LCD module. The viewing angles are defined at the angle that the
contrast ratio is larger than 10 at four directions relative to the perpendicular direction of the LCD module(two vertical
angles :up θ V+ and downθ V-; and two horizontal angles: right θ H+ and leftθ H-) as illustrated in Fig. 6.6. The contrast ratio is
measured by ELDIM EZContrast.
Y
X
θ
H+
θ
θ
H-
θ
V+
V-
Z
Fig. 6.6 Viewing angle coordination system
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7. Mechanical Characteristics
7.1Mechanical Specification
7.1.1 Open Cell Mechanical Specification
TT4761B01-3 Product Specification
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Optoelectronics Technology Co., Ltd.
Any unauthorized use is prohibited.
7.1.2 TCON Board Mechanical Specification
TT4761B01-3 Product Specification
The copyright belongs to Shenzhen China Star 20 / 26 Ver. 0.1
Optoelectronics Technology Co., Ltd.
Any unauthorized use is prohibited.
7.1.3 FFC Mechanical Specification
TT4761B01-3 Product Specification
The copyright belongs to Shenzhen China Star 21 / 26 Ver. 0.1
Optoelectronics Technology Co., Ltd.
Any unauthorized use is prohibited.
7.2 Packing
7.2.1 Packing Specifications
Item
Quantity Dimension (mm) Weight (kg)
TT4761B01-3 Product Specification
Specification
Packing Box 9 pcs/box 1235(L) x 883 (W) x95 (H)
Net Weight: 18 (Max.)
Gross Weight: 22(Max.)
Pallet 1 1250.00 (L) x 1000.00 (W) x 160.00 (H) Net Weight:22
Stack Layer 10
Boxes per Pallet 10boxes/pallet
Pallet after Packing 90pcs/pallet 1250.0 (L) x 1000.0 (W) x 995.0 (H) Gross Weight:244kg/pallet
7.2.2 Packing Method
47.6’’EPP Tray
EPE Spacer
Open cell
9pcs Open cell
10pcs EPE Spacer
2 pcs Carton label on the each side
Pallet
Tray
Empty EPP Top Tray
PP Belt
Corner Protector
The copyright belongs to Shenzhen China Star 22 / 26 Ver. 0.1
Optoelectronics Technology Co., Ltd.
Any unauthorized use is prohibited.
PE Film
TT4761B01-3 Product Specification
PE Sheet
2 pcs Carton label on the each side
PP Belt
PP Belt
The copyright belongs to Shenzhen China Star 23 / 26 Ver. 0.1
Optoelectronics Technology Co., Ltd.
Any unauthorized use is prohibited.
8. Definition of Labels
example: 0.1, 0.2, … , 1 . 1 , 1 . 2 , … , 2 . 1 , 2 . 2 , …
T
1B01-3 Product Specification
8.1 Open Cell Label
XXXXXXXXXXXXXXXXXXXX
Serial Number:
Week Code: XXXX
Year: 2010 =10, 2011 = 11 …2020= 2
Week: 01, 02, 03 …
ST4761B01-3Ver. X.X
Model Name
Week Code
Serial Number
CSOT Internal Use
Panel ID
21= 21…
Model Name: ST4761B01-3
Ver.X.X: Version, for
8.2 Carton Label
Serial Number: XXXXXXXX
XXX
CSOT Internal Use
Year, Month, Date
Model Version Code
The copyright belongs to
Optoelectronics Technology Co., Ltd.
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CSOT Internal Use
24 / 26
Ver. 0.1
8.3 Pallet Label
Model Name: ST4761B01-3
Serial Number: XXXXXXXXXXXXX
T
1B01-3 Product Specification
CSOT Internal Use
Year, Month
Model Version Code
CSOT Internal Use
The copyright belongs to
Optoelectronics Technology Co., Ltd.
Any unauthorized use is prohibited.
25 / 26
Ver. 0.1
TT4761B01-3 Product Specification
9. Precautions
9.1 Assembly and Handling Precautions
(1) Do not apply rough force such as bending or twisting to the open cell during assembly.
(2) It is recommended to assemble or install a open cell into the user’s system in clean working areas. The dust and
oil may cause electrical shorterdamage the polarizer.
(3) Do not apply pressure or impulse to the open cell to prevent the damage to the open cell.
(4) Always follow the correct power-on sequence. This can prevent the damage and latch-up to the LSI chips.
(5) Do not plug in or pull out the interface connector while the open cell is in operation.
(6) Use soft dry clothwithout chemicals for cleaning because the surface of polarizer’s very soft and easily be
scratched.
(7) Moisture can easily penetrate into the open cell and may cause the damage during operation.
(8) High temperature or humidity may deteriorate the performance of the open cell. Please store open cell in the
specified storage conditions.
(9) When ambient temperature is lower than 10ºC, the display quality might be deteriorated. For example, the
response time will become slow.
9.2 Safety Precautions
(1) If the liquid crystal material leaks from the panel, it should be kept away from the eyes or mouth. In case of
contact with hands, skin or clothes, it has to be washed away thoroughly with soap.
(2) After the open cell end of life, it is not harmful in case of normal operation and storage.
The copyright belongs to Shenzhen China Star 26 / 26 Ver. 0.1
Optoelectronics Technology Co., Ltd.
Any unauthorized use is prohibited.