Martin Sun Yen Chuang All

Version: 2.0
Total pages: 26
Date: August 16, 2004
AU OPTRONICS CORPORATION
Product Specifications
10.4” SVGA Color TFT-LCD Module
Model Name:
G104SN03
V.0
Approved by
Prepared by
Martin Sun
Yen Chuang
AU Optronics Croporation
Customer
Checked & Approved by
All
(C) Copyright AU Optronics, Inc.
2004 All Right Reserved.
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Version: 2.0
Total Pages: 26
Date: August 16, 2004
Product Functional Specification
10.4 inch SVGA Color TFT LCD Module
Model Name: G104SN03
V.0
( ) Preliminary Specification
(‹) Final Specification
Note: This Specification is subject to change without notice.
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2004 All Right Reserved.
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I. Contents
1.0
2.0
Handling Precautions
General Description
2.1
Display Characteristics
2.2
Functional Block Diagram
3.0
4.0
5.0
Absolute Maximum Ratings
Optical Characteristics
Signal Interface
5.1
Connectors
5.2
Signal Pin
5.3
Signal Description
5.4
Signal Electrical Characteristics
9
10
12
6.0
7.0
Pixel Format Image
Power Consumption
16
17
8.0
Interface Timing
8.1
Display Color v.s. Input Data Signal
8.2
Input Signal Timing
8.3
Display Position
19
9.0
10.0
11.0
12.0
13.0
Backlight Characteristics
Reliability Test Items
Display Quality
Packing Dimension
Mechanical Characteristic
23
24
24
25
26
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2004 All Right Reserved.
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5
6
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II. Record of Revision
Version and Date Page
1.0 Feb. 6, 2004 All
Old description
N/A
(C) Copyright AU Optronics, Inc.
2004 All Right Reserved.
No Reproduction and Redistribution Allowed.
New Description
First Edition for Customers
Remark
G104SN03 V.0
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1.0 Handing Precautions
1) Since front polarizer is easily damaged, pay attention not to scratch it.
2) Be sure to turn off power supply when inserting or disconnection from input connector.
3) Wipe off water drop immediately. Long contact with water may cause discoloration or spots.
4) When the panel surface is soiled, wipe it with absorbent cotton or other soft cloth.
5) Since the panel is made of glass, it may break or crack if dropped or bumped on hard surface.
6) Since CMOS LSI is used in this module, take care of static electricity and insure human earth when
handling.
7) Do not open nor modify the module Assembly.
8) Do not press the reflector sheet at the back of the module to any directions.
9) In case if a module has to be put back into the packing container slot after once it was taken out
from the container, do not press the center of the CCFL Reflector edge. Instead, press at the far
ends of the CFL Reflector edge softly. Otherwise the TFT module may be damaged.
10) At the insertion or removal of the Signal Interface Connector, be sure not to rotate nor tilt the
interface Connector of the TFT module.
11) After installation of the TFT module into an enclosure, do not twist nor bend the TFT module even
momentary. At designing the enclosure, it should be taken into consideration that no
bending/twisting forces are applied to the TFT module from outside. Otherwise the TFT module
may be damaged.
12) Cold cathode fluorescent lamp in LCD contains a small amount of mercury. Please follow local
ordinances or regulations for disposal.
13) Small amount of materials having no flammability grade is used in the LCD module should be
supplied by power complied with requirements of Limited Power Source, or be applied exemption.
14) The LCD module is designed so that the CFL in it is supplied by Limited Current Circuit. Do not
connect the CFL in Hazardous Voltage Circuit.
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2004 All Right Reserved.
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2.0 General Description
This specification applies to the 10.4 inch color TFT LCD module G104SN03 V.0.
This module is designed for General Display.
The screen format is intended to support the SVGA (800(H) x 600(V)) screen and 262k colors (RGB
6-bits data driver).
All input signals are LVDS interface compatible.
The module does not contain an inverter card for backlight.
Features
- SVGA 800(H) x600(V) resolution
- 1 CCFL(Cold cathode Fluorescent Lamp)
- High contrast ratio, High transmittance ratio
- Wide viewing angle
- High speed response
- Low power consumption
- LVDS interface
Applications
Information Appliance
Industrial Application
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2.1 Display Characteristics
The following items are characteristics summary on the table under 25℃ condition:
Items
Unit
Specifications
Screen Diagonal
[inch]
10.4”
Outline dimension
[mm]
236.0(W) x 174.3(H) x 5.6(D)
Active Area
[mm]
211.2(H) x 158.4(V)
Resolution H x V
Pixel Pitch
800(R, G,B x3) x 600
[mm]
0.264(H) x 0.264(V)
Pixel Arrangement
R.G.B. Vertical Stripe
Display Mode
Typical White Luminance (ICFL=4.5 mA)
TN mode, Normally White
2
[cd/m ]
500:1 Typ.
Contrast Ratio
Optical Rise Time/Fall Time
230 Typ. (center)
[msec]
Viewing angle (CR≧10)
10/25 Typ.
60/60/35/65 (L/R/U/D)
Nominal Input Voltage VDD
[Volt]
+3.3 Typ.
Typical Power Consumption
[Watt]
3.3 Typ
[Grams]
280 Typ ± 10
(VDD line + VCFL line)
Weight
Surface treatment
Anti-glare,hard coating 3H
Electrical Interface
1 channel LVDS
Support Color
Native 262K colors (RGB 6-bit driver)
Temperature Range
Operating
[℃]
0 to +50
Storage(Shipping)
[℃]
-20 to +60
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2.2 Functional Block Diagram
The following diagram shows the functional block of the 10.4 inches Color TFT LCD Module:
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3.0 Absolute Maximum Ratings
Parameter
(GND = 0 V)
Values
Symbol
Min.
Max.
Unit
Remark
Power voltage
VDD
-0.3
4
[Volt]
At 25℃
Input signal voltage
Vin
-0.3
VDD+0.3
[Volt]
At 25℃
ICFL
3.0
5.5
[mA]rms
CCFL starting Voltage
Vs
-
800
[Vrms]
AT 25℃
Operating temperature
Top
0
+50
[℃]
Note 1
Operating Humidity
HOP
8
90
[%RH]
Note 1
Storage temperature
TST
-20
+60
[℃]
Note 1
Storage Humidity
HST
5
90
[%RH]
Note 1
CCFL current
Vibration
1.5,10~200~1 [G,Hz]
Shock
200,2
[G,ms]
Half sine wave
Note 1:The relative humidity must not exceed 90% non-condensing at temperatures of 40℃ or less. At
temperatures greater than 40℃, the wet bulb temperature must not exceed 39℃. When operate
at low temperatures, the brightness of CCFL will drop and the life time of CCFL will be reduced.
Note 2:The unit should not be exposed to corrosive chemicals.
Wet bulb temperature chart
Twb=39°C
Operating Range
Storage Range
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4.0 Optical Characteristics (Note 1, Note 2)
Item
Symbol Condition
Response time
Rising time
Falling time
Contrast ratio
Viewing angle
Color chromaticity(CIE)
Typ.
Max.
Unit
Remark
ms
Note 4
θ=0°
-
10
25
20
30
CR
θ=0°
400
30
60
55
55
500
35
65
60
60
-
deg.
Note 3,6
200
230
-
nit
Note 3,7,8,9
0.280
0.320
0.340
0.300
0.330
0.360
0.540
0.570
0.600
0.290
0.320
0.350
0.270
0.300
0.330
0.530
0.560
0.590
0.115
0.145
0.175
0.100
0.130
0.160
-
-
1.33
CR≧10
[cd/m2]
Wx
Wy
Rx
Ry
Gx
Gy
Bx
By
δW
White uniformity
Min.
Tr
Tf
Top
Bottom
Left
Right
White Luminance (ICFL=4.5 mA)
Specification
θ=0°
θ=0°
13 Points
Note 3,5
Note 3,8,9
Note 3,9,10
Note 1: Ambient temperature = 25℃.
Note 2: To be measured in dark room after backlight warm up 30 minutes.
Note 3: To be measured with a viewing cone of 1°by Topcon luminance meter BM-5A.
Note 4: Definition of response time:
The output signals of BM-7 are measured when the input signals are changed from
“Black” to “White” (falling time) and from “White” to “Black” (rising time), respectively. The
response time means the interval between the 10% and 90% of amplitudes. Refer to
figure as below.
“Black”
"White"
"White"
100%
Sig 90%
nal
(R
ela
tiv
10%
0%
Tf
Tr
e
Note 5. Definition of contrast ratio:
Contrast ratio is calculated with the following formula.
Contrast ratio (CR)=
Luminance on the white raster
Luminance on the black raster
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Note 6: Definition of viewing angle:
θ
θ
Note 7: Definition of the 13 points (from A to M) on panel, refer to figure as below
Note 8: Definition of brightness: the luminance of center points (G).
Note 9: Driving conditions for CCFL : IL=4.5 mA, 60KHz Frequency
Note 10: Definition of white uniformity:
δw =
Maximum Luminance of thirteen points (brightness)
Minimum Luminance of thirteen points (brightness)
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5.0 Signal Interface
5.1 Connectors
Physical interface is described as for the connector on module.
These connectors are capable of accommodating the following signals and will be following
components.
Connector Name / Designation
Manufacturer
Type / Part Number
Mating Connector / Part Number
Mating Connector / Part Number
For Signal Connector
HIROSE
HRS DF 19K-20P-1H
HRS DF19G-20S-1C (WIRE TYPE))
HRS DF19-20S-1F (FPC TYPE)
Connector Name / Designation
Manufacturer
Type / Part Number
Mating Connector / Part Number
For Lamp Connector
JST
BHSR-02VS-1
SM02B-BHSS-1-TB
5.2 Signal Pin
Pin assignment
(1)Input signal interface
Pin no
Symbol
Function
1
VCC
+3.3 V power supply
2
VCC
+3.3 V power supply
3
GND
Ground
4
GND
Ground
5
RxIN0-
6
RxIN0+
7
GND
8
RxIN1-
9
RxIN1+
10
GND
11
RxIN2-
12
RxIN2+
13
GND
Ground
14
CKIN-
LVDS receiver signal clock
15
CKIN+
16
GND
17
NC
No Connection
18
NC
No Connection
19
GND
Ground
20
GND
Ground
Etc.
LVDS receiver signal channel 0
Ground
LVDS receiver signal channel 1
Ground
LVDS receiver signal channel 2
Ground
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(2)LVDS transmitter/receiver signal mapping
Symbol
Function
TxIN0
R0
Red data (LSB)
TxIN1
R1
Red data
TxIN2
R2
Red data
TxIN3
R3
Red data
TxIN4
R4
Red data
TxIN5
R5
Red data (MSB)
TxIN6
G0
Green data (LSB)
TxIN7
G1
Green data
TxIN8
G2
Green data
TxIN9
G3
Green data
TxIN10
G4
Green data
TxIN11
G5
Green data (MSB)
TxIN12
B0
Blue data (LSB)
TxIN13
B1
Blue data
TxIN14
B2
Blue data
TxIN15
B3
Blue data
TxIN16
B4
Blue data
TxIN17
B5
Blue data (MSB)
TxIN18
Hs
Horizontal sync.
TxIN19
Vs
Vertical sync.
TxIN20
DE
Data enable
TxCLKIN
CLK
Clock
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6 bit red display data
6 bit green display data
6 bits blue display data
Dot clock
G104SN03 V.0
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5.3 Signal Description
The module using a LVDS receiver. LVDS is a differential signal technology for LCD interface
and high speed data transfer device. Transmitter shall be SN75LVDS84 (negative edge sampling)
or compatible.
Note:Input signals shall be low or Hi-Z state when VDD is off.
Signal Name
Description
RxIN0-, RxIN0+
LVDS differential data input (Red0-Red5, Green0)
RxIN1-, RxIN1+
LVDS differential data input (Green1-Green5, Blue0-Blue1)
RxIN2-, RxIN2+
LVDS differential data input (Blue2-Blue5, Hsync, Vsync, DE)
CKIN-, CKIN+
LVDS differential clock input
VDD
+3.3V Power Supply
GND
Ground
NC
No Connection
Signal Name
Description
+RED5
+RED4
+RED3
+RED2
+RED1
+RED0
Red Data 5 (MSB)
Red Data 4
Red Data 3
Red Data 2
Red Data 1
Red Data 0 (LSB)
Red-pixel Data
Red-pixel Data
Each red pixel’s brightness data consists of these
6 bits pixel data.
+GREEN5
+GREEN4
+GREEN3
+GREEN2
+GREEN1
+GREEN0
Green-pixel Data
Each green pixel’s brightness data consists of these
6 bits pixel data.
CLK
Green Data 5 (MSB)
Green Data 4
Green Data 3
Green Data 2
Green Data 1
Green Data 0 (LSB)
Green-pixel Data
Blue Data 5 (MSB)
Blue Data 4
Blue Data 3
Blue Data 2
Blue Data 1
Blue Data 0 (LSB)
Blue-pixel Data
Data Clock
DE
Display Timing
VSYNC
Vertical Sync
The typical frequency is 40MHz. The signal is
used to strobe the pixel data and DE signals.
All pixel data shall be valid at the falling edge when
the DE signal is high.
This signal is strobed at the falling edge of CLK.
When the signal is high, the pixel data shall be valid
to be displayed.
The signal is synchronized to CLK.
HSYNC
Horizontal Sync
The signal is synchronized to CLK.
+BLUE5
+BLUE4
+BLUE3
+BLUE2
+BLUE1
+BLUE0
Blue-pixel Data
Each blue pixel’s brightness data consists of these
6 bits pixel data.
Note:Output signals from any system shall be low or Hi-Z state when VDD is off.
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5.4 Signal Electrical Characteristics
Input signals shall be low or Hi-Z state when VDD is off.
It is recommended to refer the specifications of SN75LVDS86(Texas Instruments) in detail.
Signal electrical characteristics are as follows:
Item
Symbol
Min.
Typ.
Max.
Unit
The differential level
|VID|
0.1
-
0.6
V
The common mode input
voltage
VIC
︱VID︱
2
-
︱VID︱
2
V
The input setup time
tsu
0.5
-
-
ns
The input hold time
thd
0.5
-
-
ns
High-level input voltage
VIAP
2.0
Low-level input voltage
VIAM
Clock frequency
CLK
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31
2.4-
V
0.8
V
68
MHz
G104SN03 V.0
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6.0 Pixel Format Image
Following figure shows the relationship of the input signals and LCD pixel format:
1
2
799
800
1st Line
R G B R G B
R G B R G B
600th Line
R G B R G B
R G B R G B
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7.0 Power Consumption
Input power specifications are as follows:
Item
Power
supply
voltage
Internal
logic
Symbol
Min.
Typ.
Max.
Unit
Input voltage
VCC
3.0
3.3
3.6
V
Current
consumption
IA
230
IB
260
310
mArms
Inrush current
I RUSH
-
-
1500
mApeak
Low voltage
VIL
0
-
0.3 VCC
High voltage
VIH
0.7VCC
-
VCC
VRP
-
-
100
Power ripple voltage
LCD Drive power consumption
PDD
Remark
mArms
0.76
Note 1
Note 2
mVp-p
[Watt]
Note 1:Effective value (mArms) at VCC = 3.3 V/25℃.
Black
(0)
63
IB
IA
White
Gray
(7)
63
Black
Vertical stripe line
64 Grayscale
Note 2: Refer to the following power-on condition.
90%
Vcc
10%
Sequence of Power-on/off and signal-on/off
Ton=470μs±10%
T3
T4
50ms≦T1<80msec
Power
T1
T2
T5
300msec≦T3
300msec≦T4
Input signal
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0≦T2<70msec
T5≦10msec
G104SN03 V.0
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Apply the lamp voltage within the LCD operating range. When the backlight turns on before
the LCD operation or the LCD turns off before the backlight turns off, the display may
momentarily become abnormal.
Caution
The above on/off sequence should be applied to avoid abnormal function in the display.
In case of handling:
Make sure to turn off the power when you plug the cable into the input connector or pull
the cable out of the connector.
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8.0 Interface Timings
8.1 Display color v.s. input data signals:
Display colors
Basic
colors
Red
grayscale
Black
Blue
Red
Magenta
Green
Cyan
Yellow
White
Black
Dark
↑
Dark
↑
0
0
1
1
0
0
1
1
0
0
0
0
0
1
1
0
0
1
1
0
0
0
0
0
1
1
0
0
1
1
0
0
0
0
0
1
1
0
0
1
1
0
0
0
0
0
1
1
0
0
1
1
0
0
1
0
0
1
1
0
0
1
1
0
1
0
0
0
0
0
1
1
1
1
0
0
0
0
0
0
0
1
1
1
1
0
0
0
0
0
0
0
1
1
1
1
0
0
0
0
0
0
0
1
1
1
1
0
0
0
0
0
0
0
1
1
1
1
0
0
0
0
0
0
0
1
1
1
1
0
0
0
0
1
0
1
0
1
0
1
0
0
0
0
1
0
1
0
1
0
1
0
0
0
0
1
0
1
0
1
0
1
0
0
0
0
1
0
1
0
1
0
1
0
0
0
0
1
0
1
0
1
0
1
0
0
0
0
1
0
1
0
1
0
1
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
0
1
↓
bright
Green
Black
Blue
grayscale
R5 R4 R3 R2 R1 R0 G5 G4 G3 G2 G1 G0 B5 B4 B3 B2 B1 B0
↓
bright
Red
Black
Green
grayscale
Data signal (0 : Low level, 1: High level)
Dark
↑
↓
bright
Blue
Note : Each basic color can be displayed in 64 gray scales using the 6 bit data signals. By
combining the 18-bit data signals(R, G, B), the 262, 144 colors can be achieved on the
display.
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8.2. Input signal timing
(1). Timing characteristics of input signals
(a) DE mode
Item
Symbol
Min.
Typ.
Max.
Unit
Clock frequency
Fck
36
40
50
MHz
Horizontal blanking
Thb1
18
256
624
Clk
Vertical blanking
Tvb1
3
28
184
Th
Item
Symbol
Min.
Typ.
Max.
Unit
Clock frequency
Fck
36
40
50
MHz
Hsync period
Th
818
1056
1424
Clk
Hsync pulse width
Thw
2
128
-
Clk
Hsync front porch
Thf
8
40
-
Clk
Hsync back porch
Thb
4
88
-
Clk
Hsync blanking
Thb1
18
256
624
Clk
Vsync period
Tv
603
628
784
Th
Vsync pulse width
Tvw
1
4
-
Th
Vsync front porch
Tvf
0
1
-
Th
Vsync blanking
Tvb1
3
28
184
Th
Hsync/Vsync phase shift
Tvpd
2
320
-
Clk
Remark
(b) HV mode
Item
Horizontal
start
Symbo Value
display
Vertical display start
Unit
Description
Remark
The
218
Clk
After falling edge of Hsync, counting
218clk, then getting valid data from
219th clk’s data.
Tve
25
Th
After falling edge of Vsync, counting
25th, then getting 26th Th’s data.
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2004 All Right Reserved.
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(2). Timing Definition:
1056 dot
H-Sync
40 dot
88 dot
128 dot
DE
800 dot
628H
V-Sync
1H
23H
4H
DE
600H
28H
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2004 All Right Reserved.
No Reproduction and Redistribution Allowed.
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(C) Copyright AU Optronics, Inc.
2004 All Right Reserved.
No Reproduction and Redistribution Allowed.
VIL
VIH
VIL
Hs
VIH
800,Y
X,599 X,600
Vs
DE
RGB
CLK
Hs
DE
RGB
Hs
Vs
Thf
Tvf
Tvpd
Thbl
invalid
Thw
The
Tvbl
Invalid
Tvw
Thb
Tve
X,2
Th
X,3
Tvd
Tdh,Teh,Thh
Tds,Tes,Ths
Thd
Timing chart
VIH
VIL
CLK
3,Y
VIH
VIL
2,Y
RGB,DE,Hs
1,Y
X,1
Th
Tv
799,Y 800,Y
X,599 X,600
Tch
Tvf
Thf
Tcl
(1 pixel / clock)
invalid
Invalid
(3)Timing Chart:
G104SN03 V.0
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8.3. Display position
D( 1,1 )
D( 2,1 )
……
D( X,1 )
……
D( 1,2 )
.
.
.
D( 1,Y )
..
.
D( 1,599 )
D( 2,2 )
……
……
D( 2,599 )
……
D( X,2 )
.
.
.
D( X,Y )
..
.
D( X,599 )
……
D( 799,2 )
D( 800,2 )
.
.
.
.
.
.
D( 799,Y )
D( 800,Y )
..
..
.
.
D( 799,599) D( 800,599 )
D( 1,600 )
D( 2,600 )
……
D( X,600 )
……
D( 799,600) D( 800,600)
……
D( 2,Y )
……
……
D( 799,1 )
……
……
……
D( 800,1 )
9.0 Backlight Characteristic
Backlight driving conditions
Parameter
Symbol
Min.
Typ.
Max.
Unit
Remark
Lamp voltage
VL
510
560
610
Vrms
Note 1
Lamp current
IL
3.0
4.5
5.5
mArms
Note 1
Power consumption
PL
-
2.52
-
W
Note 2
Lamp starting voltage
VS
-
-
1050
-
-
800
Frequency
FL
-
60
-
KHZ
Note 3
Lamp life time
LL
10000
20000
-
Hr
Note 1, 4
Vrms
T=0℃
T=25℃
Note 1: T= 25℃, IL = 4.5mA
Note 2: Inverter should be designed with the characteristic of lamp. When you are designing
the inverter, the output voltage of the inverter should comply with the following
conditions.
(1). The area under the positive and negative cycles of the waveform of the lamp
current and lamp voltage should be area symmetric(the symmetric ratio should be
larger than 90%).
(2). There should not be any spikes in the waveform.
(3). The waveform should be sine wave as possible.
(4). Lamp current should not exceed the maximum value within the operating
Temperature (It is prohibited to over the maximum lamp current even if operated in
The non-guaranteed temperature). When lamp current over the maximum value for
a long time, it may cause fire. Therefore, it is recommend that the inverter should
have the current limited circuit.
Note 3: Lamp frequency may produce interference with horizontal synchronous frequency and
this may cause line flow on the display. Therefore lamp frequency shall be detached
from the horizontal synchronous frequency and its harmonics as far as possible in
order to avoid interference.
Note 4: Brightness (IL=4.5mA) to be decrease to the 50% of the initial value.
Signal for Lamp connector
Pin no.
Symbol
Function
Remark
1
H
CCFL power supply(H.V.)
Cable color: Pink
2
L
CCFL power supply(GND)
Cable color: White
(C) Copyright AU Optronics, Inc.
2004 All Right Reserved.
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10.0 Reliability test items
Test tem
Test Condition
Remark
High temperature storage
70℃, 300Hrs
Note 1, 2 , 3
Low temperature storage
-20℃, 300Hrs
Note 1, 2 , 3
High temperature & high
humidity operation
40℃, 90%RH, 300Hrs
High temperature
operation
(No condensation)
50℃, 300Hrs
Low temperature operation 0℃, 300Hrs
Temperature cycling
(non-operation)
Note 1, 2 , 3
Note 1, 2 , 3
-20℃~60℃
1H, 10mins, 1H, 5cycles
Electrostatic discharge
(non-operation)
150 pF,150Ω,10kV,1 second, 8
position on the panel, 10 times each
place
Vibration
(non-operation)
Sweep:1.5G, 10HZ ~ 200HZ ~ 10HZ
/2.5min
X, Y, Z, 3 directions
50G/18ms, 200G/2ms, ±X, ±Y, ±Z
Mechanical shock
(non-operation)
Note 1, 2 , 3
once for each direction
Note 1, 2 , 3
Note 3
Note 1, 2 , 3
Note 1, 2 , 3
Note 1: Evaluation should be tested after storage at room temperature for one hour.
Note 2: There should be no change which might affect the practical display function when
the display quality test is conducted under normal operating condition.
Note 3: Judgment:1. Function OK
2. No serious image quality degradation
11.0 Display quality
The display quality of the color TFT-LCD module should be in compliance with the
AUO’s OQC inspection standard.
(C) Copyright AU Optronics, Inc.
2004 All Right Reserved.
No Reproduction and Redistribution Allowed.
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12.0 Packing Dimension:
LCD Module
Anti-Static
Bag
EPP Cushion
NOTE :
1. Max. Capacity : 30 LCD Modules/Carton.
2. Max. Weight : 13Kg/Carton.
3. Meas : 448 mm*402mm*350mm.
Carton
(C) Copyright AU Optronics, Inc.
2004 All Right Reserved.
No Reproduction and Redistribution Allowed.
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13.0 Mechanical Characteristic
LCM outline dimensions
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2004 All Right Reserved.
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