AU OPTRONICS A089SW01-V0 SPECIFICATION

Doc. v e r s i o n : 0.4
Total pages : 1 7
Date :
2008/ 2/ 2 0
8.9" COLOR TFT-LCD MODULE
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FOR QUANTA INTERNAL USE ONLY
MODEL NAME: A089SW01 V0
Note: The content of t h i s specification is su b j e c t t o change.
< >Preliminary Specification < >Final Specification
© 2007 A U O p t r o n ics All Ri ghts Re s e r ve d , Do Not Cop y.
Version: 0.4
Record of Revision
Version Revise Date Page Content
0 2007/11/14
0.1 2007/12/17
0.2 2007/12/17
5/6 Drawing update.
7/8 Pin assigement update.
8 Delete typical vaule of absolute maximum ratings.
2007/12/19
11 Revise the backlight driving conditions.
11 Updated LED lightbar diagram.
Draft.
All First edition for customer.
4 Add the max. thickness.
8 Add absolute ratings of backlight unit.
Page: 1/17
11 Updated the input data(LVDS) format diagram.
0.3 2007/12/19
11 Revise the backlight driving conditions.
11 Updated LED lightbar diagram
11 Updated the input data(LVDS) format diagram
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8 Add absolute ratings of backlight unit
FOR QUANTA INTERNAL USE ONLY
0.4 2008/2/14 6 Upate mechanical drawing
9 Update input volatge range from 3.0V (min) to 2.7V (min)
14 Update minimun brightness value.
9 Updated LCD Inrush Current.
11 Updated LED Power Current and LED Inrush Current.
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Contents
A. General Description ........................................................................................................ 3
B. Features ........................................................................................................................... 3
C. Function Block ................................................................................................................ 3
D. General Information ........................................................................................................ 4
E. Outline Dimension........................................................................................................... 5
1. TFT-LCD Module – Front View ...................................................................................................................5
2. TFT-LCD Module – Rear View.....................................................................................................................6
F. Electrical Specifications .................................................................................................7
1. FPC Pin Assignment Recommended connector:::IPEX 20347-340E-12 .............................................7
2. Absolute Maximum Ratings .......................................................................................................................8
3. Absolute Rating of Backlight Unit .............................................................................................................8
G. Electrical Characteristics................................................................................................ 9
1. TFT-LCD Typical Operation Condition ......................................................................................................9
2. Signal Electrical Characteristics..............................................................................................................10
3. Backlight Driving Conditions ...................................................................................................................11
H. Signal Characteristic..................................................................................................... 11
1. The Input Data(LVDS) Format...................................................................................................................11
2. Interface Timing.........................................................................................................................................12
3. Power ON/OFF Sequence .........................................................................................................................13
I. Optical specification (Note 1, 2) ................................................................................ 14
J. Absolute Ratings of Ambient Environment ................................................................ 16
K. Packing Form................................................................................................................. 17
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Converter
RxIN0
Page: 3/17
A. General Description
A089SW01 is an amorphous transmissive type TFT (Thin Film Transistor) LCD (Liquid crystal Display). This
model is composed of TFT-LCD, PCB (printed circuit board) with drive IC, FPC (flexible printed circuit), and
backlight unit.The timing controller is embedded, so it is easily to design for consumer product.
B. Features
8.9-inch display size
SWVGA (1024x600) resolution and stripe dot arrangement
Built in timing controller
LED backlight
SYNC + DE Mode
6 bits LVDS interface support
262K color supported
Wide viewing angle
RoHS compliant green design
Singal power 3.3V
LED power 5V
C. Function Block
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(4 pairs LVDS)
RxIN1 RxIN2 RxCLKIN
VDD
GND
LCD DRIVING BOARD
TCON
DC-DC
X-Driver
Y-Driver
TFT ARRAY/CELL
1024(R/G/B) x 3 x 600
Backlight Unit
VLED
LED
LCD Connector(40pin)
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D. General Information
NO. Item Unit Specification Remark
1 Display Resolution dot 1024RGB(H)×600(V)
2 Active Area mm 195.07(H) x 113.4(V)
3 Screen Size inch 8.9 (Diagonal)
4 Pixel Pitch mm 0.1905(H)×0.189(V)
5 Color Configuration -- R. G. B. Stripe Note 1
6 Color Depth -- 262K Colors Note 2
7 Overall Dimension mm
8 Weight g 190g
9 Panel surface treatment
10 Display Mode -- Normally White
Note 1: Below figure shows dot stripe arrangement.
-- Anti-Glare
213.36(H) × 129.55(V) × 5.15+/-0.3(T)
(with mylar)
Note 3
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( 1 2 3……………………………………..3070 3071 3072)
Note 2: The 262K color display depends on 6-bit data signal.
…………………………
…………………………
(1…………………….600)
…………
Note 3: Not include boss. Refer next page to get further information.
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1. TFT-LCD Module – Front View
E. Outline Dimension
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2. TFT-LCD Module – Rear View
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F. Electrical Specifications
1. FPC Pin Assignment Recommended connector::IPEX 20347-340E-12
Pin no Symbol
1 GND
2 VDD 3 VDD
V
4
5 NC
6 7
8 RxIN0-
9 RxIN0+
10 GND
EDID
CLK
DATA
EDID
EDID
I/O Description Remark
G
P
P
--
P
--
--
I
I
G
No Connection (Reserve for AUO test)
LVDS differential data input(R0-R5, G0)
LVDS differential data input(R0-R5, G0)
Ground
+3.3V Power Supply +3.3V Power Supply
+3.3V EDID Power
EDID Clock Input
EDID Data Input
Ground 11 RxIN1-
12 RxIN1+
13 GND
14 RxIN2- 15 RxIN2+
16 GND
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17 RxCLKIN-
18 RxCLKIN+
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19 GND
20 NC
21 NC
22 GND 23 NC
24 NC
25 GND
26 NC 27 NC
I
I
G
I
I
G
I
I
G
--
--
G
--
--
G
--
--
LVDS differential data input(G1-G5, B0-B1)
LVDS differential data input(G1-G5, B0-B1)
Ground
LVDS differential data input(B2-B5, HS, VS, DE) LVDS differential data input(B2-B5, HS, VS, DE)
Ground
LVDS differential clock input
LVDS differential clock input
Ground
No Connection (Reserve for AUO test)
No Connection (Reserve for AUO test)
Ground
No Connection (Reserve for AUO test)
No Connection (Reserve for AUO test)
Ground
No Connection (Reserve for AUO test) No Connection (Reserve for AUO test)
28 GND
29 VLED
30 VLED 31 VLED_GND
32 VLED_GND
33 VLED_GND
34 NC
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G
P
P
G
G
G
--
LED Power Supply +5V
LED Power Supply +5V
No Connection (Reserve for AUO test)
Ground
LED Ground
LED Ground
LED Ground
Version: 0.4
35 NC 36 NC
37 NC
38 S_PWMIN
39 NC 40 NC
I: Input pin; P: Power pin; G: Ground pin;
Note 1: The PWM pin should not connect to ground, it should pull-high if not adjust brightness.
--
--
--
I
--
--
No Connection (Reserve for AUO test) No Connection (Reserve for AUO test)
No Connection (Reserve for AUO test)
System PWM signal Input
No Connection (Reserve for AUO test) No Connection (Reserve for AUO test)
Page: 8/17
Note1
2. Absolute Maximum Ratings
Items Symbol
Power Voltage VCC -0.3 4 V
Operation Temperature Topa 0 60
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Storage Temperature Tstg -20 50
Note 1: Functional operation should be restricted under normal ambient temperature.
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Product Specification
Min. Max.
3. Absolute Rating of Backlight Unit
Items Symbol
LED Driving Voltage VLED 6 V
Product Specification
Min. Max.
Unit
Unit
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G. Electrical Characteristics
The following items are measured under a stable condition and suggested application circuit.
1. TFT-LCD Typical Operation Condition
Symble
VCC Logic/LCD Voltage 2.7 3.3 3.6 [Volt]
ICC VCC current - 260 [mA] VCC=3.3V,Black Pattern,at 60Hz
Irush LCD Inrush Current
PCC VCC Power 0.858
Note: Measurement conditions:
(High to Low) Control Signal
SW1
SW MAG-SPST
1 2
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Parameter Min. Typ. Max. Unit Condition
- 650 - [mA] VCC rising time = 470us
- [Watt] VCC=3.3V , Black Pattern,at 60Hz
+5.0V
R1 47K
R2
1K
+12.0V
VR1
47K
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C2 1uF/25V
D6 D5 D2 S D1
G
C3
0.01uF/25V
Q3 AO6402
D2SD1D5
G
D6
Q3
AO6402
F1
C1 1uF/16V
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VCC
(LCD Module Input)
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VTH
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2. Signal Electrical Characteristics
Input signals shall be low or Hi-Z state when Vcc is off
It is recommended to refer the specifications of SN75LVDS82DGG (Texas Instruments) in detail.
Each signal characteristics are as follows;
Symbol
VTH Differential Input High Threshold - - 100 [mV]
VTL Differential Input Low Threshold -100
VID
VICM Differential Input Common Mode Voltage 1.0 1.25
Note: LVDS Signal Waveform
VTL
Input Differential Voltage 250 350 450 [mV]
Parameter Min Typ Max Units
- - [mV]
2 [V]
Condition
VICM = 1.2V
VICM = 1.2V
VTH/VTL = ± 100mV
││││VID││││
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VSS
VICM
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3. Backlight Driving Conditions
Parameter Symbol Min. Typ. Max. Unit Remark
LED Power Voltage VLED 4.5 5 5.5 V ---
LED Power Current ILED 350 400 mA Input=5V
LED Inrush Current I
LED PWM Frequency
LED Life Time LL 10,000 --- --- Hr Note 2, 3
Note 1: The LED driving condition is defined for LED module (24 LED).
950 1000 mA
inrush
L
--- --- 1K Hz
freq
Page: 11/17
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Note 2: Define “LED Lifetime”: brightness is decreased to 50% of the initial value. LED Lifetime is restricted
under normal condition, ambient temperature = 25 and LED lightbar voltage = 10V.
Note 3: If it uses larger LED lightbar voltage more than 10V, it maybe decreases the LED lifetime.
H. Signal Characteristic
1. The Input Data(LVDS) Format
Note1: Please follow PSWG.
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Note2: 6-bit in
Note3: R/G/B data 5:MSB, R/G/B data 0:LSB
2. Interface Timing
a. Timing Characteristics
Signal Item Symbol Min Typ Max Unit
Clock Timing
Horizontal
Timing
Vertical
Timing
Note: Typical value refer to VESA STANDARD
Clock frequency 1/T
Horizontal active THD 1024 1024 1024 T
Horizontal blanking THB 22 320 510 T
Horizontal period TH 1046 1344 1534 T
Vertical active TVD 600 600 600 Th
Vertical blanking TVB 3 25 50 Th
Vertical period TV 603 625 650 Th
Page: 12/17
50.4 85 MHz
CLOCK
CLOCK
CLOCK
CLOCK
b. Timing Digram
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T5
T2
T1
T6
Page: 13/17
3. Power ON/OFF Sequence
Vcc power and LED on/off sequence is as follows. Interface signals are also shown in the chart. Signals
from any system shall be Hi-Z state or low level when Vcc is off.
VALID DATA
90%
10%
T7
Power Supply VCC
LVDS Signal
90%
10%
Backlight On
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Power Sequence Timing
Parameter
Min. Typ. Max.
T1 0.5 - 10 [ms]
T2 30 40 50 [ms]
T3 200 - - [ms]
T3
T4
Value
Unit
T4 100 - - [ms]
T5 0 16 50 [ms]
T6 - - 10 [ms]
T7 1000 - - [ms]
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I. Optical specification (Note 1, 2)
Item Symbol
Response Time
Rise
Fall
Contrast ratio CR
Viewing Angle
Top
Bottom
Left
Right
Brightness YL θ=0° 150 180 - cd/m2 Note 6
White Chromaticity
Tr
Tf
X θ=0° 0.26 0.31 0.36
y θ=0° 0.28 0.33 0.38
Condition Min. Typ. Max. Unit Remark
θ=0°
At optimized
viewing angle
CR10
Page: 14/17
-
-
200 300 - Note 4
30
50
50
50
12
18
40
60
65
65
20
30
-
-
-
-
ms
ms
deg. Note 5
Note 3
Note 1:Ambient temperature =25, and LED
lightbar current I = 160 mA. To be
measured in the dark room.
Note 2:To be measured on the center area of
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panel with a viewing cone of 1° by Topcon
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luminance meter BM-7, after 15 minutes
operation.
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Note 3. Definition of response time:
The output signals of photo detector 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 is defined as the time interval between the 10% and 90% of amplitudes. Refer to
figure as below.
"Black"
100%
S i
90%
g n a l
(
R e
l
a t
i
v e
v a l
u
10%
e )
0%
Tr
---------------------------
----
"White""White"
Tf
Note 4.Definition of contrast ratio:
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Contrast ratio is calculated with the following formula.
Contrast ratio (CR)=
Note 5. Definition of viewing angle, θ, Refer to figure as below.
Photo detector output when LCD is at “White” state Photo detector output when LCD is at “Black” state
Page: 15/17
Note 6. Measured at the center area of the panel when all the input terminals of LCD panel are electrically
opened.
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J. Absolute Ratings of Ambient Environment
No.
1 High Temperature Storage Ta= 60 240Hrs
2 Low Temperature Storage Ta= -20 240Hrs
3 High Ttemperature Operation Ta= 50 240Hrs
4 Low Temperature Operation Ta= 0 240Hrs
5 High Temperature & High Humidity
6 Heat Shock -10 ~60 , 50 cycle, 2Hrs/cycle Non-operation
7
ESD (ElectroStatic Discharge)
Test items Conditions Remark
Ta= 50 . ℃ 80% RH 240Hrs Operation
Contact Discharge: ± 4KV,
150pF(330 ) 1sec,
8 points, 25 times/ point.
Air Discharge: ± 8KV,
Note 3
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8 Vibration
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9 Mechanical Shock
10
11
Vibration (With Carton)
Drop (With Carton)
150pF(330 ) 1sec
8 points, 25 times/ point.
Frequency range
Stoke : 1.5mm
Sweep :10~55~10Hz
2 hours for each direction of X,Y,Z
Total 6 hours
220G . 2ms, ±X,±Y,±Z
1 times for each direction
Random vibration:
0.015G2/Hz from 5~200Hz
–6dB/Octave from 200~500Hz
Height: 60cm
1 corner, 3 edges, 6 surfaces
: 10 ~ 55Hz
Non-operation
JIS C7021,
A-10
Non-operation
JIS C7021,
A-7
condition C
IEC 68-34
Note 1: Ta: Ambient Temperature.
Note 2: In the standard conditions, there is not display function NG issue occurred. All the cosmetic
specification is judged before the reliability stress.
Note 3: According to EN61000-4-2, ESD class B: Some performance degradation allowed. No data lost.
Self-recoverable. No hardware failures.
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K. Packing Form
5
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7
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3
2
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