Company Name
CUSTOMER
APPROVED
□
□
□
AUO PM :
Title :
Name :
APPROVAL FOR SPECIFICATIONS ONLY (Spec. Ver. 0.0 )
APPROVAL FOR SPECIFICATIONS AND ES SAMPLE (Spec. Ver. 0.0 )
APPROVAL FOR SPECIFICATIONS AND CS SAMPLE (Spec. Ver. 0.0 )
CUSTOMER REMARK :
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□
A050VVN01.0
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MODEL
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CUSTOMER APPROVAL SHEET
P/N : 97.05A16.000
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Comment :
Doc. version :
Total pages :
0.0
27
Date
:
2011/10/19
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Product Specification
5" COLOR TFT-LCD MODULE/PANEL
A050VVN01.0
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Model Name:
:
From 2010/Oct To
2012/Dec
From 2012/July To 2012/Dec
2012/ Dec
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Planned Lifetime:
Phase-out Control:
EOL Schedule:
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<◆>Preliminary Specification
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Note: The content of this
specification is subject to
change.
<
>Final Specification
© 2011 AU Optronics
All Rights Reserved,
Do Not Copy.
ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED,
OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.
Version:
0.0
Page:
1/26
Record of Revision
Revise Date
0.0
20111019
Page
Content
First Draft
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Version
ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED,
OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.
Version:
0.0
Page:
2/26
Contents
A.
General Information ....................................................................................................................................... 3
C.
Electrical Specifications ................................................................................................................................. 5
B.
Outline Dimension.......................................................................................................................................... 4
1. TFT LCD Panel Pin Assignment ................................................................................................................. 5
2. Absolute Maximum Ratings......................................................................................................................... 8
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3. Electrical DC Characteristics .............................................................................................................................. 8
4. Electrical AC Characteristics ..................................................................................................................... 10
5. Power On / Off Characteristics.................................................................................................................. 16
E.
Optical Specification..................................................................................................................................... 19
Reliability Test Items .................................................................................................................................... 22
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D.
6. Command Descriptions ............................................................................................................................. 17
G.
Packing and Marking ..................................................................................................................................... 24
H.
Application Circuit ........................................................................................................................................ 25
1. Packing Form ............................................................................................................................................ 24
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I . Precautions....................................................................................................................................................... 26
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OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.
Version:
0.0
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A. General Information
This product is for PND application.
Item
Unit
Specification
2
Display Resolution
dot
480RGB(H)×800(V)
4
Active Area
3
5
Screen Size
mm
71.2(H)X119.5(V)X2.61(T)
Pixel Pitch
mm
0.045(H)×0.135(V)
Color Depth
--
16.7M Colors
Color Configuration
8
NTSC Ratio
Display Mode
12
Power Consumption
13
Weight
Interface
mm
64.8(H)×108.0(V)
--
R. G. B. Stripe
%
9
11
5(Diagonal)
Overall Dimension
6
7
inch
Note 1
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1
Remark
Note 2
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NO.
50
--
Normally Black
mW
878(typ)
46.5±5
g
--
24 bit RGB
Note 3
Note 1: Not include blacklight cable and FPC. Refer next page to get further information.
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Note 2: Below figure shows dot stripe arrangement.
………
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(1………………………..800)
……………..
……………..
………
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( 1 2 3……………1438 1439 1440)
Note 3: Please refer to Electrical Characteristics chapter.
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OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.
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4/26
Page:
ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS
WITHOUT PERMISSION FROM AU OPTRONICS CORP.
B. Outline Dimension
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Version:
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C. Electrical Specifications
1. TFT LCD Panel Pin Assignment
Recommended connector : FH29B-90S-0.2SHW
I/O
VCOM
C
3
C51N
C
Booster capacitor
4
C51P
C
Booster capacitor
6
C41N
C
Booster capacitor
5
7
8
9
10
11
12
13
14
15
16
17
18
19
C
VGH
C
C41P
C
DVDD
C
C32N
C
C32P
C
C31N
C
C31P
C
VCL
VCI
C24N
C24P
C23N
C23P
C22N
C22P
C
P
C
Stabilizing capacitor
Stabilizing capacitor
Booster capacitor
Stabilizing capacitor
Booster capacitor
Booster capacitor
Booster capacitor
Booster capacitor
Stabilizing capacitor
Power supply for DC-DC circuit
Booster capacitor
C
C
C
C
C
Booster capacitor
Booster capacitor
Booster capacitor
Booster capacitor
Booster capacitor
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VGL
Remark
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2
Stabilizing capacitor
Description
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Symbol
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1
Pin no
21
22
23
24
C21P
AVEE
AVDD
C14N
C
C
C
C
C
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25
C21N
26
27
28
29
30
31
32
33
34
C14P
C13N
C13P
C12N
C12P
C11N
C11P
VREFCP
VCI
C
C
C
C
C
C
C
C
P
Booster capacitor
Booster capacitor
Stabilizing capacitor
Stabilizing capacitor
Booster capacitor
Booster capacitor
Booster capacitor
Booster capacitor
Booster capacitor
Booster capacitor
Booster capacitor
Booster capacitor
Stabilizing capacitor
Power supply for DC-DC circuit
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OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.
LED_PWM
O
36
VDDI
P
38
GND
P
Ground
GND
P
Ground
40
41
42
HS
PCLK
GND
I
I
I
P
backlight
Power supply for interface system
Data clock Input
Ground
Data enable input. Active level is high.
44
GND
P
Ground
46
DB1
I
Blue Data input
48
49
50
51
52
53
54
55
56
DB3
DB4
DB5
DB6
DB7
DG0
DG1
DG2
DG3
DG4
I
I
I
I
I
GND, if do not use.
Blue Data input; LSB
Blue Data input
Blue Data input
Blue Data input
Blue Data input
Blue Data input
I
I
I
I
I
I
Blue Data input; MSB
Green Data input; LSB
Green Data input
Green Data input
Green Data input
Green Data input
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DB2
Please connect to
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open this pin.
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If not used, please
Horizontal sync input
DE
DB0
6/26
Vertical sync input
43
45
Page:
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39
VS
0.0
PWM type control signal for brightness of the LED
35
37
Version:
58
59
60
61
DG6
DG7
DR0
DR1
I
I
I
I
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62
DG5
63
64
65
66
67
68
69
70
DR2
DR3
DR4
DR5
DR6
DR7
GND
VDDI
I
I
I
I
I
I
P
P
Green Data input
Green Data input
Green Data input ; MSB
Red Data input; LSB
Red Data input
Red Data input
Red Data input
Red Data input
Red Data input
Red Data input
Red Data input; MSB
Ground
Power supply for interface system
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OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.
71
RESX
I
Reset pin. (Low active)
73
SCL
I
Clock input of SPI
74
SDI
I
Data input of SPI
76
GND
P
Ground
77
78
79
80
81
82
I
GND
P
GND
GND
P
VREF_PWR
VLED-
VLED+
dummy
P
C
P
P
NC
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Chip select (Low active) of SPI
Ground
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75
CSX
0.0
Ground
Ground
Stabilizing capacitor
LED backlight cathode
LED backlight anode
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72
Version:
No connection
Please open this pin.
If not used, please open
this pin.
If not used, please open
84
TP2
I/O
TP2 control signal
this pin.
If not used, please open
85
TP3
I/O
TP3 control signal
this pin.
If not used, please open
86
TP4
I/O
TP4 control signal
this pin.
If not used, please open
87
TP5
I/O
TP5 control signal
this pin.
If not used, please open
88
TP6
I/O
TP6 control signal
this pin.
If not used, please open
89
TP7
I/O
TP7 control signal
this pin.
If not used, please open
90
TP8
I/O
TP8 control signal
this pin.
Note 1: I: Input pin; O: Output pin; P: Power pin; G: Ground pin; C: Capacitor; NC: No connection
TP1
I/O
TP1 control signal
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Pin1
Pin90
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2. Absolute Maximum Ratings
Items
Symbol
Supply Voltage
Supply Voltage
0.0
Page:
8/26
Values
Min.
VCI
Version:
-0.3
VDDI
Unit
Max.
+5.5
-0.3
V
+5.5
V
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Note : If the module exceeds the absolute maximum ratings, it may be damaged permanently. Also, if the
module operates with the absolute maximum ratings for a long time, the reliability may drop.
3. Electrical DC Characteristics
a. Typical Operation Condition (GND = 0V)
Symbol
Analog operating voltage
Min.
Typ.
Max.
Unit
VCI
2.6
2.8
3.3
V
VDDI
1.65
2.8
3.3
V
Logic high level input voltage
VIH
0.7VDDI
-
VDDI
V
Logic low level input voltage
VIL
GND
-
0.3 VDDI
V
Logic operating voltage
Remark
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Parameter
Mode
Normal
Sleep
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b. Power Consumption (GND=0V)
Symbol
PN
Condition
VCI = 2.8V
VDDI = 2.8V
PS
Min.
Typ.
Max.
Unit
Remark
-
110
130
mW
Note 1,2
-
30
35
mW
Note 1: Test Condition is under typical Electrical DC and AC characteristics.
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Note 2: Test pattern is the following picture (color bar).
c. Backlight Driving Conditions
Parameter
Symbol
Power Consumption
PBL
LED Supply Current
LED Life Time
IL
LL
Min.
10,000
Typ.
Max.
Unit
768
937
mW
20
---
22
---
Remark
mA
single serial
Hr
Note 2
Note 1: LED backlight is 12 LEDs serial type. Suggestion is driven by current 20mA for each LED
string.
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0.0
Page:
9/26
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the LED lifetime
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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 current = 20 mA.
Note 3: If it uses larger LED lightbar voltage/ current more than 22mA, it maybe decreases
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4. Electrical AC Characteristics
a. SPI Interface Characteristics
Signal AC Characterics
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(a)
VDDI=1.65~3.3V, VCI=2.6~3.3V, TA=25℃
℃
Symbol
tSCYCW
t SHW
t SLW
t SC YCR
t SHR
t SLR
Serial clock cycle (Write)
SCL “H” pulse width (Write)
SCL “L” pulse width (Write)
Serial clock cycle (Read GRAM)
SCL “H” pulse width (Read GRAM)
SCL “L” pulse width (Read GRAM)
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SCL
Parameter
t SC YCR
t SHR
t SLR
t SDS
t SDH
t CHW
Serial clock cycle (Read ID)
SCL “H” pulse width (Read ID)
SCL “L” pulse width (Read ID)
DE setup time
DE hold time
CSX
Max.
Unit
40
-
ns
t CSS
t CSH
100
40
-
-
ns
300
-
ns
140
-
ns
140
300
140
140
20
20
-
-
-
ns
ns
ns
ns
ns
ns
45
-
ns
Chip select hold time
50
-
ns
Chip select setup time
20
-
Description
ns
Chip select “H” pulse width
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SDI
Min.
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Signal
ns
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(b) Write Mode
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b. RGB Interface Characteristics
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(a) Signal AC Characterics
VDDI=1.65~3.3V, VCI=2.6~3.3V, TA=25℃
℃
Signal
VS
Symbol
t VS YNS
t VS YNH
HS
t SC YCR
t HVPD
t DCYC
t DFREQ
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PCLK
t DLW
t DHW
DE
D0~D23
t DCSS
t DCSH
t DDS
t DDH
Min.
Typ.
Max.
Unit
VSYNC setup time
10
VSYNC hold time
10
ns
HSYNC setup time
10
ns
HSYNC hold time
10
ns
HSYNC to VSYNC falling edge
400
ns
PCLK cycle time
36.5
-
46.1
PCLK frequency
21.7
-
27.4
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t HS YNS
Parameter
ns
ns
MHz
ns
PCLK “L” pulse width
11
PCLK “H” pulse width
11
ns
DE setup time
10
ns
DE hold time
10
RGB Data setup time
10
ns
RGB Data hold time
10
ns
ns
Note 1: The input signal rise time and fall time (tr, tf) is specified at 15 ns or less.
Note 2: Measuring of input signals are 0.30 x VDDI for low state and 0.7 x VDDI for high state.
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2.tVHS40ns
(b) RGB Interface Mode Set
RGB Mode 1
(SYNC + DE)
RGB Mode 2
(SYNC Only)
Register
PCLK
DE
D23-D0
VS
HS
Used
Used
Used
Used
Used
Not used
Used
Not used
Used
Used
Used
Used
VFP[7:0], VBP[7:0]
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RGB I/F Mode
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In RGB Mode 1, writing data to line buffer is done by PCLK and Video Data Bus (D23 to D0), when DE is high state. The
external clocks (PCLK, VS and HS) are used for internal displaying clock. So, controller must always transfer PCLK, VS and
HS signal to IC DDI.
In RGB Mode 2, back porch of Vsync VBP is defined by VBP[7:0] of RGBCTR command. And back porch of Hsync HBP is
defined by HBP[7:0] of RGRCTR command. Front porch of Vsync VFP is defined by VFP[7:0] of RGBCTR command. And
front porch of Hsync HFP is defined by HFP[7:0] of RGBCTR command.
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(c) Video signal data writing method in RGB Mode 1 Interface
Notes:
1. Constraint:
V-Back Porch (Vsync+VBP)≧ 5 HS lines, V-Front-Borch (VFP) ≧ 5 HS lines
H-Back Porch (Hsync+HBP) 5 PCLK clocks, H-Front-Porch (HFP) 2 PCLK clocks
3. D[23:0] (DR[7:0], DG[7:0], DB[7:0])
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Page:
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(d) Video signal data writing method in RGB Mode 2 Interface
Notes:
1. Constraint:
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V-Back Porch (VBP[7:0])
H-Back Porch (HBP[7:0])
2. t VHS≧ 400ns
5 HS lines, V-Front Porch (VFP[7:0])
5 HS lines
5 PCLK clocks, H-Back Porch (HFP[7:0])
2 PCLK clocks
3. D[23:0] (DR[7:0], DG[7:0], DB[7:0])
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Page:
15/26
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(e) Vertical and horizontal timing
VDDI=1.65~3.3V, VCI=2.6~3.3V, TA=25℃
℃
Item
Vertical cycle period
Vertical low pulse width
Veritcal Timing
T VP
T VS
Symbol
Vertical data start line
Vertical blanking period
T VS + T VB P
T VB L = T V S + T V BP + T VFP
Vertical refresh rate
T VRR
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Vertical front porch
T VFP
Vertical back porch
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Vertical active area
Item
Horizontal cycle period
T VBP
T VD ISP
Horizontal low pulse width
Horizontal back porch
T HBP
Horizontal data start point
Symbol
T HFP
Horizontal blanking period
T HS + T HBP
T HBL = T HS + T HBP + T HFP
Pixel clock cycle
F PCLKC YC
Horizontal active area
Typ.
Max.
5
-
64
5
-
810
2
832
-
3
-
10
-
T HDI SP
32
64
128
-
HS
HS
VFP[5:0]
HS
VBP[5:0]
HS
HS
60
70
487
Typ.
512
Max.
Unit
2
-
5
-
Min.
610
-
2
-
3
-
7
32
128
-
25.6
27.4
-
21.7
480
64
64
-
Remark
HS
HS
55
800
930
-
Unit
-
Horizontal Timing
T HP
T HS
Horizontal front porch
Min.
Hz
PCLK
Note 2
PCLK
HFP[5:0]
PCLK
HBP[5:0]
PCLK
PCLK
PCLK
PCLK
MHz
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ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED, OR TRANSFORMED TO ANY OTHER FORMS WITHOUT
PERMISSION FROM AU OPTRONICS CORP.
sequence is below:
The LCD adopts high voltage driver IC, so it could be permanently damaged under a wrong power on/off sequence. The suggested LCD power
a. Recommended Power On/Off Sequence
5. Power On / Off Characteristics
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Version:
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6. Command Descriptions
a. User Command Set
Address
D6
D5
D4
D3
D2
D1
D0
Function
SLPIN
10h
No Argument
Sleep in & booster off
SLPOUT
11h
No Argument
Sleep out & booster on
DISPOFF
28h
No Argument
Display off
DISPON
29h
No Argument
Display on
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D7
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Instruction
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b. Recommended Power On Register Setting
Number
Address
Data
2
F001h
AAh
F003h
08h
3
4
5
F000h
52h
F004h
00h
6
B100h
0Ch
8
BC00h
05h
10
BC02h
11
12
13
14
15
16
17
18
19
BC01h
F000h
F001h
F002h
F003h
F004h
TBD
TBD
00h
05h
Display Option Control
Inversion Driving Control
05h
55h
AAh
52h
Enable Manufacture Command
08h
01h
TBD
TBD
1100h
2900h
Gamma Correction
-
SET_DISPLAY_ON
Wait for more than 120ms
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Power Control
EXIT_SLEEP_MODE
Number
Address
Data
2
1000h
-
-
Description
SET_DISPLAY_OFF
ENTER_SLEEP_MODE
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2800h
for Page1
-
c. Recommended Power Off Register Setting
1
for Page 0
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B101h
18/26
Enable Manufacture Command
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Page:
Description
55h
F002h
0.0
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1
Version:
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CR10
D. Optical Specification
All optical specification is measured under typical condition (Note 1, 2)
Symbol
Response Time
Rise
Tr
Contrast ratio
CR
Fall
Condition
Tf
At optimized
viewing angle
Bottom
Blue
Uniformity
19/26
Max.
650
60
Unit
Remark
ms
Note 3
ms
15
800
--
80
--
80
--
80
X
Y
X
Y
X
80
--
Note 4
deg.
Note 5
Y
X
Y
ΔYL
--
θ=0°
360
450
--
θ=0°
0.28
0.38
θ=0°
0.30
0.33
θ=0°
cd/m2
Note 6
Tentative
0.40
Tentative
0.548
0.35
0.648
Tentative
θ=0°
0.598
0.306
0.406
Tentative
θ=0°
0.356
0.311
0.411
Tentative
θ=0°
0.361
0.536
0.636
Tentative
θ=0°
0.586
0.095
0.195
Tentative
θ=0°
0.145
0.107
0.207
Tentative
%
70
0.157
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Green
Page:
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Chromaticity
--
60
YL
Red
20
60
Right
White
--
60
Left
Brightness
Typ.
θ=0°
Top
Viewing Angle
Min.
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Item
Version:
80
--
%
Note 7
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Note 1: Measurement should be performed in the dark room, optical ambient temperature =25˚C, and backlight
current IL=20 mA.
Note 2: To be measured on the center area of panel with a viewing cone of 1° by Topcon luminance meter
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BM-5A, after 15 minutes operation.
BM-5A
FIELD=1°
CENTER OF THE SCREEN
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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.
10%
0%
"White"
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S ig n a l( R e la tiv e v a lu e )
100%
90%
"Black"
"White"
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Refer to figure as below.
Tr
Note 4.Definition of contrast ratio:
Tf
Contrast ratio is calculated with the following formula.
Photo detector output when LCD is at " White" status
Photo detector output when LCD is at " Black" status
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Contrast ratio (CR) =
Note 5. Definition of viewing angle, θ, Refer to figure as below.
L
ФL
ФH
R
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X
X’
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Y’
Y
Note 6. Measured at the center area of the panel when all the input terminals of LCD panel are
electrically opened.
Note 7: Luminance Uniformity of these 9 points is defined as below:
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OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.
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minimum luminance in 9 points (1- 9)
maximum luminance in 9 points (1- 9)
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Uniformity =
Version:
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OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.
E. Reliability Test Items
No.
Test items
High Temperature Storage
3
High Temperature Operation
5
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Conditions
Remark
Ta= 80˚C
240Hrs
Note 1 & Note 2
Ta= 70˚C
240Hrs
Note 1 & Note 2
High Temperature & High Humidity
Ta= 60˚C. 90% RH
240Hrs
Note 1 & Note 2
6
Heat Shock
-20˚C ~70˚C, 50 cycle,
7
Electrostatic Discharge
4
Low Temperature Storage
Ta= -20˚C
Low Temperature Operation
Ta= -10˚C
Vibration
240Hrs
2Hrs/cycle
Contact = ± 4 kV, class B
Air = ± 8 kV, class B
Frequency range
8
240Hrs
Note 1 & Note 2
Note 1 & Note 2
Non-operation
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2
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1
Version:
: 8~33.3Hz
Stoke
: 1.3mm
Sweep
: 2.9G ,33.3~400Hz
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2 hours for each direction of X,Y,Z
Note 4
Non-operation
JIS C7021, A-10
condition A
: 15 minutes
4 hours for Y direction
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.
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Note 3: All the cosmetic specification is judged before the reliability stress.
Note 4 : All test techniques follow IEC6100-4-2 standard.
Test Condition
Note
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Pattern
Procedure
And
Set-up
Contact Discharge:330Ω, 150pF, 1sec, 5point, 10times/point
Air Discharge:330Ω, 150pF, 1sec, 5 point, 10times/point
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1. The metal casing is connected to ground (0V) at four corners.
2. All register commands are repeating transferred.
3. Judging the result after discharging.
Criteria
Others
B – Some performance degradation allowed. No data lost.
Self-recoverable hardware failure.
1. Gun to Panel Distance
2. No SPI command, keep default register settings.
Note 5: Operate with chess board pattern as figure and lasting time and temperature as the conditions.
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Then judge with 50% gray level, the mura is less than JND 2.8
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Note 6: The panel is tested as figure. The jig isψ10 mm
made by Cu with rubber and the loading
speed is 3mm/min on position A~E. After the condition, no glass crack will be found and panel
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function check is OK.( no guarantee LC mura、LC bubble)
Loading
LCM
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OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.
G.
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Packing and Marking
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1. Packing Form
ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED,
OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.
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2
2
1
1
2
C23P
C51N
C23
1uF
16V
1
C41P
C32P
C51P
2
VGL
1
D1
2
-
2
-
+
+
1
1
C2
2.2uF
25V
D2
C H 5 2 1 S -3 0 P T
C H 5 2 1 S -3 0P T
C9
4.7uF
10V
2
C5
4.7uF
10V
VGH
C10
2.2uF
25V
2
1
2
AVEE
VCI
1
C8
4.7uF
10V
2
2
C7
1uF
6.3V
1
2
C6
1uF
6.3V
AVDD
1
VDDI
1
2
1
DVDD
C4
2.2uF
10V
1
2
C3
2.2uF
10V
VREF_PWR
1
2
1
C1
2.2uF
10V
VCL
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1
2
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AVEE
VCOM
1
2
3
4
5
6
7
8
9
10
11
12
13
14
VCI
C24N 15
C24P 16
C23N 17
C23P 18
C22N 19
C22P 20
C21N 21
C21P 22
AVEE 23
AVDD 24
C14N 25
C14P 26
C13N 27
C13P 28
C12N 29
C12P 30
C11N 31
C11P 32
VREFCP33
34
VCI
35
36
VDDI
VS
37
38
HS
39
40
PCLK 41
42
DE
43
44
DB0 45
DB1 46
DB2 47
DB3 48
DB4 49
DB5 50
DB6 51
DB7 52
DG0 53
DG1 54
DG2 55
DG3 56
DG4 57
DG5 58
DG6 59
DG7 60
DR0 61
DR1 62
DR2 63
DR3 64
DR4 65
DR5 66
DR6 67
DR7 68
69
70
VDDI
RESX 71
CSX 72
SCL 73
SDI
74
75
76
77
78
VREF_PWR 79
VLED- 80
VLED+ 81
82
83
84
85
86
87
88
89
90
VCOM
VGL
C51N
C51P
VGH
C41N
C41P
DVDD
C32N
C32P
C31N
C31P
VCL
VCI
C24N
C24P
C23N
C23P
C22N
C22P
C21N
C21P
AVEE
AVDD
C14N
C14P
C13N
C13P
C12N
C12P
C11N
C11P
VREFCP
VCI
LED_PWM
VDDI
VS
GND
HS
GND
PCLK
GND
DE
GND
DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
DG0
DG1
DG2
DG3
DG4
DG5
DG6
DG7
DR0
DR1
DR2
DR3
DR4
DR5
DR6
DR7
GND
VDDI
RESX
CSX
SCL
SDI
GND
GND
GND
GND
VREF_PWR
VLEDVLED+
dummy
TP1
TP2
TP3
TP4
TP5
TP6
TP7
TP8
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C22
1uF
16V
C18
1uF
16V
VCOM
VGL
C51N
C51P
VGH
C41N
C41P
DVDD
C32N
C32P
C31N
C31P
VCL
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C31P
2
2
C21
1uF
16V
C41N
C23N
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C24P
C32N
1
C20
1uF
6.3V
C17
1uF
16V
C22P
C21P
C31N
1
C19
1uF
16V
1
C14P
2
C24N
C16
1uF
16V
C22N
1
C13P
2
C15
1uF
16V
C21N
1
C14
1uF
6.3V
2
C14N
1
2
C12P
2
C11P
C13
1uF
16V
FH29B-90S-02SHW
C13N
1
C12
1uF
6.3V
C12N
2
C11N
1
1
2
H. Application Circuit
VREFCP
C11
1uF
6.3V
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I . Precautions
1. Do not twist or bend the module and prevent the unsuitable external force for display module during
assembly.
2. Adopt measures for good heat radiation. Be sure to use the module with in the specified temperature.
3. Avoid dust or oil mist during assembly.
cause improper shut down and damage the module.
5. Less EMI: it will be more safety and less noise.
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4. Follow the correct power sequence while operating. Do not apply the invalid signal, otherwise, it will
6. Please operate module in suitable temperature. The response time & brightness will drift by different
temperature.
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7. Avoid to display the fixed pattern (exclude the white pattern) in a long period, otherwise, it will cause
8. Be sure to turn off the power when connecting or disconnecting the circuit.
9. Polarizer scratches easily, please handle it carefully.
10. Display surface never likes dirt or stains.
11. A dewdrop may lead to destruction. Please wipe off any moisture before using module.
12. Sudden temperature changes cause condensation, and it will cause polarizer damaged.
13. High temperature and humidity may degrade performance.
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direct sunlight and so on.
Please do not expose the module to the
14. Acetic acid or chlorine compounds are not friends with TFT display module.
15. Static electricity will damage the module, please do not touch the module without any grounded
device.
16. Do not disassemble and reassemble the module by self.
17. Be careful do not touch the rear side directly.
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18. No strong vibration or shock. It will cause module broken.
19. Storage the modules in suitable environment with regular packing.
20. Be careful of injury from a broken display module.
21. Please avoid the pressure adding to the surface (front or rear side) of modules, because it will cause
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the display non-uniformity or other function issue.
ALL RIGHTS STRICTLY RESERVED. ANY PORTION OF THIS PAPER SHALL NOT BE REPRODUCED, COPIED,
OR TRANSFORMED TO ANY OTHER FORMS WITHOUT PERMISSION FROM AU OPTRONICS CORP.