InnoLux 668GL-70NP/H/Y User manual
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INNOLUX DISPLAY CO PO ATION
LCD MODULE
SPECIFICATION
Customer:
Model Name: AT070TN84 V.1
SPEC NO.: A070-84-TT-12
Date: 2009/02/23
Version: 02
□
□□
□Preliminary Specification
■
■■
■Final Specification
For Customer ’s Acceptance
Approved by Comment
Approved by eviewed by Prepared by
Jack Huang
2009/02/26
Charlie Chou
2009/02/24
David Lee
2009/02/24
INNOLUX
The copyright belongs to InnoLux. Any unauthorized use is prohibited.
InnoLux copyright 2004
All rights reserved,
Copying forbidden.
Record of Revision
Version Revise ate
Page
Content
Pre-spec. 01 2008/07/21 Initial release.
Final-spec.01
2009/01/06 The first version final specification.
1 Add module weight.
25 Update mechanical drawing.
02 2009/02/23 7 Add the Min. & Max. value of VCOM.
INNOLUX
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Contents
1. General Specifications............................................................................................................1
2. Pin Assignment.......................................................................................................................2
2.1. TFT LC Panel riving Section......................................................................................2
2.2. Backlight Unit Section.....................................................................................................5
3. Operation Specifications.........................................................................................................6
3.1. Absolute Maximum Ratings .............................................................................................6
3.2. Typical Operation Conditions...........................................................................................7
3.2.1. Current Consumption ..............................................................................................8
3.2.2. Backlight riving Conditions....................................................................................8
3.3. Power Sequence .............................................................................................................9
3.4. Timing Characteristics ...................................................................................................10
3.4.1. Timing Conditions..................................................................................................10
3.4.2. Timing iagram .....................................................................................................12
4. Optical Specifications............................................................................................................19
5. Reliability Test Items.............................................................................................................23
6. General Precautions.............................................................................................................24
6.1. Safety ...........................................................................................................................24
6.2. Handling .......................................................................................................................24
6.3. Static Electricity ............................................................................................................24
6.4. Storage .........................................................................................................................24
6.5. Cleaning .......................................................................................................................24
7. Mechanical rawing .............................................................................................................25
8. Package rawing .................................................................................................................26
8.1. Packaging Material Table..............................................................................................26
8.2. Packaging Quantity ......................................................................................................26
8.3. Packaging rawing.......................................................................................................27
INNOLUX SPEC NO.: A070-84-TT- 12 ate : 2009/02/23
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1. General Specifications
No. Item Specification emark
1 LC size 7.0 inch( iagonal)
2 river element a-Si TFT active matrix
3 Resolution 800 × 3(RGB) × 480
4 isplay mode Normally white, Transmissive
5 ot pitch 0.0635(W) × 0.1905(H) mm
6 Active area 152.4 (W) × 91.44 (H) mm
7 Module size 165(W) × 104(H) × 5.5( ) mm Note1
8 Surface treatment Anti-Glare
9 Color arrangement RGB-stripe
10 Interface igital
11 Backlight power consumption 1.782W (Typ.)
12 Panel power consumption 0.437W (Typ.)
13 Weight 170g (Typ.)
Note1: Refer to Mechanical rawing.
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2. Pin Assignment
2.1. TFT LCD Panel Driving Section
FPC Connector is used for the module electronics interface. The recommended model is
P-TWO “AF 730L-A2G1T” manufactured by P-TWO.
Pin No.
Symbol I/O Function emark
1 POL I Polarity selection
2 STV I/O Vertical start pulse input when U/ = H Note 1
3 OEV I Output enable
4 CKV I Vertical clock
5 STVU I/O Vertical start pulse input when U/ = L Note 1
6 GN P Power Ground
7 E GSL I Select rising edge or falling edge
8 V P Power Voltage for igital Circuit
9 V9 I Gamma voltage level 9
10 VGL P Gate OFF voltage
11 V2 I Gamma voltage level 2
12 VGH P Gate ON voltage
13 V6 I Gamma voltage level 6
14 U/ I Up/down selection Note 1,2
15 VCOM I Common voltage
16 GN P Power Ground
17 AV P Power Voltage for Analog Circuit
18 V14 I Gamma voltage level 14
19 V11 I Gamma voltage level 11
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20 V8 I Gamma voltage level 8
21 V5 I Gamma voltage level 5
22 V3 I Gamma voltage level 3
23 GN P Power Ground
24 R5 I Red data(MSB)
25 R4 I Red data
26 R3 I Red data
27 R2 I Red data
28 R1 I Red data
29 R0 I Red data(LSB)
30 GN P Power Ground
31 GN P Power Ground
32 G5 I Green data(MSB)
33 G4 I Green data
34 G3 I Green data
35 G2 I Green data
36 G1 I Green data
37 G0 I Green data(LSB)
38 STHL I/O Horizontal start pulse input when R/L = L Note 1
39 REV I Control signal are inverted or not Note3
40 GN I Power Ground
41 CLK I Sample clock
42 V P Power Voltage for igital Circuit
43 STHR I/O Horizontal start pulse input when R/L =H Note 1
44 L I Latches the polarity of outputs and
Switches the new data to outputs
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45 B5 I Blue data (MSB)
46 B4 I Blue data
47 B3 I Blue data
48 B2 I Blue data
49 B1 I Blue data
50 B0 I Blue data (LSB)
51 R/L I Right/ left selection Note 1,2
52 V1 I Gamma voltage level 1
53 V4 I Gamma voltage level 4
54 V7 I Gamma voltage level 7
55 V10 I Gamma voltage level 10
56 V12 I Gamma voltage level 12
57 V13 I Gamma voltage level 13
58 AV P Power Voltage for Analog Circuit
59 GN P Power Ground
60 VCOM I Common voltage
I: input, O: output, P: Power
Note 1: Selection of scanning mode
Setting of scan
control input IN/OUT state for start pulse
U/ R/L STV STVU STHR STHL
Scanning direction
GN V O I I O Up to down, left to right
V GN I O O I own to up, right to left
GN GN O I O I Up to down, right to left
V V I O I O own to up, left to right
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Note 2: efinition of scanning direction.
Refer to the figure as below:
Note 3: When REV=”L”, it’s under normal operation.
When REV=”H”, these data will be inverted.
2.2. Backlight Unit Section
LE Light Bar Connector is used for the integral backlight system.
The recommended model is BHSR-02VS-1 manufactured by JST.
Pin No.
Symbol I/O Function emark
1 VLE + P Power for LE backlight anode Pink
2 VLE - P Power for LE backlight cathode White
LCM
Active area
Left
ight
Up
Down
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3. Operation Specifications
3.1. Absolute Maximum atings
(Note 2)
Values
Item Symbol
Min. Max.
Unit emark
V -0.5 5 V
AV -0.5 13.5 V
VGH -0.3 20.0 V
VGL -13.0 0.3 V
Power voltage
VGH-VGL - 33.0 V
V1~V7 0.4 AV AV +0.3 V Note 1
Input signal voltage
V8~V14 -0.3 0.6AV V
Operation Temperature TOP -30 85 ℃
Storage Temperature TST -30 85 ℃
LE Reverse Voltage Vr - 1.2 V Each LE
Note 3
LE Forward Current IF - 25 mA Each LE
Note 1: AV -0.1≥ V1≥ V2≥ V3≥ V4≥ V5≥ V6≥ V7,
V8≥ V9≥ V10≥ V11≥ V12≥ V13≥ V14≥ AVSS+0.1.
Note 2: The absolute maximum rating values of this product are not allowed to be exceeded
at any times. A module should be used with any of the absolute maximum ratings
exceeded, the characteristics of the module may not be recovered, or in an extreme
condition, the module may be permanently destroyed.
Note 3: Vr Conditions: Zener iode 20mA
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3.2. Typical Operation Conditions
(Note 1)
Values
Item Symbol
Min. Typ. Max.
Unit emark
V 3.0 3.3 3.6 V Note 2
AV 10.2 10.4 10.6 V
VGH 15.3 16.0 16.7 V
Power voltage
VGL -7.7 -7.0 -6.3 V
VCOM 3.9 4.1 4.3 V (V1+V14)/2
=5.2V
V1~V7 0.4 AV
- AV -0.1
V
Input signal voltage
V8~V14 0.1 - 0.6 AV
V
Input logic high voltage VIH 0.7 V
- V V
Input logic low voltage VIL 0 - 0.3 V
V
Note 3
Note 1: Be sure to apply V and VGL to the LC first, and then apply VGH.
Note 2: V setting should match the signals output voltage (refer to Note 3) of
customer’s system board.
Note 3: POL, STV , OEV, CKV, STVU, E GSL, U/ , STHL, REV, CLK, STHR, L , R/L.
R0~R5, G0~G5, B0~B5.
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3.2.1. Current Consumption
Values
Item Symbol
Min. Typ. Max.
Unit
emark
IGH - 0.2 0.5 mA
VGH =16.0V
IGL - 0.2 1.0 mA
VGL = -7.0V
I V - 5.0 10.0 mA
V =3.3V
Current for river
IAV - 40.0 50.0 mA
AV =10.4V
3.2.2. Backlight Driving Conditions
Values
Item Symbol
Min. Typ. Max.
Unit emark
Voltage for LE Backlight
VL 9.3 9.9 10.5 V Note1
Current for LE Backlight
IL 170 180 200 mA
LE life time - 20,000
- - Hr Note 2
Note 1: The Voltage for LE Backlight is defined at Ta=25℃ and IL =180mA.
Note 2: The “LE life time” is defined as the module brightness decrease to 50% original
brightness at Ta=25℃ and IL =180mA. The LE lifetime could be decreased if
operating IL is larger than 180 mA.
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3.3. Power Sequence
1. Power on:
2. Power off:
Note: ata include CLK,POL,OEV,CKV,STVU,STV ,STHL,STHR,L ,R0~R5,G0~G5,B0~B5
DVDD→
→→
→VGL→
→→
→VGH→
→→
→Data→
→→
→B/L
B/L→
→→
→Data→
→→
→VGH→
→→
→VGL→
→→
→DVDD
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3.4. Timing Characteristics
3.4.1. Timing Conditions
Values
Item Symbol
Min. Typ. Max.
Unit
emark
CLK frequency Fdclk - 40 45 MHz
CLK cycle Tcph 22 25 - ns
CLK pulse width Tcw 8 - - ns
ata set-up time Tsu 4 - - ns
ata hold time Thd 2 - - ns
Time that the last data to L Tld 1 - - Tcph
Pulse width of L Twld 2 - - Tcph
Time that L to STHL/R Tlds 5 - - Tcph
POL set-up time Tpsu 6 - - ns
POL hold time Tphd 6 - - ns
CKV frequency Fvclk - - 200 KHz
CKV rise time Trck - - 100 ns
CKV falling time Tfck - - 100 ns
CKV pulse width PWCLK
500 - - ns
Horizontal display timing range
Tdh - 800 - Tcph
Horizontal timing range Th - 1056 - Tcph
STVU/ setup time Tsuv 200 - - ns
STVU/ hold time Thdv 300 - - ns
STVU/ delay time Tdt - - 500 ns
river output delay time Tdo - - 900 ns
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Output rise time Ttlh - 500 1000
ns
Output falling time Tthl - 400 800 ns
OEV pulse width Twcl 1 - - us
OEV to river output delay time
Toe - - 900 ns
Horizontal lines per field Tv 512 525 610 Tdh
Vertical display timing range Tvd - 480 - Tdh
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3.4.2. Timing Diagram
Tsu Thd Tcw Tcw
Tsu Thd
First data Second data Last data
Tphl Tphl
70%
30%
70%70%
30%30%
70%70%
70% 70%
70%
800
7992
1
DCLK
STHL/
(input)
STH /L
(output)
Timing iagram1 (CHNSL="1" , efault)
<E GSL="0", efault>
Tcph
70%
Date GB
Fig.3-1 operation model 1
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Tsu Thd Tcw Tcw
Tsu Thd
First
data
Second
data
Last
data
Tsu Thd
Tphl Tphl
70%
30%
70%
30% 30%
70%
30%
70%
30%
30%
70%70%
70% 70%
70% 70%
400
3992
1
DCLK
STHL/
(input)
Data
GB
STH /L
(output)
< E GSL ="1">
Fig.3-2 operation model 2
INNOLUX SPEC NO.: A070-84-TT- 12 ate : 2009/02/23
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CLK
L
STHL/R
(input)
L
POL
Odd
outputs
Even
outputs
70% Last
Tld
70% Twld 70%
Tlds
70%
70%
70% 70%
30%
70%
30%
Tpsu Tphd TpsuTphd
High-Z
Tst
10%
90% High-Z
Tst
90%
10%
70%
Tpsu Tphd
High-Z
Tst
Positive
70%
30%
Negative
Timing iagram 2
Fig.3-3 Horizontal timing 1
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Hs
CLK
RGB 1 2 3 800799798
E
Tdh
Th
Fig.3-4 Horizontal timing 2
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Fig.3-5 Vertical shift clock timing
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Fig.3-6 Vertical timing (from up to down)
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