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Document Version: 5.1

Date: 2005/9/19

Product Specifications

26.0” WXGA Color TFT-LCD Module

Model Name: T260XW02

(*) Preliminary Specifications

( ) Final Specifications

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Contents

No ITEM
COVER
CONTENTS
RECORD OF REVISIONS
1 GENERAL DESCRIPTION
2 ABSOLUTION MAXIMUM RATINGS
3 ELECTRICAL SPECIFICATIONS
3-1 ELECTRICAL CHARACTERISTICS
3-2 INTERFACE CONNECTIONS
3-3 SIGNAL TIMING SPECIFICATIONS
3-4 SIGNAL TIMING WAVEFORMS
3-5 COLOR INPUT DATA REFERENCE
3-6 POWER SEQUENCE
4 OPTICAL SPECIFICATIONS
5 MECHANICAL CHARACTERISTICS
6 RELIABILITY
7 INTERNATIONAL STANDARDS
7-1 SAFETY
7-2 EMC
8 PACKING
9 PRECAUTIONS

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Record of Revision
Version Date No Old Description New Description Remark
5.0 2005/8/2 Original Version
2. Absolute Maximum Ratings 2. Absolute Maximum Ratings
Page 5
Symbol: VDD Symbol: VDDB
Optical Specificationè Optical Specificationè
5.1 2005/9/19
Contrast Ratioè 600 : 1(min) Contrast Ratioè 800 : 1(min)
Page 15
1000 : 1 (typ.) 1000 : 1 (typ.)
Dark Luminanceè 0.8 (max) Dark Luminanceè 0.625 (max)

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1. General Description
This specification applies to the 26.0 inch Color TFT-LCD Module T260XW02. This LCD module has a TFT
active matrix type liquid crystal panel 1366x768 pixels, and diagonal size of 26.0 inch. This module supports
1366x768 XGA-WIDE mode (Non-interlace).
Each pixel is divided into Red, Green and Blue sub-pixels or dots which are arranged in vertical stripes. Gray
scale or the brightness of the sub-pixel color is determined with a 8-bit gray scale signal for each dot.
The T260XW02 has been designed to apply the 8-bit 1 channel LVDS interface method. It is intended to
support displays where high brightness, wide viewing angle, high color saturation, and high color depth are
very important.

* General Information

Items Specification Unit Note

Active Screen Size 26.0 inches
Display Area 575.769 (H) x 323.712(V) mm
Pixel Pitch 0.4215 mm
Outline Dimension 626.0 (H) x 373.0 (V) x 47.5(D) mm With inverter
Driver Element a-Si TFT active matrix
Display Colors 16.7M Colors
Number of Pixels 1366 x 768 Pixel
Pixel Arrangement RGB vertical stripe
Display Mode Normally Black
BL Structure 8 U-Lamps
Surface Treatment AG, 3H

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2. Absolute Maximum Ratings

The following are maximum values which, if exceeded, may cause faulty operation or damage to the unit.

Item Symbol Min Max Unit Conditions

Logic/LCD Drive Voltage VCC -0.3 (6.0) [Volt] Note 1
Input Voltage of Signal Vin -0.3 (3.6) [Volt] Note 1
BLU Input Voltage VDDB -0.3 27.0 [Volt] Note 1
BLU Brightness Control Voltage BLON -0.3 7.0 [Volt] Note 1
Operating Temperature TOP 0 +50 [oC] Note 2
Operating Humidity HOP 10 90 [%RH] Note 2
Storage Temperature TST -20 +60 [oC] Note 2
Storage Humidity HST 10 90 [%RH] Note 2

Note 1 : Duration = 50msec

Note 2 : Maximum Wet-Bulb should be 39℃ and No condensation.

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3. Electrical Specification
The T260XW02 requires two power inputs. One is employed to power the LCD electronics and to drive the
TFT array and liquid crystal. The second input power for the BLU, is to power inverter..

3-1 Electrical Characteristics

Values
Parameter Symbol Unit Notes
Min. Typ. Max.
LCD:
Power Supply Input Voltage Vcc 4.5 5.0 5.5 V
Power Supply Input Current Icc - 1.40 1.78 mA 1
Power Consumption Pc - 7.0 9.0 Watt 1
Inrush Current IRUSH - - 3.0 A 2
Backlight Power Consumption 84 85 Watt
Life Time 50,000 60,000 Hours 3

Note :
1. Vcc=5.0V, Fv=60Hz, Fclk= 85.0 MHz , 25℃.
2. Vcc rising time = 470 µs , Vcc=5.0V
3. The performance of the Lamp in LCM, for example: lifetime or brightness, is extremely influenced by the characteristics
of the DC-AC Inverter. So all the parameters of an inverter should be carefully designed so as not to produce too much
leakage current from high-voltage output of the inverter. When you design or order the inverter, please make sure
unwanted lighting caused by the mismatch of the lamp and the inverter (no lighting, flicker, etc) never occurs. When you
confirm it, the LCD Assembly should be operated in the same condition as installed in your instrument.
4. Do not attach a conducting tape to lamp connecting wire. If the lamp wire attach to conducting tape, TFT-LCD Module
have a low luminance and the inverter has abnormal action because leakage current occurs between lamp wire and
conducting tape.
5. The relative humidity must not exceed 80% 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 lifetime of CCFL will be reduced.

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3-2 Interface Connections

- LCD connector (CN1): JAE FI-E30S or equivalent
- Mating Connector:
- LVDS Transmitter: SN75LVDS83(Texas Instruments) or equivalent
Note:
1. All GND (ground) pins should be connected together and should also be connected to the LCD’s metal frame. All Vcc
(power input) pins should be connected together.

Pin No Symbol Description Default

1 N.C. No Connection (Reserved for aging mode internally)
2 N.C. No Connection (Reserved for I2C clock input)
3 N.C. No Connection (Reserved for I2C data input)
4 GND Power Ground
5 Rx0- Negative LVDS differential data input
6 Rx0+ Positive LVDS differential data input
7 GND Power Ground
8 Rx1- Negative LVDS differential data input
9 Rx1+ Positive LVDS differential data input
10 GND Power Ground
11 Rx2- Negative LVDS differential data input
12 Rx2+ Positive LVDS differential data input
13 GND Power Ground
14 RxCLK- Negative LVDS differential clock input
15 RxCLK+ Positive LVDS differential clock input
16 GND Power Ground
17 Rx3- Negative LVDS differential clock input (Even clock)
18 Rx3+ Positive LVDS differential clock input (Even clock)
19 GND Power Ground
20 Reserved No Connection ( Auo internal Test Pin)
21 LVDS Option Pull Low : JETDA LVDS format; Pull High or N.C.: NS LVDS format
22 N.C. Reserved
23 GND Power Ground
24 GND Power Ground
25 GND Power Ground
26 VCC +5V Power Input
27 VCC +5V Power Input
28 VCC +5V Power Input
29 VCC +5V Power Input
30 VCC +5V Power Input

** LVDS Option : H (3.3V) or N.C.è NS (Normal)

L (GND) è JETDA

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LVDS Option = H (3.3V)

Previous Cycle Current Cycle Next Cycle

Clock

RIN0+ R3 R2 G2 R7 R6 R5 R4 R3 R2 G2
RIN0-

RIN1+ G4 G3 B3 B2 G6 G6 G5 G4 G3 B3
RIN1-

RIN2+ B5 B4 DE NA NA B7 B6 B5 B4 DE
RIN2-

RIN3+ R1 R0 NA B1 B0 G1 G0 R1 R0 NA
RIN3-

LVDS Option = GND or OPEN

Previous Cycle Current Cycle Next Cycle

Clock

RIN0+ R1 R0 G0 R5 R4 R3 R2 R1 R0 G0
RIN0-

RIN1+ G2 G1 B1 B0 G5 G4 G3 G2 G1 B1
RIN1-

RIN2+
B3 B2 DE NA NA B5 B4 B4 B2 DE
RIN2-

RIN3+ R7 R6 NA B7 B6 G7 G6 R7 R6 NA
RIN3-

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BACKLIGHT CONNECTOR PIN CONFIGURATION

1. Electrical specification
(Ta=25±5℃)
No ITEM SYMBOL CONDITION MIN TYP MAX UNIT Note
1 Input Voltage VDD --- 21.6 24.0 26.4 V
V DD=24V
2 Input Current IDD Max. Brightness
--- --- 3.6 A
V DD=24V
3 Input Power PDD Dimming Max.
--- --- 85 W
V DD=24V
4 Input inrush current, 0.3ms IRUSH Dimming Max.
--- --- 5 A
5 Output Frequency FBL V DD=24V --- 48 --- kHz
ON V DD=24V 2.0 --- 3.3 V or Open
6 ON/OFF Control Voltage VBLON
OFF V DD=24V 0.0 --- 0.8 V
7 ON/OFF Control Current IBLON V DD=24V -1 --- 1.5 mA
MAX V DD=24V --- 3.3 --- V or Open
8 Dimming Control Voltage VDIM
MIN V DD=24V --- 0.0 --- V
9 Dimming Control Current IDIM MIN V DD=24V 1.0 --- mA
MAX --- 2.0 --- 3.3 V
10 External PWM Control Voltage EVPWM
MIN --- -0.3 --- 0.8 V
MAX PWM=100% 0.5 --- --- mA
11 External PWM Control Current EIPWM
MIN PWM=100% 0.5 --- --- mA
12 External PWM Duty Ratio EDPWM --- 30 --- 100 % or Open
13 External PWM Frequency EFPWM --- 150 --- 300 Hz
2. Input specification

Pin No Symbol Description Default

1 VDD Operating Voltage Supply, +24V DC regulated 24V
2 VDD Operating Voltage Supply, +24V DC regulated 24V
3 VDD Operating Voltage Supply, +24V DC regulated 24V
4 VDD Operating Voltage Supply, +24V DC regulated 24V
5 VDD Operating Voltage Supply, +24V DC regulated 24V
6 GND Ground GND
7 GND Ground GND
8 GND Ground GND
9 GND Ground GND
10 GND Ground GND
11 Analog DIM External Analog Dimming Control -
12 BL ON/OFF On/Off Control -
13 PWM DIM External PWM Dimming Control -
14 Reserved N.C. -
CN1: S14B-PH-SM3-TB(JST) or Compatible CN2: S2B-ZR-SM3A-TF(JST) or Compatible
CN3~10: SM02(12)B-BHS-1-TB(JST) or Compatible

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3. Backlight Diagram
HOT: High Voltage

HOT 1(PINK)

HOT 2(WHITE)

HOT 3(PINK)

HOT 4(WHITE)

HOT 13(PINK)

HOT 14(WHITE)

HOT 15(PINK)

HOT 16(WHITE)

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3-3 Signal Timing Specifications

This is the signal timing required at the input of the User connector. All of the interface signal timing should
be satisfied with the following specifications for it’s proper operation.

* Timing Table

DE only Mode
Vertical Frequency Range A
Signal Item Symbol Min. Typ. Max. Unit
Period Tv 789 806 822 Th
Vertical
Section Active Tdisp 768 Th
Blanking Tblk (v) 21 38 54 Th
Period Th 1414 1560 1722 Tclk
Horizontal
Active Tdisp 1366 Tclk
Section
Blanking Tblk (h) 48 194 356 Tclk
Clock Frequency Fclk 54 63 74 MHz
Vertical
Frequency Fv 48 50 52 Hz
Frequency
Horizontal
Frequency Freq 39.45 --- 41.10 kHz
Frequency

Vertical Frequency Range B

Signal Item Symbol Min. Typ. Max. Unit
Period Tv 789 806 822 Th
Vertical
Section Active Tdisp 768 Th
Blanking Tblk (v) 21 38 54 Th
Period Th 1414 1560 1722 Tclk
Horizontal
Active Tdisp 1366 Tclk
Section
Blanking Tblk (h) 48 194 356 Tclk
Clock Frequency Fclk 65 76 88 MHz
Vertical
Frequency Fv 58 60 62 Hz
Frequency
Horizontal
Frequency Freq 47.32 --- 49.32 kHz
Frequency

*1) DCLK signal input must be valid while power supply is applied.
*2) Display position is specific by the rise of ENAB signal only.
Horizontal display position is specified by the falling edge of 1st DCLK right after the rise of ENAB, is
displayed on the left edge of the screen.
Vertical display position is specified by the rise of ENAB after a “Low” level period equivalent to eight times
of horizontal period. The 1st data corresponding to one horizontal line after the rise of ENAB is displayed at
the top line of screen.
*3.) If a period of ENAB “High” is less than 1366 DCLK or less than 768 lines, the rest of the screen
displays black.
*4.) The display position does not fit to the screen if a period of ENAB “High” and the effective data period
do not synchronize with each other.

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3-4 Signal Timing Waveforms

RGB Data

CLK
DE

RGB
Data

DE
1366
Line
Pixel

Tclk
768

Invalid Data

Tblk(v)
Invalid Data

Line

Th
1
Pixel
1
Pixel
2

Tv
Line
2
Pixel
3
Pixel
4

Tdisp(h)

Line
3
Pixel

Th
5

Tdisp(v)
Pixel
6

Line
4
Pixel
767
Pixel
768

1366
Line
Invalid Data

Tblk(h)

Invalid Data
Pixel
1
Pixel
3

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3-5 Color Input Data Reference

The brightness of each primary color (red, green and blue) is based on the 8 bit gray scale data input for the
color; the higher the binary input, the brighter the color. The table below provides a reference for color versus
data input.

COLOR DATA REFERENCE

Input Color Data

Color RED GREEN BLUE
MSB LSB MSB LSB MSB LSB
R7 R6 R5 R4 R3 R2 R1 R0 G7 G6 G5 G4 G3 G2 G1 G0 B7 B6 B5 B4 B3 B2 B1 B0
Black 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Red(255) 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Green(255) 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
Basic Blue(255) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
Color Cyan 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
Magenta 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
Yellow 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
White 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
RED(000) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
RED(001) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
RED ----
RED(254) 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
RED(255) 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
GREEN(000) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
GREEN(001) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0
GREEN ----
GREEN(254) 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0
GREEN(255) 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0
BLUE(000) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
BLUE(001) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1
BLUE -------
BLUE(254) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0
BLUE(255) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1

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3-6 Power Sequence

90% 90%
Power Supply For LCD
VCC (+5V) & VDD 10% 10% 10%
GND

t1 t2
t5 t6 t7
Interface Signal 10% Valid Data 10%
GND

t3 t4
Power For LAMP
(BLON)

Values
Parameter Units
Min. Typ. Max.
t1 470 - 1000 μs
t2 25 - 60 ms
t3 600 - - ms
t4 200 - - ms
t5 50 - - ms
t6 0.47 - 30 ms
t7 1 - - s

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4. Optical Specification
Optical characteristics are determined after the unit has been ‘ON’ and stable for approximately 45 minutes in
a dark environment at 25℃. The values specified are at an approximate distance 50cm from the LCD surface
at a viewing angle of Φ and θequal to 0°.

Fig.1 1 presents additional information concerning the measurement equipment and method.

Parameter Symbol Values Units Notes

Min. Typ. Max.
Contrast Ratio CR (800) (1000) 1
Dark Luminance LBK (0.625) cd/㎡
2
Surface Luminance, white LWH 400 500 cd/㎡
Luminance Variation δWHITE 9 p 1.4 3
Response Rise Time TrR 15 18
ms 4
Time Decay Time TrD 5 7
Gray to Gray Tγ 8 35 ms 5
Color Coordinates
RX 0.640
RED
RY 0.330
GX 0.290
GREEN
GY 0.600
Typ.-0.03 Typ.+0.03
BX 0.150
BLUE
BY 0.060
WX 0.280
WHITE
WY 0.290
Viewing Angle
x axis, right(φ=0°) θr 85 Degree
x axis, left(φ=180°) θl 85 Degree 6
y axis, up(φ=90°) θu 85 Degree
y axis, down (φ=0°) θd 85 Degree

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Note:
1. Contrast Ratio (CR) is defined mathematically as:

Surface Luminance of Lon1

Contrast Ratio=
Surface Luminance of Loff1

2. Surface luminance is luminance value at point 1 across the LCD surface 50cm from the surface with all pixels displaying white.
From more information see FIG 2. When VDDB = 24V, IDDB = 3.5A. LWH=Lon1
Where Lon1 is the luminance with all pixels displaying white at center 1 location.
3. The variation in surface luminance, δWHITE is defined (center of Screen) as:
δWHITE(9P)= Maximum(Lon1, Lon2,…Lon9) / Minimum(Lon1, Lon2,…,Lon9)
4. Response time is the time required for the display to transition from black to white(Rise Time, Tr R) and from white to black
(Decay Time, TrD). For additional information see FIG3.
5. Tγ is the response time between any two gray scale and is based on f v=60Hz to optimize.
6. Viewing angle is the angle at which the contrast ratio is greater than 10. The angles are determined for the horizontal or x axis
and the vertical or y axis with respect to the z axis which is normal to the LCD surface. For more information see FIG4.

V
FIG. 2 Luminance

H/2 1 2 3

4 5 6 H

7 8
H/6

V/6 V/2

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FIG.3 Response Time

The response time is defined as the following figure and shall be measured by switching the input signal for
“black” and “white”.

Any brighter gray level (White) Any brighter gray level (White)

100%
90%

Optical
Response
na
nc
e
Any darker gray (Black)
10%
0
TrD TrR Time

FIG.4 Viewing angle

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5. Mechanical Characteristics
The contents provide general mechanical characteristics for the model T260XW02. In addition the figures in
the next page are detailed mechanical drawing of the LCD.

Horizontal 626.0mm
Outline Dimension Vertical 373.0mm
47.5mm(w/i inverter & Shielding)
Depth
30.3mm(w/o inverter)
Horizontal 580.8mm
Bezel Area
Vertical 328.8mm
Horizontal 575.769mm
Active Display Area
Vertical 323.712mm
Weight 4200g (Typ.)
Surface Treatment Anti-Glare, 3H

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Front View

2. l C-D l<1.6mm
1. l A-B l<1.6mm
notes:

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Rear View

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6. Reliability
Environment test condition

No Test Item Condition

1 High temperature storage test Ta=60℃ 240h
2 Low temperature storage test Ta=-20℃ 240h
3 High temperature operation test Ta=50℃ 80%RH 240h
4 Low temperature operation test Ta=0℃ 240h
Wave form: random
Vibration level: 1.0G RMS
Vibration test
5 Bandwidth: 10-500Hz
(non-operating)
Duration: X, Y, Z 20min
One time each direction
Shock level: 100G
Shock test Waveform: half since wave, 2ms
6
(non-operating) Direction: ±X, ±Y, ±Z
One time each direction
Vibration test Random Vibration: 10~200Hz, 1.5G, 30minutes
7
(with carton) in each X, Y, Z direction
Height: 53.3cm
Drop test
8 1 corner, 3 edges, 6 surfaces
(with carton)
(ASTMD4169-I)
Altitude
9 50,000 feet (12Kpa)
Storage/shipment

｛Result Evaluation Criteria｝

There should be no change which might affect the practical display function when the display quality test is
conducted under normal operating condition.

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7. International Standard
7-1. Safety
(1) UL1950 Third Edition, Underwriters Laboratories, Inc. Jan. 28, 1995
Standard for Safety of Information Technology Equipment Including electrical Business Equipment.
(2) CAN/CSA C22.2 No. 950-95 Third Edition, Canadian Standards Association, Jan. 28, 1995
Standard for Safety of Information Technology Equipment Including Electrical Business Equipment.
(3) EN60950 : 1992+A2: 1993+A2: 1993+C3: 1995+A4: 1997+A11: 1997
IEC 950: 1991+A1: 1992+A2: 1993+C3: 1995+A4:1996
European Committee for Electrotechnical Standardization (CENELEC)
EUROPEAN STANDARD for Safety of Information Technology Equipment Including Electrical
Business Equipment.

7-2. EMC
a) ANSI C63.4 “Methods of Measurement of Radio-Noise Emissions from Low-Voltage Electrical
and Electrical Equipment in the Range of 9kHz to 40GHz. “American National standards
Institute(ANSI), 1992.
b) C.I.S.P.R “Limits and Methods of Measurement of Radio Interface Characteristics of Information
Technology Equipment.” International Special committee on Radio Interference.
c) EN 55022 “Limits and Methods of Measurement of Radio Interface Characteristics of Information
Technology Equipment.” European Committee for Electrotechnical Standardization. (CENELEC),
1998.

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8. Packing
Label sample 83mm * 23mm

Carton Label

AU Optronics QTY: 4
MODEL NO: T260XW02 VX
PART NO: 97.26T02.XXX
CUSTOMER NO:
CARTON NO:

Made in Taiwan *PM100-01A1600001*

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Carton Size 767(L)mm*330(W)mm*480(H)mm

4pcs Modules

Cushion top

Cushion set
Cushion down
V

4pcs / 1 carton

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January, 2003 All Rights Reserved. T260XW02 V5-Spec. Ver5.1 24/26
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9. PRECAUTIONS
Please pay attention to the followings when you use this TFT LCD module.

9-1 MOUNTING PRECAUTIONS

(1) You must mount a module using holes arranged in four corners or four sides.
(2) You should consider the mounting structure so that uneven force (ex. Twisted stress) is not applied
to module. And the case on which a module is mounted should have sufficient strength so that external
force is not transmitted directly to the module.
(3) Please attach the surface transparent protective plate to the surface in order to protect the polarizer.
Transparent protective plate should have sufficient strength in order to the resist external force.
(4) You should adopt radiation structure to satisfy the temperature specification.
(5) Acetic acid type and chlorine type materials for the cover case are not desirable because the former
generates corrosive gas of attacking the polarizer at high temperature and the latter causes circuit break
by electro-chemical reaction.
(6) Do not touch, push or rub the exposed polarizers with glass, tweezers or anything harder than HB
pencil lead. And please do not rub with dust clothes with chemical treatment. Do not touch the surface
of polarizer for bare hand or greasy cloth. (Some cosmetics are detrimental to the polarizer.)
(7) When the surface becomes dusty, please wipe gently with absorbent cotton or other soft materials
like chamois soaks with petroleum benzene. Normal-hexane is recommended for cleaning the
adhesives used to attach front/ rear polarizers. Do not use acetone, toluene and alcohol because they
cause chemical damage to the polarizer.
(8) Wipe off saliva or water drops as soon as possible. Their long time contact with polarizer causes
deformations and color fading.
(9) Do not open the case because inside circuits do not have sufficient strength.

9-2 OPERATING PRECAUTIONS

(1) The spike noise causes the mis-operation of circuits. It should be lower than following voltage: V=
±200mV(Over and under shoot voltage)
(2) Response time depends on the temperature. (In lower temperature, it becomes longer..)
(3) Brightness depends on the temperature. (In lower temperature, it becomes lower.) And in lower
temperature, response time (required time that brightness is stable after turned on) becomes longer.
(4) Be careful for condensation at sudden temperature change. Condensation makes damage to
polarizer or electrical contacted parts. And after fading condensation, smear or spot will occur.
(5) When fixed patterns are displayed for a long time, remnant image is likely to occur.
(6) Module has high frequency circuits. Sufficient suppression to the electromagnetic interference shall
be done by system manufacturers. Grounding and shielding methods may be important to minimize the
interface.

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9-3 ELECTROSTATIC DISCHARGE CONTROL

Since a module is composed of electronic circuits, it is not strong to electrostatic discharge. Make certain that
treatment persons are connected to ground through wrist band etc. And don’t touch interface pin directly.

9-4 PRECAUTIONS FOR STRONG LIGHT EXPOSURE

Strong light exposure causes degradation of polarizer and color filter.
9-5 STORAGE
When storing modules as spares for a long time, the following precautions are necessary.
(1) Store them in a dark place. Do not expose the module to sunlight or fluorescent light. Keep the
temperature between 5℃ and 35℃ at normal humidity.
(2) The polarizer surface should not come in contact with any other object. It is recommended that they
be stored in the container in which they were shipped.
9-6 HANDLING PRECAUTIONS FOR PROTECTION FILM
(1) The protection film is attached to the bezel with a small masking tape. When the protection film is
peeled off, static electricity is generated between the film and polarizer. This should be peeled off
slowly and carefully by people who are electrically grounded and with well ion-blown equipment or in
such a condition, etc.
(2) When the module with protection film attached is stored for a long time, sometimes there remains a
very small amount of flue still on the Bezel after the protection film is peeled off.
(3) You can remove the glue easily. When the glue remains on the Bezel or its vestige is recognized,
please wipe them off with absorbent cotton waste or other soft material like chamois soaked with
normal-hexane.

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