CHIMEI INNOLUX A260J2-001 Specification

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Model No.: A260J2-001

Approval

TFT LCD Approval Specification

Model NO.: A260J2- 001

Customer :

Approved by :

Note :

Liquid Crystal Display Division

QRA Division OA Head Division

Approval Approval

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- CONTENTS -

REVISION HISTORY...........................................................................................................................................3

1. GENERAL DESCRIPTION .............................................................................................................................. 4

1.1 OVERVIEW

1.2 FEATURES

1.3 APPLICATION

1.4 GENERAL SPECIFICATIONS

1.5 MECHANICAL SPECIFICATIONS

2. ABSOLUTE MAXIMUM RATINGS ................................................................................................................... 5

2.1 ABSOLUTE RATINGS OF ENVIRONMENT

2.2 ELECTRICAL ABSOLUTE RATINGS

3. ELECTRICAL CHARACTERISTICS ................................................................................................................ 8

3.1 TFT LCD MODULE

3.2 BACKLIGHT UNIT

4. BLOCK DIAGRAM...........................................................................................................................................11

4.1 TFT LCD MODULE

4.2 BACKLIGHT UNIT

5. INPUT TERMINAL PIN ASSIGNMENT ............................................................................................................ 12

5.1 TFT LCD MODULE

5.2 BACKLIGHT UNIT

5.3 COLOR DATA INPUT ASSIGNMENT

6. INTERFACE TIMING....................................................................................................................................... 16

6.1 INPUT SIGNAL TIMING SPECIFICATIONS

6.2 POWER ON/OFF SEQUENCE

7. Driver DC CHARACTERISTICS.......................................................................................................................18

7.1 RSDS CHARACTERISTICS

7.2 ELECTRICAL CHARACTERISTICS

8. Driver AC CHARACTERISTICS....................................................................................................................... 19

9. VERTICAL TIMING..........................................................................................................................................20

10. OPTICAL CHARACTERISTICS..................................................................................................................... 21

10.1 TEST CONDITIONS

10.2 OPTICAL SPECIFICATIONS

11. PACKAGING ................................................................................................................................................. 25

11.1 PACKING SPECIFICATIONS

11.2 PACKING METHOD

12. DEFINITION OF LABELS.............................................................................................................................. 27

12.1 CMO MODULE LABEL

13. PRECAUTIONS............................................................................................................................................. 28

13.1 ASSEMBLY AND HANDLING PRECAUTIONS

13.2 SAFETY PRECAUTIONS

14. MECHANICAL CHARACTERISTICS ............................................................................................................. 29

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REVISION HISTORY

Version Date Section Description

Ver 3.0 Jan.17. 08’

’

-

A260J2 -001 S-ISM Approval specifications was first issued.

-

-

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1. GENERAL DESCRIPTION

1.1 OVERVIEW

A260J2-001 is a 25.54” TFT Liquid Crystal Display module with 16 CCFL Backlight unit and RSDS interface.

This module supports 1920 x 1200 WUXGA mode and can display up to 16.7M colors. The inverter module

for backlight is not built in.

1.2 FEATURES

- Extra-wide viewing angle.

- High contrast ratio.

- Fast response time.

- High color saturation.

- WUXGA (1920 x 1200 pixels) resolution.

- DE (Data Enable) only mode.

- RoHS compliance.

- TCO’03 compliance.

1.3 APPLICATION

- TFT LCD Monitor

1.4 GENERAL SPECIFICATI0NS

Item Specification Unit Note

Active Area 550.08 (H) x 343.8 (V) (25.54” diagonal) mm

Bezel Opening Area 554.1 (H) x 347.8 (V) mm

Driver Element a-Si TFT active matrix - -

Pixel Number 1920 x R.G.B. x 1200 pixel -

Pixel Pitch 0.2865 (H) x 0.2865 (V) mm -

Pixel Arrangement RGB vertical stripe - -

Display Colors 16.7M color -

Transmissive Mode Normally White - -

Surface Treatment AG type, 3H hard coating, Haze 25 - -

(1)

1.5 MECHANICAL SPECIFICATIONS

Item Min. Typ. Max. Unit Note

Horizontal(H) 581.5 582.0 582.5 mm

Module Size

Note (1) Please refer to the attached drawings for more information of front and back outline dimensions.

Vertical(V) 375.1 375.6 376.1 mm

Depth(D) 35.61 35.91 36.21 mm

Weight - - 3350 g -

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2. ABSOLUTE MAXIMUM RATINGS

2.1 ABSOLUTE RATINGS OF ENVIRONMENT

Item Symbol

Storage Temperature TST -20 60 ºC (1)

Operating Ambient Temperature TOP 0 50 ºC (1), (2)

Shock (Non-Operating) S

Vibration (Non-Operating) V

Note (1) Temperature and relative humidity range is shown in the figure below.

(a) 90 %RH Max. (Ta Љ 40 ºC).

(b) Wet-bulb temperature should be 39 ºC Max. (Ta > 40 ºC).

(c) No condensation.

Note (2) The temperature of panel display surface area should be 0 ºC Min. and 60 ºC Max.

- 40 G (3), (5)

NOP

- 1.5 G (4), (5)

NOP

Min. Max.

Value

Unit Note

Relative Humidity (%RH)

100

90

80

60

Operating Range

40

20
10

Storage Range

Temperature (ºC)

Note (3) 11ms, half sine wave, 1 time for ± X, ± Y, ± Z.

8060-20 40020-40

Note (4) 10 ~ 300 Hz, 10min/cycle, 3 cycles each X, Y, Z.

Note (5) At testing Vibration and Shock, the fixture in holding the module has to be hard and rigid enough

so that the module would not be twisted or bent by the fixture.

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A

Y

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The fixing condition is shown as below:

t Room Temperature

Side Mount Fixing Screw

LCD Module

Gap=2mm

LCD Module

Side Mount Fixing Screw

Stage

Bracket

X Direction

Stage

Bracket

Direction

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2.2 ELECTRICAL ABSOLUTE RATINGS

2.2.1 TFT LCD MODULE

Item Symbol

Power Supply Voltage Vcc -0.3 +6.0 V (1)

Min. Max.

2.2.2 BACKLIGHT UNIT

Item Symbol

Lamp Voltage VL 932 1140 V
Lamp Current IL 4.5 5.5 mA

Lamp Frequency FL 48 70 KHz

Note (1) Permanent damage to the device may occur if maximum values are exceeded. Function operation

should be restricted to the conditions described under Normal Operating Conditions.

Min. Max.

Value

Value

Unit Note

Unit Note

RMS

RMS

(1), (2)

(1), (2)

Note (2) Specified values are for lamp (Refer to 3.2 for further information).

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3. ELECTRICAL CHARACTERISTICS

3.1 TFT LCD MODULE

Parameter SYMBOL

Power Supply Voltage for LCD Vin 2.97 3.3 3.63 V ­Power Supply Current for LCD Iin - 1000 - mA ­Differential Impendence Zm - 100 -

LCD Inrush Current Irush - 3 - A ­VCOM Voltage VCM 4.3 6.3 V (1)
VSA Voltage VAA 12.4 12.7 13 V
VGL Voltage VGL -5.3 -5.5 -5.7 V
VGH Voltage VGH 22.6 23.2 23.8 V
Gamma 1 GMA1 11.41 11.56 11.71 V
Gamma 2 GMA2 10.705 10.855 11.005 V
Gamma 3 GMA3 8.994 9.005 9.105 V
Gamma 4 GMA4 8.468 8.568 8.668 V
Gamma 5 GMA5 8.183 8.283 8.383 V
Gamma 6 GMA6 6.75 6.85 6.95 V
Gamma 7 GMA7 6.35 6.45 6.55 V
Gamma 8 GMA8 6.07 6.17 6.27 V
Gamma 9 GMA9 5.7 5.8 5.9 V
Gamma 10 GMA10 4.097 4.197 4.297 V
Gamma 11 GMA11 3.672 3.772 3.872 V
Gamma 12 GMA12 3.115 3.215 3.315 V
Gamma 13 GMA13 1.145 1.245 1.345 V
Gamma 14 GMA14 0.096 0.116 0.136 V

Ta = 25 ± 2 ºC

Value

MIN TYP MAX

UNIT Note

Ө

-

Note (1) VCOM Adjustable Range 4.3~6.3V

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3.2 BACKLIGHT UNIT

3.2.1CCFL CHARACTERISTICS

Parameter Symbol

Lamp Input Voltage VL 932 1036 1140 V

Lamp Current IL 4.5 5.0 5.5 mA

Lamp Turn On Voltage V

Operating Frequency F

Lamp Life Time LBL 50,000 Hrs (5), IL = 5.0mA

Power Consumption PL 83 W (4), IL = 5.0 mA

Note (1) Lamp current is measured by current amplify & oscilloscope as shown below:

S

L

+

-

Min. Typ. Max.

1620 (25 )к V

48

Η

LCD

Η

Η

Module

Η

+

­Current

Probe

Value

1920 (0 )к V

55 70 KHz (3)

Unit Note

RMS

RMS

RMS

RMS

Η

Η

Η

Η

Inverter

Current
Amplify

Ta = 25 ± 2 ºC

IL = 5.0 mA

(1)
(2)
(2)

Oscilloscope

Measure equipment:
Current Amplify: Tektronix TCPA300
Current probe: Tektronix TCP312
Oscilloscope: TDS3054B

Note (2) The voltage that must be larger than Vs should be applied to the lamp for more than 1 second

after startup. Otherwise, the lamp may not be turned on normally.

Note (3) The lamp frequency may produce interference with horizontal synchronization frequency from the

display, which might cause line flow on the display. In order to avoid interference, the lamp

frequency should be detached from the horizontal synchronization frequency and its harmonics as

far as possible.

Note (4) P

Note (5) The lifetime of lamp can be defined as the time in which it continues to operate under the condition

(b) When the effective ignition length becomes or lower than 80% of its original value. (Effective

= IL VL  16

L

Ta = 25 2

(a) When the brightness becomes or lower than 50% of its original value.

ignition length is defined as an area that has less than 70% brightness compared to the

brightness in the center point.)

o

C and IL = 5.0 mArms until one of the following events occurs:

Note (6) The waveform of the voltage output of inverter must be area-symmetric and the design of the

inverter must have specifications for the modularized lamp. The performance of the Backlight,

such as lifetime or brightness, is greatly influenced by the characteristics of the DC-AC inverter for

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the lamp. All the parameters of an inverter should be carefully designed to avoid producing too

much current leakage from high voltage output of the inverter. When designing or ordering the

inverter please make sure that a poor lighting caused by the mismatch of the Backlight and the

inverter (miss-lighting, flicker, etc.) never occurs. If the above situation is confirmed, the module

should be operated in the same manners when it is installed in your instrument.

The output of the inverter must have symmetrical (negative and positive) voltage waveform and

symmetrical current waveform.(Unsymmetrical ratio is less than 10%) Please do not use the inverter

which has unsymmetrical voltage and unsymmetrical current and spike wave. Lamp frequency may

produce interface with horizontal synchronous frequency and as a result this may cause beat on the

display. Therefore lamp frequency shall be as away possible from the horizontal synchronous

frequency and from its harmonics in order to prevent interference.

Requirements for a system inverter design, which is intended to have a better display performance, a

better power efficiency and a more reliable lamp. It shall help increase the lamp lifetime and reduce its

leakage current.

a. The asymmetry rate of the inverter waveform should be 10% below;

b. The distortion rate of the waveform should be within Ѕ2 ± 10%;

c. The ideal sine wave form shall be symmetric in positive and negative polarities

* Asymmetry rate:

I

p

I

-p

| I

– I –p | / I

p

* Distortion rate

I

(or I –p) / I

p

rms

rms

* 100%

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4. BLOCK DIAGRAM

4.1 TFT LCD MODULE

AR0~2(+/-)

AB0~2(+/-)

AG0~2(+/-)

ACK(+/-)

BR0~2(+/-)

BB0~2(+/-)

BG0~2(+/-)

BCK(+/-)

A/B_STH(+/-)

TP1/POL

VGH/VGL/V SA/VCM/VREF

GMA1~GMA14

STV/CPV/OE/XAO

VCC

GND

(089H45-000000-G2-C) X2

INPUT CONNECTOR

SCAN DRIVER IC

TFT LCD PANEL

(1920x3x1200)

DATA DRIVER IC

V

L

4.2 BACKLIGHT UNIT

LAMP CONNECTOR

(JST BHR_04VS_1)

BACKLIGHT UNIT

HV

HV

.

.

.

.

.

.

.

Note. On the same side, the same-polarity lamp voltage design for lamps is recommended.

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5. INPUT TERMINAL PIN ASSIGNMENT

5.1 TFT LCD MODULE

CN1Κ

Pin Name Description

1 B_B2P Positive RSDS differential data input. Channel B2(Back)
2 B_B2N Negative RSDS differential data input. Channel B2(Back)
3 B_B1P Positive RSDS differential data input. Channel B1(Back)
4 B_B1N Negative RSDS differential data input. Channel B1(Back)
5 B_B0P Positive RSDS differential data input. Channel B0(Back)
6 B_B0N Negative RSDS differential data input. Channel B0(Back)
7 GND Ground
8 B_G2P Positive RSDS differential data input. Channel G2(Back)

9 B_G2N Negative RSDS differential data input. Channel G2(Back)
10 B_G1P Positive RSDS differential data input. Channel G1(Back)
11 B_G1N Negative RSDS differential data input. Channel G1(Back)
12 B_G0P Positive RSDS differential data input. Channel G0(Back)
13 B_G0N Negative RSDS differential data input. Channel R0(Back)
14 GND Ground
15 B_CKP Positive RSDS differential clock input. (Back)
16 B_CKN Negative RSDS differential clock input. (Back)
17 GND Ground
18 B_R2P Positive RSDS differential data input. Channel R2(Back)
19 B_R2N Negative RSDS differential data input. Channel R2(Back)
20 B_R1P Positive RSDS differential data input. Channel R1(Back)
21 B_R1N Negative RSDS differential data input. Channel R1(Back)
22 B_R0P Positive RSDS differential data input. Channel R0(Back)
23 B_R0N Negative RSDS differential data input. Channel R0(Back)
24 B_STH Data driver start pulse input(Back)
25 NC No define
26 VSA

VSA

27

VSA

28
29 GMA14 Gamma 14 Voltage input

GMA13 Gamma 13 Voltage input

30

GMA12 Gamma 12 Voltage input

31

GMA11 Gamma 11 Voltage input

32

GMA10 Gamma 10 Voltage input

33

GMA9 Gamma 9 Voltage input

34

GMA8 Gamma 8 Voltage input

35
36 VCC

VCC

37

VCC

38
39 GMA7

GMA6 Gamma 6 Voltage input

40

GMA5 Gamma 5 Voltage input

41

GMA4 Gamma 4 Voltage input

42

GMA3 Gamma 3 Voltage input

43

GMA2 Gamma 2 Voltage input

44

GMA1 Gamma 1 Voltage input

45

VAA Power input

Power Supply Voltage input

Gamma 7 Voltage input

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CN2Κ

Pin Name Description

1 GND Ground

2 A_B2P Positive RSDS differential data input. Channel B2(Front)

3 A_B2N Negative RSDS differential data input. Channel B2(Front)

4 A_B1P Positive RSDS differential data input. Channel B1(Front)

5 A_B1N Negative RSDS differential data input. Channel B1(Front)

6 A_B0P Positive RSDS differential data input. Channel B0(Front)

7 A_B0N Negative RSDS differential data input. Channel B0(Front)

8 GND Ground

9 A_G2P Positive RSDS differential data input. Channel G2(Front)
10 A_G2N Negative RSDS differential data input. Channel G2(Front)
11 A_G1P Positive RSDS differential data input. Channel G1(Front)
12 A_G1N Negative RSDS differential data input. Channel G1(Front)
13 A_G0P Positive RSDS differential data input. Channel G0(Front)
14 A_G0N Negative RSDS differential data input. Channel G0(Front)
15 GND Ground
16 A_CKP Positive RSDS differential clock input. (Front)
17 A_CKN Negative RSDS differential clock input. (Front)
18 GND Ground

The contents of the data driver register are transferred to the latch circuit at the

19 TP1

20 POL Data driver polarity inverting input
21 GND Ground
22 A_R2P Positive RSDS differential data input. Channel R2(Front)
23 A_R2N Negative RSDS differential data input. Channel R2(Front)
24 A_R1P Positive RSDS differential data input. Channel R1(Front)
25 A_R1N Negative RSDS differential data input. Channel R1(Front)
26 A_R0P Positive RSDS differential data input. Channel R0(Front)
27 A_R0N Negative RSDS differential data input. Channel R0(Front)
28 GND Ground
29 A_STH Data driver start pulse input(Front)
30 VREF

VREF

31

VREF

32
33 GND Ground
34 VGH

VGH

35

VGH

36
37 VCM
38 VCM
39 VGL
40 VGL
41 GND Ground

42 STV

43 CPV Gate driver shift clock

44 OE

45 XAO Output all-on control

rising edge of TP1. Then the gray scale voltage is output from the device at the
falling edge of TP1

Gamma Reference Voltage input

Power supply for Gate on output

This pin is used to generate common voltage input for panel

Power supply for Gate on output

Gate driver start pulse is read at the rising edge of CKV and a scan signal is
output from the gate driver output pin.

This pin is used to control the Gate driver output. When OE input is “H”, gate
driver output is fixed to VGL level regardless CPV.

Note (1) Connector Part No.: 089H45-000000-G2-C

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5.2 BACKLIGHT UNIT:

Pin Symbol Description Remark
1-1 HV High Voltage Pink
1-2 HV High Voltage White
2-3 HV High Voltage Pink
2-4 HV High Voltage White
3-5 HV High Voltage Pink
3-6 HV High Voltage White
4-7 HV High Voltage Pink
4-8 HV High Voltage White

5-9 HV High Voltage Pink
5-10 HV High Voltage White
6-11 HV High Voltage Pink
6-12 HV High Voltage White
7-13 HV High Voltage Pink
7-14 HV High Voltage White
8-15 HV High Voltage Pink
8-16 HV High Voltage White

Note (1) Connector Part No.: JST BHR_04VS_1 or equivalent

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5.3 COLOR DATA INPUT ASSIGNMENT

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 the assignment of

color versus data input.

Data Signal

Basic

Colors

Gray

Scale

Of

Red

Color

Black

Red

Green

Blue

Cyan

Magenta

Yellow

White

Red(0) / Dark

Red(1)
Red(2)

Red(253)
Red(254)
Red(255)

R7 R6 R5 R4 R3 R2 R1 R0 G7 G6 G5 G4 G3 G2 G1 G0 B7 B6 B5 B4 B3 B2 B1 B0

0

0

1

1

0

0

0

0

0

0

1

1

1

1

1

1

0

0

0

0

0

0

:

:

:

:

:

:

1

1

1

1

1

1

Red Green Blue

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

1

1

1

1

1

1

0

0

0

0

0

0

0

0

0

0

0

0

1

1

1

1

1

1

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

0

0

0

0

0

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

1

0

0

0

0

0

0

0

0

0

0

1

0

0

0

0

0

0

0

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

1

1

1

1

0

1

0

0

0

0

0

0

1

1

1

1

1

0

0

0

0

0

0

0

1

1

1

1

1

1

0

0

0

0

0

0

0

0

1

1

0

0

1

1

0

0

1

1

1

1
0

0

0

0

0

0
:
:

0

0

0

0

0

0

0

0

0

0

0

1

1

1

1

1

1

0

0

1

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

1

1

1

1

1

1

1

1

1

1

1

1

0

0

0

0

1

1

1

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

1

1

1

1

1

1

0

0

1

1

0

0

0

0

0

0

:

:

:

:

0

0

0

0

0

0

Green(0) / Dark

Green(1)

Gray

Scale

Of

Green

Gray

Scale

Of

Blue

Note (1) 0: Low Level Voltage, 1: High Level Voltage

Green(2)

Green(253)
Green(254)
Green(255)

Blue(0) / Dark

Blue(1)
Blue(2)

Blue(253)
Blue(254)
Blue(255)

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

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

0

0

0

0

0

0

0

0

0

1

0

0

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

0

1

1

1

1

1

1

0

1

0

0

1

1

1

1

1

1

1

0

0

0

1

1

1

1

1

1

1

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

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:

:

:

:

:

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:

:

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0

0

0

0

0

0

0

0

0

1

0

0

0

0

0

0

0

0

0

1

0

0

0

0

0

0

0

0

0

1

0

0
:
:

:
:

:

:

:

:

0

0

0

0

0

0

0

0

0

0

0

0

:

:

:

:

1

1

1

1

1

1

0

0

0

:

:

:

:

0

0

0

0

0

0

0

0

0

0

0

0

:

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:

1

1

1

1

1

1

0

0

0

0

0

0

0

:

:

:

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:

:

0

0

0

0

0

0

0

0

0

0

0

0
1

0

0

0

0

1

:

:

:

:

:

:

1

1

0

0

1

1

1

1

1

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6. INTERFACE TIMING

6.1 INPUT SIGNAL TIMING SPECIFICATIONS

FCKP-FCKN/

BCKP-BCKN

FSTHI/BSTHI

BR0P-BR0N

D00

D01

D00

FR0P-FR0N

BR1P-BR1N

FR1P-FR1N

D02

D03

D02

D01 D00

D03 D02

D01 D00 D01

D03 D02 D03

BR2P-BR2N

FR2P-FR2N

BG0P-BG0N

FG0P-FG0N

BG1P-BG1N

FG1P-FG1N

BG2P-BG2N

FG2P-FG2N

BB0P-BB0N

FB0P-FB0N

BB0P-BB0N

FB0P-FB0N

BB0P-BB0N

FB0P-FB0N

D04

D10

D12

D14

D20

D22

D24

D05

D11

D13

D15

D21

D23

D25

D04

D10

D12

D14

D20

D22

D24

D05 D04

D11 D10

D13 D12

D15 D14

D21 D20

D23 D22

D25 D24

D05 D04 D05

D11 D10 D11

D13 D12 D13

D15 D14 D15

D21 D20 D21

D23 D22 D23

D25 D24 D25

1st Data

2nd Data

3rd Data

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6.2 POWER ON/OFF SEQUENCE

To prevent a latch-up or DC operation of LCD module, the power on/off sequence should be as the

diagram below.

RestartPower On Power Off

Power Supply
for LCD, Vcc

0V

- Interface Signal

(RSDS Signal of
Transmitter), V

0V

I

- Power for Lamp

Timing Specifications:

0.5< t1 Љ 10 msec

0 < t2 Љ 50 msec

0 < t3 Љ 50 msec

t4 Њ 500 msec

t5 Њ 500 msec

90%

10%

t1

Valid Data

OFF OFF

ON

90%

10%

t4

t3 t2

t6 t5

50%50%

t6 Њ 90 msec

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7. Driver DC

7.1 RSDS CHARACTERISTICS

CHARACTERISTICS

( VDD = 2.3 to 3.6 V, VDDA = 8.0 to 13.5 V, VSSD = VSSA = 0V)

Parameter Symbol Condition Min. Typ. Max. Unit

RSDS high input voltage V
RSDS low input voltage V

RSDS common mode
input voltage range
RSDS input leakage
current

DIFFRSDSVCMRSDS

DIFFRSDSVCMRSDS

CMRSDS

V

DIFFRSDS

DxxP, DxxN, CLKP,
CLKN

V

IDL

= + 1.2 V

= + 1.2 V

= + 200 mV

(1)

100 200 -

(1)

- -200 - 100
VSSD +

(2)

0.1

-10 - 10 µA

Note: (1) VCMRSDS = (VCLKP + VCLKN) / 2 or VCMRSDS = (VDxxP + VDxxN) / 2

(2) VDIFFRSDS = VCLKP - VCLKN or VDIFFRSDS = VDxxP – VDxxN

CLKN

CLKP

V

DIFFRSDS

V

DIFFRSDS

- VDDD - 1.2 V

V

CMRSDS

GND

mV

V

CLKP-CLKN

DIFFRSDS

V

DIFFRSDS

0V

7.2 ELECTRICAL CHARACTERISTICS (VSSD=VSSA=0V)

Parameter Symbol Condition

RSDS input “Low”
Voltage

RSDS input “High”
Voltage
RSDS reference
voltage
Input “Low” voltage V
Input “High” voltage V

V

DIFFRSDS

V

DIFFRSDS

V

CMRSDS

DX[2:0]P,DX[2:0]N,

IL

IH

EIO1,EIO2,DIR,TP1,

Input leak current IL
Supply current
(In operation mode)
Supply current
(In stand-by mode)

VDDD=3.6V - - Note(1) mA

I

CCD1

VDDD=3.6V - - Note(2) mA

I

CCD2

Pull high resistance Rpu

CLKP,CLKN

POL

/POLINV,RS,
ENREOP,VC

Min. Typ. Max.

- -200 - mV

- 200 - mV

VSSD+0.1 1.2 VDDD-1.2 V

0 - 0.2VDDD µA

0.8VDDD - VDDD µA

-1 - 1 µA

0.9Typ 800 1.1Typ

Pull low resistance Rpd POL20,/LP 0.9Typ 190 1.1Typ

Note: (1) Test condition: TP1= 20µs, CLK =54MHz, data pattern =1010….checkerboard pattern, Ta=25к

Spec

Unit

k:

k:

(2) No load condition

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)

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8. Driver AC

CHARACTERISTICS

Parameter Symbol Condition

Clock pulse width t
Clock pulse low period t
Clock pulse high period t
Data setup time t
Data hold time t
Start pulse setup time t
Start pulse hold time t

Last data CLK to TP1 high
TP1 high to EIOn high t
POL to TP1 setup time t
TP1 to POL hold time t

CLKP-CLKN

(RSDS)

D**P – D**N

CLK

CLK(L)

CLK(H)

SETUP1

HOLD1

SETUP2

HOLD2

t

TP1(H)

t

LAST

NEXT

POL-TP1

TP1-POL

t

CLK

Spec

Min. Typ. Max.

Unit

- 11 - - ns

- 5 - - ns

- 5 - - ns

- 2 - - ns

- 0 - - ns

- 1 - - ns

- 2 - - ns

- 15 - - CLKPTP1 high period

- 0 - - CLKP

- 6 - - CLKP
POL toggle to TP1 rising 3 - - ns
TP1 falling to POL toggle 2 - - ns

t

CLK(L

t

CLK(H

t

HOLD1

t

20%

(RSDS)

B_STH

D**P – D**N

(RSDS)

CLKP-CLKN

TP1

POL

t

SETUP2

t

HOLD2

LAST-2

Even Odd Even

LAST-1

Odd

Even

LAST

t

t

SETUP1

Odd

POL-TP1

t

LAST

t

SETUP1

Invalid

t

Data

t

TP1- POL

20%

80

80%
20%

80%
20%

80%

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9. VERTICAL TIMING

Parameter Symbol Condition

CPV period t
CPV pulse width t

OE pulse width t
/XAO pulse width t
Data setup time t
Data hold time t

OE to CPV time t
TP1 to CPV t
TP1 Pulse Width t

CKV

, t

CKVH

OE

WXAO

SU

HD

OE-CKV

STB-CKV

STB

CKVL

Note 1: OE, STB frequency same as CPV

Min. Typ. Max.

- 5 - -

50% duty cycle 2.5 - -

- 1 - -

- 6 - -

- 0.7 - - µs

- 0.7 - - µs

- - 0.5 - µs

- 0 0 0 µs

- - 0.5 - µs

Spec

Unit

µs

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10. OPTICAL CHARACTERISTICS

10.1 TEST CONDITIONS

Item Symbol Value Unit

Ambient Temperature Ta 25±2

Ambient Humidity Ha 50±10 %RH

Supply Voltage V

CC

5V V

Input Signal According to typical value in "3. ELECTRICAL CHARACTERISTICS"

Lamp Current I

Inverter Operating Frequency F

L

L

5.0 mA

58±2 KHz

Inverter CMO 4H.V2281.011/D 27D-D016512

10.2 OPTICAL SPECIFICATIONS

The relative measurement methods of optical characteristics are shown in 10.2. The following items should

be measured under the test conditions described in 10.1 and stable environment shown in Note (5).

o

C

Item Symbol Condition Min. Typ. Max. Unit Note

Red

Color

Green

Chromaticity

(CIE 1931)

Blue

White

Center Luminance of White

(Center of Screen)

Contrast Ratio CR

Response Time

White Variation

Horizontal

Viewing Angle

Vertical

Rx

Ry

Gx
Gy
Bx

By

Wx

Wy

L

C

T

R

T

F

GW

Tx+

-

T

x

TY+

T

Y

0.644

0.334

0.280

0.611

0.150

0.070

Typ +

0.03

- (1), (5)

=0q, TY =0q

T

x

CS-1000T

Typ -

0.03

0.313

0.329

450 600 - cd/m2(4), (5)

500 800 - - (2), (5)

Tx=0q, TY =0q

=0q, TY =0q

T

x

USB2000

-

-

- 1.4 1.5 - (5), (6)

1

4

ms (3)

75 85 -

CR Њ 10

USB2000

-

75 85 ­70 80 -

Deg. (1), (5)

60 80 -

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Note (1) Definition of Viewing Angle (Tx, Ty):

Normal

TX- = 90º

6 o’clock

T

- = 90º

x-

y-

Note (2) Definition of Contrast Ratio (CR):

The contrast ratio can be calculated by the following expression.

Contrast Ratio (CR) = L255 / L0

L255: Luminance of gray level 255

L 0: Luminance of gray level 0

Tx = T

= 0º

Ty- Ty

Tx

Tx

12 o’clock direction

y+

T

+ = 90º

x+

TX+ = 90º

CR = CR (1)

CR (X) is corresponding to the Contrast Ratio of the point X at Figure in Note (6).

Note (3) Definition of Response Time (T

Gray Level 255

100%

90%

Optical

Response

10%

0%

66.67ms 66.67ms

T

, TF):

R

R

Gray Level 0

Gray Level 255

T

F

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Note (4) Definition of Luminance of White (LC):

Measure the luminance of gray level 255 at center point

= L (1)

L

C

L (x) is corresponding to the luminance of the point X at Figure in Note (6).

Note (5) Measurement Setup:

The LCD module should be stabilized at given temperature for 30 minutes to avoid abrupt

temperature change during measuring. In order to stabilize the luminance, the measurement

should be executed after lighting Backlight for 30 minutes in a windless room.

LCD Module

LCD Panel

USB2000

Center of the Screen

CS-1000T

Light Shield Room

(Ambient Luminance < 2 lux)

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Note (6) Definition of White Variation (GW):

Measure the luminance of gray level 255 at 13 points

GW =

Maximum [L(1), L(2), L(3), L(4), L(5), L(6), L(7), L(8), L(9), L(10), L(11), L(12), L(13)]

Minimum [L(1), L(2), L(3), L(4), L(5), L(6), L(7), L(8), L(9), L(10), L(11), L(12), L(13)]

Horizontal Line Number

˄˃

Vertical Line Number

ˉ

˛˂ˇ

˅

˛˂ˇ˛˂ˇ

˄˃

ˌ

ˇ

˄˄

˄˃

˪˂ˇ ˪˂ˇ

˛

˛˂ˇ

ˊ

ˆ

˄

ˈ

˄˅

˪˂ˇ

˪

ˋ

˄˃

˄ˆ

˄˃

˪˂ˇ

Κ

Test Po int

Ј

1 to 13

X

ctive Area

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11. PACKAGING

11.1 PACKING SPECIFICATIONS

(1) 5 LCD modules / 1 Box

(2) Box dimensions: 680(L) X 400(W) X 480(H) mm

(3) Weight: approximately 18.3Kg (5 modules per box)

11.2 PACKING METHOD

(1) Carton Packing should have no failure in the following reliability test items.

Test Item Test Conditions Note

ISTA STANDARD
Random, Frequency Range: 1 – 200 Hz

Vibration

Dropping Test 1 Angle, 3 Edge, 6 Face, 60cm Non Operation

Top & Bottom: 30 minutes (+Z), 10 min (-Z),
Right & Left: 10 minutes (X)
Back & Forth 10 minutes (Y)

Non Operation

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For ocean shipping

For air transport

Figure. 11-2 Packing method

Figure. 8-3 Packing method

Figure. 11-3 Packing method

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12. DEFINITION OF LABELS

12.1 CMO MODULE LABEL

The barcode nameplate is pasted on each module as illustration, and its definitions are as following explanation.

(a) GP label:

(b) S/N label:

1. Model Name: A260J2-001

2. Revision: Rev. XX, for example: A0, A1… B1, B2… or C1, C2…etc.

3. CMO barcode definition:

Serial ID: XX

Code Meaning Description

XX CMO internal use ­XX Revision Cover all the change

X CMO internal use -

XX CMO internal use -

XXX

X Product line # Line 1=1, Line 2=2, Line 3=3, …

XXXX Serial number Manufacturing sequence of product

-XX-X-XX-XXX-X-XXXX

Year, month, day Year: 2001=1, 2002=2, 2003=3, 2004=4…

Month: 1~12=1, 2, 3, ~, 9, A, B, C
Day: 1~31=1, 2, 3, ~, 9, A, B, C, ~, W, X, Y, exclude I, O, and U.

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13. PRECAUTIONS

13.1 ASSEMBLY AND HANDLING PRECAUTIONS

(1) Do not apply rough force such as bending or twisting to the module during assembly.

(2) To assemble or install module into user’s system can be only in clean working areas. The dust and oil

may cause electrical short or worsen the polarizer.

(3) It’s not permitted to have pressure or impulse on the module because the LCD panel and Backlight will

be damaged.

(4) Always follow the correct power sequence when LCD module is connecting and operating. This can

prevent damage to the CMOS LSI chips during latch-up.

(5) Do not pull the I/F connector in or out while the module is operating.

(6) Do not disassemble the module.

(7) Use a soft dry cloth without chemicals for cleaning, because the surface of polarizer is very soft and

easily scratched.

(8) It is dangerous that moisture come into or contacted the LCD module, because moisture may damage

LCD module when it is operating.

(9) High temperature or humidity may reduce the performance of module. Please store LCD module within

the specified storage conditions.

(10) When ambient temperature is lower than 10ºC may reduce the display quality. For example, the

response time will become slowly, and the starting voltage of CCFL will be higher than room

temperature.

13.2 SAFETY PRECAUTIONS

(1) The startup voltage of Backlight is approximately 1000 Volts. It may cause electrical shock while

assembling with inverter. Do not disassemble the module or insert anything into the Backlight unit.

(2) If the liquid crystal material leaks from the panel, it should be kept away from the eyes or mouth. In

case of contact with hands, skin or clothes, it has to be washed away thoroughly with soap.

(3) After the module’s end of life, it is not harmful in case of normal operation and storage.

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14. MECHANICAL CHARACTERISTICS

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