INNOLUX MT230DW01 V.A Specification

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INNOLUX DISPLAY CORPORATION

MT230DW01 V.A LCD MODULE SPECIFICATION

(

) Preliminary Specification

(

) Final Specification

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Approved by Checked by Prepared by

Innolux Display Corporation,

No.160 Kesyue Rd., Chu-Nan Site, Hsinchu Science Park,

Chu-Nan 350, Miao-Li County, Taiwan

Tel: 886-37-586000 Fax: 886-37-586060

Document Number: MT230DW01 V.A

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Record of Revision

Version Revise Date Page Content

1.0 2008/10/15

2.0 2009/01/08 Final Specification

4 Add TCO’03 compliance

7 Update CCFL Current: 3.0 mA (Min), 8.0 mA (Max)

Initial Release

Support Input Timing Table

Item Description Min. Typ. Max. Unit

period 11.43 13.89 16.7 nS

Dclk

frequency 60 72 87.5 MHz V total line

V_TOTAL

Data duration 1080 1080 1080

V_DATA

T

VB

f

frequency 50 60 75 Hz

V

H total pixel

H_TOTAL

Data duration 960 960 960 DClk

H_DATA

T

HB

1090 1100 1160

number

V-blank 10 20 80

1000 1088 1120 DClk

number

H-blank 40 128 160 DClk

12

T

H_TOTAL

T

H_TOTAL

T

H_TOTAL

InnoLux copyright

Copying forbidden.

22~23 ME Drawing Update

13

15

Backlight driving conditions

Parameter Symbol Min. Typ. Max. Unit

Lamp voltage VL 810(8mA) 900(7.5mA) 990(3mA) Vrms

Lamp operation current IL 3.0 7.5 8.0 mArms

Frequency F 40 - 60 KHZ

Lamp lifetime 50,000 - - Hr

Color Chromaticity ( CIE)

Wx 0.313

Wy 0.329

Rx 0.64

Ry 0.349

Gx 0.284

Gy 0.617

Bx 0.142

By 0.067

= 0

-0.03



VLstart VrmsLamp starting voltage

- - 1500

- - 1800

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SPEC NO.

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Contents:

A. General Specification

B. Electrical Specifications

1. Pin assignment

2. Absolute maximum ratings

3. Electrical characteristics

a. Typical operating conditions

b. Display color vs. input data signals

c. Input signal timing

d. Display position

e. Backlight driving conditions

C. Optical specifications

D. Reliability test items

E. Safety

F. Display quality

G. Handling precaution

H. Label

I. Mechanical drawings

Appendix

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SPEC NO.

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A. General specification

NO. Item Specification Remark

1 Display resolution (pixel)

2 Active area (mm)

3 Screen size (inch)

4 Pixel pitch (mm)

5 Color configuration

6 Overall dimension (mm)

7 Weight (g)

8 Surface treatment

1,920(H) X 1,080(V), Full HD

509.184(H) x 286.416(V)

23 inches diagonal

0.2652(H) X 0.2652(V)

R, G, B vertical stripe

533.2(H) x 312.0 (V) x 16.5(D) (Typ.)

3050 (Max)

Anti-Glare, Haze=25%, Hard coating (3H)

Note1

9 Input color signal

10 Display colors

11 Color Saturation

12 Optimum viewing direction

13 Backlight

14 RoHS & Halogen Free

15 TCO’03

8 bit LVDS

16.7M (6 bit with Hi-FRC)

72% NTSC

6 o’clock

4 CCFL

RoHS & Halogen Free compliance

TCO’03 compliance

Note1: Glare Option Available

Note2: Only Anti-Glare can meet TCO’03 compliance.

Note2

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SPEC NO.

PAGE

B. Electrical specifications

1. Pin assignment

Connector

FOXCONN GS23302-0311S-7F or mechanical interface equivalent connector.

No Symbol Description

1 RxO0- LVDS Differential data input Channel 0(-)

2 RxO0+ LVDS Differential data input Channel 0(+)

3 RxO1- LVDS Differential data input Channel 1(-)

4 RxO1+ LVDS Differential data input Channel 1(+)

5 RxO2- LVDS Differential data input Channel 2(-)

6 RxO2+ LVDS Differential data input Channel 2(+)

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7 GND Ground

8 RxOC- LVDS Differential Clock input (-)

9 RxOC+ LVDS Differential Clock input (+)

10 RxO3- LVDS Differential data input Channel 3(-)

11 RxO3+ LVDS Differential data input Channel 3(+)

12 RxE0- LVDS Differential data input Channel 0(-)

13 RxE0+ LVDS Differential data input Channel 0(+)

14 GND Ground

15 RxE1- LVDS Differential data input Channel 1(-)

16 RxE1+ LVDS Differential data input Channel 1(+)

17 GND Ground

18 RxE2- LVDS Differential data input Channel 2(-)

19 RxE2+ LVDS Differential data input Channel 2(+)

20 RxEC- LVDS Differential Clock input (-)

21 RxEC+ LVDS Differential Clock input (+)

22 RxE3- LVDS Differential data input Channel 3(-)

23 RxE3+ LVDS Differential data input Channel 3(+)

24 GND Ground

25 NC No Connection

26 NC No Connection

27 NC No Connection

28 VCC Power supply (+5.0V)

29 VCC Power supply (+5.0V)

30 VCC Power supply (+5.0V)

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SPEC NO.

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MT230DW01 V.0

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Top view of LVDS connector

Rear view of LCM

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2. Absolute maximum ratings

Values

Parameter Symbol

Min. Typ. Max.

Power voltage Vcc

Input signal voltage VLH

Operating temperature Top

Storage temperature TST

CCFL Current ICFL

Note 1: The relative humidity must not exceed 90% non-condensing at temperatures of 40°C or less.

At temperatures greater than 40°C, the wet bulb temperature must not exceed 39°C.

Note 2: The unit should not be exposed to corrosive chemicals.

-0.3 -

0 -

-20 -

3.0 7.5 8.0

SPEC NO.

PAGE

6.0

4.3

50

60

[mA]rms

MT230DW01 V.0

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Unit Remark

V

°C Note 1

°C Note 2

At 25к

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3. Electrical characteristics a. Typical operating conditions

Item Symbol Min. Typ. Max. Unit Remark

Input Voltage

Permissive Power Input Ripple

Input Current

Rush Current

Logic Input

Voltage

LVDS:

IN+, IN-

Common Mode Voltage

Differential Input Voltage

Threshold Voltage (High)

Threshold Voltage (Low)

Black

White

Mosaic

SPEC NO.

PAGE

V

4.5 5 5.5

cc

V

- -

RF

400

MT230DW01 V.0

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V

mVp-p

Icc - 1000 -

Icc - 800 -

I

- 950 -

cc

I

- 1.6 3

Rush

VCM - 1.2 -

VID 100 - 100

VTH - - 600

VTL -100 - -

mA

A Note 4

V

mV

mV Note 5, 6

Note 1

Note 2

Note 3

Note 1: The specified current is under the Vcc =5V, 25 °C, fv=60Hz (frame frequency) condition

whereas black pattern is displayed.

Note 2: The specified current is under the Vcc =5V, 25 °C, fv=60Hz (frame frequency) condition

whereas white pattern is displayed.

Note 3: The specified current is under the Vcc =5V, 25 °C, fv=60Hz (frame frequency) condition

whereas mosaic pattern (black & white [8*6]) is displayed.

White: 255 Gray

Black: 0 Gray

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Note 4: Test condition:

(1). V

(2). Pattern: Mosaic pattern

= 5 V, VDD rising time = 470 μs ± 10%

DD

90%

(3) Test circuit

V

5 V

DD

R1 47K

Ton=470 Ӵs  10%

M1 2SK1059

SPEC NO.

PAGE

FUSE

MT230DW01 V.0

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VDD (LCD INPUT)

C1 1uF

CONTROL SIGNAL

(HIGH to LOW)

12V

Note 5: LVDS signal definition

VIN+ = Positive differential DATA & CLK Input

VIN- = Negative differential DATA & CLK Input

VID = VIN+ – VIN- ,

C3 1uF

R3

47K

R2

1K

M2 2SK1399

C2

10000pF

VCM =ΨVCM

VID =ΨVID

VID+ =ΨVIH

VID- =ΨVIL

VCM = (VIN

VCM+ = (VIH

VCM- = (VIL

–VCM-Ψ,

+

–VID-Ψ,

+

–VIH-Ψ,

+

–VIL-Ψ,

+

+VIN-)/2,

+

+VIH-)/2,

+

+VIL-)/2,

+

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Note 6: Power on sequence for LCD V

T1

Panel Power

Supply V

Interface

Signals

DC

90%

10%

90% 90%

T2

DD

Valid Interface Data

90%

SPEC NO.

PAGE

90%

T6

T5

10%

MT230DW01 V.0

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T7

10%

Backlight Power

Supply

T3 T4

Parameter Value Unit

Min Typ. Max ms

T1 0.1 - 10 ms

T2 0 30 50 ms

T3 200 250 - ms

T4 100 250 - ms

T5 0 20 50 ms

T6 0.1 - - ms

T7 1000 - - ms

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SPEC NO.

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b. Display color vs. input data signals

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

MSB LSB MSB LSB MSB LSB

R7 R6 R5 R4 R3 R2 R1 R0

Red Green Blue

Input color data

G7 G6 G5 G4 G3 G2 G1 G0

B7 B6 B5 B4 B3 B2 B1 B0

Basic colors

Black Red(255) Green(255) Blue(255) Cyan Magenta Yellow White

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

Red

Green

Red(000) dark Red(001) Red(002)

:

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

Green(000)dark Green(001) G

reen(002)

:

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

bright

0

:

1

0

:

0

:

0

1

0

:

0

1

0

:

0

1

0

:

1

0

1

0

:

1

0

1

0

1

0

:

1

0

0 0 0

:

0 0 0

:

1 1 1

0

:

0

1

0

1

0

:

0

1

0

1

0

1

0

:

0

:

0

:

0

:

0

Blue(000) dark Blue(001) Blue(002)

Blue

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

0

:

0

:

0

:

0

:

0

0 0 0

:

0 0 0

0

1

0

1

:

0

1

0

1

0

1

:

1

0

1

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SPEC NO.

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MT230DW01 V.0

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c. Input signal timing

Support Input Timing Table

Item Description Min. Typ. Max. Unit

period 11.43 13.89 16.7 nS

Clock Dclk

frequency 60 72 87.5 MHz

Vertical

Horizontal

T

V_TOTAL

T

H_TOTAL

T

V total line number 1090 1100 1160 T

Data duration 1080 1080 1080 T

V_DATA

TVB V-blank 10 20 80 T

frequency 50 60 75 Hz

f

V

H_TOTAL

H total pixel number 1000 1088 1120 DClk

Data duration 960 960 960 DClk

H_DATA

T

H-blank 40 128 160 DClk

HB

Note: Because this module is operated by DE mode only, Hsync and Vsync input signals should be set to

low Logic level or ground. Otherwise, this module would operate abnormally.

INPUT SIGNAL TIMING DIAGRAM

Tv

Tvd Tvb

DE

DCLK

Tc

Thb Thd

DE

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d. Display Position

D(1,1) D(2,1) … … D(960,1) … … D(1919,1) D(1920,1)

D(1,2) D(2,2) … … D(960,2) … … D(1919,2) D(1920,2)

. . .

D(1,540) D(2,540) … … D(960,540) … … D(1919,540) D(1920,540)

. . .

D(1,1079) D(2,1079) … … D(960,1079) … … D(1919,1079) D(1920,1979)

D(1,1080) D(2,1080) … … D(960,1080) … … D(1919,1080) D(1920,1080)

e. Backlight driving conditions

Parameter Symbol Min. Typ. Max. Unit Remark Remark

Lamp voltage VL 810(8mA) 900(7.5mA) 990(3mA) Vrms

Lamp operation current

SPEC NO.

. .

… …

IL 3.0 7.5 8.0 mArms Note 1

. . .

PAGE

… …

MT230DW01 V.0

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. . .

Lamp starting voltage VLstart

Frequency F 40 - 60 KHZ Note 5

Lamp lifetime 50,000 - - Hrs Note 6

- - 1500 T = 25°C Note 2,3,4,5

- - 1800

Vrms

T = 0°C Note 2,3,4,5

Note: 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 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.

Note 1: The degree of unbalance: less than 10%

The ratio of wave height: less than

10%2 r

Ip

Ip: high side peak

I-p

I-p: low side

peak

The degree of unbalance = |Ip-I-p| /Irms*100(%)

The ratio of wave height = Ip (or I-p)/Irms

Lamp should be completely turned on.

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Note 2: Test equipment: AS-114B

Note 3: The voltage shown above should be applied to the lamp for more than 1 second after startup. Otherwise, the lamp may not be turned on normally.

Note 4: Inverter should provide more than max. value, and then lamp could be completely turned on.

Note 5: Lamp frequency may produce interference with horizontal synchronous frequency and this may

cause line flow on the display. Therefore lamp frequency shall be detached from the horizontal synchronous frequency and its harmonics as far as possible in order to avoid interference.

Note 6: Life time (Hr) is defined as the time when brightness of a lamp unit itself becomes 50% or less

than its original value at the condition of Ta = 25±2°C and IL = 7.5mArms.

SPEC NO.

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MT230DW01 V.0

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Backlight connecter: 3500IHS-02L

Pin no. Symbol Function Remark

1 VIH Lamp high voltage input Cable color: Pink

2 VIL Lamp low voltage input Cable color: White

3 VIH Lamp high voltage input Cable color: Blue

4 VIL Lamp low voltage input Cable color: Black

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C. Optical specifications

Item Symbol Condition

Response time

Contrast ratio

Viewing angle

Tr

Tf

Tr+Tf

CR

Top

Bottom

Left

= 0

CR

ш

Њ10

Њ5

Њ10

Њ5

Њ10

Њ5

SPEC NO.

PAGE

Specification

Min. Typ. Max.

- 1.5 3

- 3.5 7

- 5 10

700 1000 -

70

75

70

75

80

85

80

85

89

-

MT230DW01 V.0

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Unit Remark

ms Note 2

Note 1,3

deg. Note 1,3,5

Њ10

CR

Right

Brightness (Center) YL

Wx 0.313

Wy 0.329

Rx 0.64

Ry 0.349

Color chromaticity(CIE)

White uniformity (9 points)

Cross talk Ct

Note: Ambient temperature = 25°C.

To be measured in dark room after backlight warm up 30 minutes.

Note 1: To be measured with a viewing cone of 2°by Topcon luminance meter BM-5A.

Gx 0.284

Gy 0.617

Bx 0.142

By

W

CR

= 0

Њ5

ш

75

80

200 250 -

-0.03

0.75 0.80 -

-ʳ -ʳ 2%

85

-

89

+0.03

0.067

ʳ

nit Note 1,4

Note 1

Note 1,6

Note 7

Note 2: Definition of response time:

The output signals of BM-7 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

interval is between the 10% and 90% of amplitudes. Refer to figure as below.

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)

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100%

S ig

90%

n a l( R

e la

t

iv e

v a lu

10%

e )

0%

Note 3: Definition of contrast ratio:

Contrast ratio is calculated by the following formula.

Contrast ratio (CR)=

"Black"

Tr

Brightness on the "white" state Brightness on the "black" state

SPEC NO.

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Tf

MT230DW01 V.0

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"White""White"

Note 4: Driving conditions for CCFL: I

Note 5: Definition of viewing angle

Note 6: Definition white uniformity:

Luminance are measured at the following nine points (P1~P9).

Ӭ

Minimum Brightness of nine points(P1~P9

=

Maximum Brightness of nine points (P1~P9)

= 7.5 mA, 50 KHz Frequency.

L

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Note 7:

SPEC NO.

1/2

1/6

PAGE

2/3 1/3

A

1/6

A’

127 gray level 127 gray level

B

1/2

MT230DW01 V.0

17/21

1/6

1/3

1/2

B’

2/3

l L

Note 10: Optical characteristic measurement setup.

l / LA x 100%= 2% max., LA and LA’ are brightness at location A and A’

A-LA’

l / LB x 100%= 2% max., LB and LB’ are brightness at location B and B’

B-LB’

0 gray level

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D. Reliability test items

Test Item Test Condition Judgment Remark

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High temperature storage

Low temperature storage

High temperature & high

humidity operation

High temperature operation

Low temperature operation

Thermal Shock

(non-operation)

Electrostatic discharge (ESD)

(non-operation)

Vibration

(non-operation)

60°C, 240Hrs

-20°C, 240Hrs

40°C, 90%RH, 240Hrs

(No condensation)

50°C, 240Hrs

0°C, 240Hrs

-20±C~60±C,

1hrs, 3mins, 1hrs, 100Cycles

Contact:+/-8kV, 150pF(330ohms),

25 times/1 point, 1 time/1 sec

Air discharge:+/-15kV, 150pF(330ohms),

25 times/1 point, 1 time/1 sec

Vibration level : 1.5G

Bandwidth : 10-300Hz

Note 1 Note 2

Mechanical Shock

(non-operation)

MTBF Demonstration 50,000 hours with confidence level 90% Note 1 Note 3

Waveform : sine wave,

sweep rate : 10min

30 min for each direction X, Y, Z

(1.5 Hrs in total)

Shock level : 50G, 11ms

Waveform : Half sine wave

Direction : ±X, ±Y, ±Z

One time each direction

Note 1 Note 2

Note1: Pass: Normal display image with no obvious non-uniformity and no line defect.

Partial transformation of the module parts should be ignored.

Fail: No display image, obvious non-uniformity, or line defects.

Note2: Evaluation should be tested after storage at room temperature for two hours.

Note 3: The MTBF calculation is based on the assumption that the failure rate distribution meets the

Exponential Model (CCFL excluded)

E. Safety

(1). Sharp Edge Requirements

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There will be no sharp edges or corners on the display assembly that could cause injury.

(2). Materials

a. Toxicity

There will be no carcinogenic materials used anywhere in the display module. If toxic materials are

used, they will be reviewed and approved by the responsible InnoLux Toxicologist.

b. Flammability

All components including electrical components that do not meet the flammability grade UL94-V1 in

the module will complete the flammability rating exception approval process. The printed circuit

board will be made from material rated 94-V1 or better. The actual UL flammability rating will be

printed on the printed circuit board.

c. Capacitors

If any polarized capacitors are used in the display assembly, provisions will be made to keep them

from being inserted backwards.

SPEC NO.

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MT230DW01 V.0

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F. Display quality

The display quality of the color TFT-LCD module should be in compliance with the

Innolux’s Incoming inspection standard.

G. Handling precaution

The Handling of the TFT-LCD should be in compliance with the Innolux’s handling principle standard.

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H. Label

(1). Module Label

18 mm

(a). Model Number: MT230DW01

(b). Version: V.0

MT230DW01 V.0 AM2300001 0xx

Z1 Z2 Z3 Z4 Z

Z1 'Z2'-Z3' Z4'Z 5'Z 6'Z7'-Z8' - Z9 '- Z10 '- Z11' Z12'-Z13'-Z14' Z15' -Z16 '-Z17 'Z18' Z19' -Z20'Z21'Z22 ' Z

--Z 7--Z8 Z9 Z10 Z

5 Z 6

73 mm

11 Z 12

SPEC NO.

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MT230DW01 V.0

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'

23

MADE IN XXX

(c). Serial ID I: Z

Z2 Z3 Z4 Z 5 Z

1

Z

6

7

Serial ID includes the information as below:

1. Manufactured Date: Year: 0~9, for 2000~2009

2. Month: 1~9 & A~C for Jan. ~ Dec.

3. Date: 1~9 & A~Z (exclude I, O, Q, U) for 1st~31th

4. Code of grade: 1, 2, 3, 5, E

Z8 Z

9 Z10

Z

12

11

Serial No

Code of grade

INL internal use

Year, Month, Date

INL internal use

5. Serial No: Module manufacture sequence no

(d). Serial ID II (INL internal use)

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(2) Carton Label

BOX ID :

60 mm

Model No. MT230DW01 V.0

AM2300001 0XX

Quantity : 5 PCS

MFG Date: 20XX/XX/XX

QC: Made in XXX

INNOLUX DISPLAY

Z1 Z2 Z3 Z4 --Z 5--Z6 Z7 Z8 Z 9

100 mm

SPEC NO.

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MT230DW01 V.0

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(a). Model Number: MT230DW01

(b). Version: V.0

(c). Packing quantity: 5 pcs

(d). Serial ID: Z

Z2 Z3 Z4 Z 5 Z6 Z

1

7 Z8

Z 9

Serial No

Code of grade

Year, Month, Date

Serial ID includes the information as below:

(a). Manufactured Date: Year: 0~9, for 2000 ~2009

Month: 1~9 & A~C for Jan. ~ Dec.

Date: 1~9 & A~Z (exclude I, O, Q, U) for 1st~31th

INL internal use

(b). Code of grade: 1, 2, 3, 5, E

(c). Serial No: Module packing sequence no.

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