CLAA170EA03

CLAA170EA03 is 17” color TFT-LCD (Thin Film Transistor Liquid Crystal Display) module composed of LCD panel, RSDS driver ICs, control circuit and backlight.

By applying 6 bit digital data, 1280 1024, 262K color(6Bit) images are displayed on the

17.0” diagonal screen. Input power voltage is 12.0V for LCD driving.

Inverter for backlight is not included in this module. General specification are summarized in the following table:

ITEM SPECIFICATION Display Area(mm) 337.920 (H)x270.336 (V) (17.0-inch diagonal)

Number of Pixels 1280(H)x1024(V)

Pixel Pitch(mm) 0.2(H)x0.2(V)

Color Pixel Arrangement RGB vertical stripe

Display Mode normally white, TN

Number of Colors 262144colors(6bit)

Brightness(cd/m^2) 300cd/m2(Typ.)(Center point,lamp current:7mA)

Viewing Angle 140/130(Typ.)

Wide Viewing Angle Technology Optical Compensation Film

Surface Treatment Anti-glare

Electrical Interface RSDS (2 pixel/clock)

Total Module Power(W) 20(Typ.)

Optimum Viewing Angle 6 o’clock

Module Size(mm) 358.5(W)x296.5(H)x17.0(D)

Module Weight(g) 1800(typ.)

Backlight Unit CCFL, 4 tables, edge-light(top*2/bottom*2)

The LCD Products listed on this document are not suitable for use of aerospace equipment, submarine cables, nuclear reactor control system and life support systems. If customers intend to use these LCD products for above application or not listed in

"Standard" as follows, please contact our sales people in advance.

Standard: Computer, Office equipment, Communication equipment, Test and Measurement equipment, Machine tool, Industrial robot, Audio and Visual equipment, Other

consumer products.

2. ABSOLUTE MAXIMUM RATINGS

MAX.

UNIT

MIN.

ITEM SYMBOL

Power Supply Voltage for LCD V C C-0.3 20.0 V

Logic Input Voltage V D D D-0.3 5.0 V

V ESD t-200 200 V

Static Electricity

V ESD c -8000 8000 V

ICC Rush Current I R U SH c - 3.0 A

IDD Rush Current I R U SH d - 0.75 A

Lamp Voltage V L 0 2500 V r m s

Lamp Current I L 0 10.0

m A r m s Lamp Frequency FL - 100 kH z Operation Temperature T op0 50 ¢J

Storage Temperature T stg-20 60 J VESDt ¡G Contact discharge to input connector

VESDc¡G Contact discharge to module

50£g sec , If Vcc rise time increase then I RUSH decrease.

Humidity¡G

Humidit85%RH without condensation.

Relative Humidity ¡95% (Ta¡ 40¢)

Wet Bulb Temperature ¡39¢(Ta¡40¢)

T op ¡B T stg Humidity40¢: Relative Humidity¡90¢M RH without condensation.

T op ¡B T stg Humidity40¢:40¢A Absolute Humidity¡90¢M RH without condensation.

3. ELECTRICAL CHARACTERISTICS (a)TFT-LCD

ITEM SYMBOL MIN TYP MAX UNIT Remark

Power Supply Voltage for Logic VDDD 3.0 3.3 3.6 V Power Supply Current for Logic IDDD -- 40 100 mA

Permissive Ripple Voltage for Logic VDRP -- -- 30 mVp-p

V=+3.3V Power Supply Voltage VCC 10.8 12.0 13.2 V Power Supply Current ICC -- 100 250 mA

Permissive Ripple Voltage VCRP - - 100 mVp-p V=+12.0V Differential impendence Zm 90 100 110 [

High VIH 2.5 3.3 3.6 V

Input Threshold Voltage

Low VIL 0 -- 0.8

V [Note 1]

Power sequence

0VCC T1 T2 T3 T4 T5 T6

VCC-dip conditions

1) W hen 8.V Vin(min)<10.8V td 10 ms 2) W hen VCC 8.V

VCC-dip conditions should also follow the VCC-turn-on conditions.

[Note 2] Typical current situation : -gray-bar pattern, 1280 line mode

VCC=12.0 V¡A f H = kHz¡A f V =60 Hz¡A f CLK =54 MHz

VDDD=3.3 V¡A f H = kHz¡A f V =60 Hz¡A f CLK =54 MHz

(b)Backlight

ITEM SYMBOL MIN TYP MAX UNIT REMARK

Lamp Voltage VL -- 710 -- V IL=7.0mA Lamp Current IL 5.0 7.0 8.0

mA Note1 Interter Frequency FL 45 50 70 kHz Note2 1350 - - V Tb=0¢J A Note3 Starting Lamp

Voltage VS

1080 - - V

Ta=25¢J A Note3 -- 50,000 -- hr

IL=6.0mA

Continuous Operation Lamp life Time LT

-- 40,000 -- hr

IL=7.0mA

Continuous Operation

[Note 1] Lamp Current measurement method ( The current meter is inserted in cold line)

A¡G The degrees of unbal a nce =W Ip – I-p¡W / Irms ×100 (%)

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

[Note 3]

Definition of the lamp life time

Luminance: L under 50% of specification

(C) RSDS CHARACTERISTICS

ITEM

SYMBOL

CONDICTION MIN TYP MAX UNIT

RSDS Input high voltage high level

VIHRSD

S

VCMRSDS=+1.2V 100 200 - mV RSDS Input high voltage low level VILRSDS VCMRSDS=+1.2V - -200 -100

mV

RSDS common mode Input voltage range

VCMRS DS VDIFF RSDS (2) = 200 mV (minimum value)

1.0 - 1.4

V RSDS leakage of input current IDL

DxxP,DxxN,CLKP,CL

KN

-10 - 10 uA

[Note]

1. VCM RSDS = (VCLKP + VCLKN) / 2 or VCMRSDS = (VDxxP + VDxxN) / 2

2. VDIFF RSDS = VCLKP - VCLKN or VDIFFRSDS = VDxxP – VDxxN

RSDS Standard V-p to Vp value is 400mV from-200mV to +200mV.

(a)CN1(Data Signal and Power Supply)

Used connector:IL-FHR-B30S-HF(JAE)

PIN NO. symbol Function

1 GND Ground

2 B2P_B RSDS Blue Data(+)( Back side)

3 B2N_B RSDS Blue Data(-)( Back side)

4 GND Ground

5 B1P_B RSDS Blue Data(+)( Back side)

6 B1N_B RSDS Blue Data(-)( Back side)

7 GND Ground

8 B0P_B RSDS Blue Data(+)( Back side)

9 B0N_B RSDS Blue Data(-)( Back side)

10 GND Ground

11 G2P_B RSDS Green Data (+)( Back side)

12 G2N_B RSDS Green Data (-)( Back side)

13 GND Ground

14 G1P_B RSDS Green Data (+)( Back side)

15 G1N_B RSDS Green Data (-)( Back side)

16 GND Ground

17 G0P_B RSDS Green Data (+)( Back side)

18 G0N_B RSDS Green Data (-)( Back side)

19 GND Ground

20 CLKP_B Source Driver IC RSDS CLK (+)( Back side)

21 CLKN_B Source Driver IC RSDS CLK (-)( Back side)

22 GND Ground

23 R2P_B RSDS Red Data (+)( Back side)

24 R2N_B RSDS Red Data (-)( Back side)

25 GND Ground

26 R1P_B RSDS Red Data (+)( Back side)

27 R1N_B RSDS Red Data (-)( Back side)

28 GND Ground

29 R0P_B RSDS Red Data (+)( Back side)

30 R0N_B RSDS Red Data (-)( Back side)

(b)CN2 Used connector: IL-FHR-B50S-HF(JAE)

Pin NO. symbol Function

Ground

1 GND

RSDS Blue Data(+)( Front side)

2 B2P_F

RSDS Blue Data(-)( Front side)

3 B2N_F

Ground

4 GND

RSDS Blue Data(+)( Front side)

5 B1P_F

RSDS Blue Data(-)( Front side)

6 B1N_F

Ground

7 GND

RSDS Blue Data(+)( Front side)

8 B0P_F

RSDS Blue Data(-)( Front side)

9 B0N_F

Ground

10 GND

11 G2P_F

RSDS Green Data (+)( Front side)

12 G2N_F

RSDS Green Data (-)( Front side)

Ground

13 GND

14 G1P_F

RSDS Green Data (+)( Front side)

15 G1N_F

RSDS Green Data (-)( Front side)

Ground

16 GND

17 G0P_F

RSDS Green Data (+)( Front side)

18 G0N_F

RSDS Green Data (-)( Front side)

Ground

19 GND

Source Driver IC RSDS CLK (+)( Front side)

20 CLKP_F

CPT\n21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 CLKN_F GND R2P_F R2N_F GND R1P_F R1N_F GND R0P_F R0N_F GND STH_F LP POL STH_B GND CLKV STV OE VCOM(test) GND 3.3V 3.3V 12V GND 12V 12V 12V NC NC\n\nCHUNGHWA PICTURES TUBES, LTD.,\nSource Driver IC RSDS CLK (-)( Front side) Ground RSDS Red Data (+)( Front side) RSDS Red Data (-)( Front side) Ground RSDS Red Data (+)( Front side) RSDS Red Data (-)( Front side) Ground RSDS Red Data (+)( Front side) RSDS Red Data (-)( Front side) Ground Source Driver IC Start pulse( Front side) Source Driver IC Latch Pulse Source Driver M signal Source Driver IC Start pulse( Back side) Ground Gate Driver IC Start pulse Gate Driver IC Output Enable N.C. Ground Power Supply Voltage for Logic Power Supply Voltage for Logic LCD Power Supply Ground LCD Power Supply LCD Power Supply LCD Power Supply NC NC\n\n(C)CN3,4(BACKLIGHT) Backlight-side connector: BHR-04VS-1(JST) Inverter-side connector: SM04(4.0)B-BHS-1-TB(JST)\nPin No.\n1 2 3 4\n\nSymbol\nCTH1 CTH2 CTL1\n\nFunction\nVBLH1(HIGH VOLTAGE) VBLH2(HIGH VOLTAGE) VBLL(LOW VOLTAGE)\n\n[Note] VBLH-VBLL = VL\n\nCPT Confidential\n\n6/18\n\nCLAA170EA03- -2003/03/11\n\n\r\n

CPT\n\nCHUNGHWA PICTURES TUBES, LTD.,\n\n5. INTERFACE TIMING\n(a) Timing Specifications\nItem\nLCD Timing Frequenc DCLK\n\nSymbol\nfCLK tCLK\n\nMin\n41.6 14.8\n\nTyp\n54 18.5\n\nMax\n67.5 24\n\nUnit\nMHz ns\n\nperiod\n\nHorizontal signal: Item CLK pulse width CLK pulse width CLK pulse width DATA set-up time DATA hold time STH set-up time STH hold time STH pulse width LP pulse width (H)\nLP to STH setup time\n\nSymbol Tw Twh Twl Tst1 Thd1 Tst2 Thd2 Twsth Twlp\nTlp-sth\n\nLast data time CLK-LP time LP-POL time POL-LP time\n\nTldt Tclk-lp Tlp-pol Tpol-lp\n\nMin 14 6 6 4 0.2 4 4 1 (48) 5 1 4 (0) (7)\n\nTyp 18.5 1 -\n\nMax 24 2 (53)\n-\n\n-\n\n(784) (30)\n\nUnit ns ns ns ns ns ns ns CLKP period CLKP period CLKP period CLKP period ns CLKP period CLKP period\n\nVertical sigal: Item STV set-up time STV hold time CLKV period CLKV High width CLKV Low width OE pulse width\nOE-CLKV time LP rise-CLKV rise time\n\nSymbol tst(STV) thd(STV) tw(CLKV) twH(CLKV) twL(CLKV)\nTw(OE) tOE-CLKV tLP-CLKV\n\nMIN\n\nTYP\n\nMAX\n\nUnit\nµs µs µs µs µs µs µs ns\n\n1 1 8 3.5 3.5\n2.4 1.5 0\n\n2.9 2 0\n\n3.4 3 0\n\nCPT Confidential\n\n7/18\n\nCLAA170EA03- -2003/03/11\n\n\r\n

CPT (b) Timing Chart a. Horizontal Timing Chart Timing Diagram 1\nCLKP_F-CLKN_F (RSDS)\n\nCHUNGHWA PICTURES TUBES, LTD.,\n\nCLKP_B-CLKN_B (RSDS)\n\nSTH_F\n\n50%\n\n50%\n\n10%\n\nTWSTH_F\n\nTLDT\n50% 10%\n\nSTH_B\n\n50%\n\nTLP-STH_F DxxP_F-DxxN_F (RSDS)\n\nInvalid\nEVEN ODD EVEN ODD EVEN ODD EVEN ODD EVEN ODD\n\nInvalid\n\n1st Data\n\n2nd Data\n\nLast Data\n\nDxxP_B-DxxN_B (RSDS)\n\nInvalid\nEVEN ODD EVEN ODD EVEN ODD EVEN ODD EVEN ODD\n\nInvalid\nTLP-CLKP\n1st Data 2nd Data Last Data\n90% 10%\n\nTWLP\n90% 10%\n\nLP\n\nTPOL-LP\n\nTLP-POL\n90% 10%\n\nPOL\n\nInvalid\n\n90% 10%\n\nInvalid\n\n£}\n\ndd _F\n\nCLKP_CLKN_B (RSDS) _F STH_B\n\n_F DxxP-DxxN_B (RSDS)\n\nCPT Confidential\n\n8/18\n\nCLAA170EA03- -2003/03/11\n\n\r\n

CPT b. Vertical Timing Chart Vertical Signal 1\n\nCHUNGHWA PICTURES TUBES, LTD.,\n\ntw(CLKV)\n\nCLKV\ntwL(CLKV) twH(CLKV)\n\nSTV\n\ntst(S TV)\n\nthd(STV)\n\ntw(OE )\n\nOE\n\nLP\n\ntOE-CLKV tLP-CLKV\n\n[Note]¡GSTV¡BCLKV output signal speci i ons evel is VOL(MAX)=80%¡BV OH(MIN)=20%. ficat l\n\nc. Color Data Assignment CPT Confidential\n9/18\n\nCLAA170EA03- -2003/03/11\n\n\r\n

CPT\n\nCHUNGHWA PICTURES TUBES, LTD.,\n\nCOLOR\n\nINPUT DATA R5 R4 MSB 0 0 1 1 0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0\n\nR DATA R3 R2 0 1 0 0 0 1 1 1 0 0 0 0 1 0 0 0 1 1 1 0 0 0\n\nR1 0 1 0 0 0 1 1 1 0 0 1\n\nBASIC COLOR\n\nBLACK RED(63) GREEN(63) BLUE(63) CYAN MAGENTA YELLOW WHITE RED(0) RED(1) RED(2)\n\nG DATA R0 G5 G4 G3 G2 G1 G0 B5 LSB MSB LSB MSB 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0\n\nB4 0 0 0 1 1 1 0 1 0 0 0\n\nB DATA B3 B2 0 0 0 1 1 1 0 1 0 0 0 0 0 0 1 1 1 0 1 0 0 0\n\nB1 0 0 0 1 1 1 0 1 0 0 0\n\nB0 LSB 0 0 0 1 1 1 0 1 0 0 0\n\nRED RED(62) RED(63) GREEN(0) GREEN(1) GREEN(2) GREEN GREEN(62) GREEN(63) BLUE(0) BLUE(1) BLUE(2) BLUE BLUE(62) BLUE(63) 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 0 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 0 0 0 1 1 0 0 0 1 1 0 0 0 1 1 0 0 0 1 1 0 0 0 0 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 1 0 0 0 1 0 1 1 0 0 0 1 1 0 0 0 1 1 0 0 0 1 1 0 0 0 1 1 0 0 0 0 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 1 0 0 0 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\n\n[Note] (1)Definition of gray scale: Color(n) : n indicates gray scale level. Higher n means brighter level. (2) Data:1-High,0-Low. (d)Color Data Assignment\nD(1,1) D(1,2) .. D(1,Y) .. D(1,1023) D(1,1024) D(2,1) D(2,2) .. D(2,Y) .. D(2,1023) D(2,1024) .. .. + .. + .. .. D(X,1) D(X,2) .. D(X,Y) .. D(X,1023) D(X,1024) .. .. + .. + .. .. D(1279,1) D(1279,2) .. D(1279,Y) .. D(1279,1023) D(1279,1024) D(1280,1) D(1280,2) .. D(1280,Y) .. D(1280,1023) D(1280,1024)\n\nCPT Confidential\n\n10/18\n\nCLAA170EA03- -2003/03/11\n\n\r\n

CPT\n\nCHUNGHWA PICTURES TUBES, LTD.,\n\n6. BLOCK DIAGRAM\nTFT-LCD Module\nCN1 Backlight Back RSDS Signals Voltag e Suppl for y Gray Level And Vcom CN3\n\nSource Board\n\nFrontRSDS Si s gnal Gate Board\n\nSXGA 1280*1024 TFT Panel\n\nCont ol Signal r s\n\n+12V DC Input\n\nDC-DC Convert er Backlight CN4\n\nBACK LIGHT CCFL CN3,4 1 2 4\n\nINVERTER CIRCUIT (OUT SIDE) CN3,4 1 2 4 DC-AC Inverter\nLIGHT CONTROL\n\nCPT Confidential\n\n11/18\n\nCLAA170EA03- -2003/03/11\n\n\r\n

7. MECHANICAL SPECIFICATION

(a) Front side

Tolerance is 0.5mm unless noted(b) Rear side

8.OPTICAL CHARACTERISTICS

Ta = 25°C , Vcc=12.0V

ITEM SYMBO

L CONDITION MIN. TYP. MAX. UNIT

Contrast Ratio

CR θ

θ

Normal

L θ

Uniformit ∆ θ %

Normal

L θ Luminance 9 point

Uniformit ∆ θ %

θ

Response Time

Tf θ Image Sticking

Ti s 2hour -- -- 2 sec Horizontal r -75~75 -85~85 -- °

Vertical θ

° Horizontal r -60~60 -70~70 -- °

Viewing

Angle Vertical θ

° White Wx

Wy 0.283 0.299 0.313 0.329 0.343 0.359 Red Rx Ry 0.607 0.314 0.637 0.344 0.667 0.374 Green Gx Gy 0.280 0.552 0.310 0.582 0.340 0.612 Color Coordinates

Blue

Bx By

θ

[Note] These items are measured using CS-1000 (MINOLUTA) OR BM-5A(TOPCON)under the dark

room condition( no ambient light) after more than 30 minutes from turning on the lamp unless noted.

Condition: IL=7.0*4(lamp)mA, Inverter Frequency=50kHz. Definition of these measurement items are as follows:

(1)Definition of Contrast Ratio G CR=ON(White)Luminance/OFF(Black)Luminance (2) D efinition of Luminance and Luminance uniformity

Measure White Luminance on the below center(5)A 5 point(5,10,11,12,13) and 9 point(1~9).

Uniformity G 5 point G ∆

∆

Left(-) Right(+)

(4)Definition of Response Time

(5) I mage sticking:

Continuously display the test pattern shown in the figure below for two-hours. Then display a completely white screen. The previous image shall not persist more than two seconds at 25J.Cols 638-2

Rows 510-514

TEST PATTERN FOR IMAGE STICKING TEST (1) T emperature and Humidity

TEST ITEMS CONDITIONS

HIGH TEMPERATURE

HIGH HUMIDITY OPERATION 40¢; 95%RH; 240h (No condensation)

HIGH TEMPERATURE HIGH HUMIDITY STORAGE 60¢; 90%RH;48h (No condensation)

HIGH TEMPERATURE OPERATION 50¢; 240h

LOW TEMPERATURE STORAGE -20¢; 240h

THERMAL SHOCK BETWEEN -20¢(1hr)AND 60¢(1hr); 100 CYCLES HIGH TEMPERATURE STORAGE 60¢; 240h

LOW TEMPERATURE OPERATION 0¢; 240h

(2)Shock & Vibration

ITEMS CONDITIONS

SHOCK

(NON-OPERATION) Shock level:1470m/s^2(150G)

Waveform: half sinusoidal wave, 2ms

Number of shocks: one shock input in each direction of three mutually perpendicular axes for a total of six shock inputs

VIBRATION (NON-OPERATION) Vibration level: 9.8m/s^2(1.0G) zero to peak

Waveform: sinusoidal

Frequency range: 5 to 500 Hz

Frequency sweep rate: 0.5 octave/min

Duration: one sweep from 5 to 500Hz in each of three mutually perpendicular axis(each x,y,z axis: 1 hour, total 3 hours)

(3)Judgment standard

The judgment of the above test should be made as follow:

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.10. HANDLING PRECAUTIONS FOR TFT-LCD MODULE

Please pay attention to the followings in handling- TFT-LCD products;

1 ASSEMBLY PRECAUTION

(1) Please use the mounting hole on the module side in installing and do not beading or

wrenching LCD in assembling. And please do not drop, bend or twist LCD module in handling.

(2) Please design display housing in accordance with the following guide lines.

(2.1) Housing case must be destined carefully so as not to put stresses on LCD all sides

and not to wrench module. The stresses may cause non-uniformity even if there is

no non-uniformity statically.

(2.2) Keep sufficient clearance between LCD module back surface and housing when

the LCD module is mounted. Approximately 1.0 mm of the clearance in the design

is recommended taking into account the tolerance of LCD module thickness and

mounting structure height on the housing.

(2.3) When some parts, such as, FPC cable and ferrite plate, are installed underneath

the LCD module, still sufficient clearance is required, such as 0.5mm. This

clearance is, especially, to be reconsidered when the additional parts are

implemented for EMI countermeasure.

(2.4) Design the inverter location and connector position carefully so as not to give

stress to lamp cable, or not to interface the LCD module by the lamp cable.

(2.5) Keep sufficient clearance between LCD module and the others parts, such as

inverter and speaker so as not to interface the LCD module. Approximately 1.0mm

of the clearance in the design is recommended.

(3) Please do not push or scratch LCD panel surface with any-thing hard. And do not soil

LCD panel surface by touching with bare hands. ( Polarizer film, surface of LCD panel is easy to be flawed.)

(4) Please do not press any parts on the rear side such as source TCP, gate TCP, control

circuit board and FPCs during handling LCD module. If pressing rear part is unavoidable, handle the LCD module with care not to damage them.

(5) Please wipe out LCD panel surface with absorbent cotton or soft cloth in case of it being

soiled.

(6) Please wipe out drops of adhesives like saliva and water on LCD panel surface

immediately. They might damage to cause panel surface variation and color change.

(7) Please do not take a LCD module to pieces and reconstruct it. Resolving and

reconstructing modules may cause them not to work well.

(8) Please do not touch metal frames with bare hands and soiled gloves. A color change of

the metal frames can happen during a long preservation of soiled LCD modules.

(9) Please pay attention to handling lead wire of backlight so that it is not tugged in

connecting with inverter.

2 OPERATING PRECAUTIONS

(1) Please be sure to turn off the power supply before connecting and disconnecting signal

input cable.

(2) Please do not change variable resistance settings in LCD module. They are adjusted to

the most suitable value. If they are changed, it might happen LCD does not satisfy the

characteristics specification.

(3) Please consider that LCD backlight takes longer time to become stable of radiation

characteristics in low temperature than in room temperature.

(4) A condensation might happen on the surface and inside of LCD module in case of

sudden change of ambient temperature.

(5) Please pay attention to displaying the same pattern for very long time. Image might

CPT CHUNGHWA PICTURES TUBES, LTD., stick on LCD. If then, time going on can make LCD work well.

(6) Please obey the same caution descriptions as ones that need to pay attention to

ordinary electronic parts.

3 PRECAUTIONS WITH ELECTROSTATICS

(1) This LCD module use CMOS-IC on circuit board and TFT-LCD panel, and so it is easy

to be affected by electrostatics. Please be careful with electrostatics by the way of your body connecting to the ground and so on.

(2) Please remove protection film very slowly on the surface of LCD module to prevent from

electrostatics occurrence.

4 STORAGE PRECAUTIONS

(1) When you store LCDs for a long time, it is recommended to keep the temperature

between 0J ~40J without the exposure of sunlight and to keep the humidity less than

90%RH.

(2) Please do not leave the LCDs in the environment of high humidity and high temperature

such as 60J 90%RH.

(3) Please do not leave the LCDs in the environment of low temperature; below -20J.

5 SAFETY PRECAUTIONS

(1) When you waste LCDs, it is recommended to crush damaged or unnecessary LCDs into

pieces and wash them off with solvents such as acetone and ethanol, which should

later be burned.

(2) If any liquid leaks out of a damaged-glass cell and comes in contact with the hands,

wash off throughly with soap and water.

6 OTHERS

(1) A strong incident light into LCD panel might cause display characteristics' changing

inferior because of polarizer film, color filter, and other materials becoming inferior.

Please do not expose LCD module direct sunlight Land strong UV rays.

(2) Please pay attention to a panel side of LCD module not to contact with other materials

in preserving it alone.

(3) For the packaging box, please pay attention to the followings:

(3.1) Packaging box and inner case for LCD are designed to protect the LCDs from the

damage or scratching during transportation. Please do not open except picking

LCDs up from the box.

(3.2) Please do not pile them up more than 3 boxes. (They are not designed so.) And

please do not turn over.

(3.3) Please handle packaging box with care not to give them sudden shock and

vibrations. And also please do not throw them up.

(3.4) Packing box and inner case for LCDs are made of cardboard. So please pay

attention not to get them wet. (Such like keeping them in high humidity or wet place

can occur getting them wet.)

CPT Confidential 18/18CLAA170EA03- -2003/03/11