LTA065A041F [TOSHIBA]

17cm（6.5 inch） color TFT-LCD module; 17厘米（ 6.5英寸）彩色TFT- LCD模块


型号：	LTA065A041F
厂家：	TOSHIBA
描述：	17cm（6.5 inch） color TFT-LCD module 17厘米（ 6.5英寸）彩色TFT- LCD模块 CD
文件：	总18页 (文件大小：162K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Toshiba Matsushita Display Technology Co..Ltd

17cm（6.5 inch） color TFT-LCD module

PRODUCT INFORMATION

LTA065A041F

(a-Si TFT)

【feature】

Under development

(1) a-Si TFT-LCD, USE：FA, AMS

(2) 640(W) x 3(RGB) x 480(H) vertical stripes, Highly minute

(3) “Transmitting type”, Low reflection treatment, High brightness, High contrast, Ultra wide view angle

(4) Digital 6 bit RGB input interface

(5) COG（Chip On Glass） composition

(6) LCD drive circuit is built in, but inverter for backlight is not built in.

【Mechanical Specification】

CHARACTERISTIC ITEM

Module outer dimension (TYP.) note1

Number of dots

SPECIFICATION

151.0 (W) x 115.5 (H) x 10.0 (D) mm

640 (W) x 3 (RGB) x 480 (H)

RGB vertical stripes

Color-filter-array

Pitch of dots

0.0685 (W) x 0.2055 (H)

131.52 (W) x 98.64 (H) mm

Effective display area

Gray scales

Front surface treatment

Backlight

AG coat (with WV film)

CCFL with 3 wave-length spectrum ( L-type )

4 W

Consumption power

Weight (TYP.)

205 g

note１…The lug (FPC, lump harness and connector) is not included.

【Environmental Conditions Specification】

ITEM CONDITION SPECIFICATION REMARK

Operating Temp.

Storage Temp.

Panel surface

-10 ～ 60℃

-20 ～ 70℃

note1

note１…This value guarantees only operation, but doesn't guarantee all the contents of Electro-optical

specification.

Electro-optical specification can be guaranteed at the condition that ambient temperature is 25℃.

【Electro-optical Specification (Ta=25°C)】

SYMB

CONDITION STAVNADLAURED

θ φ CMINT. YP. MAX.

CHARACTERISTICS

0°(1)Brightness B

UNIT

REMARK

note1

0°

(2)Contrast Ratio

Cmax

Best Angle

100

0.350

0.360

0.7

250

X 0°0°

Y 0°0°

0°

0.270

0.280

0°

0.310

0.320

(3)White color chromaticity

(4)Brightness uniformity

(5)Vertical viewing Angle

θU - 0° ≧10

θD - 0° ≧10

ΦL 0° -≧10

ΦR 0° -≧10

40 60

20 30

45 60

note2

(6)Horizontal Viewing Angle

(7)Response Time

τr 0° 0°

τd 0° 0°

10 20 ms

15 30 ms

note1…Fluorescent lamp current is 6.5mA.

note2…The reversal direction is 12 o’clock.

*The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by

Toshiba Matsushita Display Technology Co.,Ltd. or other rights of the third parties which may result from its use. No licenseis granted

by implication or otherwise under any patent or patent rightsof Toshiba Matsushita Display Technology Co.,Ltd. or others.

*The information contained herein may be changed without prior notice. It is therefore advisable to contact Toshiba Matsushita Display

Technology Co.,Ltd. before proceeding with the design of equipment incorporating this product.

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

(1/18)

January 14, 2004 (Ver.0.2)

LTA065A041F

【Interface】

Signal interface (CN1)

UseConnector：IL-FHR-B40S-HF （0.5 ㎜ pitch 40pin Solderplating

processing）（JAE）

Comment

Pin № SYMBOL

FUNCTION

+3.3V Power Supply

VDD

+3.3V Power Supply

5 GSNroiDgunnadl

GSX1

Display period compensation signal

Non-display period compensation signal

Data Enable Signal

It opens, when performing the usual operation.

7 GSNroiDgunnadl

DOFF1

9 GSNroiDgunnadl

11 GGNSrDiogunnadl

12 VSSeyrntcic. al

13 GGNSrDiogunnadl

14 HHSoSriyznocn.tal

15 GGNSrDiogunnadl

D16atBa5lue

D17atBa4lue

D18atBa3lue

Blue picture display data

D19atBa2lue

D20atBa1lue

D21atBa0lue

22 GGNSrDiogunnadl

23DGat5raeen

24DGat4raeen

25DGat3raeen

26DGat2raeen

27DGat1raeen

28DGat0raeen

Green picture display data

GND

SignalGround

D3a0taR5ed

D3a1taR4ed

D3a2taR3ed

D3a3taR2ed

D3a4taR1ed

D3a5taR0ed

36 GGNSrDiogunnadl

37 GGNSrDiogunnadl

Red picture display data

Pick up each signal at negative edge

MIN.MAXU.NIRTEMARKS

CLK

Dot Clock

39 GGNSrDiogunnadl

40 GGNSrDiogunnadl

【Absolute Maximum Ratings】

CHARACTERISTICS SYMBOL CONDITION

Logic voltage

Suvpopltlayge

Ta=25℃

-0.3

4.5

VDD Ta=25℃ -0.3VDD+0.3

Back light input voltage

Storage temperature

( at panel surface )

Storage Humidity

3000

Vrms

Tstg - -270℃0

H(RstHg)- %1090

( at panel surface )

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

(2/18)

January14,2004(Ver.0.2)

LTA065A041F

【Electrical Specification】

CHARACTERISTICS SYMBOL

MIN.

TYP. MAXU. NITREMARKS

input voltage

Current

VDD

+3.15

+3.30

+3.45

Power

Voltage

IDD － 240 35m0A1rmsnote

consumption

Input low voltage

VIL

VIH

0.0

0.7＊VDD

－

0.3＊VDD

VDD

Input high voltage

Allowable Ripple voltage

VRP

100

mVp-p

note１…Effective value (mArms) at VDD=3.3V

Typical value under 8-color-bar displaying condition.

Please consult, when there is inrush current exceeding 500mA at the time of a power supply injection.

● Sequence for Power-on/off and signal on/off

OFF

0≦T1＜30ms

0≦T2＜30ms

100ms≦T3

200ms≦T4

T5≦30ms

Power

Input signal

note…The time regulations from T1 to T5 are defined as a changing point 10% of the amplitude of “Input signal“ and

“Power”, and 90%.

● In case handling

Make sure to turn off the power when you plug the cable to the input connector and pull the cable out from the connector.

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

(3/18)

January14,2004(Ver.0.2)

LTA065A041F

【Electrical Specification（continuation）】

●Timing characteristics of input signals

PAL Drive

note1

Characteristics

frequen2c5y.1F7－c5k

SYMBOL MIN. TYP. MAX.

UNIT REMARKS

－

25.175 MHz

39.72 us

MIN : 12

MIN: 5

MIN : 10

MIN: 5

MIN : 10

MIN: 5

MIN : 10

800

CLK

Clock

39.7P2eri－od Clk

High Time

Low Time

Tch

Tcl

－

clk

Setup Time

Hold Time

Setup Time

Hold Time

Setup Time

Hold Time

Period

Tds

Tdh

Tes

Teh

Ths

Thh

DATA

Data

Data Enable

－

832

700 800

4 96

- 13

7 51

516 525

16.2 16.7

1 2

Horizontal

Sync.

Pulse Width

Front Porch

Back Porch

Thp

Thf

Thb

534

17.6

625

Period

19.875

Vertical

Sync.

Pulse Width

Front Porch

Back Porch

Tvp

Tvf

- 11

4 32

Thb

GSX1

Display period

Start Position

Pulse Width

Thgs

Thgsw

Thdo

－

738

990

800

clk

note 2

correction

signal

DOFF1

Non-display

Start Position

period correction

signal

Pulse Width

Thdow

The timing of a clock signal is difined by the connector input terminal part.

note 1…PAL drive does not guarantee about the timing which does not follow above.

A flicker and quality of image may deteriorate a little by PAL drive. Please include in your set and check enough.

note 2…The start position of each correction signal is difine as the re gulation from falling of DE signal before 1Hs of DE

signal removed.

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

(4/18)

January14,2004(Ver.0.2)

LTA065A041F

【Electrical Specification（continuation）】

● Timingdiagram

4 8 0p i x el s

note…DE Signal is defined as above timing concerning to the sync. signal of Vs and Hs. This LCD module is designed to be

synchronized only by DE signal even when Vs and Hs are inputted.

Therefore, make DE signal be low level by all means for the blanking period that effective data aren't inputted

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

(5/18)

January14,2004(Ver.0.2)

LTA065A041F

【Electrical Specification（continuation）】

● Timingdiagram （PALdrive）

note…DE Signal is defined as above timing concerning to the sync. signal of Vs and Hs. This LCD module is designed to be

synchronized only by DE signal even when Vs and Hs are inputted.

Therefore, make DE signal be low level by all means for the blanking period that effective data aren't inputted

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

(6/18)

January14,2004(Ver.0.2)

LTA065A041F

【Electrical Specification（continuation）】

● Input signal and display color, gray scale

Date Signal（０：Low level １：High level）

Display

Ｒ５Ｒ４Ｒ３Ｒ２Ｒ１Ｒ０Ｇ５Ｇ４Ｇ３Ｇ２Ｇ１Ｇ０Ｂ５Ｂ４Ｂ３Ｂ２Ｂ１Ｂ０

Black

Blue

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

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

１

０

１

０

１

０

１

０

１

０

１

Red

Basic

color

Purple

Green

Light blue

Yellow

White

Black

Dark

↑

０

：

０

１

０

１

０

：

０

：

０

Gray scale

of red

：

↓

Bright

Red

１

０

１

０

１

０

Black

Dark

↑

０

：

０

：

０

１

０

１

０

：

０

Gray scale

of green

：

↓

Bright

Green

０

１

０

１

０

１

０

Black

Dark

↑

０

：

０

：

０

：

０

１

０

１

０

Gray scale

of blue

：

↓

０

１

０

１

０

１

Bright

Blue

note...This LCD module can display 262,144 colors because the ea ch of R,G,B signals has 6bits' information which represents

64 step brightness levels.

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

(7/18)

January14,2004(Ver.0.2)

LTA065A041F

【Electrical Specification（continuation）】

● Blockdiagram

LCD Module

Offset circuit

Backlight unit

CN2

(3P)

CN1

Inverter

●Data signal

R・G・B

(40P)

Gate

Timing

ＬＣＤ

driver

controller

●Control signal

640×480 pixels

CLK

Source Driver

(digital)

●Power supply

+3.3V

DC/DC

GND

Converter

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

(8/18)

January14,2004(Ver.0.2)

LTA065A041F

【Backlight】

CHARACTERISTICS SYMBOL

MIN TYPMAUXNRITEMARKS

curreLnatmp

IL4.0 6.5 m7.0Arms

Lamp voltage

－

480

3.12

－

Vrms

Ｗｒｍｓ

kHz

Lamp power consumption

Possible lighting frequency

Starting voltage

－

1700

Vrms

Ta=-10℃

at IL=6mA

30000 －

50000 －

－

IL=7mAat

Life time

－

Hour

Attention)

*1 Panel surface temperature should be kept less than contents of "Absolute Maximum Ratings".

*2 Inverter should be designed to be subject to the conditions below:

(1) Both the area and the peak under the positive and negative c

voltage should be symmetric.

ycles of the waveform of the lamp current and lamp

(The symmetric ratio should be larger than 90%)

(2) There should not be any spikes in the waveform.

(3) The waveform should be close to a sine wave whenever possible.

(4) Lamp current should not exceed the "MAX" value under the "Op erating Temperature"(It is prohibited to exceed the

"MAX" value even if it is operated in the non-guaranteed temperature). When lamp current exceed the maximum value

for a longtime, it may cause a smoking and ignition. Therefore, it is recommended that the inverter have the current

limited circuit that is used as a protection circuit and/or the lamp current-controlled inverter.

(5) Please check the lamp current not to exceed the "MAX" value in the inverter open/short test.

(6) The "MIN" of "Lamp current " is the necessary value which mu st not be applied to the product for an stable working

condition.

Please pay attention to keep the "MIN" of "Lamp current" for a light dimmer.

*3 The lamp frequency should be selected as different as possib

le from display horizontal synchronous signal (Including

harmonic frequency of this scanning frequency) to avoid "Beat "i nterference which may be observed on the screen as

horizontal stripes like moving wave.

This phenomenon is caused by interference between lamp (CCFL) li ghting frequency and LCD horizontal synchronous

signal.

*4 "Life time" is defined as a lamp maker's warranty value which applied to CCFL only.

"Life time" is defined as the lamp brightness decrease to 50% original brightness at IL=MAX; continuous lighting, Ta=25℃.

*5 Values of "Lamp Voltage", "Lamp power consumption" and "Starting voltage" are defined on condition of the LCD module

derived by Toshiba Matsushita Display Technology Co.,Ltd. standard inverter (Harison HIU-742A; 16.5pF).

The "MAX" of "Starting voltage "means the minimum voltage to light normally in the LCD module.

However this isn't the values that we can assure stability of st arting lamp on condition that the module is installed in your

set.

It is careful that "Starting voltage" is changed by an increase of stray capacitance in your set, inverter method, value of

ballast capacitor in your inverter and so on.

Especially, the value of "Starting voltage" is higher in low tem perature condition than in normal temperature condition,

because impedance of CCFL is increased.

So, please check your set in low temperature condition.

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

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January14,2004(Ver.0.2)

LTA065A041F

metallic frame and the GND lead wire, so as to ensure the

*6 Please do not bring the high voltage wire into contact with

safety and decrease the difference of brightness.

*7 Inverter output voltage should be stopped automatically and simultaneously when open-circuit or short-circuit happened

between the inverter output and CCFL. (Please design the inverte r which has shutdown function in case of no load for

inverter output.) Continuous voltage output from the inverter un der the open or short circuit may cause excessive leak

current and overheat.

However inverter output voltage is required to remain for on-con dition at least 3 seconds, because CCFL needs 1 or 2

seconds as start-up time.

*8 "Starting Voltage" and "Lamp voltage" are defined as follows.

(1)Starting voltage

(2)Lamp voltage

*Use inverter : HIU-742A; 16.5pF

transformer

VS VL

no load

load (LCD Module)

Lamp connector ( CN2 )

Use Connector : BHR－03VS－1（JST）

Pin No.

１

SYMBOL

FUNCTION

CCFL Power supply (High Voltage)

REMARKS

cable color : Red

２ NC

３

CCFL power supply (Ground)

cable color : White

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

(10/18)

January14,2004(Ver.0.2)

LTA065A041F

【Device outside View （Reference）】

１０±０．３（Ｎｏｔｅ２）

Ｒｅｓｉｎｏｕｓｈｏｕｓｉｎｇ

Ｄｅｐｔｈｏｆｈｏｌｅ

ＭＩＮ０．３

(3.5)

４－φ１．６±０．０５

Ｄｅｐｔｈ３±０．３

４－Ｒ０．３

Ｓｑｕａｒｅｈｏｌｅｓ

（９．７Ｗｉｄｔｈｏｆ

Ｍｅｔａｌｆｒａｍｅ）

（２－φ４Ｈｏｌｅｓｆｏｒｉｎｊｅｃｔｉｎｇｒｅｓｉｎ）

3.6±0.2

12.8±0.2

ｆｏｒｉｎｓｔａｌｌｉｎｇ

（８ｈｏｌｅｓ）

(0.3)

121.8±0.2

φ５±０．３Ｈｏｌｅ（Ｂｏｒｉｎｇｔｏｒｅｆｒｅｃｔｉｖｅｓｈｅｅｔ）

Ａ

ＤＥＴＡＩＬＡ（Ｓ＝５：１）

Ａｒｅａｏｆｄｅｐｔｈｉｓ１０±０．３

３８±０．５

１０±０．３

(19.3)

(112.7)

１３１．５２（Ａｃｔｉｖｅａｒｅａ）

１０．６４±０．５

（Ｎｏｔｅ２）

(0.8)

(12.5)

2.8

Ｍａｉｎｖｉｅｗｉｎｇ

ａｎｇｌｅｄｉｒｅｃｔｉｏｎ

145.4

(0.8)

(4.7)

(0.8)

3±0.2

1±0.2

3±0.2

６．５″ＶＧＡ

Ｄｏｔｎｕｍｂｅｒ：６４０×３（ＲＧＢ）×４８０

ＤｏｔＰｉｔｃｈ：０．０６８５×０．２０５５

Ｄｅｐｔｈ

ｏｆ

Ｄｅｐｔｈｏｆｈｏｌｅ

ＭＩＮ０．６

ｈｏｌｅ

ＭＩＮ

(0.4)

(5.1)

ＲＧＢａｒｒａｎｇｅｍｅｎｔ：ＲＧＢＶｅｒｔｉｃａｌｓｔｒｉｐｅｓ

１．９

Ｅｆｆｅｃｔｉｖｅｄｉｓｐｌａｙａｒｅａ：１３１．５２㎜×９８．６４＝６．４７”

Ｓｉｒｉａｌｌａｂｅｌ

ＧａｔｅＦＰＣ

１ｐｉｎ

Ａｃｔｉｖｅａｒｅａｃｅｎｔｅｒ

ＤＣ－ＤＣ

１６ｐｉｎ

Ｌａｂｅｌ

＞ＰＣ＜

１ｐｉｎ

Ｍａｉｎ

Ｃｏｎｎｅｃｔｏｒ

ｉｎｓｅｒｔｉｎｇ

ｄｉｒｅｃｔｉｏｎ

高圧注意

HIGH VOLTAGE

Ｎｏ．３Ｐｉｎ

ｂｏａｒｄ

Ｌｏｗ（Ｗｈｉｔｅ）

→

４０ｐｉｎ

Ｎｏ１Ｐｉｎ

→

Ｈｉｇｈ（Ｒｅｄ）

30±5

Front side

ＳｏｕｒｃｅＦＰＣ

１３８．７（Ｆｒａｍｅｗｉｎｄｏｗ）

6.9

151.0±0.3

９±１

Ａｒｅａｏｆｔｈｅｉｎｓｕｌａｔｅｄｓｈｅｅｔ

（ｆｒｏｍｔｈｅｅｄｇｅ

ｔｏｃｏｎｎｅｃｔｏｒ）

Ｄｅｐｔｈｏｆｈｏｌｅ

ＭＩＮ１．４

142±0.2

3.6±0.2

1.3±0.2

Ｎｏｔｅ１

Ｎｏｔｅ２

Ｇｅｎｅｒａｌｔｏｌｅｒａｎｃｅｉｓ ±０．３ｍｍ．

Ｔｈｉｓｄｉｍｅｎｓｉｏｎｓｈｏｕｌｄｂｅｍｅａｓｕｒｅｄｕｎｄｅｒ

ｔｈｅｃｏｎｄｉｔｉｏｎｐｒｅｓｓｅｄｂｙｔｈｅｆｏｒｃｅｏｆ

９．８Ｎ（１ｋｇｆ）ｗｉｔｈ１０ｍｍｄｉａｍｅｔｅｒｇａｕｇｅ．

Ａｎｄｉｔｓｈｏｕｌｄｎｏｔｃｏｎｔａｉｎｓｌｉｇｈｔｓｗｅｌｌｉｎｇ．

（０．２±０．６）

ｆｒｏｍＢＭｔｏ

Ｐｏｌａｒｉｚｅｒ

ＣｏｎｎｅｃｔｔｈｅｍｅｔａｌｆｒａｍｅｏｆＬＣＤｗｉｔｈｔｈｅＧＮＤ

ｏｆｓｅｔ′ｓｃｉｒｃｕｉｔｂｏａｒｄ，ｂｅｃａｕｓｅｋｅｅｐｓｔａｂｉｌｉｔｙ

ｏｆｅｌｅｃｔｒｏ－ｏｐｔｉｃａｌｓｐｅｃｉｆｉｃａｔｉｏｎａｎｄｅｌｅｃｔｒｉｃａｌ

ｓｐｅｃｉｆｉｃａｔｉｏｎ．Ｐｌｅａｓｅｒｅｆｅｒｈｏｗｔｏｃｏｎｎｅｃｔ．

Ｎｏｔｅ３

Ｎｏｔｅ４

Ｐｏｌａｒｉｚｅｒ

Ｌｃｄｐａｎｅｌ

１３１．５２

（０．１８±０．６）

ｆｒｏｍＢＭｔｏ

Ｐｏｌａｒｉｚｅｒ

Ｄｏｎ′ｔｐｕｓｈｍａｉｎｂｏａｒｄ，ｓｏｕｒｓｅＦＰＣａｎｄｇａｔｅＦＰＣ

ａｓｔｈｅｓｅｔｉｓａｓｓｅｍｂｌｅｄ．Ｂｅｃａｒｅｆｕｌｄｅｓｉｇｎｏｆ

ｔｈｅｓｅｔ．

（Ａｃｔｉｖｅ

ａｒｅａ）

（Ａｃｔｉｖｅａｒｅａ）

Ｍａｓｋ

(2.4 BM)

(2.2 BM)

（Ｄｏｎ′ｔｐｕｔａｎｙｐｒｅｓｓｏｎｔｈｅｍａｉｎｂｏａｒｄ，

ｓｏｕｒｓｅＦＰＣａｎｄｇａｔｅＦＰＣｆｒｏｍｓｉｄｅａｎｄｂａｃｋ．）

(0.7)

Ｍａｉｎｖｉｅｗｉｎｇａｎｇｌｅｉｓ１２ｏ′ｃｌｏｃｋｄｉｒｅｃｔｉｏｎ

ｗｈｅｎｓｏｕｒｃｅＦＰＣｉｓｌｏｃａｔｅｄｂｅｌｏｗｔｈｅｍｏｄｕｌｅ．

Ｎｏｔｅ５

Ｎｏｔｅ６

Ｋｅｅｐｃａｂｌｅａｎｙｆａｒｅｄｇｅｏｆｍｅｔａｌｆｒａｍｅ，

ｂｅｃａｕｓｅｆｒａｍｅ′ｓｂｕｒｒｔｏｗａｒｄｏｕｔｓｉｄｅ．

ＣＮ２：ＢＨＲ－０３ＶＳ－１（ＪＳＴ）

Ｎｏｔｅａ）

ＣＮ１：ＩＬ－ＦＨＲ－ＢＦ４０Ｓ－ＨＦ（ＪＡＥ）

Ｐｌｅａｓｅａｓｋｕｓｗｈｅｎｙｏｕｄｅｓｉｇｎ

ｍａｓｋｉｎｇｓｔｒｕｃｔｕｒｅｂｅｃａｕｓｅｔｈｅ

ｌｉｇｈｔｌｅａｋｆｒｏｍｔｈｅｏｕｔｅｒｓｉｄｅｏｆ

ａｃｔｉｖｅａｒｅａｍａｙｏｃｃｕｒ．

Ｎｏｔｅｂ）

Ｋｅｅｐｔｈｅｍａｓｋａｎｄ／ｏｒｉｔｓｂｕｒｒｓ

ａｗａｙｆｒｏｍｔｈｅｐｏｌａｒｉｚｅｒ．

Ｔｈｅｌｕｑｕｉｄｃｒｙｓｔａｌｍａｙｌｏｏｋｌｉｋｅ

ｗａｖｉｎｇｗｈｅｎｔｈｅｍａｓｋｉｓ

ｔｏｕｃｈｉｎｇｔｈｅｐｏｌａｒｉｚｅｒ．

（１３６．５Ｐｏｌａｒｉｚｅｒ）

ＢＭ

Ｍａｓｋｉｎｇｄｉｍｅｎｓｉｏｎｒｅｃｏｍｍｅｎｄｅｄ（ｘ：１）

Ｐｏｌａｒｉｚｅｒａｔｔａｃｈｍｅｎｔｐｏｓｉｔｉｏｎ（Ｘ：１）

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

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January14,2004(Ver.0.2)

LTA065A041F

Caution and Handling Precaution

For your end user's safety, it is strongly advised that the items with "※" should be included in the instruction

manual of the system which may be issued by your organization.

For Safety

Warning

1) SPECIALPURPOSES

a) Toshiba Matsushita Display Technology

’s Standard LCD modules have not been customized for

operation in extreme environments or for use in applications whe

life-threatening or otherwise catastrophic.

re performance failures could be

b) Since they have not been designed for operation in extreme en vironments, they must never be used in

devices that will be exposed to temperatures above 50 degrees Ce lsius or below 0 degrees Celsius, to

X-ray or Gamma-ray radiation, or to abnormally high levels of vi bration or shock which exceed Toshiba

Matsushita Display Technology’s specification limits.

c) In addition, since Toshiba Matsushita Display Technology

’s Standard LCD modules have not been

designed for use in applications where performance failures coul d be life-threatening of catastrophic,

they must never be installed in aircraft navigation control syst ems (such as, but not limited to Traffic

Collision Avoidance System and Air Traffic Indicator), in milita ry defense or weapons systems, in critical

industrial process-control systems (e.g., those involved in the production of nuclear energy), or in critical

medical device or patient life-support systems.

2) ELECTRICSHOCK

DISCONNECT POWER SUPPLY before handling LCD modules. In order to prevent electric shock, DO NOT

TOUCH the electrode part, cables, connectors, and the fluorescen t lamp’s (hereinafter called “FL”) circuit

part of a module in which FL tubes are built in as a light sourc e of a backlight or a front light. High voltage

is supplied to these parts while power supply is turned on.

FL CABLE CONNECTION

Make sure to insert the module FL connector to the inverter conn ector in correct position and correct

polarity. If incorrect, this may cause smoke or burn of electric al parts by high voltage of FL circuit. If there

is a possibility that the connector has been inserted incorrectl y, re-insert the connector only after you

confirm the module and FL power is completely off. When disconne cting the connector, do not pull on the

cable.

DO NOT USE the mating FL connector which Toshiba Matsushita Disp lay Technology does not specify.

Otherwise, Toshiba Matsushita Display Technology shall not be li

connector.

able for any damages caused by the

Caution

1)※DISASSEMBLING OR MODIFICATION

DO NOT DISASSEMBLE OR MODIFY the modules.

Sensitive parts inside LCD module may be damaged, and dusts or s cratches may mar the displays. Toshiba

Matsushita Display Technology does not warrant the modules, if customer disassembled or modified them.

2)※BREAKAGE OF LCD PANEL

DO NOT INGEST liquid crystal material, DO NOT INHALE this materi al, and DO NOT PERMIT this material

to contact the skin, if glass of LCD panel is broken.

If liquid crystal material contacts the skin, mouth or clothing, take the following actions immediately

In case contact to the eye or mouth, rinse with large amount of running water for more than 15 minutes. In

case contact to the skin or clothing, wipe it off immediately an

d wash with soap and large amount of

running water for more than 15 minutes. The skin or closing may be damaged if liquid crystal material is left

adhered.

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LTA065A041F

In case ingestion, rinse out the mouth well with water. After sp ewing up by drinking large amount of water,

get medical treatment.

3)※GLASS OF LCD PANEL

BE CAREFUL WITH CHIPS OF GRASS that may cause injuring fingers or skin, when the glass is broken.

Since FL is also made of glass, when FL is built in, handle it with due caution as well.

4) ABSOLUTE MAXIMUM RATINGS

DO NOT EXCEED the absolute maximum rating values under the worst probable conditions caused by the

supply voltage variation, input voltage variation, variation in parts' constants, environmental temperature,

etc., otherwise LCD module may be damaged.

5) POWER PROTECTION CIRCUIT

Employ protection circuit for power supply, whenever the specification specifies it.

A suitable protection circuit should be applied, based on each system design.

6) DISPOSAL

Always comply all applicable environmental regulations, when disposing of LCD module.

7) EDGES OF PARTS

Be careful with handling the metal flame (bezel) of a module. Ev

performed, it may cause injuring. Be careful with edges of glass

en though burr disposal treatment is

parts and touch panel identically. For

designing the system, give special consideration that the wiring and parts do not touch those edges.

8)※LUMINANCE DECREASE OF FL

When FL becomes extremely dark and its color changes from white to pink, stop the use of the module

immediately. FL, at the end of its life with its discharge color turns into pink as the characteristics of FL,

may adversely affect the module at the end part of FL due to tem perature raising caused by depletion of

the mercury which is contained in FL tube, or may have a possibility of breakage.

For Designing the System

2-1 DESIGNINGENCLOSURE

1) MECHANICALDIMENSIONS

Refer to the individual specification for LCD module's mechanical dimensions.

2) MOUNTINGHOLES

LCD module should be assembled to the system by using all mounti

specification with the specified screws.

ng holes specified in the individual

In addition, some modules may not be necessary to use all the mo

judgments on the entire system.

unting holes. Make comprehensive

3)※BENDING / TWISTING

Make sure to design the enclosure that bending/twisting forces a re not applied to LCD module during and

after the installation into the system.

4) GASES FROM SETTING MATERIAL

Some plastic materials and shock absorbing materials (rubber) used in the system may generate gases that

may cause the deterioration of the polarizer laminated on LCD’s panel or internal parts of the module. Prior

confirmation is required.

5) GASES FROM PACKAGING MATERIAL

Some materials used for packaging (for which sulfuric acid is used in the recycling process) generate gases

that may cause the deterioration of the polarizer laminated on LCD’s panel or internal parts of the module.

Prior confirmation is required.

2-2 DESIGNING POWER SUPPLIES AND INPUT SIGNALS TO LCD MODULE

1) CAPACITY OF POWER SUPPLY

Refer to individual specification for details for capacity of po wer supply, and apply some protection circuit

including fuses for power supply lines.

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LTA065A041F

2) SEQUENCE OF POWER SUPPLIES AND INPUT SIGNALS

Power supply lines should be designed as follows.

Power supplies should always be turned on before the input signa ls are applied to LCD module, and the

input signals should be disconnected before power supplies are turned off.

The detailed sequence of power supplies and signals are described in the individual specification.

In addition, refer to individual specifications for unused terminals.

3) FL CABLE CONNECTION

Make sure to connect correctly high-voltage wire and low-voltage wire between FL tube and inverter unit.

If high-voltage wire and low-voltage wire are connected incorrec tly, it may cause insufficient brightness or

unstable operation of FL, and smoke or burn of the parts.

4) PREVENTION OF IMAGE STICKING

Design the system not to display same pattern for a long time in order to prevent image sticking on the

panel. Note that incorrect sequence of power supplies and input

panel, too.

signals may cause the sticking on the

5) GROUNDING OF METAL FRAME

Grounding of metal frame of LCD module is generally effective to prevent radiation interference from the

system design.

However, the necessity of grounding, or effective grounding meth od should be dependent on each system

design.

2-3 DESIGNING FOR BETTER VISIBILITY

1) PANELANGLE

Visibility of LCD module deeply depends on the viewing direction s. The position and the angle of LCD

module in the system should be designed so that the best visibility can be obtained at the actual usage.

2) WINDOWOPENING

Dimensions of window opening of the system's enclosure should be

Area" and larger than "Active Area" specified in individual spec

appearance.

designed as smaller than "Viewing

ification in order to obtain better

3) PROTECTIVECOVER

In case of severe environmental condition like outdoor usage, a proper transparent protective cover(lens)

over LCD module is recommended to apply in order to prevent scra tches, and invasion of dust, water, etc.,

from the system's window onto LCD module.

Ultra-violet ray cut filter is recommended to apply onto LCD mod

ultra-violet ray may cause damage the panel. However, in that ca

decrease. Careful selection of material is required.

ule for outdoor operation. Strong

se, transmittance-luminance will

2-4 DESIGNING FL POWER SUPPLY CIRCUIT

Input FL starting voltage(VSFL) should be longer than two second s. If it were not, it may cause unstable

operation of FL.

Inverter should be design to stop output when the inverter is no -load to FL tubes (due to breakage of FL,

etc.) to prevent high-voltage generation.

When high voltage is applied to FL continuously without normal o peration of FL (due to output leakage

within FL wiring circuit, etc.) it may cause smoke or burn. To p revent excess current, design the inverter

with a protection circuit such as a current limiter (excess current detection) to stop inverter output.

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

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LTA065A041F

For Installation in Assembly

3-1 ESD (ELECTRO-STATICDISCHARGE) PREVENTION

The C-MOS LSIs used in LCD module is very sensitive to ESD. The following caution should be taken when

installing LCD module to an enclosure of the system in order to prevent damage of C-MOS LSIs used in

LCD module.

1) HUMIDITY

Ambient humidity of working area is recommended to be higher than 50%RH in order to avoid ESD.

2) GROUNDING

2-1) Grounded electro-conductive mats are recommended to be cove red on the floor of working area and

surface of working benches.

2-2) The grounding should be done through a resister of 0.5-1M ohms in order to prevent spark of ESD.

2-3) Person handling LCD modules should be grounded with wrist band.

2-4) Tools like soldering iron and screw drivers and working benches should be grounded.

3) IONIZER

Using ionizer (an antistatic blower) is recommended at working a

voltage.

rea in order to reduce electro-static

4) REMOVING PROTECTION FILM

When removing protection film from LCD panel, peel off the film slowly (more than three seconds) from the

edge of the panel with round-ended tweezers or adhesive tape whi

peeling face to minimize ESD which may damage electrical circuit.

le blowing with ionizer toward the

5) Be careful with touching metal portion of testing instruments in order to prevent unnecessary ESD.

6) Do not touch the electrode area of PCB and electrical parts like LSI, capacitor, connector pin, etc.

3-2 DUST AND STAIN PREVENTION

1) WORKINGAREA

Reduce dust level in working area. Especially the level of metal

particle should be decreased, otherwise

electrical circuit in LCD module may be damaged due to short circuit by metal particles.

2) PROTECTIONFILM

LCD module may be shipped with "protection film" on LCD panel in order to prevent from scratches and

dust.

It is recommended to remove the film at later process of assembling.

3) FINGERPRINT

Use finger stalls or soft and dust-free gloves in order to keep

handled for incoming inspection and assembly.

clean appearance of LCD module when

4)※WIPING OFF DUST ON THE PANEL

When LCD panel becomes dirty, wipe the panel surface off softly with absorbent cotton or another soft

cloth.

If necessary, breathe upon the panel surface and then wipe off immediately and softly again.

If the dirt can not be wiped off, follow the instructions described in individual specification.

Be careful not to spill organic solvents into the inside of LCD module. The solvents may damage driver IC

and PCB area used inside module.

The polarizer laminated to LCD panel and adhesives may be damage d by the solvents, so do not use any

organic solvents for wiping off LCD panel.

5) ADHESIVE ON LCD PANEL

Be careful not to attach adhesive, grease, etc., on LCD panel, b

without any damages on LCD panel.

ecause it is difficult to remove them

6)※WATER SPOTS ON THE PANEL

Avoid the dewing or water condensation.

Wipe off a spot or spots of water or mist on LCD panel softly wi th absorbent cotton or another cloth as

soon as possible if happened, otherwise discoloration or stain may be caused.

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LTA065A041F

3-3 BENDING / TWISTING OF LCD MODULE DURING ASSEMBLY

1) INSTALLING LCD MODULE TO THE ENCLOSURE

Do not bend or twist LCD module even momentary when LCD module i s installed into an enclosure of the

system.

2) FASTENINGSCREWS

Fasten screws for mounting holes uniformly, otherwise bending /

twisting force may be applied to LCD

module.

3) INTERFACE / FL CABLES

Do not fasten screws, with catching interface cables or FL cables between LCD module and the enclosure.

This may cause bending of LCD module, or become the cause of a failure by damaging cables.

3-4 MECHANICAL FORCES

1)※ STRONG MECHANICAL SHOCK

Refrain from strong mechanical shock like dropping from the working bench or knocking against hard object.

These may cause panel crack, damage of FL or other mis-operation.

2)※ EXCESSIVE FORCE

Refrain from excessive force like pushing the surface of LCD pan el. This may cause scratches or breakage

of the panel, or a failure of the module.

3)※SCRATCHES ON THE PANEL

Do not put heavy object such as tools, books, etc., and do not pile up LCD modules.

Be careful not to touch surface of the polarizer laminated to the panel with any hard and sharp object. The

polarizer is so soft that it can be easily scratched, even the protect film covers it.

4) CONNECTORS

When inserting or disconnecting the connectors to LCD module, be sure not to apply force against PCB

nor connecting cables, otherwise internal connection of PCB and TAB drivers may be damaged.

5) FLCABLES

Be careful not to pull the FL cables in order to avoid mechanical damage in FL lamp and soldering area.

While mounting, do not bind or twist the FL cables, or the Lamp current may not be applied as designed.

3-5 OPERATION

Be sure that the following caution should be taken under assembly and inspection of the system.

1) POWERSUPPLY

Power supplies should always be turned off in connecting process.

Do not connect or disconnect the power cables and connectors with power applied to LCD module.

2) INPUTSIGNAL

The signal should be applied after power supplies are turned on.

The signal should be removed before power supplies are turned off.

The detailed sequence of power supplies and signals are described in individual specifications.

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LTA065A041F

For Transportation and Storage

1) TEMPERATURE

Do not store LCD modules in high temperature, especially in high

more than one month).

humidity for a long time (approximately

It is strongly recommended to store LCD modules where the temper ature is in the range of 0 to 35 degrees

Celsius and the humidity is lower than 70%.

2) LOWTEMPERATURE

Liquid crystal material may be coagulated and LCD panel may be d amaged at the lower temperature than

storage temperature range described in individual specification.

3) ULTRA VIOLET RAY

Store LCD module without exposure to direct sunlight or fluoresc ent lamps in order to prevent the module

from strong ultra violet ray.

4) CLEANLINESS

Keep the module in clean place, because any dust, hard particle may damage the polarizer, or dust invades

the inside of the module.

5)※CONDENSATION OF WATER

Avoid condensation of water on LCD module, otherwise it may caus e mis-operation or defects. Keep away

LCD module from such ambient.

6) PACKAGING

In case of transportation or storage after opening the original packaging, LCD modules are recommended to

be repacked into the original packaging with the same method, especially with same kind of desiccant.

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

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LTA065A041F

Revision History

Date VePrage ﾞ

Item Old NReewason

(new)

LR coat

AG coat

Specification

change

2004.1.14

2004.1.14 0.2

0.2

Front surface treatment

(with NWV film)

(with WV film)

Specification

change

Consumption power

Brightness

4.56 W

Specification

change

TYP.330 cd/㎡

TYP.400 cd/㎡

White color

X：TYP. 0.320

Y：TYP. 0.330

X：TYP. 0.310

Y：TYP. 0.320

Specification

change

chromaticity

θU ：TYP.65°

θD ：TYP.50°

ΦL：TYP.65°

ΦR ：TYP.65°

θU ：TYP.60°

θD ：TYP.30°

ΦL：TYP.60°

ΦR ：TYP.60°

Specification

change

2004.1.14

0.2

Vertical viewing Angle

Specification

change

2004.1.14

Horizontal Viewing Angle

Storage Humidity

Subjoinder

2004.1.14 0.2

None Add

( at panel surface )

Specification

change

2004.1.14 0.2

2004.1.14

Lvaomltpage

TYP.580Vrms

TYP.480Vrms

TYP.3.77Wrms

Specification

change

0.2

Lamp power consumption

TYP.3.12Wrms

MIN.30000Hour(at IL=7mA)

MIN.50000Hour(at IL=6mA)

Specification

change

2004.1.14 0.2

tLimife

MIN.10000Hour

Toshiba Matsushita Display technology Co..Ltd

SALES & MARKETING DIV.

AV-USE SALES & MARKETING DEPT.

4-1-8, Kounan, Minato-ku, Tokyo, 108-0075, JAPAN

TEL : 03-5462-7280, FAX : 03-3458-0078

Toshiba Matsushita Display Technology Co..Ltd In-house secrecy

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January 14, 2004 (Ver.0.2)

LTA065A041F [TOSHIBA]

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