FUJITSU NA19025-C461 Specification

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Specification of FUJITSU TFT-LCD module
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Date
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This Product is designed, developed and manufactured as contemplated for general use, including without limitation, general office use, personal use, household use, and ordinary industrial use, but is not designed, developed and manufactured as contemplated for use accompanying fatal risks or dangers that, unless extremely high safety is secured, could lead directly todeath, personal injury , severe physical damage or other loss (hereinafter “High Safety Required Use”), including without limitation, nuclear reaction control in nuclear facility, aircraft flight control, air traffic control, mass transport control, medical life support system, missile launch control in weapon system. If customer’s product possibly falls under the category of High Safety Required Use, please consult with our sales representatives in charge before such use. In addition, Fujitsu shall not be li able against the Customer and/or any third party for any claims or damages arising in connection with the High Safety Required Use of the Product without permission
㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷Specification No. : Tech Bes LCD-00227
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NA19025-C461
Approval
.
Issue Date : October 14, 2003
Issued by :
Katsunori. Tanaka Director DesignDep. TechnologyDiv.
FUJITSU DISPLAY TECHNOLOGIES CORPORA TION
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Specification of TFT-LCD module
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Model No.: NA19025-C461
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㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
20031014
㪚㪟㪜㪚㪢
Furukoshi
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One step solution for LCD / PDP / OLED panel application: Datasheet, inventory and accessory!
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K.Tanaka
TITLE
NA19025-C461
DRAW. NO.
Tech Bes-LCD00227
FUJITSU DISPLAY TECHNOLOGIES
CORPORATION
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1
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35
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TABLE OF CONTENTS
1APPLICATIONS
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2PRODUCT NAME AND MODEL NUMBER
2-1.Product Names
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2-2.Model Numbers
3OVERVIEW
4CONFIGURATION
5MECHANICAL SPECIFICATIONS
6ABSOLUTE MAXIMUM RATING
7RECOMMENDED OPERATING CONDITIONS
8ELECTRICAL SPECIFICATIONS
9OPTICAL SPECIFICATIONS
10INTERFACE SPECIFICATIONS
10-1.Signal Descriptions 10-2.LVDS Data Assignment 10-3. Color Data Assignment 10-4. Input Signal Timing 10-5. Correspondence between Data and Display Position 10-6.Power Supply Sequence
11BACK-LIGHT SPECIFICATIONS
11-1.Pin configurations for Back-light 11-2.CCFL 11-3.Life
12APPEARANCE SPECIFICATIONS
12-1.Appearance 12-2.Dot defects
13ENVIRONMENTAL SPECIFICATIONS
14㧚INDICATIONS
15㧚PACKAGING
15-1.Packing Specifications 15-2.Packing Method
16㧚PRECAUTIONS
17㧚OTHERS
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3 3 3
3
3
4
5
5
6
8
12 12
13 14 15 17 17
18 18 18 18
19 19 20
21
22
22 22 23
27
33
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㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
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NA19025-C461
DRAW. NO.
Tech Bes-LCD00227
FUJITSU DISPLAY TECHNOLOGIES
CORPORATION
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1. APPLICATION
2 PRODUCT NAME AND MODEL NUMBER
LCD Module
NA19025-C461
3. OVERVIEW
4. CONFIGURATION
This specification is applied to the 20.1-inch UXGA supported TFT-LCD module.
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2–1 Product Name:
2–2 Model Name
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This LCD module has a TFT active matrix type liquid crystal panel 1600x1200 pixels, and diagonal size of 51cm(20.1-inch). This LCD has a LVDS dual interface and can display 16,777,216 colors.
The power supply of this LCD module is +12V DC single.
:
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This LCD module consists of a color TFT-LCD panel that is mounted with TFT driver ICs, a cold-cathode fluorescent tube back-light. The inverter for the backlight is not included.
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Figure 4-1 shows a block diagram of this LCD module.
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 
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㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
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TITLE
NA19025-C461
DRAW. NO.
Tech Bes-LCD00227
FUJITSU DISPLAY TECHNOLOGIES
CORPORATION
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5. MECHANICAL SPECIFICATIONS
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Input signals (LVDS Dual)
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RXO0 RXO0㪄㩷 㩷 RXO1㪂㩷 㩷 RXO1 RXO2 RXO2㪄㩷 㩷 RXO3 RXO3㪄㩷 㩷 RXOC RXOC㪄㩷 㩷 PD
RXE0 RXE0㪄㩷 㩷 RXE1㪂㩷 㩷 RXE1 RXE2 RXE2㪄㩷 㩷 RXE3 RXE3㪄㩷 㩷 RXEC RXEC㪄㩷
SEL LVDS
Vcc
(+12V)
LVDS
Receiver
DC/DC converter
Bias voltage
Supply circuit
Internal
Circuit
Data driver
Gate Driver
TFT color LCD panel
1600x3(RGB) x1200
Back-light (6 CCFL)
(Separate)
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Power supply
Inverter circuit
Figure 4-1 Block Diagram
Table 5-1 shows the mechanical specifications of this LCD module.
Table 5-1 Mechanical Specifications
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Item Specifications Unit Remark
Dimensions 432 x 331.5 x 25(TYP.) mm
Edge type back-light is used. (2.6 CCFLx6)
Display Resolution
(1600x3) x 1200
Display Dot Area 408.0 x 306.0 mm
For details on dimensions,
Dot Pitch (0.085x3) x 0.255 mm
See dimensional outline drawing. (At page 34,35)
Aspect Ratio 1:1
Weight 3,500㩷 (Max)
Excluding inverter.
FG-SG Short circuit
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NA19025-C461
DRAW. NO.
Tech Bes-LCD00227
FUJITSU DISPLAY TECHNOLOGIES
CORPORATION
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6. ABSOLUTE MAXIMUM RATING
7. RECOMMENDED OPERATING CONDITIONS
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Table 6-1 shows the absolute maximum rating of this LCD module.
Table 6-1 Absolute Maximum Rating
Item Symbol Condition MIN. TYP. MAX. Unit
Supply Voltage VCC Ta=25ºC –0.3 14.0 V
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Input Signal Voltage (LVDS signal, PD,
Ta=25ºC –0.3 3.6 V
V
IN
SEL LVDS)
Table 7-1 shows the recommended operating conditions of this LCD module.
Table 7-1 Recommended Operating Conditions
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Item Symbol MIN. TYP. MAX. Unit
Supply Voltage (Logic) V
Ripple Voltage V
CC
CC
V
RP
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11.5 12.0 12.5 V
— — 0.1 V
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
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㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
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㪘㪧㪧㪩㪅㩷
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TITLE
NA19025-C461
DRAW. NO.
Tech Bes-LCD00227
FUJITSU DISPLAY TECHNOLOGIES
CORPORATION
㪈㩷
One step solution for LCD / PDP / OLED panel application: Datasheet, inventory and accessory!
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8. ELECTRICAL SPECIFICATIONS
Table 8-1 shows the electrical specifications of this LCD module. Figure 8-1 shows the measurement circuit. Figure 8-2(A) shows the equivalent circuit of the logic signal input area.
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Figure 8-2(B) shows the equivalent circuit of the supply voltage Input area.
Table 8-1 Electrical Specifications
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Item Symbol Condition MIN. TYP. MAX. Unit
Differential-input Voltage (High)
Differential-input Voltage (Low)
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Supply Current I
V
IH
— — 100 mV
VCM=+1.2V
V
IL
CC
–100 — — mV
— 600 1200 mA *1
VCC=+12.0±0.5V V
=0V
Supply Rush Current I
Supply Rush Current Duration (1A excess)
T
SCC
SCC
CCFL Turn on
Voltage
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Lighting Voltage V
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Lighting Frequency f
V
S
L
L
SS
DCLK=81MHz
— — 5.8 A
60Hz
— — 0.2. ms
fL=50kHz, Ta=25ºC
fL=50kHz, Ta=0ºC
fL=50kHz I
=6mA
L
— 1600 1800 Vrms *4
— — 1850 Vrms *4
— 800 — Vrms
VL=800Vrms 30 50 60 KHz
(*3)
Tube Current㩷 I
L
fL=50kHz V
=800Vrms
L
3
6
7
(*1) Typical current situation : Color bar pattern. Vcc=12.0V
Maximum current situation: White screen. Vcc=11.5V
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Without rush current.
(*2) These items prescribe the rush current for starting internal DC/DC.
Charging current to capacitors of Vcc is not prescribed.
(*3) Tube current (I
) shows the value of the current that is consumed at one lamp.
L
This LCD module has 6 lamps. Each 3 lamps are placed at upper side and lower side of the display. 3 lamps are connected in parallel. Each low voltage terminals are connected with separate
Cable to Back-light connecter.
(*4) The voltage above this value should be applied to the lamp for more than 1 second to startup.
Otherwise the lamp may not be turned on.
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NA19025-C461
DRAW. NO.
Tech Bes-LCD00227
FUJITSU DISPLAY TECHNOLOGIES
CORPORATION
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One step solution for LCD / PDP / OLED panel application: Datasheet, inventory and accessory!
Remark
*2
mArms
*3
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Measurement circuit is based on Figure 8-1.
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+12V
GND
AC
CL
Icc
Vcc
DC/DC Converter
Logic Analog Driver
Back-light
LCD module
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V
GND
s
L
Figure 8-1 Measurement circuit
Input signals (LVDS Dual)
RXO0 RXO0㪄㩷 㩷 RXO1㪂㩷 㩷 RXO1 RXO2 RXO2㪄㩷 㩷 RXO3
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RXO3㪄㩷 㩷 RXOC RXOC㪄㩷 㩷
RXE0 RXE0㪄㩷 㩷 RXE1㪂㩷 㩷 RXE1 RXE2 RXE2㪄㩷 㩷 RXE3 RXE3㪄㩷 㩷 RXEC RXEC㪄㩷 㩷
PD SEL LVDS
Differential
Input
+3.3V
10kǡ (pull-up)
50kǡ (pull-down)
100ǡ
LVDS Receiver
Internal
Circuit
LVDS Receiver: DS90CF386 (National Semiconductor) or
THC63LVDF84B (Thine Electronics)
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Internal Circuit
10ǴF
Vcc
GND
Figure 8-2(A) Equivalent circuit of logic signal Input
Fuse
EMI Filter
100pF
10ǴF
FG Frame ground
Fuse: KAB240240-4A (Matsuo Electronics Co.LTD) EMI Filter : SGM45C1H222 (Sumitomo Metal Electronics Devices Inc)
Figure 8-2(B) Equivalent circuit of power supply
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㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
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㪘㪧㪧㪩㪅㩷
㪚㪟㪜㪚㪢㩷
㪘㪧㪧㪩㪅
TITLE
NA19025-C461
DRAW. NO.
Tech Bes-LCD00227
FUJITSU DISPLAY TECHNOLOGIES
CORPORATION
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One step solution for LCD / PDP / OLED panel application: Datasheet, inventory and accessory!
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9. OPTICAL SPECIFICATIONS
Table 9-1 shows the optical specifications of this LCD module.
Table 9-1 Optical Specifications
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Item Symbol Condition
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Ta=25ºC, Signal timing=Typ.
Specifications Remark
MIN. TYP. MAX.
Unit
Note
Visual
Horizontal
Angle
Vert ica l All Direction
Contrast Ratio CR
䌌䋬䌒
䌕䋬䌄
CR10
䌌䋬䌒䋬䌕䋬䌄
䌕䋬䌄
䌌䋬䌒
=0
=0
85 — — deg
85 — — deg
80 deg
=0
400 600 — —
White/ Black
(1)(2) (3)(5) (6)
(1)(2) (3)(5)
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Response Time (ON) (BW)
Ta=25ºC
ºC
Ta=0
䌌䋬䌒䋬
䌯䌮
䌕䋬䌄
=0
— 15 30 ms
— 50 100 ms
(1) (4) (5)
=0
=6mA
Ta=25ºC
ºC
Ta=0
Response Time (OFF)
(WB)
Brightness
Brightness
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Uniformity
䂦䌉
W
䌌䋬䌒䋬
䌯䌦䌦
䌕䋬䌄
=0
䌌䋬䌒䋬䌕䋬䌄
䌃䌃
I
f
L
R*, G*, B*Signal =All”H”
=12.0V
L
=50kHz
— 10 25 ms
— 50 100 ms
200 250 cd/m
70 — —
2
0.283 0.313 0.343 —
0.299 0.329 0.359 —
White *1
Chromaticity
R G B
䋨䌸䋬䌹䋩
Red (0.641,0.350) Typ.
Green (0.287,0.595) Typ.
Blue (0.142,0.070) Typ.
(1)(5)
(1)(5) (7)
(1) (5)
LCD Panel Type TFT Color
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Display Mode Normally Black
Wide Viewing Angle Technology MVA
Optimum Viewing Angle — (Symmetry) (6)
Display Color 16,777,216 (8-bit color)
Color of non-display area Black
Surface Treatment
Anti-glare (Haze value:䋨25%䋩䋬2H)
(*1) Value at 1520 minutes after lighting on.
(Note) CS-1000 (MINOLTA Co. Ltd.) , Field=1, L=500mm
Back-light current = 6mA, Dark room condition (1 lux or less) Be careful that the luminance meter, which you use, may not be able to get correct brightness
If it’s no set correctly.
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㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
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DRAW. NO.
Tech Bes LCD-00227
FUJITSU DISPLAY TECHNOLOGIES
NA19025-C461
CORPORATION
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One step solution for LCD / PDP / OLED panel application: Datasheet, inventory and accessory!
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Note 1) Definition of Viewing Angle (1)
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Based on Figure 9-1.
*0(Front)
㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷X+
Right (3 o’clock Direction)
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㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷Y+
Top (12 o’clock Direction)
LCD module
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㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷X-
Left (9 o’clock Direction)
䋪㸢 㱔
䋽䋰㫦䋬㱔D䋽䋰㫦䋬㱔L䋽䋰㫦䋬㱔R䋽䋰㫦
U
㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷Y- 㪙㫆㫋㫋㫆㫄㩷㩿㪍㩷㫆㪺㫃㫆㪺㫂㩷㪛㫀㫉㪼㪺㫋㫀㫆㫅㪀
Figure 9-1 Definition of Viewing Angle (1)
Note 2) Definition of Viewing Angle (2)
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Based on Figure 9-2.
Display Surface
Display Surface
㪣㪃㪩㪃㪬㪃㪛
㪤㪠㪥
㪫㪰㪧
㪤㪘㪯
㩷 㪔㪇㫦
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Figure 9-2 Definition of Viewing Angle (2)
Note 3) Definition of Contrast Ratio (CR)
L
W
White
Determined by Formula (1) based on Figure 9-3 Voltage-Brightness characteristics.
(Brightness at white)
W
=
(Brightness at black) 㵺㵺(1)
Brightness 䌛L䌝
L
B
0
Black
Panel Drive Voltage 䌛䌖䌝
Figure 9-3 Voltage-Brightness Characteristics
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㩷 㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
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Note 4) Definition of Response Time
Based on Figure 9-4.
㪘㩷
Drive signal of LCD panel
ON
OFF
Non-select status Select status Non-select status
100%
㪙㩷
Relative Brightnes
0%
Black
on
90%
White
10%
Black
off
ON Res
onse Time OFF Response Time
Figure 9-4 Definition of Response Time
㪚㩷
Note 5) Contrast Ratio and Response Measurement System
㪛㩷
Based on Figure 9-5.
+
Y
+
X
-
Z
-
X
-
Y
+
Z
Brightness Meter or Luminance colorimeter (with luminosity correction function)
Drive and Measurement System
Figure 9-5 Contrast Ratio and Response Time Measurement System
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
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㩷 㩷
Note 6) Definition of Optimum Viewing Angle
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㪘㩷
MAX
Contrast Ratio
10
㪙㩷
䋨-䋩
6 o’clock
0
Viewing Angle
+
12 o’clock
Figure 9-6 Definition of Viewing Angle
Note 7) Definition of Brightness Uniformity
Brightness uniformity is defined by the following formula. Brightness (I1I9) art measured at the following 9 points (㽲䌾㽺) on the display area
that is shown in Figure 9-7.
㪚㩷
Brightness Uniformity (䂦L) 䋽 㬍 100 (%) , n = 1 to 9
160 800 1440 Dot
㪛㩷
㽲㩷
㽳㩷
Note) Each measurement point (㽲䌾㽺) defines the center spot of view of Brightness Meter. The tolerance of measurement position is㫧3mm.
Figure 9-7 Measurement Points
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
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㪘㪧㪧㪩㪅㩷
㪚㪟㪜㪚㪢㩷
Min. In
Max. In
㪘㪧㪧㪩㪅
120
600
1080
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10. INTERFACE SPECIFICATIONS
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10-1 Signal descriptions
㪘㩷
㪙㩷
㪚㩷
㪛㩷
FI-X30H FI-X30C
a problem concerning long term reliability may occur.
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
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Table 10-1 shows the description and configuration of interface signals (CN1).
Table 10-1 Interface signals (CN1)
Pin No. Symbol I/O Function
1 Vcc - +12V power supply
2 Vcc - +12V power supply 3 Vcc - +12V power supply 4
TST
- Test pin *2 5 PD I LVDS Core Power Down 6 SEL LVDS I Select LVDS data order *1 7 GND - Ground 8
RxE3+
I Positive differential input
9 RxE3- I Negative differential input
10 RxEC+ I Positive differential input 11 RxEC- I Negative differential input 12 RxE2+ I Positive differential input 13
RxE2-
I Negative differential input 14 GND - Ground 15 RxE1+ I Positive differential input 16 RxE1- I Negative differential input 17 GND - Ground 18 RxE0+ I Positive differential input 19 RxE0- I Negative differential input 20 RxO3+ I Positive differential input 21 RxO3- I Negative differential input
22 RxOC+ I Positive differential input 23 RxOC- I Negative differential input 24 GND - Ground 25 RxO2+ I Positive differential input 26 RxO2- I Negative differential input 27 RxO1+ I Positive differential input 28 RxO1- I Negative differential input 29 RxO0+ I Positive differential input
30 RxO0- I Negative differential input
Connector : FI-X30S-HF(Japan Aviation Electronics) User’s connector : FI-X30M(Japan Aviation Electronics)
*1: 3.3V CMOS Signal input. (High or Low) *2: Keep open. (Internal test use only.) *3: When using a connector other than the recommended one, a defect in the initial stage or
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㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
㪚㪟㪜㪚㪢㩷
㪘㪧㪧㪩㪅
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10-2 LVDS Data Assignment
Table 10-2 shows the LVDS Data Assignment.
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Table 10-2 LVDS Data Assignment
㪘㩷
Input signal *1
SEL LVD S Low
RO2 RO3 RO4 RO5 RO6 RO7 GO2 GO3
㪙㩷
LVDS
Odd
㪚㩷
㪛㩷
LVDS
Even
GO4 GO5 GO6 GO7 BO2 BO3 BO4 BO5 BO6 BO7 RSVD RSVD ENAB RO0 RO1 GO0 GO1 BO0 BO1 RSVD
DCLK 31 TxCLK IN
RE2 RE3 RE4 RE5 RE6 RE7 GE2 GE3 GE4 GE5 GE6 GE7 BE2 BE3 BE4 BE5 BE6 BE7 RSVD RSVD RSVD RE0 RE1 GE0 GE1 BE0 BE1 RSVD
DCLK 31 TxCLK IN
High
RO0 RO1 RO2 RO3 RO4 RO5 GO0 GO1 GO2 GO3 GO4 GO5 BO0 BO1 BO2 BO3 BO4 BO5 RSVD RSVD ENAB RO6 RO7 GO6 GO7 BO6 BO7 RSVD
RE0 RE1 RE2 RE3 RE4 RE5 GE0 GE1 GE2 GE3 GE4 GE5 BE0 BE1 BE2 BE3 BE4 BE5 RSVD RSVD RSVD RE6 RE7 GE6 GE7 BE6 BE7
Transm itte r
DS90CF383,C385
pin INPUT System side
51
TxIN0
52
TxIN1
54
TxIN2
55
TxIN3
56
TxIN4
3
TxIN6
4
TxIN7
6
TxIN8
7
TxIN9
11
TxIN12
12
TxIN13
14
TxIN14
15
TxIN15
19
TxIN18
20
TxIN19
22
TxIN20
23
TxIN21
24
TxIN22
27
TxIN24
28
TxIN25
30
TxIN26
50
TxIN27 TxIN5
2
TxIN10
8
TxIN11
10
TxIN16
16
TxIN17
18
TxIN23
25
51
TxIN0
52
TxIN1
54
TxIN2
55
TxIN3
56
TxIN4
3
TxIN6
4
TxIN7
6
TxIN8
7
TxIN9
11
TxIN12
12
TxIN13
14
TxIN14
15
TxIN15
19
TxIN18
20
TxIN19
22
TxIN20
23
TxIN21
24
TxIN22
27
TxIN24
28
TxIN25
30
TxIN26
50
TxIN27 TxIN5
2
TxIN10
8
TxIN11
10
TxIN16
16
TxIN17
18
TxIN23
25
Tx OUT0+
Tx OUT0㪄㩷
Tx OUT1+
Tx OUT1
Tx OUT2+
Tx OUT2
Tx OUT3+
Tx OUT3㪄㩷
TxCLK OUT+ TxCLK OUT
Tx OUT0+
Tx OUT0
Tx OUT1+
Tx OUT1
Tx OUT2+
Tx OUT2
Tx OUT3+
Tx OUT3
TxCLK OUT+ TxCLK OUT
Interface connector
LCD module
pin
2
1
4
3
6
5
11
10
9 8
13
12
16
15
19
18
23
22
21 20
RxCLK IN+ RxCLK IN
RxCLK IN+ RxCLK IN
RxO0+
RxO0
RxO1+
RxO1
RxO2+
RxO2
RxO3+
RxO3
RxE0+
RxE0
RxE1+
RxE1
RxE2+
RxE2
RxE3+
RxE3
Receiver
DS90CF386
pin OUTPUT
27
RxOUT0
29
RxOUT1
30
RxOUT2
32
RxOUT3
33
RxOUT4
35
RxOUT6
37
RxOUT7
38
RxOUT8
39
RxOUT9
43
RxOUT12
45
RxOUT13
46
RxOUT14
47
RxOUT15
51
RxOUT18
53
RxOUT19
54
RxOUT20
55
RxOUT21
1
RxOUT22
3
RxOUT24
5
RxOUT25
6
RxOUT26
7
RxOUT27
34
RxOUT5
41
RxOUT1
42
RxOUT11
49
RxOUT16
50
RxOUT17
2
RxOUT23
26 RxCLK OUT DCLK
27
RxOUT0
29
RxOUT1
30
RxOUT2
32
RxOUT3
33
RxOUT4
35
RxOUT6
37
RxOUT7
38
RxOUT8
39
RxOUT9
43
RxOUT12
45
RxOUT13
46
RxOUT14 RxOUT15
47 51
RxOUT18 RxOUT19
53 54
RxOUT20
55
RxOUT21
1
RxOUT22
3
RxOUT24 RxOUT25
5 6
RxOUT26 RxOUT27
7
34
RxOUT5 RxOUT10
41 42
RxOUT11
49
RxOUT16
50
RxOUT17
2
RxOUT23
26 RxCLK OUT Not use
LCD input
(Sel LVDS)
Low High
RO2 RO3 RO4 RO5 RO6 RO7 GO2 GO3 GO4 GO5 GO6 GO7 BO2 BO3 BO4 BO5 BO6 BO7 Not use Not use ENAB RO0 RO1 GO0 GO1 BO0 BO1 Not use
RE2 RE3 RE4 RE5 RE6 RE7 GE2 GE3 GE4 GE5 GE6 GE7 BE2 BE3 BE4 BE5 BE6 BE7 Not use Not use Not use RE0 RE1 GE0 GE1 BE0 BE1 Not use
RO0 RO1 RO2 RO3 RO4 RO5 GO0 GO1 GO2 GO3 GO4 GO5 BO0 BO1 BO2 BO3 BO4 BO5 Not use Not use ENAB RO6 RO7 GO6 GO7 BO6 BO7 Not use
RE0 RE1 RE2 RE3 RE4 RE5 GE0 GE1 GE2 GE3 GE4 GE5 BE0 BE1 BE2 BE3 BE4 BE5 Not use Not use Not use RE6 RE7 GE6 GE7 BE6 BE7 Not use
*1 RSVD (reserved) pin on a transmitter should be connected with Ground.
㩷䊶Input odd or even data depending on the display position of the LCD module.
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
㪚㪟㪜㪚㪢㩷
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:
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:
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10-3 Color Data Assignment
Table 10-3 shows the Color Data Assignment.
㪘㩷
Table 10-3 Color Data Assignment
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Color
Odd
Even
Black Blue Green Cyan Red
㪙㩷
Magenta
䌂䌡䌳䌩䌣 䌃䌯䌬䌯䌲
Yellow White Black 0
× ×
:
䌒䌥䌤
Ø
1
Brighter 253 Ø
㪚㩷
Red 255 Black 0
× ×
: Ø
䌇䌲䌥䌥䌮
254
1
Brighter 253 Ø
254 Green 255 Black 0
㪛㩷
× ×
: Ø
䌂䌬䌵䌥
1
Brighter 253 Ø
254 Blue 255
R Input data
R7 R6 R5 R4 R3 R2 R1 R0 R7 R6 R5 R4 R3 R2 R1 R0
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 1 1 1 1 1 1 1 0 0 0 0 0 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 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 1 1 1 1 1 1 1 1 0 0 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 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 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 0 0 0 0 0 0
1 1 1 1 1 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 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 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 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 0 0 0 0 0 0 1 1 1 1 1 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 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 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 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 0 0 0 0 0 0 1 1 1 1 1 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 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 1 1 1 1 1 1 1
G Input data B Input data
G7 G6 G5 G4 G3 G2 G1 G0 B7 B6 B5 B4 B3 B2 B1 B0 G7 G6 G5 G4 G3 G2 G1 G0 B7 B6 B5 B4 B3 B2 B1 B0
Note.1) Definition of gray scale:Color (n)”n” indicates gray scale level.
Larger number means brighter level.
Note.2) Data; 1:High, 0:Low
Note 3) Color data consist of 8 bit red, green and blue data of odd and even number pixel data.
Total data number is 48 signals. This module is able to display 16,777,216 colors because each red, green and blue data is controlled independently.
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
㪚㪟㪜㪚㪢㩷
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10-4 Input Signal Timing
Table 10-4 and Figure 10-1 shows the Input Signal Timing at LVDS transmitter.
Table 10-4 Timing Characteristics
㪘㩷
(Ta=0~45ºC, Vcc=12±0.5V)
Item Symbol Min. Typ. Max. Unit Remark
㪙㩷
DCLK signal (Clock)
DCLK-Data Timing
ENAB signal
Period
Frequency
Duty
High time
Low time
Setup time
Hold time
Horizontal Period
Hor. Period
Hor. Display period
Vertical Period
Ver. Frequency
Ver. Display period
Tc
1/Tc
Tch/ Tc
Tclk H
Tclk L
Tset
Thold
Th Th
Thd
Tv
1/Tv
Tvd
11.765
50.000 45
3.5
3.5 3 2
*1
865
13.0 800
*1
1207
50
1200
12.345
81.000 50 — — — —
1080
13.3 800
1250
60
1200
20.000
85.000 55
— — — —
*1
1130
14.65 800
*1
1280
62
1200
ns
MHz
% ns ns ns ns
DCLK
μs
DCLK
Th Hz Hz Hz
*2
Th
Data-ENAB timing Tdn 0 DCLK *3
*1)•horizontal display position is specified by the rise of ENAB.
The data latched at falling edge of DCLK after rise of ENAB is displayed at the left edge of the display area.
•Vertical display position is specified by the rise of ENAB after low level continuation over 5500 DCLK.
㪚㩷
The data latched at the rise of ENAB is displayed at the top line of the display area.
*2)•If the “High” level period of ENAB is less than 800 DCLK, black color is displayed at the rest of the display area.
*3)•If ENAB does not synchronize with the effective display data, the display position does not fit to the
display area.
㪛㩷
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
㪚㪟㪜㪚㪢㩷
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㪘㩷
DCLK
ENAB
RO7-0, RE7-0 GO7-0, GE7-0
TclkL
0.9V
Tc1 Tset
Tc
Tclk
2.3V
Tch
1.65
Thold
2.3V
0.9V
BO7-0, BE7-0
㪙㩷
RO7-0, RE7-0 GO7-0, GE7-0 BO7-0, BE7-0
Th
ENAB
Thd
RO7-0, RE7-0
C001 C1200
GO7-0, GE7-0 BO7-0, BE7-0
㪚㩷
ENAB
Tvd
Tv
DCLK
㪛㩷
RO7-0, RE7-0
0001
0003
Tc
0005
0007
0009
0011
1587
1589
1593 1597
1591
1595
1599
GO7-0, GE7-0 BO7-0, BE7-0
0002
0004
0006
0008
0010
0012
1588
1590
1592
1594
1596
1598
1600
ENAB
Tdn Tdn
Figure 10-1 Input Signal Timing Chart
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
㪚㪟㪜㪚㪢㩷
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10-4 Correspondence between Data and Display Position
Figure 10-2 shows the Correspondence between Data and Display Position.
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C001
S0001 S0002 S0003 S0004 S0005 S0006 S0007
RO 0001
GO 0001
BO 0001
㪙㩷
C1200
RO 0001
GO 0001
BO 0001
RE 0002
RE 0002
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GE 0002
GE 0002
BE 0002
BE 0002
RO 0003
RO 0003
GO 0003
GO 0003
S4799 S4800
GE 1600
GE 1600
BE 1600
BE 1600
Figure 10-2 Correspondence Data and Display Position
10-5 Power Supply Sequence
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The sequence of input signals and On/Off of the power supply of this LCD module should be in the specification shown in Figure 10-3 to prevent latch-up of the driver ICs and DC driving of the LCD panel.
Vcc
㪛㩷
PD
LVDS
Input
ON
OFF (0V)
1msT420ms
H
L
T5㻡20ms(Voltage descent)
10.8V
10.8V
(10.5V)
0msT7
2.4V
90%
10%
T1 T2
1msT140ms 1msT240ms
Figure 10-3 Power Supply Sequence(Logic)
10.8V
0.5V
0msT340ms
0.5V
Note) If Power Supply Sequence not followed, the CMOS-IC may cause a latch-up, or DC voltage
may be applied to the liquid crystal, which cause a failure or serious deterioration in display
quality.
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
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11. BACK-LIGHT SPECIFICATION
11-1 Pin configuration for Back-light
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㪘㩷
Table 11-1 shows the description and Pin assignment of the connectors (CN-A to D) for the Back-light of this LCD module.
Table 11-1 Pin Assignment of CN-A to CN-D
CN-A
㪙㩷
CN-B
CN-C
CN-D
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Pin No.
1 2
Symbol Function Cable Color
H1
H2
3 - NC
4 5 1 2
1 2 3 4 5 1 2
1
2
H3
3
H4
H5
-
4
5
H6
6
Power supply (High voltage) Power supply (High voltage)
Power supply (Low voltage) Power supply (Low voltage)
Power supply (High voltage)
Power supply (Low voltage)
Power supply (High voltage) Power supply (High voltage)
NC
Power supply (Low voltage) Power supply (Low voltage)
Power supply (High voltage)
Power supply (Low voltage)
Pink
Orange
Blue
Gray
Red
White
Pink
Orange
Blue
Gray
Red
White
Connector : Housing(CN-A, CN-C):BHR-05VS-1 (CN-B, CN-D):BHSR-02VS-1
Contact : SBH-001T-P0.5
SBHS-002T-P0.5 User’s Connector : Post with base: SM04(9-E2)B-BHS-1 SM02B-BHSS-1-TB
Supplier : Japan Solder less Terminal manufacturing Company LTD. (J.S.T.)
11-2 CCFL
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11-3 Life
Supplier: SANKEN ELECTRONICS Co.LTD. Part No.: SS26E4175E8550C2882710S
The life of the back-light is a minimum of 50,000 hours at the following conditions.
(1) Working conditions
Ambient temperature 255㷄 㽳Tube current (I
) (6mA or less)
L
(2) Definition of life
Brightness becomes 50% or less than the minimum brightness value shown in Table 9-1. Flashing.
11-4 Lamp assembly set (for replacement)
Lamp assembly set (with charge) is prepared for replacing old lamp to new one. This set consists of an upper lamp assembly and a lower lamp assembly. Type number: FLCL-26
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
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12. APPEARANCE SPECIFICATIONS
12-1 Appearance
12-1-1 Appearance specification
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No. Item Judgment method and standard
1 Bright spot (high and Low) <8 dots (Note 1 )
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2 Bright spot connection
(high and low)
2 dots connection <2 pair (Note 1) 3 dots connection <
1 pair
3 Total of bright spot <8 dots
4 Dark spot <10 dots (Note 2)
㪙㩷
5 Dark spot connection
2 dots connection < 3 dots connection <
3 pair (Note 2) 1 pair
6 Total of dark spot <10 dots (Note 2)
7 Total of dot defect
(bright and dark)
8 Distance of dot defect
<
18 dots
2mm
>
D<0.3 Ignore
<
0.3<D<0.6
㪚㩷
Black white spot
9
0.6<D<0.9
5
<
2 (Distance >100mm)
0.9<D 0
16 Mura Ignore
D: Average diameter [mm], W: Width [mm], L: Length [mm], S=(bright spot size)/(dot size)
㪛㩷
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
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12-1-2 Light leakage outside the active area.
The light leakage that occurs minimum of 2.0mm outside the peripheral of the active area is
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overlooked.
A leakage of light may occur between the BM section and the bezel at the peripheral of the active area.
12-2 Dot defects (Bright spots, Dark spots)
12-2-1 Zone
· Inside display dot area (408.0 X 306.0mm)
· Display dot area means active area.
· One pixel consists of 3 dots (red, green and blue).
㪙㩷
· Foreign particle and scratch unharmful to display image, such as the foreign particle under polarizer film but outside of the display area and scratch on metal bezel, backlight module or polarizer film out of the display area, etc., are not counted.
12-2-2 Bright spots
(1) Bright spots by the defect of TFT.
· Visible under bias of 2% ND filter...................................High bright spot R•G
· Visible under 5% but invisible under 2% ND filter ........Low bright spot R•G•B
· Invisible under bias of 5% ND filter................................Not counted
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(2) Bright spots by the light passing through tears, breaks, etc in color filter.
· Exceed size of a half dot...................................................High bright spot
· A half dot or less...............................................................Not counted
(3) Bright spots by the light passing through tears, breaks, etc in chromium mask.
· Exceed 50Pm ....................................................................High bright spot
· 50Pm or less ....................................................................Not counted
㪛㩷
12-2-3 Test condition
· Inspector must observe the LCD screen from the normal direction under the illumination by a single 20W fluorescent lamp. The distance between the LCD screen and the inspector should be a height of 50cm above the worktable. The vertical illuminance is 300 to 600lux (reference value).
· Bright spot should be counted under entire black screen.
· Dark spot should be counted under entire white screen.
· Input signal timing should be typical value.
(Note1) Please do not mistake a single bright spot for a bright spot connection due to
Cs(supplemental capacitance) line at the center of each dot.
(Note2) If a pixel is dark partially, it connects into the number of dark spots in accordance with
following rule.
(a) A<1/3 : Not count. Only one of 4 dark connection is allowed. (b) 1/3<
(c) 2/3<
A<2/3 : Considered as 0.5 dot.
A : Considered as 1 dot.
(A=Dark spot size/dot size)
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
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13. ENVIRONMENTAL SPECIFICATIONS
(
(
(
A (
Table 13-1 show the environmental specifications.
㪘㩷
Table 13-1 Environmental specifications
Item Condition Remark
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Temperature
Humidity
Operation 0~45ºC
Storage –20~60ºC
Operation
20~85RH
Storage 5~85%RH
Temperature on surface of LCD panel should be under 54.
Maximum wet-bulb temperature should not exceed 29ºC. No condensation.
㪙㩷
10~500Hz, 1octave/20minute,
Vibration Non-operation
2G, 1.5mm max, 1hour each X, Y and Z directions
For single module without package.
Shock Non-operation
30G, 6ms, 1time each ±X, ±Y and ±Z directions.
NOTE Table 13-2 and Figure 13-1 show the shock resistance standard when module is packaged.
㪚㩷
Table 13-2 Shock resistance standard when module is packaged
Dropping location Dropping height Count
A~J 60cm 1 time
G (Top face) J
Rear face)
C (Edge)
㪛㩷
F (Side face)
Side face)
E
Front face)
I
D (Edge) H (Bottom face)
B (Edge)
Corner)
Figure 13-1 Direction to apply shock to package
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
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14. INDICATIONS
LCD 䌵䌮䌩䌴.
NA19025-C451
3 9 0 0 0 0 1
15. PACKAGING
㪣㪚㪛㩷㫌㫅㫀㫋
This module has the following indications.
㪘㩷
(1) Product name : L
(2) Model Number : N
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(See Figure 14-2)
(See Figure 14-2)
(3) Manufacturing Number : 3
Serial number (To be reset every month on 1st.)
㪙㩷
Manufacturing month (Oct. = X, Nov. =Y, Dec. =Z)
Last digit of manufacturing year.
(4) Disposal method of cold-cathode tubes. (See Figure 14-1)
(5) Caution when changing cold-cathode tubes. (See Figure 14-1)
䊶㪮㪟㪜㪥㩷㪚㪟㪘㪥㪞㪠㪥㪞㩷㪚㪦㪣㪛㩷㪚㪘㪫㪟㪦㪛㪜㩷㪝㪣㪬㪦㪩㪜㪪㪚㪜㪥㪫㩷㪣㪘㪤㪧㪪㪃㩷㪝㪦㪣㪣㪦㪮㩷㪦㪧㪜㪩㪘㪫㪠㪥㪞㩷
㪚㩷
㪪㪧㪜㪚㪠㪝㪠㪚㪘㪫㪠㪦㪥㪪㪅
Ⱟశ▤䈱឵䈲૞ᬺ઀᭽ᦠ䈮ᓥ䈦䈩ⴕ䈦䈩䈘䈇䇯․䈮Ⱟశ▤䊖䊦䉻஥㕙䈱䉣䉾䉳䈮᳇䉕䈧䈔䈩 䈘䈇䇯㩷
㪫㪟㪠㪪㩷㪫㪝㪫㩷㪚㪦㪣㪦㪩㩷㪣㪚㪛㩷㪚㪦㪥㪫㪘㪠㪥㪪㩷㪚㪦㪣㪛㩷㪚㪘㪫㪟㪦㪛㪜㩷㪝㪣㪬㪦㪩㪜㪪㪚㪜㪥㪫㩷㪣㪘㪤㪧㪪㪅㩷
㪧㪣㪜㪘㪪㪜
ᒰ⹥ᶧ᥏䊂䉞䉴䊒䊧䉟䊡䊆䉾䊃䈮䈲Ⱟశ▤䈏⚵䉂ㄟ䉁䉏䈩䈇䉁䈜䈱䈪䇮㩷 ࿾ᣇ⥄ᴦ૕䈱᧦଀䉁䈢䈲ⷙೣ䈮ᓥ䈦䈩ᑄ䈚䈩䈘䈇䇯㩷
㪜㪪㪧㪜㪚㪠㪘㪣㪣㪰㩷㪙㪜㩷㪚㪘㪩㪜㪝㪬㪣㩷㪘㪙㪦㪬㪫㩷㪫㪟㪜㩷㪣㪘㪤㪧’㪪㩷㪪㪠㪛㪜㪄㪜㪛㪞㪜㪅㩷
㪝㪦㪣㪣㪦㪮㩷㪣㪦㪚㪘㪣㩷㪦㪩㪛㪠㪥㪘㪥㪚㪜㪪㩷㪦㪩㩷㪩㪜㪞㪬㪣㪘㪫㪠㪦㪥㪪㩷㪝㪦㪩㩷㪠㪫㪪㩷㪛㪠㪪㪧㪦㪪㪘㪣㪅㩷
㩷㩷㩷㩷㩷㩷㩷㩷㩷 㩷 㩷 㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㩷㪊㪐㪇㪇㪇㪇㪈㩷 㩷㩷㩷㪥㪘㪈㪐㪇㪉㪌㪄㪚㪋㪍㪈㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷 㩷
㪅㩷
Figure 14-1
Figure 14-2
㪛㩷
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
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15-1 Packing specifications
(1) 4LCD modules/1package. (2) Weight: approximately 17kg/1package. (3) Outline dimensions: 576mm(W)x316mm(D)x508mm(H)
15-2 Packing method
Figure 15-1,2 shows the packing method.
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
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㪘㩷
Protective sheet
Front side
㪙㩷
Rear side
㪚㩷
㪛㩷
Anti-Electric Bag
Front side
Fig.15-2 (a)Packaging Method
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
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㪙㩷
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Holder (bottom)
LCD unit
Holder (top,left)
Holder (top,right)
㪚㩷
508
㪛㩷
576
316
Label (example)
ဳ ᩰ (TYPE) ᢙ ㊂ (QTY.) 4 ࿑ ⇟ NA19025-C461   ᢙ
(DRWG. NO.) (REV. NO.)
Bar code
3900001 3900002 3900003 3900004
Bar code
Bar code
MADE IN JAPAN
• Taping Top : H or I method Bottom : H method
• Top and bottom holders should be anti-electrostatic t
e.
Fig.15-2 (b)Packaging Method
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
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Top Board
Corrugated
㪙㩷
PP Belt
lane)
1652 (By Ship)
Air
Carton Angle
1144 (B
㪚㩷
㪛㩷
900
900
Wrap Film
Up and Down : 3 times wrap Middle : 2 times wrap
Note:1) 4 boxes3 layers (maximum 12 boxes) : by ship
4 boxes2 layers (maximum 8 boxes) : by airplane
Note:2) This drawing shows marine transportation specification.
Fig.15-2 (c)Packaging Method
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
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㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
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Cushioning material
㪙㩷
602
(580)
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Corrugated carton (A) with LCD modules
Corrugated fiberboard shipping container (B)
(430)
446
646
(630)
㪚㩷
Note 1) The carton (A) should be placed in the middle of the container (B) with enough cushioning
materials.
Note2) The figures in () show inside measurements of the container (B).
Figure.15-2 (d)Packing method
㪛㩷
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
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㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
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16.PRECAUTIONS
(1) Handling of LCD panel
Ԙ Do not apply any strong mechanical shock to the LCD panel.
ԙ Do not press hard on the LCD panel surface.
Ԛ Do not scratch the polarizer film on the LCD panel surface.
Adhere to the following precautions to use this LCD module properly.
㪘㩷
Since the LCD panel is made of glass, excessive shock may damage the panel or cause a malfunction.
In the LCD panel, the gap between two glass plates is kept perfectly even to maintain display properties and reliability. The hard pressure on the LCD panel may cause the
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following problems. If the pressure is over 2kg/cm2, the problem don’t return to normal Condition.
Ԙ Ununiformity of color ԙ Disorder of orientation of liquid crystal
Problem Ԙ returns to normal condition after a while. Problem ԙ returns to normal condition by turning the power off and turning on again. However these operations should be avoided to insure reliability.
Do not press or rub the display surface with a hard tool, tweezers, etc.
For handling, use cotton or conductive gloves so that the display surface is not soiled.
㪚㩷
If dust or dirt soils the display surface, clean it as follows with a soft cloth (deerskin, etc.)
[Dust] Wipe off with a soft cloth. (do not rub.) [Dirt ] Apply clear water to a soft cloth and squeeze hard out of water drops, then lightly
wipe off the specified parts. Only if the dirt is hardly wiped off, use isopropyl alcohol
or ethanol. Be careful not to splash the water or the solvents on the edge of polarizer and in the LCD unit.
㪛㩷
The polarizer possibly exfoliates due to the solvent and water penetrated between the polarizer and the LCD panel. Do not use unspecified solvent such as ketone (acetone, etc.) and aromatics (xylene,
toluene, etc.)
(Caution) Be careful not to allow the water or solvent to enter the module. If saliva or water drops are left for a long period of time, the part may become deformed or discolored.
Wipe off immediately in the same way as for dirt.
Do not allow oil to adhere to the module since excessive oil is hard to clean.
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
.
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
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ԛ Do not place or contact objects on the display surface for a long period of time.
(2) Handling of LCD module
Ԙ Do not pull the cold-cathode tube cable strongly.
ԙ Assemble the module into user’s system in a dust free environment.
Ԛ Take anti-electrostatic measures for assembling the module.
ԛ Do not pull the connecting cable on the rear face of the LCD module strongly.
Ԝ Do not disassemble
or remodel the LCD module.
(3) Precautions in regards of operating the LCD module
ԘAdhere to the specified power supply sequence.
ԙDo not operate the LCD module when condensation occurs.
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This may make some parts of the LCD module distorted and the quality of display may deteriorate.
㪘㩷
If the cable is pulled with the strength of 2kg or more, the cable may be damaged or may lose reliability.
Conductive foreign matter adheres to the module may cause failures.
㪙㩷
Since the LCD module contains CMOS-ICs, the following points should be observed.
For assembling the module, operator should be grounded and wear cotton or conductive gloves.
Floor of work area and work table to assemble the LCD module should be covered with electrostatic shielding in order to discharge static electricity via an earth wire.
Do not take the module out of the conductive bag until the module is assembled.
㪚㩷
If necessary, ground operation tools (soldering iron, radio pliers, tweezers, etc.).
Do not assemble the module under low humidity (50%RH or less).
Disassembly or remodeling of the LCD module may result in malfunctions or deterioration of the display quality and reliability.
If not followed, the CMOS-IC may cause a latch-up, or DC voltage may be applied to the liquid crystal, which cause a failure or serious deterioration in display quality.
㪛㩷
If the LCD module is operated when condensation is on the terminals of the LCD panel, the terminals cause electrochemical reaction, and may reach disconnection. Condensation easily occurs especially when the module is moved from cold environment to warm environment.
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
.
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
㪚㪟㪜㪚㪢㩷
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ԚThe following troubles occur when the LCD module is not used under recommended
temperature.
ԛBe sure to input the control signals at the correct timing.
(4) Precautions in regards of designing module mounting
ԘExcessive force should not be applied to
the screen or the rear side of the LCD module.
ԙAvoid twisting and bending the LCD module.
ԚAvoid extending the power cable between the LCD module and inverter.
ԛKeep the backlight cable apart from the metal enclosure of the LCD module.
ԜWhen Mounting LCD module with M3 screws (x4), tighten the screws with torque below
29.4Nm(3kgf).
(5) Storage method
ԘDo not store the LCD module in an atmosphere of organic solvent or corrosive ga
s.
ԙStore the LCD module in a Fujitsu package.
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㪘㩷
Operation under high temperature(>50ºC): Display colors shift to blue.
Storage under high temperature(>60ºC): The polarizer film deteriorates and contrast
decreases.
Operation under low temperature(< 0ºC): The response speed decreases considerably.
Storage under low temperature(<-20ºC): The liquid crystal may solidify and become
damaged.
㪙㩷
If control signals (DCLK, ENAB) are not input, or if the timing is out of the specified timing, DC voltage may be applied to the liquid crystal and, as a result, cause image sticking or deterioration of contrast.
Excessive pressure on the screen caused by the installation of the LCD module may deteriorate display quality and reliability. Brightness uniformity and the reliability of CCFL may decrease if the pressure is applied to
㪚㩷
the backlight module.
Excessive twist and bend may damage display quality and reliability.
This may cause the backlight to flicker or not to light.
When frequency current for backlight driving leak to the metal enclosure, the desired brightness may not be assured.
㪛㩷
In an organic solvent atmosphere, the polarizer film discolors and display quality deteriorates. In a corrosive gas environment, various parts of the module may corrode or deteriorate.
At storing, Fujitsu packages can be stacked up to 3 boxes. The LCD module is in an anti-static bag. Keep the module in that status.
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
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ԚThe LCD module is recommended to be stored in humidity controlled, cool and dark
locations.
(6) Disposal Method
Ԙ LCD module
ԙ Package
(7) Others
ԘIf the LCD panel is damaged, do not inhale and do not swallow the liquid crystal.
ԙFlux residue on the printed circuit board is harmless to the quality and reliability of LCD
module.
Recommended storage environment
㪘㩷
Place : Dark (avoid direct sunlight) Temperature : 1035ºC Humidity : 5060%RH
Note) If the module is left in an environment of 60ºC and above for a long period of time,
optical characteristics may deteriorate.
㪙㩷
The components of this LCD module can be grouped into metal, resin, glass and so on. As the backlight contains CCFL which includes mercury, it must be disposed according to the local ordinance or regulations.
All the packages are made of recyclable papers except the anti-ESD bag.
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If the liquid crystal adhere to the body or cloths, wash it off with soap immediately. Follow regular precautions for electronic components.
㪚㩷
Fujitsu has adopted non-wash technology on module assembly process.
㪛㩷
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
.
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
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8Return method of the LCD unit requested for repair or analysis of the problem
٤
1
Attach protective sheet.
٤
2
Put the LCD unit into the anti-electric bag
㪘㩷
When the LCD unit is packaged and returned, adhere to the following procedures not to
damage the LCD panel or the backlight cables. (Fig. 17-1(a)~(b))
When the LCD unit is returned without following the specified packaging procedures, FDTC
will not take responsibility for the damages caused by the failure of the packaging method.
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㪙㩷
Front side
Protective sheet
㪚㩷
㪛㩷
Anti-electric bag
Front side
Fig. 17-1(a) Packaging method
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
㪚㪟㪜㪚㪢
㪘㪧㪧㪩㪅㩷
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٤3 Storage into the container box
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㪘㩷
When using the container box manufactured by FDTC
Holder (bottom)
LCD unit
㪙㩷
Holder (top)
㪚㩷
* The front side of LCD units should
face the direction of the arrowhead
on holder(bottom).
Seal by tape
㪛㩷
* The direction of the arrowhead on holder (top) should face the front side of the LCD units.
**The arrowheads are shown on the holders.**
Fig. 17-1(b) Packaging method
When not using the container box manufactured by FDTC
Please pack the LCD units one by one and make sure not to damage the LCD unit when
transporting.
㪛㪘㪫㪜㩷 㪛㪦㪚㪬㪤㪜㪥㪫㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪜㪚㪫㪠㪦㪥㩷
㪜㪛㪠㪫㩷
㪛㪜㪪㪠㪞㪅㩷
㪛㪘㪫㪜㩷
㪛㪜㪪㪠㪞㪅㩷 㪛㪜㪪㪚㪩㪠㪧㪫㪠㪦㪥
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17.OTHERS
Specifications of the TFT-LCD panel and other components used in this LCD module are
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subject to change. Both parties shall discuss together and make the best effort to reach agreement in case of the rising of any doubt to the contents of the specifications. This LCD module is not designed for the purpose where high reliability is required, such as for aero-space equipment, control system of nuclear power and medical life-support equipment.
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㪚㪟㪜㪚㪢
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