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Product Specifications
19.0”SXGA TFT-LCD Module
Model Name: P
M190SX-70N01
LVDS(RGB *6BIT*2 channels)
Document No. Revision 1.0
(ϧ) Preliminary Specifications
( ) Final Specifications
Note :
1. The information contained herein is preliminary and may be changed without
prior notices.
2. Please contact Designer. before designing your
product based on this module specification.
3. The information contained herein is presented merely to indicate the
characteristics and performance of our products. No responsibility is assumed by
Designer for any intellectual property claims or other problems that may result
from application based on the module described herein.
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NOTICES
1. The contents stated in this document and the product may be subject to
change without prior notice.
When you kindly study to use this product, please ask us or our distributor
for the latest information.
2. This product is developed and produced for usage onto normal electronic
products (office automation equipments, communication peripherals, electric
appliance products, game machines, etc.) and is not suitable for applications
which need extremely high reliability and extreme safety (aero- or space-use
machines, control equipments for nuclear power, life keeping equipments,
etc.).
3. This document shall not grant or guarantee any right to adapt intellectual
property or any other patents of third party.
4. Please use this product correctly according to operating conditions and
precautions for use stated in this document.
Please install safety proof in your designing to avoid human accident, fire
accident and social damage, which may be resulted from malfunction of this
product.
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5. This product is not designed to withstand against radiant rays.
6. It is strictly prohibited to copy or publish a part or whole of this document
without our prior written approval.
REVISION HISTORY
DATE
Mar. 3,18 Ver.1 - Initial Release
REVISION
NO.
PAGE DESCRIPTIONS
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MECHANICAL CHARACTERISTICS
ITEM SPECIFICATION UNIT
Module size 404.6(W) x 330.0(H) x 21.0Typ.(t) mm
Resolution 1280 x RGB(W) x 1024(H) pixel
Sub pixel pitch 0.098(W) x 0.294(H) mm
Pixel pitch 0.294(W) x 0.294(H) mm
Active viewing area 376.32(W) x 301.056(H) mm
Bezel opening area 380.3(W) x 305.0(H) mm
Weight 2700Typ. g
ELECTRICAL ABSOLUTE MAXIMUM RATINGS
ITEM SYMBOL MIN MAX UNIT NOTE
Power supply voltage VDD-VSS 0 6.0 V
Lamp current IL - 8.0 mA
Lamp supply voltage
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Ta=25 degC
Ta=25 degC
VHV - 2000 Vrms
VLGND - 100 Vrms
ENVIRONMENTAL ABSOLUTE MAXIMUM RATINGS
Ta=25 degC
ITEM SYMBOL CONDITIONS MIN MAX UNIT NOTE
TST Storage -20 60 Ambient
temperature
Humidity - Ta=40 degC max. - 85 %RH No condensation
Vibration - Storage - 1.5 G Note 3
Shock - Storage - 40 G XYZ 11ms/direction
OP Operation 0 50
T
degC Note 1
Note 2
[Note 1] Care should be taken so that the LCD module may not be subjected to the
temperature beyond this specification.
[Note 2] Ta>40 degC: Absolute humidity shall be less than that of 85%RH/40 degC.
[Note 3] 10-200Hz, 30min/cycle, X/Y/Z each one cycle and except for resonant frequency.
ELECTRICAL CHARACTERISTICS
VDD=5.0V, fV=60Hz, fCLK=54MHz, Ta= 25degC
ITEM SYMBOL CONDITIONS MIN TYP MAX UNIT NOTE
Power supply voltage VDD-VSS 4.5 5.0 5.5 V
Input logic voltage
LVDS input
termination resistor
Power Supply current IDD Note 1 - 700 - mA
Vsync Frequency fV - 60 75 Hz
Hsync Frequency fH - 64 80 kHz
Main Frequency f
VTH High level - - +100
V
TL Low level -100 - -
R
T - 100 -
DCLK 45 54 65 MHz
mV V
CM=1.2V
[ Note 1 ] Typ. value : display pattern is 256 gray scale bar.
[ Note 2 ] V
CM : Common mode voltage of LVDS input
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OPTICAL CHARACTERISTICS
ITEM SYMBOL CONDITIONS MIN TYP MAX UNIT NOTE
Brightness B =0 deg. 200 250 - Cd/m
Brightness uniformity =0 deg. - - 85 -
Contrast ratio CR =0 deg. - 500 - -
Viewing angle range CR>10
Rise tr - 16 24 Response
time
Color of CIE
Coordinate
Fall tf
Red
Green
Blue
White
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Ta=25 degC, VDD=5.0V, fV=60Hz
Note
2
4,8
Note
5,6,8
Note
2,4,8
= 0” - 70 -
= 90” - 75 -
=180” - 70 -
deg.
=270” - 75 -
=0 deg.
- 9 16
ms.
x 0.600 0.630 0.660
y 0.320 0.350 0.380
x 0.265 0.295 0.325
y 0.570 0.600 0.630
x 0.110
=0 deg.
0.140
0.170
y 0.060 0.090 0.120
x 0.280 0.310 0.340
y
0.320 0.350 0.380
-
Note
1,2,4,8
Note
3,4,8
Note
4,8
WhiteDATA
tf
=270”
=180”
=0”
=90”
Black Black
100%
B
90%
10%
0%
tr
[Note 1] [Note 3] Response time
[Note 2] Contrast ratio "CR" is defined as :
Brightness at White
CR =
Brightness at Black
[Note 4] This shall be measured at center (point No.3 shown in Note 7).
[Note 5] The measurement points for the brightness uniformity shall be following 5 points
shown in Note 7.
[Note 6] The brightness uniformity shall be calculated by using following formula.
Maximum brightness of 5 points
Brightness uniformity =
Minimum brightness of 5 points
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[Note 7] Measurement points
1/6Hp
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5/6Hp 1/2Hp
1/6Vp
1
2
3
1/2Vp
5
Active area
5/6Vp
4
Vp: Total Number of Vertical pixel
Hp: Total Number of horizontal pixel
[Note 8] Measurement condition
(1) Measurement equipment: BM-7 (TOPCON Corp.), Field=2 degree
(2) Ambient temperature Ta: 25 +/- 2 degC
(3) LCD: All pixels are WHITE, V
IN=5.0V, fV=60Hz
(4) Measure after 30 minutes of Lamp warm up.
(5) I
L=6.5 mArms with the CFL inverter CFP-102.
BACKLIGHT CHARACTERISTICS
This module is used the backlight with 4 Lamps.
Please follow the characteristics of 1 Lamp as below.
Ta=25 degC
ITEM SYM.
Lamp voltage VL - 730 - Vrms at IL=6.5 mArms
Lamp current IL 3.0 - 7.0 mArms
Operating frequency fL 40 - 65 kHz
Start up voltage VS - - 1800 Vrms at Ta=0 degC
Lamp life
CONDITIONS
50000 - - Ho u rs at I
t
OL
MIN TYP MAX UNIT NOTE
Recommended value
Recommended value
L=6.5 mArms
[Note 1] Backlight driving conditions (operating frequency fL especially) may interfere with
horizontal frequency f
Therefore the operating frequency f
frequency f
to avoid interference. And, In case you drive 4 Lamps with 4 separate
H
, causing the beat or flicker on the display.
H
shall be adjusted in relation to horizontal
L
transformers, please make sure that frequency and phase of both transformers
match each other.
[Note 2] The inverter open voltage should be larger than start up voltage, otherwise backlight
may blinking for a moment after turns on or not be turned on. And this voltage
should be applied to lamp for more than 1 second to start up, otherwise backlight
may not be turned on.
[Note 3] If driving current waveform is asymmetrical, mercury deviation inside of Lamp will
incline to one side and consequently abnormal lighting may occur.
To prevent such unfavorable lighting, driving current waveform is asked to have
unbalance rate of less than 10% and wave-height rate of less than 2 +/- 10%.
And this driving waveform shall be confirmed in your system.
Ip
I-p
Unbalance rate = | I
Wave-height rate = I
p : High peak value
I
I
-p : Low peak value
I
L : Effective value
p - I-p | / IL x 100 (%)
p (or I-p) / IL
Current waveform
[Note 4] The inverter of ground reference type should be used .The inverter of ground floating
type should not be used.
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BLOCK DIAGRAM
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FLCN1FLCN2
CN1
VDD
VSS
ASIC
TFT
LDVS-Receiver
Timing
Generator
DC/DC
Converter
CFL
CFL
DATA
Source Driver
1280 x (RGB)
TFT Panel
1024
Gate Driver
FLCN3
FLCN4
Back Light
Vcom
CFL
CFL
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INTERFACE PIN CONNECTIONS
LCM : CN1
PIN NO. SYMBOL FUNCTION
1 RXO0- Negative Transmission Data of Pixel 0 (ODD data)
2 RXO0+ Positive Transmission Data of Pixel 0 (ODD data)
3 RXO1- Negative Transmission Data of Pixel 1 (ODD data)
4 RXO1+ Positive Transmission Data of Pixel 1 (ODD data)
5 RXO2- Negative Transmission Data of Pixel 2 (ODD data)
6 RXO2+ Positive Transmission Data of Pixel 2 (ODD data)
7 GND Power Ground
8 RXOC- Negative Sampling Clock (ODD data)
9 RXOC+ Positive Sampling Clock (ODD data)
10 RXO3- Negative Transmission Data of Pixel 3 (ODD data)
11 RXO3+ Positive Transmission Data of Pixel 3 (ODD data)
12 RXE0- Negative Transmission Data of Pixel 0 (EVEN data)
13 RXE0+ Positive Transmission Data of Pixel 0 (EVEN data)
14 GND Power Ground
15 RXE1- Negative Transmission Data of Pixel 1 (EVEN data)
16 RXE1+ Positive Transmission Data of Pixel 1 (EVEN data)
17 GND Power Ground
18 RXE2- Negative Transmission Data of Pixel 2 (EVEN data)
19 RXE2+ Positive Transmission Data of Pixel 2 (EVEN data)
20 RXEC- Negative Sampling Clock (EVEN data)
21 RXEC+ Positive Sampling Clock (EVEN data)
22 RXE3- Negative Transmission Data of Pixel 3 (EVEN data)
23 RXE3+ Positive Transmission Data of Pixel 3 (EVEN data)
24 GND Power Ground
25 NC No Connection
26 DE DE Out
27 NC No Connection
28 VDD Power Supply ( 5.0V normal )
29 VDD Power Supply ( 5.0V normal )
30 VDD Power Supply ( 5.0V normal )
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CN1 : FI-XB30SR-HF11 (JAE)
Suitable mating connector : FI-X30M/ FI-X30H/FI-X30C (JAE)
[Note 1] Internal termination resistors of LVDS input lines are 100 ohms.
Back Light : FLCN1,2,3,4
PIN NO. SYMBOL FUNCTION
1 H.V. High voltage for CFL
2 LGND Low voltage for CFL
FLCN1,2,3,4 : BHSR-02VS-1 (JST)
Suitable mating connector : SM02B-BHSS-1-TB (JST)
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INTERFACE (LVDS) ODD DATA ASSIGNMENT
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ORin0 +/-
ORin1 +/-
ORin2 +/-
ORin3 +/-
Rxout 7
OG0 (LSB)
Rxout 18
OB1
Rxout 26
DE
Rxout 23
RESERVED
Rxout 6
OR5
Rxout 15
OB0 (LSB)
Rxout 25
VSYNC
Rxout 17
OB7 (MSB)
Rxout 4
OR4
Rxout 14
OG5
Rxout 24
HSYNC
Rxout 16
OB6
Rxout 3
OR3
Rxout 13
OG4
Rxout 22
OB5
Rxout 11
OG7 (MSB)
Rxout 2
OR2
Rxout 12
OG3
Rxout 21
OB4
Rxout 10
OG6
Rxout 1
OR1
Rxout 9
OG2
Rxout 20
OB3
Rxout 5
OR7 (MSB)
Rxout 0
OR0 (LSB)
Rxout 8
OG1
Rxout 19
OB2
Rxout 27
OR6
ORCLK +/-
INTERFACE ODD SIGNALS
SYMBOL FUNCTION
ODCLK Odd Data Clock
HSYNC Horizontal Sync - This signal initiates a new line(negative).
VSYNC Vertical Sync - This signal initiates a new frame(negative).
DE Data Enable (positive)
OR0 Odd Red Data (LSB)
OR1 Odd Red Data
OR2 Odd Red Data
OR3 Odd Red Data
OR4 Odd Red Data
OR5 Odd Red Data
OR6 Odd Red Data
OR7 Odd Red Data (MSB)
OG0 Odd Green Data (LSB)
OG1 Odd Green Data
OG2 Odd Green Data
OG3 Odd Green Data
OG4 Odd Green Data
OG5 Odd Green Data
OG6 Odd Green Data
OG7 Odd Green Data (MSB)
OB0 Odd Blue Data (LSB)
OB1 Odd Blue Data
OB2 Odd Blue Data
OB3 Odd Blue Data
OB4 Odd Blue Data
OB5 Odd Blue Data
OB6 Odd Blue Data
OB7 Odd Blue Data (MSB)
[ Note 1 ] The valid synchronous signals are ODCLK and DE, HSYNC and VSYNC are
invalid.
[ Note 2 ] INTERFACE SIGNALS are loaded from LVDS-transmitter to TFT Timing
generator with LVDS sequence. (See BLOCK DIAGRAM.)
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INTERFACE (LVDS) EVEN DATA ASSIGNMENT
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ERin0 +/-
ERin1 +/-
ERin2 +/-
ERin3 +/-
Rxout 7
EG0 (LSB)
Rxout 18
EB1
Rxout 26
RESERVED
Rxout 23
RESERVED
Rxout 6
ER5
Rxout 15
EB0 (LSB)
Rxout 25
RESERVED
Rxout 17
EB7 (MSB)
Rxout 4
ER4
Rxout 14
EG5
Rxout 24
RESERVED
Rxout 16
EB6
Rxout 3
ER3
Rxout 13
EG4
Rxout 22
EB5
Rxout 11
EG7 (MSB)
Rxout 2
ER2
Rxout 12
EG3
Rxout 21
EB4
Rxout 10
EG6
Rxout 1
ER1
Rxout 9
EG2
Rxout 20
EB3
Rxout 5
ER7 (MSB)
Rxout 0
ER0 (LSB)
Rxout 8
Rxout 19
Rxout 27
ERCLK +/-
INTERFACE EVEN SIGNALS
SYMBOL FUNCTION
EDCLK Even Data Clock
ER0 Even Red Data (LSB)
ER1 Even Red Data
ER2 Even Red Data
ER3 Even Red Data
ER4 Even Red Data
ER5 Even Red Data
ER6 Even Red Data
ER7 Even Red Data (MSB)
EG0 Even Green Data (LSB)
EG1 Even Green Data
EG2 Even Green Data
EG3 Even Green Data
EG4 Even Green Data
EG5 Even Green Data
EG6 Even Green Data
EG7 Even Green Data (MSB)
EB0 Even Blue Data (LSB)
EB1 Even Blue Data
EB2 Even Blue Data
EB3 Even Blue Data
EB4 Even Blue Data
EB5 Even Blue Data
EB6 Even Blue Data
EB7 Even Blue Data (MSB)
EG1
EB2
ER6
[ Note 1 ] INTERFACE SIGNALS are loaded from LVDS-transmitter to TFT Timing
generator with LVDS sequence. (See BLOCK DIAGRAM.)
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INTERFACE SIGNAL TIMING PARAMETERS ( DE_MODE )
PARAMETER SYMBOL MIN TYP MAX UNIT NOTE
DCLK Frequency fCLK 45.0 54.0 65.0 MHz
Horiz. Period tHP 680 844 1024 tCLK
DE
Horiz. DE tHDE 640 640 640 tCLK
Vert. Period tVP 1029 1066 1100 tHP fv=60Hz Typ.
Vert. DE
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n
VDE
1024 1024 1024 n
[Note 1] fH(Horizontal Frequency) = 1/t
f
(Vertical Frequency) = 1/t
V
HP
VP
[Note 2] These signal timing parameters are specified at the digital inputs of LVDS
transmitter.
INTERFACE SIGNAL TIMING DIAGRAM ( DE_MODE )
t
CLK
DCLK
CLKL
RGB DATA
DE
t
Invalid Data
t
SI
SD
t
tHD
(Data: Latched at fall edge DCLK)
Invalid Data
SI
t
t
HI
t
t
HP
HDE
t
HI
DE
DE
shrink
tVP
1 2 - - - - - - n-1 n
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RELATIONSHIP BETWEEN INPUT DATA AND DISPLAY COLOR
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INPUT
MSB LSB MSB LSB MSB LSB
DATA
ISPLAY
COLOR
BLACK L L L L L L L L L L L L L L L L L L L L L L L L
RED(255) H H H H H H H H L L L L L L L L L L L L L L L L
GREEN(255) L L L L L L L L H H H H H H H H L L L L L L L L
BLUE(255) L L L L L L L L L L L L L L L L H H H H H H H H
CYAN L L L L L L L L H H H H H H H H H H H H H H H H
MAGENTA H H H H H H H H L L L L L L L L H H H H H H H H
BASIC COLOR
ELLOW H H H H H H H H H H H H H H H H L L L L L L L L
HITE H H H H H H H H H H H H H H H H H H H H H H H H
BLACK L L L L L L L L L L L L L L L L L L L L L L L L
RED(1) L L L L L L L H L L L L L L L L L L L L L L L L
RED(2) L L L L L L H L L L L L L L L L L L L L L L L L
: : : :
RED
RED(253) H H H H H H L H L L L L L L L L L L L L L L L L
RED(254) H H H H H H H L L L L L L L L L L L L L L L L L
RED(255) H H H H H H H H L L L L L L L L L L L L L L L L
BLACK L L L L L L L L L L L L L L L L L L L L L L L L
GREEN(1) L L L L L L L L L L L L L L L H L L L L L L L L
GREEN(2) L L L L L L L L L L L L L L H L L L L L L L L L
: : : :
GREEN
GREEN(253) L L L L L L L L H H H H H H L H L L L L L L L L
GREEN(254) L L L L L L L L H H H H H H H L L L L L L L L L
GREEN(255) L L L L L L L L H H H H H H H H L L L L L L L L
BLACK L L L L L L L L L L L L L L L L L L L L L L L L
BLUE(1) L L L L L L L L L L L L L L L L L L L L L L L H
BLUE(2) L L L L L L L L L L L L L L L L L L L L L L H L
: : : :
BLUE
BLUE(253) L L L L L L L L L L L L L L L L H H H H H H L H
BLUE(254) L L L L L L L L L L L L L L L L H H H H H H H L
BLUE(255) L L L L L L L L L L L L L L L L H H H H H H H H
OR7 OR6 OR5 OR4 OR3 OR2 OR1 OR0 OG7 OG6 OG5 OG4 OG3 OG2 OG1 OG0 OB7 OB6 OB5 OB4 OB3 OB2 OB1 OB0
ER7 ER6 ER5 ER4 ER3 ER2 ER1 ER0 EG7 EG6 EG5 EG4 EG3 EG2 EG1 EG0 EB7 EB6 EB5 EB4 EB3 EB2 EB1 EB0
R DATA G DATA B DATA
[Note 1] Color(n) --- ’n’ indicates gray scale step.
RELATIONSHIP BETWEEN INPUT DATA AND DISPLAY POSITION
Odd Even
R G B R G B
1.1 1.2 1.3 . . . . . . . . 1.1279 1.1280
2.1 2.2 2.1280
3.1
.
.
.
Vp.Hp R G B
1023.1 1023.1280
1024.1 1024.2 . . . . . . . . . . 1024.1279 1024.1280
Odd : OR0-7, OG0-7, OB0-7
Even : ER0-7, EG0-7, EB0-7
.
.
.
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POWER ON/OFF SEQUENCE REQUIREMENT
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VDD
Logic input
CFL
(Recommend)
0V
0 < t1<25ms
0V
10%
0 < t2< 65ms
100ms < t6
ON
OFF
Power-on
90%
90%
10%
15ms < t3 < 200ms
0 < t4 < 20ms
VALID DATA
Power-off
90%
10%
1sec < t5
90%
10%
0ms < t7
When the power is off, logic input must be kept at either low level or high impedance.
Power sequence for Lamp (backlight) is not specified especially, however it is
recommended to consider some timing difference between logic input as shown above.
If backlight lights on before LCD starts function, or if backlight is kept on after LCD
stopped function, screen may look white for a moment or abnormal image may be
displayed.
This is caused by variation in output signal from timing generator at logic input on or
off. It does not cause damage to liquid crystal molecule and driving circuit.
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PRECAUTIONS (INSTRUCTIONS FOR SAFE AND PROPER USE)
1. Instructions for safety
(1) Please do not disassemble or modify LCD module to avoid the possibility of
electric shock, damage of electronic components, scratch at display surface and
invasion of foreign particles. In addition, such activity may result in fire accident
due to burning of electronic component.
LCD module disassembled or modified by customer is out of warranty.
(2) Please be careful in handling of LCD module with broken glass.
When the display glass breaks, please pay attention not to injure your fingers. The
display surface has the plastic film attached, which prevents dispersion of glass
pieces, however touching broken edge will injure your fingers. Also Lamp (Cold
Cathode Fluorescent Lamp) is made of glass, therefore please pay attention in
the same way.
(3) Please do not touch the fluid flown out of broken display glass.
If the fluid should stick to hand or clothes, wipe off with soap or alcohol
immediately and then wash it with water. If the fluid should get in eyes, wash eyes
immediately with pure water for more than 15 minutes and then consult the doctor.
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(4) Please make secure connection of Lamp connector.
Please make sure that Lamp connector from LCD module is connected with
output connector on inverter circuit securely. Poor connection may cause smoke
or fire accident due to high voltage in circuit. If connection may not be secure,
please switch off the power supply for LCD module and Lamp and then make
secure connection.
Please do not make connection with another connector than recommended
mating connector.
(5) Lamp contains mercury inside. Please follow regulations or rules established by
local autonomy at its disposal.
(6) Please be careful to electric shock.
Before handling LCD module, please switch off the power supply.
Since high voltage is applied to Lamp terminal, cable, connector and inverter
circuit in operation mode, touching them will cause electric shock.
2. Instructions for designing
(1) Mounting of LCD
Please fix LCD module at all mounting flanges shown in this specification for
installation onto system. The used screws should have proper dimensions.
Furthermore, designing of mounting parts should be adequate so that LCD
module is not warped or twisted, to achieve good display quality.
(2) Polarity of power supply for Lamp
Please give careful consideration in designing so that each polar of cable should
be connected correctly at assembling (i.e. high voltage side is connected to high
voltage side and low voltage side is connected to low voltage side). Since longer
Lamp cable may cause insatiable start-up of Lamp and reduction of brightness,
please make cable short as much as possible.
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(3) Designing of power supply circuit for Lamp
Please design the circuit so that high voltage output can be kept for more than 1
second. The shorter time may not start up Lamp. The driving inverter circuit is
recommended to be the type which Lamp current can be controlled.
The type which voltage is controlled is not recommended, because it may cause
big current under high temperature and insatiable start-up of Lamp under low
temperature.
(4) Heat radiation
Lamp generates heat at lighting and causes temperature rise inside system.
Therefore, designing to radiate heat like radiation slits at cabinet is recommended
to meet the specified operating temperature range for LCD module.
(5) Noise on power line
Spike noise contained in power line causes abnormal operation of driving circuit
and abnormal display. To avoid it, spike noise should be suppressed below VDD
+/- 200mVp-p. (In any case, absolute maximum rating should be kept.)
(6) Power sequence
Before LCD module is switched on, please make sure that power supply and input
signals of system, testing equipment, etc. meet the recommended power
sequence.
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(7) Absolute maximum rating
Absolute maximum rating specified in this specification has to be kept in any case.
It shows the maximum that cannot be exceeded.
Exceeding it may cause burning or non-recoverable break of electronic
components in circuit. Please make system design so that absolute maximum
rating is not exceeded even if ambient temperature, input signal and components
are varied.
(8) Protection for power supply
Please study to adapt protection for power supply against trouble of LCD module,
depending on usage condition of system. Fuse installed on LCD module should
be never modified. Any modification to make the function of fuse ineffective may
cause burning or break of printed wiring board or other components at circuit
trouble.
(9) Protection against electric shock
High voltage is applied to Lamp connector, inverter circuit and Lamp at lighting.
Please make design not to expose or be accessible to such high voltage parts to
avoid electric shock.
(10) Protection cover and cut-off filter for ultraviolet rays
When LCD module is used under severe condition like outdoor, it is
recommended to use transparent protection cover over display surface to avoid
scratches and invasion of dust and water. In addition, when LCD module is
exposed to direct sun light for long time, use of cut-off filter for ultraviolet rays is
also recommended. Please be careful not to get condensation.
3. Instructions for use and handling
(1) Protection against Static electricity
C-MOS LSI and semiconductors are easily damaged by static discharge. LCD
module should be handled on conductive mat by person grounded with wrist strap
etc. to avoid getting static electricity. Please be careful not to generate static
electricity during operation.
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(2) Protection against dust and stain
LCD module should be handled in circumstance as clean as possible.
It is recommended to wear fingerstalls or ductless and soft gloves before handling
to avoid getting dust or stain on display surface.
(3) Protection film for display surface
It is recommended to remove protection film at nearly final process of assembling
to avoid getting scratch or dust. To remove film, please pick up its edge with
dull-head tweezers or cellophane tape at first and then remove film gradually
taking more than 3 seconds. If film is removed quickly, static electricity may be
generated and may damage semiconductors or electronic components.
(4) Contamination of display surface
When display surface of LCD module is contaminated, please wipe the surface
softly with cotton swab or clean cloth. If it is not enough, please take it away with
cellophane tape or wipe the surface with cotton swab or clean cloth containing
benzine. In this case, please be careful so that benzine does not get in inside of
LCD module, because it may be damaged.
(5) Water drop on LCD surface
Please do not leave LCD module with water drop. When the display surface gets
water drop, please wipe it off with cotton swab or soft cloth immediately, otherwise
display surface will be deteriorated.
If water gets in inside of LCD module, circuit may be damaged.
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(6) Please make sure that LCD module is not warped or twisted at installation into
system. Even temporary warp or twist may be the cause for failure.
(7) Mechanical stress
Please be careful not to apply strong mechanical stress like drop or shock to LCD
module. Such stress may cause break of display glass and Lamp or may be the
cause for failure.
(8) Pressure to display surface
Please be careful not to apply strong pressure to display surface. Such pressure
may cause scratches at surface or may be the cause of failure.
(9) Protection against scratch
Please be careful not to hit, press or rub the display surface with hard material like
tools. In addition, please do not put heavy or hard material on display surface, and
do not stack LCD modules. Polarizer at front surface can be easily scratched.
(10) Plugging in of connector
Please be careful not to apply strong stress to connector part of LCD module at
plugging in or out, because strong stress may damage the inside connection. At
plugging in connector, place LCD module on the flat surface and hold the
backside of connector on LCD module. Please make sure that connector is
plugged in correctly. Insecure connection may be the cause for failure during
operation.
In addition, please be careful not to put the connecting cable between cabinet of
system and LCD module at installing LCD module into system.
(11) Handling of Lamp cable and FPC (Flexible Printed Circuit)
Please be careful not to pull or scratch Lamp cable, because Lamp or soldered
part of cable may be damaged consequently.
Also FPC should not be pulled or scratched.
(12) Switching off before plugging in connector
Please make sure that power is switched off before plugging in connector.
If power is on at plugging in or out, circuit of LCD module may be damaged.
When LCD is switched on for test or inspection, please make sure that power
supply and input signals of driving system meet the specified power sequence.
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(13) Temperature dependence of LCD display
Response speed (optical response) of LCD display is dependent on temperature.
Under low temperature, response speed is slower.
Also brightness and chromaticity change slightly depending on temperature.
(14) Slow light-up of Lamp under low temperature
Under low temperature, start-up of Lamp gets difficult. (The time from switch-on to
stable lighting becomes longer.)
As characteristic of Lamp, operation under low temperature makes the life time
shorter. To avoid this, it is recommended to operate under normal temperature.
(15) Condensation
LCD module may get condensation on its display surface and inside in the
circumstance where temperature changes much in short time.
Condensation can cause deterioration or failure. Therefore, please be careful not
to get condensation.
(16) Remaining of image
Displaying the same pattern for long time may cause remaining of image even
after changing the pattern. This is not failure but will disappear with time.
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4. Instructions for storage and transportation
(1) Storage
Please store LCD module in the dark place of room temperature and low humidity
in original packing condition, to avoid condensation that may cause failure.
Since sudden temperature change may cause condensation, please store in
circumstance of stable temperature.
(2) Stacking number
Since excessive weight causes deformation and damage of carton box, please
stack only up to the number stated on carton box for storage and transportation.
(3) Handling
Since LCD module consists of glass and precise electronic components, it will be
damaged by excessive shock and drop. Therefore, please handle the carton box
carefully to minimize shock at loading, reloading and transportation.
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