KAOHSIUNG HITACHI ELECTRONI CS CO., LTD.
FOR MESSRS: DATE: Nov. 25th 2011
CUSTOMER’S ACCEPTANCE SPECIFICATIONS
TX14D11VM1CBD
Contents
No. ITEM SHEET No. PAGE
1 COVER 7B64PS 2701-TX14D11VM1CBD-2 1-1/1
2 RECORD OF REVISION 7B64PS 2702-TX14D11VM1CBD-2 2-1/1
3 GENERAL DATA 7B64PS 2703-TX14D11VM1CBD-2 3-1/1
4 ABSOLUTE MAXIMUM RATINGS 7B64PS 2704-TX14D11VM1CBD-2 4-1/1
5 ELECTRICAL CHARACTERISTICS 7B64PS 2705-TX14D11VM1CBD-2 5-1/1
6 OPTICAL CHARACTERISTICS 7B64PS 2706-TX14D11VM1CBD-2 6-1/2~2/2
7 BLOCK DIAGRAME 7B64PS 2707-TX14D11VM1CBD-2 7-1/1
8 RELIABILITY TESTS 7B64PS 2708-TX14D11VM1CBD-2 8-1/1
9 LCD INTERFACE 7B64PS 2709-TX14D11VM1CBD-2 9-1/4~4/4
10 OUTLINE DIMENSIONS 7B63PS 2710-TX14D11VM1CBD-2 10-1/2~2/2
11 APPEARANCE STANDARD 7B64PS 2711-TX14D11VM1CBD-2 11-1/3~3/3
12 PRECAUTIONS 7B64PS 2712-TX14D11VM1CBD-2 12-1/2~2/2
13 DESIGNATION OF LOT MARK 7B64PS 2713-TX14D11VM1CBD-2 13-1/1
ACCEPTED BY: PROPOSED BY:
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2. RECORD OF REVISION
DATE SHEET No. SUMMARY
Nov.25,’11 7B64PS 2706-
TX14D11VM1CBD-2
PAGE 6-1/2
6. OPTICAL CHARACTERISTICS
Revised: Item Symbol Min. Typ. Max.
Color
Chromaticity Green X 0.33 0.38 0.43
Item Symbol Min. Typ. Max.
Color
Chromaticity Green X 0.28 0.33 0.38
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3. GENERAL DATA
3.1 DISPLAY FEATURES
This module is a 5.7” QVGA of 4:3 format amorphous silicon TFT.The pixel format is vertical stripe and
sub pixels are arranged as R(red), G(green), B(blue) sequentially. This display is RoHS compliant, and
COG (chip on glass) technology and LED backlight are applied on this display
Part Name TX14D11VM1CBD
Module Dimensions 167.0(W) mm x 109.0(H) mm x 9.2(D) mm typ.
LCD Active Area 115.2(W) mm x 86.4(H) mm
Dot Pitch 0.12(W) mm x 3(R, G, B)(W) x 0.36(H) mm
Resolution 320 x 3(RGB)(W) x 240(H) dots
Color Pixel Arrangement R, G, B Vertical stripe
LCD Type Transmissive Color TFT; Normally White
Display Type Active Matrix
Number of Colors 262k Colors
Backlight 7 LEDs parallel x 3 serial (21 LEDs in total)
Weight 165g typ.
Interface C-MOS; 18-bit RGB; 40 pins
Power Supply Voltage 3.3V for LCD; 12V for Backlight
Power Consumption 215 mW for LCD; 1.0 W for backlight
Viewing Direction 6 O’clock (without image inversion and l east brightness change )
12 O’clock (contrast peak located at)
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4. ABSOLUTE MAXIMUM RATINGS
Item Symbol Min. Max. Unit Remarks
Supply Voltage VDD -0.3 4.0 V -
Input Voltage of Logic VI -0.2 VDD+0.2 V Note 1
Operating Temperature Top -20 70 C
Note 2
Storage Temperature Tst -30 80 C
Note 2
Note 1: The rating is defined for the signal voltages of the interface such as DTMG, DCLK and RGB
data bus.
Note 2: The maximum rating is defined as above based on the temperature on the panel surface, which
might be different from ambient temperature after assembling the panel into the application.
Moreover, some temperature-related phenomenon as below needed to be noticed:
- Background color, contrast and response time would be different in temperatures other than
25 C
.
- Operating under high temperature will shorten LED lifetime.
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5. ELECTRICAL CHARACTERISTICS
5.1 LCD CHARACTERISTICS
Item
Symbol
Condition Min. Typ. Max. Unit Remarks
Power Supply Voltage VDD - 3.0 3.3 3.6 V -
Input Voltage of Logic VI “H” level 0.8VDD - VDD V Note 1
“L” level VSS - 0.2VDD
Power Supply Current IDD VDD-VSS=3.3V - 65 - mA Note 2
Vsync Frequency v
f
- - 60 68 Hz -
Hsync Frequency
H
f
- 13.1 15.2 17.7 KHz -
DCLK Frequency CLK
f
- 4.85 5.85 7.0 MHz -
Note 1: The rating is defined for the signal voltages of the interface such as DTMG, DCLK and RGB
data bus.
Note 2: An all black check pattern is used when measuring IDD, v
f
is set to 60 Hz.
5.2 BACKLIGHT CHARACTERISTICS
Item
Symbol
Condition Min. Typ. Max. Unit Remarks
LED Input Voltage VLED Backlight Unit 11.5 12.0 12.5 V Note1
LED Forward Current ILED Backlight Unit - 84 91 mA -
LED Lifetime - 84 mA - 40K - hrs Note 2
Note 1: Fig. 5.1 shows the LED backlight circuit. The circuit has 21 LEDs in total and R is 255
.
Note 2: The estimated lifetime is specified as the time to reduce 50% brightness by applying 84 mA at
25 C
.
R
R
R
R
GND
VLED(+)
84mA
X 7 Paraller
0VVSS ,25 CTa
CTa
25
Fig. 5.1
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6. OPTICAL CHARACTERISTICS
The optical characteristics are measured based on the conditions as below:
- Supplying the signals and voltages defined in the section of electrical characteristics.
- The backlight unit needs to be turned on for 30 minutes.
- The ambient temperature is 25 C
.
- In the dark room around 500~1000 lx, the equipment has been set for the measurements as shown in
Fig 6.1.
3.3V
Item Symbol Condition Min. Typ. Max. Unit Remarks
Brightness of White -
0 ,0
,
ILED= 84 mA
320 400 - 2
cd/m
Note 1
Brightness Uniformity - 70 - - % Note 2
Contrast Ratio CR 120 350 - - Note 3
Response Time
0 ,0
- 45 - ms -
NTSC Ratio -
0 ,0
- 45 - % -
Viewing Angle
x
10 CR ,0
50 60 -
Degree Note 5
x
10 CR ,180
50 60 -
y
10 CR ,90
65 75 -
y
10 CR ,270
45 55 -
Color
Chromaticity
Red X
0 ,0
0.55 0.60 0.65
- Note 6
Y 0.31 0.36 0.41
Green X 0.28 0.33 0.38
Y 0.53 0.58 0.63
Blue X 0.10 0.15 0.20
Y 0.03 0.08 0.13
White X 0.30 0.35 0.40
Y 0.30 0.35 0.40
Note 1: The brightness is measured from the center point of the panel, P5 in Fig. 6.2, for the typical
value.
Note 2: The brightness uniformity is calculated by the equation as below:
, which is based on the brightness values of the 9 points measured by BM-5 as shown in Fig. 6.2.
VDDHz, 60 25 va fCT ,
LCD panel
Photo detector:BM-5A
Field 1∘ Distance:500 mm
Fig. 6.1
P1
Y=60x3
X=170
Y=160x3 Y=260x3
X=120
X=70 P4
P7
P2
P5
P8 P9
P6
P3
Dot(0,0)
Fig. 6.2
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Brightness uniformity = X100%
Min. Brightness
Max. Brightness
Note 3: The Contrast ratio is measured from the center point of the panel, P5, and defined as the
following equation:
Note 4: The definition of response time is shown in Fig. 6.3. The rising time is the period from 90%
brightness to 10% brightness when the data is from white to black. Oppositely, Falling time is
the period from 10% brightness rising to 90% brightness.
Data
signal WhiteWhite Black
0
10
90
100 %
Brightness
Tr Tf
Rising time Falling time
Fig . 6.3
Note 5: The definition of viewing angle is shown in Fig. 6.4. Angle
is used to represent viewing
directions, for instance,
270
means 6 o’clock, and
0
means 3 o’clock. Moreover, angle
is used to represent viewing angles from axis Z toward plane XY.
The viewing direction of this display is 6 o’clock, which means that a photograph with gray
scale would not be reversed in color and the brightness change would be less from this
direction. However, the best contrast peak would be located at 12 o’clock.
3 o'clock
xx'
y
y'
z
z'
,0)y (x,
0
90
180
270
6 o'clock
12 o'clock
9 o'clock
= Viewing angle
Fig. 6.4
Note 6: The color chromaticity is measured from the center p oint of th e p anel, P5, a s shown in Fig. 6.2.
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CR =
Brightness of White
Brightness of Black
7 BLOCK DIAGRAM
5.7 QVGA LCD panel
Source Driver
Gate Driver
CN1 CN2
Power
Circuit
Gamma
Voltage
Generator
VDD
(240, 1) (240, 960)
(1, 960)
LED Backlight
Signals
VLED
(1, 1)
Note 1: Signals are DCLK, Hsync, Vsync ,DE and RGB data bus.
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8. RELIABILITY TESTS
Test Item Condition
High Temperature
1) Operating
2) 70
C
240 hrs
Low Temperature
1) Operating
2) -20
C
240 hrs
High Temperature
1) Storage
2) 80
C
240 hrs
Low Temperature
1) Storage
2) -30
C
240 hrs
Heat Cycle
1) Operating
2) –20
C
~70
C
3) 3hrs~1hr~3hrs
240 hrs
Thermal Shock
1) Non-Operating
2) -35 C
85
C
3) 0.5 hr
0.5 hr
240 hrs
High Temperature &
Humidity
1) Operating
2) 40
C
& 85%RH
3) Without condensation
4) Note 3
240 hrs
Vibration
1) Non-Operating
2) 20~200 Hz
3) 2G
4) X, Y, and Z directions
1 hr for each direction
Mechanical Shock
1) Non-Operating
2) 10 ms
3) 50G
4)
Y X,
and
Z
directions
Once for each direction
ESD
1) Operating
2) Tip: 200 pF, 250
3) Air discharge for glass:
8KV
4) Contact discharge for metal frame:
8KV
1) Glass: 9 points
2) Metal frame: 8 points
Note 1: Display functionalities are inspected under the conditions defined in the specification after the
reliability tests.
Note 2: The display is not guaranteed for use in corrosive gas environments.
Note 3: Under the condition of high temperature & humidity, if the temperature is higher than 40 C
, the
humidity needs to be reduced as Fig. 8.1 shown.
Note 4: All pins of LCD interface (CN1) have been tested by
100V contact discharge of ESD under
non-operating condition.
0
10
20
30
40
50
60
70
80
90
20 25 30 35 40 45 50 55 60 65 70 75
Fig. 8.1
Temperature Ta
C)(
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9. LCD INTERFACE
9.1 INTERFACE PIN CONNECTIONS
The display interface connector is FA5B040HP1R3000 made by JAE (Thickness: 0.30.05mm; Pitch:
0.50.05mm) and more details of the connector are shown in the section of outline dimension.
Pin assignment of LCD interface is as below:
Pin No. Signal Function Pin No. Signal Function
1 VDD
Power Supply for Logic
21 G4
Green Data
2 VDD 22 G3
3 VDD 23 VSS GND
4 VDD 24 G2
Green Data
5 NC No Connection 25 G1
6 DTMG Timing Signal for Data 26 G0
7 VSS GND 27 VSS GND
8 DCLK Dot Clock 28 R5
Red Data
9 VSS GND 29 R4
10 NC No Connection 30 R3
11 VSS GND 31 VSS GND
12 B5
Blue Data 32 R2
Red Data
13 B4 33 R1
14 B3 34 R0
15 VSS GND 35 (IC) Note 1
16 B2
Blue Data 36 VSS GND
17 B1 37 NC
No Connection
18 B0 38 NC
19 VSS GND 39 NC
20 G5 Green Data 40 NC
Note 1: Keep open electrically , Hitachi test use only.
The backlight interface connector is BHR-03VS-1 made by JST, and pin assignment of backlight is as
below:
Pin No. Signal Level Function
1 VLED+ - Power Suppl y for LED
2 NC - No connection
3 VLED- - GND
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9.2 TIMING CHART
DTMG (Data Enable) is the signal to determine valid data, and the timing of DTMG can be determined
from Hsync and Vsync as below. For this display, only DTMG and DCLK are the essential signals.
Hsync and Vsync are not necessary to connect to display interface after DTMG has been generated
and input.
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VSYNC,HSYNC,DTMG,
R0~5,G0~5,B0~5
DTMG
Vsync
DTMG
Hsync
Vsync
Hsync
DCLK
t
CLK
DCLK
DTMG
DATA
1.5V
t
CLKL
t
HD
t
SD
t
WCH
t
WCL
t
fCLK
t
rCLK
t
HI
t
SI
t
HH
t
SH
t
SV
t
HV
t
WH
t
HP
t
HFP
t
HBP
t
VP
t
WV
t
VBP
t
VFP
t
Hr
,t
Vr
t
Ir
,t
Dr
t
Hf
,t
Vf
t
If
,t
Df
V
IH
min.
V
IL
max.
Invalid DataInvalid Data
9.3 INTERFACE TIMING SPECIFICATIONS
Item Symbol Min. Typ. Max. Unit
DCLK
Cycle time tCLK 142 171 206
ns
Low level Width tWCL 12 - -
High level Width tWCH 12 - -
Rise time trCLK - - 25
Fall time tfCLK - - 25
Duty D 0.45 0.5 0.55 -
Hsync
Set up time tSH 5 - - ns
Hold time tHH 10 - -
Cycle tHP 370 385 397 t
CLK
Valid width tWH 4 5 -
Rise/Fall time tHr,tHf - - 30 ns
Vsync
Set up tSV 0 - - t
CLK
Hold tHV 2 - -
Cycle tVP 251 253 261 t
HP
Valid width tWV 2 2 -
Rise/Fall time tVr,tVf - - 50 ns
DTMG
Set up time tSI 5 - - ns
Hold time tHI 10 - -
Rise/Fall time tIr,tIf - - 30 ns
Horizontal back p orch tHBP 28 35 - t
CLK
Horizontal front porch tHFP 22 30 -
Vertical back porch tVBP 6 7 - t
HP
Vertical front porch tVFP 5 6 -
Data Set up time tSD 5 - - ns
Hold time tHD 10 - -
Rise/Fall time tDr,tDf - - 25 ns
Note 1: Vsync needs to be set as odd numbers.
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9.4 POWER SEQUENCE
Note 1: In order to avoid any damages, the correct power On sequence must be followed and VDD
have to be applied before all other signals (DTMG, DCLK, RGB data). The opposite is true for
power Off where VDD have to be remained on until all other signals have been switch off. The
recommended time period is 1 second.
Note 2: In order to avoid showing uncompleted patterns in transient state. It is recommended that
switching the backlight on is delayed for 1 second after the signals have been applied. The
opposite is true for power Off where the backlight have to be switched off 1 second before the
signals are removed.
9.5 DATA INPUT for DISPLAY COLOR
COLOR &
Gray Scale
Data Signal
R5 R4 R3 R2 R1 R0 G5 G4 G3 G2 G1 G0 B5 B4 B3 B2 B1 B0
Basic
Color
Black 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Red (0) 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0
Green (0) 0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0
Blue (0) 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1
Cyan 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1
Magenta 1 1 1 1 1 1 0 0 0 0 0 0 1 1 1 1 1 1
Yellow 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0
White 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
Red
Black 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Red (62) 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0
Red (61) 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0
: : : : : : : : : : : : : : : : : : :
: : : : : : : : : : : : : : : : : : :
Red (1) 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0
Red (0) 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0
Green
Black 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Green (62) 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0
Green (61) 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
: : : : : : : : : : : : : : : : : : :
: : : : : : : : : : : : : : : : : : :
Green (1) 0 0 0 0 0 0 1 1 1 1 1 0 0 0 0 0 0 0
Green (0) 0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0
Blue
Black 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Blue (62) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1
Blue (61) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0
: : : : : : : : : : : : : : : : : : :
: : : : : : : : : : : : : : : : : : :
Blue (1) 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 0
Blue (0) 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1
Singnals
0.2VLED
0.2VLED 0.2VLED
0.8VDD
VDD
Backlight
Fig. 9.1
Note 2
Note 1 Note 1
Note 2
0.8VDD
0.2VDD 0.2VDD
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11. APPEARANCE STANDARD
The appearance inspection is performed in a dark room around 500~1000 lx based on the conditions
as below:
- The distance between inspector’s eyes and display is 30 cm.
- The viewing zone is defined with angle
shown in Fig. 11.1 The inspection should be performed
within 45∘when display is shut down. The inspection should be performed within 5∘when display is
power on.
Fig. 11.1
11.1 THE DEFINITION OF LCD ZONE
LCD panel is divided into 3 areas as shown in Fig.11.2 for appearance specification in next section. A
zone is the LCD active area (dot area); B zone is the area, which extended 1 mm out from LCD active
area; C zone is the area between B zone and metal frame.
In terms of housing design, B zone is the recommended window area customers’ housing should be
located in.
Fig. 11.2
A zone
B zone
C zone
Metal frame
1 mm
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Fi
g
11.1
Fi
g
11.2
11.2 LCD APPEARANCE SPECIFICATION
The specification as below is defined as the amount of unex pected phenomenon or material in different
zones of LCD panel. The definitions of length, width and average diameter using in the table are shown
in Fig. 11.3 and Fig. 11.4.
Item Criteria Applied zone
Scratches
Length (mm) Width (mm) Maximum number Minimum space
A,B
Ignored W≦0.02 Ignored -
L≦40 0.02<W≦0.04 10 -
L≦20 W≦0.04 10 -
Round (Dot Shape)
Average diameter (mm) Maximum number Minimum space
D≦0.2 Ignore -
D≦0.4 10 -
Dent Serious one is not allowed A
Wrinkles in polarizer Serious one is not allowed A
Bubbles on polarizer
Average diameter (mm) Maximum number
A
D≦0.2 Ignored
0.2<D≦0.3 12
0.3<D≦0.5 3
0.5<D none
1) Stains
2) Foreign Materials
3) Dark Spot
Filamentous (Line shape)
A,B
Length (mm) Width (mm) Maximum number
L≦2.0 W≦0.03 Ignored
L≦3.0 0.03<W≦0.05 6
L≦2.5 0.05<W≦0.1 1
Round (Dot shape)
A,B
Average diameter (mm) Maximum number Minimum Space
D<0.2 Ignored -
0.2≦D≦0.3 10 10mm
0.3≦D>0.4 5 30mm
0.4≦D none -
In total Filamentous + Round=10
Those wiped out easily are acceptable
Dot-Defect
(Note 1)
Type Maximum number
A
Bright dot-defect
1 dot 4
2 adjacent dot 1
3 adjacent dot or above Not allowed
Density 2/ 20mm
In total 5
Dark dot-defect
1 dot 5
2 adjacent dot 2
3 adjacent dot or above Not allowed
Density 3/ 20mm
In total 5
In total 10
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Note 1: The definitions of dot defect are as below:
- The defect area of the dot must be bigger than half of a dot.
- For bright dot-defect, showing black pattern, the dot’s brightness must be over 30% brighter
than others.
- For dark dot-defect, showing white pattern, the dot’s brightness must be under 70% darker
than others.
- The definition of 1-dot-defect is the defect-dot, which is isolated and no adjacent defect-dot.
- The definition of adjacent dot is shown as Fig. 11.5.
- The Density of dot defect is defined in the area within diameter =20mm.
A
The dots colored gray are
adjacent to defect-dot A.
Fig. 11.5
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Fig 11.5
Fig 11.3
Width
Length
Fig 11.4
a
b
Average diameter = a+b
2
12. PRECAUTIONS
12.1 PRECAUTIONS of ESD
1) Before handling the display, please ensure your body has been connected to ground to avoid any
damages by ESD. Also, do not touch display’s interface directly when assembling.
2) Please remove the protection film very slowly before turning on the display to avoid generating ESD.
12.2 PRECAUTIONS of HANDLING
1) In order to keep the appearance of display in good condition, please do not rub any surfaces of the
displays by sharp tools harder than 3H, especially touch panel, metal frame and polarizer.
2) Please do not stack the displays as this may damage the surface. In order to avoid any injuries,
please avoid touching the edge of the glass or metal frame and wore gloves during handling.
3) Touching the polarizer or terminal pins with bare hand should be avoided to prevent staining and
poor electrical contact.
4) Do not use any harmful chemicals such as acetone, toluene, and isopropyl alcohol to clean display’s
surfaces.
5) Please use soft cloth or absorbent cotton with ethanol to clean the display by gently wiping.
Moreover, when wiping the display, please wipe it by horizontal or vertical direction instead of
circling to prevent leaving scars on the display’s surface, especially polarizer.
6) Please wipe any unknown liquids immediately such as saliva, water or dew on the display to avoid
color fading or any permanently damages.
7) Maximum pressure to the surface of the display must be less than 4
10 x 1,96 Pa. If the area of
adding pressure is less than 1 2
cm
, the maximum pressure must be less than 1.96N.
12.3 PRECAUTIONS OF OPERATING
1) Please input signals and voltages to the displays according to the values defined in the section of
electrical characteristics to obtain the best performance. Any voltages over than absolute maximum
rating will cause permanent damages to this display. Also, any timing of the signals out of this
specification would cause unexpected performance.
2) When the display is operating at significant low temperature, the response time will be slower than it
at 25
C
. In high temperature, the color will be slightly dark and blue compared to original pattern.
However, these are temperature-related phenomenon of LCD and it will not cause permanent
damages to the display when used within the operating temperature.
3) The use of screen saver or sleep mode is recommended when static images are likely for long
periods of time. This is to avoid the possibility of image sticking.
4) Spike noise can cause malfunction of the circuit. The recommended limitation of spike noise is no
bigger than 100 mV.
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12.4 PRECAUTIONS of STORAGE
If the displays are going to be stored for years, please be aware the following notices.
1) Please store the displays in a dark room to avoid any damages from sunlight and other sources of
UV light.
2) The recommended long term storage temperature is between 10
C
~35
C
and 55%~75% humidity to
avoid causing bubbles between polarizer and LCD glasses, and polarizer peeling from LCD glasses.
3) It would be better to keep the displays in the container, which is shipped from Hitachi, and do not
unpack it.
4) Please do not stick any labels on the display surface for a long time, especially on the polarizer.
KAOHSIUNG HITACHI
ELECTRONICS CO., LTD. SHEET
NO.
7B64PS 2712-TX14D11VM1CBD-2 PAGE 12-2/2
13. DESIGNATION of LOT MARK
1) The lot mark is showing in Fig.13.3. First 4 digits are used to represent production lot, T represented
made in Taiwan, and the last 5 digits are the serial number.
2) The tables as below are showing what the first 4 digits of lot mark are shorted for.
3) Except letters I and O, revision number will be shown on lot mark and following letters A to Z.
4) The location of the lot mark is on the back of the display shown in Fig. 13.3.
Fig 13.3
Year Mark
2011 1
2012 2
2013 3
2014 4
2015 5
Month Mark Month Mark
1 01 7 07
2 02 8 08
3 03 9 09
4 04 10 10
5 05 11 11
6 06 12 12
Week (Days) Mark
1~7 1
8~14 2
15~21 3
22~28 4
29~31 5
8 0 3 5 T 0 0 2 0 1 4
T : Made in Taiwan Serial number
Week
Month
Year
KAOHSIUNG HITACHI
ELECTRONICS CO., LTD. SHEET
NO.
7B64PS 2713-TX14D11VM1CBD-2 PAGE 13-1/1
