Specification For Approval

BOECD Optoelectronics Technology CO., LTD
CS3-PI-S888
TT121S0M-NW0 Module Product Specification
Rev.1
2015.05.23
Specification
For
Approval
□ Preliminary specification
■ Final specification
Title
12.1SVGA TN TFT-LCD (Module)
Buyer
Model
Supplier
Cheng Du BOE Optoelectronics Technology CO., LTD
Model
TT121S0M-NW0/BA121S01-100
TITLE/SIGNATURE
ITEM
DATE
SIGNATURE/DATE
Approved
Reviewed
Reviewed
Prepared
Please return one copy confirmation
with signature and your comments
BOE CHENG DU
Optoelectronics Technology CO., LTD
Page 1 of 22
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
CONTENT LIST
Cover ----------------------------------------------------------------------------------------------1
Content List---------------------------------------------------------------------------------------2
Record of Revisions-----------------------------------------------------------------------------3
1. General Description---------------------------------------------------------------------------------4
2. Electrical Specifications ---------------------------------------------------------------------------6
3. Signal Timing Specification ----------------------------------------------------------------------9
4. Interface Connection ------------------------------------------------------------------------------11
5. Optical Specification-------------------------------------------------------------------------------12
6. Mechanical Characteristics------------------------------------------------------------------------16
7. Reliability Test --------------------------------------------------------------------------------------17
8. Packing Method ------------------------------------------------------------------------------------18
9. Product ID Rule ------------------------------------------------------------------------------------19
10. Handling & Cautions -----------------------------------------------------------------------------20
11. Applicable Scope ---------------------------------------------------------------------------------22
Page 2 of 22
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
Record of Revisions
Revision
Date
Rev.0
2015.01.04
Rev.1
2015.05.23
Page
Description
Released by
Formal Released
Huangli
wanghengruo
Page 3 of 22
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
1.0 GENERAL DESCRIPTION
1.1 Introduction
TT121S0M-NW0 is a color active matrix TFT-LCD Panel using amorphous silicon TFT's
(Thin Film Transistors) as an active switching devices. This model is composed of a
TFT-LCD Panel, a driving circuit and a back light system. It is a transmissive type display
operating in the normal white. This TFT-LCD has a 12.1 inch diagonally measured active
area with SVGA resolutions (800 horizontal by 600 vertical pixel array). Each pixel is divided
into Red, Green, Blue dots which are arranged in vertical stripe and this panel can display
16.7M colors.
1.2 Features
0.5t Glass (Single)
Thin and light weight
High luminance and contrast ratio, low reflection and wide viewing angle
Module Design
RoHS Compliant
1.3 Application
Application
Page 4 of 22
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
1.4 General Specifications (H: horizontal length, V: vertical length)
Parameter
Specification
Unit
Active Area
246.0(H) × 184.5(V)
mm
Number of Pixels
800(H) RGB × 600(V)
pixels
Pixel Pitch
0.3075(H) × 0.3075(V)
mm
Pixel Arrangement
Display Colors
RGB Vertical stripe
16.7 M
Color Gamut
55%(typ.)
Display Mode
Normally White, Transmissive mode
Dimensional Outline
Viewing Direction
(Human Eye)
D-IC
Remark
279±0.5(H) × 209±0.5(V) × 9±0.3(D)
colors
mm
12 O’clock
Note 1,2
Source: HX8245-C01 / Gate: HX8677-G
T-con: HX8841
Weight
500(max)
gram
Life Time
Note:
50,000(Min)
hours
1. The biggest CR is 6 O’clock; the worst gray inversion is 6 O’clock;
2. The TFT and CF Rubbing Direction;
Page 5 of 22
Module
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
2.0 ELECTRICAL SPECIFICATION
2.1 Absolute Maximum Ratings
The absolute maximum ratings are list on table as follows. When used out of the
absolute maximum ratings, the LSI may be permanently damaged. Using the LSI within
the following electrical characteristics limit is strongly recommended for normal operation.
If these electrical characteristic conditions are exceeded during normal operation, the LSI
will malfunction and cause poor reliability.
Parameter
Symbol
Min.
Max.
Unit
Remark
Power Supply Voltage
(LCD Module)
VDD
3.0
3.6
V
-
Backlight Power Supply Voltage
HVDD
25.2
31.5
V
-
Operating Temperature
TOP
-20
+70
℃
-
Storage Temperature
TST
-30
+80
℃
Note
Note:
Temperature and relative humidity range are shown in the Figure below.
Wet bulb temperature should be 39℃ max. and no condensation of water.
Page 6 of 22
BOECD Optoelectronics Technology CO., LTD
CS3-PI-S888
TT121S0M-NW0 Module Product Specification
Rev.1
2015.05.23
2.2 Electrical specification
Parameter
Symbol
Power Supply Input Voltage
VDD
Power Supply Current
IDD
Positive-going Input
Threshold Voltage
Negative-going Input
Threshold Voltage
Differential input common
mode voltage
Min.
Values
Unit
Typ. Max.
3.0
3.3
3.6
380
-100
VIT-
V
mA
+100
VIT+
Remark
mV
mV
4.6
Vcom
VIH=100mV
V
VIL=-100mV
2.3 Backlight Driving Conditions
Parameter
Symbol
Min
Typ
Max
Unit
Forward Voltage
VF
25.2
27.9
31.5
V
-
Forward Current
IF
mA
Note 1
PBL
Power Consumption
Life Time
160
4.03
4.47
5.04
W
PD
1.3
W
PTotal
5.77
W
N/A
50,000
Hrs
Remark
Note 2
IF = 80mA
Note 3
Notes:
1. LED IF=80mA, 2 Parallel * 9 String
2. Calculator Value for reference IF×VF = PLED.
3. The LED Life-time defined as the estimated time to 50% degradation of initial luminous.
Page 7 of 22
BOECD Optoelectronics Technology CO., LTD
CS3-PI-S888
TT121S0M-NW0 Module Product Specification
Rev.1
2015.05.23
2.4 Power ON/OFF Sequence
Power on Sequence
Symbol
Parameter
Condition
Spec.
Min.
Typ.
Max.
Unit
VTH
Reset threshold voltage
-
2
2.1
2.2
V
VHYS
Hysteresis voltage
-
-
200
-
mV
-
10
-
-
Ms
TBST
Reset duration @R=10KΩ,
C=1μF
Page 8 of 22
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
3.0 SIGNAL TIMING SPECIFICATION
Page 9 of 22
CS3-PI-S888
Rev.1
2015.05.23
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
Input Timing
DE mode
Parameter
DCLK Frequency
Symbol
Condition
FDCLK
TYP.
Min.
TYP.
Max.
TYP.
Min.
TYP.
Max.
TYP.
Horizontal total timing
TH
Horizontal active timing
THA
Vertical total timing
TV
Vertical active timing
TVA
Page 10 of 22
SVGA
800X600
40
900
1056
2047
800
604
630
1023
600
Unit
MHz
TDCLK
TDCLK
TDCLK
TDCLK
TH
TH
TH
TH
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
4.0 INTERFACE CONNECTION
20Pin data connector
Connector Name / Designation
Manufacturer
Connector Model Number
Adaptable Plug
Pin No.
Symbol
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
VDD
VDD
GND
SEL68
RIN0RIN0+
GND
RIN1RIN1+
GND
RIN2RIN2+
GND
CLKINCLKIN+
GND
17
RIN3-
18
19
20
RIN3+
RSV
GND
Signal Connector
STM or compatible
MSB240420-HEor compatible
P240420 or compatible
Description
Power Supply, 3.3V (typical)
Power Supply, 3.3V (typical)
Ground
6/ 8bits LVDS data input selection [H: 8bits L/NC: 6bit]
LVDS receiver signal channel 0
LVDS Differential Data Input (R0, R1, R2, R3, R4, R5, G0)
Ground
LVDS receiver signal channel 1
LVDS Differential Data Input (G1, G2, G3, G4, G5, B0, B1)
Ground
LVDS receiver signal channel 2
LVDS Differential Data Input (B2, B3, B4, B5, HS, VS, DE)
Ground
LVDS receiver signal clock
Ground
LVDS receiver signal channel 3, NC for 6 bit LVDS Input
LVDS Differential Data Input (R6, R7, G6, G7, B6, B7, RSV)
Reverse Scan Function [H: Enable; L/NC: Disable]
Ground
Page 11 of 22
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
5Pin B/L power connector
Connector Name / Designation
Manufacturer
Connector Model Number
Mating Model Number
Lamp Connector
ACES or compatible
50277-00501-001 or compatible
H208K–P05N-02Bor compatible
Pin No.
Symbol
Description
1
2
3
4
5
VCC
GND
On/OFF
Dimming
NC
Power Supply, 12V (typical)
Ground
5V-ON,0V-OFF
PWM
Remark: PWM frequency 120~1Khz
Page 12 of 22
2015.05.23
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
5.0 OPTICAL SPECIFICATIONS
5.1 Overview
The test of Optical specifications shall be measured in a dark room(ambient luminance≤
1 lux and temperature = 25±2℃) with the equipment of Luminance meter system (Topcon
SR-UL1R and Westar TRD-100A) and test unit shall be located at an approximate distance
50cm from the LCD surface at a viewing angle of θ and Φ equal to 0°.The center of the
measuring spot on the Display surface shall stay fixed.
The backlight should be operating for 30 minutes prior to measurement.
5.2 Optical Specifications
Parameter
Symbol Condition Min. Typ. Max. Unit Remark
2.0
2.2
2.4
Vsat
V
Threshold Voltage
Fig.1
1.1
1.3
1.5
Vth
V
70
80
Θ3
°
Horizontal
70
80
Θ9
°
Viewing
CR>10
Note 1
Angle
55
65
Θ12
°
Vertical
65
75
Θ6
°
600
800
Contrast Ratio
CR
Θ= 0°
Note 2
cd/m2
330
450
nit
Luminance
Θ= 0°
Note 3
%
75
80
Uniformity
Θ= 0°
Note 4
50
55
NTSC
%
Θ= 0°
Rx
0.577 0.627 0.677
Red
0.283 0.333 0.383
Ry
Reproduction
Note 5
0.285 0.335 0.385
Gx
Θ= 0°
Green
Of color
*
Module
0.519 0.569 0.619
Gy
0.101 0.151 0.201
Bx
Blue
0.043 0.093 0.143
By
Wx
Wy
Θ= 0°
Tr+Tf
Θ= 0°
White
Response Time
0.263
0.279
0.313
0.329
0.363
0.379
30
35
ms
Note 6
Note:
1. Viewing angle is the angle at which the contrast ratio is greater than 10. The viewing are
determined for the horizontal or 3, 9 o’clock direction and the vertical or 6, 12 o’clock direction with
respect to the optical axis which is normal to the LCD surface (see FIG.2).
2. Contrast measurements shall be made at viewing angle of Θ= 0 and at the center of the LCD
surface. Luminance shall be measured with all pixels in the view field set first to white, then to the
dark (black) state. (See FIG. 2) Luminance Contrast Ratio (CR) is defined mathematically.
CR =
Luminance when displaying a white raster
Luminance when displaying a black raster
Page 13 of 22
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
3. Surface luminance is the center point across the LCD surface 50cm from the surface with all
pixels displaying white. This measurement shall be taken at the locations shown in FIG. 2.
4. Uniformity measurement shall be taken at the locations shown in FIG. 2&3, for a total of the
measurements per display, measure surface luminance of these nine points across the LCD surface
50cm from the surface with all pixels displaying white.
Uniformity
=
Min Luminance of 9 points
Max Luminance of 9 points
×100%
5. The color chromaticity coordinates specified in Table1 shall be calculated from The spectral
data measured with all pixels first in red, green, blue and white. Measurements shall be made at
the center of the Module.
6. The electro-optical response time measurements shall be made as FIG.4 by switching the
“data” input signal ON and OFF.
The times needed for the luminance to change from 10% to 90% is Tf and 90% to 10% is Tr.
Figure 1. The definition of Vth & Vsat
Figure 2. Measurement Set Up
(L = 50cm)
Page 14 of 22
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
Figure 3. Uniformity Measurement Locations
Figure 4. Response Time Testing
Page 15 of 22
CS3-PI-S888
Rev.1
2015.05.23
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
6.0 MECHANICAL CHARACTERISTICS
Page 16 of 22
CS3-PI-S888
Rev.1
2015.05.23
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
7.0 RELIABILITY TEST
NO.
1
2
3
4
5
6
Test Item
Test Condition
Duration
60℃, 90%RH
240hrs
-20 ℃
240hrs
70 ℃
240hrs
80℃
240hrs
-30℃
240hrs
High temperature, high
humidity operation test(THO)
Low temperature operation
test(LTO)
High temperature operation
test(HTO)
High temperature storage
test(HTS)
Low temperature storage
test(LTS)
Thermal shock test (TST)
-30 ℃ →80 ℃
(Per 30min )
100hrs
150pF 330Ω
7
ESD
±8KV(Air) /
20points
±6KV(Contact)
8
Vibration
1.5G ,10/500/10,Sine,X/Y/
Z Direction
Page 17 of 22
Total:30min
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
8.0 PACKING METHOD
Item
MDL
PE Bag
Inner Box
Pallet
Protection film
Model
Material
Material
Outline
Outline
Material
Specification
TT121S0M-NW0
Thickness : 0.07mm
Corrugated Paper(BC)
580mm×400mm×285mm
1080mm×1080mm×130 mm
OPP
Page 18 of 22
Q'ty/MDL
1
1
0.04
0.0034
0.0034
Remark
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
9.0 PRODUCT ID RULE
Page 19 of 22
CS3-PI-S888
Rev.1
2015.05.23
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
10.0 HANDDLING & CAUTIONS
10.1 Mounting Method
The panel of the LCM consists of two thin glasses with polarizer which easily get damaged.
So extreme care should be taken when handling the LCM.
Excessive stress or pressure on the glass of the LCM should be avoided. Care must be taken
to insure that no torsional or compressive forces are applied to the LCM unit when it is mounted.
If the customer's set presses the main parts of the LCM, the LCM may show the abnormal
display. But this phenomenon does not mean the malfunction of the LCM and should be pressed
by the way of mutual agreement.
To determine the optimum mounting angle, refer to the viewing angle range in the
specification for each model.
Mount a LCM with the specified mounting parts.
10.2 Caution of LCM Handling and Cleaning
Since the LCM is made of glass, do not apply strong mechanical impact or static load onto it.
Handling with care since shock, vibration, and careless handling may seriously affect the product.
If it falls from a high place or receives a strong shock, the glass maybe broken.
The polarizer on the surface of panel are made from organic substances. Be very careful
for chemicals not to touch the polarizer or it leads the polarizer to be deteriorated.
If the use of a chemical is unavoidable, use soft cloth with solvent recommended below to
clean the LCM's surface with wipe lightly.
-IPA (Isopropyl Alcohol), Ethyl Alcohol, Tri-chloro, tri-florothane.
Do not wipe the LCM's surface with dry or hard materials that will damage the polarizer and
others. Do not use the following solvent—Water, acetone, Aromatics.
It is recommended that the LCM be handled with soft gloves during assembly, etc.
The polarizer on the LCM's surface are vulnerable to scratch and thus to be damaged by shape
particles.
Do not drop water or any chemicals onto the LCM's surface.
A protective film is supplied on the LCM and should be left in place until the LCM is required
for operation.
The ITO pad area needs special careful caution because it could be easily corroded. Do not
contact the ITO pad area with HCFC, Soldering flux, Chlorine, Sulfur, saliva or fingerprint. To
prevent from the ITO corrosion, customers are recommended that the ITO area would be
covered by UV or silicon.
Please handle FPC with care.
Page 20 of 22
BOECD Optoelectronics Technology CO., LTD
CS3-PI-S888
TT121S0M-NW0 Module Product Specification
Rev.1
2015.05.23
10.3 Caution Against Static Charge
The LCM use C-MOS LSI drivers, so customers are recommended that any unused input
terminal would be connected to Vdd or Vss, do not input any signals before power is turn on,
and ground you body, work/assembly area, assembly equipments to protect against static
electricity.
Remove the protective film slowly, keeping the removing direction approximate 30-degree
not vertical from panel surface, if possible, under ESD control device like ion blower, and the
humidity of working room should be kept over 50%RH to reduce the risk of static charge.
Avoid the use work clothing made of synthetic fibers. We recommend cotton clothing or
other conductivity-treated fibers.
In handling the LCM, wear non-charged material gloves. And the conducting wrist to the
earth and the conducting shoes to the earth are necessary.
10.4 Caution For Operation
It is indispensable to drive the LCM within the specified voltage limit since the higher voltage
than the limit causes LCM's life shorter. An electro-chemical reaction due to DC causes
undesirable deterioration of the LCM so that the use of DC drive should avoid.
Do not connect or disconnect the LCM to or from the system when power is on.
Never use the LCM under abnormal conditions of high temperature and high humidity.
When expose to drastic fluctuation of temperature(hot to cold or cold to hot), the LCM may be
affected; specifically, drastic temperature fluctuation from cold to hot, produces dew on the
LCM's surface which may affect the operation of the polarizer on the LCM.
Response time will be extremely delay at lower temperature than the operating temperature
range and on the other hand LCM may turn black at temperature above its operational range.
However those phenomenon do not mean malfunction or out of order with the LCM. The LCM
will revert to normal operation once the temperature returns to the recommended temperature
range for normal operation.
Do not display the fixed pattern for a long time because it may develop image sticking due to
the LCM structure. If the screen is displayed with fixed pattern, use a screen saver.
Do not disassemble and/or re-assemble LCM module
10.5 Packaging
Modules use LCM element, and must be treated as such.
-Avoid intense shock and falls from a height.
-To prevent modules from degradation, do not operate or store them exposed directly to
sunshine or high temperature/humidity for long periods.
Page 21 of 22
BOECD Optoelectronics Technology CO., LTD
TT121S0M-NW0 Module Product Specification
CS3-PI-S888
Rev.1
2015.05.23
10.6 Storage
A slight dew depositing on terminals is a cause for electro-chemical reaction resulting in
terminal open circuit. Relative humidity of the environment should therefore be kept below
60%RH.
Original protective film should be used on LCM’s surface (polarizer). Adhesive type protective
film should be avoided, because it may change color and/or properties of the polarizer.
Do not store the LCM near organic solvents or corrosive gasses.
Keep the LCM safe from vibration, shock and pressure.
Black or white air-bubbles may be produced if the LCM is stored for long time in the lower
temperature or mechanical shocks are applied onto the LCM.
In the case of storing for a long period of time for the purpose or replacement use, the
following ways are recommended.
-Store in a polyethylene bag with sealed so as not to enter fresh air outside in it.
-Store in a dark place where neither exposure to direct sunlight nor light is.
-Keep temperature in the specified storage temperature range.
-Store with no touch on polarizer surface by the anything else. If possible, store the LCM in the
packaging situation when it was delivered.
10.7 Safety
For the crash damaged or unnecessary LCM, it is recommended to wash off liquid crystal by
either of solvents such as acetone and ethanol an should be burned up later.
In the case of LCM is broken, watch out whether liquid crystal leaks out or not. If your hands
touch the liquid crystal, wash your hands cleanly with water and soap as soon as possible.
If you should swallow the liquid crystal, first, wash your mouth thoroughly with water, then
drink a lot of water and induce vomiting, and then, consult a physician.
If the liquid crystal get in your eyes, flush your eyes with running water for at least fifteen
minutes.
If the liquid crystal touches your skin or clothes, remove it and wash the affected part of
your skin or clothes with soap and running water.
11.0 Applicable Scope
This product specification only applies to the products manufactured and sold by our
company.
Any specification, quality etc. about other parts mentioned in this product spec are no concern
of our company.
Page 22 of 22
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