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Doc. No.
Product Specifications
Customer
Description
10.1-LED"TFT LCD Module
Model No
LM-P0-101C17LI1
Doc. NO.
Revision
01
Date
2010/03/18
Customer
Approval
Date
Approval
Check
WK.YIN
CARRIO.HE
PDF 文件使用 "pdfFactory Pro" ?用版本?建 www.fineprint.cn
Design
Jinye.Xiao
Revision
Date
Page
Old Description
New Description
01
2010/03/18
All
--
First issued
Rev. : 01
Page : 2 of 2 6
Remark
Date : 2 0 1 0 / 3 / 1 8
Contents
1 General Descriptions....................................................................................................................... 4
2 Absolute Maximum Ratings............................................................................................................. 6
3 Pixel Format Image ......................................................................................................................... 7
4 Optical Characteristics .................................................................................................................... 8
5 Backlight Characteristics ................................................................................................................11
6 Electrical Characteristics ............................................................................................................... 12
7 Interface Timings ........................................................................................................................... 17
8 Power Consumption ...................................................................................................................... 19
9 Power ON/OFF Sequence ............................................................................................................ 20
10 Mechanical Characteristics ......................................................................................................... 21
11 Package Specification ................................................................................................................. 24
12 Lot Mark ...................................................................................................................................... 24
13 General Precaution ..................................................................................................................... 25
Rev. : 01
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Date : 2 0 1 0 / 3 / 1 8
1
General Descriptions
1.1 Introduction
The LM-P0-101C17LI1 is a color active matrix thin film transistor (TFT) liquid crystal display
(LCD) that uses amorphous silicon TFT as a switching device. It is composed of a TFT
LCD panel, a timing controller, voltage reference, common voltage, column driver, and row
driver circuit. This TFT LCD has a 10.1-inch diagonally measured active display area with
WSVGA resolution (1,024vertical by 600 horizontal pixel array).
1.2 Features
■ 10.1” TFT LCD Panel
■ LED Light-bar Backlight System
■ Supported WSVGA (V:1024 lines, H:600 pixels) Resolution
■ Compatible with RoHS Standard
■ Dual Gate (2 Source + 2 Gate)
1.3 Product Summary
Items
Specifications
Screen Diagonal
10.1
Inch
Active Area
222.72(H) x 125.28(V)
mm
Pixels H x V
1,024 (x3) x 600
-
Pixel Pitch
0.2175(H)x0.2088(V)
mm
Pixel Arrangement
R.G.B. Vertical Stripe
-
Display Mode
Normally White
-
White Luminance
200 (Typ.) 5 points average
cd/ m2 (20mA of per LED)
Contrast Ratio
400 (Typ.)
-
Response Time
ms
8 (Typ.)
View Angle(L/R/U/D)
45/45/15/35(Typ.)
-
Input Voltage
+3.3 (Typ.)
V
Power Consumption
2.8(Max)
Watt
Module Weight
170(Max.)
g
Outline Dimension
243.5 x 147.0 x3.6 (Max)
mm
Electrical Interface (Logic)
LVDS
-
Support Color
262 K
-
Color Gamut
45%(Typ.)
-
Optimum Viewing Direction
6 o’clock
-
Surface Treatment
Glare + HC
-
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1.4 Functional Block Diagram
Figure 1 shows the functional block diagram of the LCD module.
Figure 1 Block Diagram
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2
Absolute Maximum Ratings
Table 1
Item
Supply Voltage
Symbol
Min
Max
Unit
VDD
-0.3
4.0
V
Typ.=3.3V
-0.3
2.7
V
LVDS signals
Input Signal
Operating Temperature
TOP
0
50
deg. C
Operating Humidity
HOP
10
80
%RH
Storage Temperature
TST
-20
60
deg. C
Storage Humidity
HST
10
90
%RH
1.5G
G
Vibration
500Hz
Shock
-
Hz
220
G
2
ms
Conditions
30min for X, Y, Z axis
Half sign wave
Note
(1) Maximum Wet-Bulb should be 39 degree C. No condensation.
(2) When you apply the LCD module for OA system. Please make sure to keep the
temperature of LCD module is less than 60℃.
(3) Storage /Operating temperature.
H=90%
T=39℃
T=60℃
H=39%
Rev. : 01
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Date : 2 0 1 0 / 3 / 1 8
3
Pixel Format Image
Figure 2 shows the relationship of the input signals and LCD pixel format image.
Figure 2 Pixel Format
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4
Optical Characteristics
The optical characteristics are measured under stable conditions as following notes.
Table 2 Optical Characteristics
Item
Viewing Angle [degrees]
K=Contrast Ratio>10
Horizontal
Vertical
Min
Typ.
Max
Left
40
45
-
Right
40
45
-
Up
10
15
-
Down
30
35
-
TBD
400
-
A, C
-
16
-
A, D
Contrast ratio
Center
Response Time [ms]
Rising + Falling
Color Chromaticity
(CIE1931)
White Luminance [cd/m^2]
Luminance Uniformity [%]
Specification
Conditions
Note
A, B
Red
x
TBD
A,
Red
y
TBD
Green
x
Typ.
TBD
Green
y
-0.03
TBD
Blue
x
TBD
A,
Blue
y
TBD
A,
White
x
0.263
0.313
0.365
A,
White
y
0.279
0.329
0.379
A,
I-LED=20.0mA
170
200
I-LED =20mA, 13points
62.5
-
-
I-LED =20mA, 5points
80.0
-
-
Typ.
+0.03
-
A,
A,
A,
5point A, E
A, F
A. Measurement Setup
The LCD module should be stabilized at given temperature for 15 minutes to avoid
abrupt temperature change during measuring. In order to stabilize the luminance, the
measurement should be executed after lighting backlight for 15 minutes in a windless
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Figure 3 Measurement Setup
LCD Module
LCD Panel
Photo meter (DMS 1140)
Center of the Screen
Light Shield Room
44 mm
*Ambient Luminance<2lux
*Ambient Temperature 25+/-3degC
B. Definition of Viewing Angle
Figure 4 Definition of Viewing Angle
Normal
θx = θy = 0°
θyθx- = 90°
x-
θy+
12 o'clock direction
θy+ = 90°
y+
θxθx+
6 o'clock yθy- = 90°
x+
θx+ = 90°
C. Definition of Contrast Ratio (CR)
The contrast ratio can be calculated by the following expression
Contrast Ratio (CR) = L63 / L0
L63: Luminance of gray level 63, L0: Luminance of gray level 0
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D. Definition of Response Time (TR, TF)
Figure 5 Definition of Response Time
Figure 6 Measurement Locations of 13 Points
10mm
10mm
1/4 H
10mm
1/2 H
3/4 H
Y7
Y6
Y8
Y2
1/4 V
Y9
Y1
Y13
Y4
10mm
Y5
1/2 V
3/4 V
Y10
Y11
Y12
E. Definition of Luminance White
Measure the luminance of gray level 63 at center point and 5 points.
Center of Luminance = Y1
Average Luminance of 5 points =
Y1 + Y2 + Y3 + Y4 + Y5
F. Definition of Luminance Uniformity(Variation)
5
Measure the luminance of gray level 63 at 13 points.
Uniformity of 13 points =
Uniformity of 5 points =
Rev. : 01
Min Luminance of Y1~Y13
Max Luminance of Y1~Y13
Min Luminance of Y1~Y5
Max Luminance of Y1~Y5
Page : 1 0 of 2 6
x 100%
x 100%
Date : 2 0 1 0 / 3 / 1 8
5
Backlight Characteristics
5.1 Parameter Guideline of LED Backlight
Table 3 Parameter Guideline for LED Backlight
Symbol
Parameter
Min.
Typ.
Max.
Units
VL
LED Light bar Driving
9.0
-
10.2
[V]
(Row output)
LED Current
TBD
160
TBD
V_LED
LED input
4.5
5.0
LT
LED Life Time
10,000
FPWM
VLED_EN
Ta=25[deg C]
Note A
IL
VPWM_EN
Condition
[mA]
Ta=25[deg C]
5.5
[V]
Ta=25[deg C]
-
-
Hours
PWM Signal
High
2.0
3.3
3.6
V
Voltage
Low
0
-
0.5
V
-
200
1K
Hz
Output PWM frequency
LED enable
High
2.6
3.3
3.6
Voltage
Low
0
-
0.5
V
Ta=25[deg C]
Note C
-
-
PWM
PWM Duty ratio
TBD
-
100
%
-
P_B/L
B/L Consumption
-
-
1.92
W
V_LED=5.0V
Note A: ILED=20 mA (Per LED).
Note B: Calculator value for LED chip specification.
Note C: The LED life time define as the estimated time to 50% degradation of initial luminous.
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6
Electrical Characteristics
6.1 Interface Connector
Table 4 Connector Name / Designation
Manufacturer
UJU (or equivalent)
Type / Part Number
IS050-L40B-C10
Table 5 Signal Pin Assignment
Pin #
Signal Name
Description
1
GND
Ground
2
VDD
Power supply 3.3V(Typ.)
3
VDD
Power supply 3.3V(Typ.)
4
VEDID
EDID +3.3V Power
5
NC
Not connected(Reserve)
6
CLK_EDID
EDID Clock Input
7
DAT_EDID
EDID Data Input
8
Rin0-
－LVDS
differential data input(R0-R5,G0)
9
Rin0+
＋LVDS
differential data input(R0-R5,G0)
10
GND
Ground
11
Rin1-
－LVDS
differential data input(G1-G5,B0-B1)
12
Rin1+
＋LVDS
differential data input(G1-G5,B0-B1)
13
GND
Ground
14
Rin2-
－LVDS
differential data input(B2-B5,HS,VS,DE)
15
Rin2+
＋LVDS
differential data input(B2-B5,HS,VS,DE)
16
GND
Ground
17
CLKN-
－LVDS
differential clock input
18
CLKN+
＋LVDS
differential clock input
19
NC
Not connected(Reserve)
20
NC
Not connected(Reserve)
21
NC
Not connected(Reserve)
22
GND
Ground-Shield
23
NC
Not connected(Reserve)
24
NC
Not connected(Reserve)
25
GND
Ground-Shield
26
NC
Not connected(Reserve)
27
NC
Not connected(Reserve)
Rev. : 01
Remarks
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Date : 2 0 1 0 / 3 / 1 8
28
GND
Ground-Shield
29
NC
Not connected(Reserve)
30
NC
Not connected(Reserve)
31
VLED_GND
LED Ground
32
VLED_GND
LED Ground
33
VLED_GND
LED Ground
34
NC
Not connected(Reserve)
35
VPWM_EN
System PWM Logic Input Level
36
VLED_EN
LED enable Input Level(+3.3V)
37
NC
Not connected(Reserve)
38
VLED
LED Power Supply 5+/-0.5V
39
VLED
LED Power Supply 5+/-0.5V
40
VLED
LED Power Supply 5+/-0.5V
All input signals shall be low or Hi-Z state when VDD is off.
6.2 LVDS Receiver
6.2.1 Signal Electrical Characteristics for LVDS Receiver
The built-in LVDS receiver is compatible with (ANSI/TIA/TIA-644 ) standard.
Table 6 LVDS Receiver Electrical Characteristics
Parameter
Symbol Min
Typ. Max
Unit Conditions
Differential Input High Threshold
Vth
-
-
+100
mV
Vcm=+1.2V
Differential Input Low Threshold
Vtl
-100
-
-
mV
Vcm=+1.2V
Magnitude Differential Input Voltage
|Vid|
100
-
600
mV
Common Mode Voltage
Vcm
0.9
1.2
1.5
V
Common Mode Voltage Offset
∆Vcm
-
-
50
mV
Vcm=+1.2V
Note:
A. Input signals shall be low or Hi-Z state when VDD is off.
B. All electrical characteristics for LVDS signal are defined and shall be measured at
the interface connector of LCD.
Table 7 Timing Requirements
Parameter
Clock Frequency
Symbol
Min
Typ.
Max
Fc
TBD
50.4
TBD
Unit
Conditions
Note
MHz
Note: All values are at VDD=3.3V, Ta=25 degree C.
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Figure 7 Voltage Definitions
Figure 8 Measurement System
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Figure 9 Data mapping
Figure 10 Timing Definition
Note: Tsu and Thd is internal data sampling window of receiver. Trskm is the system skew
margin; i.e., the sum of cable skew, source clock jitter, and other inter-symbol interference,
shall be less than Trskm.
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6.2.2 LVDS Receiver Internal Circuit
Figure 11 LVDS Receiver Internal Circuit shows the internal block diagram of the LVDS
receiver. This LCD module equips termination resistors for LVDS link.
Figure 11 LVDS Receiver Internal Circuit
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7
Interface Timings
7.1 Timing Characteristics
Table 8 Interface Timings
Parameter
Symbol
Unit
min
Typ.
Max
LVDS Clock Frequency(single)
Fdck
MHz
TBD
50.4
TBD
H Total Time
Htotal
clocks
TBD
1344
TBD
H Active Time
Hac
clocks
1024
1024
1024
V Total Time
Vtotal
lines
TBD
625
TBD
V Active Time
Vac
lines
600
600
600
Vsync
Hz
55
60
65
Frame Rate
Figure 12 Timing Characteristics
Note: TES is data enable signal setup time.
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7.2 LED Power Sequence
LED ON/OFF is as follows. Interface signals are also shown in the chart.
Values
Rev. : 01
Symbol
Min
Typ
Max
T1
10
---
---
T2
10
---
---
T3
50
---
---
T4
0
---
---
T5
10
---
---
Page : 1 8 of 2 6
Unit
ms
Date : 2 0 1 0 / 3 / 1 8
8
Power Consumption
Input power specifications are as follows.
Table 9 Power Consumption
Symbol
Parameter
Min
Typ.
Max
Units
Condition
VDD
Logic/LCD Drive Voltage
3.0
3.3
3.6
[V]
IDD
VDD Current
-
TBD
TBD
[A]
All black pattern, 60Hz
PDD
VDD Power
-
-
TBD
[W]
Max pattern, 60Hz
Irush
Rush Current
-
-
2
[A]
VDDrp
Allowable Logic/LCD Drive
-
-
300
[mVp-p]
Ripple Voltage
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9
Power ON/OFF Sequence
VDD power, interface signals, and lamp on/off sequence are shown in
Figure 13.Signals shall be Hi-Z state or low level when VDD is off.
Figure 13 Power Sequence
T1
T6
VDD
90%
0V 10%
T5
T2
Valid
LVDS signals
0V
T3
T4
90%
Backlight power
Table 10 Power Sequencing Requirements
Parameter
Symbol
Unit
min
Typ.
max
VDD Rise Time
T1
ms
0.5
--
10
VDD Good to Signal Valid
T2
ms
0
--
50
Signal Valid to Backlight On
T3
ms
200
--
--
Backlight Off to Signal Disable
T4
ms
200
--
--
Signal Disable to Power Down
T5
ms
0
--
50
VDD Fall Time
T6
ms
0
--
10
Power Off
T7
ms
400
--
--
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10 Mechanical Characteristics
Figure 14 Reference Outline Drawing (Front Side)
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Figure 15 Reference Outline Drawing (Back Side)
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10.1 Dimension Specifications
Table 11
Width [mm]
243.0±0.5
Height [mm]
146.5±0.5
Thickness [mm]
3.6 (max)
Tape Opening [mm]
X
225.57±0.5
Y
128.28±0.5
Weight [g]
Rev. : 01
170(max)
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11 Package Specification
TBD
12 Lot Mark
TBD
Rev. : 01
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Date : 2 0 1 0 / 3 / 1 8
13 General Precaution
13.1 Use Restriction
This product is not authorized for use in life supporting systems, aircraft navigation control
systems, military systems and any other application where performance failure could be
life-threatening or otherwise catastrophic.
13.2 Handling Precaution
1)
Please mount LCD module by using mounting holes arranged in four corners tightly.
2)
Do not disassemble or modify the module. It may damage sensitive parts inside LCD
module, and may cause scratches or dust on the display. IVO does not warrant the
module, if customers disassemble or modify the module.
3)
If LCD panel is broken and liquid crystal spills out, do not ingest or inhale liquid Crystal,
and do not contact liquid crystal with skin. If liquid crystal contacts mouth or eyes, rinse
out with water immediately. If liquid crystal contacts skin or cloths, wash it off immediately
with alcohol and Rinse thoroughly with water.
4)
Disconnect power supply before handling LCD module.
5)
Refrain from strong mechanical shock and /or any force to the module.
6)
Do not exceed the absolute maximum rating values, such as the supply voltage variation,
input voltage variation, variation in parts’ parameters, environmental temperature; etc
otherwise LCD module may be damaged. It’s recommended employing protection circuit
for power supply.
7)
Do not touch, push or rub the polarizer with anything harder than HB pencil lead. Use
fingerstalls of soft gloves in order to keep clean display quality, when Persons handle the
LCD module for incoming inspection or assembly.
8)
When the surface is dusty, please wipe gently with absorbent cotton or other soft Material.
When cleaning the adhesives, please use absorbent cotton wetted with a little Petroleum
benzene or other adequate solvent.
9)
Wipe off saliva or water drops as soon as possible. If saliva or water drops Contact with
polarizer for a long time, they may causes deformation or color Fading.
10) Protection film must remove very slowly from the surface of LCD module to
Prevent from electrostatic occurrence.
11) Because LCD module uses CMOS-IC on circuit board and TFT-LCD panel, it is Very
weak to electrostatic discharge, Please be careful with electrostatic Discharge .Persons
who handle the module should be grounded through adequate methods.
12) Do not adjust the variable resistor located on the module.
13.3 Storage Precaution
1)
Please do not leave LCD module in the environment of high humidity and high
2)
The module shall not be exposed under strong light such as direct sunlight. Otherwise,
Display characteristics may be changed.
3)
The module should be stored in a dark place. It is prohibited to apply sunlight or
fluorescent light in storage.
13.4 Operation Precaution
1)
Do not connect or disconnect the module in the "Power On” condition.
2)
Power supply should always be turned on/off by 9.0 "Power on/off sequence".
3)
Module has high frequency circuits. Sufficient suppression to the electromagnetic
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interference should be done by system manufacturers. Grounding and shielding methods
may be important to minimize the interference.
4)
After installation of the TFT Module into an enclosure, do not twist nor bend the TFT
Module even momentary. At designing the enclosure, it should be taken into
consideration that no bending/twisting forces are applied to the TFT Module from outside.
Otherwise the TFT Module may be damaged.
13.5 Others
1)
Ultra-violet ray filter is necessary for outdoor operation.
2)
Avoid condensation of water which may result in improper operation or disconnection of
electrode.
3)
If the module keeps displaying the same pattern for a long period of time, the image may
be "sticked" to the screen.
4)
This module has its circuitry PCB's on the down side and should be handled carefully in
order not to be stressed.
13.6 Disposal
When disposing LCD module, obey the local environmental regulations.
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