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The device listed in these specification sheets was designed and manufactured for use in OA equipment.


In case of using the device for applications such as control and safety equipment for transportation(aircraft, trains,
automobiles, etc. ), rescue and security equipment and various safety related equipment which require higher
reliability and safety, take into consideration that appropriate measures such as fail-safe functions and redundant
system design should be taken.


In case of using the device for equipment that requires an extreme level of reliability, such as aerospace
applications, telecommunication equipment(trunk lines), nuclear power control equipment and medical or other
equipment for life support, contact and consult with a SHARP sales representative.


SHARP assumes no responsibility for any damage resulting from the use of the device which does not comply
with the instructions and the precautions specified in these specification sheets.


Contact and consult with a SHARP sales representative for any questions about this device.




2. Overview
This module is a color active matrix LCD module incorporating amorphous silicon TFT (Thin Film Transistor).
It is composed of a color TFT-LCD panel, driver ICs, control circuit, power supply circuit and a back light unit.
Graphics and texts can be displayed on a 1600 3 1200 dots panel with about 16 million colors by supplying 48
bit data signals(8bit 2pixel RGB) , two display enable signals, two dot clock signals, +12V DC supply voltages
for TFT-LCD panel driving and supply voltage for back light.
It is a wide viewing-angle-module (Vertical viewing angle:176 Horizontal viewing angle:176 ,CR 10).
This module performance achieve 20ms response time (full; black to white, or white to black) done by improving
Liquid crystal material.




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3. Mechanical Specifications
Parameter Specifications Unit
Display size 51 (Diagonal) cm
20.1 (Diagonal) Inch
Active area 408.0 (H) 306.0 (V) mm
Pixel format 1600 (H) 1200 (V) Pixel
(1 pixel R G B dots)
Pixel pitch 0.255(H) 0.255 (V) mm
Pixel configuration R,G,B vertical stripe
Display mode Normally black
Unit outline dimensions 432(W) 331.5 (H) 25 (D) mm
Mass 3.2 (Typ) kg
Surface treatment Anti-glare And hard-coating 3H


Outline dimensions are shown in Fig.1.




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4. Input Terminals and Function
4-1. TFT-LCD panel driving
LVDS interface with 2 input signal, and +12VDC power supply, control signal
Connectors (MDF76LARW-30S-1H(HIROSE))
Corresponding connectors FI-X30M(JAE)
LVDS receiver Contained in a control IC
Corresponding LVDS transmitter THC63LVDM83R(Thine) or compatible

Pin No. Symbol Function Remark
1 Vcc +12V power supply
2 Vcc +12V power supply
3 Vcc +12V power supply
4 Vcc +12V power supply
5 Vss Gnd
6 Vss Gnd
7 RBIN3+ Positive (+) LVDS differential data input (B port) LVDS
8 RBIN3- Negative (-) LVDS differential data input (B port) LVDS
9 CKBIN+ Positive (+) LVDS differential clock input (B port) LVDS
10 CKBIN- Negative (-) LVDS differential clock input (B port) LVDS
11 RBIN2+ Positive (+) LVDS differential data input (B port) LVDS
12 RBIN2- Negative (-) LVDS differential data input (B port) LVDS
13 RBIN1+ Positive (+) LVDS differential data input (B port) LVDS
14 RBIN1- Negative (-) LVDS differential data input (B port) LVDS
15 RBIN0+ Positive (+) LVDS differential data input (B port) LVDS
16 RBIN0- Negative (-) LVDS differential data input (B port) LVDS
17 Vss Gnd
18 Vss Gnd
19 RAIN3+ Positive (+) LVDS differential data input (A port) LVDS
20 RAIN3- Negative (-) LVDS differential data input (A port) LVDS
21 CKAIN+ Positive (+) LVDS differential clock input (A port) LVDS
22 CKAIN- Negative (-) LVDS differential clock input (A port) LVDS
23 RAIN2+ Positive (+) LVDS differential data input (A port) LVDS
24 RAIN2- Negative (-) LVDS differential data input (A port) LVDS
25 RAIN1+ Positive (+) LVDS differential data input (A port) LVDS
26 RAIN1- Negative (-) LVDS differential data input (A port) LVDS
27 RAIN0+ Positive (+) LVDS differential data input (A port) LVDS
28 RAIN0- Negative (-) LVDS differential data input (A port) LVDS
29 Vss Gnd
30 Vss Gnd
Note1 This module has dual pixel port to receive dual pixel data at the same time . A port receives first pixel
data and B port receives second pixel data in dual pixel data.




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Note2 Thine:THC63LVDM83R
Transmitter Data arrangement
Pin No Data
51 TA0 R0(LSB)
52 TA1 R1
54 TA2 R2
55 TA3 R3
56 TA4 R4
3 TA5 R5
4 TA6 G0(LSB)
6 TB0 G1
7 TB1 G2
11 TB2 G3
12 TB3 G4
14 TB4 G5
15 TB5 B0(LSB)
19 TB6 B1
20 TC0 B2
22 TC1 B3
23 TC2 B4
24 TC3 B5
27 TC4 (NA)
28 TC5 (RSV1)
30 TC6 DE
50 TD0 R6
2 TD1 R7(MSB)
8 TD2 G6
10 TD3 G7(MSB)
16 TD4 B6
18 TD5 B7(MSB)
25 TD6 (NA)




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4-2 Interface block diagram
LVDS receiver Contained in a control IC.
Applied Transmitter THC63LVDM83R(THine electronics), or equivalent: DS90C383,DS90C383A(National semiconductor)




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4-2. Back light driving
CN1, 3 (High voltage side)
The module-side connector : XHP 7 (JST)
The user-side connector : S7B XH A (JST)
Cable UL Style No. 10267
rated voltage 2kV AC
AWG 26
Pin no. symbol Function Cable color
1 H-1 Power supply for lamp 1 (High voltage side) Pink
2 NC This is electrically opened.
3 NC This is electrically opened.
4 H-2 Power supply for lamp 2 (High voltage side) Blue
5 NC This is electrically opened.
6 NC This is electrically opened.
7 H-3 Power supply for lamp 3 (High voltage side) Orange
CN 2,4(Low voltage side)
The module-side connector : BHR 03VS 1 (JST)
The user-side connector : SM03(4.0)B BHS 1 TB (JST)
Cable UL Style No. 10368
rated voltage 300V AC
AWG 26
Pin no. symbol Function Cable color
1 L-1 Power supply for lamp 1 (Low voltage side) White
2 L-2 Power supply for lamp 2 (Low voltage side) Gray
3 L-3 Power supply for lamp 3 (Low voltage side) Brown
The pair of CN1 and CN2 is for the same CCFT lamps. The pair of CN3 and CN4 is in the same way.



CN1



High voltage side
TFT LCD CN2
XHP-7


Low voltage side

BHR-03VS-1
CN3



CN4




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5. Absolute Maximum Ratings
Parameter Symbol Condition Ratings Unit Remark
+12.0V supply voltage Vcc Ta=25 0 14.0
Storage temperature Tstg 25 60 Note1
Operating temperature (Ambient) Topa 0 50
Note1 Humidity 95%RH Max. ( Ta 40 )
Maximum wet-bulb temperature at 39 or less. ( Ta>40 )
No condensation.
6. Electrical Characteristics
6-1. TFT-LCD panel driving Ta 25
Parameter Symbol Min. Typ. Max. Unit Remark
Vcc Supply voltage Vcc +10.8 +12.0 +13.2 V Note1
Current dissipation Icc 420 600 mA Note2
Rush Current 3 A Note3
Permissive input ripple voltage VRF 100 mVp-p


Note1
Vcc Vcc
1 On-off sequences of Vcc and data 10.8V 10.8V
0 t1 60ms
0 t2 10ms DE,CK ,Data DE,CK,Data

0 t3 1s 1.0V 1.0V

t4 100ms
t3 t4 t1 t2




2 Dip conditions for supply voltage
Vmin,Vth=10.8V, 9.6V
1) Vth Vcc Vmin
td 20ms
2) Vcc Vth
Vth Vmin
The LCD module shuts down.




Note2 Typical current situation : 256-gray-bar pattern
Vcc=+12.0V
The explanation of each gray scale ,GS,
is described below section 8.




Note3 The duration of rush current is about 1ms.


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6-2. Back light driving
The back light system is an edge-lighting type with 6 CCFTs (Cold Cathode Fluorescent Tube).
The characteristics of the lamp are shown in the following table.
The value mentioned below is at the case of one CCFT.


Parameter Symbol Min. Typ. Max. Unit Remark
Lamp current range IL 3 6 7 mArms Note1
Lamp voltage VL 800 900 Vrms Ta=25 IL=6.0mArms FL=60kHz
Lamp power consumption PL 4.8 5.4 W Note2 IL=6.0mArms FL=60kHz
Lamp frequency FL 35 60 70 KHz Note3
Kick-off voltage Vs 1800 Vrms Ta=25 Note4
2000 Vrms Ta=0 Note4
Lamp life time TL 50,000 Hour Note5
Note1 A lamp can be light in the range of lamp current shown above.
Maximum rating for current is measured by high frequency current measurement equipment connected
to VLOW at circuit showed below.
(Note : To keep enough kick-off voltage and necessary steady voltage for CCFT.)
Lamp frequency : 35 70kHz
Ambient temperature : 0 50




Note2 Referential data per one CCFT by calculation ( IL VL ) .
The data doesn't include loss at inverter .
Note3 Lamp frequency of inverter may produce interference with horizontal synchronous frequency, and this
may cause horizontal beat on the display. Therefore, adjust lamp frequency, and keep inverter as far as
from module or use electronic shielding between inverter and module to avoid interference.
Note4 It is defined at 27pF for the ballast capacitor of a DC-AC inveter.
The Kick-off voltage may rise up in the user set,please decide the open output voltage by checking not to
occur lighting failure under operating state.
The open output voltage should be applied to the lamp for more than 1 second to startup. Or when the
ambient luminance around the lamp is more than 1lux,it should be applied to the lamp for more than
100ms.Otherwise the lamp may not be turned on..
Note5 Lamp life time is defined as the time when either or occurs in the continuous operation under
the condition of Ta=25 and IL=6.0 mArms .
Brightness becomes 50% of the original value under standard condition.
Kick-off voltage at Ta=0 exceeds maximum value,2000Vrms .
Note
The performance of the backlight, for example lifetime or brightness, is much influenced by the characteristics
of the DC-AC inverter for the lamp. When you design or order the inverter, please make sure that a poor lighting
caused by the mismatch of the backlight and the inverter (miss-lighting, flicker, etc.) never occurs. When you
confirm it, the module should be operated in the same condition as it is installed in your instrument.
Use the lamp inverter power source incorporating such safeguard as overvoltage / overcurrent protective circuit
or lamp voltage waveform detection circuit, which should have individual control of each lamp.
In case one circuit without such individual control is connected to more than two lamps, excessive current may
flow into one lamp when the other one is not in operation.
Synchronize frequency and phase of CCFT in the same connector.Otherwise it may exceed rated voltage of
connector.



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7. Timing characteristics of input signals
7-1-1. Timing characteristics


Parameter Symbol Min. Typ. Max. Unit Remark
Clock Frequency 1/Tc 60.0 81.0 85.0 MHz
Skew Tcsq