SHARP LK315T3LZ5L Specification

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RECORDS OF REVISION

MODEL No. : LK315T3LZ5L
SPEC No. : LD-19902

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DATE

NO.

2007.9.3 LD-19902

REVISED

No.

−



PAGE

−−

SUMMARY NOTE

1st Issue

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1. Application

This specification applies to the color 31.5” Wide XGA TFT-LCD module LK315T3LZ5L.

* These specification sheets are proprietary products of SHARP CORPORATION (“SHARP”) and include materials
protected under copyright of SHARP. Do not reproduce or cause any third party to reproduce them in any form or by
any means, electronic or mechanical, for any purpose, in whole or in part, without the express written permission of
SHARP.

* 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.

* Do not use 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.

* SHARP assumes no responsibility for any damage resulting from the use of the device that 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 (T
composed of a color TFT-LCD panel, driver ICs, control circuit, power supply circuit, inverter circuit and back light

system etc. Graphics and texts can be displayed on a 1366×RGB×768 dots panel with 16,777,216 colors by
using LVDS (L

This module also includes the DC/AC inverter to drive the CCFT. (+24V of DC supply voltage)

And in order to improve the response time of LCD, this module applies the Over Shoot driving (O/S driving)
technology for the control circuit .In the O/S driving technology, signals are being applied to the Liquid Crystal
according to a pre-fixed process as an image signal of the present frame when a difference is found between image
signal of the previous frame and that of the current frame after comparing them.

By using the captioned process, the image signals of this LCD module are being set so that image response can be
completed within one frame, as a result, image blur can be improved and clear image performance can be realized.

3. Mechanical Specifications

Active area 697.69 (H) x 392.26 (V) mm

Pixel Format

Pixel pitch 0.51075(H) x 0.51075 (V) mm
Pixel configuration R,G, B vertical stripe
Display mode Normally black
Unit Outline Dimensions (*1) 760.0(W) x 450.0(H) x 50.1(D) mm
Mass

Surface treatment

(*1) Outline dimensions are shown in Fig.1

ow Voltage Differential Signaling) to interface, +5V of DC supply voltages.

Parameter Specifications Unit

Display size

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80.039 （Diagonal）

31.5 （Diagonal）

1366 (H) x 768 (V)

1pixel = R + G + B dot）

（

7.5±0.5
Anti glare
Hard coating: 2H

LD-19902-1

hin Film Transistor). It is

cm

inch

pixel

kg

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4. Input Terminals

4-1. TFT panel driving

CN1 (Interface signals and +5V DC power supply) (Shown in Fig.1)

Using connector ：FI-X30SSL-HF (Japan Aviation Electronics Ind. , Ltd.) or equivalent

Mating connector ：FI-X30H/FI-X30HL, FI-X30C/FI-X30C2L

or FI-X30M (Japan Aviation Electronics Ind. , Ltd.)

Mating LVDS transmitter：THC63LVDM83R or equivalent device

Pin No. Symbol Function Remark

1 VCC +5VPower Supply
2 VCC +5VPower Supply
3 VCC +5VPower Supply
4 VCC +5VPower Supply
5 GND
6 GND
7 GND
8 GND

9 SELLVDS

10 NC
11 GND
12 RIN0­13 RIN0+
14 GND
15 RIN1­16 RIN1+
17 GND
18 RIN2­19 RIN2+
20 GND
21 CLKIN­22 CLKIN+
23 GND
24 RIN3­25 RIN3+
26 GND

27 R/L

28 U/D

29 Reserved
30 Reserved

note】GND of a liquid crystal panel drive part has connected with a module chassis.

【



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GND

GND

GND
GND

Select LVDS data order 【Note 1

Ground
Negative (-) LVDS differential data input
Positive (+) LVDS differential data input
Ground
Negative (-) LVDS differential data input
Positive (+) LVDS differential data input
Ground
Negative (-) LVDS differential data input
Positive (+) LVDS differential data input
Ground
ClockSignal(-)
ClockSignal(+)
Ground
Negative (-) LVDS differential data input
Positive (+) LVDS differential data input
Ground

Horizontalshiftdirection

Verticalshiftdirection

Not Available
Not Available

【

Note 2

【

Note 2

】

】

】

LD-19902-2

Pull up

DefaultH:3.3V

Note 3】

【

LVDS
LVDS

LVDS
LVDS

LVDS
LVDS

LVDS
LVDS

LVDS
LVDS

Pull down

DefaultL:GND

Note 4】

【

Pull down

DefaultL:GND

Note 4】

【

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【

Note1

SELLVDS

】

Transmitter SELLVDS

Pin No Data

51 TA0
52 TA1
54 TA2
55 TA3
56 TA4

3 TA5
4 TA6
6 TB0

7 TB1
11 TB2
12 TB3
14 TB4
15 TB5
19 TB6
20 TC0
22 TC1
23 TC2
24 TC3
27 TC4
28 TC5
30 TC6
50 TD0

2 TD1

8 TD2
10 TD3
16 TD4
18 TD5
25 TD6

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=L(GND)

R0(LSB)

R1
R2
R3
R4
R5

G0(LSB)

G1
G2
G3
G4
G5

B0(LSB)

B1
B2
B3
B4

B5
NA NA
NA NA

DE(*) DE(*)

R6 R0(LSB)

R7(MSB) R1

G6 G0(LSB)

G7(MSB) G1

B6 B0(LSB)

B7(MSB) B1

NA NA

=H(3.3V) or Open

R2
R3
R4
R5
R6

R7(MSB)

G2
G3
G4
G5
G6

G7(MSB)

B2
B3
B4
B5
B6

B7(MSB)

LD-19902-3

NA: Not Available



(*) Since the display position is prescribed by the rise of DE (Display Enable) signal,

please do not fix DE signal during operation at "High."

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㪫㪼 㫉㫄㫀㫅㪸㫃

㪤㫀㫅㩷㪑㩷㪈 㪍㪅㪌㪢㱅
㪫㫐 㫇㩷 㪑㩷㪍㪇㪢㱅
㪤㪸 㫏㩷㪑㩷㪊㪊㪇㪢㱅

㪫㪼 㫉㫄㫀㫅㪸㫃

㪤㫀㫅㩷㪑㩷㪈 㪍㪅㪌㪢㱅
㪫㫐 㫇㩷 㪑㩷㪋㪎㪢㱅
㪤㪸 㫏㩷㪑㩷㪊㪊㪇㪢㱅

Note 2】Display reversal function

【

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LD-19902-4

Normal (Default)

Ｒ／Ｌ：Ｌ（ＧＮＤ）Ｕ／Ｄ:Ｌ（ＧＮＤ）

ＣＮ１ ＣＮ１

Vertical reverse image Horizontal and vertical reverse image

Ｒ／Ｌ：Ｌ（ＧＮＤ）Ｕ／Ｄ:Ｈ（３．３Ｖ）  Ｒ／Ｌ：Ｈ（３．３Ｖ）Ｕ／Ｄ:Ｈ（３．３Ｖ）

ＣＮ１

Note 3】The equivalent circuit figure of the terminal

【

㪊㪅㪊㪭

㪈㪅㪇㪢

Note 4】The equivalent circuit figure of the terminal

【

㪈㪅㪇㪢



Ｒ／Ｌ：Ｈ（３．３Ｖ）Ｕ／Ｄ：Ｌ（ＧＮＤ）

Horizontal reverse image

ＣＮ１





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㪠㪥㪧㪬㪫㩷㪪㪠㪞㪥㪘㪣㪪㩷

㪧㪦㪮㪜㪩㩷㪪㪬㪧㪧㪣㪰

㩷

㪚㪦㪥㪫㪩㪦㪣㩷㪧㪮㪙㩷

㪦㪆㪪㩷㪚㪦㪥㪫㪩㪦㪣㩷㪪㪠㪞㪥㪘㪣㪪㩷

㩷

㩷

㩷

㩷

㪙㪘㩷㪙㪘㪚㪢㩷㪣㪠㪞㪟㪫㩿㪚㪚㪝㪫㬍㪈㪋㪀

㪙㪘㪚㪢㩷㪣㪠㪞㪟㪫

㩿

㪚㪚㪝㪫㬍㪈㪋

㪀

㪣㪚㪛㩷㪧㪘㪥㪜㪣㩷

㪈㪊㪍㪍㬍㪊㩿㪩㪞㪙㪀㬍㪎㪍㪏㩷

㪪㪦㪬㪩㪚㪜 㪛㪩㪠㪭㪜㪩

㪞㪘㪫㪜㩷㪛㪩㪠㪭㪜㪩㩷

㪠㪥㪭㪜㪩㪫㪜㪩㩷

㪠㪥㪧㪬㪫㩷㪪㪠㪞㪥㪘㪣㪪㩷

㪧㪦㪮㪜㪩㩷㪪㪬㪧㪧㪣㪰㩷

Interface block diagram

・

Corresponding Transmitter: THC63LVDM83R (THine) or equivalent device

side

ＴＶ

䯴

G0䱊G7

R0䱊R7

B0䱊B7

ENAB

controller

Block Diagram (LCD Module)

・


8

8

8

CLK

㪝㪩㪘㪤㪜㩷
㪦㪆㪪㩷㪪㪜㪫㩷
㪫㪜㪪㪫㩷
㪫㪜㪤㪧㪊㩷
㪫㪜㪤㪧㪉㩷
㪫㪜㪤㪧㪈㩷

䯵

LVD S

↑

TTL

PLL

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Rx1IN0+(13)

Rx1IN0-(12)

Rx1IN1+(16)

Rx1IN1-(15)

Rx1IN2+(19)

Rx1IN2-(18)

Rx1IN3+(25)

Rx1IN3-(24)

Rx1CLKIN+(22)

Rx1CLKIN-(21)

㩷
㩷
㩷

㪚㫆㫅㫋㫉㫆㫃㩷㪪㫀㪾㫅㪸㫃㫊

㪚㪥㪈㪚㪥㪉

TTL

↑

LVDS

PLL

㪧㫆㫎㪼㫉㩷㪪㫌㫇㫇㫃㫐

㪚㫀㫉㪺㫌㫀㫋㩷

(TFT-LCD side)

LD-19902-5

8

R0䱊R7

8

G0䱊G7

8

B0䱊B7

ENAB

CK

㪚㪣㪢㪠㪥㪂㩷
㪚㪣㪢㪠㪥㪄㩷
㪩㪠㪥㪇㪂㩷
㪩㪠㪥㪇㪄㩷
㪩㪠㪥㪈㪂㩷
㪩㪠㪥㪈㪄㩷
㪩㪠㪥㪉㪂㩷
㪩㪠㪥㪉㪄㩷
㪩㪠㪥㪊㪂㩷
㪩㪠㪥㪊㪄㩷
㪩㪆㪣㩷
㪬㪆㪛㩷
㪪㪜㪣㪣㪭㪛㪪㩷
㩷

㩷 㩷 㪂㪌㪭㩷㪛㪚㩷

Internal circuit s

㪚㪥㪈㪇㪈㩷

㪭㫆㫅㩷
㪭

㩷

㪙㪩㪫

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㩷 㩷 㪂㪉㪋㪭㩷㪛㪚㩷

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NAN

NA N

NAN

NA N

SELLVDS= High (3.3V) or Open




CKAIN+

CKAIN-

RIN0+

RIN0-

RIN1+

RIN1-

RIN2+

RIN2-

RIN3+

RIN3

SELLVDS= Low(GND)

CKIN+

CKIN-

RIN0+

RIN0-

RIN1+

RIN1-

RIN2+

RIN2-

RIN3+

RIN3-

DE: Display Enable

NA: Not Available (Fixed Low)



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1 cycle

G2 R7 R6 R5 R4 R3 R2 R2 R3 G2

B3 B2 G7 G6 G5 G4 G3 G3 G4 B3

DE

A

G0 R5 R4 R3 R2 R1 R0 R0 R1 G0

B1 B0 G5 G4 G3 G2 G1 G1 G2 B1

DE

A

B1 B0 G1 G0 R1 R0 R0 R1

B7 B6 G7 G6 R7 R6 R6 R7

A

A

B7 B6 B5 B4 B4 B5

1 cycle

B5 B4 B3 B2 B2 B3

DE

DE

LD-19902-6

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㪫㪼 㫉㫄㫀㫅㪸㫃

㪤㫀㫅㩷㪑㩷㪈 㪍㪅㪌㪢㱅
㪫㫐 㫇㩷 㪑㩷㪋㪎㪢㱅
㪤㪸 㫏㩷㪑㩷㪊㪊㪇㪢㱅

㪫㪼 㫉㫄㫀㫅㪸㫃

㪤㫀㫅㩷㪑㩷㪈 㪍㪅㪌㪢㱅
㪫㫐 㫇㩷 㪑㩷㪋㪎㪢㱅
㪤㪸 㫏㩷㪑㩷㪊㪊㪇㪢㱅

CN2 (O/S control) (Shown Fig 1)

O/S Driving Pin No and function

Using connector: SM07B-SRSS-TB-A (JST)

Mating connector : SHR-07V-S or SHR-07V-S-B（JST）

Pin No. Symbol Function Default Remark

1 Frame Frame frequency setting
2 O/S set O/S operation setting H:O/S_ON, L:O/S_OFF

3 TEST Fix to Low level usually.
4 Temp3 Data3 of panel surface temperature
5 Temp2 Data2 of panel surface temperature
6 Temp1 Data1 of panel surface temperature
7 GND GND

*L: Low level voltage (GND) H: High level voltage(3.3V)

【

Note 1

In case of O/S set setting ”L”(O/S_OFF), it should be set the “Temp1~3” and “Frame” to “L”.

】

Note 2】The equivalent circuit figure of the terminal 【Note 3】The equivalent circuit figure of the terminal

【

㪊㪅㪊㪭

㪌㪅㪈㪢㱅

㪌㪈㪇㱅

According as the surface temperature of the panel, enter the optimum 3 bit signal into pin No.4,5,6.

Measuring the correlation between detected temperature by the sensor on PWB in users side and actual surface

temperature of panel at center, convert the temperature detected by the sensor to the surface temperature of

panel to enter the 3 bit temperature data.

Pin no.

0-5℃ 5-10℃ 10-15

4 L L L L H H H H
5 L L H H L L H H
6 L H L H L H L H

*L: Low level voltage (GND) H: High level voltage(3.3V)

*For overlapping temperatures (such as 5℃,10℃,15℃,20℃,25℃, 30℃,35℃) select the optimum parameter,

judging from the actual picture image.

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H:60Hz, L:50Hz



Surface temperature of panel

℃

15-20

℃

20-25

℃

LD-19902-7



Pull up H:3.3V
Pull up H:3.3V

Note 1】

【

Pull down L:GND
Pull up H:3.3V
Pull up H:3.3V
Pull up H:3.3V

【
【

【
【
【
【

Note 2
Note 2

Note 3
Note 2
Note 2
Note 2

】
】

】
】
】
】

㪌㪈㪇㱅

25-30

30-35℃ 35℃ and

℃

above

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4-2. Backlight driving

CN101 (Inverter control)

Using connector: B14B-PH-SM3-TB(JST)

Mating connector: PHR-14 (JST)

Pin No. Symbol Function Remark

1 V
2 V
3 V
4 V
5 V

INV

INV

INV

INV

INV

6 GND GND
7 GND GND
8 GND GND

9 GND GND
10 GND GND
11 Reserved NA
12 VON Inverter ON/OFF

13 V

BRT

14 Reserved NA

NA: Not Available

Note 1】 Inverter ON/OFF

【

Input voltage Function

3.3V Inverter: ON
0V Inverter: OFF

Note 2】Brightness Control

【

PWM Brightness Control is regulated by analog input voltage (0V to 3.3V) .

Input voltage Function

0V Brightness Control : (Dark)

3.3V Brightness Control : (Bright)

4-3. The back light system characteristics

The back light system is direct type with 14 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.

Item Symbol Min. Typ. Max. Unit Remarks

Life time TL 50000 60000 - Hour

Note】・Lamp life time is defined as the time when brightness becomes 50% of the original value in the

【

continuous operation under the condition of Ta=25 ℃ and brightness control(V

This definition is valid with the condition that the module is placed horizontally.(The wide side of the

・

module should be parallel to the ground.)

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LD-19902-8



+24V
+24V
+24V
+24V
+24V

Brightness Control

Note 1】

【

Note 2】

【

Note】

【

=3.3V).

BRT

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5. Absolute Maximum Ratings
Parameter Symbol Condition Ratings Unit Remark

Input voltage
(for Control)

5V supply voltage

(for Control)
Input voltage
(for Inverter)

24V supply voltage

(for Inverter)

I

V

VCC

VBRT

VON

V

INV

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Ta=25 ℃

Ta=25 ℃

Ta=25 ℃

Ta=25 ℃

LD-19902-9

-0.3 ~ 5.0 V

Note 1

【

0 ~ + 6 V

0 ~ + 6 V

0 ~ +29 V

】

Storage temperature Tstg - -25 ~ +60

Operation temperature

(Ambient)

Topa - 0 ~ +50

【Note 1】SELLVDS, R/L, U/D,TEST, Frame, O/S set, Temp1, Temp2, Temp3

【Note 2】Humidity 95%RH Max.(Ta≦40℃)

Maximum wet-bulb temperature at 39 ℃ or less.(Ta>40 ℃)

No condensation.

℃

℃

Note 2

【

】

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V

6. Electrical Characteristics

6-1. Control circuit driving Ta=25

Parameter Symbol Min. Typ. Max. Uniit Remark

Supply voltage Vcc

+5V supply

voltage

Current

dissipation

Permissible input ripple

voltage

High VTH - - 100 mV Differential input

threshold voltage

Low V

Input Low voltage VIL - - 0.7 V

Input High voltage VIH 2.6 3.3 3.6 V

Input leak current (Low)

Input leak current (High)

Terminal resistor RT - 100 -

Note】V

【

Note 1】

【

CM: Common mode voltage of LVDS driver.

Input voltage sequences Dip conditions for supply voltage

0 < t1≦10ms a) 2.7V≦Vcc < 4.5V

0< t2-1≦20ms td≦10ms

t2-2≧10ms b) Vcc < 2.7V

0 < t3≦1s Dip conditions for supply voltage is

t4≧1s based on input voltage sequence.

t5≧200ms

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+4.5 +5.0 +5.5 V

Icc

I

RUSH

T

RUSH

VRP

TL

IIL1 - - 100 μA

I

IL2 - - 400 μA

IIH1 - - 100 μA

I

IH2 - - 400 μA

- 800 1800 mA

- - 2000 mA

- - 1 ms

- - 100 mV

-100 - - mV

Ω

P-P

LD-19902-10

℃

Note 1】

【

Note 2】

【

Note 7】

【

Note 7】

【

Vcc = +5.0V

V

CM = +1.2V

Note 6】

【

Note 3】

【

V

I = 0V

Note 4】

【

V

I = 0V

Note 5】

【

V

I =3.3V

Note 4】

【

V

I =3.3V

Note 5】

【

Differential input

0.9VCC

0.1Vcc

cc

Data1

Data2

Back light:Vinv

t1

t2-2

t2-1

OFF

t5

ON

0.9Vcc

0.1Vcc

t3

t4

0.1Vcc

Ｖ
７

．

２

td

OFF

Vcc

Ｖ
５

．

４

Data1:CLKIN±,RIN0±,RIN1±, RIN2±, RIN3±

※

Data2:R/L,U/D,SELLVDS,Frame,O/Sset,Temp1,2,3

※

About the relation between data input and back light lighting, please base on the above-mentioned input

※

sequence.

When back light is switched on before panel operation or after a panel operation stop, it may not display

normally. But this phenomenon is not based on change of an incoming signal, and does not give damage to a

liquid crystal display.

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V

t

s

Note 2】Typical current situation: 256 gray-bar pattern (Vcc = +5.0V)

【

The explanation of RGB gray scale is seen in section 8.

RGB


GS1

RGB


GS2

....

RGB


GS0

Note 3】R/L, U/D, SELLVDS, TEST, Frame, O/S set, Temp1, Temp2, Temp3

【

Note 4】R/L, U/D

【

Note 5】SELLVDS, TEST, Frame, O/S set, Temp1, Temp2, Temp3

【

Note 6】CLKIN+/CLKIN-, RIN0+/RIN0-, RIN1+/RIN1-, RIN2+/RIN2-, RIN3+/RIN3-,

【

Note 7】The Rush current corrugation at the time of power on

【

RGB


GS254

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RGB


GS255

CK＝82.0MHz



Th＝20.67μs



LD-19902-11

Vcc＝5.0V

5ms

Vcc5V

I

RUSH

(Max)

0.9Vcc

T

(1V/div)

RUSH

Input voltage conditions

cc = 5V

1 = 5m

0.1Vcc
I

RUSH

(500mA/div)

4ms/div

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V

V

V

V

6-2. Inverter driving for back light

The back light system is

direct type with 14 CCFTs (Cold Cathode Fluorescent Tube). Ta=25

Parameter Symbol Min. Typ. Max. Unit Remark

Current dissipation1 IINV - 4.5 5.0 A

24V

＋

Current dissipation1 4.2 4.6 A

Supply voltage V

Permissible input ripple

voltage
Input voltage (Low) V
Input voltage (High) V

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LD-19902-12



V

INV = 24V

BRT = 3.3V, V

V

Note 1,2】

INV 22.5 24.0 25.5 V

RF - - 800 mV

V

0 - 1.0 V

ONL

3.0 3.3 5.0 V

ONH

VINV = 24V

p-p

【

Von

impedance=6.5kΩ

ON

℃

=5V

Brightness control voltage

Brightness control voltage

vs

Brightness level

(Reference value)

Note 1】1)V

【

INV-turn-on condition

0.1V

INV

ON,VBRT

INV-turn-off condition

2) V

ON,VBRT

INV

0.9V

INV

0V

V

BRT

INV

T1 T2

1.0V

0

0

20

0.1V

t1

ON

→

→

→

0V

0.9V

3.3 V

3.3 V

100 %

300ms≧T1＞100Ps

≧

T2

1Ps

t1≧0ms

INV

V

impedance=400k

BRT

Ω

0V

Note 2】 Current dissipation 1 : Definition within 60 minutes after turn on. (Rush current is excluded.)

【

Current dissipation 2 : Definition more than 60minutes after turn on.

Note 】 The inverter unit is driving at the following drive frequency.

【

Lamp driving frequency : 41kHz

Burst dimmer frequency : 165Hz

There is possibility that the display problem of the backlights such as flicker, blinking, etc by the

interference of the above inverter driving frequency and the LCD driving frequency will occur.

In setting of a LCD driving frequency, we recommend to set for the no interference with the above

frequency to occur.

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7. Timing characteristics of input signals

7-1. Timing characteristics

Timing diagrams of input signal are shown in Fig.2

Parameter Symbol Min. Typ. Max. Unit

Clock Frequency 1/Tc 80 82 85 MHz

Horizontal period TH

Data enable

signal

Note】When vertical period is very long, flicker may occur.

【

Horizontal period (High) THd 1366 1366 1366 clock

Vertical period TV 778 806 972 line

Vertical period (High) TVd 768 768 768 line

Please turn off the module after it shows the black screen.

Please make sure that length of vertical period should become of an integral

multiple of horizontal length of period. Otherwise, the screen may not display properly.

As for the your final setting of driving timing, we will conduct operation check test at our side,

please inform your final setting.





DE

DATA
(R,G,B)

1366







Tc



DE





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1686 1696 1940 clock

19.8

TH

THd

1 2

1 2 768

TVd

TV




Fig.2 Timing characteristics of input signals

20.68

1366

767

LD-19902-13

-

μs



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7-2. Input data signal and display position on the screen

R1 G1 B1 R2 G2 B2

(１､１) (１,２)

１・１ １・２ １・３

２・１ ２・２

３・１

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LD-19902-14

1･1366

R G B

768･1366

768･1

DisplayPositionofData(V,H)

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8. Input Signal, Basic Display Colors and Gray Scale of Each Color

Colors &

Gray scale

Gray

R0 R1 R2 R3 R4 R5 R6 R7 G0 G1 G2 G3 G4 G5 G6 G7 B0 B1 B2 B3 B4 B5 B6 B7

Scale

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LD-19902-15

Data signal

Black

Blue

Green

Cyan

Red

Basic Color

Magenta

Yellow

White

Black GS0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

GS1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

×

Darker GS2 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

×

Ø

Brighter GS253 1 0 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

Gray Scale of Red

GS254 0 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

Ø

Red GS255 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

Black GS0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

GS1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

×

Darker GS2 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0

×

Ø

Brighter GS253 0 0 0 0 0 0 0 0 1 0 1 1 1 1 1 1 0 0 0 0 0 0 0 0

Gray Scale of Green

GS254 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0

Ø

Green GS255 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0

0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

−

0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1

−

0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0

−

0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

−

1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

−

1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1

−

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0

−

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

−

È

È

È

È

È

È

È

È

È

È

È

È

È

È

È

È

Black GS0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

GS1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0

×

Darker GS2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0

×

Ø

Brighter GS253 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 1 1 1 1 1

È

È

È

È

È

È

È

È

Gray Scale of Blue

GS254 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1

Ø

Blue GS255 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1

0 : Low level voltage, 1 : High level voltage.

Each basic color can be displayed in 256 gray scales from 8 bit data signals. According to the combination of total

24 bit data signals, the 16-million-color display can be achieved on the screen.

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                                

9. Optical characteristics

Parameter Symbol Condition Min. Typ. Max. Unit Remark

Viewing angle

Horizontal

range

Vertical

Contrast ratio CRn

Response time

Chromaticity of white

Chromaticity of red

Chromaticity of green

Chromaticity of blue

Luminance of white YL1 360 450 cd/m2

Luminance uniformity

Measurement condition : Set the value of V

*The measurement shall be executed 60 minutes after lighting at rating.

Note】The optical characteristics are measured using the following equipment.

【

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LD-19902-16

Ta=25℃, Vcc = +5V, V

21

θ
θ

θ
θ

22

11
12

Wd

Wr

CR≧10

=0 deg.

θ

=0 deg.

θ

x 0.242 0.272 0.302 ­y 0.247 0.277 0.307 ­x 0.610 0.640 0.670 ­y 0.300 0.330 0.360 ­x 0.250 0.280 0.310 ­y 0.570 0.600 0.630 ­x 0.120 0.150 0.180 ­y 0.030 0.060 0.090 -

δ

Ｗ

- - 1.25

to maximum luminance of white.

BRT

70 88 - Deg.

【

70 88 -

1000 1500 -

- 6 -

- 6 -

Deg.

ms

【

【

V

Note3,4,5

V

【

V

【

V

【

INV = +24V

Note1,4

】

Note2,4

BRT

BRT

Note 4

BRT

Note 4

BRT

Note 6

】

=3.3V

】

=3.3V

】

=3.3V

】

=3.3V

】

Detector（EZ-CONTRAST

Center of the screen (

）

θ＝0°

)

TFT-LCD Module

Fig.3-1 Measurement of viewing angle range.

Detector（SR-3, Photo Diode

400mm

Field=1°

Center of the screen (

θ＝0°

)

TFT-LCD Module

Fig.3-2 Measurement of Contrast, Luminance,

Chromaticity and Response time.

(Contrast, Luminance and Chromaticity: SR-3,

Response time: Photo Diode).

）

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Note 1】Definitions of viewing angle range :

【

Note 2】Definition of contrast ratio :

【

The contrast ratio is defined as the following.

Luminance (brightness) with all pixels white

Contrast Ratio

Luminance (brightness) with all pixels black

Note 3】Definition of response time

【

The response time (Wd and Wr) is defined as the following figure and shall be measured by switching the

input signal for “any level of gray (0%, 25%, 50%, 75% and 100%)” and “any level of gray (0%, 25%, 50%,

75% and 100%)”.

θ

＝

12

www.panelook.com

22

θ

6 o’clock direction

θ

11

θ

LD-19902-17

21

0%

0%

25％

50％

75％

100%

td: 25%-0％

td: 50%-0％ td: 50%-25

td: 75%-0％ td: 75%-25

td: 100%-0％ td: 100%-25％td: 100%-50

25％ 50％ 75％

tr: 0%-25％

tr: 0%-50% tr: 0%-75% tr: 0%-100%

％

％

tr: 25%-50

td: 75%-50

tr: 25%-75％ tr: 25%-100％

％

tr: 50%-75％ tr: 50%-100％

％

td: 100%-75％

％

t*:x-y...response time from level of gray(x) to level of gray(y)

Wr = 6(tr:x-y)/10 , Wd = 6(td:x-y)/10

Note 4】This shall be measured at center of the screen.

【

Note 5】This value is valid when O/S driving is used at typical input time value .

【

Note 6】Definition of white uniformity ;

【

White uniformity is defined as the following with five measurements. (A〜E)

Maximum luminance of five points (brightness)

Ｗ

＝

δ

Minimum luminance of five points (brightness)

100%

tr: 75%-100％

342

6831024



A㩷

C㩷

B㩷

pixel



D㩷

E㩷

192㩷
384㩷
576㩷

pixel

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10. Handling Precautions of the module

a) Be sure to turn off the power supply when inserting or disconnecting the cable.

b) This product is using the parts (inverter, CCFT etc), which generate the high voltage.

Therefore, during operating, please don't touch these parts.

c) Brightness control voltage is switched for “ON” and “OFF”, as shown in Fig.4. Voltage difference generated

by this switching, ΔV

INV, may affect a sound output, etc. when the power supply is shared between the

inverter and its surrounding circuit. So, separate the power supply of the inverter circuit with the one of its

surrounding circuit.

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LD-19902-18

㩷

VINV

㩷

IINV

PWM control

signal㩷

㰱V

0V㩷

0A㩷

ON㩷 ON㩷OFF㩷

0V㩷

INV

㩷

Fig.4 Brightness control voltage.

d) Be sure to design the cabinet so that the module can be installed without any extra stress such as warp or

twist.

e) Since the front polarizer is easily damaged, pay attention not to scratch it.

f) Since long contact with water may cause discoloration or spots, wipe off water drop immediately.

g) When the panel surface is soiled, wipe it with absorbent cotton or other soft cloth.

h) Since the panel is made of glass, it may break or crack if dropped or bumped on hard surface. Handle with

care.

i) Since CMOS LSI is used in this module, take care of static electricity and take the human earth into

consideration when handling.

j) Please consider to minimize the influence of EMI and the exogenous noise before designing the grounding of

LCD module.

k) The module has some printed circuit boards (PCBs) on the back side, take care to keep them form any stress

or pressure when handling or installing the module; otherwise some of electronic parts on the PCBs may be

damaged.

l) Observe all other precautionary requirements in handling components.

m) When some pressure is added onto the module from rear side constantly, it causes display non-uniformity

issue, functional defect, etc.. So, please avoid such design.

n) When handling LCD modules and assembling them into cabinets, please be noted that long-term storage in

the environment of oxidization or deoxidization gas and the use of such materials as reagent, solvent,

adhesive, resin, etc. which generate these gasses, may cause corrosion and discoloration of the LCD

modules.

o) Connect a module frame to GND.

p)



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11. Packing form

a) Piling number of cartons: 3 maximum

b) Packing quantity in one carton: 10 pcs.

c) Carton size: 900 (W) × 870 (D) × 681 (H)

d) Total mass of one carton filled with full modules: 95kg(Max)

12. Reliability test item

No. Test item Condition

1
2

3

4
5

High temperature storage test

Low temperature storage test

High temperature and high humidity

operation test
High temperature operation test
Low temperature operation test

Vibration test

6

7

8

Result evaluation criteria】

【

(non-operation)

Shock test

(non-operation)

ESD

Under the display quality test condition with normal operation state, there shall be no change, which may

affect practical display function.

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Ta=60

℃ 

Ta=-25
Ta=40℃ ; 95%RH

(No condensation)
Ta=50
Ta=0
Frequency: 10~57Hz/Vibration width (one side): 0.075mm

: 58~500Hz/Acceleration: 9.8 m/s
Sweep time: 11 minutes
Test period: 3 hours (1h for each direction of X, Y, Z)
Maximum acceleration: 490m/s
Pulse width: 11ms, sinusoidal half wave
Direction: +/-X, +/-Y, +/-Z, once for each direction.
* At the following conditions, it is a thing without incorrect
operation and destruction.

(1)Non-operation: Contact electric discharge ±10kV

(2)Operation Contact electric discharge ±8kV

℃ 

℃ 

240h

℃

Conditions: 150pF、330ohm

LD-19902-19

240h

240h

240h



240h

2

2



Non-contact electric discharge±20kV

Non-contact electric discharge ±15kV



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A

A

13. Others

1)Lot No. Label ;

The label that displays SHARP, product model (LK315T3LZ5L), a product number is stuck on the back of the

module.

LK315T3LZ5L】JAPAN PRODUCTION

【


【LK315T3LZ5LV,W】SMPL PRODUCTION

LK315T3LZ5LT,U】NSEC PRODUCTION

【



production year(the last figures of the Christian Era)

2D Barcode

2D Barcode

2D Barcode

䌌䌑䋳䋷䋰䌄䋳䌌䌚䋱䋴

LK315T3LZ5L

䋵䋹䇭䌘䌘䌘䌘䌘䌘

79 XXXXXX

䌍䌁䌄䌅䇭䌉䌎䇭䌊䌁䌐䌁䌎

䌌䌑䋳䋷䋰䌄䋳䌌䌚䋱䋴

LK315T3LZ5L

79 XXXXXX V(orW)

䋵䋹䇭䌘䌘䌘䌘䌘䌘

䌍䌁䌄䌅䇭䌉䌎䇭䌊䌁䌐䌁䌎

䌌䌑䋳䋷䋰䌄䋳䌌䌚䋱䋴

LK315T3LZ5L

79 XXXXXX T(orU)

䋵䋹䇭䌘䌘䌘䌘䌘䌘

䌍䌁䌄䌅䇭䌉䌎䇭䌊䌁䌐䌁䌎

production month (1-9,X,Y,Z)

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Model No.

Barcode

Lot No.

Model No.

Barcode

Lot No.

Model No.

Barcode

Lot No.

How to express Lot No.

○

○

-

○

○ ○ ○

○

Serial No.

Management

Identification Code
K:Kameyama Plant.

L:Kameyama Tec.
S:SHM

N:NSEC
P:SMPL

G:SMM

LD-19902-20

○

No.

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（

４Ｓ

）

LK315T3LZ5L

（

４Ｓ

）

LK315T3LZ5LV(orW)

（

４Ｓ

）

LK315T3LZ5LT(orU)

2) Packing Label

LK315T3LZ5L】 【LK315T3LZ5LV,W】

【

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LD-19902-21

␠ౝຠ⇟㧦

㧸㨛㨠㧺㧻㧚

㧽㨡㨍㨚㨠㨕㨠㨥㧦

Bar code

࡙࡯ࠩຠ⇟

シャープ物流用ラベルです。

LK315T3LZ5LT,U】

【

␠ౝຠ⇟㧦

㧸㨛㨠㧺㧻㧚

㧽㨡㨍㨚㨠㨕㨠㨥㧦

Bar code

࡙࡯ࠩຠ⇟

シャープ物流用ラベルです。

3) Adjusting volume have been set optimally before shipment, so do not change any adjusted value.

If adjusted value is changed, the specification may not be satisfied.

4) Disassembling the module can cause permanent damage and should be strictly avoided.

5) Please be careful since image retention may occur when a fixed pattern is displayed for a long time.

6) The chemical compound, which causes the destruction of ozone layer, is not being used.

7) Rust on the module is not taken up a problem.

8) C-PWB must be on upper side of LCD module when it is in the TV-set.

*: Please inform SHARP if C-PWB is at bottom side of LCD module when it is in the TV-set

Bar code

Bar code

Bar code

Bar code

（１Ｔ）２００７.＊.＊＊(②)

ｐｃｓ(③)

10

（１Ｔ）２００７.＊.＊＊(②)

ｐｃｓ(③)

(①)

(①)

␠ౝຠ⇟㧦

Management No.

①

Lot No. (Date)

②

㧸㨛㨠㧺㧻㧚

Quantity

③

㧽㨡㨍㨚㨠㨕㨠㨥㧦

Bar code

࡙࡯ࠩຠ⇟

シャープ物流用ラベルです。

Management No.

①

Lot No. (Date)

②

Quantity

③

Bar code

（１Ｔ）２００７.＊.＊＊(②)

Bar code

(①)

ｐｃｓ(③)

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

14. Carton storage condition

Temperature 0℃ to 40℃

Humidity 95%RH or less

Reference condition : 20℃ to 35℃ , 85%RH or less (summer)

: 5℃ to 15℃ , 85%RH or less (winter)

Sunlight Be sure to shelter a product from the direct sunlight.

Atmosphere Harmful gas, such as acid and alkali which bites electronic components and/or

wires must not be detected.

Notes Be sure to put cartons on palette or base, don’t put it on floor, and store them with

removing from wall

Please take care of ventilation in storehouse and around cartons, and control

changing temperature is within limits of natural environment

Storage life 1 year

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the total storage time (40℃,95%RH) : 240H or less

・

LD-19902-22

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LD-19902-23

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.-6.<.2#%-+0)(14/

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LD‑19902‑24

㧲㨕㨓㧝ޓ㧸㧷㧟㧝㧡㨀㧟㧸㨆㧡㧸ޓ㧻㨁㨀㧸㧵㧺㧱ޓ㧰㧵㧹㧱㧺㧿㧵㧻㧺㧿

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