LG Display LM215WF3-SLK1 Specification

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LM215WF3

Liquid Crystal Display

Product Specification

SPECIFICATION

FOR

APPROVAL

( ) Preliminary Specification
(

) Final Specification

BUYER

MODEL

APPROVED BY

/

/

NECP

SIGNATURE

DATE

21.5” Full HD TFT LCDTitle

SUPPLIER LG Display Co., Ltd.

*MODEL LM215WF3

SUFFIX SLK1

*When you obtain standard approval,

please use the above model name without suffix

APPROVED BY

C.K. Lee / G. Manager

REVIEWED BY

J.H. Song / Manager [C]

H.D. Joo / Manager [M]

SIGNATURE

DATE

C.S. Shin / Manager [P]

/

Please return 1 copy for your confirmation with

your signature and comments.

Ver. 1.0 Nov., 15, 2012

PREPARED BY

K.W. Lee / Engineer

MNT Products Engineering Dept.

LG Display Co., Ltd

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LM215WF3

Liquid Crystal Display

Product Specification

Contents

No ITEM

COVER

CONTENTS

RECORD OF REVISIONS

1 GENERAL DESCRIPTION

2 ABSOLUTE MAXIMUM RATINGS

3 ELECTRICAL SPECIFICATIONS

3-1 ELECTRICAL CHARACTREISTICS

3-2 INTERFACE CONNECTIONS

3-3 SIGNAL TIMING SPECIFICATIONS

3-4 SIGNAL TIMING WAVEFORMS

3-5 COLOR INPUT DATA REFERNECE

3-6 POWER SEQUENCE

3-7 V

4 OPTICAL SPECIFICATIONS

Power Dip Condition

LCD

Page

1

2

3

4

5

6

6

9

14

15

16

17

18

19

5 MECHANICAL CHARACTERISTICS

6RELIABLITY

7 INTERNATIONAL STANDARDS

7-1 SAFETY

7-2 EMC

7-3 ENVIRONMENT

8 PACKING

8-1 DESIGNATION OF LOT MARK

PACKING FORM8-2

8-3 PALLET FORM

9 PRECAUTIONS 34

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29

29

29

29

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32

33

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LM215WF3

Liquid Crystal Display

Product Specification

RECORD OF REVISIONS

Revision

No

0.0 Sep., 06, 2012 - First Draft, Preliminary Specifications

0.1 Sep., 19, 2012 9 Add Note 4. ITLC Input voltage spec.

0.2 Oct., 26, 2012 6 Add the value of LVDS impedance

Revision

Date

Page Description

17 Add power sequence about option signal (ITLC)

29 Update the rear drawing

30 Change package quantity in one box (12pcb  14pcb)

8 Update the LED Max. power consumption

11 Add “Maximum deviation of input clock freq during SSC”

Add “Maximum modulation freq of input clock during SSC”

19 Update the Color Coordinates

29 Update the rear drawing

30 Add Product Label description

31, 32,

33

Add Packing assembly description

0.3 Nov., 14, 2012 19 Add color gamut spec.

1.0 Nov., 15, 2012 - Firth Draft, Final Specifications

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1. General Description

LM215WF3 is a Color Active Matrix Liquid Crystal Display with a Light Emitting Diode ( White LED) backlight
system without LED driver. The matrix employs a-Si Thin Film Transistor as the active element.
It is a transmissive type display operating in the normally black mode. It has a 23 inch diagonally measured
active display area with FHD resolution (1080 vertical by 1920horizontal pixel array)
Each pixel is divided into Red, Green and Blue sub-pixels or dots which are arranged in vertical stripes.
Gray scale or the brightness of the sub-pixel color is determined with a 8-bit gray scale signal for each dot,
thus, presenting a palette of more than 16,7M colors with A-FRC (Advanced Frame Rate Control).
It has been designed to apply the 8Bit 2 port LVDS interface.
It is intended to support displays where high brightness, super wide viewing angle,
high color saturation, and high color are important.

EEPROM

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LM215WF3

Liquid Crystal Display

Product Specification

RGB

Source Driver Circuit

LVDS

2port

+5.0V

CN1

(30pin)

+5.0V

I2C

Timing

Controller

Logic Power

Power Circuit

S1 S1920

G1

TFT - LCD Panel

(1920  RGB  1080 pixels)

G1080

Block

LED

General Features

CN2 (6PIN)V

[Figure1]Blockdiagram

Back light Assembly

(LED)

Active Screen Size 21.5 inches(54.61cm) diagonal

Outline Dimension 497.6(H) x 292.2(V) x 10.5(D) mm

Pixel Pitch 0.08265*RGB(H)mm x 0.24795(V)mm

Pixel Format 1920 horiz. By 1080 vert. Pixels RGB stripes arrangement

Color Depth 16,7M colors (6bit + A-FRC)

Luminance, White 250 cd/m

2

( Center 1 Point, Typ.)

Viewing Angle(CR>10) View Angle Free (R/L 178(Typ.), U/D 178(Typ.))

Power Consumption Total 15.65 Watt Typ. (3.75 Watt

@VLCD, 11.9 Watt @Is=120mA)

Weight 1920 g (typ.)

Display Operating Mode Transmissive mode, normally black

Panel Type Reverse Type

Surface Treatment Hard coating(3H), Anti-glare treatment of the front polarizer

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2. Absolute Maximum Ratings

The following are maximum values which, if exceeded, may cause faulty operation or damage to the unit.

Table 1. ABSOLUTE MAXIMUM RATINGS

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LM215WF3

Liquid Crystal Display

Product Specification

Parameter Symbol

Power Input Voltage

Operating Temperature

Storage Temperature

Operating Ambient Humidity

Storage Humidity

LCM Surface Temperature

(Operation)

VLCD -0.3 6.0 Vdc at 25 ± 2C

T

Surface

Values

Min Max

0 65

Units Notes

C500TOP

C60-20TST

%RH9010HOP

%RH9010HST

℃

Note : 1. Temperature and relative humidity range are shown in the figure below.

Wet bulb temperature should be 39 C Max, and no condensation of water.

2. Maximum Storage Humidity is up to 40, 70% RH only for 4 corner light leakage Mura.

3. Storage condition is guaranteed under packing condition

4. LCM Surface Temperature should be Min. 0 and Max. 65 under the VLCD=5.0V,
fV=60Hz, 25 ambient Temp. no humidity control and LED string current is typical value.

FIG.2 Temperature and relative humidity

1, 2, 3

1, 4

90%

60

50

Wet Bulb
Temperature [C]

40

30

20

10

0

10 20 30 40 50 60 70 800-20

Dry Bulb Temperature [C]

Ver. 1.0 Nov., 15, 2012

60%

40%

10%

Storage

Operation

Humidity [(%)RH]

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3. Electrical Specifications

3-1. Electrical Characteristics

It requires two power inputs. One is employed to power the LCD electronics and to drive the TFT array and
liquid crystal. The second input power for the LED/Backlight, is typically generated by a LED Driver.
The LED Driver is an external unit to the LCDs.

Table 2-1. ELECTRICAL CHARACTERISTICS

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LM215WF3

Liquid Crystal Display

Product Specification

Parameter Symbol

MODULE :

Power Supply Input Voltage VLCD

Differential Impedance

Permissive Power Input Ripple VdRF

ILCD_Mosaic

Power Supply Input Current

ILCD_White

Pc_Mosaic

Power Consumption

Pc_White

Rush current IRUSH

Min Typ Max

4.5 5 5.5

Z

m

- 750 940

- 920 1150

- 3.75 4.7

- 4.6 5.75

- - 3.0

Values

12010080

100

Unit Notes

Vdc

Ohm

mVp-p 1

mA 2

mA 3

Watt 2

Watt 3

A 4

Note :

1. Permissive power ripple should be measured under V

=5.0V, 25C, fV(frame frequency)=MAX

LCD

condition and At that time, we recommend the bandwidth configuration of oscilloscope is to be under
20Mhz. See the next page.

2. The specified current and power consumption are under the VLCD=5.0V, 25 2C,fV=60Hz condition

whereas Typical Power Pattern [Mosaic] shown in the [ Figure 3 ] is displayed.

3. The current is specified at the maximum current pattern.

4. Maximum Condition of Inrush current :

The duration of rush current is about 5ms and rising time of power Input is 500us ± 20%.(min.).

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LM215WF3

Liquid Crystal Display

Product Specification

• Permissive Power input ripple (V

White pattern

• Power consumption (V

=5V, 25C, fV (frame frequency=60Hz condition)

LCD

=5.0V, 25C, fv (frame frequency)=MAX condition)

LCD

Black pattern

Typical power Pattern

FIG.3 Mosaic pattern & White Pattern for power consumption measurement

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Maximum power Pattern

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Table 2-2. LED Bar ELECTRICAL CHARACTERISTICS

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LM215WF3

Liquid Crystal Display

Product Specification

Parameter Symbol

LED String Current Is - 120 125 mA 1, 2, 5

LED String Voltage Vs 46.4 49.6 52.8 V 1, 5

Power Consumption

LED Life Time LED_LT 30,000 - - Hrs 3

PBar - 11.9 12.7 Watt 1, 2, 4

Min. Typ. Max.

Values

Notes) The LED Bar consists of 32 LED packages, 2 strings (parallel) x 16 packages (serial)

LED driver design guide

: The design of the LED driver must have specifications for the LED in LCD Assembly.

The performance of the LED in LCM, for example life time or brightness, is extremely influenced by

the characteristics of the LED driver.
So all the parameters of an LED driver should be carefully designed and output current should be
Constant current control.
Please control feedback current of each string individually to compensate the current variation
among the strings of LEDs.
When you design or order the LED driver, please make sure unwanted lighting caused by
the mismatch of the LED and the LED driver (no lighting, flicker, etc) never occurs.
When you confirm it, the LCD module should be operated in the same condition as installed in
your instrument.

Unit Notes

1. The specified values are for a single LED bar.

2. The specified current is defined as the input current for a single LED string with 100% duty cycle.

3. The LED life time is defined as the time when brightness of LED packages become 50% or less

than the initial value under the conditions at Ta = 25 ± 2C and LED string current is typical value.

4. The power consumption shown above does not include loss of external driver.
The typical power consumption is calculated as P
The maximum power consumption is calculated as P

Bar = Vs(Typ.) x Is(Typ.) x No. of strings.

Bar = Vs(Max.) x Is(Typ.) x No. of strings.

5. LED operating conditions are must not exceed Max. ratings.

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3-2. Interface Connections

3-2-1. LCD Module

- LCD Connector(CN1) : IS100-L30O-C23 (UJU) , GT103-30S-HF15 (LSM)

- Mating Connector : FI-X30C2L (Manufactured by JAE) or Equivalent

Table 3. MODULE CONNECTOR(CN1) PIN CONFIGURATION

No Symbol Description No Symbol Symbol

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LM215WF3

Liquid Crystal Display

Product Specification

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

FR0M

FR0P

FR1M

FR1P

FR2M

FR2P

GND

FCLKINM

FCLKINP

FR3M

FR3P

SR0M

SR0P

GND

SR1M

Minus signal of odd channel 0 (LVDS)

Plus signal of o dd channel 0 (LVDS)

Minus signal of odd channel 1 (LVDS)

Plus signal of o dd channel 1 (LVDS)

Minus signal of odd channel 2 (LVDS)

Plus signal of o dd channel 2 (LVDS)

Ground

Minus signal of odd clock channel (LVDS)

Plus signal of odd clock channel (LVDS)

Minus signal of odd channel 3 (LVDS)

Plus signal of o dd channel 3 (LVDS)

Minus signal of even channel 0 (LVDS)

Plus signal of even channel 0 (LVDS)

Ground

Minus signal of even channel 1 (LVDS)

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

SR1P

GND

SR2M

SR2P

SCLKINM

SCLKINP

SR3M

SR3P

GND

NC

NC

ITLC

VLCD

VLCD

VLCD

Plus signal of even channel 1 (LVDS)

Ground

Minus signal of even channel 2 (LVDS)

Plus signal of even channel 2 (LVDS)

Minus signal of even clock channel (LVDS)

Plus signal of even clock channel (LVDS)

Minus signal of even channel 3 (LVDS)

Plus signal of even channel 3 (LVDS)

Ground

No Connection (I2C Serial interface for LCM)

No Connection.(I2C Serial interface for LCM)

Interlace mode selection

Power Supply +5.0V

Power Supply +5.0V

Power Supply +5.0V

Note: 1. All GND(ground) pins should be connected together and to Vss which should also be connected to

the LCD’s metal frame.

2. All V

LCD (power input) pins should be connected together.

3. Input Level of LVDS signal is based on the IEA 664 Standard.

4. ITLC is Interlace mode selection pin. (L : Normal Mode, H : Interlace mode)
If you don’t use this pin, it should be connected to GND.
(Low level Input Voltage : GND ~ 0.4V, High level Input Voltage : 1.6 ~ 3.6V,

Absolute maximum ratings : - 0.5 ~ 4V)

IS100-L30O-C23

#1 #30

#1

Rear view of LCM

FIG.4 Connector diagram

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Table 4. REQUIRED SIGNAL ASSIGNMENT FOR Flat Link (TI:SN75LVDS83) Transmitter

Pin # Require SignalPin Name Pin # Require SignalPin Name

1 Power Supply for TTL InputVCC 29 Ground pin for TTLGND

2 TTL Input (R7)D5 30 TTL Input (DE)D26

3 TTL Input (R5)D6 31 TTL Level clock InputTXCLKIN

4 TTL Input (G0)D7 32 Power Down InputPWR DWN

5 Ground pin for TTLGND 33 Ground pin for PLLPLL GND

6 TTL Input (G1)D8 34 Power Supply for PLLPLL VCC

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LM215WF3

Liquid Crystal Display

Product Specification

7 TTL Input (G2)D9 35 Ground pin for PLLPLL GND

8 TTL Input (G6)D10 36 Ground pin for LVDSLVDS GND

9 Power Supply for TTL InputVCC 37 Positive LVDS differential data output 3TxOUT3

10 TTL Input (G7)D11 38 Negative LVDS differential data output 3TxOUT3

11 TTL Input (G3)D12 39 Positive LVDS differential clock outputTXCLKOUT

12 TTL Input (G4)D13 40 Negative LVDS differential clock outputTXCLKOUT

13 Ground pin for TTLGND 41 Positive LVDS differential data output 2TXOUT2

14 TTL Input (G5)D14 42 Negative LVDS differential data output 2TXOUT2

15 TTL Input (B0)D15 43 Ground pin for LVDSLVDS GND

16 TTL Input (B6)D16 44 Power Supply for LVDSLVDS VCC

17 Power Supply for TTL InputVCC 45 Positive LVDS differential data output 1TXOUT1

46 Negative LVDS differential data output 1TXOUT118 TTL Input (B7)D17

19 TTL Input (B1)D18

20 TTL Input (B2)D19

22 TTL Input (B3)D20

23 TTL Input (B4)D21

47 Positive LVDS differential data output 0TXOUT0

48 Negative LVDS differential data output 0TXOUT0

49 Ground pin for LVDSLVDS GND21 Ground pin for TTL InputGND

50 TTL Input (R6)D27

51 TTL Input (R0)D0

24 TTL Input (B5)D22

25 TTL Input (RSVD)D23

26 Power Supply for TTL InputVCC 54 TTL Input (R2)D2

52 TTL Input (R1)D1

53 Ground pin for TTLGND

55 TTL Input (R3)D327 TTL Input (HSYNC)D24

56 TTL Input (R4)D428 TTL Input (VSYNC)D25

Notes : 1. Refer to LVDS Transmitter Data Sheet for detail descriptions.

2. 7 means MSB and 0 means LSB at R,G,B pixel data

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LVDS Input characteristics

1. DC Specification

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LM215WF3

Liquid Crystal Display

Product Specification

LVDS Common mode Voltage

LVDS Input Voltage Range

2. AC Specification

LVDS Clock

LVDS Data

Description Symbol Min Max Unit Notes

LVDS Clock to Data Skew Margin

NotesUnitMaxMinSymbolDescription

|LVDS Differential Voltage

ID

CM

IN

CMChange in common mode Voltage

clk

T

SKEW(Fclk

t

SKEW

t

1) 9 5MH z > Fc lk85MHz : -300~ +300

2) 8 5MH z > Fc lk65MHz : -400~ +400

3) 6 5MH z > Fc lk

=1/T

t

SKEW

t

SKEW

t

SKEW

clk

)

30MHz : -600~ +600



- 300 + 300 ps 95MHz > Fclk  85MHz

- 400 + 400 ps 85MHz > Fclk  65MHz

- 600 + 600 ps 65MHz > Fclk  30MHz

-mV600200|V

-V1.51.0V

-V1.80.7V

-mV250-ΔV

LVDS Clock to Clock Skew Margin
(Even to Odd)

SKEW _EO

+1/7-1/7t

clk

Maximum deviation of input clock freq during
SSC

DEV

Maximum modulation freq of input clock during
SSC

MOD

Note :

This SSC specifications are just T-CON operation specification. In case of various system condition, the optimum
setting value of SSC can be different. LGD recommend the SI should be adjust the SSC deviation and modulation
frequency in order not to happen any kinds of defect phenomenon.

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-KHz200-F

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