Lg Pb60g User manual

MARQUE : LG

REFERENCE : PB60G

CODIC : 3661660

North/Latin America http://aic.lgservice.com

Europe/Africa http://eic.lgservice.com

Asia/Oceania http://biz.lgservice.com

Internal Use Only

Printed in KoreaP/NO : MFL67479903 (1209-REV01)

DLP PROJECTOR

SERVICE MANUAL

CHASSIS : FM21B

MODEL : PB60G PB60G-JE

CAUTION

BEFORE SERVICING THE CHASSIS,

READ THE SAFETY PRECAUTIONS IN THIS MANUAL.

Only for training and service purposes

CONTENTS

CONTENTS .............................................................................................. 2

SAFETY PRECAUTIONS ........................................................................ 3

SPECIFICATION ....................................................................................... 4

ADJUSTMENT INSTRUCTION ................................................................ 5

BLOCK DIAGRAM.................................................................................. 13

EXPLODED VIEW .................................................................................. 14

SCHEMATIC CIRCUIT DIAGRAM ..............................................................

Only for training and service purposes

Many electrical and mechanical parts in this chassis have special safety-related characteristics. These parts are identified by in the

Schematic Diagram and Exploded View.

It is essential that these special safety parts should be replaced with the same components as recommended in this manual to prevent

Shock, Fire, or other Hazards.

Do not modify the original design without permission of manufacturer.

General Guidance

An isolation Transformer should always be used during the

servicing of a receiver whose chassis is not isolated from the AC

power line. Use a transformer of adequate power rating as this

protects the technician from accidents resulting in personal injury

from electrical shocks.

It will also protect the receiver and it's components from being

damaged by accidental shorts of the circuitry that may be

inadvertently introduced during the service operation.

If any fuse (or Fusible Resistor) in this TV receiver is blown,

replace it with the specified.

When replacing a high wattage resistor (Oxide Metal Film Resistor,

over 1 W), keep the resistor 10 mm away from PCB.

Keep wires away from high voltage or high temperature parts.

Before returning the receiver to the customer,

always perform an AC leakage current check on the exposed

metallic parts of the cabinet, such as antennas, terminals, etc., to

be sure the set is safe to operate without damage of electrical

shock.

Leakage Current Cold Check(Antenna Cold Check)

With the instrument AC plug removed from AC source, connect an

electrical jumper across the two AC plug prongs. Place the AC

switch in the on position, connect one lead of ohm-meter to the AC

plug prongs tied together and touch other ohm-meter lead in turn to

each exposed metallic parts such as antenna terminals, phone

jacks, etc.

If the exposed metallic part has a return path to the chassis, the

measured resistance should be between 1 MΩand 5.2 MΩ.

When the exposed metal has no return path to the chassis the

reading must be infinite.

An other abnormality exists that must be corrected before the

receiver is returned to the customer.

Leakage Current Hot Check (See below Figure)

Plug the AC cord directly into the AC outlet.

Do not use a line Isolation Transformer during this check.

Connect 1.5 K / 10 watt resistor in parallel with a 0.15 uF capacitor

between a known good earth ground (Water Pipe, Conduit, etc.)

and the exposed metallic parts.

Measure the AC voltage across the resistor using AC voltmeter

with 1000 ohms/volt or more sensitivity.

Reverse plug the AC cord into the AC outlet and repeat AC voltage

measurements for each exposed metallic part. Any voltage

measured must not exceed 0.75 volt RMS which is corresponds to

0.5 mA.

In case any measurement is out of the limits specified, there is

possibility of shock hazard and the set must be checked and

repaired before it is returned to the customer.

Leakage Current Hot Check circuit

IMPORTANT SAFETY NOTICE

To Instrument's

exposed

METALLIC PARTS

Good Earth Ground

such as WATER PIPE,

CONDUIT etc.

AC Volt-meter

SAFETY PRECAUTIONS

Only for training and service purposes

SPECIFICATION

NOTE : Specifications and others are subject to change without notice for improvement

1. Application range

This spec sheet is applied all of the DLP Projector with FM21B chassis.

2. Requirement for Test

Each part is tested as below without special appointment.

(1) Temperature: 25 °C ± 5 °C(77 °F ± 9 °F), CST: 40 °C ± 5 °C

(2) Relative Humidity: 65 % ± 10 %

(3) Power Voltage

: Standard input voltage (AC 100-240 V~, 50/60 Hz)

* Standard Voltage of each products is marked by models.

(4) Specification and performance of each parts are followed each drawing and specification by part number in accordance with

BOM.

(5) The receiver must be operated for about 5 minutes prior to the adjustment.

3. Test method

(1) Performance: LGE TV test method followed

(2) Demanded other specification

Safety : UL, CSA, IEC, CE specification (EN55022 Class B)

EMC : FCC, ICES, IEC, CE specification (EN60950-1)

4. Model General Specification

No Item Specication Remark

Min Max Unit

1 Video input applicable system 1) NTSC M

2) PAL-B,D,G,H,I

3) PAL M

4) PAL N

5) PAL 60

6) SECAM

3.579545 / 60 Hz

4.433618 / 50 Hz

3.575611 / 60 Hz

3.582056 / 50 Hz

4.433618 / 60Hz

2 Power Adapter - DC 19.5V @ 4.62A (90W)

3 Input Voltage AC 100 ~ 240(± 10 %)V, 50/ 60Hz

4 Market Global

5 Picture size WXGA (1280 x 800)

6 Aspect ratio 16:10 Panel Resolution

7 Operating Temperature 0 40 deg

8 Operating Humidity 80 %

9 Storage Temperature -20 60 deg

10 Storage Humidity 85 %

Only for training and service purposes

ADJUSTMENT INSTRUCTION

1. Application Object

This instruction is for the application to the DLP Projector

(Chassis: FM21B).

2. Notes

(1) The power source insulation of this DLP Projector is not

charging type and you may not use the transformer for

insulation. It is advised to use an insulation transform

between the power supply cable and power input of the set

to protect the test equipment.

(2) The adjustment must be performed under the correct

sequence. But, it can be changed within the error

boundary of performance, considering the mass

productivity.

(3) The adjustment must be performed in the circumstance of

25 °C ± 5 °C of temperature and 65 % ± 10 % of relative

humidity.

(4) For the adjustment, the receptor's input voltage shall be

maintained at 220 V, 60 Hz.

(5) The set must be on for 5 minutes prior to any adjustment.

After receiving possible 100 % White Pattern, it is ready for

adjustment. If it is inevitable, it can be regardless of the

signal.

3. Composition of Adjustment Mode

(1) Adjustment mode can be entered by pressing ADJ key of

the adjustment remote controller, and may exit by pressing

EXIT key after the adjustment.

(2) Preparation for adjustment.

1) Connect power to the Set, and make it Power On state.

2) Heat Run for at least 5 min. before the adjustment.

(3) Adjustment specification

1) Composition of adjustment mode

A. Turn on the power of the set with Power on key.

B. Select Default mode for input source.

C. Adjustment mode can be entered by pressing ADJ

key of the adjustment remote controller, and may exit

by pressing EXIT key after the adjustment.

D. Preparation for adjustment.

E. Connect power to the Set, and make it Power On

state.

F. Heat Run for at least 5 min. before the adjustment.

4. Folding Mirror Adjustment

4.1. Lighting System Adjustment Procedure

(1) Settle down optical engine in the standard position of Jig.

(2) Press Engine Clamp button to fix the engine, and press

Lens Clamp button to lock the lighting adjustment lens.

(3) Adjust screen size with 40 inch as standard, and after

bringing up Full White screen, adjust Focus.

(4) In a case where a lightening is installed to a horizontal

direction as shown (a), an adjustment micro-meter is

rotated to counter-clockwise whereas it is rotated to

clockwise in a case of the left side installation to adjust a

lightening margin; after a width of a lightening margin is

confirmed by rotating 0.2 mm more to the rotation

direction, it is rotated back by 0.1 mm to the opposite

direction.

(5) In a case where a lightening is installed to a vertical

direction, confirm with a method like the above (4).

4.2.

Final Adjustment

Repeat the adjustments of 5) and 6) 2 times to check again

whether the lighting margin of the left screen is at the end,

and also check whether end of the right lighting margin went

over. After foreign object inspection, focus line

width(measurement category: refer to the figure), and Focus

Stopper location inspection, fix the lighting system adjustment

lens.

In a case where installed to the right side(right)

In a case where installed to the left side(left)

(Fig. 4-1-1) In a case where installed to a horizontal direction

(Fig. 4-1-2) In a case where installed to a vertical direction

In a case where installed to the upper part(right)

In a case where installed to the lower part(left)

Only for training and service purposes

4.3. Lighting System Margin Inspection

Method and Spec.

- Apply for the sample that the decision for good/fail is difficult

during visual inspection of lighting margin.

(1) Prepare CL-200 with measurement surface of width

20mm, length 5mm as in (Fig. 4-3-1)

(2) Bring up Full White pattern and check whether Light Cyan

shows.

(3) Measure the brightness at the boundary of the screen.

(Refer to Fig. 4-3-3)

(4) Measure brightness at 10mm in the inner direction from

screen boundary. (Refer to Fig. 4-3-4)

(5) Lighting Margin Spec shall be smaller than 104% of (4)

brightness/(3)brightness.

4.4. Focus test method and subject

- Test pattern : Resolution Pattern , White Cross-Hatch

Pattern

- Tools : Focus width measurement ruler

4.4.1. Focus adjustment method

(1) Set the projection distance of Engine as 1200 mm (40 Inch

screen).

(2) Pop up the Resolution Pattern among the Test Patterns of

Set, and x the Focus on the part where the

Resolution Pattern is classied on each part of screen. (all

parts Balancing)

(3) Popup the White Cross-Hatch Pattern and measure the

width of each Point.

(4) Focus judging standard : 3.5 mm or less (Measure line

width excluding light Flare: Refer to Fig. 4-4-1)

4.4.2. Focus Stopper Location Verication

(1) Test pattern : White cross-hatch

(2) Visually verify focus after locating a white board 594 mm

from the projection lens so that screen is set to 20 inches.

(3) Inspect the location of the stopper after locating a white

board 1210 mm from the projection lens so that screen is

set to 40 inches

(4) Evaluation criteria for stopper location

Non-defective : Bushing shall be located within A marking.

(Fig. 4-3-3)

(Fig. 4-3-1) CL-200 for lighting margin inspection (right side)

(Fig. 4-3-2) CL-200 for lighting margin inspection (right side)

(Fig. 4-3-3) Measure brightness of screen boundary

(Fig. 4-3-4) Measure brightness at 10mm inside the screen

(Fig. 4-4-1) Standard for deciding line width

Red Line ( light Flare), Blue Line ( Thick Flare)

(Fig. 4-4-2) Resolution Pattern

(Fig. 4-4-3) Bushing verication location

Only for training and service purposes

4.4.3. Verication of DMD light source

(1) Finish after verifying if the light source in the right side of

DMD screen in Gray Pattern – Full Gray 10 Pattern inside

DMD Check Pattern can be seen with naked eyes. (Refer

to Fig. 4-4-4)

(DMD Light Source Spec: It is not seen with naked eyes in

Full Gray 10 Pattern.)

5. Caution for DMD(Digital Micro-mirror Device)

5.1. Caution for DMD ESD

(1) Connector the grounding to prevent a damage of ESD

(Electrostatic Discharge) when handing the DMD.

(2) Wear a wrist strap to connect the ESD grounding in esh

necessarily.

(3) Connect the ESD ground to workstation and an electric

conductor.

(4) Save the DMD after getting rid of a static electricity. Keep

it at an exclusive case when moving it When grounding,

open the case.

(5) Put on gloves for preventing static electricity.

(6) All work is done at static free location. Attach the tape or

remove a dust on the DMD front or DMD back pin

5.2. Caution for DMD Clean

(1) Follow the procedure and caution to prevent the screen

from being scratched.

(2) When DMD glass stains with dust, polish the front and

back DMD glass with soft cloth. Then, do it again after

rotating 180 degree the DMD. If necessary, keep under

observation.

(3) Don't clean the DMD with the high pressure. The static

electricity and pressure will damage the DMD.

* Attachment )TI Reference :

DMD Handling Specication, DMD Cleaning

6. Country Adjustment and Verication

6.1. Country Adjustment Method

(1) Enter to the adjustment mode by selecting “IN-START”.

(2) Press the right arrow key in “Adjust check” to locate a

cursor on “Country Group Code”.

(3) In case of PB60G-JE, change “Country Group Code”

to “17” and press the down arrow key once to change

"Country" and then press OK. (PB60G_ EBT62193502,

EBT62193505, EBT62193506, EBT62193507,

EBT62193508)

(4) Press Exit to complete the adjustment.

(In case of EBT62193501, change "Country Group Code"

only, then press OK.)

(In case of EBT62193502, EBT62193503, EBT62193505,

EBT62193506, EBT62193507, EBT62193508,

EBT62193509, EBT62193510, Change both "Country Group

Code" and "Country," then press OK.

(Fig. 4-4-4) Verication of DMD light source

Main chassis

assy P/N

Sufx Country

EBT62193502 AEU,AEK EU

EBT62193506 AKR KR

EBT62193507 AUS,ACC,AWM US

EBT62193508 ACN CN

EBT62193505 Others GB

Only for training and service purposes

7. EDID Data Download

7.1. Used Device

: Adjustment remote control

7.2. Adjustment Method

(1) Enter to adjustment mode with selecting "ADJ"on remote

control.

(2) Enter to "1. EDID D/L" with pressing right direction key to

get in EDID Download adjustment menu (Fig. 6-2-1)

(3) Select "START".

(4) When adjustment is completed, check RGB "OK(PCM)"

HDMI1 "OK(PCM)". (Fig. 6-2-2)

When it fails, Reset and check by trying the (3) process

again.

(5) To exit, press "ADJ" or "EXIT" of the adjustment remote

controller again to exit.

(6) To verify the adjustment result, enter EDID D/L or IN-

START and verify.

8. ADC Adjustment

8.1. Used Device

- Adjustment remote control

8.2. Adjustment Method

(1) Enter to adjustment mode with selecting "ADJ" on remote

control.

(2) Enter to "0. ADC Calibration" with pressing right direction

key to get in EDID Download adjustment menu (Fig. 7-2-1)

(3) Select "START".

(4) When the adjustment is completed, Success message is

displayed, and if it fails, Fail message is displayed.

(5) To exit, press "ADJ" or "EXIT" of the adjustment remote

controller again to exit.

(6) To verify the adjustment result, enter ADC Calibration or

IN-START and verify.

< Common Adjustment for Circuit Board Line

/ Assembly Line>

9. Verify DPP Version

9.1. Used Device

: Adjustment remote controller 1EA

9.2. DPP Version Verication Method

(1) Run IN-START and check the DPP version in the sixth

item on the left of the screen (Fig.9.1).

(2) If the version information is displayed wrong as shown in

(Fig.9.2), exit and re-enter the IN-START menu to check

the version.

10. Inspect Focus Regarding Change

with the Passage of Time

(1) Set the projection distance of the set to 1293 mm (40 Inch

screen).

(2) Pop up the resolution pattern among the test patterns in

the set and x the focus on the center of the screen. Then

check the focus performance in the set.

(3) After 20-30 minutes later, set the projection distance and

pattern to the same as (1) and (2), then measure the 5

point of line width specied in Fig. 10-1 using a line width

ruler.

* Caution: During the Heat-run is in progress for 20-30 min-

utes, x the focus knob. (Do not adjust the focus

additionally during the Heat-Run.)

(4) 20-30 minutes later, set the screen to t into 40 inches

based on (1) above.

(5) After setting the screen to 40 inches, measure the 5 point

of line width specied in Fig. 10-1 using a line width ruler.

-> Focus judging standard: 4.0 mm or less (measure line

width excluding light are)

(Fig.6-2-1) Adjustment Menu when ADJ is selected (Left)

(Fig.6-2-2) Selection Category on ADJ Adjustment Menu (Right)

(Fig.7-2-1) Selection Category on ADJ Menu (Left)

(Fig.7-2-2) Selection Category on ADJ Adjustment Menu (Right)

G G

(Fig. 10-1) Line Width Measuring Point

Only for training and service purposes

11. Total Assembly Adjustment

11.1. Enter Power Only mode

(1) After assembling the SET, DC on the SET at the start of

post process. (use keypad or remote controller)

(2) Press ‘P-ONLY’ key of the adjustment remote controller to

enter ‘Power Only’ mode. (Full White screen is displayed)

(3) To enter the next adjustment, enter ‘EXIT’ of the remote

controller to exit Full white screen, and proceed to the

adjustment.

12. Compensate Auto Keystone

12.1. Used Device

- Adjustment remote control

- Projector remote control

12.2. Adjustment Preparations and Device

Conguration

(1) Adjustment Preparations

1) Input source: Default (no need to specify an input

source)

2) The set must be adjusted on a plate, glass or table with

a atness degree between more than -1 and less than

+1.

3) Incline upward the set to project an image over the top

line of the screen. After the keystone changes, adjust

the image to the adjusting position. (Fig. 12-1)

(2) Adjustment Method

1) Make sure the set is placed on an adjusting position.

2) Check the keystone value using the projector remote

control.

A. Enter the Menu button.-> Move through the

options.-> Check the Keystone value.

3) Enter the menu to compensate the keystone using the

adjustment remote controller.

A. ADJ -> 8. Auto Keystone -> Enter the right arrow key

4) Compensate keystone distortion by pressing the left/

right arrow keys according to the keystone value you

have checked in B).

- If the value you have checked in B) is positive (+),

press the left arrow key.

- If it is negative (-), press the right arrow key as many

times as the value. (ex. If the value was -3, then press

the right arrow key 3 times to make it +3.)

13.

EDID/ADC Verication Adjust-

ments

13.1. Used Device

- Adjustment Remote Controller

13.2. EDID, ADC, MAC Address verication

Methode

(1) Select “IN-START” of the adjustment remote controller.

(Input ‘0413’ for password)

(2) V erify RGB “OK” and HDMI1 “0K” in “1.Adjust Check” →.

“3.EDID(PCM)” category. (Fig. 9-2-1)

(3) Verify ADC Comp 480i “OK”, ADC Comp 1080p“0K”, and

ADC RGB “0K” in “1.Adjust Check” →. “2.Adjust ADC”

category

(4) “1.Adjust Check” → Verify MAC Address downloaded at

the bottom left

(5) To exit, press “IN-START” or “EXIT” of the adjustment

remote controller again to exit.

(Fig. 12-1) Preparations before Auto Keystone Compensation

(Fig. 12-2) Auto Keystone Menu

(Fig. 12-3) Example Before Auto Keystone Compensation

(Fig. 12-4) Example Before Auto Keystone Compensation

(Fig. 13-1) Adjustment Menu when IN-START is selected

Only for training and service purposes

14. White Balance (CCA) Adjustment.

14.1. Used Device

(1) Photometer (Model Name: CL-200 or CL-200A) 1EA -->

Measure color coordinate at the center of the projection

screen

(2) Adjustment remote controller 1EA

(3) Interface board - 1EA, RS-232C Cable - 1EA

(4) CL200A UART Cable (T - A11), USB Cable - 1EA

14.2. Composition of the equipment

14.3. Adjustment Method

* Heat Run for at least 5 min. before the adjustment.

(1) After connecting as in the Device Composition Diagram,

select “ADJ” of the adjustment remote controller to enter

the adjustment mode.

(2) Select 2.DDP AUTO CCA(PC) and enter the right direction

key(►) of the adjustment remote controller to enter.

Then, it becomes the screen state as in the right side

of Figure 2, and it means that the SET is ready for CCA

adjustment.

(3) When ‘ProjectorWB.exe’ as the following icon is run in

CCA adjustment PC screen, window as in (Fig. 14-3) is

displayed.

1) Click ‘Model’ to select ‘PB60G’ model,

2) And click ‘Adjustment’, then the adjustment starts.

3) If adjustment is properly completed, ‘OK’ as in the bot-

tom left gure is displayed.

If it is ‘NG’ as in the bottom left gure, check again

whether device composition is properly done as in

(Fig. 10-3-3), and click 2) ‘Adjustment’ again to try

re-adjustment.

(4) Press the "Back" or "Exit" key when the compensation is

completed. Then a window will be displayed to verify it is

completed normally as shown in (Fig. 14-5). If the CCA

result is OK, select YES on the screen as shown in (Fig.

14-5); if NG, select NO.

(5) You can check whether the result of CCA adjustment is

OK or NG by selecting "IN-START" > 1. Adjust Check > 2.

Adjust White Balance. If you selected Yes on the screen

as shown in (Fig 9.6), OK is displayed; if you selected NO

then NG is displayed. (Fig. 14-6)

(Fig. 14-1) Device Setting Diagram

(Fig.14-2) Selection Category on ADJ Menu

(Fig. 14-3)

(Fig. 14-4)

(Fig.14-5)

(Fig.14-6)

Only for training and service purposes

15. Brightness Inspection

- Measure the subjects below and it should satisfy the spec of

product specication.

(1) Brightness(Annsi-Lumen)

(2) Whiteness color coordinate

(KAGA measures R,G,B color coordinate)

(3) Color Uniformity

(4) Brightness Uniformity

15.1. Preparation for Adjustment and

Device Composition

15.1.1. Adjustment Preparation

(1) Input source: Default (No need to designate Source)

(2) The order of operating the adjustment remote controller

buttons

- IN-STAR -> 4. DDP OPTIC CHECK -> Select Full White.

15.1.2. Brightness Measurement Screen Setting

15.1.3. Projector Brightness Measurement

JIG Software Organization

(1) Model Selection: PB60G-JE

(2) Selecting screen size : W: 861 , H : 539

1) Press the direction key of the adjustment remote con-

troller to change the screen of the projector to White

Pattern.

- After 2~3 seconds, White Color Coordinate Data is

transmitted from CL200.

- In the result display window in the right center of the

screen, color coordinate and brightness value are

recorded.

2) Press ‘Finish’ button of the screen.

(3) White brightness inspection: Check if PB60G brightness is

Min Spec 210 ANSI lm or more.

16. Final Inspection

- Carry out according to the contents of the nal inspection

in the Working Guide. (Auto Keystone Inspection and 3D

Inspection Category are added)

(1) In 3D Inspection, select Master Equipment Model No 2/

Pattern No 703, and reect DLP link 3D glasses against

the screen, and if it shows Left: red / Right: blue, it is

normal.

(2) Check the Keystone value using the projector remote

control.

1) The set must be inspected on a plate, glass or table with

a atness degree between more than-1 and less than

+1.

2) Incline upward the set to project an image over the top

line of the screen. After the keystone changes, adjust

the image to the inspecting position. Fig 9. 0

3) Enter the Menu button.-> Move through the options.->

Check the Keystone value.

4) It is O.K, if the keystone value is -2 or higher and +2 or

lower.

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ྚG ⵑὤG 㽕㥉G 䞈⮨G zG

(Fig. 11-1-1)

Brightness Measurement Screen Setting Composition

(Fig. 11-1-2)

Only for training and service purposes

[Reference]

1. EDID Data

- RGB : BLOCK 0

- HDMI : BLOCK 0

- HDMI : BLOCK 1

* HDMI (Country : US Only) : BLOCK 0

* HDMI (Country : US Only) : BLOCK 1

0 1 2 3 4 5 6 7 8 9 A B C D E F

0 00 FF FF FF FF FF FF 00 1E 6D DD 36 01 01 01 01

10 01 16 01 03 08 80 50 78 0A 31 A8 A5 4D 37 B3 24

20 06 48 4C A1 08 00 31 40 45 40 61 7C 71 40 81 80

30 90 40 B3 00 01 01 9E 20 00 90 51 20 1F 30 48 80

40 36 00 00 20 53 00 00 1E 66 21 50 B0 51 00 1B 30

50 40 70 36 00 50 00 53 00 00 1E 00 00 00 FD 00 3A

60 7A 1E 69 10 00 0A 20 20 20 20 20 20 00 00 00 FC

70 00 4C 47 20 50 4A 54 52 0A 20 20 20 20 20 00 B7

0 1 2 3 4 5 6 7 8 9 A B C D E F

0 00 FF FF FF FF FF FF 00 1E 6D DE 36 01 01 01 01

10 01 16 01 03 80 80 50 78 0A 31 A8 A5 4D 37 B3 24

20 06 48 4C A1 08 00 31 40 45 40 61 7C 71 40 81 80

30 90 40 B3 00 01 01 9E 20 00 90 51 20 1F 30 48 80

40 36 00 00 20 53 00 00 1E 66 21 50 B0 51 00 1B 30

50 40 70 36 00 50 00 53 00 00 1E 00 00 00 FD 00 3A

60 7A 1E 69 10 00 0A 20 20 20 20 20 20 00 00 00 FC

70 00 4C 47 20 50 4A 54 52 0A 20 20 20 20 20 01 3D

0 1 2 3 4 5 6 7 8 9 A B C D E F

0 02 03 21 F1 4D 10 1F 84 13 05 14 03 02 12 20 22

10 11 01 26 15 07 50 09 57 07 67 03 0C 00 10 00 80

20 1E 9E 20 00 90 51 20 1F 30 48 80 36 00 00 20 53

30 00 00 1E 01 1D 80 18 71 1C 16 20 58 2C 25 00 80

40 38 74 00 00 9E 01 1D 00 72 51 D0 1E 20 6E 28 55

50 00 00 D0 52 00 00 1E 8C 0A D0 8A 20 E0 2D 10 10

60 3E 96 00 D0 E0 21 00 00 18 26 36 80 A0 70 38 1F

70 40 30 20 25 00 80 38 74 00 00 1A 00 00 00 00 5A

0 1 2 3 4 5 6 7 8 9 A B C D E F

0 00 FF FF FF FF FF FF 00 1E 6D DE 36 01 01 01 01

10 01 16 01 03 80 80 50 78 0A 31 A8 A5 4D 37 B3 24

20 06 48 4C A1 08 00 31 40 45 40 61 7C 71 40 81 80

30 90 40 B3 00 01 01 9E 20 00 90 51 20 1F 30 48 80

40 36 00 00 20 53 00 00 1E 66 21 50 B0 51 00 1B 30

50 40 70 36 00 50 00 53 00 00 1E 00 00 00 FD 00 3A

60 7A 1E 69 10 00 0A 20 20 20 20 20 20 00 00 00 FC

70 00 4C 47 20 50 4A 54 52 0A 20 20 20 20 20 01 3D

0 1 2 3 4 5 6 7 8 9 A B C D E F

0 02 03 21 F1 4D 10 1F 84 13 05 14 03 02 12 20 22

10 11 01 26 00 00 00 09 57 07 67 03 0C 00 10 00 80

20 1E 9E 20 00 90 51 20 1F 30 48 80 36 00 00 20 53

30 00 00 1E 01 1D 80 18 71 1C 16 20 58 2C 25 00 80

40 38 74 00 00 9E 01 1D 00 72 51 D0 1E 20 6E 28 55

50 00 00 D0 52 00 00 1E 8C 0A D0 8A 20 E0 2D 10 10

60 3E 96 00 D0 E0 21 00 00 18 26 36 80 A0 70 38 1F

70 40 30 20 25 00 80 38 74 00 00 1A 00 00 00 00 C6

Only for training and service purposes

BLOCK DIAGRAM

Only for training and service purposes

300

100

110 310

400

120

520

633

632

631

601

602

603

605

608

610

611

613

614

401

530

560

615

700

606

600

607

EXPLODED VIEW

Many electrical and mechanical parts in this chassis have special safety-related characteristics. These

parts are identified by in the Schematic Diagram and EXPLODED VIEW.

It is essential that these special safety parts should be replaced with the same components as

recommended in this manual to prevent X-RADIATION, Shock, Fire, or other Hazards.

Do not modify the original design without permission of manufacturer.

IMPORTANT SAFETY NOTICE

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES

SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.

FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS

ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR

THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

PCM_A[3]

PCM_A[0]

PCM_A[4]

PCM_A[6]

PCM_A[5]

PCM_A[1]

PCM_A[7]

PCM_A[2]

PCM_A[4]

PCM_A[5]

PCM_A[3]

PCM_A[2]

/FLASH_WP

SPI_SDI

SPI_SCK

MODEL_OPT_1

MODEL_OPT_2

PCM_A[7]

R14222 AMP_MUTE

SIDE_HP_MUTE

R14633

/PF_WP

RGB_DDC_SDA

KEY1

/PF_CE1

R15133

AR103

PM_TXD

RGB_DDC_SCL

USB1_CTL

R187 1K

R11422

R145

2.2K

USB1_OCD

R137 22

/PF_OE

R14733

/PF_OE

C101

0.1uF

PWM1

/PF_CE0

PF_ALE

PWM0

/PF_CE0

/PF_WE

R139 22

+3.3V_Normal

R144

2.2K

R1881K

OPT

/PF_CE1

PM_RXD

R11022

R131 22

R189 3.9K

PM_TXD

/F_RB

R136 22

R13522 OPT

KEY2

R13422 OPT

C103

0.1uF

AR102

+3.3V_Normal

R130 22

/F_RB

/PF_WP

AR101

PM_RXD

/PF_WE

C105

0.1uF

+3.3V_Normal

R186

POWER_ON/OFF_1

PF_ALE

AR104

R138 22

R182

3.3K

IC104

AT24C256C-SSHL-T

GND

5SDA

6SCL

7WP

8VCC

R176

10K

R1407

+3.3V_ST

C1401

0.1uF

G_NTC

R_NTC

R190

3.9K

R191

3.9K

R1810

R1630

R1640

PWM4

PWM3

LED_CTL1

LED_PWM

R141 100

R140 100

USB_S1

USB_S0

R121

1K OPT

R116

PWM1

R152

OPT

PWM0

AUD_MASTER_CLK_0

R117

OPT

R124

R118

R165

+3.3V_Normal

R123

OPT

LED_PWM

R115

OPT

AUD_SCK

R153

C106

8pF

OPT

C104

8pF

OPT

C102

10uF6.3V

S/T_SDA

S/T_SCL

R10322

R10422

R10522

C113

0.01uF

50V

C114

0.01uF

50V

C118

0.01uF

50V

IC102

H27U1G8F2BTR-BC

26 NC_17

27 NC_18

28 NC_19

29 I/O0

30 I/O1

31 I/O2

32 I/O3

33 NC_20

34 NC_21

35 NC_22

36 VSS_2

37 VCC_2

38 NC_23

39 NC_24

40 NC_25

41 I/O4

42 I/O5

43 I/O6

44 I/O7

45 NC_26

46 NC_27

47 NC_28

48 NC_29

ALE

NC_3

NC_6

CLE

NC_10

NC_9

VSS_1

VCC_1

NC_8

NC_7

R/B

NC_4

NC_5

25 NC_16

NC_15

NC_14

NC_2

NC_13

NC_12

NC_1

NC_11

R161

R158

HW600

R120

TUNER

R162

R159

HW400

+3.3V_Normal

R160

GLOBAL

IC1401

W25Q80BVSSIG

%WP[IO2]

DO[IO1]

GND

5DI[IO0]

6CLK

7HOLD[IO3]

8VCC

R1990 OPT

R192

20K

R102

OPT

R101

OPT

BATTERY_DET

DSUB_DET

PWRGOOD

AMP_RESET

+3.3V_Normal

R175

R174

5V_DET_HDMI_1

HP_DET

SDA3_3.3V

TUNER_RESET

R180 0

+3.3V_Normal

R977

R171

10K

AMB_NTC

R8013 47

G_TTL[6]

R_TTL[1]

R_TTL[0]

R_TTL[7]

LVSYNC

G_TTL[7]

R_TTL[3]

LDE

R_TTL[6]

R_TTL[4]

R8012 47

LCK

LHSYNC

R8014 47

G_TTL[4]

G_TTL[5]

R_TTL[2]

R_TTL[5]

R177 0

FAN_TACH_SW

DPP_DL

R183

R1001K

R173 33

R172 33

R978

SCL3_3.3V

G_TTL[3]

G_TTL[2]

G_TTL[0]

G_TTL[1]

B_TTL[7]

B_TTL[5]

B_TTL[4]

B_TTL[6]

B_TTL[3]

B_TTL[0]

B_TTL[2]

B_TTL[1]

IC403

APX803D29

GND

3VCC

RESET

+3.3V_ST

R149

R8983

100K

C287

0.1uF

AR105 22

AR107 22

AR108 22

AR106 22

AR109 22

AR110 22

R8015 22

FAN_DISPLAY

IC101

LGE2111A-W1 [MULTI]

PCMDATA[0]/GPIO126

W21

PCMDATA[1]/GPIO127

AA18

PCMDATA[2]/GPIO128

AB22

PCMDATA[3]/GPIO120

AE20

PCMDATA[4]/GPIO119

AA15

PCMDATA[5]/GPIO118

AE21

PCMDATA[6]/GPIO117

AB21

PCMDATA[7]/GPIO116

Y15

PCMADR[0]/GPIO125

W20

PCMADR[1]/GPIO124

V20

PCMADR[2]/GPIO122

W22

PCMADR[3]/GPIO121

AB18

PCMADR[4]/GPIO99

AA20

PCMADR[5]/GPIO101

AA21

PCMADR[6]/GPIO102

Y19

PCMADR[7]/GPIO103

AB17

PCMADR[8]/GPIO108

Y16

PCMADR[9]/GPIO110

AB19

PCMADR[10]/GPIO114

AB20

PCMADR[11]/GPIO112

AA16

PCMADR[12]/GPIO104

AA19

PCMADR[13]/GPIO107

AC21

PCMADR[14]/GPIO106

AA17

PCMREG_N/GPIO123

Y20

PCMOE_N/GPIO113

AB15

PCMWE_N/GPIO197

AA22

PCMIORD_N/GPIO111

AD22

PCMIOWR_N/GPIO109

AD20

PCMCE_N/GPIO115

AD21

PCMIRQA_N/GPIO105

AC20

PCMCD_N/GPIO130

Y18

PCMWAIT_N/GPIO100

Y21

PCM_RESET/GPIO129

Y22

PCM2_CE_N/GPIO131

U21

PCM2_IRQA_N/GPIO132

V21

PCM2_CD_N/GPIO135

R20

PCM2_WAIT_N/GPIO133

T20

PCM2_RESET/GPIO134

U22

UART1_TX/GPIO43

UART1_RX/GPIO44

UART2_TX/GPIO65

N25

UART2_RX/GPIO64

N24

UART3_TX/GPIO47

UART3_RX/GPIO48

I2C_SCKM2/DDCR_CK/GPIO72

P23

I2C_SDAM2/DDCR_DA/GPIO71

P24

DDCA_DA/UART0_TX

DDCA_CK/UART0_RX

PWM0/GPIO66

P21

PWM1/GPIO67

N23

PWM2/GPIO68

P22

PWM3/GPIO69

R21

PWM4/GPIO70

P20

PWM_PM/GPIO199

SAR0/GPIO31

SAR1/GPIO32

SAR2/GPIO33

SAR3/GPIO34

SAR4/GPIO35

VSYNC_LIKE/GPIO145

R23

SPI1_CK/GPIO201

R24

SPI1_DI/GPIO202

R25

SPI2_CK/GPIO203

T21

SPI2_DI/GPIO204

T22

NF_CE1Z/GPIO138 AE18

NF_WPZ/GPIO198 AC17

NF_CEZ/GPIO137 AD18

NF_CLE/GPIO136 AC18

NF_REZ/GPIO139 AC19

NF_WEZ/GPIO140 AD17

NF_ALE/GPIO141 AE17

NF_RBZ/GPIO142 AD19

GPIO_PM[0]/GPIO6 H5

PM_UART_TX/GPIO_PM[1]/GPIO7 K6

GPIO_PM[2]/GPIO8 K5

GPIO_PM[3]/GPIO9 J6

GPIO_PM[4]/GPIO10 K4

PM_UART_RX/GPIO_PM[5]/GPIO11 L6

PM_SPI_SCZ1/GPIO_PM[6]/GPIO12 C2

GPIO_PM[7]/GPIO13 L5

GPIO_PM[8]/GPIO14 M6

GPIO_PM[9]/GPIO15 M5

PM_SPI_SCZ2/GPIO_PM[10]/GPIO16 C1

GPIO_PM[11]/GPIO17 M4

PM_SPI_SCK/GPIO1 A2

PM_SPI_CZ0/GPIO_PM[12]/GPIO0 D3

PM_SPI_SDI/GPIO2 B2

PM_SPI_SDO/GPIO3 B1

TS0CLK/GPIO87 Y14

TS0VALID/GPIO85 AA10

TS0SYNC/GPIO86 Y12

TS0DATA_[0]/GPIO77 Y13

TS0DATA_[1]/GPIO78 Y11

TS0DATA_[2]/GPIO79 AA12

TS0DATA_[3]/GPIO80 AB12

TS0DATA_[4]/GPIO81 AA14

TS0DATA_[5]/GPIO82 AB14

TS0DATA_[6]/GPIO83 AA13

TS0DATA_[7]/GPIO84 AB11

TS1CLK/GPIO98 AC15

TS1VALID/GPI96 AD15

TS1SYNC/GPIO97 AC16

TS1DATA_[0]/GPIO88 AD16

TS1DATA_[1]/GPIO89 AE15

TS1DATA_[2]/GPIO90 AE14

TS1DATA_[3]/GPIO91 AC13

TS1DATA_[4]/GPIO92 AC14

TS1DATA_[5]/GPIO93 AD12

TS1DATA_[6]/GPIO94 AD13

TS1DATA_[7]/GPIO95 AD14

IC101

LGE2111A-W1 [MULTI]

GPIO36

GPIO37

GPIO38

GPIO39

GPIO40

GPIO41

GPIO42

GPIO45

GPIO46

GPIO49

AB5

GPIO50

AB3

GPIO51

GPIO52

I2C_SCKM0/GPIO53

AB1

I2C_SDAM0/GPIO54

GPIO73

AB2

GPIO74

AC2

LVA0P AB25

LVA0N AB23

LVA1P AC25

LVA1N AB24

LVA2P AD25

LVA2N AC24

LVA3P AE23

LVA3N AC23

LVA4P AC22

LVA4N AD23

LVB0P V23

LVB0N U24

LVB1P V25

LVB1N V24

LVB2P W25

LVB2N W23

LVB3P AA23

LVB3N Y24

LVB4P AA25

LVB4N AA24

LVACKP AE24

LVACKN AD24

LVBCKP Y23

LVBCKN W24

GPIO196 T25

GPIO193 U23

GPIO194 T24

GPIO195 T23

+3.3V_ST

R154

MS(KAGA)

R155

LGE

+3.3V_Normal

20120221

MAIN1

FLASH/EEPROM/GPIO

for SERIAL FLASH

A0’h

NAND FLASH MEMORY

EEPROM

(I2S_OUT_BCK,I2S_OUT_MCK,PAD_PWM1PAD_PWM0)

B51_no_EJ : 4’b0000 Boot from 8051 with SPI flash

SB51_WOS : 4’b0001 Secure B51 without scramble

SB51_WS : 4’b0010 Secure B51 with scramble

MIPS_SPE_NO_EJ : 4’b0100 Boot from MIPS with SPI flash

MIPS_SPI_EJ_1 : 4’b0101 Boot from MIPS with SPI flash

MIPS_SPI_EJ_2 : 4’b0110 Boot from MIPS with SPI flash

MIPS_WOS : 4’b1001 Secure MIPS without scramble

MIPS_WS : 4’b1010 Scerur MIPS with SCRAMBLE

LM1_HW600G

Boot from SPI CS1N(EXT_FLASH) 1’b0

Boot from SPI_CS0N(INT_FLASH) 1’b1

FAN

MODEL_OPT_0

HW400T

HW400G 0

1HW600T

HW400

MODEL_OPT_1

HW600 0

HW600G

MODEL_OPT_2

DPP6401 Reset

Only for training and service purposes

LGE Internal Use Only

THERMAL

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES

SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.

FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS

ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR

THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

IF_P_MSTAR

IF_N_MSTAR

TU_SIF

AUD_MASTER_CLK

IF_AGC_MAIN

AV_CVBS_IN

AUD_SCK

C209 0.047uF

R4024 510

C208 0.047uF

C257

0.1uF

C206 0.047uF

R233 68

C210 1000pF

R4026

10K

R4025 510

R4023

2.4K

TU_CVBS

L227

BLM18PG121SN1D

R4004 0

PC_L_IN

R289

100

R231 68

C251 0.1uF

R252 68

C4068

100pF

L202

BLM18SG121TN1D

C250 0.1uF

C258

0.1uF

HDMI_ARC

SIDE_USB_DP

R210 33

C203

1000pF

OPT

C204 0.047uF

+3.3V_Normal

R288

100

R4001 0

OPT

R4003 47

C225 0.047uF

R4002 47

C4064

0.1uF

C264

1000pF

OPT

R200

62K

C201

0.1uF

C263

10uF

R287

SIDE_USB_DM

C227 0.047uF

PC_R_IN

C233 0.047uF

C205 0.047uF

R244 33

C249

4.7uF

R246 33

R229 68

C256

0.1uF

C4067

OPT

C4069

100pF

TP210

C231 0.047uF

C207 0.047uF

R4019

10K

R4020 0

C4065

0.047uF

25V

R4033 22

R4034 22

L203 10uH

L205 10uH

C268

10uF

6.3V

C272

10uF

6.3V

R260

200 R261

200

R1137

R1128

R1133

D1101

5.6V

OPT

AMOTECH

R1155

JK1501

KJA-PH-0-0177

3DETECT

5GND

+3.3V_Normal

PC_R_IN

R1125

R1130

10K

Q1106

2SC3052 E

R1129

3.3K

D1102

5.6V

OPT

AMOTECH

Q1105

ISA1530AC1

R1135

C1107

100pF

50V

C1108

100pF

50V

PC_L_IN

R1102

470K

R1103

470K SIDE_HP_MUTE

0.1uF

C514

16V

L502

BLM18PG121SN1D

AMP_MUTE

+3.3V_Normal

C1643

47pF

50V

R1654

C3738

0.1uF

16V

C3737

100pF

50V

R37610

C3716

0.1uF

16V

R3741

1.2K

R3704 100

TU3700

TDSS-H151F

5+B1[3.3V]

11 DIF[N]

2 RESET

10 DIF[P]

4 SDA

1 NC

9 IF_AGC

8 CVBS

3 SCL

7 +B2[1.8V]

6 SIF

SHIELD

TU_CVBS

TUNER_RESET

C3711

18pF

50V

C3713

18pF

50V

C3707

100pF

50V

C3702

0.1uF 16V

C3708

0.1uF

16V

R3732

100

R3736 33

R3733

100K

C3739

10uF

6.3V

OPT

R3735 33

R37600

C3710

0.1uF

16V

R3758

JK902

KJA-PH-1-0177

3 M3_DETECT

4 M4

5 M5_GND

1 M1

6 M6

R1513

10K

R736

4.7K

C706

1000pF

50V

Q1500

2SC3052

C705

33pF

50V

C736

0.47uF

50V

C704

1000pF

50V

C720

10uF

25V

R704

3.3K

+3.3V_ST

12.5V_AMP

C715

10uF

25V

R735

4.7K

R711 100

C737

0.47uF

50V

R734

4.7K

12.5V_AMP

R717

100

R1511

100

R708 100

C703

100pF

50V

R737

4.7K

C709

33pF

50V

AMP_RESET

R3773

R3740

1.2K

+1.8V_TU

D1+_HDMI1

CK-_HDMI1

DDC_SCL_1

DDC_SDA_1

D1-_HDMI1

D0-_HDMI1

CK+_HDMI1

D2+_HDMI1

HPD1

D2-_HDMI1

D0+_HDMI1

C901

100pF

50V

OPT

R901

R902

R213 22

AUD_MASTER_CLK_0

AUD_SCK

+3.3V_Normal

C1402

0.1uF

16V

UART0_RXD

PM_TXD

USB_S0

SIDE_USB_DM

R1401

R4007 1K

USB_S1

SIDE_USB_DP

UART0_TXD

PM_RXD

R4006

C244 2.2uF

C245 2.2uF

C200

10uF

10V

R217

C515

10uF

10V

C726 1uF 25V

C727 1uF 25V

C732

390pF

50V

C731 390pF

50V

C729 390pF

50V

C730

390pF

50V

C1648

220pF

50V

OPT

C1118 10uF16V

C1119 10uF 16V

R791

10K

C710

22000pF

50V C711

22000pF

50V

C725

22000pF

50V

C724

22000pF

50V

C790 1uF 25V

R1512

10K

R790

10K

+3.3V_Normal

+3.3V_ST

IC1400

USB3740

OE_N

2DP_1

1DM_1

VDD

DP_2

DM_2 8

GND

IC1470

NLASB3157DFT2G

3B0

2GND

1B1

SELECT

VCC

IC1471

NLASB3157DFT2G

3B0

2GND

1B1

SELECT

VCC

+3.3V_Normal

C1470

0.1uF

16V

X201

24MHz

GND_2

X-TAL_1

GND_1

X-TAL_2

C262

8pF

C261

8pF

USB_N

USB_P

DSUB_VSYNC

DSUB_HSYNC

DSUB_R+

DSUB_G+

DSUB_B+

TU_SCL

TU_SDA

TU_SCL

TU_SDA

AMP_SDA

AMP_SCL

AMP_SDA

AMP_SCL

C253

1uF

IC1450

AP2191DSG

3IN_2

2IN_1

4EN

1GND

FLG

OUT_1

OUT_2

R8105.6

R1451 47

Q802

2SC3052

C1453

0.1uF

C806

0.1uF

R830

10K

R8035.6

R8115.6

L1451

CIS21J121

120 R1455

4.7K

OPT

JK1401

SPG08-HU-002

14 NC

13 CEC

5 DATA1_SHIELD

12 CLK-

CLK_SHIELD

2 DATA2_SHIELD

19 HPD

18 +5V_POWER

CLK+

4 DATA1+

1 DATA2+

17 DDC/CEC_GND

9 DATA0-

8 DATA0_SHIELD

3 DATA2-

16 SDA

7 DATA0+

6 DATA1-

15 SCL

JACK_GND

U1 U1

U2 U2

U3 U3

U4 U4

D2+_HDMI1

USB_N

R824 0

USB1_CTL

R14050

+5V_Normal

CK-_HDMI1

R1458

R805 0

OPT

R8075.6

R1454

10K

C802

0.1uF

16V

R8015.6

R1459

R896

R804

1.8K

R802

3.3K

R14040

D1+_HDMI1

D0-_HDMI1

+3.3V_Normal

HPD1

D2-_HDMI1

R8125.6

HDMI_ARC

USB_P

C1451

22uF

10V

D0+_HDMI1

R888

2.7K

R8085.6

D1-_HDMI1

R884

2.7K

R809

5.6

USB1_OCD

CK+_HDMI1

D200

BAW56 GEANDE

Q1101

MMBT3904(NXP)

Q1104

MMBT3904(NXP)

Q1102

MMBT3904(NXP)

Q1103

MMBT3904(NXP)

HP_DET

DDC_SDA_1

DDC_SCL_1

5V_DET_HDMI_1

IC700

NTP-7500L

AGND_PLL

AVDD_PLL

DVDD_PLL

DGND_PLL

GND_1

DGND

DVDD

SDATA

WCK

BCK

SDA

SCL

/FAULT

MONITOR0

MONITOR1

MONITOR2

BST2B

PGND2B

OUT2B_1

OUT2B_2

PVDD2_1

PVDD2_2

PVDD2_3

25 OUT2A_1

26 OUT2A_2

27 PGND2A

28 BST2A

29 VDR2

30 AGND

31 VCC_5

32 VDR1

33 BST1B

34 PGND1B

35 OUT1B_1

36 OUT1B_2

37 PVDD1_1

38 PVDD1_2

39 PVDD1_3

40 OUT1A_1

41 OUT1A_2

42 PGND1A

43 BST1A

44 /RESET

45 AD

46 GND_IO

47 CLK_I

48 VDD_IO

[EP]

R723

R724

R738

12 R739

R653

R654

R740

R741

SPK_R-

SPK_R+

SPK_L-

SPK_L+

AK_SDA

AK_SCL

+3.3V_Normal

R414

R415

D1619

20V

0.1uF

C519

25V

C701

0.1uF25V

C702

0.1uF

25V

C738

0.1uF

25V

C739

0.1uF

25V

C740

0.1uF

25V

C741

0.1uF

25V

C742

0.1uF

25V

0.1uF

C521

25V

5V_HDMI

+5V_Normal

D1106

ENKMC2838-T112

5V_HDMI

L700

CBC3225T100KR

10uH

L701

CBC3225T100KR

10uH

L703

CBC3225T100KR

L704

CBC3225T100KR

R41033

R411

R214

0OPT

R215

OPT

IR_IN

+3.3V_TU

C712

4.7uF

16V

OPT

R710

100

R240 100

R241 100

R239 100

R1107

10K

R1108

10K

R1110

12K

R1111

12K

C1116

0.1uF

16V

EMS cap

C1115

0.1uF

16V

EMS cap

IC101

LGE2111A-W1 [MULTI]

RXACKP

RXACKN

RXA0P

RXA0N

RXA1P

RXA1N

RXA2P

RXA2N

DDCDA_DA/GPIO24

DDCDA_CK/GPIO23

HOTPLUGA/GPIO19

HOTPLUGB/GPIO20

RXCCKP

AE9

RXCCKN

AC9

RXC0P

AC10

RXC0N

AD9

RXC1P

AC11

RXC1N

AD10

RXC2P

AE11

RXC2N

AD11

DDCDC_DA/GPIO28

AE8

DDCDC_CK/GPIO27

AD8

HOTPLUGC/GPIO21

AC8

RXDCKP

RXDCKN

RXD0P

RXD0N

RXD1P

RXD1N

RXD2P

RXD2N

DDCDD_DA/GPIO30

DDCDD_CK/GPIO29

HOTPLUGD/GPIO22

CEC/GPIO5

HSYNC0

VSYNC0

RIN0P

RIN0M

GIN0P

GIN0M

BIN0P

BIN0M

SOGIN0

HSYNC1

VSYNC1

RIN1P

RIN1M

GIN1P

GIN1M

BIN1P

BIN1M

SOGIN1

HSYNC2

AA2

RIN2P

RIN2M

AA3

GIN2P

GIN2M

BIN2P

BIN2M

SOGIN2

CVBS0

AA8

CVBS1

CVBS2

CVBS3

AA5

CVBS4

CVBS5

AA4

CVBSOUT0

CVBSOUT1

AA1

VCOM

AB4

VIFP AC4

VIFM AD3

IP AC3

IM AE3

SIFP AD4

SIFM AC5

IF_AGC AD2

RF_AGC AE2

I2C_SCKM1/GPIO75 AE6

I2C_SDAM1/GPIO76 AD6

XIN AD1

XOUT AC1

SPDIF_IN/GPIO152 D7

SPDIF_OUT/GPIO153 D6

USB0_DM E3

USB0_DP E2

USB1_DM AC12

USB1_DP AE12

I2S_IN_BCK/GPIO150 C8

I2S_IN_SD/GPIO151 D8

I2S_IN_WS/GPIO149 D9

I2S_OUT_BCK/GPIO156 B10

I2S_OUT_MCK/GPIO154 C9

I2S_OUT_SD/GPIO157 B9

I2S_OUT_WS/GPIO155 C10

AUL0 AB9

AUR0 AA11

AUL1 Y9

AUR1 AA9

AUL2 AA7

AUR2 AB8

AUL3 Y8

AUR3 Y10

AUL4 AC7

AUR4 AD7

AUOUTL0 W6

AUOUTL2 V6

AUOUTL3 V4

AUOUTR0 Y7

AUOUTR2 W5

AUOUTR3 U5

AUVRM AD5

AUVAG AE5

AUVRP AC6

EARPHONE_OUTL AA6

EARPHONE_OUTR AB6

ET_RXD[0]/RP/GPIO60 C6

ET_TXD[0]/TP/GPIO57 C5

ET_RXD[1]/RN/GPIO63 A6

ET_TXD[1]/LED1/GPIO56 C4

ET_TX_CLK/TN/GPIO59 B5

ET_TX_EN/GPIO58 C3

ET_MDC/GPIO61 A3

ET_MDIO/GPIO62 B3

ET_COL/LED0/GPIO55 B4

IRIN/GPIO4 N4

ARC0 T6

HWRESET N5

C1452

22uF

10V R234 0

R235 0

R236 0

R237 0

R148

L224 120

L225 120

L226 120

Close to MSTAR

ANALOG SIF

Close to MSTAR

SIDE USB

SOC_RESET

DTV_IF

RGB PC

GP4R_ATSC_TUNER

close to IF line

Close to the tuner

1. should be guarded by ground

2. No via on both of them

3. Signal Width >= 12mils

Signal to Signal Width = 12mils

Ground Width >= 24mils

Headphone OUT

AUDIO AMP (for Speaker)

H/P OUT

1 1 BCM UART

S1 S0 PATH

----------------------

0 0 S6

0 1 DPP DEBUG

1 0 DPP UART(CCA)

USB SWITCH

DDP2230 UART FOR CCA

AV IN

$0.077

20120221

LM1_HW600G

MAIN2

Video Input,Audio,ETC

0x54

Only for training and service purposes

LGE Internal Use Only

THERMAL

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES

SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.

FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS

ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR

THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

AVDD_MIU

MIUVDDC

BATTERY_DET

C3020

0.1uF

16V

R3010

10K

R3009

100

C3017

27pF

50V

C3019

390pF

50V

R3011

51K

IC3001

TPS54331D

VIN

SS/TR

BOOT

5VSENSE

6COMP

7GND

8PH

C3009

0.015uF

50V

R3018

1/10W

R3014

D3001

40V

SMAB34 C3025

0.1uF

16V

C3010

0.1uF

16V

L3003

6.8uH

C3078

0.1uF

16V

C3038

0.1uF

16V

C3045

0.1uF

16V

Q3001

2SC3052

R3025

22K

POWER_ON/OFF_1

R3023

10K

C3085

0.1uF

16V

C3088

100pF

50V

R3053

1C3089

10uF

6.3V

C3090

0.1uF

16V

IC3011

AZ1117BH-1.8TRE1

ADJ/GND

2OUT

C3082

10uF

10V

DMD_REF_1.9V

L3020

500

C3076

10uF

6.3V C3081

10uF

6.3V

R3054

300 R3056

220

C3084

10uF

6.3V

0.1uF

C3079

C3087

0.1uF

16V

IC3013

AZ1117BH-ADJTRE1

OUTPUT

INPUT 1ADJ/GND

R3052

D1.8V

C3035

10uF

25V

L3008

BLM18PG121SN1D

R3028

330K

IC3005

TPS54319TRE

VIN_1

GND_1

COMP

9SS/TR

10 PH_1

11 PH_2

12 PH_3

13 BOOT

14 PWRGD

15 EN

16 VIN_3

AGND

RT/CLK

VSENSE

GND_2

VIN_2 17

EP[GND]

C3055

0.1uF

16V

C3033

0.1uF

16V

C3042

0.1uF

16V

L3006

R3027

15K

C3049

22uF

10V

C3053

100pF

50V

C3041

0.1uF

16V

C3030

10uF

10V

C3047

22uF

10V

L3016

BLM18PG121SN1D

C3059

0.1uF

16V

D1.2V

C3064

0.1uF

16V

+1.5V_DDR

R3051

4.3K

1/16W

560pF

C3072

50V

C3069

0.1uF

16V

IC3010

AP7173-SPG-13 HF(DIODES)

VCC

5GND

6SS

7FB

8OUT

[EP]

R3045

10K R3050

4.7K

1/16W

C3074

0.1uF

16V

L3017

BLM18PG121SN1D

10uF

C3067

10V

R3049

150

OPT

C3068

0.1uF

16V

+1.8V_TU

C3070

0.1uF

16V

C3071

10uF

10V

IC3009

AZ1117BH-1.8TRE1

ADJ/GND

2OUT

+3.3V_Normal

R3047

L3018

CIC21J501NE

C3031

10uF

10V C3051

10uF

10V

C3039

0.015uF

50V

R3020

91K

C3040

0.1uF

16V

R3033

51K

R3019

330K

L3012

6.8uH

D3003

40V

SMAB34

IC3006

TPS54331D

VIN

SS/TR

BOOT

5VSENSE

6COMP

7GND

8PH

R3040

1/10W

+3.3V_Normal

C3048

1000pF

50V

C3046

47pF

50V

C3028

10uF

25V

C3056

0.1uF

16V

R3003

51K

+1.10V_VDDC

FB_CORE

R3038

OPT

+3.3V_ST

+5V_Normal

C3003

0.1uF

16V

C3054

22uF

10V

C3052

22uF

10V

C3022

22uF

10V

C3023

22uF

10V

C3075

10uF

10V

C3063

10uF

10V

C3044

3300pF

50V

C3043

3300pF

50V

C3037

0.1uF

25V

C3034

0.1uF

25V

C3006

0.1uF

25V

C3073

10uF

6.3V

C3100

10uF

6.3V

C3015

0.1uF

16V

C3018

10uF

10V

C3016

0.1uF

16V

+3.3V_DLP

+3.3V_Normal

R3021

10K

C3060

10uF

10V

R3026

+3.3V_DLP

+3.3V_Normal

19V_FAN

DC_19V

C4070

0.1uF

16V

C269

10uF

C4025 0.1uF

C281 10uF OPT

+2.5V_Normal

10uFC293

OPT

C4019 0.1uF

L229

BLM18PG121SN1D

OPT

C4009 0.1uF

C4046

0.1uF

AVDD_AU33

L206

BLM18PG121SN1D

10uF

C228

C4036 0.1uF

C299 0.1uF OPT

L211

BLM18PG121SN1D

C4020 0.1uF

+1.10V_VDDC

C265 0.1uF

+3.3V_Normal

10uFC284

+1.5V_DDR

C4043 0.1uF

L204

BLM18PG121SN1D

C4012 0.1uF

C4006 0.1uF OPT

C277 0.1uF

C252

0.1uF

C270

0.1uF

VDD33

C4027

0.1uF

C4042 0.1uF

C267 0.1uF

10uF

C276

R298

+3.3V_ST

C4014 0.1uF

C4044 0.1uF

L209

BLM18PG121SN1D

C274

0.1uF

C4062

0.1uF

C283 0.1uF

C286

0.1uF

C4013 0.1uF OPT

AVDD_AU33

L208

BLM18PG121SN1D

C4007 0.1uF

C4011 0.1uF

C280 0.1uF

10uFC4001

C4038 0.1uF

+1.10V_VDDC

L219

BLM18PG121SN1D

C290 0.1uF OPT

L228

BLM18PG121SN1D

VDD33

C4024 0.1uF

C292 0.1uF OPT

FB_CORE

10uF

C275

C232 0.1uF

C4031 0.1uF

C4045 1uF

L223

BLM18SG121TN1D

C240 0.1uF

C241 0.1uF

C271

0.1uF

C278 10uF

C273

0.1uF

C4071

10uF

L3001

CIS21J121

L3005

CIS21J121

L3007

CIS21J121

L3019

CIS21J121

R3048

C3011

1uF

10V

L3011

CIS21J121

C3005

0.01uF

50V

OPT

C3013

0.1uF

OPT

Q3003

2SC3052

Q3004

AO3407A

C3012

10uF

25V

C3007

0.1uF

25V

R3005

10K

+5V_Normal

R3012

33K

IC3004

APX803D29

GND

VCC 2RESET

Q3002

AO3407A

R3024

100

L3010

3.3uH

LPF7030T-3R3M

C3024

22uF

10V

C3026

22uF

10V

R3057

15K

+2.5V_Normal

C3086

0.1uF

16V

C3080

0.1uF

16V

C3077

10uF

10V

C3083

10uF

10V

+3.3V_Normal

R3046

IC3012

TJ3940S-2.5V-3L

GND

VOUTVIN

POSENSE

+3.3V_DLP

5V_ENABLE

R3035

10K

R3034

R3036

15K

1/16W

R3037

30K

1/16W

+3.3V_Normal C3050

10uF

10V

C3021

0.1uF

16V

R3013

11K

R3001

R3002

1.8K

R3015

18K

C3027

0.1uF

16V

IC3003

AP7173-SPG-13 HF(DIODES)

VCC

5GND

6SS

7FB

8OUT

[EP]

560pF

C3057

50V

R3063

10K

+1.5V_DDR

+5V_Normal

R3006

1.6K

1/16W

R3004

5.1K

1/16W

R3062

R482

15K

OPT

L3021

CIS21J121

+3.3V_TU

C3002

10uF

25V C3004

10uF

25V

C3094

10uF

25V

C3008

10uF

25V

C3001

10uF

25V

C3092

10uF

25V

C3093

10uF

25V

C3029

10uF

25V

C3032

10uF

25V

C3091

10uF

25V

L210

BLM18PG121SN1D

+3.3V_Normal

C3062

10uF

16V

R3007

12K

R3008

IC101

LGE2111A-W1 [MULTI]

AVDDLV_USB

K12

VDDC_1

VDDC_2

VDDC_3

K10

VDDC_4

K11

VDDC_5

L10

VDDC_6

M12

VDDC_7

M13

VDDC_8

N12

VDDC_9

P14

VDDC_10

P15

VDDC_11

R10

VDDC_12

R14

VDDC_13

R15

VDDC_14

T10

AVDD1P0

P10

FB_CORE

P19

AVDDL_MOD

R16

AVDD10_LAN

L11

DVDD_DDR

M14

AVDD2P5_ADC_1

AVDD2P5_ADC_2

W10

AVDD2P5_ADC_3

W11

AVDD25_REF

W12

AVDD25_LAN

Y17

AVDD_MOD_1

V18

AVDD_MOD_2

U19

AVDD25_PGA

W14

AVSS_PGA

W15

AVDD_NODIE

AVDD_DVI_USB_1

AVDD_DVI_USB_2

AVDD3P3_MPLL

AVDD_DMPLL

DVDD_NODIE

M19

AVDD_AU33

AVDD_EAR33

VDDP_1

R19

VDDP_2

T19

AVDD_LPLL_1

W18

AVDD_LPLL_2

W19

VDDP_NAND

V19

AVDD_DDR0_D_1

J17

AVDD_DDR0_D_2

K15

AVDD_DDR0_D_3

K16

AVDD_DDR0_C

L15

AVDD_DDR1_D_1

K17

AVDD_DDR1_D_2

L17

AVDD_DDR1_D_3

M17

AVDD_DDR1_C

L16

GND_EFUSE

GND_1

A23

GND_2

B17

GND_3

C23

GND_4

GND_5

C11

GND_6

C19

GND_7

C22

GND_8

D14

GND_9

D18

GND_10

D19

GND_11

E17

GND_12

E18

GND_13

E19

GND_14

E22

GND_15

GND_16

F17

GND_17

F18

GND_18

F19

GND_19

GND_20

GND_21

N22

GND_22

N21

GND_23

N20

GND_24

M22

GND_25

M21

GND_26

M20

GND_27

F10

GND_28

V15

GND_29

W16

GND_30

GND_31

T18

GND_32 G10

GND_33 G11

GND_34 G12

GND_35 G13

GND_36 G14

GND_37 G17

GND_38 G18

GND_39 G19

GND_40 G24

GND_41 H11

GND_42 H12

GND_43 H13

GND_44 H14

GND_45 H15

GND_46 H16

GND_47 H17

GND_48 H18

GND_49 H19

GND_50 J9

GND_51 J10

GND_52 J11

GND_53 J12

GND_54 J13

GND_55 J14

GND_56 J15

GND_57 J16

GND_58 J18

GND_59 J19

GND_60 J25

GND_61 K9

GND_62 K13

GND_63 K14

GND_64 H10

GND_65 K18

GND_66 K19

GND_67 K22

GND_68 L8

GND_69 L9

GND_70 J8

GND_71 L12

GND_72 L13

GND_73 L18

GND_74 L19

GND_75 M8

GND_76 K8

GND_77 M10

GND_78 M11

GND_79 L14

GND_80 M15

GND_81 M16

GND_82 M18

GND_83 M25

GND_84 N10

GND_85 N11

GND_86 N13

GND_87 N14

GND_88 N15

GND_89 N16

GND_90 N17

GND_91 N19

GND_92 K7

GND_93 P8

GND_94 P9

GND_95 M9

GND_96 P11

GND_97 P13

GND_98 P16

GND_99 P17

GND_100 P18

GND_101 P12

GND_102 R8

GND_103 R9

GND_104 R11

GND_105 R12

GND_106 R13

GND_107 R17

GND_108 T8

GND_109 T9

GND_110 N7

GND_111 T11

GND_112 T12

GND_113 T13

GND_114 T14

GND_115 T15

GND_116 T16

GND_117 T17

GND_118 U8

GND_119 U9

GND_120 U10

GND_121 U11

GND_122 U12

GND_123 U13

GND_124 U14

GND_125 U15

GND_126 U16

GND_127 U17

GND_128 R18

GND_129 V9

GND_130 V10

GND_131 V11

GND_132 V12

GND_133 V14

GND_134 V17

GND_135 T7

GND_136 E8

C3014

22uF

10V

POWER

Battery_Voltage_DET

ST_BY Power

Vout=1.25*(1+R2/R1)

R1 R2

$ 0.132

Vout=0.827*(1+R1/R2)=1.225V

1.5A‘

Vout=0.8*(1+R1/R2)=1.5319

+1.5V_DDR

Max 1000mA

+1.2_core

+1.8V

+1.9V

$ 0.138

$ 0.0407

$ 0.138

$ 0.104

$ 0.0351

$ 0.0351 $ 0.0351

3.3V_Normal

3.3V_DLP

AVDD_DDR1:55mA

Normal Power 3.3V

AVDD2P5:172mA

RSDS Power OPT

LGE2112 Voltage

STby 3.5V

DDR3 1.5V

AVDD_NODIE:7.362mA

VDDC : 2026mA

AVDD25_PGA:13mA

New item

FAN_SW

5V_Normal

+2.5V_Normal

$ 0.072

HW600G 20120221

High : Adapter

Low : Battery

$ 0.104

Vout=0.8*(1+R1/R2)

1.5A‘

Only for training and service purposes

LGE Internal Use Only

THERMAL

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES

SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.

FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS

ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR

THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

PMDATA[12]

PMADR[1]

PMADR[8]

PMDATA[0-15]

PMADR[7]

PMADR[0]

PMDATA[15]

PMDATA[13]

PMDATA[1]

PMDATA[4]

PMADR[9]

PMADR[6]

PMADR[8]

PMDATA[5]

PMADR[0]

PMADR[0-19]

PMADR[11]

PMADR[3]

PMDATA[15]

PMDATA[10]

PMDATA[6]

PMADR[15]

PMADR[4]

PMDATA[14]

PMADR[12]

PMDATA[2]

PMADR[5]

PMDATA[4]

PMADR[18] PMDATA[6]

PMDATA[2]

PMDATA[9]

PMADR[16]

PMADR[2]

PMADR[10]

PMADR[14]

PMDATA[0]

PMDATA[7]

PMADR[4]

PMDATA[11]

PMDATA[13]

PMDATA[1]

PMADR[3]

PMDATA[0]

PMDATA[8]

PMDATA[11]

PMDATA[3]

PMADR[0-19]

PMADR[1]

PMADR[17]

PMADR[7]

PMADR[9]

PMADR[6]

PMDATA[12]

PMADR[15]

PMADR[17]

PMADR[10]

PMDATA[14]

PMDATA[3]

PMADR[18]

PMADR[13]

PMADR[14]

PMDATA[8]

PMADR[5]

PMDATA[9]

PMADR[11]

PMADR[12]

PMDATA[5]

PMDATA[7]

PMADR[19]

PMADR[2]

PMADR[13]

PMADR[16]

PMDATA[10]

DMD_D[23]

DMD_D[22]

DMD_D[21]

DMD_D[20]

DMD_D[18]

DMD_D[17]

DMD_D[16]

DMD_D[15]

DMD_D[14]

DMD_D[13]

DMD_D[12]

DMD_D[11]

DMD_D[10]

DMD_D[9]

DMD_D[8]

DMD_D[7]

DMD_D[6]

DMD_D[5]

DMD_D[4]

DMD_D[3]

DMD_D[2]

DMD_D[1]

DMD_D[0]

DMD_D[19]

PMADR[19]

R305 33

PM_OESZ

FLASH_CSSZ

R308

10K

3.3V

C301 0.1uF

PM_OESZ

R311

10K

FLASH_CSSZ

R304 33

R307

R306 33

PM_WESZ

R303

10K

3.3V

R302

10K

PM_WESZ

PWRGOOD

R309

10K

R13 0

R15 27

R17

100K

UART0_TXD

R23

330

1/16W

R12 1K

OPT

R27

4.7K

R30 33

R35

3.3K

POSENSE

R34

3.3K

R14 27

USB_DAT_N

R32

R33 33

R28

USB_DAT_P

3.3V

UART0_RXD

IC12

74VIT125CTR

3GND

21A

11G

VCC

DMD_SCTRL

DMD_DAD_BUS

DMD_DAD_OEZ

DMD_DCLK

DMD_DAD_STRB

DMD_SAC_BUS

DMD_SAC_CLK

DMD_LOADB

R431 5.1

R432 5.1

R433 5.1

R434 5.1

R461 20

R462 20

R463 20

R435 0

DMD_TRC

DMD_PWR_EN

R31 1K

C300 10uF 6.3V

R312

R313

OPT

IC10

DPP6401

MOSC

A14

MOSCN

A15

PWRGOOD

H19

POSENSE

G21 EXT_ARSTZ H20

IC10

DPP6401

PM_DATA_15 M1

PM_DATA_14 N1

PM_DATA_13 N2

PM_DATA_12 N3

PM_DATA_11 N4

PM_DATA_10 P1

PM_DATA_9 P2

PM_DATA_8 P3

PM_DATA_7 P4

PM_DATA_6 R2

PM_DATA_5 R3

PM_DATA_4 R4

PM_DATA_3 T1

PM_DATA_2 T2

PM_DATA_1 T3

PM_DATA_0 T4

GPIO_17 V3

GPIO_16 W1

PM_ADDR_20 W2

PM_ADDR_19 Y1

PM_ADDR_18 AB2

PM_ADDR_17 AA3

PM_ADDR_16 Y4

PM_ADDR_15 W5

PM_ADDR_14 AB3

PM_ADDR_13 AA4

PM_ADDR_12 Y5

PM_ADDR_11 W6

PM_ADDR_10 AB4

PM_ADDR_9 AA5

PM_ADDR_8 Y6

PM_ADDR_7 W7

PM_ADDR_6 AB5

PM_ADDR_5 AA6

PM_ADDR_4 Y7

PM_ADDR_3 AB6

PM_ADDR_2 W8

PM_ADDR_1 AA7

PM_ADDR_0 AB7

PM_BLSZ_1 AA8

PM_BLSZ_0 AB8

PM_WEZ V2

PM_OEZ U4

PM_CSZ_0 U3

PM_CSZ_1 U2

PM_CSZ_2 U1

IC10

DPP6401

UART0_TXD

L19

UART0_CTSZ

L20

UART0_RXD

L21

UART0_RTSZ

M19

USB_DAT_N

USB_DAT_P

SSP0_CLK F4

SSP0_TXD F3

SSP0_RXD D1

SSP0_CSZ_1 C1

SSP0_CSZ_0 D2

IC10

DPP6401

DMD_PWR_EN G20

DMD_TRC D9

DMD_SCTRL C9

DMD_LOADB B9

DMD_DCLK A9

DMD_D23 C6

DMD_D22 C10

DMD_D21 E9

DMD_D20 B6

DMD_D19 D7

DMD_D18 A10

DMD_D17 B7

DMD_D16 D12

DMD_D15 C12

DMD_D14 B12

DMD_D13 A12

DMD_D12 A6

DMD_D11 D10

DMD_D10 E7

DMD_D9 B10

DMD_D8 C7

DMD_D7 E11

DMD_D6 D11

DMD_D5 C11

DMD_D4 B11

DMD_D3 D8

DMD_D2 C8

DMD_D1 B8

DMD_D0 A8

DMD_SAC_CLK A5

DMD_SAC_BUS D6

DMD_DAD_OEZ B5

DMD_DAD_STRB C5

DMD_DAD_BUS D5

EXRES A3

IC10

DPP6401

TDO2

M18

TDO1

L18

TMS2

V16

TMS1

V15

TDI

P18

TCK

R18

TRSTZ

V17

ICTSEN

HW_TEST_EN

TSTPT_7 K20

TSTPT_6 K19

TSTPT_5 J22

TSTPT_4 J21

TSTPT_3 J20

TSTPT_2 J19

TSTPT_1 H22

TSTPT_0 H21

ETM_PIPESTAT_2 F1

ETM_PIPESTAT_1 G4

ETM_PIPESTAT_0 G3

ETM_TRACESYNC F2

ETM_TRACECLK G2

RTCK G18

SPARE E16

VPGM D17

TP401

TP402

R452 33

R446 33

R440 33

R453 33

R443 33

R447 33

R449 33

R442 33

R456 33

R437 33

R455 33

R451 33

R454 33

R458 33

R441 33

R445 33

R436 33

R438 33

R444 33

R450 33

R468 33

R457 33

R439 33

R448 33

C1036 0.1uF

C1047 10uF 6.3V

C1079 0.1uF

C1024 0.1uF

C1045 0.1uF

C1069 0.1uF

C1042 0.1uF

C1066 0.1uF

C1056 10uF 6.3V

C1014 0.1uF

IC10

DPP6401

VSS_1 A2

VSS_2 A7

VSS_3 A13

VSS_4 A21

VSS_5 A22

VSS_6 B1

VSS_7 B2

VSS_8 B3

VSS_9 B4

VSS_10 B13

VSS_11 B20

VSS_12 B21

VSS_13 B22

VSS_14 C2

VSS_15 C3

VSS_16 C4

VSS_17 C19

VSS_18 C20

VSS_19 C21

VSS_20 C22

VSS_21 D3

VSS_22 D4

VSS_23 D19

VSS_24 D20

VSS_25 E4

VSS_26 E5

VSS_27 E18

VSS_28 E19

VSS_29 F9

VSS_30 F11

VSS_31 F14

VSS_32 H1

VSS_33 J9

VSS_34 J10

VSS_35 J11

VSS_36 J12

VSS_37 J13

VSS_38 J14

VSS_39 K9

VSS_40 K10

VSS_41 K11

VSS_42 K12

VSS_43 K13

VSS_44 K14

VSS_45 K22

VSS_46 L9

VSS_47 L10

VSS_48 L11

VSS_49 L12

VSS_50 L13

VSS_51 L14

VSS_52 L22

VSS_53 M9

VSS_54 M10

VSS_55 M11

VSS_56 M12

VSS_57 M13

VSS_58 M14

VSS_59 M17

VSS_60 N6

VSS_61 N9

VSS_62 N10

VSS_63 N11

VSS_64 N12

VSS_65 N13

VSS_66 N14

VSS_67 P9

VSS_68 P10

VSS_69 P11

VSS_70 P12

VSS_71 P13

VSS_72 P14

VSS_73 R1

VSS_74 U8

VSS_75 U15

VSS_76 V4

VSS_77 V5

VSS_78 V8

VSS_79 V14

VSS_80 V18

VSS_81 V19

VSS_82 V20

VSS_83 W3

VSS_84 W4

VSS_85 W10

VSS_86 W12

VSS_87 W19

VSS_88 W20

VSS_89 Y2

VSS_90 Y3

VSS_91 Y8

VSS_92 Y10

VSS_93 Y12

VSS_94 Y14

VSS_95 Y20

VSS_96 Y21

VSS_97 AA1

VSS_98 AA2

VSS_99 AA9

VSS_100 AA11

VSS_101 AA13

VSS_102 AA21

VSS_103 AB11

VSS_104 AB13

VSS_105 AB22

PLLM_VSS B15

PLLD_VSS B14

PLLM_VAS C14

PLLD_VAS C13

VDDC_1

VDDC_2

E12

VDDC_3

E17

VDDC_4

VDDC_5

VDDC_6

VDDC_7

F12

VDDC_8

F16

VDDC_9

F17

VDDC_10

F18

VDDC_11

VDDC_12

VDDC_13

G17

VDDC_14

VDDC_15

K17

VDDC_16

VDDC_17

L17

VDDC_18

VDDC_19

VDDC_20

N17

VDDC_21

VDDC_22

P17

VDDC_23

VDDC_24

R17

VDDC_25

VDDC_26

VDDC_27

VDDC_28

U16

VDDC_29

U17

VDDC_30

U18

PLLD_VDD

E13

PLLM_VDD

E14

PLLD_VAD

D13

PLLM_VAD

D14

VDD33_1

A16

VDD33_2

A20

VDD33_3

VDD33_4

E15

VDD33_5

F13

VDD33_6

F15

VDD33_7

G22

VDD33_8

VDD33_9

VDD33_10

H17

VDD33_11

H18

VDD33_12

VDD33_13

VDD33_14

J17

VDD33_15

J18

VDD33_16

VDD33_17

K18

VDD33_18

VDD33_19

VDD33_20

VDD33_21

N18

VDD33_22

VDD33_23

VDD33_24

VDD33_25

VDD33_26

T17

VDD33_27

T18

VDD33_28

T22

VDD33_29

VDD33_30

U14

VDD33_31

VDD33_32

VDD33_33

Y22

VDD33_34

AA15

VDD33_35

AA22

VDD33_36

AB1

VDD33_37

AB9

VDD33_38

AB15

VDD33_39

AB21

DMD18_1

DMD18_2

A11

DMD18_3

DMD18_4

E10

DMD18_5

DMD18_6

F10

FPD12_1

U11

FPD12_2

U12

FPD12_3

V11

FPD12_4

V12

FPD33_1

U10

FPD33_2

U13

FPD33_3

V10

FPD33_4

V13

C1073 0.1uF

C1057 10uF 6.3V

L928

BLM18PG121SN1D

3.3V

+3.3V_DLP

D1.8V

C1001

10uF

6.3V

C995

1000pF

C1025 0.1uF

C1062 0.1uF

L930

BLM18PG121SN1D

DMD_REF_1.9V

C1068 10uF 6.3V

C1029 0.1uF

C1081 0.1uF

C1004

22uF

C989

0.1uF

16V

C992

0.1uF

16V

C1058 0.1uF

C1011 0.1uF

C1016 0.1uF

C987

10uF

C998

10uF

6.3V

C1071 0.1uF

L924 BLM18PG121SN1D

C1064 0.1uF

C1085 0.1uF

L926 BLM18PG121SN1D

C1051 0.1uF

C1060 0.1uF

C984

0.1uF

C1006 10uF 6.3V

C1034 0.1uF

C985

10uF

C1032 0.1uF

C1077 0.1uF

C1026 0.1uF

C1003 22uF 10V

C1075 0.1uF

C1048 0.1uF

C1080 0.1uF

C1049 0.1uF

C1043 0.1uF

C1010 0.1uF

C1041 0.1uF

C996

0.1uF

C1044 0.1uF

C1072 0.1uF

C1009 0.1uF

C1007 0.1uF

C1027 0.1uF

1.2V_Core

C1052 0.1uF

C1037 0.1uF

L925 BLM18PG121SN1D

C1054

10uF

6.3V

C1030 0.1uF

C1070 0.1uF

C988

1000pF

C1050 0.1uF

C990

10uF

C1018 0.1uF

1.2V_Core

C1063 0.1uF

3.3V

C1084 0.1uF

L931

BLM18PG121SN1D

1.2V_Core

C1038 0.1uF

C1015 0.1uF

C1083 0.1uF

C1035 0.1uF

C1061 0.1uF

C1020 0.1uF

C1008 0.1uF

C1059 0.1uF

L927 BLM18PG121SN1D

C986

0.1uF

C1088

0.1uF

C1013 0.1uF

C991

0.1uF

C1012 0.1uF

C1021 0.1uF

C1086 0.1uF

C1028 0.1uF

C1067 0.1uF

C1074 0.1uF

C1082 0.1uF

C994

0.1uF

16V

C993

22uF

C1053 0.1uF

C1076 0.1uF

C1031 0.1uF

C1019 0.1uF

C1005 10uF 6.3V

C1055 22uF 10V

C1046 10uF 6.3V

C1040 0.1uF

C1022 0.1uF

C1065 0.1uF

C1033 0.1uF

C1039 0.1uF

C1087 0.1uF

C1023 0.1uF

C1017 0.1uF

C1078 0.1uF

C997

0.1uF

IC301

MX29LV160DBTI-70G

26 CE#

27 GND_1

28 OE#

29 Q0

30 Q8

31 Q1

32 Q9

33 Q2

34 Q10

35 Q3

36 Q11

37 VCC

38 Q4

39 Q12

40 Q5

41 Q13

42 Q6

43 Q14

44 Q7

45 Q15/A-1

46 GND_2

47 BYTE#

48 A16

A17

A13

A10

A18

RY/BY#

WP#/ACC

NC_2

RESET#

WE#

NC_1

A19

A12

A11

25 A0

A14

A15

IC11

NL17SZ08DFT2G

GND

IN_A

4OUT_Y

IN_B 5VCC

PWRGOOD

3.3V

C76

0.1uF

C1000

0.01uF

50V

C1089

0.01uF

50V

USB_DAT_N

P8102

0500HR-10N2(G)

PM_TXD

+3.3V_ST

USB_DAT_P

PM_RXD

C8109

10uF

UART0_RXD

UART0_TXD

C79

1uF

10V

C220

0.1uF

16V

L221

BLM18PG121SN1D

+2.5V_Normal

C221

10uF

6.3V

DMD_REF_2.5V

USB_ENZ

3.3V

D1.2V

R21

3.3K

R11

1.5K

R22 10K

R16 10K

R24

3.3K

R38

10K

R20 10K

R19 10K

R18 10K

R42

10K

+3.3V_Normal

R8981

OPT R8982

C80

0.1uF

16V

PWM_OUT_1

C404

0.1uF

R470 33

R421 33

IC10

DPP6401

GPIO_15

B19

IIC0_SDA0

IIC0_SCL0

GPIO_08

GPIO_09

GPIO_28

E22

GPIO_29

F20

GPIO_25

D22

GPIO_26

F19

GPIO_27

E21

GPIO_24

E20

GPIO_37

K21

GPIO_30

F21

GPIO_11

A19

GPIO_10

C17

GPIO_20

N19

GPIO_21

N20

CMP_OUT

GPIO_19 D18

GPIO_18 C18

GPIO_01 D15

GPIO_02 A17

GPIO_07 B17

GPIO_06 A18

GPIO_05 D16

GPIO_32 F22

GPIO_31 G19

GPIO_04 C16

GPIO_03 B16

GPIO_00 C15

GPIO_23 D21

GPIO_22 N21

GPIO_13 L2

GPIO_12 M4

LEDR_EN L3

LEDG_EN L4

LEDB_EN K1

LEDR_PWM K2

LEDG_PWM K3

LEDB_PWM K4

CMP_PWM J1

GPIO_33 H2

GPIO_34 H3

GPIO_35 H4

GPIO_36 G1

GPIO_14 B18

V_ADJ_CH1

R8980

OPT

R466 33

PWM_OUT_0

R412

3.3K

R_NTC

C401

0.1uF

16V

R427 33

PWM_OUT_0

C403

0.1uF

R426 33

+5V_Normal

V_ADJ_CH3

USB_ENZ

PWM_OUT_2

GRN_EN

V_ADJ_CH2

R37 33

R425 33

3.3V

IC400

AT24C32D-SSHM-T

GND

5SDA

6SCL

7WP

8VCC

3.3V

R422 33

3.3V

G_NTC

C10001

0.047uF

25V

V_ADJ_CH1

R413

3.3K

3.3V

R26

R430

R428 33

RED_EN

PWM_OUT_2

SCL3_3.3V

V_ADJ_CH2

R404 33

FAN34_TACH

FAN12_TACH

GRN_EN

PWM_OUT_1

R424 33

BLU_EN

3.3V

R423 33

R419 33

P402

FH12K1-30S

V_ADJ_CH3

R429 33

C406

0.1uF

16V

R420 33

R403 33

SDA3_3.3V

BLU_EN

R469 33

RED_EN

AK_SCL

AK_SDA

DMD_D[0-23]

LED_EN

DPP_DL

C77

15pF

C78

15pF

R464 200

D1103

BAT54S

IC3002

TPS65145PWPR

BASE

FB4

VIN

FB1

SW_2

SW_1

PGND_1

PGND_2

SUP

GND_1

FB3 13 OUT3

14 C2+

15 C2-/MODE

16 C1+

17 C1-

18 DRV

19 GND_2

20 REF

21 FB2

22 COMP

23 ENR

24 EN

[EP]

R204

15K

+5V_DMD

C424

0.1uF

16V

C421

1000pF

50V

C418

22uF

16V

VBIAS_16V

C423

1uF

R206

56K

C416

10uF

16V

C425

10uF

16V

C431

10uF

25V

C427

1uF

R202

270K

R207

470K

C426

1uF

R201

43K

R208

680K

D1105

40V

RB160M-40

C419

0.1uF

16V

C428

0.1uF

25V

C422

0.22uF

10V

L207

22uH

R209

56K

C429

0.1uF

25V

R203

10K

C417

6.8pF

50V

C420

1uF

VOFFSET_8.5V

VRST_-10V

C430

0.1uF

25V

D1104

BAT54S

DMD_PWR_EN

R418 10

X10

32.0MHz

GND_2 1X-TAL_1

2GND_1

X-TAL_2

IC402

BMA255

EAN62527101

1SDO

3VDDIO

INT2

VDD

GNDIO

GND

CSB

11 PS

12 SCX

4NC

INT1

2SDX

R459 33

R460 33 C234

27pF

50V

OPT

FAN_DISPLAY

32Mb / Bottom type / 4 Banks

DPP6401 FLASH ROM

VPP : High - Normal Operation

Low - Write/Erase Protection

for CCA

DPP6401 ETC

DPP6401 DEBUG

(To DAD)

(To DMD)

FOR MACRONIX 16Mb : delete R313

FOR ATMEL 32Mb : delete R312, add R314,R315,C302

change R311 0 ohm

Typ:9mA

DPP6401 Voltage

Typ:7mA

[1.116V ~ 1.26V]@Typ:500mA

Spec:678mA

TO DMD BOARD

Debugg

20120221

LM1_HW600G

DDP6401

DOWNLOAD ENABLEZ S/W

PWM OUT4

Auto Keystone

PLACE TOP

PWM OUT3

EEPROM

FOR DPP6400

Slave Address : 0xA2

PWM OUT1

PWM OUT2

PWM OUT0

DPP6401 GPIO

DMD_POWER

Only for training and service purposes

LGE Internal Use Only

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES

SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.

FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS

ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR

THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

A-MDMU

B-MDQL2

B-MDQU2

B-MA10

B-MBA1

A-MWEB

C1243

0.1uF

C1219

0.1uF

A-MA7

B-MA1

C1229

0.1uF

R1225

1K 1%

B-MA10

C1218

0.1uF

A-MDQL5

B-MA6

C1210

0.1uF

B-MA3

R1228

1K 1%

B-MA12

B-MDQU4

A-MBA2

C1223

0.1uF

C1230

0.1uF

A-MCASB

A-MA8

C1211

0.1uF

A-MDQSU

A-MA12

B-MDML

C1236

0.1uF

C1214

0.1uF

A-MDQL7

A-MA14

B-MDQL4

A-MDQL2

R1236

A-MDQL0

B-MDQU3

A-MODT

B-MVREFDQ

C1227

0.1uF

B-MA2

A-MCASB

A-MA2

B-MCKB

B-MDQSL

B-MODT

A-MDQU7

A-MA1

B-MA11

A-MDQL0

C1233

0.1uF

B-MDQL1

L1202

BLM18PG121SN1D

B-MDQSLB

C1208

0.1uF

A-MDQL2

C1207

0.1uF

B-MDQSUB

A-MA3

B-MDQL5

C1201

0.1uF

B-MA2

A-MDQL3

AVDD_DDR0

A-MDQU0

R1226

240

B-MVREFCA

B-MDQSUB

B-MRESETB

A-MA14

A-MDQL1

C1202

1000pF

B-MBA0

A-MDQSLB

B-MDQU1

C1212

0.1uF

B-MCASB

B-MDQU3

B-MA13

B-MDQU7

AVDD_DDR1

A-MA4

AVDD_DDR1

A-MRESETB

C1239

0.1uF

C1224

0.1uF

B-MDQU1

A-MDQL4

A-MDML

AVDD_DDR0

C1249

1000pF

R1201

1K 1%

C1241

0.1uF

A-MVREFDQ

A-MRESETB

AVDD_DDR1

L1203

BLM18PG121SN1D

A-MCKB

A-MDQU7

A-MODT

A-MA5

C1220

0.1uF

A-MDQU4

B-MCK

B-MDML

C1237

0.1uF

R1237 56

C1216

0.1uF

B-MRESETB

A-MCKE

A-MDQL3

B-MDQU5

B-MDQL3

C1247

1000pF

B-MA14

A-MDMU

B-MDQL7

A-MA13

B-MDQU4

A-MVREFCA

C1213

0.1uF

B-MA11

R1232

10K

C1206

0.1uF

B-MA8

R1202

1K 1%

B-MODT

B-MDQU6

B-MA9

A-MBA2

R1238 56

B-MDQL0

A-MDQL4

C1252

10uF

10V

OPT

H5TQ1G63DFR-H9C

IC1201

EAN61828901

A0 N3

A1 P7

A2 P3

A3 N2

A4 P8

A5 P2

A6 R8

A7 R2

A8 T8

A9 R3

A10/AP L7

A11 R7

A12/BC N7

A13 T3

NC_5 M7

BA0 M2

BA1 N8

BA2 M3

CK J7

CK K7

CKE K9

CS L2

ODT K1

RAS J3

CAS K3

WE L3

RESET T2

DQSL F3

DQSL G3

DQSU C7

DQSU B7

DML E7

DMU D3

DQL0 E3

DQL1 F7

DQL2 F2

DQL3 F8

DQL4 H3

DQL5 H8

DQL6 G2

DQL7 H7

DQU0 D7

DQU1 C3

DQU2 C8

DQU3 C2

DQU4 A7

DQU5 A2

DQU6 B8

DQU7 A3

VREFCA

VREFDQ

VDD_1

VDD_2

VDD_3

VDD_4

VDD_5

VDD_6

VDD_7

VDD_8

VDD_9

VDDQ_1

VDDQ_2

VDDQ_3

VDDQ_4

VDDQ_5

VDDQ_6

VDDQ_7

VDDQ_8

VDDQ_9

NC_1

NC_2

NC_3

NC_4

NC_6

VSS_1

VSS_2

VSS_3

VSS_4

VSS_5

VSS_6

VSS_7

VSS_8

VSS_9

VSS_10

VSS_11

VSS_12

VSSQ_1

VSSQ_2

VSSQ_3

VSSQ_4

VSSQ_5

VSSQ_6

VSSQ_7

VSSQ_8

VSSQ_9

A-MDQU2

AVDD_DDR1

B-MDMU

A-MBA1

A-MDQSLB

R1205

1K 1%

A-MDQU2

C1250

0.1uF

B-MWEB

B-MDQSL

B-MBA0

AVDD_DDR0

B-MA1

+1.5V_DDR

C1242

0.1uF

R1203

240

A-MDQSU

R1231

10K

C1235

0.1uF

A-MBA0

A-MDQU1

B-MA14

A-MDQU5

A-MA5

A-MRASB

B-MDQU0

B-MDQSU

A-MDQU1

A-MDQSL

B-MDQL3

A-MDQSUB

B-MDQSU

C1238

0.1uF

B-MBA2

A-MA9A-MA9

B-MDQL2

C1221

0.1uF

B-MWEB

R1235 56

A-MDQSL

C1231

0.1uF

A-MDQU3

B-MBA2

C1204

1000pF

B-MDMU

A-MCKE

A-MVREFDQ

B-MA3

B-MA0

B-MDQL1

A-MDML

R1224

1K 1%

A-MA10

B-MDQL6

A-MA10

A-MDQU0

B-MA4

AVDD_DDR1

C1251

10uF

OPT

A-MA4

B-MDQU7

B-MA8

B-MDQL6

B-MBA1

A-MA13

A-MBA1

B-MDQL0

A-MBA0

A-MDQU3

A-MA11

A-MDQL6

B-MDQSLB

B-MDQU6

B-MCKB

A-MCK

A-MDQU6

B-MCK

A-MA2

B-MDQU0

B-MA9

A-MA12

A-MDQSUB

AVDD_DDR0

C1203

0.1uF

B-MVREFDQ

R1227

1K 1%

C1228

0.1uF

A-MWEB

C1248

0.1uF

B-MCASB

C1222

0.1uF

C1215

0.1uF

A-MA8

B-MA6

B-MVREFCA

B-MDQL5

B-MCKE

A-MRASB

A-MVREFCA

A-MDQL5

C1205

10uF

B-MA7

A-MA0

A-MDQU4

C1232

0.1uF

A-MDQU5

B-MA13

C1246

10uF

A-MDQL7

B-MA5

B-MDQL4

A-MDQU6

B-MA7

A-MA6

H5TQ1G63DFR-H9C

IC1202

EAN61828901

A10/AP

A11

A12/BC

A13

NC_5

BA0

BA1

BA2

CKE

ODT

RAS

CAS

RESET

DQSL

DQSU

DML

DMU

DQL0

DQL1

DQL2

DQL3

DQL4

DQL5

DQL6

DQL7

DQU0

DQU1

DQU2

DQU3

DQU4

DQU5

DQU6

DQU7

VREFCA M8

VREFDQ H1

ZQ L8

VDD_1 B2

VDD_2 D9

VDD_3 G7

VDD_4 K2

VDD_5 K8

VDD_6 N1

VDD_7 N9

VDD_8 R1

VDD_9 R9

VDDQ_1 A1

VDDQ_2 A8

VDDQ_3 C1

VDDQ_4 C9

VDDQ_5 D2

VDDQ_6 E9

VDDQ_7 F1

VDDQ_8 H2

VDDQ_9 H9

NC_1 J1

NC_2 J9

NC_3 L1

NC_4 L9

NC_6 T7

VSS_1 A9

VSS_2 B3

VSS_3 E1

VSS_4 G8

VSS_5 J2

VSS_6 J8

VSS_7 M1

VSS_8 M9

VSS_9 P1

VSS_10 P9

VSS_11 T1

VSS_12 T9

VSSQ_1 B1

VSSQ_2 B9

VSSQ_3 D1

VSSQ_4 D8

VSSQ_5 E2

VSSQ_6 E8

VSSQ_7 F9

VSSQ_8 G1

VSSQ_9 G9

B-MRASB

A-MA0

C1217

0.1uF

C1244

0.1uF

AVDD_DDR0

A-MDQL6

C1245

0.1uF

A-MA3

A-MCKB

A-MA7

A-MDQL1

C1234

0.1uF

A-MA11

A-MA1

A-MA6

B-MA12

B-MDQL7

B-MA5

B-MA0

B-MA4

A-MCK

B-MRASB

R1204

1K 1%

B-MDQU2

B-MDQU5

C1209

0.01uF

C1240

0.01uF

IC101

LGE2111A-W1 [MULTI]

A_DDR3_A[0]

A11

A_DDR3_A[1]

C14

A_DDR3_A[2]

B11

A_DDR3_A[3]

F12

A_DDR3_A[4]

C15

A_DDR3_A[5]

E12

A_DDR3_A[6]

A14

A_DDR3_A[7]

D11

A_DDR3_A[8]

B14

A_DDR3_A[9]

D12

A_DDR3_A[10]

C16

A_DDR3_A[11]

C13

A_DDR3_A[12]

A15

A_DDR3_A[13]

E11

A_DDR3_A[14]

B13

A_DDR3_BA[0]

F13

A_DDR3_BA[1]

B15

A_DDR3_BA[2]

E13

A_DDR3_MCLK

C17

A_DDR3_MCLKZ

A17

A_DDR3_MCLKE

B16

A_DDR3_ODT

E14

A_DDR3_RASZ

B12

A_DDR3_CASZ

A12

A_DDR3_WEZ

C12

A_DDR3_RESET

F11

A_DDR3_DQSL

B19

A_DDR3_DQSLB

C18

A_DDR3_DQSU

B18

A_DDR3_DQSUB

A18

A_DDR3_DQML

E15

A_DDR3_DQMU

A21

A_DDR3_DQL[0]

D17

A_DDR3_DQL[1]

G15

A_DDR3_DQL[2]

B21

A_DDR3_DQL[3]

F15

A_DDR3_DQL[4]

B22

A_DDR3_DQL[5]

F14

A_DDR3_DQL[6]

A22

A_DDR3_DQL[7]

D15

A_DDR3_DQU[0]

G16

A_DDR3_DQU[1]

B20

A_DDR3_DQU[2]

F16

A_DDR3_DQU[3]

C21

A_DDR3_DQU[4]

E16

A_DDR3_DQU[5]

A20

A_DDR3_DQU[6]

D16

A_DDR3_DQU[7]

C20

B_DDR3_A[0] B23

B_DDR3_A[1] D25

B_DDR3_A[2] F22

B_DDR3_A[3] G22

B_DDR3_A[4] E24

B_DDR3_A[5] F21

B_DDR3_A[6] E23

B_DDR3_A[7] D22

B_DDR3_A[8] D24

B_DDR3_A[9] D21

B_DDR3_A[10] C24

B_DDR3_A[11] C25

B_DDR3_A[12] F23

B_DDR3_A[13] E21

B_DDR3_A[14] D23

B_DDR3_BA[0] G20

B_DDR3_BA[1] F24

B_DDR3_BA[2] F20

B_DDR3_MCLK G25

B_DDR3_MCLKZ G23

B_DDR3_MCLKE F25

B_DDR3_ODT D20

B_DDR3_RASZ B25

B_DDR3_CASZ B24

B_DDR3_WEZ A24

B_DDR3_RESET E20

B_DDR3_DQSL K24

B_DDR3_DQSLB K25

B_DDR3_DQSU J21

B_DDR3_DQSUB J20

B_DDR3_DQML H24

B_DDR3_DQMU L20

B_DDR3_DQL[0] L23

B_DDR3_DQL[1] J24

B_DDR3_DQL[2] L24

B_DDR3_DQL[3] J23

B_DDR3_DQL[4] M24

B_DDR3_DQL[5] H23

B_DDR3_DQL[6] M23

B_DDR3_DQL[7] K23

B_DDR3_DQU[0] G21

B_DDR3_DQU[1] L22

B_DDR3_DQU[2] H22

B_DDR3_DQU[3] K20

B_DDR3_DQU[4] H20

B_DDR3_DQU[5] L21

B_DDR3_DQU[6] H21

B_DDR3_DQU[7] K21

DDR_256

CLose to DDR3

Close to DDR Power Pin

CLose to Saturn7M IC

CLose to DDR3

DDR3 1.5V By CAP - Place these Caps near Memory

Close to DDR Power Pin

CLose to Saturn7M IC

DDR3 1.5V By CAP - Place these Caps near Memory

20120221

LM1_HW600G

Only for training and service purposes

LGE Internal Use Only

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