Lg Hx300g User manual

DLP PROJECTOR

SERVICE MANUAL

CAUTION

BEFORE SERVICING THE CHASSIS,

READ THE SAFETY PRECAUTIONS IN THIS MANUAL.

CHASSIS : FM92A

MODEL : HX300G HX300G-JE

MODEL : HX301G HX301G-JE

North/Latin A erica http://aic.lgservice.co

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

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

Internal Use Only

Printed in KoreaP/NO : MFL63262001(1003-REV00)

Only for training and service purposes

2 LGE Internal Use Only

CONTENTS

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

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

SPECIFICATIONS.............................................................................................4

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

BLOCK DIAGRAM..........................................................................................10

EXPLODED VIEW ...........................................................................................11

CIRCUIT DIAGRAM ............................................................................................

Only for training and service purposes

3 LGE Internal Use Only

SAFETY PRECAUTIONS

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

Schematic Diagram and Replacement Parts List.

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.

General Guidance

An lsolation 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 circuitary that may be

inadvertently introduced during the service operation.

If any fuse (or Fusible Resistor) in this monitor is blown, replace it

with the specified.

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

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

Keep wires away from high voltage or high temperature parts.

Due to high vacuum and large surface area of picture tube,

extreme care should be used in handling the Picture Tube. Do not

lift the Picture tube by it's Neck.

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 positioin, 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 1MΩ and 5.2MΩ.

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 ot Check (See below Figure)

Plug the AC cord directly into the AC outlet.

Do not use a line Isolation Transformer during this check.

Connect 1.5K/10watt resistor in parallel with a 0.15uF 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 esposed metallic part. Any voltage

measured must not exceed 0.75 volt RMS which is corresponds to

3.5mA.

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

possibility of shock hazard and the set must be checked and

repaired before it is returned to the customer.

Leakage Current ot Check circuit

1.5 Kohm/10W

To Instrument's

exposed

METALLIC PARTS

Good Earth Ground

such as WATER PIPE,

CONDUIT etc.

AC Volt meter

IMPORTANT SAFETY NOTICE

0.15uF

- 4 -

Only for tr ining nd service purposes

LGE Intern l Use Only

SPECIFICATION

NOTE : Specific tions nd others re subject to ch nge without notice for improvement

4. General Specification

1. Application range.

This specific tion is pplied ll of the DLP Projector FM92A ch ssis.

2. Require ent for Test

E ch p rt is tested s below without speci l ppointment.

1) Temper ture : 25 ºC ± 5 ºC, CST : 40 ºC ± 2 ºC

2) Rel tive Humidity : 65 % ± 10 %

(3) Power Volt ge : St nd rd input volt ge

(100 V - 240 V @ 50 / 60 Hz)

* St nd rd Volt ge of e ch products is m rked by models.

(4) Specific tion nd perform nce of e ch p rts re followed e ch dr wing nd specific tion by p rt number in ccord nce with

BOM.

(5) The receiver must be oper ted for bout 30 minutes prior to the djustment.

3. Test ethod

(1) Perform nce: LGE TV test method followed

(2) Dem nded other specific tion

- S fety: CE specific tion(EN55022 Cl ss B)

- EMC: CE(EN60950-1)

No. Item Specific tion Rem rk

Min M x Unit

1. Video input pplic ble system 1) NTSC M 3.579545 / 60 Hz

2) NTSC 4.43 4.433618 / 60 Hz

3) PAL-B,D,G,H,I 4.433618 / 50 Hz

4) PAL M 3.575611 / 60 Hz

5) PAL N 3.582056 / 50 Hz

6) PAL 60 4.433618 / 60Hz

7) SECAM 4.286 / 50 Hz

2. Power Ad pter - DC 19.5 V @ 6.15 A (120 W)

3. Input Volt ge AC 100 – 240(± 10%)V, 50/ 60Hz

4. M rket World wide

5. Picture size 4:3

6. Aspect r tio 4:3

7. Oper ting Temper ture 0 40 deg

8. Oper ting Humidity 80 %

9. Stor ge Temper ture -20 60 deg

10. Stor ge Humidity 85 %

Only for training and service purposes

5 LGE Internal Use Only

1. Application Object

This instruction is for the application to the DLP Projector

(Chassis: FM92A).

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) Select Default Mode for input source.

(2) The adjustment mode can be entered by pressing ADJ key

of the adjustment remote controller, and it also exits by

pressing EXIT key.

(3) Preparation for Adjustment

(4) Power is connected in set to be power on.

(5) Do heat run 5minutes.

4. Folding Mirror Adjustment

Tools : Cross Screw Driver, Glue

4-1. Illuminator Adjustment Sequence

After putting the optical engine on the jig, check whether the

mirror part is fixated vertically. At this time the screen size

should be based on 40”. With the screen in full white

condition, look at the change in screen and brightness of the

illuminator to make appropriate adjustments.

(1) Up / Down Adjustment and Verification of FEL Ghost

1) Turn the bottom adjustment screw B of the lighting

system clockwise, and verify the point where the bottom

light is first taken off.

2) While the lighting system is taken off, apply the method

of blocking the aperture (same as HS200 lighting

system adjustment method) to set just to bottom side

standard.

3) After it turned to the Black screen, verify if the bottom

part FEL Ghost II part is 4 lines or less, and then finish.

(2) Left and Right Adjustment

1) Turn the left/right adjustment screw A of the lighting

system counterclockwise, and verify the point where the

right side light is first taken off.

2) Turn the left/right adjustment screw of the lighting

system clockwise to adjust to the right side standard.

ADJUSTMENT INSTRUCTION

<Fig. 4 2> Illuminator Up / Down Adjustment Sequence

<Fig. 4 3> Illuminator Left/Right Adjustment Sequence

<Fig. 4 1> Lighting system adjustment part by lighting lens

(3) Red Bar Control

1) After converting to Black screen, check the Red Bar at

the right bottom rotating the Focus Ring to the end of

right and left.

2) If Red Bar appears, rotate the “H direction Screw” to

adjust the Red bar Just on screen.

3) Complete it after checking the right and left light margin

condition on White screen.

(4) Checking illumination meter control condition

1) Convert the screen to White one to re check the final

light condition.

2) When checking illumination meter control condition, fix it

not to cause light being twisted with Glue and

illumination meter control screw(refer to how to do

illumination meter fixation), after alien substance check

and Focus width test (testing subject: Focus test method

and subject) on each screen.

(5) Method of illumination meter fixation

1) After completing illumination meter control, to keep the

initial controlled condition and the light not being twisted,

Glue(SuperX8008) on light control point and alien

substance entrance part to fix it.

2) After Glue(SuperX8008) spray work, leave it for 45 min.,

and attach the Tape for light leakage prevention.

4-2. Focus test method and subject

Test pattern : Resolution Pattern , White Cross Hatch

Pattern

Tools : Focus width measurement ruler

(1) Focus adjustment method

1) Set the projection distance of Engine as 1100 mm (40

Inch screen).

2) Pop up the Resolution Pattern among the Test Patterns

of Set, and fix the Focus on the part where the

Resolution Pattern is classified 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 : it follows product specification

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 flesh

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.

Only for training and service purposes

(Fig. 4 7) ResolutionPattern (Left)

(Fig. 4 8) White Cross_Hatch Pattern (Right)

<Fig. 4 4> Red Bar Control

<Fig. 4 5> Checking illumination meter control condition

<Fig. 4 6> Method of illumination meter fixation

Only for training and service purposes

7 LGE Internal Use Only

6. EDID Data Download

6-1. Used Device

Adjustment remote control

6-2. Adjustment Method

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

control.

(2) Enter to “0. EDID D/L”. with pressing right direction key to

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

(3) Select “START”

(4) When adjustment is completed, check RGB “OK”, HDMI1

“0K”. (Fig. 6 2)

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

again.

(5) When getting out, press “ADJ” on remote control.

7. ADC Adjustment

7-1. Used Device

Adjustment remote control

Master equipment

7-2. Adjustment Method

Input before adjusting : Component ,Signal : Set as 480i

(Model : 209, Pattern : 65)

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

control.

(2) Enter to “1. ADC CALIBRATION” with pressing right

direction key to get in ADC adjustment menu (Fig. 7 1)

(3) Select “START” . (Fig. 7 2)

(4) hen adjustment is completed, check ADC Comp 480i

“OK”, ADC Comp 1080p “0K”, ADC RGB “0K”. (Fig. 7 2)

If it fails, Reset and check by re trying (3) process.

8. Check ADC/EDID adjustment

8-1. Used Device

Adjustment remote control 1EA

8-2. EDID Adjustment Method

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

control. (Input Password ‘0000’)

(2) Enter to “0. EDID D/L” with pressing right direction key

(3) Check if RGB is set as “OK””, and HDMI1 is set as “0K”.

(Fig. 6 2)

(4) When getting out, press “ADJ” on remote control.

8-3. ADC Adjustment Method

(1) Enter to “1. ADC CALIBRATION” with pressing right

direction key to get in ADC control menu.

(2) Check ADC Comp 480i is set as “OK”, and ADC Comp

1080p as “0K”, ADC RGB as “0K”.(Fig. 7 2)

(3) When getting out, press “ADJ” on remote control.

9. White Balance Adjustment

9-1. Used Device

(1) Illuminometer (Model : CL 200) 1EA : Chromaticity

measurement from projection screen center

(2) Remote control 1EA

(3) CL200 and SET connection Interface Board 1EA

(4) CL200 Uart Communication Cable 1EA

9-2. Equipment Composition

HX300 model projects 110% upside, so user needs to be

careful when setting CL 200 in the center of screen.

(When it enters ADJUST > 7. DDP TEST PATTERN, the

center adjustment pattern is displayed.)

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

(Fig.6 2)

Selection Category on ADJ Adjustment Menu (Right)

(Fig. 7 1) Selection Category on ADJ Menu

(Left)

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

CL 200

SCREEN

Projector

Set fixing device

RS232C

Interface board

(Fig. 9 1) Equipment Composition

9-3. Adjustment

* Carry out a heat run on the set for 5 minutes before

adjustment

(1) Connect as in the equipment composition diagram then

enter into adjustment mode by selecting “AD ” on the

remote control.

(2) Execute adjustment by pressing the right direction key on

“4. DDP LED CURRENT CTRL” (Fig. 9-2)

(3) Read the coordinates on CL200 meter, and verify if x and

y values are within the following boundaries.

x = 0.240 ~ 0.340

y = 0.280 ~ 0.380

(4) If they do not come inside the boundary, adjust ‘Current

Index’ value in the order of 0 -> 9 to set to the value that

first come inside the boundary, and exit by pressing

‘Adjust’.

O Caution : When it is not within the boundary, make sure

to change starting from 0 in the order of 1, 2, 3

and verify the coordinates, and set to the value

that first comes inside the boundary.

(5) Execute adjustment by pressing the right direction key on

“2. DDP AUTO CCA” (Fig. 9-3)

(6) Message as shown below can be verified after completion

of adjustment, and readjust following the (5)(6) step if

“Fail” occurs.

“OK” : White Balance Process Successful and Warm, Cool

chromaticity diagram is within the target.

“Fail” : White Balance Process Failure -> Execute

readjustment.

“Warm Fail” : White Balance Process Successful and

Warm chromaticity diagram deviated more

than 0.005 from the target.

“Cool Fail” : White Balance Process Successful and Cool

chromaticity diagram deviated more than

0.005 from the target.

“Warm and Cool Fail” : White Balance Process Successful,

and both Warm can Cool

chromaticity diagrams deviated

more than 0.005 from the target.

(7) For verification of White Balance adjustment results, press

AD Key and enter “3. Manual CCA”. (Fig. 9-4)

(8) Read the coordinate of CL200 changing the Color Temp

Mode to Medium, COOL, Warm for checking the Spec of

each mode.

- Warm Mode : x = 0.313 ± 0.004, y = 0.326 ± 0.004

- Cool Mode : x = 0.283 ± 0.004, y = 0.297 ± 0.004

10. Brightness Inspection

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

product specification.

(1) Brightness(Annsi-Lumen)

(2) Whiteness color coordinate(KAGA measures R,G,B color

coordinate)

(3) Color Uniformity

(4) Brightness Uniformity

Only for training and service purposes

(Fig. 9-4) Selection Category on INSTART Menu (Left)

(Fig. 9-5) Menu after entering Manual CCA (Right)

(Fig. 9-2)

(Fig. 9-3)

11. Final test

- It is implemented by the final test contents of work instruction

menual.

- X-Wave test (HX30 G-JE model is not included in this test)

11-1. Used Device

( ) FM Radio EA

(2) Remote Control EA

(3) DVD Player or a Set-top Box EA(Equipment capable of

audio output)

(4) RCA to Stereo cable EA

11-2. Equipment Composition

11-3. Adjustment Method

( ) Organize as shown on Fig.8. and configure as shown

below.

- FM Radio : Set frequency to 90Mhz.

- Projector : Enter : “MENU” -> “AUDIO”, and select FM

Wireless Audio “ON” with the remote control.

- DVD Player or Set-top box : Play the source capable of

audio output.

(2) Verify the audio output of FM Radio by repeating

“ON”->”OFF”->”ON” of the X-WAVE

- X-WAVE “ON” : Audio is output to FM Radio instead for

Set Speaker when operating properly.

- X-WAVE “OFF” : Audio is not output to FM Radio but

output to Set Speaker when not operating properly.

[Reference]

12. EDID Data Manual Do nload and

check

12-1. Used Device

- PC, DDC adjusting JIG (PC Serial to D-Sub connection

Equipment)

- DDC recording S/W (EDID Data Write & Read)

- D-Sub cable, HDMI cable

12-2. Equipment Composition

12-3. Do nload and check Method

( ) Construct it following equipment construction drawing and

turn on PC and JIG.

(2) Implement DDC recording S/W.

When Downloading: Write Data & Verify

When checking Data: Verify

(3) When it is completed, check OK signal and Checksum.

(Re-try the (2) process if it fails.)

) RGB : BLOCK 0

- Product code : 9CF5

- Vertical Freq. : 56~75Hz

- Horiz. Freq. : 3 ~66kHz

- Pixel Clock : 50MHz

2) HDMI : BLOCK 0

- Product code : 9CF6

- Vertical Freq. : 56~75Hz

- Horiz. Freq. : 3 ~66kHz

- Pixel Clock : 50MHz

3) HDMI : BLOCK

Only for training and service purposes

0 23456789ABCDEF

0 00FFFFFFFFFFFF00 E6DF59C0 0 0 0

0 0 40 03 8A05A780A3434B34C38BB23

20 07 4A 5 AF CE 00 3 40 45 40 6 40 8 80 90 40

30 B3 00 8 40 0 0 64 9 00 40 4 00 26 30 8 88

40 36 00 00 00 00 00 00 E 7C 2E 90 A0 60 A E 40

50 30 20 36 00 40 84 63 00 00 A 00 00 00 FD 00 38

60 4B F420F000A202020202020000000FC

70 00 4C 47 20 50 52 4F 4A 45 43 54 4F 52 0A 00 D3

“MENU” -> “AUDIO”

0 23456789ABCDEF

0 00FFFFFFFFFFFF00 E6DF69C0 0 0 0

0 0 4 0 03 80 A0 5A 78 0A 34 34 B3 AC 38 BB 23

20 07 4A 5 AF CE 00 3 40 45 40 6 40 8 80 90 40

30 B3 00 8 40 0 0 64 9 00 40 4 00 26 30 8 88

40 36 00 00 00 00 00 00 E 30 2A 00 98 5 00 2A 40

50 3070 3004084630000 E000000FD0038

60 4B F420F000A202020202020000000FC

70 00 4C 47 20 50 52 4F 4A 45 43 54 4F 52 0A 0 DD

0 23456789ABCDEF

0 02 03 25 F 4F 84 07 0 6 02 03 2 3 4 05

0 20 22 F 0 23 09 07 07 83 0 00 00 68 03 0C 00

20 00080 E000 D00805 D0 C20408035

30 00 BC 88 2 00 00 E 8C 0A D0 8A 20 E0 2D 0 0

40 3E 96 00 3 8E 2 00 00 8 8C 0A A0 4 5 F0 6

50 00 26 7C 43 00 C4 8E 2 00 00 98 0 D 80 8 7

60 C 6 20 58 2C 25 00 C4 8E 2 00 00 9E 00 00 00

70 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 2A

Only for training and service purposes

10 LGE Internal Use Only

BLOCK DIAGRAM

Only for training and service purposes

LGE Internal Use Only

EXPLODED VIEW

650

660

620

640

430

900

600

630

610

500

520

510

200

530

300

310

100

110

120

800

820

810

400

410

420

700

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

Pease refer to the work order standard for detail product disassembly / assembly.

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[7]

PCM_A[6]

PCM_A[5]

PCM_A[3]

PCM_A[2]

PCM_A[1]

PCM_A[4]

PCM_A[0]

PAD_B[4]

PAD_B[3]

PAD_B[0]

PAD_B[1]

PAD_R[1]

PAD_R[0]

PAD_G[6]

PAD_G[7]

PAD_G[4]

PAD_G[5]

PAD_G[3]

PAD_G[2]

PAD_G[1]

PAD_G[0]

PAD_B[7]

PAD_B[6]

PAD_B[5]

PAD_B[2]

PAD_R[7]

PAD_R[6]

PAD_R[5]

PAD_R[4]

PAD_R[3]

PAD_R[2]

C139

0.01uF

C116 0.047uF

3.3V_MST

C121 0.047uF

SPI_CK

R146 47

HDMI_SDA

C120 0.047uF

R133

4.7K

R162

4.7K

USB_S0

USB_DAT_N

C111

0.1uF

R138

10K

R177 47

USB_DP

MSTAR_L_OUT

IC107

CAT24C02WI-GT3

3A2

2A1

4VSS

1A0

SDA

SCL

VCC

R158 22

EEPROM_SDA

C109

0.1uF

IC106

CAT24C02WI-GT3

VSS

5SDA

6SCL

7WP

8VCC

R13722

DSUB_SDA

DSUB_G

C110

0.1uF

Q100

KRC104S

IC105

CAT24WC08W-T

3A2

2A1

4VSS

1A0

SDA

SCL

VCC

C136

0.1uF

R142 47

R160

4.7K

AUDIO_RIN

IC101

PI3USB14LE

IA3

IA2

IA0

IA1

GND 9YB

10 IB0

11 IB1

12 IB2

13 IB3

14 S0

15 NC

16 VCC

C125 0.1uF

R121 4.7K

SPI_CS

R140

10K

C118 0.047uF

C137 0.1uF

R174

22K

C127 0.1uF

C114 0.047uF

3.3V_MST

R139 1K

R147 470

D100

ENKMC2838-T112

UART0_TXD

3.3V_MST

LGE3369A (SATURN6 NON RM)

IC108

RXACKP

RXACKN

RXA0P

RXA0N

RXA1P

RXA1N

RXA2P

RXA2N

DDCD_A_DA

DDCD_A_CK

HOTPLUG_A

RXBCKP

RXBCKN

RXB0P

RXB0N

RXB1P

RXB1N

RXB2P

RXB2N

DDCD_B_DA

DDCD_B_CK

HOTPLUG_B

RXCCKP

AE8

RXCCKN

AD8

RXC0P

AD9

RXC0N

AF8

RXC1P

AF9

RXC1N

AE9

RXC2P

AE10

RXC2N

AD10

DDCD_C_DA

AE7

DDCD_C_CK

AF7

HOTPLUG_C

AD7

CEC

HSYNC0/SC1_ID

VSYNC0/SC1_FB

RIN0P/SC1_R

GIN0P/SC1_G

BIN0P/SC1_B

SOGIN0/SC1_CVBS

RINM

BINM

GINM

HSYNC1/DSUB_HSYNC

VSYNC1/DSUB_VSYNC

RIN1P/DSUB_R

GIN1P/DSUB_G

BIN1P/DSUB_B

SOGIN1

RIN2P/COMP_PR+

GIN2P/COMP_Y+

BIN2P/COMP_PB+

SOGIN2

VSYNC2

CVBS1/SC1_CVBS

CVBS2/SC2_CVBS

CVBS3/SIDE_CVBS

VCOM1

CVBS4/S-VIDEO_Y

CVBS6/S-VIDEO_C

CVBS5

CVBS7

CVBS0/RF_CVBS

VCOM0

CVBSOUT0/SC2_MNTOUT

CVBSOUT1

AA2

LVA0P AE16

LVA0M AD16

LVA1P AD15

LVA1M AF16

LVA2P AF15

LVA2M AE15

LVA3P AD13

LVA3M AF14

LVA4P AF13

LVA4M AE13

LVACKP AE14

LVACKM AD14

LVB0P AE20

LVB0M AD20

LVB1P AD19

LVB1M AF20

LVB2P AF19

LVB2M AE19

LVB3P AD17

LVB3M AF18

LVB4P AF17

LVB4M AE17

LVBCKP AE18

LVBCKM AD18

AUR0 AA3

AUL0 Y1

AUR1 AE1

AUL1 AF3

AUR2 AE3

AUL2 AE2

AUR3 AA1

AUL3 AB1

AUR4 AB2

AUL4 AC2

AUR5 AB3

AUL5 AC3

SIF0P W3

SIF0M W2

SPDIF_IN F11

SPDIF_OUT E9

AUOUTR0/HP_ROUT AF1

AUOUTL0/HP_LOUT AF2

AUOUTR1/SC1_ROUT AD3

AUOUTL1/SC1_LOUT AD1

AUOUTR2/SC2_ROUT AC1

AUOUTL2/SC2_LOUT AD2

I2S_OUT_MCK A8

I2S_OUT_WS B7

I2S_OUT_BCK C7

I2S_OUT_SD D8

I2S_IN_SD C8

VCLAMP K4

REFP H4

REFM J4

REXT G4

AUCOM AE5

AUVRM AE4

AUVRP AF4

AUVAG AD4

DDC_CTL

R164

100

DSUB_R

C131 2.2uF

DDC_CTL

USB_S1

L101

R125

4.7K

AUDIO_LIN

C106

0.1uF

16V

AV_CVBS

DSUB_SCL

R126 4.7K

C135

0.01uF

R124 100

C115 1000pF

3.3V_MST

USB_DAT_P

HDMI_SDA

Flash_WP

C134 0.1uF

R166 100

R161

IC104

24LC512 3A2

2A1

4VSS

1A0

SDA

SCL

VCC

R131

4.7K

R130

4.7K

UART0_RXD

R165 390

Check

R159 22

R145 47

R120 4.7K

MSTAR_R_OUT

R175

22K

C117

0.1uF

3.3V_MST

C122

0.1uF

C138 0.1uF

R13622

R144 47

USB_DM

EEPROM_SCL

R163

100

C119 0.047uF

DSUB_B

DSUB_HSYNC

R127

C132 2.2uF

R119

10K

3.3V_MST

DSUB_VSYNC

R123 100

R115

R143 47

HDMI_SCL

C123 0.1uF

R167 100

HDMI_DET

R106 3.9K

3.3V_MST

F_RB

R102

10K

PF_WE

PF_CE0

PCM_A[0-7]

PF_ALE

AR101

3.3V_MST

PF_CE1

C100

0.1uF

AR100

3.3V_MST

PF_WP

R104

IC100

HY27US08121B-TPCB

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 PRE

39 NC_23

40 NC_24

41 I/O4

42 I/O5

43 I/O6

44 I/O7

45 NC_25

46 NC_26

47 NC_27

48 NC_28

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

R105 1K

C104 0.1uF

PF_OE

HDMI_RXC+

HDMI_RXC-

HDMI_RX0+

HDMI_RX0-

HDMI_RX1+

HDMI_RX1-

HDMI_RX2+

HDMI_RX2-

HDMI_SCL

R148 10

R149 10

R150 10

R151 10

R152 10

R154 10

R155 10

R157 10

R153 10

R156 10

PAD_B[0-7],PAD_G[0-7],PAD_R[0-7]

C113

22pF

R129

R132

R134

R168 100

R169 100

USB_N

USB_P

HPD

HDMI_5V

C140

22pF

AUDIO_MASTER_CLK

MS_LRCK

C143

22pF

C142

22pF C145

22pF

MS_SCK

MS_LRCH

C128 1uF

C126 10uF 10V

C103

10uF 10V

C129 4.7uF

R100

R141 100

AR102

AR103

AR104

AR105

AR106

AR107

3.3V_MST

MS_LRCH

MS_SCK

C101

0.01uF

25V

R113 12K

C102

0.01uF

25V

R114 12K

R101 1K

R103 1K

9.5~19.5V

P101

05004HR-20B01S

MS_LRCK

SCL_FMTr

FM_ON/OFF

AUDIO_MASTER_CLK

SDA_FMTr

KEY_TX

KEY_RX

3.3VST

C124

0.1uF

16V

DSUB_HSYNC

HDMI_SCL

DSUB_SDA

HDMI_5V

ST_5V

USB_5V

L_SOUND_P

AV_CVBS_DET

R_SOUND_P

AUDIO_LIN

AUDIO_RIN

AV_CVBS

DSUB_R

DSUB_B

DSUB_G

DSUB_VSYNC

DSUB_DET HDMI_RX0+

HPD

HDMI_SDA

HDMI_RXC-

HDMI_RX0-

HP_DET

HDMI_RX2+

HDMI_RX2-

HDMI_RXC+

HDMI_RX1+

HDMI_RX1-

DSUB_SCL

USB_5V

3.3V_MST

R116

180

C133

0.1uF

IC102

MIC2009YM6-TR

3ENABLE

2GND

FAULT/

1VIN

VOUT

ILIMIT

USB_CTLUSB_OCD

R118

100K

C130

10uF

10V

C141

0.1uF

R111

51K

R122

4.7K

C105

0.1uF

SPI_DO

SPI_DI

C147 0.047uF

R183 47

C148 0.047uF

C149 0.047uF

R185 47

R184 47

C112

33pF

IC103

W25X32VSSIGE

GND

5DIO

6CLK

7HOLD

8VCC

JK1

KJA-ET-0-0032

CEC

DATA1_SHIELD

JACK_GND

CLK-

CLK_SHIELD

DATA2_SHIELD

HPD

+5V_POWER

CLK+

DATA1+

DATA2+

DDC/CEC_GND

DATA0-

DATA0_SHIELD

DATA2-

SDA

DATA0+

DATA1-

SCL

P103

OPT

25421WR-20

R128 4.7K

USB_N USB_P

D505

KDS184

ST_5V ST_5V

D506

KDS184

P102

OPT

25421WR-20

R108 0R107 0

MDS62110206

GAS1

MDS62110206

GAS2

R112

MDS62110206

GAS4

MDS62110206

GAS3

R173 100

R170 100

R172 100

R171 100

TTL OUT

AUDIO OUT

Serial FLASH MEMORY

for BOOT

HDCP

PC EDID

DSUB

USB SWITCH

MSTAR USB

HDMI

DDP2230 USB FOR DBG

DDP2230 UART FOR CCA

CVBS

AUDIO IN

$0.76

NVRAM

1386 WON

/PF_CE0

H : Serial Flash

L : NAND Flash

/PF_CE1

H : 16 bit

L : 8 bit

NAND FLASH MEMORY

0601FRONT END

10.01.06

HX300-JE

Keypad / FM Tr

Close to IC

as close as possible

To FM Transmitter

S1 S0 PATH

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

0 0 S6

0 1 DPP DEBUG

1 0 DPP UART(CCA)

HDMI EDID

HP OUT

When High,

USB 5V out

When Low,

current limit

TO JACK BOARD

HDMI INPUT

For EMI

(8*6*6.5T)

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.

S6 GPIO / DPP6400 FRONT END

PCM_A[5]

PCM_A[2]

PCM_A[7]

PCM_A[4]

PCM_A[6]

PCM_A[1]

PCM_A[3]

PCM_A[0]

PAD_R[7]

PAD_R[6]

PAD_R[5]

PAD_R[4]

PAD_R[3]

PAD_R[2]

PAD_R[1]

PAD_R[0]

PAD_G[7]

PAD_G[6]

PAD_G[5]

PAD_G[4]

PAD_G[3]

PAD_G[2]

PAD_G[1]

PAD_G[0]

PAD_B[7]

PAD_B[6]

PAD_B[5]

PAD_B[4]

PAD_B[3]

PAD_B[2]

PAD_B[1]

PAD_B[0]

DSUB_SCL

C309

0.1uF

R201

470

C312

0.1uF

C206

0.1uF

16V

R245 0

C301

0.1uF

IC201

KIA7427F

GND

3OUT

VCC

C313

0.1uF

SPI_DO

1.26V_VDDC

F_RB

C306

0.1uF

RX_MSTAR

R257 100

C201

0.022uF

16V

AV_CVBS_DET

C302

0.1uF

+1.8V_DDR

DSUB_DET

AR202

R234 0

HDMI_DET

IC108

LGE3369A (SATURN6 NON RM)

VDDC_1 D16

VDDC_2 D17

VDDC_3 D18

VDDC_4 D19

VDDC_5 D20

VDDC_6 H18

VDDC_7 H19

VDDC_8 H20

VDDC_9 J20

VDDC_10 K20

VDDC_11 L20

VDDC_12 M20

VDDC_13 P7

VDDC_14 R7

VDDC_15 T7

VDDC_16 T22

VDDC_17 U7

VDDC_18 U20

VDDC_19 U22

VDDC_20 V7

VDDC_21 V22

VDDC_22 W11

VDDC_23 W12

VDDC_24 W19

VDDC_25 W20

VDDC_26 W22

VDDC_27 Y22

VDDP_1 H9

VDDP_2 H10

VDDP_3 H11

VDDP_4 H12

VDDP_5 N20

VDDP_6 P20

VDDP_7 W9

VDDP_8 W10

AVDD_AU W7

AVDD_DDR_1 G12

AVDD_DDR_2 G13

AVDD_DDR_3 H13

AVDD_DDR_4 H14

AVDD_DDR_5 H15

AVDD_DDR_6 H16

AVDD_DDR_7 W14

AVDD_DDR_8 W15

AVDD_DDR_9 W16

AVDD_DDR_10 W17

AVDD_DDR_11 W18

AVDD_MEMPLL_1 H17

AVDD_MEMPLL_2 T20

AVDD_MEMPLL_3 V20

AVDD_LPLL R20

AVDD_MPLL H7

AVDD_33_1 J7

AVDD_33_2 K7

AVDD_33_3 L7

AVDD_33_4 M7

AVDD_33_5 N7

AVDD_DM W8

AVDD_USB H8

GND_2

E16

GND_3

E17

GND_4

E18

GND_5

GND_6

GND_7

L10

GND_8

L11

GND_9

L12

GND_10

L13

GND_11

L14

GND_12

L15

GND_13

L16

GND_14

L17

GND_15

L18

GND_16

GND_17

M10

GND_18

M11

GND_19

M12

GND_20

M13

GND_21

M14

GND_22

M15

GND_23

M16

GND_24

M17

GND_25

M18

GND_26

GND_27

GND_28

N10

GND_29

N11

GND_30

N12

GND_31

N13

GND_32

N14

GND_33

N15

GND_34

N16

GND_35

N17

GND_36

N18

GND_37

GND_38

GND_39

P10

GND_40

P11

GND_41

P12

GND_42

P13

GND_43

P14

GND_44

P15

GND_45

P16

GND_46

P17

GND_47

P18

GND_48

GND_49

GND_50

R10

GND_51

R11

GND_52

R12

GND_53

R13

GND_54

R14

GND_55

R15

GND_56

R16

GND_57

R17

GND_58

R18

GND_59

GND_60

GND_61

T10

GND_62

T11

GND_63

T12

GND_64

T13

GND_65

T14

GND_66

T15

GND_67

T16

GND_68

T17

GND_69

T18

GND_70

GND_71

W13

GND_72

Y21

GND_73

AA23

R266

OPT

AVDD_LPLL

PF_WP

AVDD_DM

PF_WE

C310

0.1uF

3.3V_MST

PCM_A[0-7]

R239

C305

0.1uF

C311

0.1uF

R214 1K

DSUB_SDA

R240 33

R246 0

AVDD_OTG

SPI_CS

DDP_ASIC_READY

R260 0

R236 100

C303

0.1uF

B_NTC

INPUT_POWER_DET

DDC_CTL

Flash_WP

AVDD_33

C203

0.01uF

25V

3.3V

R213

3.9K

POWER_ON/OFF

R242 33

AVDD_AU

PF_OE

PWRGOOD

PF_ALE

R215 1K

VDDP

C308

0.1uF

AR201

EEPROM_SDA

AVDD_MEMPLL

USB_CTL

SPI_CK

R241 33

R207

10K

PF_CE0

C304

0.1uF

3.3VST

AVDD_MPLL

PF_CE1

IC108

LGE3369A (SATURN6 NON RM)

HWRESET

PCMD0/CI_D0

AC16

PCMD1/CI_D1

AA15

PCMD2/CI_D2

AA16

PCMD3/CI_D3

AC6

PCMD4/CI_D4

Y10

PCMD5/CI_D5

Y11

PCMD6/CI_D6

Y12

PCMD7/CI_D7

Y13

PCM_A0/CI_A0

AB16

PCM_A1/CI_A1

AC15

PCM_A2/CI_A2

AC14

PCM_A3/CI_A3

AB14

PCM_A4/CI_A4

AC12

PCM_A5/CI_A5

AB8

PCM_A6/CI_A6

AC13

PCM_A7/CI_A7

AA9

PCM_A8/CI_A8

AB5

PCM_A9/CI_A9

AA4

PCM_A10/CI_A10

PCM_A11/CI_A11

PCM_A12/CI_A12

AB9

PCM_A13/CI_A13

AA7

PCM_A14/CI_A14

AD6

PCM_RST/CI_RST

AA14

PCM_CD/CI_CD

AB18

/PCM_OE

PCM_REG/CI_CLK

AB15

PCM_WAIT/CI_WACK

AA10

/PCM_IRQA

AC8

/PCM_WE

AC7

PCM_IOWR/CI_WR

AA5

PCM_IOR/CI_RD

/PCM_CE

/PF_CE0

AE6

/PF_CE1

AF6

/PF_OE

AA12

/PF_WE

AA11

PF_ALE

AC9

PF_AD15

Y14

F_RBZ

AB11

UART2_TX/SCKM

UART2_RX/SDAM

D11

DDCR_DA

AB21

DDCR_CK

AC21

DDCA_CLK

DDCA_DA

UART_RX2

UART_TX2

PWM0

AB13

PWM1

AB12

PWM2

AD12

PWM3

AA13

SAR0

SAR1

SAR2

SAR3

IRIN

GPIO44

AC11

GPIO96

GPIO88

D10

GPIO90/I2S_OUT_MUTE

GPIO91

E11

GPIO97

GPIO98

E10

GPIO99

GPIO103/I2S_OUT_SD3

GPIO102

XIN B3

XOUT A3

TESTPIN/GND E6

SPI_DI AE11

SPI_DO AF12

/SPI_CS AE12

SPI_CK AD11

USB_DP_1 B5

USB_DM_1 A5

USB_DM_2 AC10

USB_DP_2 AB10

GPIO_PM0/GPIO134 E5

GPIO_PM1/GPIO135 F5

GPIO_PM2/GPIO136 G5

GPIO_PM3/GPIO137 H5

GPIO_PM4/GPIO138 F6

GPIO_PM5/INT1/GPIO139 G6

GPIO_PM6/INT2/GPIO140 H6

GPIO131/LDE/SPI_WPn1 AC17

GPIO130/LCK AB17

GPIO132/LHSYNC/SPI_WPn AF11

GPIO60/PCM2_RESET/RX1 AA18

GPIO62/PCM2_CD_N/TX1 AA17

LHSYNC2/I2S_OUT_MUTE/RX1 E7

LVSYNC/GPIO133 AC18

GPIO79/LVSYNC2/TX1 C6

UART2_RX/GPIO84 F9

UART2_TX/GPIO85 F10

UART1_RX/GPIO86 A6

UART1_TX/GPIO87 B6

GPIO42/PCM2_CE_N AF5

GPIO43/PCM2_IRQA_N AF10

TS0_D0 AA8

TS0_D1 Y8

TS0_D2 Y9

TS0_D3 AB7

TS0_D4 AA6

TS0_D5 AB6

TS0_D6 U4

TS0_D7 AC5

TS0_SYNC AC4

TS0_VLD AD5

TS0_CLK AB4

TS1_D0 AB19

TS1_SYNC AA20

TS1_VLD AC19

TS1_CLK AA19

ET_TXD0 C10

ET_TXD1 B11

ET_TX_CLK A9

ET_RXD0 C11

ET_RXD1 C9

ET_TX_EN B10

ET_MDC A10

ET_MDIO B9

ET_COL A11

GPIO67 A7

GPIO68 B8

S6_DE_OUT

S6_CLK_OUT

S6_HS_OUT

S6_VS_OUT

S6_INT

S6_DE_OUT

R264 33

S6_CLK_OUT

S6_VS_OUT

S6_HS_OUT

PAD_B[0-7],PAD_G[0-7],PAD_R[0-7]

DDP_ASIC_READY

EEPROM_SCL

TX_MSTAR

SDA_FMTr

SCL_FMTr

FM_ON/OFF

R206

10K

R267

20K

USB_S1

USB_S0

R268

20K

KEY_TX

R247 0

C202 10uF

10V

AUDIO_SLEEP

KEY_RX

HP_DET

R238 0S6_INT

USB_OCD

R272 0

R273 0

R224 100

VOLUME

C307

1uF

6.3V

R205 47

R208 47

R218 47

R219 47

R226 0

R228 0

R227 0

3.3V_MST

R248

3.3K

R211

3.3K

R263 3.3K

IC200

DPP6400

P1_A_9

AF13

P1_A_8

AF12

P1_A_7

AE12

P1_A_6

AD12

P1_A_5

AC12

P1_A_4

AF11

P1_A_3

AE11

P1_A_2

AD11

P1_A_1

AC11

P1_A_0

AF10

P1_B_9

AF15

P1_B_8

AD15

P1_B_7

AE15

P1_B_6

AC14

P1_B_5

AD14

P1_B_4

AE14

P1_B_3

AF14

P1_B_2

AC13

P1_B_1

AD13

P1_B_0

AE13

P1_C_9

AD18

P1_C_8

AC17

P1_C_7

AD17

P1_C_6

AE17

P1_C_5

AF17

P1_C_4

AC16

P1_C_3

AD16

P1_C_2

AE16

P1_C_1

AF16

P1_C_0

AC15

P1_FIELD

AC9

P1_VSYNC

AC10

P1_HSYNC

AD9

P1_DATEN

AF8

P1A_CLK

AE10

P1B_CLK

AD10

ALF_VSYNC

AD19

ALF_HSYNC

AC18

ALF_CSYNC

AF19

GPIO_40

AE20

GPIO_41

AD20

GPIO_42

AF21

GPIO_43

AC20

GPIO_44

AE21

GPIO_45

AD21

GPIO_46

AF22

GPIO_47

AE22

GPIO_48

AC21

GPIO_49

AF23

GPIO_50

AD22

AFE_IRQ

AE19 AFE_CLK AF20

AFE_ARSTZ AC19

SPI_DI

R258

IC203

74LX1G14CTR

GND

41Y

NC 5VCC

USB_DM

USB_DP

C204

15pF

C205

15pF

R203 0

R202 0

X200

12.0MHz

4GND_2

X-TAL_1

GND_1 3X-TAL_2

C208

0.1uF

16V

C209

0.1uF

16V

R212 100

R209 100

R210 100

R204 100

R244 100

R235 22

R243 22

S6 Power

DPP6400 Reset

AVDD_LPLL : 4.69mA

MCU BOOT : HH

AVDD_MEMPLL : 23.77mA

FROM DDP2230

DC VOLTAGE CHECK

AVDD_DM : 0.03mA

*Mstar reset:Active high

S6 DEBUGGING

& PC EDID

AVDD_AU : 36.11mA

AVDD_33 : 281mA

VDDC : 970mA

VOLTAGE DETECTOR

AVDD_OTG : 22.96mA

DPP6400 UART

TO DDP2230

VDDP : 102.3mA

S6 TTL OUT

S6 GPIO DPP6400

Front End

02 06

09.12.28

HX300-JE

S6 GPIO

FM Tr

S6 STAND-BY

POWER

(WHEN JACK IN : 1 -> 0)

(WHEN HP JACK IN : 0 -> 1)

5V_TOLERANT

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.

S6 DDR2

ADDR2_CAS

SDDR_A[4]

ADDR2_D[0]

ADDR2_A[3]

TDDR_A[10]

BDDR2_D[8]

TDDR_A[11]

SDDR_A[0-12]

ADDR2_D[3]

SDDR_BA[2]

BDDR2_ODT

ADDR2_A[3]

SDDR_A[2]

BDDR2_BA[1]

SDDR_A[3]

TDDR_D[9]

TDDR_D[13]

TDDR_D[3]

SDDR_D[6]

TDDR_D[5]

TDDR_D[10]

TDDR_D[14]

TDDR_A[3]

BDDR2_D[15]

SDDR_A[7]

SDDR_WE

TDDR_D[15]

BDDR2_A[6]

ADDR2_A[9]

SDDR_DQS0_N

TDDR_BA[0]

ADDR2_D[2]

ADDR2_A[9]

ADDR2_D[7]

SDDR_MCLK

TDDR_D[5]

TDDR_MCLK

TDDR_A[9]

ADDR2_DQS1_P

BDDR2_A[10]

ADDR2_A[10]

SDDR_A[8]

SDDR_MCLK

ADDR2_DQM0_P

SDDR_D[11] ADDR2_A[6]

TDDR_DQS0_P

TDDR_D[8]

ADDR2_D[13]

BDDR2_D[0]

ADDR2_A[11]

SDDR_D[14]

BDDR2_D[4]

TDDR_A[1]

TDDR_RAS

ADDR2_D[6]

SDDR_A[9]

ADDR2_A[8]

TDDR_CAS

SDDR_D[0-15]

SDDR_A[4]

TDDR_D[13]

SDDR_D[1]

TDDR_A[7]

TDDR_D[0]

TDDR_D[12]

BDDR2_D[8]

TDDR_A[5]

ADDR2_A[8]

SDDR_RAS

BDDR2_A[3]

ADDR2_A[7]

SDDR_D[1]

BDDR2_CAS

ADDR2_A[0]

TDDR_D[2]

ADDR2_A[11]

TDDR_CKE

ADDR2_D[9]

SDDR_ODT

ADDR2_RAS

BDDR2_DQS0_N

SDDR_D[5]

SDDR_D[11]

BDDR2_A[1]

SDDR_D[0]

ADDR2_D[3]

TDDR_A[2]

TDDR_DQS1_N

ADDR2_A[2]

ADDR2_D[14]

TDDR_D[4]

TDDR_D[6]

SDDR_D[2]

ADDR2_D[0]

TDDR_D[4]

TDDR_DQM0_P

BDDR2_CKE

BDDR2_A[9]

SDDR_CAS

TDDR_A[11]

BDDR2_D[4]

BDDR2_D[2]

ADDR2_D[10]

SDDR_A[5]

TDDR_D[1]

TDDR_D[11]

ADDR2_D[4]

BDDR2_CW

TDDR_A[10]

SDDR_DQS0_P

SDDR_D[15]

BDDR2_A[6]

SDDR_D[0]

TDDR_D[3]

BDDR2_D[3]

BDDR2_D[10]

BDDR2_D[6]

TDDR_D[14]

ADDR2_D[14]

ADDR2_A[5]

TDDR_D[9]

TDDR_D[6]

SDDR_D[2]

ADDR2_MCLK

TDDR_A[4]

SDDR_D[8]

ADDR2_A[1]

TDDR_A[6]

TDDR_D[8]

ADDR2_A[12]

ADDR2_D[4]

BDDR2_D[15]

ADDR2_D[15]

SDDR_D[9]

BDDR2_D[7]

ADDR2_D[15]

SDDR_D[10]

ADDR2_A[0-12]

SDDR_D[7]

TDDR_D[7]

BDDR2_DQS1_P

SDDR_A[10]

BDDR2_D[14]

SDDR_A[8]

SDDR_A[1]

TDDR_A[0-12]

SDDR_A[0]

BDDR2_A[2]

SDDR_DQM1_P

ADDR2_DQS0_P

SDDR_CKE

ADDR2_D[9]

ADDR2_A[12]

TDDR_A[0]

SDDR_D[4]

BDDR2_DQS0_P

SDDR_A[1]

ADDR2_A[5]

TDDR_A[1]

BDDR2_A[9]

ADDR2_D[8]

BDDR2_D[12]

TDDR_A[6]

BDDR2_D[1]

TDDR_A[12]

ADDR2_D[1]

TDDR_A[4]

ADDR2_D[12]

SDDR_D[15]

BDDR2_A[2]

BDDR2_BA[0]

BDDR2_A[7]

ADDR2_D[5]

SDDR_D[4]

TDDR_D[0-15]

BDDR2_A[8]

ADDR2_BA[1]

SDDR_D[12]

BDDR2_DQM1_P

SDDR_D[3]

BDDR2_A[5]

BDDR2_D[6]

BDDR2_D[2]

ADDR2_D[0-15]

TDDR_A[8]

ADDR2_D[13]

TDDR_DQS0_N

BDDR2_D[12]

BDDR2_A[10]

SDDR_BA[1]

BDDR2_RAS

BDDR2_D[5]

SDDR_A[12]

TDDR_A[3]

BDDR2_DQS1_N

SDDR_D[10]

ADDR2_DQM1_P

BDDR2_D[14]

ADDR2_D[5]

ADDR2_D[11]

ADDR2_A[6]

TDDR_CW

TDDR_DQS1_P

ADDR2_D[2]

BDDR2_A[4]

BDDR2_D[13]

BDDR2_MCLK

BDDR2_D[7]

SDDR_A[3]

SDDR_D[6]

SDDR_DQM0_P

ADDR2_D[11]

ADDR2_A[7]

ADDR2_D[7]

ADDR2_A[0]

BDDR2_D[9]

SDDR_A[12]

SDDR_D[3]

SDDR_D[8]

ADDR2_BA[0]

BDDR2_A[4]

BDDR2_D[1]

ADDR2_DQS0_N

SDDR_A[10]

ADDR2_BA[2]

ADDR2_CKE

BDDR2_A[0-12]

TDDR_DQM1_P

BDDR2_A[12]

ADDR2_D[1]

ADDR2_A[10]

TDDR_D[15]

ADDR2_MCLK

SDDR_A[2]

BDDR2_A[11]

BDDR2_A[7]

SDDR_A[11]

SDDR_DQS1_P

ADDR2_D[8]

TDDR_A[5]

BDDR2_A[11]

ADDR2_A[2]

SDDR_D[13]

BDDR2_A[8]

BDDR2_DQM0_P

BDDR2_A[0]

TDDR_ODT

ADDR2_A[4]

BDDR2_D[5]

SDDR_D[7]

ADDR2_D[10]

SDDR_A[6]

ADDR2_D[6]

SDDR_A[5]

SDDR_D[9]

TDDR_D[12]

TDDR_D[7]

BDDR2_D[11]

TDDR_D[10]

TDDR_D[11]

BDDR2_A[5]

TDDR_BA[1]

TDDR_A[9]

SDDR_D[13]

BDDR2_D[11]

BDDR2_A[0]

TDDR_A[8]

BDDR2_A[1]

BDDR2_D[10]

SDDR_BA[0]

ADDR2_D[12]

TDDR_A[2]

TDDR_A[0]

SDDR_D[14]

BDDR2_D[13]

BDDR2_D[3]

TDDR_D[2]

ADDR2_WE

BDDR2_D[0]

BDDR2_A[3]

BDDR2_MCLK

SDDR_D[5]

TDDR_D[0]

SDDR_A[7]

SDDR_A[11]

ADDR2_A[4]

ADDR2_ODT

TDDR_A[7]

SDDR_A[0]

ADDR2_A[1]

ADDR2_DQS1_N

SDDR_D[12]

TDDR_MCLK

SDDR_A[6]

BDDR2_D[0-15]

TDDR_A[12]

TDDR_D[1]

BDDR2_A[12]

SDDR_DQS1_N

SDDR_A[9]

BDDR2_D[9]

C413

0.1uF

C439

0.1uF

R405

1K 1%

C422

0.1uF

R433 22

AR413

C420

0.1uF

R448

+1.8V_DDR

R445

1K 1%

C414

0.1uF

IC401

HY5PS1G1631CFP-S6

J2 VREF

J8 CK

VSSQ2

B7 UDQS

N8 A4

P8 A8

L1 BA2

L2 BA0

R8 NC3

K7 RAS

VSSQ3

F3 LDM

P3 A9

M3 A1

N3 A5

K8 CK

R3 NC5

L3 BA1

J7 VSSDL

L7 CAS

VSSQ4

B3 UDM

M2 A10/AP

K2 CKE

R7 NC6

M7 A2

N7 A6

M8 A0

J1 VDDL

K3 WE

E8 LDQS

P7 A11

K9 ODT

A2 NC1

N2 A3

P2 A7

VSSQ1

F7 LDQS

A8 UDQS

R2 A12

L8 CS

E2 NC2

VSSQ5 D8

VSSQ6 D2

VSSQ7 A7

VSSQ8 B8

VSSQ9 B2

VSSQ10

VSS1 N1

VSS2 J3

VSS3 E3

VSS4 A3

VSS5

VDDQ1 G7

VDDQ2 G3

VDDQ3 G1

VDDQ4 E9

VDDQ5 C9

VDDQ6 C7

VDDQ7 C3

VDDQ8 C1

VDDQ9 A9

VDDQ10

VDD1 M9

VDD2 J9

VDD3 E1

VDD4 A1

VDD5

DQ15 B1

DQ14 D9

DQ13 D1

DQ12 D3

DQ11 D7

DQ10 C2

DQ9 C8

DQ8 F9

DQ7 F1

DQ6 H9

DQ5 H1

DQ4 H3

DQ3 H7

DQ2 G2

DQ1 G8

DQ0

C412

0.1uF

R41356

AR414

AR410

R440 56

R438 56

AR408

AR404

R41122

C424

0.1uF

AR409

IC403

H5PS5162FFR-S6C

VREF

H2 VSSQ2

UDQS

NC4

BA0

NC3

RAS

F8 VSSQ3

LDM

NC5

BA1

VSSDL

CAS

F2 VSSQ4

UDM

A10/AP

CKE

NC6

VDDL

LDQS

A11

ODT

NC1

H8 VSSQ1

LDQS

UDQS

A12

NC2

E7 VSSQ5

D8 VSSQ6

D2 VSSQ7

A7 VSSQ8

B8 VSSQ9

B2 VSSQ10

P9 VSS1

N1 VSS2

J3 VSS3

E3 VSS4

A3 VSS5

G9 VDDQ1

G7 VDDQ2

G3 VDDQ3

G1 VDDQ4

E9 VDDQ5

C9 VDDQ6

C7 VDDQ7

C3 VDDQ8

C1 VDDQ9

A9 VDDQ10

R1 VDD1

M9 VDD2

J9 VDD3

E1 VDD4

A1 VDD5

B9 DQ15

B1 DQ14

D9 DQ13

D1 DQ12

D3 DQ11

D7 DQ10

C2 DQ9

C8 DQ8

F9 DQ7

F1 DQ6

H9 DQ5

H1 DQ4

H3 DQ3

H7 DQ2

G2 DQ1

G8 DQ0

C415

0.1uF

C440

0.1uF

+1.8V_DDR

R42256

C409

0.1uF

C432

0.1uF

R441 56

AR406

R423 56

+1.8V_DDR

R429 56

IC108

LGE3369A (SATURN6 NON RM)

B_DDR2_A0 T26

B_DDR2_A1 AF26

B_DDR2_A2 T25

B_DDR2_A3 AF23

B_DDR2_A4 T24

B_DDR2_A5 AE23

B_DDR2_A6 R26

B_DDR2_A7 AD22

B_DDR2_A8 R25

B_DDR2_A9 AC22

B_DDR2_A10 AD23

B_DDR2_A11 R24

B_DDR2_A12 AE22

B_DDR2_BA0 AC23

B_DDR2_BA1 AC24

B_DDR2_BA2 AB22

B_DDR2_MCLK V25

/B_DDR2_MCLK V24

B_DDR2_CKE AB23

B_DDR2_ODT U26

/B_DDR2_RAS U25

/B_DDR2_CAS U24

/B_DDR2_WE AB24

B_DDR2_DQS0 AB26

B_DDR2_DQS1 AA26

B_DDR2_DQM0 AC25

B_DDR2_DQM1 AC26

B_DDR2_DQSB0 AB25

B_DDR2_DQSB1 AA25

B_DDR2_DQ0 W25

B_DDR2_DQ1 AE26

B_DDR2_DQ2 W24

B_DDR2_DQ3 AF24

B_DDR2_DQ4 AF25

B_DDR2_DQ5 V26

B_DDR2_DQ6 AE25

B_DDR2_DQ7 W26

B_DDR2_DQ8 Y26

B_DDR2_DQ9 AD25

B_DDR2_DQ10 Y25

B_DDR2_DQ11 AE24

B_DDR2_DQ12 AD26

B_DDR2_DQ13 Y24

B_DDR2_DQ14 AD24

B_DDR2_DQ15 AA24

A_MVREF

D15

A_DDR2_A0

C13

A_DDR2_A1

A22

A_DDR2_A2

B13

A_DDR2_A3

C22

A_DDR2_A4

A13

A_DDR2_A5

A23

A_DDR2_A6

C12

A_DDR2_A7

B23

A_DDR2_A8

B12

A_DDR2_A9

C23

A_DDR2_A10

B22

A_DDR2_A11

A12

A_DDR2_A12

A24

A_DDR2_BA0

C24

A_DDR2_BA1

B24

A_DDR2_BA2

D24

A_DDR2_MCLK

B14

/A_DDR2_MCLK

A14

A_DDR2_CKE

D23

A_DDR2_ODT

D14

/A_DDR2_RAS

D13

/A_DDR2_CAS

D12

/A_DDR2_WE

D22

A_DDR2_DQS0

B18

A_DDR2_DQS1

C17

A_DDR2_DQM0

C18

A_DDR2_DQM1

A19

A_DDR2_DQSB0

A18

A_DDR2_DQSB1

B17

A_DDR2_DQ0

B15

A_DDR2_DQ1

A21

A_DDR2_DQ2

A15

A_DDR2_DQ3

B21

A_DDR2_DQ4

C21

A_DDR2_DQ5

C14

A_DDR2_DQ6

C20

A_DDR2_DQ7

C15

A_DDR2_DQ8

C16

A_DDR2_DQ9

C19

A_DDR2_DQ10

B16

A_DDR2_DQ11

B20

A_DDR2_DQ12

A20

A_DDR2_DQ13

A16

A_DDR2_DQ14

B19

A_DDR2_DQ15

A17

R406 1K 1%

R41256

AR412

+1.8V_DDR

R42056

C426

0.1uF

C434

0.1uF

C402 0.1uF

R428 56

R41022

R41856

C411

0.1uF

R424 56

C405

0.1uF

AR407

C416

0.1uF

C419

0.1uF

AR405

R427 56

AR411

C430

0.1uF

R443 56

R41656

+1.8V_DDR

C406

0.1uF

C441

0.1uF

R437 56

C431

0.1uF

R436 56

R450

C407

0.1uF

AR401

C408

0.1uF

C428

0.1uF

R40756

+1.8V_DDR

AR403

R426

1K 1%

C433

0.1uF

+1.8V_DDR

R41556

R42156

R442 56

R432 22

C436

0.1uF

+1.8V_DDR

R435 56

R439 56

C425

0.1uF

C417

0.1uF

R41956

C435

0.1uF

C403

0.1uF

+1.8V_DDR

R434 56

C410

0.1uF

C421

0.1uF

R40856

C437

0.1uF

C427

0.1uF

R41756

C429

0.1uF

R41456

R40956

R425

1K 1%

C401 0.1uF

R444 56

R430 56

C418

0.1uF

C438

0.1uF

AR402

C423

10uF

C404

10uF

DDR2 1.8V By CAP - Place these Caps near Memory

Close to DDR Power PinClose to DDR Power Pin

S6 DDR2

09.12.28

HX300-JE

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.

POWER

R505

9.31K

R512

10K

C1518

4700pF

50V

C1694 0.1uF

C1542

22uF

16V

L504

MLB-201209-0120P-N2

Q503

SBT2222A_AUK

C1544

0.1uF

16V

C1516

1uF

10V

C1672

0.1uF

50V

C1501

0.1uF

50V

C1512

10uF

25V

C1691 0.1uF

R508

3.6K

1/16W

L501

MLB-201209-0120P-N2

FAN1

C1515

1uF

10V

AVDD_MPLL

C1690 0.1uF

L508

15uH

C1531

68pF

R506

100K

C1507

0.047uF

25V

9.5~19.5V

C1695 0.1uF

L511

R520

10.5K

1/10W

D504

KDS181

C1693 0.1uF

3.3V

D502

35V

B350A

R542

C1537

0.1uF

16V

C1700 0.1uF

R515

27K

L510

10uH

3.3V

3.3VST

R549

13K

C1698 0.1uF

IC504

APW7080KAI-TRL

UGND

VCC

VIN

5LX

6COMP

7FB

8GND

3.3V

R504 47K

C1696 0.1uF

ST_5V

C1692 0.1uF

R517

51K

C1699 0.1uF

L523

BLM18PG121SN1D

3.3V_MST

C1511

0.047uF

25V

1.8V

R513

10K

IC501

MP2355DN-LF-Z

VIN

BST

5GND

6FB

7COMP

8RUN

R510

R516

47K

1.8V

C1552

0.1uF

16V

C1536

0.1uF

16V

FAN1_TACH

L512

BLM18PG121SN1D

C1666

100pF

50V R547

47K

C1523

0.1uF

R524

56K

1/10W

R509

10K

IC508

AP2121N-3.3TRE1

GND

2VOUT

VIN

Q504

SBT2222A_AUK

IC509

AZ1117H-1.8TRE1(EH13A)

OUTPUT

INPUT 1ADJ/GND

D501

35V

B350A

C1526

22pF

C1548

22uF

16V

C1697 0.1uF

INPUT_POWER_DET

POWER_ON/OFF

FAN2

R548

13K

FAN2_TACH

C1660

100pF

50V

3.3V

R541

L522

BLM18PG121SN1D

R546

47K

1.26V_VDDC

R518

C1557 0.1uF

C1561 0.1uF

+1.8V_DDR

C1514

1uF

10V

R501

10K

L505

BLM18PG121SN1D

R502

12V_M

C1551

1uF

25V

R537

C1556

10uF

25V

C1546

22uF

25V

C1500

0.1uF

16V

Q502

RTR030P02

Q501

SBT2222A_AUK

14.6V IC510

KIA7812AF

14.6V

C1571

0.1uF

16V

1.26V_VDDC

C1580

0.1uF

16V

C1581

0.1uF

16V

C1576

0.1uF

16V

C1613

0.1uF

16V

C1577

0.1uF

16V

C1605

0.1uF

16V

C1610

0.1uF

16V

C1560

0.1uF

16V

C1572

0.1uF

16V

C1592

0.1uF

16V

C1618

0.1uF

16V

C1567

0.1uF

16V

C1611

0.1uF

16V

C1600

0.1uF

16V

C1617

0.1uF

16V

C1621

0.1uF

16V

C1591

0.1uF

16V

C1616

0.1uF

16V

C1599

0.1uF

16V

C1607

0.1uF

16V

C1598

0.1uF

16V

C1559

0.1uF

16V

C1579

0.1uF

16V

C1604

0.1uF

16V

C1593

0.1uF

16V

1.26V_VDDC

C1566

0.1uF

16V

C1608

0.1uF

16V

C1596

0.1uF

16V

1.8V_MST

C1590

0.1uF

16V

C1614

0.1uF

16V

C1620

0.1uF

16V

C1615

0.1uF

16V

C1589

0.1uF

16V

C1609

0.1uF

16V

C1597

0.1uF

16V

C1603

0.1uF

16V

C1602

0.1uF

16V

L515

BLM18PG121SN1D

AVDD_AU

AVDD_OTG

L514

BLM18PG121SN1D

AVDD_MEMPLL

L518

BLM18PG121SN1D

C1619

0.1uF

16V

L517

BLM18PG121SN1D

3.3V_MST VDDP

AVDD_33

AVDD_DM

L519

BLM18PG121SN1D

C1582

0.1uF

16V

C1606

0.1uF

16V

C1601

0.1uF

16V

C1595

0.1uF

16V

L521

BLM18PG121SN1D

C1578

0.1uF

16V

L520

BLM18PG121SN1D

VDDP

AVDD_LPLL

L516

BLM18PG121SN1D

C1573

0.1uF

16V

C1612

0.1uF

16V

3.3V_MST

C1587

2.2uF

10V

C1682 10uF 10V

C1683 10uF 10V

C1684 10uF 10V

C1574

10uF

10V

C1521

10uF

10V

C1525

10uF

10V C1529

10uF

10V

C1534

22uF

16V

C1583

1uF

10V

C1594

1uF

10V

C1588

10uF

10V

C1586

10uF

10V

C1584

10uF

10V

C1585

10uF

10V

C1563

10uF

10V

C1554

10uF

10V

C1524

1500pF

50V

ST_5V

C553

0.1uF

16V

R507

10K

C554

0.47uF

25V

R500

C552

10uF

10V

Q506

SBT2222A_AUK

Q500

RTR030P02

C550

10uF

10V

3.3V_MST

C551

10uF

10V

9.5~19.5V

C1520

22uF

25V

3.3V

L526

BLM18PG121SN1D

ST_5V

C1689 0.1uF

C1687 0.1uF

C1685 0.1uF

C1686 0.1uF

C1688 0.1uF

C523 0.1uF

C517 0.1uF

C522 0.1uF

C519 0.1uF

C525 0.1uF

C520 0.1uF

C521 0.1uF

C516 0.1uF

C518 0.1uF

C524 0.1uF

C526 0.1uF

C515 0.1uF

C514 0.1uF

C542 0.1uF

C543 0.1uF

C540 0.1uF

C545 0.1uF

C544 0.1uF

C541 0.1uF

C539 0.1uF

C538 0.1uF

C530 0.1uF

1.2V_Core

C531 0.1uF

C533 0.1uF

C535 0.1uF

C532 0.1uF

C536 0.1uF

C529 0.1uF

C534 0.1uF

C555

1000pF

C509

1000pF

1.2V_Core

C502

0.1uF

L525

MLB-160808-0068L-N2

L500

MLB-160808-0068L-N2

L524

MLB-160808-0068L-N2

1.8V

C505

0.1uF

L513

MLB-160808-0068L-N2

R525

10K

IC506

TCA0372DM2ELG

OUT_A

NC1

VCC

VEE/GND1

NC2

OUT_B

NC3

VEE/GND2 9VEE/GND3

10 NC4

11 IN_B-

12 IN_B+

13 IN_A+

14 IN_A-

15 NC5

16 VEE/GND4

C527 0.1uF

C528 0.1uF

C501

0.1uF

C511

0.1uF

C547

0.1uF

R526

1/10W

R530

1.2V_Core

R523

R514 1K

C500

10uF

10V

Q505

NTR4501NT1G

IC505

BD9306AFVM

3ENB

2CT

4GD

1RT

VCC

GND

COMP

FBR511 9.31K

1/10W 1%

C549

100pF

50V

L509 22uH D500

40V

RB160M-40

R519

R522

100K

1/10W

R521

20K

C504 0.1uF

16V

C548

100pF

50V

D503

KDS181

IC200

DPP6400

VDD12_1

E11

VDD12_2

E17

VDD12_3

VDD12_4

H22

VDD12_5

VDD12_6

VDD12_7

T22

VDD12_8

AB7

VDD12_9

AB13

VDD12_10

AB20

VDD12_PLLD

C16

VDD12_PLLM

C17

VDD12_EDRAM_1

VDD12_EDRAM_2

VDD12_EDRAM_3

VDD12_EDRAM_4

VDD12_EDRAM_5

L22

VDD12_EDRAM_6

M22

VDD12_EDRAM_7

U22

VDD12_EDRAM_8

V22

VDD18_1

VDD18_2

VDD18_3

A13

VDD18_4

A19

VDD18_5

A25

VDD18_6

VDD18_7

VDD18_8

E14

VDD18_9

E21

VDD18_10

F26

VDD18_11

J22

VDD18_12

K22

VDD18_13

L25

VDD18_PLLD

B16

VDD18_PLLM

B17

VDD33_1

VDD33_2

E16

VDD33_3

VDD33_4

VDD33_5

VDD33_6

N26

VDD33_7

P22

VDD33_8

VDD33_9

VDD33_10

W22

VDD33_11

VDD33_12

Y22

VDD33_13

AB8

VDD33_14

AB9

VDD33_15

AB10

VDD33_16

AB15

VDD33_17

AB16

VDD33_18

AB18

VDD33_19

AB19

VDD33_20

AD1

VDD33_21

AD26

VDD33_22

AE9

VDD33_23

AE18

RESERVED_C26

C26

RESERVED_B24

B24

VMID

C10

GND_1 A1

GND_2 A9

GND_3 A12

GND_4 A20

GND_5 A26

GND_6 B1

GND_7 B2

GND_8 B25

GND_9 B26

GND_10 C3

GND_11 C4

GND_12 C24

GND_13 C25

GND_14 D4

GND_15 D10

GND_16 D16

GND_17 D17

GND_18 D23

GND_19 D24

GND_20 E1

GND_21 E4

GND_22 E5

GND_23 E6

GND_24 E7

GND_25 E9

GND_26 E10

GND_27 E15

GND_28 E18

GND_29 E22

GND_30 E23

GND_31 F5

GND_32 F22

GND_33 F23

GND_34 G5

GND_35 G22

GND_36 G23

GND_37 G26

GND_38 J1

GND_39 L11

GND_40 L12

GND_41 L13

GND_42 L14

GND_43 L15

GND_44 L16

GND_45 L26

GND_46 M11

GND_47 M12

GND_48 M13

GND_49 M14

GND_50 M15

GND_51 M16

GND_52 N11

GND_53 N12

GND_54 N13

GND_55 N14

GND_56 N15

GND_57 N16

GND_58 P11

GND_59 P12

GND_60 P13

GND_61 P14

GND_62 P15

GND_63 P16

GND_64 R5

GND_65 R11

GND_66 R12

GND_67 R13

GND_68 R14

GND_69 R15

GND_70 R16

GND_71 R22

GND_72 T5

GND_73 T11

GND_74 T12

GND_75 T13

GND_76 T14

GND_77 T15

GND_78 T16

GND_79 U1

GND_80 AA4

GND_81 AA5

GND_82 AA22

GND_83 AB4

GND_84 AB5

GND_85 AB6

GND_86 AB11

GND_87 AB12

GND_88 AB17

GND_89 AB21

GND_90 AB22

GND_91 AB23

GND_92 AC4

GND_93 AC23

GND_94 AD3

GND_95 AD24

GND_96 AE1

GND_97 AE2

GND_98 AE25

GND_99 AE26

GND_100 AF1

GND_101 AF2

GND_102 AF9

GND_103 AF18

GND_104 AF25

GND_105 AF26

VSS_PLL_1 A15

VSS_PLL_2 D15

1.8V_MST

C1550

0.1uF

16V

P501

12507WR-03L

P502

12507WR-03L

C556

0.01uF

25V

IC500

APE8953MP

3VOUT_1

2FB

4VOUT_2

1GND

VIN

VCNTL

POK

R540

POSENSE

R535

9.1K

R536

12K

R543

10.7K

1.2V_Core

C568

10uF

6.3V

C566

0.01uF

25V

R551

1/10W

L507

15uH

R503

10K

L502

BLM18PG121SN1D

IC503

MP2305DS

GND

5FB

6COMP

7EN

8SS

C564

0.01uF

R545

3.3K

C570

10uF

6.3V

C572

10uF

6.3V

R538

3.6K

1/16W

C562

0.01uF

25V

ST_5V

R529

10K

R550

1/10W

C561

0.01uF

25V

L506

10uH

C569

10uF

6.3V

L503

BLM18PG121SN1D

R539

10.5K

C567

10uF

6.3V

C563

0.1uF

16V

C571

10uF

6.3V

R532

3.6K

1/16W

IC502

MP2305DS

GND

5FB

6COMP

7EN

8SS

R544

3.9K

C565

0.01uF

25V

C560

22uF

10V

C559

22uF

10V

C546

22uF

10V

C1671

10uF

25V

C1502

0.1uF

50V

C558

0.1uF

16V

C557

0.1uF

16V

C1513

0.47uF

25V

C1508

22uF

25V

C1505

10uF

25V

C1506

10uF

25V

TEMP_5V

C1504

10uF

10V

C1509

10uF

10V C1540

10uF

6.3V

C1549

10uF

6.3V

C1547

10uF

6.3V

C1545

10uF

6.3V

C1558

10uF

6.3V

C1564

10uF

6.3V

C1570

10uF

6.3V

C1575

10uF

6.3V

C1565

10uF

6.3V

C1568

10uF

6.3V

C1562 10uF

C503

10uF

C513 10uF 6.3V

C537 10uF 6.3V

C507

10uF

C506

10uF

C51010uF 6.3V

C512 10uF 6.3V

C508

22uF

10V

C1681 0.1uF

ST_BY Power

$0.0475

$0.24

Fan Control

DPP6400

Power

S6 POWER

HX300-JE

POWER

09.11.30

04 06

1.26V_VDDC TO VDDC

1.8V_MST TO AVDD 1.8V

3.3V_MST TO VDDP 3.3V

3.3V_MST TO AVDD 3.3V

CLOSE TO IC

Typ:500mA

Typ:9mA

Typ:160mA

Typ:150mA

Typ:7mA

Typ:10mA

Typ:80mA

For ASIC Core

For Embedded

DRAM

For Internal

PLLs

For LVDS I/O

For Internal

PLLs

For LVTTL I/O

& Embedded

DRAM

- All 1.2V Power First

- And Then Another Power(1.8V, 3.3V)

- All power on within 100ms

- Power down order : 1.8V,3.3V -> 1.2V

Vout=0.8*(1+R1/R2)

$0.07

$0.23

V=0.923X(1+R1/R3)=1.266V

THE RECOMMANDED VALUE OF R3 IS 10K

$0.035

$0.05

$0.08

$0.007

$0.02

$0.21

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.

DPP6400 MEMORY & AUDIO AMP

PMDATA[2]

PMDATA[14]

PMDATA[5]

PMDATA[4]

PMADR[0-20]

PMDATA[6]

PMDATA[0]

PMDATA[13]

PMDATA[12]

PMDATA[0-15]

PMDATA[9]

PMADR[0-20]

PMDATA[10]

PMDATA[1]

PMDATA[11]

PMDATA[3]

PMDATA[15]

PMDATA[7]

PMDATA[8]

PMDATA[15]

PMDATA[14]

PMDATA[13]

PMDATA[12]

PMDATA[11]

PMDATA[10]

PMDATA[9]

PMDATA[8]

PMDATA[7]

PMDATA[6]

PMDATA[5]

PMDATA[4]

PMDATA[3]

PMDATA[2]

PMDATA[1]

PMDATA[0]

PMADR[1]

PMADR[2]

PMADR[3]

PMADR[4]

PMADR[5]

PMADR[6]

PMADR[7]

PMADR[8]

PMADR[9]

PMADR[10]

PMADR[11]

PMADR[12]

PMADR[13]

PMADR[14]

PMADR[15]

PMADR[16]

PMADR[17]

PMADR[18]

PMADR[20]

PMADR[0]

PMADR[1]

PMADR[2]

PMADR[3]

PMADR[4]

PMADR[5]

PMADR[6]

PMADR[7]

PMADR[8]

PMADR[9]

PMADR[10]

PMADR[11]

PMADR[12]

PMADR[13]

PMADR[14]

PMADR[15]

PMADR[16]

PMADR[17]

PMADR[18]

PMADR[19]

PMADR[20]

PMADR[0]

PMADR[19]

C665 0.1uF

R668

10K

R660 33

3.3V

R673

10K

R647

10K

R648 33

R649 33

C663 10uF 10V

PM_WESZ

PM_OESZ

FLASH_CSSZ

PM_OESZ

FLASH_CSSZ

PM_WESZ

R600

10K

POSENSE R605

OPT

R617

180

R618

180

3.3V

R603

10K

IC200

DPP6400

RESERVED_L24

L24

RESERVED_A18

A18

RESERVED_IO_J24 J24

RESERVED_IO_L23 L23

RESERVED_IO_H25 H25

RESERVED_IO_J23 J23

RESERVED_IO_J25 J25

RESERVED_IO_H26 H26

RESERVED_IO_K23 K23

RESERVED_IO_J26 J26

RESERVED_IO_F25 F25

RESERVED_IO_H24 H24

RESERVED_IO_D25 D25

RESERVED_IO_E26 E26

RESERVED_IO_E25 E25

RESERVED_IO_D26 D26

RESERVED_IO_F24 F24

RESERVED_IO_E24 E24

RESERVED_IO_B18 B18

RESERVED_IO_B19 B19

RESERVED_IO_D18 D18

RESERVED_IO_C18 C18

RESERVED_IO_C19 C19

RESERVED_IO_D19 D19

RESERVED_IO_E19 E19

RESERVED_IO_B20 B20

RESERVED_IO_C20 C20

RESERVED_IO_D20 D20

RESERVED_IO_E20 E20

RESERVED_IO_A21 A21

RESERVED_IO_B21 B21

RESERVED_IO_C21 C21

RESERVED_IO_D21 D21

RESERVED_IO_B23 B23

RESERVED_IO_D22 D22

RESERVED_IO_A22 A22

RESERVED_IO_A24 A24

RESERVED_IO_C23 C23

RESERVED_IO_C22 C22

RESERVED_IO_B22 B22

RESERVED_IO_K26 K26

RESERVED_IO_K25 K25

RESERVED_IO_G25 G25

RESERVED_IO_G24 G24

RESERVED_IO_K24 K24

RESERVED_IO_H23 H23

RESERVED_IO_A23 A23

IC200

DPP6400

PM_DATA_15 T1

PM_DATA_14 T2

PM_DATA_13 T3

PM_DATA_12 T4

PM_DATA_11 U2

PM_DATA_10 U3

PM_DATA_9 U4

PM_DATA_8 V2

PM_DATA_7 V3

PM_DATA_6 W1

PM_DATA_5 V4

PM_DATA_4 W2

PM_DATA_3 W4

PM_DATA_2 Y1

PM_DATA_1 Y2

PM_DATA_0 W3

PM_ADDR_22[GPIO_36] AB2

PM_ADDR_21[GPIO_35] AA3

PM_ADDR_20 AB3

PM_ADDR_19 AC1

PM_ADDR_18 AC3

PM_ADDR_17 AC2

PM_ADDR_16 AD2

PM_ADDR_15 AF3

PM_ADDR_14 AE3

PM_ADDR_13 AF4

PM_ADDR_12 AE4

PM_ADDR_11 AD4

PM_ADDR_10 AC5

PM_ADDR_9 AD5

PM_ADDR_8 AE5

PM_ADDR_7 AF5

PM_ADDR_6 AC6

PM_ADDR_5 AD6

PM_ADDR_4 AE6

PM_ADDR_3 AF6

PM_ADDR_2 AC7

PM_ADDR_1 AD7

PM_ADDR_0 AE7

PM_BLSZ_1 AF7

PM_BLSZ_0 AC8

PM_WEZ AB1

PM_OEZ Y3

PM_CSZ_0 AA2

PM_CSZ_1 AA1

PM_CSZ_2 Y4

MSTAR_R_OUT

C605 10uF

C608 1uF

MSTAR_L_OUT

R611

10K

C603 0.47uF

R_SOUND_N

C607 1uF

C611 1uF

IC601

NL17SZ126DFT2G

GND

IN_A

4OUT_Y

OE 5VCC

C604 0.47uF

C606 1uF

R610

20K

R606

R608

22K

R612

47K

OPT

AUDIO_SLEEP

C601

2700pF

C602

2700pF

C613

10uF

L_SOUND_N

R607 47K

R609

C609 0.1uF

C614

0.47uF

C612 1uF

VOLUME

C610 1uF

R_SOUND_P

IC602

TPA6011A4PWPRG4

PVDD_1

ROUT-

RHPIN

PGND_1

RIN

RLINEIN

VDD

LIN

LLINEIN

LHPIN

PVDD_2

LOUT- 13 PGND_2

14 LOUT+

15 SHUTDOWN

16 FADE

17 BYPASS

18 AGND

19 SEMAX

20 SEDIFF

21 VOLUME

22 HP/LINE

23 SE/BTL

24 ROUT+

L601

BLM18AG151SN1D

L_SOUND_P

P601

12507WR-04L

R_SOUND_P

R_SOUND_N

L_SOUND_N

HP_DET

R601 OPT

R616 0

R613 0

R614 0

R615 0

IC606

S29JL032H70TFI020

26 CE

27 VSS0

28 OE

29 DQ0

30 DQ8

31 DQ1

32 DQ9

33 DQ2

34 DQ10

35 DQ3

36 DQ11

37 VCC

38 DQ4

39 DQ12

40 DQ5

41 DQ13

42 DQ6

43 DQ14

44 DQ7

45 DQ15/A_1

46 VSS1

47 BYTE

48 A16

A17

A13

A10

A18

RY/BY

WP/ACC

RESET

A20

A19

A12

A11

25 A0

A14

A15

VPP : High - Normal Operation

Low - Write/Erase Protection

DPP6400 FLASH ROM

32Mb / Bottom type / 4 Banks

DPP6400 FLASH MEMORY

& AUDIO BLOCK

09.12.28

HX300-JE

DPP6400

Reserved

AUDIO AMP

Speaker

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.

DPP6400 GPIO / DMD INTERFACE

SCTRL_AN

SCTRL_AP

SCTRL_BN

SCTRL_BP

DCLK_AN

DCLK_AP

DCLK_BN

DCLK_BP

DDAN[1]

DDAP[1]

DDAN[3]

DDAP[3]

DDAN[5]

DDAP[5]

DDAN[7]

DDAP[7]

DDAN[9]

DDAP[9]

DDAN[11]

DDAP[11]

DDAN[13]

DDAP[13]

DDAN[15]

DDAP[15]

DDBN[1]

DDBP[1]

DDBN[3]

DDBP[3]

DDBN[5]

DDBP[5]

DDBN[7]

DDBP[7]

DDBN[9]

DDBP[9]

DDBN[11]

DDBP[11]

DDBN[13]

DDBP[13]

DDBN[15]

DDBP[15]

DAD_STRB

DAD_SEL[1]

DAD_SEL[0]

DAD_MODE[0]

MBRST_M[0]

MBRST_M[1]

MBRST_M[2]

MBRST_M[3]

MBRST_M[4]

MBRST_M[5]

MBRST_M[6]

MBRST_M[7]

MBRST_M[8]

MBRST_M[9]

MBRST_M[10]

MBRST_M[11]

MBRST_M[12]

MBRST_M[13]

MBRST_M[14]

MBRST_M[15]

DAD_MODE[1]

DAD_OEZ

MBRST_M[15]

MBRST_M[14]

MBRST_M[13]

MBRST_M[12]

MBRST_M[11]

MBRST_M[10]

MBRST_M[9]

MBRST_M[8]

MBRST_M[0]

MBRST_M[1]

MBRST_M[2]

MBRST_M[3]

MBRST_M[4]

MBRST_M[5]

MBRST_M[7]

MBRST_M[6]

DDBP[3]

DDBN[3]

DDBP[7]

DDBN[7]

DCLK_BP

DDBN[11]

DCLK_BN

DDBP[11]

DDAP[9]

DDAN[9]

DDAN[13]

DDAP[13]

DDBP[5]

DDBN[1]

DDBP[1]

DDBN[5]

SCTRL_BN

SCTRL_AN

DDAP[5]

DDAN[1]

SCTRL_AP

DDAP[1]

DDAN[5]

SCTRL_BP

DDBP[13]

DDBN[15]

DDBN[9]

DDBP[15]

DDBN[13]

DDBP[9]

DCLK_AN

DDAN[11]

DDAP[15]

DDAN[15]

DDAP[11]

DCLK_AP

DDAN[7]

DDAN[3]

DDAP[7]

DDAP[3]

3.3V_M

3.3V

C701

0.1uF

16V

L701

BLM18PG121SN1D

VRESET_M

R705 33

MBRST_M[0-15]

C712

0.1uF

50V

C714

0.1uF

50V

SSP0_CSZ0

SSP0_TXD

D702

SS26

VRESET_M

C710

0.1uF

50V

C706

0.1uF

50V

SSP0_CLK

EXT_ARSTZ

C704

0.1uF

50V

R706

L703

22uH

C708

0.1uF

50V

C702

0.1uF

50V

C707

0.1uF

50V

SSP0_RXD

D701

SS26

VOFFSET_M

C711

0.1uF

50V

12V_M

VBIAS_M

R701

C717 0.1uF 50V

C713

0.1uF

50V

C709

0.1uF

50V

C703

0.1uF

50V

VOFFSET_M

L702

22uH

MBRST_M[0-15]

RED_NTC_PWM G_NTC

C723

0.01uF

25V

R721

3.9K

G_TEMP_COMP_OUT

C728

0.01uF

25V

R727 33

3.3V

R722 33

GRN_NTC_PWM

IC706

KA2903

IN1+

IN1-

GND

OUT1

5IN2+

6IN2-

7OUT2

8VCC

R_TEMP_COMP_OUT

R731

22K

R720

22K

R728

3.9K

R_NTC

C727

0.1uF

16V

C705

10uF

10V

3.3V

IC701

24LC32AT-I/SNG

VSS

5SDA

6SCL

7WP

8VCC

R770 33

R718

3.3K

3.3V

C737

0.1uF

16V

C700

0.1uF

16V

R723

3.3K

R769 33

R733

10K

3.3V

SSP0_CLK

SSP0_RXD

SSP0_TXD

SSP0_CSZ1

3.3V

R763

R765

3.3K

SSP0_CSZ0

R768

3.3K

R761

3.3K

IC700

74VIT125CTR

3GND

21A

11G

VCC

USB_ENZ

3.3V

R756

3.3K

R735

1.5K

USB_DAT_N

USB_DAT_P R753 27

R752 27

R754

100K

UART0_TXD

UART0_RXD

RED_EN

GRN_EN

BLU_EN

C726

1uF

R747

1.5K

R737

10K

FAN1

V_ADJ_CH3

V_ADJ_CH2

V_ADJ_CH1

R748

1.5K

C730

1uF

R739

10K

FAN2

FAN2_TACH

FAN1_TACH

SW700

JTP-1127WEM

1 2

3.3V

R750

USB_ENZ

R742 33

R715

4.7K

3.3V

R710 10K

R711 10K

3.3V

R712 10K

R713 10K

R708 1K

OPT

R709 0

R714 10K

3.3V

R716 33

R767

3.3K

EXT_ARSTZ

3.3V

R760 33

POSENSE

3.3V

R762

3.3K

R755

R757

100

RED_NTC_PWM

R745 1.5K

R744 1.5K

C734 1uF

C733 1uF

GRN_NTC_PWM

R_TEMP_COMP_OUT

G_TEMP_COMP_OUT

TX_MSTAR

RX_MSTAR

DAD1000-3

IC702

SCPCK

SCPDI

SCPDO

SCPEN

IRQ

STROBE

MODE1

MODE0

SEL1

SEL0

ADDR3

ADDR2

ADDR1

ADDR0

DEV_ID1

DEV_ID0

RESET

VCC

V12_SWL2

V12_SWL1

P12V3

P12V2

P12V1

VBIAS_RAIL8

VBIAS_RAIL7

VBIAS_RAIL6

VBIAS_RAIL5

VBIAS_RAIL4

VBIAS_RAIL3

VBIAS_RAIL2

VBIAS_RAIL1

VBIAS

VBIAS_SWL

VBIAS_LHI

GND1 1

GND2 7

GND3 14

GND4 20

OUT15 79

OUT14 77

OUT13 74

OUT12 72

OUT11 69

OUT10 67

OUT09 64

OUT08 62

OUT07 39

OUT06 37

OUT05 34

OUT04 32

OUT03 29

OUT02 27

OUT01 24

OUT00 22

VOFFSET 49

VOFFSET_RAIL8 78

VOFFSET_RAIL7 73

VOFFSET_RAIL6 68

VOFFSET_RAIL5 63

VOFFSET_RAIL4 38

VOFFSET_RAIL3 33

VOFFSET_RAIL2 28

VOFFSET_RAIL1 23

V5REG 47

VRESET_RAIL8 76

VRESET_RAIL7 75

VRESET_RAIL6 66

VRESET_RAIL5 65

VRESET_RAIL4 36

VRESET_RAIL3 35

VRESET_RAIL2 26

VRESET_RAIL1 25

VRESET 13

VRESET_SWL 12

GND9 60

GND8 55

GND7 53

GND6 46

GND5 41

3.3V

USB_DAT_N

USB_DAT_P

VOFFSET_M 3.3V_M

SSP0_CLK

SSP0_CSZ1

R700 33

SSP0_RXD

SSP0_TXD

R704 33

EXT_ARSTZ

R703 33

3.3V

R766

C715

2.2uF

50V

C720

2.2uF

50V

C716 2.2uF 50V

C718

2.2uF

50V

C719

2.2uF

50V

C721

2.2uF

50V

C722

2.2uF

50V

P706

104060-8017

R736 33

R734 33

UART0_TXD

UART0_RXD

R772 33

IC200

DPP6400

DDB_P_7

A10

DDB_N_7

B10

DDB_P_6

C11

DDB_N_6

D11

DDB_P_5

A11

DDB_N_5

B11

DDB_P_4

D12

DDB_N_4

E12

DDB_P_3

B13

DDB_N_3

C13

DDB_P_2

C14

DDB_N_2

D14

DDB_P_1

A14

DDB_N_1

B14

DDB_P_0

B15

DDB_N_0

C15

DDA_P_7

DDA_N_7

DDA_P_6

DDA_N_6

DDA_P_5

DDA_N_5

DDA_P_4

DDA_N_4

DDA_P_3

DDA_N_3

DDA_P_2

DDA_N_2

DDA_P_1

DDA_N_1

DDA_P_0

DDA_N_0

DCKB_P

B12

DCKB_N

C12

DCKA_P

DCKA_N

SCB_P

D13

SCB_N

E13

SCA_P

SCA_N

IC200

DPP6400

DAD_INTZ N4

DADSTRB M4

DADMODE_1 M3

DADMODE_0 M2

DADSEL_1 K3

DADSEL_0 K2

DADADDR_3 L4

DADADDR_2 L3

DADADDR_1 L2

DADADDR_0 L1

DADOEZ M1

IC200

DPP6400

TDO2

AC24

TDO1

AD25

TMS2

AF24

TMS1

AE23

TDI

AC22

TCK

AD23

TRSTZ

AE24

ICTSENZ

HW_TEST_EN

TSTPT_7 H4

TSTPT_6 H3

TSTPT_5 H2

TSTPT_4 H1

TSTPT_3 J4

TSTPT_2 J3

TSTPT_1 J2

TSTPT_0 K4

ETM_PIPESTAT_2 G4

ETM_PIPESTAT_1 G3

ETM_PIPESTAT_0 G2

ETM_TRACESYNC F1

ETM_TRACECLK G1

RTCK AB26

RESERVED_P1[SEQ_SYNC] P1

VPGM AB14

IC200

DPP6400

UART0_TXD

Y25

UART0_RXD

AA26

UART0_CTSZ

Y23

UART0_RTSZ

Y24

USB_DAT_N

USB_DAT_P

SSP0_CLK R3

SSP0_TXD R2

SSP0_RXD R4

SSP0_CSZ_2 P3

SSP0_CSZ_1 P4

SSP0_CSZ_0 R1

IC200

DPP6400

MOSC

A16

MOSCN

A17

PMD_INTZ

AB25

CW_INDEX

PWRGOOD

AA23

POSENSE

AA24

OCLKA N1

CW_PWM N3

EXT_ARSTZ AC25

MTR_ARSTZ AB24

IC200

DPP6400

GPIO_28

V24

GPIO_29

V23

IIC0_SCL

IIC0_SDA

GPIO_2

M24

GPIO_3

M23

GPIO_14

R24

GPIO_15

R23

GPIO_16

T26

GPIO_18

T24

GPIO_20

GPIO_0

M26

GPIO_1

M25

GPIO_51

AE8

GPIO_52

AD8

GPIO_17

T25

LMPSTAT

LMPCTRL

GPIO_39 F2

GPIO_38 AC26

GPIO_4 N25

GPIO_7 N22

GPIO_5 N24

GPIO_6 N23

GPIO_19 T23

GPIO_21 U26

GPIO_22 U25

GPIO_23 U24

GPIO_24 U23

GPIO_25 V26

GPIO_26 V25

GPIO_10 P24

GPIO_11 P23

GPIO_27 P2

GPIO_12 R26

GPIO_13 R25

GPIO_9 P25

GPIO_31 W25

GPIO_37 AA25

GPIO_30 W26

GPIO_32 W24

GPIO_33 W23

GPIO_34 Y26

GPIO_8 P26

PWRGOOD

R758

OPT

GND

3.3V

C729

0.1uF

16V

TEMP_5V

R738 33

R743 33

R746 33

RED_EN

GRN_EN

BLU_EN

V_ADJ_CH2

V_ADJ_CH3

V_ADJ_CH1

G_NTC

R_NTC

B_NTC

P701

05004HR-20B01S

3.3V

R719 33

AMBIENT_NTC

C732

0.01uF

25V

R730

22K

AMBIENT_NTC_PWM

C731

0.1uF

16V

AMBIENT_TEMP_COMP_OUT

3.3V

IC703

KA2903

IN1+

IN1-

GND

OUT1

5IN2+

6IN2-

7OUT2

8VCC

R732

20K

P702

12507WR-03L

AMBIENT_NTC

C735

1uF

AMBIENT_NTC_PWM

R749 1.5K

AMBIENT_TEMP_COMP_OUT

R773

9.5~19.5V

GND

P700

12507WR-06L

L700

UBW2012-121F

GND

C724

20pF

C725

20pF

TEMP_5V

C736

0.047uF

25V

C738

22uF

25V

R702 22

R707 22

C739

100pF C740

100pF

P707

12507WR-06L

X700

32.0MHz

GND_2 1HOT_1

2GND_1

HOT_2

C741

0.1uF

16V

D703

BAV99

AAC

DAD1000 Block

TO DMD(S450) BOARD

DPP6400 DEBUG

DPP GPIO

09.12.28

HX300-JE

DPP6400 GPIO

ADC for TEMP Sensor

Slave Address : 0xA2

(To DMD)

(To DAD)

for CCA

PWM OUT0

PWM OUT1

PWM OUT2

PWM OUT3

PWM OUT4

PWM OUT5

PWM OUT6

PWM OUT7

PWM IN0

PWM IN1

DOWNLOAD ENABLEZ S/W

S6 communication

EEPROM

FOR DPP6400

MAX : 60mA

MAX : 100mA

MAX : 40mA

DPP6400 ETC

PWRGOOD

POSENSE

>500us

PWRGOOD

POSENSE

TO SENSOR BOARD

TO LED BOARD

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.

DDAP[1]

DDAN[1]

DDAP[3]

DDAN[3]

DDAP[5]

DDAN[5]

DDAP[7]

DDAN[7]

DDAP[9]

DDAN[9]

DDAP[11]

DDAN[11]

DDAP[13]

DDAN[13]

DDAP[15]

DDAN[15]

MBRST[15]

MBRST[14]

MBRST[13]

MBRST[12]

MBRST[11]

MBRST[10]

MBRST[9]

MBRST[8]

MBRST[7]

MBRST[6]

MBRST[5]

MBRST[4]

MBRST[3]

MBRST[2]

MBRST[1]

MBRST[0]

DDBP[1]

DDBN[1]

DDBP[3]

DDBN[3]

DDBP[5]

DDBN[5]

DDBP[7]

DDBN[7]

DDBP[9]

DDBN[9]

DDBP[11]

DDBN[11]

DDBP[13]

DDBN[13]

DDBP[15]

DDBN[15]

DDAP[5]

MBRST[6]

MBRST[7]

MBRST[5]

DDBN[5]

MBRST[4]

DDBP[1]

DDBN[1]

DDBP[5]

MBRST[3]

DDAP[13]

MBRST[2]

DDAN[13]

MBRST[1]

DDAP[3]

DDAN[9]

MBRST[0]

DDAP[7]

DDAP[9]

MBRST[8]

DDAN[3]

DDBP[11]

MBRST[9]

DDAN[7]

MBRST[10]

DDBN[11]

MBRST[11]

DDAP[11]

MBRST[12]

DDAN[15]

DDBN[7]

MBRST[13]

DDAP[15]

DDBP[7]

MBRST[14]

DDAN[11]

DDBN[3]

MBRST[15]

DDBP[3]

DDBP[9]

DDBN[13]

DDBP[15]

DDBN[9]

DDBN[15]

DDBP[13]

DDAN[5]

DDAP[1]

DDAN[1]

DMDRSTZ

SCPCLK

SCPDI

SCPENZ

DCLK_AP

DCLK_AN

SCTRL_AP

SCTRL_AN

DCLK_BP

DCLK_BN

SCTRL_BP

SCTRL_BN

MBRST[0-15]

SCPDO

3.3V_M

VOFFSET_M

R10

C23

0.1uF

C14

0.1uF

C22

0.1uF

C12

0.1uF

C21

0.1uF

C20

0.1uF

C19

1uF

25V

JP11

C17

0.1uF

JP10

C15

0.1uF

3.3V_M

C13

0.1uF

VOFFSET_M

C11

0.1uF

C10

10uF

6.3V

C18

0.1uF

C16

0.1uF

3.3V_M

R11

OPT

R12 0

MBRST[0-15]

VOFFSET_M

3.3V_M

P100

104060-8017

C24

10uF

16V

C25

10uF

6.3V

SCPDI

SCPCLK

DMDRSTZ

SCPENZ

SCPDO

DCLK_AP

SCTRL_AP

DCLK_BP

DCLK_BN

SCTRL_AN

DCLK_AN

SCTRL_BN

SCTRL_BP

S450 [DMD] SOCKET

IC10

MODE_A

PWRDNZ

SCPCLK

SCPDI

SCPDO

SCPENZ

RESERVED_FC

RESERVED_FD

RESERVED_PFE

RESERVED_STM

EVCC

RESERVED_BA

T10

RESERVED_BB

A10

RESERVED_RA1

RESERVED_RB1

RESERVED_TS

B10

RESERVED_TP0

R10

RESERVED_TP1

T11

RESERVED_TP2

R11

RESERVED_VR0

RESERVED_VR1

RESERVED_VR2

RESERVED_VR3

RESERVED_VB0

RESERVED_VB1

RESERVED_VB2

RESERVED_VB3

RESERVED_M[1]

RESERVED_M[0]

RESERVED_S[1]

RESERVED_S[0]

RESERVED_A[3]

RESERVED_A[2]

RESERVED_A[1]

RESERVED_A[0]

RESERVED_OEZ

RESERVED_RSTZ

RESERVED_STR

RESERVED_IRQZ

VCCI_1

A12

VCCI_2

A14

VCCI_3

A16

VCCI_4

T12

VCCI_5

T14

VCCI_6

T16

VCC_1

B11

VCC_2

B12

VCC_3

B13

VCC_4

B16

VCC_5

R12

VCC_6

R13

VCC_7

R16

VCC_8

R17

VCC2_1

VCC2_2

VCC2_3

VCC2_4

DCLK_BP

M19

DCLK_BN

N19

SCTRL_BP

M20

SCTRL_BN

L20

D_BP[1]

J20

D_BN[1]

K20

D_BP[3]

K19

D_BN[3]

J19

D_BP[5]

K18

D_BN[5]

L18

D_BP[7]

N18

D_BN[7]

M18

D_BP[9]

N20

D_BN[9]

P20

D_BP[11]

T18

D_BN[11]

R18

D_BP[13]

R20

D_BN[13]

T20

D_BP[15]

T19

D_BN[15]

R19

MBRST[0] C3

MBRST[1] D2

MBRST[2] D3

MBRST[3] E2

MBRST[4] G3

MBRST[5] E1

MBRST[6] G2

MBRST[7] G1

MBRST[8] N3

MBRST[9] M2

MBRST[10] M3

MBRST[11] L2

MBRST[12] J3

MBRST[13] L1

MBRST[14] J2

MBRST[15] J1

VSS_1 A6

VSS_2 A11

VSS_3 A13

VSS_4 A15

VSS_5 A17

VSS_6 B4

VSS_7 B5

VSS_8 B8

VSS_9 B14

VSS_10 B15

VSS_11 B17

VSS_12 C2

VSS_13 C18

VSS_14 C19

VSS_15 F1

VSS_16 F2

VSS_17 F19

VSS_18 H1

VSS_19 H2

VSS_20 H3

VSS_21 H18

VSS_22 J18

VSS_23 K1

VSS_24 K2

VSS_25 L19

VSS_26 N2

VSS_27 P18

VSS_28 P19

VSS_29 R4

VSS_30 R9

VSS_31 R14

VSS_32 R15

VSS_33 T7

VSS_34 T13

VSS_35 T15

VSS_36 T17

DCLK_AP E19

DCLK_AN D19

SCTRL_AP E20

SCTRL_AN F20

D_AP[1] H20

D_AN[1] G20

D_AP[3] G19

D_AN[3] H19

D_AP[5] G18

D_AN[5] F18

D_AP[7] D18

D_AN[7] E18

D_AP[9] D20

D_AN[9] C20

D_AP[11] A18

D_AN[11] B18

D_AP[13] B20

D_AN[13] A20

D_AP[15] A19

D_AN[15] B19

HX300-JE

DMD(S450)

2009.10.08

Mode Configuration Talble

Mode R11(pull up) R12(pull down)

Quarter Bus Mode

Half Bus Mode

Installed

InstalledNot Installed

Not Installed

01 01

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.

DSUB_R

DSUB_DET

D13

30V

CDS3C30GTH

OPT

DSUB_VSYNC

DSUB_HSYNC

DSUB_SDA

AV_CVBS

DSUB_B

DSUB_SCL

D11

30V

CDS3C30GTH

OPT

AV_CVBS_DET

DSUB_G

D17

30V

CDS3C30GTH

OPT

D12

30V

D16

30V

CDS3C30GTH

OPT

D15

30V

CDS3C30GTH

OPT

C27

47uF10V

R15

470K

C28

47uF10V

HP_DET

HP_L_OUT

JK15

PEJ024-01

6B T_TERMINAL2

8SHIELD_PLATE

7B B_TERMINAL2

5T_SPRING

4R_SPRING

7A B_TERMINAL1

6A T_TERMINAL1

3E_SPRING

R17

470K

HP_R_OUT

ST_5V

R11

100

R12

10K

C12

10uF

10V

C13

10uF

6.3V

C14

10uF

6.3V

JK16

KJA-UB-0-0037

USB_5V

USB_P

USB_N

C11

100pF

OPT

D14

30V

Q11

SI4925BDY

3 S2

2 G1

4 G2

1 S1

5D2_1

6D2_2

7D1_1

8D1_2

D18

30V

CDS3C30GTH

OPT

AUDIO_LIN

D19

30V

CDS3C30GTH

OPT

AUDIO_RIN

C31

22uF L12

BLM18PG121SN1D

C32

0.1uF

C34

0.047uF

50V

DSUB_SDA

DSUB_VSYNC

AV_CVBS_DET

DSUB_B

DSUB_G

AV_CVBS

DSUB_SCL

DSUB_DET

DSUB_R

DSUB_HSYNC

USB_5V

AUDIO_RIN

AUDIO_LIN

L13

UBW2012-121F

L14

UBW2012-121F

9.5~19.5V

R19

R18

HP_DET

HP_R_OUT

HP_L_OUT

JK13

KCN-DS-1-0089

1RED

2GREEN

3BLUE

4GND_1

5DDC_GND

6RED_GND

7GREEN_GND

8BLUE_GND

9NC

10 SYNC_GND

11 GND_2

12 DDC_DATA

13 H_SYNC

14 V_SYNC

15 DDC_CLOCK

16SHILED

JK14

PEJ024-01

6B T_TERMINAL2

8SHIELD_PLATE

7B B_TERMINAL2

5T_SPRING

4R_SPRING

7A B_TERMINAL1

6A T_TERMINAL1

3E_SPRING

P15

25421WR-20

USB_PUSB_N

P14

25421WR-20

ST_5V

9.5~19.5V

IC11

KSM-2013TH2P

1VOUT

2VCC

3GND

SHIELD

JK18

PPJ240-01

5A [YL]O-SPRING

6A [YL]E-LUG

4A [YL]CONTACT

JK17

JPD003N-N532-4F

Headphone

HX300-JE

JACK 01

09.12.28

Capacitors on VBUSA should be

placed as close to Connector as possible.

<USB>

For EMI Improvement

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.

LED Driver

R_ENZ

B_EN

VCC_G

G_NTC

R850

2.2K

VCC_G

C841

10uF

25V

C849

0.1uF

16V

C842

10uF

25V

VCC_G

GND-RB

R851

10K

VCC_7V_RB

GRN_EN

GND

GND-G

GND-RB

C816

0.47uF

25V

VCC_RB

R873

0Q814

KMB054N40DA

GND-RB

R861

330

Q813

KMB054N40DA

R838 10K

GND-G

IC811

KA431SAMF2TF

D804

35V

B350A

R807

20K

R811

20K

GND-G

R810

10K

GND-RB

R862

0.001

R872 0

GND-G

IC818

MAX5054

3GND

2INB[-]

4OUTB

1INA[-]

VDD

OUTA

INB[+]

INA[+]

GND-RB

GND

C807

4.7uF

ZD802

8.2V

C821

4.7uF

Q807

RK7002T116

LED_PWR

9.5~19.5V

C828

4.7uF

D803

40V

RB160M-40

VCC_7V_RB

VCC_RB

GND-G

R822

10K

R826

15K

GND

VCC_RB

GND-G

R812

10K

R854 10K

R803

20K

IC819

MAX5054

GND

INB[-]

OUTB

INA[-]

5VDD

6OUTA

7INB[+]

8INA[+]

Q815

KMB054N40DA

GND

R865

IC807

KIA75S358F

IN(-)

VEE

4OUT

IN(+) 5VCC

C844

10uF

10V

IC808

KA431SAMF2TF

GND-G

C820

0.1uF

16V

C837

10uF

25V

GND

VCC_RB

C829

4.7uF

R869

0.001

Q808

RK7002T116

IC804

KIA75S358F

IN(-)

VEE

4OUT

IN(+) 5VCC

LED_PWR

GND

C838

10uF

25V

GND-RB

R832

2.2K

9.5~19.5V

Q805

RSR025P03

VCC_RB

C815

0.1uF

16V

SENSE+

GND-RB

C818

4.7uF

16V

R825

10K

IC809

KIA75S358F

IN(-)

VEE

4OUT

IN(+) 5VCC

Q802

SBT2222A_AUK

VCC_G

IC806

KIA75S358F

IN(-)

VEE

4OUT

IN(+) 5VCC

C805

0.1uF

16V

GND-G

R871 0

GND-RB

IC817

QCPL-M61H

6VCC

5VO

ANODE

4GND

CATHODE

C808

0.1uF

16V

GND

D802

35V

B350A

GND-RB

C804

4.7uF

C847

0.1uF

16V

R864

C809

4.7uF

SENSE+

C827

4.7uF

16V

GND-RB

C833

4.7uF

C812

0.1uF

16V

ZD801

8.2V

VCC_RB

R863

R819

C834

4.7uF

R833

10K

C832

10uF

10V

C811

0.1uF

16V

R839

R813

10K

R801

20K

VCC_G

G_ST_N

D801

40V

RB160M-40

GND

R_NTC

R802

10K

R845

3.3V

GND

G_ST_N

GND

C822

4.7uF

C848

68uF

10V

C846

68uF

10V

C801

0.1uF

16V

IC801

NLASB3157DFT2G

GND

B1 6SELECT

5VCC

GND

RED_EN

R804

10K

C802

0.1uF

16V

IC802

KIA75S358F

IN(-)

VEE

4OUT

IN(+) 5VCC

IC803

KIA75S358F

IN(-)

VEE

4OUT

IN(+) 5VCC

C803

0.1uF

16V

3.3V

C850

0.1uF

16V

B_NTC

IC816

QCPL-063H

CATHODE2

CATHODE1

ANODE2

ANODE1

5GND

6VO2

7VO1

8VCC

D800

40V

RB160M-40

OPT

C831

10uF

10V

D805

40V

RB160M-40

OPT

IC813

MAX5054

3GND

2INB[-]

4OUTB

1INA[-]

VDD

OUTA

INB[+]

INA[+]

Q800

RK7002T116

Q803

RK7002T116

R800

GND-RB

C810

4.7uF

16V

GND-G

C830

4.7uF

16V

C800

10uF

10V

R881

BLU_EN

RED_EN

C839

0.1uF

16V

R885

330

R886

330

IC815

MAX16821BATI

1PGND

3DL

7NC_2

9CLKOUT

10 MODE

11 EN

12 RT/SYNC

13 V_IOUT

14 LIM

OVI

CLP

EAOUT

EAN

DIFF

CSN

CSP

SGND_2

SENSE-

SENSE+

SGND_3

VCC

VDD

5LX

8SGND_1

6DH

4BST

2NC_1

THERMAL

IC812

MAX16821BATI

1PGND

3DL

7NC_2

9CLKOUT

10 MODE

11 EN

12 RT/SYNC

13 V_IOUT

14 LIM

OVI

CLP

EAOUT

EAN

DIFF

CSN

CSP

SGND_2

SENSE-

SENSE+

SGND_3

VCC

VDD

5LX

8SGND_1

6DH

4BST

2NC_1

THERMAL

C826

2.2uF

50V

Q804

RK7002T116

VCC_RB

GND-RB

Q816

KMB054N40DA

R818

27K

1/16W

R808

27K

1/16W

R815

1.5K R834

1.5K

LED_PWR

9.5~19.5V

C845

10uF

10V

3.3V

R805

Q817

KMB054N40DA

Q818

KMB054N40DA

Q820

KMB054N40DA

Q819

KMB054N40DA

Q809

KMB054N40DA

Q810

KMB054N40DA

9.5~19.5V

GND

C835

68uF

10V

C836

68uF

10V

R903

R905

P805

12507WR-06L

P804

05004HR-20B01S

GRN_EN

GND

B_NTC

V_ADJ_CH2

G_NTC

R_NTC

3.3V

BLU_EN

V_ADJ_CH3

V_ADJ_CH1

RED_EN

P802

20037WR-08A00

P803

20037WR-08A00

P801

20037WR-08A00

R829

1.5K

C823

1uF

GND

C806

1uF

R814

1.5K

C819

1uF

R830

1.5K

L802

2.2uH

L801

2.2uH

R809

1/16W

R806

1/16W

R820

4.7K

R842

4.7K

R841

4.7K

R821

4.7K

R856

C817

4.7uF

IC823

74LVC125APW

2OE

1OE

GND 83Y

93A

10 3OE

11 4Y

12 4A

13 4OE

14 VCC

V_ADJ_CH1

V_ADJ_CH2

V_ADJ_CH3

ADJ_R

ADJ_G

ADJ_B

ADJ_R

ADJ_B

ADJ_G

3.3V

R840

R874

0.001

R875

0.001

R837

120K R852

120K R906

150K

R907

150K

Q812

KMB054N40DA

Q811

KMB054N40DA

R859

R843

R908

OPT

R909

OPT

D807

40V

RB160M-40

OPT

D806

40V

RB160M-40

OPT

R848

15K

R827

15K

R816

820

R836

820

C825

4.7uF

16V

GND-G

C824

4.7uF

16V

GND-RB

VCC_7V_G

R835

10K

R817

10K

R824

10K

R849

10K

C813

2200pF

50V

C814

2200pF

50V

R828

9.1K

1/16W

R831

9.1K

1/16W

Q801

KTC5103D

Q806

KTC5103D

R876

R904

R866

R902

R823

R844

GREEN LED

Differential Pair

RED

BLUE

GREEN

HX300-JE

Differential Pair

LED DRIVER

10.01.08

RED/BLUE LED

Only for training and service purposes

LGE Internal Use Only

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