LG 47LY755H-TA Schematic

Internal Use Only

North/Latin America http://aic.lgservice.com
Europe/Africa http://eic.lgservice.com
Asia/Oceania http://biz.lgservice.com

LED TV

SERVICE MANUAL

CHASSIS : LB4BZ

MODEL : 47LY755H 47LY755H-TA

CAUTION

BEFORE SERVICING THE CHASSIS,
READ THE SAFETY PRECAUTIONS IN THIS MANUAL.

Printed in KoreaP/NO : MFL68104735 (1508-REV00)

CONTENTS

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

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

SERVICING PRECAUTIONS .................................................................... 4

SPECIFICATION ....................................................................................... 6

ADJUSTMENT INSTRUCTION ................................................................ 9

TROUBLE SHOOTING GUIDE ............................................................... 16

BLOCK DIAGRAM ................................................................................. 21

EXPLODED VIEW .................................................................................. 22

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

Only for training and service purposes

- 2 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

SAFETY PRECAUTIONS

IMPORTANT SAFETY NOTICE

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 MΩ and 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

Only for training and service purposes

- 3 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

SERVICING PRECAUTIONS

CAUTION: Before servicing receivers covered by this service
manual and its supplements and addenda, read and follow the

SAFETY PRECAUTIONS on page 3 of this publication.
NOTE: If unforeseen circumstances create conict between the

following servicing precautions and any of the safety precautions
on page 3 of this publication, always follow the safety precau­tions. Remember: Safety First.

General Servicing Precautions

1. Always unplug the receiver AC power cord from the AC power
source before;

a. Removing or reinstalling any component, circuit board

module or any other receiver assembly.

b. Disconnecting or reconnecting any receiver electrical plug

or other electrical connection.

c. Connecting a test substitute in parallel with an electrolytic

capacitor in the receiver.
CAUTION: A wrong part substitution or incorrect polarity
installation of electrolytic capacitors may result in an explo­sion hazard.

2. Test high voltage only by measuring it with an appropriate
high voltage meter or other voltage measuring device (DVM,
FETVOM, etc) equipped with a suitable high voltage probe.
Do not test high voltage by "drawing an arc".

3. Do not spray chemicals on or near this receiver or any of its
assemblies.

4. Unless specied otherwise in this service manual, clean

electrical contacts only by applying the following mixture to the
contacts with a pipe cleaner, cotton-tipped stick or comparable
non-abrasive applicator; 10 % (by volume) Acetone and 90 %
(by volume) isopropyl alcohol (90 % - 99 % strength)

CAUTION: This is a ammable mixture.
Unless specied otherwise in this service manual, lubrication

of contacts in not required.

5. Do not defeat any plug/socket B+ voltage interlocks with which
receivers covered by this service manual might be equipped.

6. Do not apply AC power to this instrument and/or any of its
electrical assemblies unless all solid-state device heat sinks
are correctly installed.

7. Always connect the test receiver ground lead to the receiver
chassis ground before connecting the test receiver positive
lead.
Always remove the test receiver ground lead last.

8. Use with this receiver only the test xtures specied in this

service manual.

CAUTION: Do not connect the test xture ground strap to any

heat sink in this receiver.

Electrostatically Sensitive (ES) Devices

Some semiconductor (solid-state) devices can be damaged eas­ily by static electricity. Such components commonly are called
Electrostatically Sensitive (ES) Devices. Examples of typical ES

devices are integrated circuits and some eld-effect transistors

and semiconductor “chip” components. The following techniques
should be used to help reduce the incidence of component dam­age caused by static by static electricity.

1. Immediately before handling any semiconductor component or
semiconductor-equipped assembly, drain off any electrostatic
charge on your body by touching a known earth ground. Alter­natively, obtain and wear a commercially available discharg­ing wrist strap device, which should be removed to prevent
potential shock reasons prior to applying power to the unit
under test.

2. After removing an electrical assembly equipped with ES
devices, place the assembly on a conductive surface such as
aluminum foil, to prevent electrostatic charge buildup or expo­sure of the assembly.

3. Use only a grounded-tip soldering iron to solder or unsolder
ES devices.

4. Use only an anti-static type solder removal device. Some sol-

der removal devices not classied as “anti-static” can generate
electrical charges sufcient to damage ES devices.

5. Do not use freon-propelled chemicals. These can generate

electrical charges sufcient to damage ES devices.

6. Do not remove a replacement ES device from its protective
package until immediately before you are ready to install it.
(Most replacement ES devices are packaged with leads elec­trically shorted together by conductive foam, aluminum foil or
comparable conductive material).

7. Immediately before removing the protective material from the
leads of a replacement ES device, touch the protective mate­rial to the chassis or circuit assembly into which the device will
be installed.
CAUTION: Be sure no power is applied to the chassis or cir­cuit, and observe all other safety precautions.

8. Minimize bodily motions when handling unpackaged replace­ment ES devices. (Otherwise harmless motion such as the
brushing together of your clothes fabric or the lifting of your

foot from a carpeted oor can generate static electricity suf­cient to damage an ES device.)

General Soldering Guidelines

1. Use a grounded-tip, low-wattage soldering iron and appropri­ate tip size and shape that will maintain tip temperature within
the range or 500 °F to 600 °F.

2. Use an appropriate gauge of RMA resin-core solder composed
of 60 parts tin/40 parts lead.

3. Keep the soldering iron tip clean and well tinned.

4. Thoroughly clean the surfaces to be soldered. Use a mall wire­bristle (0.5 inch, or 1.25 cm) brush with a metal handle.
Do not use freon-propelled spray-on cleaners.

5. Use the following unsoldering technique

a. Allow the soldering iron tip to reach normal temperature.

(500 °F to 600 °F)
b. Heat the component lead until the solder melts.
c. Quickly draw the melted solder with an anti-static, suction-

type solder removal device or with solder braid.

CAUTION: Work quickly to avoid overheating the circuit

board printed foil.

6. Use the following soldering technique.
a. Allow the soldering iron tip to reach a normal temperature

(500 °F to 600 °F)

b. First, hold the soldering iron tip and solder the strand

against the component lead until the solder melts.

c. Quickly move the soldering iron tip to the junction of the

component lead and the printed circuit foil, and hold it there
only until the solder ows onto and around both the compo­nent lead and the foil.
CAUTION: Work quickly to avoid overheating the circuit
board printed foil.

d. Closely inspect the solder area and remove any excess or

splashed solder with a small wire-bristle brush.

Only for training and service purposes

- 4 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

IC Remove/Replacement

Some chassis circuit boards have slotted holes (oblong) through
which the IC leads are inserted and then bent at against the cir­cuit foil. When holes are the slotted type, the following technique
should be used to remove and replace the IC. When working with
boards using the familiar round hole, use the standard technique
as outlined in paragraphs 5 and 6 above.

Removal

1. Desolder and straighten each IC lead in one operation by
gently prying up on the lead with the soldering iron tip as the
solder melts.

2. Draw away the melted solder with an anti-static suction-type
solder removal device (or with solder braid) before removing
the IC.

Replacement

1. Carefully insert the replacement IC in the circuit board.

2. Carefully bend each IC lead against the circuit foil pad and
solder it.

3. Clean the soldered areas with a small wire-bristle brush.
(It is not necessary to reapply acrylic coating to the areas).

"Small-Signal" Discrete Transistor
Removal/Replacement

1. Remove the defective transistor by clipping its leads as close
as possible to the component body.

2. Bend into a "U" shape the end of each of three leads remain­ing on the circuit board.

3. Bend into a "U" shape the replacement transistor leads.

4. Connect the replacement transistor leads to the corresponding
leads extending from the circuit board and crimp the "U" with
long nose pliers to insure metal to metal contact then solder
each connection.

Power Output, Transistor Device
Removal/Replacement

1. Heat and remove all solder from around the transistor leads.

2. Remove the heat sink mounting screw (if so equipped).

3. Carefully remove the transistor from the heat sink of the circuit
board.

4. Insert new transistor in the circuit board.

5. Solder each transistor lead, and clip off excess lead.

6. Replace heat sink.

Diode Removal/Replacement

1. Remove defective diode by clipping its leads as close as pos­sible to diode body.

2. Bend the two remaining leads perpendicular y to the circuit
board.

3. Observing diode polarity, wrap each lead of the new diode
around the corresponding lead on the circuit board.

4. Securely crimp each connection and solder it.

5. Inspect (on the circuit board copper side) the solder joints of
the two "original" leads. If they are not shiny, reheat them and
if necessary, apply additional solder.

3. Solder the connections.
CAUTION: Maintain original spacing between the replaced
component and adjacent components and the circuit board to
prevent excessive component temperatures.

Circuit Board Foil Repair

Excessive heat applied to the copper foil of any printed circuit
board will weaken the adhesive that bonds the foil to the circuit
board causing the foil to separate from or "lift-off" the board. The
following guidelines and procedures should be followed when­ever this condition is encountered.

At IC Connections

To repair a defective copper pattern at IC connections use the
following procedure to install a jumper wire on the copper pattern
side of the circuit board. (Use this technique only on IC connec­tions).

1. Carefully remove the damaged copper pattern with a sharp
knife. (Remove only as much copper as absolutely necessary).

2. carefully scratch away the solder resist and acrylic coating (if
used) from the end of the remaining copper pattern.

3. Bend a small "U" in one end of a small gauge jumper wire and
carefully crimp it around the IC pin. Solder the IC connection.

4. Route the jumper wire along the path of the out-away copper
pattern and let it overlap the previously scraped end of the
good copper pattern. Solder the overlapped area and clip off
any excess jumper wire.

At Other Connections

Use the following technique to repair the defective copper pattern
at connections other than IC Pins. This technique involves the
installation of a jumper wire on the component side of the circuit
board.

1. Remove the defective copper pattern with a sharp knife.
Remove at least 1/4 inch of copper, to ensure that a hazardous
condition will not exist if the jumper wire opens.

2. Trace along the copper pattern from both sides of the pattern
break and locate the nearest component that is directly con­nected to the affected copper pattern.

3. Connect insulated 20-gauge jumper wire from the lead of the
nearest component on one side of the pattern break to the
lead of the nearest component on the other side.
Carefully crimp and solder the connections.
CAUTION: Be sure the insulated jumper wire is dressed so the
it does not touch components or sharp edges.

Fuse and Conventional Resistor
Removal/Replacement

1. Clip each fuse or resistor lead at top of the circuit board hollow
stake.

2. Securely crimp the leads of replacement component around
notch at stake top.

Only for training and service purposes

- 5 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

SPECIFICATION

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

.

1. Application range

This specification is applied to the LED TV used LB4BZ
chassis.

2. Requirement for Test

Each part is tested as below without special appointment.

1) Operating Temperature : 0 °C to 40 °C

2) Operating Humidity : Less than 80%

3) Storage Temperature : -20 °C to 60 °C

4) Storage Humidity : Less than 85%

5) Power Voltage
: Standard input voltage (AC 100-240 V~, 50/60 Hz)
* Standard Voltage of each products is marked by models.

6) Specification and performance of each parts are followed

each drawing and specification by part number in
accordance with BOM.

7) The receiver must be operated for about5 minutes prior to

the adjustment

3. Test method

1) Performance: LGE TV test method followed

2) Demanded other specification

- Safety : CE, IEC specification

- EMC : CE, IEC

4. Model General Specification

No. Item Specication Remarks

1 Market Asia, Oceania, Africa, Middle East

1) PAL/SECAM-B/G/D/K

2 Broadcasting system

3 Channel Storage ATV - 135 EA, DTV - 1000 EA

4 Receiving system

5 Video(Composite) Input PAL, SECAM, NTSC 4 System : PAL, SECAM, NTSC, PAL60

6 Component Input(1EA) Y/Cb/Cr, Y/Pb/Pr

7 HDMI Input (3EA) HDMI1/2-DTV Support HDCP

8 SDPIF Out (1EA) SPDIF Out

9 Earphone Out(1EA) Antenna, AV,Component, HDMI1, HDMI2, RGB

10 USB (2EA) For My Media(Movie/Photo/Music List) and SVC JPEG, MP3, DivX HD

11 DVB DVB-T/T2

12 Ethernet (2EA) Ethernet connect

13 RS232C(1EA) Support Interactive mode

14 Ext. Speaker Out (1EA) Ext. Speaker out Stereo 1W / 8Ω, Fixed, Variable, Line Output

15 Ext.Volume Control(1EA) Ext. volume control

2) PAL-I

3) NTSC-M

4) DVB-T/T2

Analog : Upper Heterodyne
Digital : COFDM(DVB-T)

► DVB-T

- Guard Interval (Bitrate_Mbit/s): 1/4, 1/8, 1/16, 1/32

- Modulation : Code Rate
QPSK : 1/2, 2/3, 3/4, 5/6, 7/8
16-QAM : 1/2, 2/3, 3/4, 5/6, 7/8
64-QAM : 1/2, 2/3, 3/4, 5/6, 7/8

► DVB-T2

- Guard Interval (Bitrate_Mbit/s) : 1/4, 1/8, 1/16, 1/32,

1/128, 19/128, 19/256

- Modulation : Code Rate
QPSK : 1/2, 2/5, 2/3, 3/4, 5/6
16-QAM : 1/2, 2/5, 2/3, 3/4, 5/6
64-QAM : 1/2, 2/5, 2/3, 3/4, 5/6
256-QAM : 1/2, 2/5, 2/3, 3/4, 5/6

LAN / AUX LAN : Support 100Mbps/10Mbps
(10Mbps support under 10,000 byte packet size)

Only for training and service purposes

- 6 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

5. External Input Support Format

5.1. Component Video Input (Y, PB, PR)

No Resolution H-freq(kHz) V-freq(Hz) Proposed

1 720×480 15.73 60.00 SDTV, DVD 480i

2 720×480 15.63 59.94 SDTV, DVD 480i

3 720×480 31.47 59.94 480p

4 720×480 31.50 60.00 480p

5 720×576 15.625 50.00 SDTV, DVD 625 Line

6 720×576 31.25 50.00 HDTV 576p

7 1280×720 45.00 50.00 HDTV 720p

8 1280×720 44.96 59.94 HDTV 720p

9 1280×720 45.00 60.00 HDTV 720p

10 1920×1080 31.25 50.00 HDTV 1080i

11 1920×1080 33.75 60.00 HDTV 1080i

12 1920×1080 33.72 59.94 HDTV 1080i

13 1920×1080 56.250 50 HDTV 1080p

14 1920×1080 67.5 60 HDTV 1080p

Only for training and service purposes

- 7 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

5.2. HDMI Input

(1) DTV mode

No Resolution H-freq(kHz) V-freq(Hz) Proposed

1 640*480 31.469 59.94 SDTV 480P

2 648*480 31.5 60.00 SDTV 480P

3 720*480 31.47 59.94 SDTV 480P

4 720*480 31.5 60 SDTV 480P

5 720*576 31.25 50 SDTV 576P

6 1280*720 44.96 59.94 HDTV 720P

7 1280*720 45 60 HDTV 720P

8 1280*720 37.5 50 HDTV 720P

9 1920*1080 28.125 50 HDTV 1080I

10 1920*1080 33.72 59.94 HDTV 1080I

11 1920*1080 33.75 60.00 HDTV 1080I

12 1920*1080 26.97 23.976 HDTV 1080P

13 1920*1080 27.00 24.000 HDTV 1080P

14 1920*1080 33.71 29.97 HDTV 1080P

15 1920*1080 33.75 30.00 HDTV 1080P

16 1920*1080 56.25 50.00 HDTV 1080P

17 1920*1080 67.432 59.94 HDTV 1080P

18 1920*1080 67.5 60.00 HDTV 1080P

(2) PC mode

No Resolution H-freq(kHz) V-freq(Hz) Proposed Remarks

1 640 x 350 @70Hz 31.468 70.09 EGA

2 720 x 400 @70Hz 31.469 70.08 DOS

3 640 x 480 @60Hz 31.469 59.94 VESA(VGA)

4 800 x 600 @60Hz 37.879 60.31 VESA(SVGA)

5 1024 x 768 @60Hz 48.363 60.00 VESA(XGA)

6 1152 x 864 @60Hz 54.348 60.053 VESA

7 1280 x 1024 @60Hz 63.981 60.020 VESA(SXGA) FHD only

8 1360 x 768 @60Hz 47.712 60.015 VESA(WXGA)

9 1920 x 1080 @60Hz 67.5 60.00 WUXGA(CEA 861D) FHD only

Only for training and service purposes

- 8 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

ADJUSTMENT INSTRUCTION

1. Application Range

This specification sheet is applied to all of the LED TV with
LB4BZ chassis.

2. Designation

(1) Because this is not a hot chassis, it is not necessary to

use an isolation transformer. However, the use of isolation

transformer will help protect test instrument.
(2) Adjustment must be done in the correct order.
(3) The adjustment must be performed in the circumstance of

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

humidity if there is no specific designation.
(4) The input voltage of the receiver must keep AC 100-240

V~, 50/60 Hz.
(5) The receiver must be operated for about 5 minutes prior to

the adjustment when module is in the circumstance of over

15.

In case of keeping module is in the circumstance of 0 °C, it
should be placed in the circumstance of above 15 °C for 2
hours.

In case of keeping module is in the circumstance of below

-20 °C, it should be placed in the circumstance of above 15
°C for 3 hours.

[Caution]
When still image is displayed for a period of 20 minutes or
longer (Especially where W/B scale is strong. Digital pattern
13ch and/or Cross hatch pattern 09ch), there can some
afterimage in the black level area.

3.2. LAN Inspection

3.2.1. Equipment & Condition

▪ Each other connection to LAN Port of IP Hub and Jig

3.2.2. LAN inspection solution

▪ LAN Port connection with PCB
▪ Setting automatic IP

▪ If you want manual connection, enter Network connection at

MENU Mode of TV. Press Start connection key, then
Network will be connected.

3. Automatic Adjustment

3.1. MAC address D/L , CI+ key D/L, Widevine
key D/L, ESN D/L, HDCP14/20 D/L

Connect: USB port
Communication Prot connection

▪ Com 1,2,3,4 and 115200(Baudrate)

Mode check: Online Only

▪ Check the test process:

DETECT -> MAC -> ESN(Must download commercial-only
ESN KEY) -> -> Widevine -> CI -> HDCP14 -> HDCP20

▪ Play : Press Enter key
▪ Result : Ready, Test, OK or NG
▪ Printer Out (MAC Address Label)

3.2.3. WIDEVINE key Inspection

- Confirm key input data at the "IN START" MENU Mode.

Only for training and service purposes

- 9 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

3.3. LAN PORT INSPECTION(PING TEST)

Connect SET → LAN port == PC → LAN Port

SET PC

3.3.1. Equipment setting

(1) Play the LAN Port Test PROGRAM.
(2) Input IP set up for an inspection to Test Program.

*IP Number : 12.12.2.2

3.3.2. LAN PORT inspection(PING TEST)

(1) Play the LAN Port Test Program.
(2) Connect each other LAN Port Jack.
(3) Play Test (F9) button and confirm OK Message.
(4) Remove LAN cable.

3.4. Model name & Serial number Download

3.4.1. Model name & Serial number D/L

▪ Press "P-ONLY" key of service remote control.

(Baud rate : 115200 bps)

▪ Connect RS-232C Signal to USB Cable to USB.
▪ Write Serial number by use USB port.
▪ Must check the serial number at Instart menu.

3.5. WIFI MAC ADDRESS CHECK

(1) Using RS232 Command

H-freq(kHz) V-freq.(Hz)

Transmission [A][I][][Set ID][][20][Cr] [O][K][X] or [NG]

(2) Check the menu on in-start

3.6. HDCP CHECKW

(1) HDCP 1.4/2.0 KEY Download
(2) In-start -> Check the HDCP1.4, HDCP2.0 LIST(OK or NG)

4. Manual Adjustment

* ADC adjustment is not needed because of OTP(Auto ADC

adjustment)

4.1. EDID DATA

4.1.1. 2D EDID

3.4.2. Method & notice

(1) Serial number D/L is using of scan equipment.
(2) Setting of scan equipment operated by Manufacturing

Technology Group.

(3) Serial number D/L must be conformed when it is produced

in production line, because serial number D/L is mandatory
by D-book 4.0.

* Manual Download (Model Name and Serial Number)

If the TV set is downloaded by OTA or service man, sometimes
model name or serial number is initialized.(Not always)
It is impossible to download by bar code scan, so It need
Manual download.

1) Press the "Instart" key of Adjustment remote control.

2) Go to the menu "7.Model Number D/L" like below photo.

3) Input the Factory model name(ex 42LY960H-TA) or Serial
number like photo.

4) Check the model name Instart menu. → Factory name

displayed. (ex 42LY960H-TA)

5) Check the Diagnostics.(DTV country only) → Buyer

model displayed. (ex 42LY960H-TA)

▪ Reference

- HDMI1 ~ HDMI2

- In the data of EDID, bellows may be different by S/W or
Input mode.

ⓐ Product ID

HEX EDID Table DDC Function

0001 0100 Analog

0001 0100 Digital

ⓑ Serial No: Controlled on production line.
ⓒ Month, Year: Controlled on production line:

ex) Monthly : ‘01’ → ‘01’

Year : ‘2014’ → ‘18’

ⓓ Model Name(Hex): LGTV

Chassis MODEL NAME(HEX)

LB4BZ 00 00 00 FC 00 4C 47 20 54 56 0A 20 20 20 20 20 20 20

Only for training and service purposes

- 10 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

ⓔ Checksum(LG TV): Changeable by total EDID data.

ⓔ1

HDMI1 E7 CC

HDMI2 E7 BC

HDMI3 E7 AC

ⓔ2

8bit/none XvYcc

ⓕ Vendor Specific(HDMI)

1) None deep color (module 8bit)

INPUT MODEL NAME(HEX)

HDMI1 67 03 0C 00 10 00 80 1E

HDMI2 67 03 0C 00 20 00 80 1E

4.2. White Balance Adjustment

4.2.1. Overview

▪ W/B adj. Objective & How-it-works

(1) Objective: To reduce each Panel's W/B deviation
(2) How-it-works : When R/G/B gain in the OSD is at 192, it

means the panel is at its Full Dynamic Range. In order to
prevent saturation of Full Dynamic range and data, one
of R/G/B is fixed at 192, and the other two is lowered to
find the desired value.

(3) Adjustment condition : normal temperature

1) Surrounding Temperature: 25 °C ± 5 °C

2) Surrounding Humidity: 20% ~ 80%

3) Before White balance adjustment, Keep power on
status, don’t power off

4.2.2. Adj. condition and cautionary items

(1) Lighting condition in surrounding area surrounding lighting

should be lower 10 lux., Try to isolate adj. area into dark
surrounding

(2) Probe location: Color Analyzer (CA-210) probe should be

within 10 cm and perpendicular of the module surface
(80°~ 100°)

(3) Aging time

1) After Aging Start, Keep the Power ON status during 5
Minutes.

2) In case of LCD, Back-light on should be checked using
no signal or Full-white pattern.

4.2.3. Equipment

(1) Color Analyzer: CA-210 (LED Module : CH 14)
(2) Adjustment Computer(During auto adj., RS-232C protocol

is needed)
(3) Adjustment Remote control
(4) Video Signal Generator MSPG-925F 720p/204-Gray

(Model: 217, Pattern: 49)

→ Only when internal pattern is not available

▪ Color Analyzer Matrix should be calibrated using CS-1000.

4.2.4. Equipment connection MAP

Color Analyzer

Probe

RS- 232C

Pattern Generator

Signal Source

* If TV internal pattern is used, not needed

RS-232C

Computer

RS-232C

4.2.5. Adj. Command (Protocol)

<Command Format>

START 6E A 50 A LEN A 03 A CMD A 00 A VAL A CS STOP

- LEN: Number of Data Byte to be sent

- CMD: Command

- VAL: FOS Data value

- CS: Checksum of sent data

- A: Acknowledge
Ex) [Send: JA_00_DD] / [Ack: A_00_okDDX]

▪ RS-232C Command used during auto-adjustment.

RS-232C COMMAND

[CMD ID DATA]

wb 00 00 Begin White Balance adjustment

wb 00 10 Gain adjustment(internal white pattern)

wb 00 1f Gain adjustment completed

wb 00 20 Offset adjustment(internal white pattern)

wb 00 2f Offset adjustment completed

wb 00 ff

End White Balance adjustment
(internal pattern disappears )

Ex) wb 00 00 -> Begin white balance auto-adj.

wb 00 10 -> Gain adj.
ja 00 ff -> Adj. data
jb 00 c0
...
...

wb 00 1f → Gain adj. completed
*(wb 00 20(Start), wb 00 2f(end)) → Off-set adj.
wb 00 ff → End white balance auto-adj.

▪ Adj. Map

Command

(lower caseASCII)
CMD1 CMD2 MIN MAX

Cool

Medium

Warm

Adj. item

R Gain j g 00 C0
G Gain j h 00 C0
B Gain j i 00 C0
R Cut
G Cut
B Cut
R Gain j a 00 C0
G Gain j b 00 C0
B Gain j c 00 C0
R Cut
G Cut
B Cut
R Gain j d 00 C0
G Gain j e 00 C0
B Gain j f 00 C0
R Cut

G Cut

Explanation

Data Range

(Hex.)

Default

(Decimal)

Only for training and service purposes

- 11 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

4.2.6. Adj. method

(1) Auto adj. method

1) Set TV in adj. mode using P-ONLY key(or POWER ON
key).

2) Place optical probe on the center of the display

- It need to check probe condition of zero calibration

before adjustment.

3) Connect RS-232C Cable.

4) Select mode in ADJ Program and begin adjustment.

5) When WB adjustment is completed with OK message,
check adjustment status of pre-set mode(Cool, Medium,
Warm).

6) Remove probe and RS-232C.

▪ W/B Adj. must begin as start command “wb 00 00” , and

finish as end command “wb 00 ff”, and Adj. offset if need.

(2) Manual adjustment. method

1) Set TV in Adj. mode using POWER ON.

2) Zero Calibrate the probe of Color Analyzer, then place it
on the center of LCD module within 10 cm of the surface.

3) Press ADJ key → EZ adjust using adj. R/C → 11. White­Balance then press the cursor to the right(key ►).

(When right key(►) is pressed 204 Gray internal pattern

will be displayed)

4) Adjust Cool modes

- Fix the one of R/G/B gain to 192 (default data) and
decrease the others. (If G gain is adjusted over 172
and R and B gain less than 192 , Adjust is O.K.)

- If G gain is less than 172, Increase G gain by up to
172, and then increase R gain and G gain same
amount of increasing G gain.

- If R gain or B gain is over 255, Readjust G gain less
than 172, Conform to R gain is 255 or B gain is 255

5) Adjust two modes(Medium / Warm) Fix the one of R/G/B
gain to 192(default data) and decrease the others.

6) Adj. is completed, Exit adjust mode using “EXIT” key on
Remote control.

▪ Adjustment condition and cautionary items

1) Lighting condition in surrounding area
Surrounding lighting should be lower 10 lux. Try to isolate
adj. area into dark surrounding.

2) Probe location
: Color Analyzer(CA-210) probe should be within 10 cm and

perpendicular of the module surface (80° ~ 100°)

4.2.7. Reference (White balance Adj. coordinate and
color temperature)

▪ Luminance : 204 Gray
▪ Standard color coordinate and temperature using CS-1000

(over 26 inch)

Mode

Cool 0.271 0.270 13,000 K 0.0000

Medium 0.286 0.289 9,300 K 0.0000

Warm 0.313 0.329 6,500 K 0.0000

Coordinate

x y

Temp ∆uv

▪ Standard color coordinate and temperature using CA-210

(CH 14)

Mode

Coordinate

x y

Temp ∆uv

Cool 0.271 ± 0.002 0.270 ± 0.002 13,000 K 0.0000

Medium 0.286 ± 0.002 0.289 ± 0.002 9,300 K 0.0000

Warm 0.313 ± 0.002 0.329 ± 0.002 6,500 K 0.0000

4.2.8. LED White balance table

▪ Edge LED module change color coordinate because of

aging time

▪ apply under the color coordinate table, for compensated

aging time
Only march to December.
(normal line) LGD Module

Aging

time(Min)

MTK

Target 271 270 286 289 313 329
1 0-2 282 289 297 308 324 348
2 3-5 281 287 296 306 323 346
3 6-9 279 284 294 303 321 343
4 10-19 277 280 292 299 319 339
5 20-35 275 277 290 296 317 336
6 36-49 274 274 289 293 316 333
7 50-79 273 272 288 291 315 331
8 80-119 272 271 287 290 314 330
9 Over 120 271 270 286 289 313 329

Only January to Febuary.
(normal line) LGD Module

Aging

time(Min)

MTK

Target 271 270 286 289 313 329
1 0-5 286 295 301 314 328 354
2 6-10 284 290 299 309 326 349
3 11-20 282 287 297 306 324 346
4 21-30 279 283 294 302 321 342
5 31-40 276 278 291 297 318 337
6 41-50 274 275 289 294 316 334
7 51-80 273 272 288 291 315 331
8 81-119 272 271 287 290 314 330
9 Over 120 271 270 286 289 313 329

** O/S Module(INX, AUO, Sharp, CSOT, BOE)
(Cool Mode Spec : 13000 K)

Cool Medium Warm

x y x y x y

spec 271 270 286 289 313 329

target 278 280 293 299 320 339

Cool Medium Warm

X y x y x y

Cool Medium Warm

X y x y x y

Only for training and service purposes

- 12 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

4.3. Magic Motion remote controller Check

- Results are automatically marked in Instart OSD after
through the AP/Magic Remocontrol Equipment on the line

4.4. HDMI ARC Function Inspection

4.4.1. Test equipment

- Optic Receiver Speaker

- MSHG-600 (SW: 1220 ↑)

- HDMI Cable (for 1.4 version)

4.4.2. Test method

(1) Insert the HDMI Cable to the HDMI ARC port from the

master equipment(HDMI1).

4.5.HDMI MHL Function Inspection

(1) Test method

1) Insert the HDMI Cable to the HDMI MHL port from the
master equipment, HDMI3.

2) Check the Green LED of Tester, and TV Display.

MHL Function Tester(OK) MHL Function Tester(NG)

4.6. EYE-Q Green Function Inspection

Step 1) Turn on the TV.
Step 2) Press 'EYE button' on the adjustment remote-control.
Step 3) Cover 'Eye Q sensor' on the front of set with your

hands, hold it for 6 seconds.

Step 4) Check "the Sensor Data" on the screen, make certain

that Data is below 10. If Data isn’t below 10 in 6
seconds, Eye Q sensor would be bad. You should
change Eye Q sensor.

Step 5) Uncover your hands from Eye Q sensor, hold it for 6

seconds.

Step 6) Check "Back Light (xxx)" on the screen, check data

increase . You should change Eye Q sensor.

(2) Check the sound from the TV Set.

(3) Check the Sound from the Speaker or using AV & Optic

TEST program. (It’s connected to MSHG-600)

* Remark: Inspect in Power Only Mode and check SW version

in a master equipment

Only for training and service purposes

- 13 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

4.7. Wi-Fi Test

Commercial TV is network setting menu in Installer Menu
(Hotel Mode)
Step 1) Turn on TV
Step 2) Select Wi-Fi Connection option in Network Menu.

Step 3) Click Off Button to On in Wi-Fi Connection.

Step 4) The system finds any AP like blow PIC. well.

5. Tool option selection and Ship-out
mode and GND/Hi-pot check

5.1. Tool Option selection

▪ Method: Press Adj. key on the Adj. R/C, then select Tool

option.

5.2. Ship-out mode check (In-stop)

▪ After final inspection, press In-Stop key of the Adj. R/C and

check that the unit goes to Stand-by mode.

5.3. GND and Hi-pot auto-check

5.3.1. Method

(1) GND & Hi-pot auto-check preparation

- Check that Power Cord is fully inserted to the SET. (If
loose, re-insert)

(2) Perform GND & Hi-pot auto-check

- Unit fully inserted Power cord, Antenna cable and A/V
arrive to the auto-check process.

- Connect D-terminal to AV JACK TESTER

- Auto CONTROLLER(GWS103-4) ON

- Perform GND TEST

- If NG, Buzzer will sound to inform the operator.

- If OK, changeover to I/P check automatically.

(Remove CORD, A/V form AV JACK BOX)

- Perform I/P test

- If NG, Buzzer will sound to inform the operator.

- If OK, Good lamp will lit up and the stopper will allow the
pallet to move on to next process.

Step 5) Select the AP you want to connect.

5.3.2. Checkpoint

▪ TEST voltage

- GND: 1.5 KV / min at 100 mA

- SIGNAL: 3 KV / min at 100 mA

▪ TEST time: 1 second
▪ TEST POINT

- GND TEST = POWER CORD GND & SIGNAL CABLE

METAL GND

- Hi-pot TEST = POWER CORD GND & LIVE & NEUTRAL

▪ LEAKAGE CURRENT: At 0.5 mArms

6. Audio

No. Item Min Typ Max Unit Remark

Audio practical
max Output, L/R

1.

(Distortion=10%

max Output)

Speaker (8 Ω

2.
Impedance)

Measurement condition:

1. RF input: Mono, 1KHz sine wave signal, 100% Modulation

2. CVBS, Component: 1KHz sine wave signal 0.5Vrms

9 10 12 W

8.10 10.8 Vrms

9 10 12 W

EQ Off
AVL Off
Clear Voice Off

Only for training and service purposes

- 14 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

7. Check Commercial features

7.1. External SPK Out

7.1.1. Equipment & Condition

▪ Jig (Speaker out JIG) or Oscilloscope

7.1.2. Check the speaker out

(1) Connect external speaker to speaker out port with phone

jack on TV side as below.

(2) Check the Max. speaker output is 1W or not. Sine wave

with 1KHz will be displayed.

(3) Press Vol. control button up/down in turns and check the

waveform of Oscilloscope.

Button of Vol. control Waveform of Oscilloscope

UP(+)

DOWN(-)

7.2.2. DC Power Outlet Equipment & Condition

▪ Simple Jig (commercial check JIG)

#1

(1) Connect JIG for inspection to RS-232C port on TV as

below.

(2) Enter the Configuration Setup mode in pressing Remote

control keys.

The method to enter Configuration Setup mode :

IN-START → MENU → Configuration Setup → OK

1) Select 5 V DC Power Outlet and change the setting : No

→ Yes. After that, check LED color in JIG.(LED #1)

2) After checking 5 V DC Power Outlet, change the setting

: Yes → No.

3) Please check 12 V DC Power Outlet in the same

procedure.

7.2.3. Pro:Idiom Check

(1) Connect the RF Cable
(2) Turn to the Pro:Idiom channel (No. 333)

(3) Check the video & sound

** Only displayed at “POWER ONLY” mode

7.2. IR Out and DC Power Outlet (5V/12V)

7.2.1. Equipment & Condition

▪ Simple Jig (commercial check JIG)
▪ Power only mode

#1

(1) Connect each other RS232C port on the Commercial

Check JIG.
(2) Press any key on SVC Remote-control.
(3) Check the LED status of the Check JIG.

- IR LED(OK condition: blinking) (LED #1)

Only for training and service purposes

- 15 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

TROUBLE SHOOTING GUIDE

1. Power-Up Boot Fail Trouble Shooting guide

Check P2301 All

Voltage Level (3.5V, 12V, 24V)

Y

Check Q2302 output Voltage(12V)

Y

Check LVDS Cable

Y

Check LCD Module

Control board

N

N

N

Check power connector and

RL_ON signal OK ?

Check Q2302 application circuit

Or replace Q2302

Replace Cable

2. No OSD Trouble Shooting guide

Check P2301 All

Voltage Level (3.5V, 12V, 24V)

Y

Check IC8700 RESET pin

N

N

Check power connector and

RL_ON signal OK ?

Check switch SW8700,

N

Replace Power Board

Y

N

Replace Power Board

Y

Check X8701 Clock

10MHz

Y

Check IC8700 IIC

Communication status

Y

Check IR inpu t state of IC8700

13pin

Y

Re-download NEC Micom

N

Check X8701 application circuit

or Replace X8701

N

Check IIC line or replace IC8700

N

Check IR board

Only for training and service purposes

- 16 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

3. Analog RF Video Trouble Shooting guide

First of all, Check whether all of cables between board is inserted properly or not.

(Main B/D↔ Power B/D, LVDS Cable, Speaker Cable, IR B/D Cable,,,)

Check RF Cable

Connection

Y

Check tuner 3.3V power L6701

Y

Check tuner 1.2V power IC6701

6pin : 1.2V

Y

Check LG1311 LV DS output Replace IC101

N

Reconnection

N

N

N

Check IC2300

Replace IC6701

4. Digital RF Trouble Shooting guide

Check RF cable & sign al

Y

Check tuner 3.3V power L6701

N

Check IC2300

N

Replace IC2300

Y

N

Replace IC2300

Y

Check IIC Signal
TU6702 Pin#3,4

Y

Check IF Signal

TU6702 Pin#6,7

Y

Check X101

and application circuit

Replace IC101

N

N

N

Replace TU6702

Replace TU6702

Replace X101

Only for training and service purposes

- 17 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

5. AV Video Trouble Shooting guide

Check input signal format.
Is it supported?

Y

Check AC cable for damage
For damage or open conductor

Y

Check JK4600
Can you see the normal waveform?

Y

Check the input of LG1311(IC101).
Measure waveform at C326 because it’s more easy to check.
Can you see the normal waveform?

Y

This board has big problem because Main chip (LG1311, IC101) have some troubles.
After checking thoroughly all path on ce again, You should decide to replace Main IC or not.

N

Replace JK4600

Only for training and service purposes

- 18 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

6. HDMI Video Trouble Shooting guide

Check input signal format.
Is it supported?

Y

Check AC cable for damage
For damage or open conductor

Y

Check JK3201/JK3202/JK3203
Can you see the normal waveform?

Y

Check HDCP key on INSTART Menu

Y

Check the input of LG1311 (IC101).
Measure waveform at AR3200, AR3201, AR3202 because it’s more easy to ch eck.
Can you see the normal waveform?

Y

This board has big problem because Main chip(LG1311, IC101) have some trou bles.
After checking thoroughly all path once again, You sh ould decide to replace Main IC or not.

N

Replace JK3201/JK3202, JK3203

N

Re-download HDCP Key

7. Analog RF Audio Trouble Shooting guide

Check RF cable & sign al

N

Check TU6401 Pin 6, 7

Y

Check Audio AMP ou tput

L5602,L5603,L5604,L5605

Y

Check IC5600

Y

Replace IC101

Only for training and service purposes

N

Replace L5602,L5603,L5604,L5605

N

Replace Tuner

Replace IC5600

- 19 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

8. AV Audio in Trouble Shooting guide

Check input signal format.
Is it supported?

Y

Check AC cable for damage
For damage or open conductor

Y

Check JK4600
Can you see the normal waveform?

Y

Check the input of LG1311(IC101).
Measure waveform at C314, C315 because it’s more easy to ch eck.
Can you see the normal waveform?

Y

Check Audio AMP ou tput

L5602,L5603,L5604,L5605

Y

This board has big problem because Main chip (LG1311, IC101) have some troubles.
After checking thoroughly all path on ce again, You should decide to replace Main IC or not.

N

N

Replace L5602,L5603,L5604,L5605

Replace JK4600

9. HDMI Audio in Trouble Shooting guide

Check input signal format.
Is it supported?

Y

Check AC cable for damage
For damage or open conductor

Y

N

N

Replace

Replace JK3201/JK3202/JK3203

L5602,L5603,L5604,L5605

Check JK3201/JK3202/JK3203
Can you see the normal waveform?

Y

Check Audio AMP ou tput

L5602,L5603,L5604,L5605

Y

This board has big problem because Main chip (LG1311, IC101) have some troubles.
After checking thoroughly all path on ce again, You should decide to replace Main IC or not.

Only for training and service purposes

- 20 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

BLOCK DIAGRAM

DDR3 1600 X 16

X_TAL

(256MB X 2EA)

24MHz

(1Mb)

(128MB X 2EA)

DDR3 1600 X 16

Analog Demo d

SYSTEM EEPROM

I2C 5

AB

RF1 PARALLEL IN

RS232

Ext. VOL Ctrl.

UART S/W

MICOM

(Tx/Rx)

(Tx/Rx)

UART

IP2 SERIAL IN

RF3 PARALLEL IN

ETHERNET

RF2 PARALLEL OUT

IP1 SERIAL OUT

ASSY

CVBS/RGB

Debug /

IR/Key/Eye

GPIO

SPDIF OUT

SUB

(8GB)

eMMC FLASH

EPI

LVDS

M14

IC101

USB

MUX

HDMI

Audio AMP

WIFI_BT

I2C 1

I2S Out

USB_WIFI-BT

AUDA OUT L/R

<DVB-S2/T2/C Full NIM>

wv
{

IF (+/-)

Parallal_TS

USB1

USB2

Tuner : I2C 6 (ATV)

D-Demod : I2C 4 (DTV)

SIDE

ARC

Ext. SPK

(MHL / IR_OUT)

HDMI2

HDMI3

HDMI1

SIDE

REAR

Ext. SPK L/R

AMP

AMP

Headphone

H/P (Line Out)

PHY

Chip

OPTIC

SCART

AV(Non EU)

HUB IC

Ethernet

Magic WOL

LAN

AUX

LAN

CI Slot

RealtekWOL

{ zz

Pro:idiom

S/W 1

S/W 2

MICOM

REAR

Only for training and service purposes

- 21 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

400

410

EXPLODED VIEW

IMPORTANT SAFETY NOTICE

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.

900

570

521

500

540

310

501

120

530

LV1

820

121

A10

Set + Stand

A2

200

Only for training and service purposes

- 22 -

LGE Internal Use OnlyCopyright © LG Electronics. Inc. All rights reserved.

System Configuration

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

Clock for M14

MAIN Clock(24Mhz)

LOADCAP_ATSC_PCB

C101 10pF

C102 10pF

LOADCAP_ATSC_PCB

System Clock for Analog block(24Mhz)

SoC & DDR Speed

PLL SET[1:0] : internal pull up
"00" : CPU(1200Mhz),M0 / M1 DDR(792,792 Mhz)
"01" : CPU(1056Mhz),M0 / M1 DDR(672,672 Mhz)
"10" : CPU(1056Mhz),M0 / M1 DDR(792,792 Mhz)
"11" : CPU( 960Mhz),M0 / M1 DDR(792,792 Mhz)

OP MODE[1:0]
"00" : Normal Mode
"01/10/11" : Internal Test mode

+3.3V_NORMAL

OPT

R101 3.3K

R102 3.3K

OPT

Extenal test only

+3.3V_NORMAL

INSTANT boot MODE
"1 : Instant boot
"0 : normal

3.3K

OPT

R121

(internal pull down)

INSTANT_MODE0

+3.3V_TUNER

R146

3.3K

KR_PIP_NOT

1.5K

KR_PIP

R146-*1

X-TAL_1

GND_1

1

2

X101

24MHz

3

4
GND_2

X-TAL_2

Extenal test only

OPT

R103 3.3K

R104 3.3K

OPT

OPM1

OPM0

INSTANT_BOOT

+3.3V_NORMAL

R148

3.3K

R149

3.3K

KR_PIP_NOT

1.5K

KR_PIP

R148-*1

PLLSET1

PLLSET0

+3.3V_TUNER

R150

3.3K

1M

R118

R180
560

LOADCAP_DVB_PCB

+3.3V_NORMAL

OPT

R127

R128

BOOT_MODE0

R155

1.2K

KR_PIP_NOT

3.3K

KR_PIP

R155-*1

XTAL_IN

XTAL_OUT

LOADCAP_DVB_PCB

C101-*1

6.8pF
50V

BOOT MODE
"0 : EMMC
"1 : TEST MODE

3.3K


BOOT_MODE

3.3K

+3.3V_NORMAL

R157

R156

KR_PIP_NOT

3.3K

KR_PIP

R156-*1

3.3K

1.2K

C102-*1

6.8pF
50V

I2C PULL UP

R159

3.3K

R158

3.3K

R160

3.3K

NVRAM

+3.5V_ST

IC104

M24M01-HRMN6TP

NC

1

E1

2

E2

3

VSS

4

R109

0

OPT

R111

0

NEW_EE

R110

4.7K
OLD_EE

NVRAM I2C SWITCH

EEPROM_SW

CONNECTION
L B0 - A
H

SCL_NVRAM

I2C

I2C_1 : AMP
I2C_2 : T-CON,L/DIMING,EYE SENSOR
I2C_3 : Pro:Idiom
I2C_4 : S/Demod,T2/Demod, LNB
I2C_5 : NVRAM
I2C_6 : TUNER_MOPLL(T/C,ATV)

R161

3.3K

R162

3.3K

I2C_SDA1
I2C_SCL1
I2C_SDA3
I2C_SCL3
I2C_SDA2
I2C_SCL2

I2C_SDA4
I2C_SCL4

I2C_SDA5
I2C_SCL5

I2C_SDA6
I2C_SCL6

A0

EEPROM_SW

VCC

8

WP

7

SCL

6

SDA

5

+3.5V_ST

+3.5V_ST

C107

0.1uF
16V

NVRAM - NEC
NVRAM - M14B1 - A

Write Protection

- Low : Normal Operation

- High : Write Protection

R112 33

R113 33

C103

0.1uF

C104

0.1uF

SELECT

VCC

SELECT

VCC

SCL_NVRAM

SDA_NVRAM

IC105

NLASB3157DFT2G

6

ON SEMICONDUCTOR

ANALOG SWITCH
5

A

4

EAN38256201

IC106

NLASB3157DFT2G

6

ON SEMICONDUCTOR

ANALOG SWITCH
5

A

4

EAN38256201

PAGE 1

IC101

+3.3V_NORMAL

R123
10K

SOC_RESET

OPT

C108

0.1uF
16V

L/DIM0_VS

L/DIM0_SCLK

L/DIM0_MOSI

FORCED_JTAG_0

B1

1

GND

2

B0

3

B1

1

GND

2

B0

3

+3.5V_ST

+3.5V_ST

R114

2.7K

R115

2.7K

I2C_SCL5

NEC_EEPROM_SCL

I2C_SDA5

NEC_EEPROM_SDASDA_NVRAM

M_REMOTE_RX
M_REMOTE_TX

PWM_DIM2

PWM_DIM

EMMC_CLK
EMMC_CMD
EMMC_RST

I2C_SCL3
I2C_SDA3

I2C_SCL4
I2C_SDA4

I2C_SCL6
I2C_SDA6

TCK0
TDI0

XTAL_IN

XTAL_OUT

BOOT_MODE

PLLSET0
PLLSET1

TRST_N1

R182 10K
R183 10K
R184 10K
R185 10K

R107
R108

OPM0
OPM1

TMS1
TCK1
TDO1
TDI1

OPT

SOC_RX
SOC_TX

I2C_SCL1
I2C_SDA1

I2C_SCL2
I2C_SDA2

I2C_SCL5
I2C_SDA5

33
33

EMMC_DATA[7]
EMMC_DATA[6]
EMMC_DATA[5]
EMMC_DATA[4]
EMMC_DATA[3]
EMMC_DATA[2]
EMMC_DATA[1]
EMMC_DATA[0]

R169

R178 33

33

33

R179
10K

1/16W
5%

AR101

AG21

AJ18

AG30
AG28
AG29
AH29
AJ27
AH27
AG26
AH26

AJ12
AJ13
AH12
AG12

AH23
AG22

AH11
AG11

AG10

AH22
AJ22
AH10
AJ10
AG23
AH24

B23
A23

AB8
AC8

AD8
AE8

Y7
Y6
W7
W6
W5

AH7
AJ7

AG8
AH8

AH9
AG9

AJ9

AC6
AC7
AD7
AB7

G32
G33
G31
D31
F33
F32
E32
F31
D33
D32
E31

EMMC_DATA[0-7]

Jtag-0 I/F

+3.3V_NORMAL

P103

12505WS-10A00

JTAG_CPU

1

2

3

4

5

6

7

8

9

10

11

LG1311

XIN_MAIN
XO_MAIN

PORES_N

BOOT_MODE

PLLSET0
PLLSET1

OPM0
OPM1

L_VSOUT_LD/TRST0_N
DIM0_SCLK/TMS0
DIM1_SCLK/TCK0
DIM1_MOSI/TDI0
DIM0_MOSI/TDO0

SPI_CS0
SPI_SCLK0
SPI_DO0
SPI_DI0/TRST1_N
SPI_CS1/TMS1
SPI_SCLK1/TCK1
SPI_DO1/TDO1
SPI_DI1/TDI1

EXT_INTR0
EXT_INTR1
EXT_INTR2
EXT_INTR3

UART0_RXD
UART0_TXD
UART1_RXD
UART1_TXD

UART1_RTS_N
UART1_CTS_N

SCL0
SDA0
SCL1
SDA1
SCL2
SDA2
SCL3
SDA3
SCL4
SDA4
SCL5
SDA5

PWM0
PWM1
PWM2
PWM_IN

EMMC_CLK
EMMC_CMD
EMMC_RESETN
EMMC_DATA7
EMMC_DATA6
EMMC_DATA5
EMMC_DATA4
EMMC_DATA3
EMMC_DATA2
EMMC_DATA1
EMMC_DATA0

USB2_0_DP0
USB2_0_DM0

USB2_0_TXRTUNE

USB2_1_DP0
USB2_1_DM0

USB2_1_TXRTUNE

USB3_DP0

USB3_DM0
USB3_TXP0
USB3_TXM0
USB3_RXP0
USB3_RXM0

USB3_RESREF0

USB3_DP1

USB3_DM1
USB3_TXP1
USB3_TXM1
USB3_RXP1
USB3_RXM1

USB3_RESREF1

HUB_PORT_OVER0
HUB_VBUS_CTRL0

EB_CS3
EB_CS2
EB_CS1
EB_CS0

EB_WE_N
EB_OE_N

EB_WAIT
EB_BE_N1
EB_BE_N0

CAM_CD1_N
CAM_CD2_N
CAM_CE1_N
CAM_CE2_N

CAM_IREQ_N

CAM_RESET

CAM_INPACK_N

CAM_VCCEN_N

CAM_WAIT_N

CAM_REG_N

EB_ADDR0
EB_ADDR1
EB_ADDR2
EB_ADDR3
EB_ADDR4
EB_ADDR5
EB_ADDR6
EB_ADDR7
EB_ADDR8
EB_ADDR9

EB_ADDR10
EB_ADDR11
EB_ADDR12
EB_ADDR13
EB_ADDR14
EB_ADDR15

EB_DATA0
EB_DATA1
EB_DATA2
EB_DATA3
EB_DATA4
EB_DATA5
EB_DATA6
EB_DATA7

L/DIM0_VS

(TRST0_N)

TDI0

L/DIM0_MOSI

L/DIM0_SCLK

TCK0

SOC_RESET

FORCED_JTAG_0

AN9
AM9
AN8

H32
J31
H33

N31
N32
P33
P32
M32
M33
P31

K33
K32
L32
L31
K31
J32
M31

W28
W29

H28
J30
J28
J29

G30
F30
H29
G29
G28

P28
P27
U28
R29
V27
T28
T29
R28
U27
N29

K30
E30
M30
N28
M28
M29
L29
K29
K28
L28
D30
F29
C32
C33
C31
B33

B32
A32
B31
A31
A30
B30
C30
C29

(TDO0)

(TMS0)

R1712001%

R1722001%

R1742001%

/USB_OCD2

/USB_OCD3

EB_BE_N1
EB_BE_N0

CAM_CD1_N
CAM_CD2_N

CAM_IREQ_N
CAM_INPACK_N
CAM_WAIT_N

EB_ADDR[0]
EB_ADDR[1]
EB_ADDR[2]
EB_ADDR[3]
EB_ADDR[4]
EB_ADDR[5]
EB_ADDR[6]
EB_ADDR[7]
EB_ADDR[8]

EB_ADDR[9]
EB_ADDR[10]
EB_ADDR[11]
EB_ADDR[12]
EB_ADDR[13]
EB_ADDR[14]

EB_DATA[0]

EB_DATA[1]

EB_DATA[2]

EB_DATA[3]

EB_DATA[4]

EB_DATA[5]

EB_DATA[6]

EB_DATA[7]

WIFI_DP
WIFI_DM

USB_DP3
USB_DM3

USB_DP2
USB_DM2

USB_CTL2

USB_CTL3
EB_WE_N

EB_OE_N

/PCM_CE1
/PCM_CE2

PCM_RESET
PCM_5V_CTL
CAM_REG_N

TP102

TP103

P104

12505WS-10A00

OPT

10

11

TP104
TP105

TP106
TP107

TP108
TP109

TP110
TP111
TP112
TP113
TP114
TP115
TP116
TP117

EB_ADDR[0-14]

EB_ADDR[0-14]

EB_DATA[0-7]

EB_DATA[0-7]

Jtag-1 I/F

+3.3V_NORMAL

1

2

3

4

5

6

7

8

9

EB_WE_N
EB_OE_N

EB_BE_N1
EB_BE_N0

CAM_CD1_N
CAM_CD2_N

/PCM_CE1
/PCM_CE2
CAM_IREQ_N
PCM_RESET
CAM_INPACK_N
PCM_5V_CTL
CAM_WAIT_N
CAM_REG_N

TRST_N1

TDI1

TDO1

TMS1

TCK1

SOC_RESET

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

M14-Peripheral

xxLY960H-ZA

M14-Peripheral

2014.04.10
1

[RF Tuner -> M14] RF Parallel In

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

FE_DEMOD1_TS_CLK

FE_DEMOD1_TS_SYNC

FE_DEMOD1_TS_VAL

FE_DEMOD1_TS_ERROR

FE_DEMOD1_TS_DATA[0-7]

[Pro:Idiom -> M14] IP Sereal In

[M14 -> Pro:Idiom] IP Serial Out

TPI_DATA[0-7]

[CI / Pro:Idiom -> M14] RF Parallel In

INSTANT_BOOT

AMP_RESET_N





TPI_DATA[0]

TS_S_OUT_CLK
TS_S_OUT_SYNC
TS_S_OUT_VAL
TS_S_OUT_DATA

C200

1000pF

R231

4.7K

TPI_CLK
TPI_SOP
TPI_VAL

Near AMP

50V

FE_DEMOD1_TS_DATA[7]
FE_DEMOD1_TS_DATA[6]
FE_DEMOD1_TS_DATA[5]
FE_DEMOD1_TS_DATA[4]
FE_DEMOD1_TS_DATA[3]
FE_DEMOD1_TS_DATA[2]
FE_DEMOD1_TS_DATA[1]
FE_DEMOD1_TS_DATA[0]

TPI_DATA[0]
TPI_DATA[1]
TPI_DATA[2]
TPI_DATA[3]
TPI_DATA[4]
TPI_DATA[5]
TPI_DATA[6]
TPI_DATA[7]

R224

OPT

33

R226 100

1/16W

5%

MODEL_OPT_11

COMP1_DET

HP_DET

2D/3D_CTL

RF_SWITCH_CTL

/TU_RESET1

TP_SWITCH

BT_RESET
SOC_NEC_TX
SOC_NEC_RX

OPC_EN

DEBUG

WARM_MODE

EXT_SPK_DET

MODEL_OPT_12

BIT0
EXT_SPK_VOL+
EXT_SPK_VOL­AV1_CVBS_DET

BIT1

BIT2

BIT3

BIT4

BIT5

BIT6

BIT7

MODEL_OPT_8
MODEL_OPT_9

MODEL_OPT_10

TPI_CLK
TPI_SOP
TPI_VAL

R236 0

OPT

R234

OPT

R235 0

OPT

R232 100

HP_OUT

R225

OPT

33

R233 100

EXT_SPK

0

AH30
AH32
AH31
AH33
AM33
AL32
AL33
AK32
AK33
AK31
AJ30
AJ31

AL31
AN32
AM32
AN31
AM31
AH28
AJ28
AK30
AJ29
AG27

AG13
AJ19
AG14
AG15
AJ15
AH19
AH18
AG19

AG24
AH16

AJ21
AH21

AG16
AJ24
AH17
AG17
AH13
AH15
AG18
AH14
AJ16
AH20

A28
B28
B29
C28
A27
B27
C27
B26
C26
B25
A25
C25

AH5
AJ5
AJ6
AH6
AG6
AG5
AF7
AG7

V29

V28

IC101

LG1311

TP_DVB_CLK
TP_DVB_SOP
TP_DVB_VAL
TP_DVB_ERR
TP_DVB_DATA7
TP_DVB_DATA6
TP_DVB_DATA5
TP_DVB_DATA4
TP_DVB_DATA3
TP_DVB_DATA2
TP_DVB_DATA1
TP_DVB_DATA0

STPI0_CLK
STPI0_SOP
STPI0_VAL
STPI0_ERR
STPI0_DATA
STPI1_CLK
STPI1_SOP
STPI1_VAL
STPI1_ERR
STPI1_DATA

TPI_CLK
TPI_SOP
TPI_VAL
TPI_ERR
TPI_DATA0
TPI_DATA1
TPI_DATA2
TPI_DATA3
TPI_DATA4
TPI_DATA5
TPI_DATA6
TPI_DATA7

GPIO31
GPIO30
GPIO29
GPIO28
GPIO27
GPIO26
GPIO25
GPIO24
GPIO23
GPIO22
GPIO21
GPIO20
GPIO19
GPIO18
GPIO17
GPIO16
GPIO15
GPIO14
GPIO13
GPIO12
GPIO11
GPIO10
GPIO9
GPIO8
GPIO7
GPIO6
GPIO5
GPIO4
GPIO3
GPIO2
GPIO1
GPIO0

TPIO_CLK
TPIO_SOP
TPIO_VAL

TPIO_ERR
TPIO_DATA0
TPIO_DATA1
TPIO_DATA2
TPIO_DATA3
TPIO_DATA4
TPIO_DATA5
TPIO_DATA6
TPIO_DATA7

EPI_SOE
EPI_MCLK
EPI_GCLK

EPI_EO

EPI_VST

TX_0N
TX_0P
TX_1N
TX_1P
TX_2N
TX_2P
TX_3N
TX_3P
TX_4N
TX_4P
TX_5N
TX_5P
TX_6N
TX_6P
TX_7N
TX_7P
TX_8N
TX_8P
TX_9N

TX_9P
TX_10N
TX_10P
TX_11N
TX_11P
TX_12N
TX_12P
TX_13N
TX_13P
TX_14N
TX_14P
TX_15N
TX_15P
TX_16N
TX_16P
TX_17N
TX_17P
TX_18N
TX_18P
TX_19N
TX_19P
TX_20N
TX_20P
TX_21N
TX_21P
TX_22N
TX_22P
TX_23N
TX_23P

TX_LOCKN

[M14 -> CI / Pro:Idiom] RF Parallel Out

TPO_CLK
TPO_SOP
TPO_VAL

D28
E29
E28
F28
D27
E27
F27
E26
F26
E25
D25
F25

AA5
AB5
AA7
AA6
AB6

AK8
AL8
AK7
AL7
AM6
AN6
AK6
AL6
AK5
AL5
AN4
AN3
AM2
AM1
AM4
AM3
AL4
AL3
AK2
AK1
AK4
AK3
AJ4
AJ3
AH2
AH1
AH4
AH3
AG4
AG3
AF2
AF1
AF4
AF3
AE4
AE3
AD2
AD1
AD4
AD3
AC4
AC3
AB2
AB1
AB4
AB3
AA4
AA3

AM8

TPO_DATA[0]
TPO_DATA[1]
TPO_DATA[2]
TPO_DATA[3]
TPO_DATA[4]
TPO_DATA[5]
TPO_DATA[6]
TPO_DATA[7]

EPI_SOE
MCLK_SOC
GCLK_SOC
EO_SOC
GST_SOC

TXB4N/TX0N
TXB4P/TX0P
TXB3N/TX1N
TXB3P/TX1P
TXBCLKN/TX2N
TXBCLKP/TX2P
TXB2N/TX3N
TXB2P/TX3P
TXB1N/TX4N
TXB1P/TX4P
TXB0N/TX5N
TXB0P/TX5P

TXD4N/TX12N
TXD4P/TX12P
TXD3N/TX13N
TXD3P/TX13P
TXDCLKN/TX14N
TXDCLKP/TX14P
TXD2N/TX15N
TXD2P/TX15P
TXD1N/TX16N
TXD1P/TX16P
TXD0N/TX17N
TXD0P/TX17P

EPI_LOCK8/6

TXA4N/TX6N
TXA4P/TX6P
TXA3N/TX7N
TXA3P/TX7P
TXACLKN/TX8N
TXACLKP/TX8P
TXA2N/TX9N
TXA2P/TX9P
TXA1N/TX10N
TXA1P/TX10P
TXA0N/TX11N
TXA0P/TX11P

TXC4N/TX18N
TXC4P/TX18P
TXC3N/TX19N
TXC3P/TX19P
TXCCLKN/TX20N
TXCCLKP/TX20P
TXC2N/TX21N
TXC2P/TX21P
TXC1N/TX22N
TXC1P/TX22P
TXC0N/TX23N
TXC0P/TX23P

TPO_ERR
TPO_ERR

TPO_DATA[0-7]

EPI_SOE

+3.3V_NORMAL

BIT0_1

BIT1_1

R201 10K

BIT0_0

BIT1_0

R202 10K

BIT [0/1]

0 / 0
0 / 1

<1 / 0>

1 / 1

TAIWAN/COLOM

CHINA/HONGKONG

EU/CIS

ASIA/AFRICA

Model Option

R203 10K

R204 10K

ATSC

N/AMERICA

S/AMERCIA

BIT2_1

BIT0
BIT1

BIT2_0

JPDVB

JAPANKOREA

R205 10K

R206 10K

BIT [6/7]

0 / 0
0 / 1
1 / 0 ATV_EXT

<1 / 1>

BIT4_1

BIT3_1

R207 10K

R209 10K

T2/C/S2/ATV_EXT

T2/C/S2/ATV_SOC

BIT5_1

R211 10K

T/C

T2/C

BIT2
BIT3
BIT4
BIT5

BIT3_0

BIT4_0

BIT5_0

R210 10K

R208 10K

R212 10K

BIT[2/3/4/5]

<0 / 0 / 0 / 0>

0 / 0 / 0 / 1
0 / 0 / 1 / 0
0 / 0 / 1 / 1
0 / 1 / 0 / 0
0 / 1 / 0 / 1
0 / 1 / 1 / 0
0 / 1 / 1 / 1
1 / 0 / 0 / 0
1 / 0 / 0 / 1
1 / 0 / 1 / 0
1 / 0 / 1 / 1
1 / 1 / 0 / 0
1 / 1 / 0 / 1
1 / 1 / 1 / 0
1 / 1 / 1 / 1

BACK-END OPTIONAREA OPTION

AJJA NORTH AMERICA

TAIWAN/COL

T/C

T2/C PIP

T2/C

BIT7_1

R215 10K

CHINA/HONG

Default

T/C Default
T2/C/ATV_EXT
T2/C/ATV_SOC

T2/C/S2

BIT6_1

R213 10K

KOREA

ATSC PIP

ATV_SOC

ATSC PIP

ATV_SOC
ATV_EXT

DDR3_DDP

R217 10K

BRAZIL

ISDB PIP

ISDB

R219 10K

DDR3_1.5GB

BIT6
BIT7

BIT6_0

BIT7_0

R214 10K

R216 10K

FRC

FHD

TYPE

EPI FHD, 120Hz, V14 (8 lane)
EPI FHD, 120Hz, v14_32inch (6 lane)
EPI FHD, 120Hz, V13 (6 lane)
EPI FHD, 120Hz, V12 (6 lane)

EPI FHD, 60Hz, V14_32 inch (6lane)

LVDS FHD, 120Hz
LVDS FHD, 60Hz

LVDS HD, 60Hz

LVDS FHD, 60Hz, CP BOX
LVDS HD, 60Hz SMALL SMART

Vby1 FHD, 120Hz

LVDS 120Hz

FHD

PANEL TYPE

OLED
OLED

DDR3_2GB

R220 10K

R218 10K

DDR3_NON_DDP

MODEL_OPT_8

MODEL_OPT_9

MODEL_OPT_10 <NON_DDR3 3G>

MODEL_OPT_11

MODEL_OPT_12

PAGE 2

JAPANEU/CIS

DDR_3G

R221 10K

MODEL_OPT_11
MODEL_OPT_12

MODEL_OPT_8
MODEL_OPT_9
MODEL_OPT_10

R222 10K

NON_DDR_3G

LOW

DDR3

<NON_DDP>

2GB

DDR3

FOR UD

NOT GPIO! OLED ECO POWER CTL

HIGH

DDP

<1.5GB>

DDR3 3G

OPT

OPT

OPT

R229 10K

R227 10K

OPT

R230 10K

R228 10K

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR

M14-Display In/Out

THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

TPI_DATA[0-7]

TPI_CLK
TPI_SOP
TPI_VAL

TPO_DATA[0-7]

TPO_CLK
TPO_SOP
TPO_VAL

TP_SWITCH

TP212

TP213
TP214
TP215

TP221

TP218
TP219
TP220

TP248

DEBUG

+3.3V_NORMAL

SW201

JTP-1127WEM

12

3

4

For ISP

R223

3.3K

TP231

TP232

TP233

TP234

TP235

TP236

TP237

TP238

TP239

TP240

TP241

TP242

TP243

TP244

TP245

TP246

TXD1N/TX16N
TXD1P/TX16P
TXD0N/TX17N
TXD0P/TX17P

TXC4N/TX18N
TXC4P/TX18P
TXC3N/TX19N
TXC3P/TX19P
TXCCLKN/TX20N
TXCCLKP/TX20P
TXC2N/TX21N
TXC2P/TX21P
TXC1N/TX22N
TXC1P/TX22P
TXC0N/TX23N
TXC0P/TX23P

xxLY960H-ZA

M14-Display In/Out

2014.04.10
2

PLACE AT JACK SIDE

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

Place JACK Side

AV1_CVBS/COMP1_Y Circuit was moved to 34Page

COMP1_Pb

TU_CVBS

COMP1/AV1/DVI_L_IN

COMP1/AV1/DVI_R_IN

C303
150pF
50V

OPT

1005

75

1%

R318

1005

1%

75

R326

Place SOC Side

R333 33

C322 0.047uF

33

R335

C324 0.047uF

TU_ALL_2178B

R329 100

TU_ALL_2178B

0.047uF

C318

AUDIO IN

R309 27K

R310 27K

C316 4.7uF

1%

1%

R322 10K

1%

C317 4.7uF

R323 10K

1%

COMP2_PB_IN_SOC

COMP2_PR_IN_SOCCOMP1_Pr

TU_CVBS_SOC

AUAD_L_CH3_IN

AUAD_R_CH3_IN

COMP

TP308
TP310

TP311

TP312
TP313
TP314
TP315

TP302
TP303
TP304
TP305
TP306
TP307

SC_CVBS_IN_SOC
SC_FB_SOC

SC_ID_SOC
COMP1_PB_IN_SOC

COMP1_Y_IN_SOC
COMP1_Y_IN_SOC_SOY
COMP1_PR_IN_SOC

SMARTCARD_DATA/SD_EMMC_CLK
SMARTCARD_VCC/SD_EMMC_CMD
SMARTCARD_DET/SD_EMMC_DATA[3]
SMARTCARD_RST/SD_EMMC_DATA[2]
SMARTCARD_PWR_SEL/SD_EMMC_DATA[1]
SMARTCARD_CLK/SD_EMMC_DATA[0]

TP318
TP319

TP320

Placed as close as possible to LG1311

Tuner IF Filter

C331
22pF

TU_ALL_IntDemod

C332

0.01uF

C333

0.01uF

TU_ALL_IntDemod

TU_ALL_IntDemod

ADC_I_INN

To ADC

ADC_I_INP

C331 option

- TU_IntDemod_IF_22p -> EU/AJ All_IndDemod, US/KR/BR/TW/CO 2tuner All

- TU_IntDemod_IF_15p -> US/KR/BR/TW/CO 1tuner All

R344

51

TU_IntDemod_IF_22p

R345

51

TU_ALL_IntDemod

Placed as close as possible to IC101

R37 4

51K

AUAD_L_REF

1%

R37 8

47K
1%

C313

4.7uF
10V

R38 0

51K

1%

AUAD_R_REF

R38 1

47K
1%

DDR3 VENDOR OPTION

+3.3V_NORMAL

SCART_LOUT_SOC

SCART_ROUT_SOC

DTV/MNT_V_OUT_SOC

TU_IntDemod_IF_15p

IF_N

L303

OPT

IF_P

AVDD25

L307

120-ohm

C354
10uF

10V

C353

4.7uF
10V

SOC_CVBS_OUT

C331-*1
15pF
50V

TUNER_SIF

DTV/MNT_V_OUT_SOC

SCART_LOUT_SOC
SCART_ROUT_SOC

AUD_MASTER_CLK

MAIN I2S_I/F

IF_AGC

AUD_LRCH

AUD_SCK

AUD_LRCK

C309
1000pF
50V
OPT

INT_ADEMOD

R319
390

OPT

EU

C334

0.01uF
50V

Close to IC101

INT_ADEMOD

INT_ADEMOD

C11009
68pF
50V

R353 0

C339
100pF

SC_ID_SOC

50V

SC_FB_SOC

AVDD25

C336

0.01uF
50V

C335
22pF
OPT

TU_ALL_2178B
C312

TU_ALL_IntDemod

R350

470

C338

0.1uF
OPT

R320
390

EU

R324 10K

OPT

R325 10K

OPT

EU

R351 22K

C337
33pF

OPT

0.1uF

INT_ADEMOD
C11010
68pF

TU_CVBS_SOC

50V

SC_CVBS_IN_SOC

AV1_CVBS_IN_SOC

R356

COMP1_Y_IN_SOC_SOY

COMP2_Y_IN_SOC_SOY

R357 68
R358 68
R359 68

BLM15BD121SN1

R354 0
R355 0

EU

EU

R352 22K

AUAD_L_CH3_IN
AUAD_R_CH3_IN

SPDIF_OUT

C340
22pF
OPT

I2S_AMP

SOC_CVBS_OUT

ADC_I_INP
ADC_I_INN

68

C343 0.047uF

COMP1_Y_IN_SOC
COMP1_PB_IN_SOC
COMP1_PR_IN_SOC

COMP2_Y_IN_SOC
COMP2_PB_IN_SOC
COMP2_PR_IN_SOC

L305

L304

BLM15BD121SN1

EU
EU

AUDA_OUTL
AUDA_OUTR

AUAD_R_REF
AUAD_L_REF

C342
22pF

OPT

R368 100
R369

R386

C11011 0.1uF 16V

INT_ADEMOD

C344 0.047uF
C345 0.047uF
C346 0.047uF

C349

0.1uF
16V

10uF 10VC347

C348 2.2uF

10V

R360 33

R365 100
R366 100

100

R387
OPT

OPT

C351 0.1uF

C352 0.1uF

R388
OPT

AL27
AK26
AM27

AL26

AN27

AL25
AM25

AN23
AL22
AK21
AK22

AL24
AK23
AL23
AK24

AL21
AM23
AN25

AM21
AN21

AK16
AL16

AL19
AK19
AN19
AM19
AN17
AM17
AL17
AK17

AK20
AL20

AK18
AL18

AN15

AM15

AN11
AK11
AK10
AL10
AL11
AM11

AK29
AL29
AM29

AK27
AL30

AK28
AL28
AN29

AD5
AE5
AE7
AE6

AD6

IC101

LG1311

CVBS_IN1
CVBS_IN2
CVBS_IN3

CVBS_VCM

BUF_OUT1

SC1_SID
SC1_FB

SOY1_IN
Y1_IN
PB1_IN
PR1_IN

SOY2_IN
Y2_IN
PB2_IN
PR2_IN

ADC1_COM
ADC2_COM
ADC3_COM

AVSS25_COMP_REF
AVDD25_COMP_REF

AUDA_SCART_OUTL
AUDA_SCART_OUTR

AUAD_L_CH1_IN
AUAD_R_CH1_IN
AUAD_L_CH2_IN
AUAD_R_CH2_IN
AUAD_L_CH3_IN
AUAD_R_CH3_IN
AUAD_L_CH4_IN
AUAD_R_CH4_IN

AUDA_OUTL
AUDA_OUTR

AUAD_L_REF
AUAD_R_REF

AUD_VBG_EXT

IEC958OUT

AUDCLK_OUT
DAC_LRCH
DAC_SLRCH
DAC_CLFCH
DAC_SCK
DAC_LRCK

PCMI3LRCH
PCMI3LRCK
PCMI3SCK
AUDCLK_IN

FRC_LRSYNC

AAD_ADC_SIF
AAD_ADC_SIFM
IFAGC

DMD_DAC_OUT
DMD_SIF_OUT

DMD_ADC_INP
DMD_ADC_INN
DMD_ADC_INCOM

SD_CLK

SD_CMD
SD_CD_N
SD_WP_N

SD_DATA3
SD_DATA2
SD_DATA1
SD_DATA0

RMII_REF_CLK

RMII_CRS_DV

RMII_MDIO

RMII_MDC
RMII_TXEN
RMII_TXD1
RMII_TXD0
RMII_RXD1
RMII_RXD0

HDMI_1_SCL
HDMI_1_SDA
HDMI_1_HPD

HDMI_1_5V_DET

HDMI_1_ARC

HDMI_1_RX_0

HDMI_1_RX_0B

HDMI_1_RX_1

HDMI_1_RX_1B

HDMI_1_RX_2

HDMI_1_RX_2B

HDMI_1_RX_C

HDMI_1_RX_CB

HDMI_2_SCL
HDMI_2_SDA
HDMI_2_HPD

HDMI_2_5V_DET

HDMI_2_RX_0

HDMI_2_RX_0B

HDMI_2_RX_1

HDMI_2_RX_1B

HDMI_2_RX_2

HDMI_2_RX_2B

HDMI_2_RX_C

HDMI_2_RX_CB

HDMI_3_SCL
HDMI_3_SDA
HDMI_3_HPD

HDMI_3_5V_DET

HDMI_3_RX_0

HDMI_3_RX_0B

HDMI_3_RX_1

HDMI_3_RX_1B

HDMI_3_RX_2

HDMI_3_RX_2B

HDMI_3_RX_C

HDMI_3_RX_CB

HDMI_4_SCL

HDMI_4_SDA
HDMI_4_CBUS_HPD
HDMI_4_CD_SENSE

HDMI_4_5V_DET

HDMI_4_RX_0

HDMI_4_RX_0B

HDMI_4_RX_1

HDMI_4_RX_1B

HDMI_4_RX_2

HDMI_4_RX_2B

HDMI_4_RX_C

HDMI_4_RX_CB

E22
D22
F22
F24
D24
E24
F23
E23

AK14
AK12
AL12
AK13
AL13
AM13
AN13
AL14
AK15

AE27
AF28
AE29
AF27
AE28

AF33
AF32
AE31
AE30
AD31
AD30
AF31
AF30

AD28
AD29
AC27
AD27

AC31
AC30
AB33
AB32
AA31
AA30
AD32
AD33

AB28
AB27
AB29
AC28

Y32
Y33
W31
W30
V33
V32
Y31
Y30

Y27
AA28
Y28
AA29
AA27

T31
T30
T32
T33
R31
R30
U31
U30

R315 33
R316 33

PAGE 3

SMARTCARD_CLK/SD_EMMC_DATA[0]
SMARTCARD_RST/SD_EMMC_DATA[2]
SMARTCARD_VCC/SD_EMMC_CMD
SMARTCARD_PWR_SEL/SD_EMMC_DATA[1]
DDR3_OPT1
DDR3_OPT2
SMARTCARD_DET/SD_EMMC_DATA[3]
SMARTCARD_DATA/SD_EMMC_CLK

EPHY_REFCLK
EPHY_CRS_DV
EPHY_MDIO
EPHY_MDC
EPHY_EN
EPHY_TXD1
EPHY_TXD0
EPHY_RXD1
EPHY_RXD0

DDC_SCL_1
DDC_SDA_1

HDMI_HPD_1

SPDIF_OUT_ARC

D0+_HDMI1
D0-_HDMI1
D1+_HDMI1
D1-_HDMI1
D2+_HDMI1
D2-_HDMI1
CK+_HDMI1
CK-_HDMI1

DDC_SCL_2
DDC_SDA_2

HDMI_HPD_2

D0+_HDMI2
D0-_HDMI2
D1+_HDMI2
D1-_HDMI2
D2+_HDMI2
D2-_HDMI2
CK+_HDMI2
CK-_HDMI2

DDC_SCL_4
DDC_SDA_4

HDMI_HPD_4
MHL_DET

D0+_HDMI4
D0-_HDMI4
D1+_HDMI4
D1-_HDMI4
D2+_HDMI4
D2-_HDMI4
CK+_HDMI4
CK-_HDMI4

5V_HDMI_1

R372
10

C356
1uF
10V

5V_HDMI_2

R373
10

C357

1uF

10V

5V_HDMI_4

R375
10

C359
1uF
10V

R376

5.1K

R377

5.1K

R379

5.1K

AUDIO OUT

HP_LOUT/Ext_LOUT

HP_ROUT/Ext_ROUT

R303

R304

22K

22K

C305

0.01uF
50V

C306

0.01uF
50V

R311 0

R312 0

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

M14-AV In/Out

AUDA_OUTL

AUDA_OUTR

OPT

4.7K

R382

R383 4.7K

OPT

4.7K

R384

R385 4.7K

DDR3_OPT1
DDR3_OPT2

xxLY960H-ZA

M14-AV In/Out

2014.04.10
3

PAGE 4

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

IC101

LG1311

M0_DDR_VREF1
M0_DDR_VREF2

M0_DDR_U_CLKP
M0_DDR_U_CLKN
M0_DDR_D_CLKP
M0_DDR_D_CLKN

M0_DDR_RESET_N

M0_DDR_DQS_P0
M0_DDR_DQS_N0
M0_DDR_DQS_P1
M0_DDR_DQS_N1
M0_DDR_DQS_P2
M0_DDR_DQS_N2
M0_DDR_DQS_P3
M0_DDR_DQS_N3

M0_DDR_ZQCAL

M0_DDR_A0
M0_DDR_A1
M0_DDR_A2
M0_DDR_A3
M0_DDR_A4
M0_DDR_A5
M0_DDR_A6
M0_DDR_A7
M0_DDR_A8

M0_DDR_A9
M0_DDR_A10
M0_DDR_A11
M0_DDR_A12
M0_DDR_A13
M0_DDR_A14
M0_DDR_A15

M0_DDR_BA0
M0_DDR_BA1
M0_DDR_BA2

M0_DDR_CKE

M0_DDR_ODT

M0_DDR_RASN
M0_DDR_CASN

M0_DDR_WEN

M0_DDR_DM0
M0_DDR_DM1
M0_DDR_DM2
M0_DDR_DM3

M0_DDR_DQ0
M0_DDR_DQ1
M0_DDR_DQ2
M0_DDR_DQ3
M0_DDR_DQ4
M0_DDR_DQ5
M0_DDR_DQ6
M0_DDR_DQ7
M0_DDR_DQ8
M0_DDR_DQ9

M0_DDR_DQ10
M0_DDR_DQ11
M0_DDR_DQ12
M0_DDR_DQ13
M0_DDR_DQ14
M0_DDR_DQ15
M0_DDR_DQ16
M0_DDR_DQ17
M0_DDR_DQ18
M0_DDR_DQ19
M0_DDR_DQ20
M0_DDR_DQ21
M0_DDR_DQ22
M0_DDR_DQ23
M0_DDR_DQ24
M0_DDR_DQ25
M0_DDR_DQ26
M0_DDR_DQ27
M0_DDR_DQ28
M0_DDR_DQ29
M0_DDR_DQ30
M0_DDR_DQ31

VREF_M0_0

A22
A3

E13
E11
E15
E17
D8
D16
D9
E16
E9
E14
D7
D10
D11
D14
E10
E12

D17
E8
D13

C8
B8
C17
B17
D12

E19
D19
D18
E18

D15

B18
C18
B16
A16
B9
C9
B7
A7

A15
A18
A6
A9

B20
B13
C21
C14
A21
A13
B21
C13
B14
B19
C15
C20
C16
A19
B15
C19
B11
C5
C12
B4
A12
A4
B12
C4
B5
B10
C6
C11
C7
A10
B6
C10

E7

VREF_M0_1

R401 240

M0_DDR_A0
M0_DDR_A1
M0_DDR_A2
M0_DDR_A3
M0_DDR_A4
M0_DDR_A5
M0_DDR_A6
M0_DDR_A7
M0_DDR_A8
M0_DDR_A9
M0_DDR_A10
M0_DDR_A11
M0_DDR_A12
M0_DDR_A13
M0_DDR_A14
M0_DDR_A15

M0_DDR_BA0
M0_DDR_BA1
M0_DDR_BA2

M0_U_CLK
M0_U_CLKN
M0_D_CLK
M0_D_CLKN
M0_DDR_CKE

M0_DDR_ODT
M0_DDR_RASN
M0_DDR_CASN
M0_DDR_WEN

M0_DDR_RESET_N

M0_DDR_DQS0
M0_DDR_DQS_N0
M0_DDR_DQS1
M0_DDR_DQS_N1
M0_DDR_DQS2
M0_DDR_DQS_N2
M0_DDR_DQS3
M0_DDR_DQS_N3

M0_DDR_DM0
M0_DDR_DM1
M0_DDR_DM2
M0_DDR_DM3

M0_DDR_DQ0
M0_DDR_DQ1
M0_DDR_DQ2
M0_DDR_DQ3
M0_DDR_DQ4
M0_DDR_DQ5
M0_DDR_DQ6
M0_DDR_DQ7
M0_DDR_DQ8
M0_DDR_DQ9
M0_DDR_DQ10
M0_DDR_DQ11
M0_DDR_DQ12
M0_DDR_DQ13
M0_DDR_DQ14
M0_DDR_DQ15

M0_DDR_DQ16
M0_DDR_DQ17
M0_DDR_DQ18
M0_DDR_DQ19
M0_DDR_DQ20
M0_DDR_DQ21
M0_DDR_DQ22
M0_DDR_DQ23
M0_DDR_DQ24
M0_DDR_DQ25
M0_DDR_DQ26
M0_DDR_DQ27
M0_DDR_DQ28
M0_DDR_DQ29
M0_DDR_DQ30
M0_DDR_DQ31

1%

+1.5V_DDR

+1.5V_DDR

OPT

+1.5V_DDR

+1.5V_DDR

R402
1K
1%

R403
1K
1%

R404
10K

R405
100

M0_DDR_VREFCA

R406
1K
1%

R407
1K
1%

M0_DDR_VREFDQ

R408
1K
1%

R409
1K
1%

VREF_M0_0

C401

0.1uF

M0_DDR_RESET_N

M0_D_CLK

M0_D_CLKN

C402

0.1uF

C403

0.1uF

M0_DDR_CKE

+1.5V_DDR

100

+1.5V_DDR

1K
1%

R412
1K
1%

+1.5V_DDR

1K
1%

1K
1%

R415
1K
1%

R416
1K
1%

M0_U_CLK

R410

M0_U_CLKN

M0_1_DDR_VREFCA

R411

C406

0.1uF

M0_1_DDR_VREFDQ

R413

R414

C407

0.1uF

VREF_M0_1

R417
10K

C408

0.1uF

M0_DDR_A0
M0_DDR_A1
M0_DDR_A2
M0_DDR_A3
M0_DDR_A4
M0_DDR_A5
M0_DDR_A6
M0_DDR_A7
M0_DDR_A8

M0_DDR_A9
M0_DDR_A10
M0_DDR_A11
M0_DDR_A12
M0_DDR_A13
M0_DDR_A14

M0_DDR_A15

M0_DDR_BA0
M0_DDR_BA1
M0_DDR_BA2

M0_D_CLK

M0_D_CLKN
M0_DDR_CKE

M0_DDR_ODT

M0_DDR_RASN
M0_DDR_CASN

M0_DDR_WEN

M0_DDR_RESET_N

M0_DDR_DQS0

M0_DDR_DQS_N0

M0_DDR_DQS1

M0_DDR_DQS_N1

M0_DDR_DM0
M0_DDR_DM1

M0_DDR_DQ0
M0_DDR_DQ1

M0_DDR_DQ2
M0_DDR_DQ3
M0_DDR_DQ4
M0_DDR_DQ5
M0_DDR_DQ6
M0_DDR_DQ7

M0_DDR_DQ8

M0_DDR_DQ9
M0_DDR_DQ10
M0_DDR_DQ11
M0_DDR_DQ12
M0_DDR_DQ13
M0_DDR_DQ14
M0_DDR_DQ15

IC401

H5TQ4G63AFR-PBC

DDR3

N3
P7
P3
N2
P8
P2
R8
R2
T8
R3
L7
R7
N7
T3
T7
M7

M2
N8
M3

J7
K7
K9

L2
K1
J3
K3
L3

T2

F3
G3

C7
B7

E7
D3

E3
F7
F2
F8
H3
H8
G2
H7

D7
C3
C8
C2
A7
A2
B8
A3

4Gbit

A0

(x16)

A1

DDR_512MB_HYNIX_1600_29n

A2
A3
A4
A5
A6
A7
A8
A9
A10/AP
A11
A12/BC
A13
A14
A15

BA0
BA1
BA2

CK
CK
CKE

CS
ODT
RAS
CAS
WE

RESET

DQSL
DQSL

DQSU
DQSU

DML
DMU

DQL0
DQL1
DQL2
DQL3
DQL4
DQL5
DQL6
DQL7

DQU0
DQU1
DQU2
DQU3
DQU4
DQU5
DQU6
DQU7

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

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

M0_DDR_VREFCA

M8

H1

L8

ZQ

B2
D9
G7
K2
K8
N1
N9
R1
R9

A1
A8
C1
C9
D2
E9
F1
H2
H9

J1
J9
L1
L9

A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9

B1
B9
D1
D8
E2
E8
F9
G1
G9

M0_DDR_VREFDQ

+1.5V_DDR

R418

240
1%

IC401-*1

MT41K256M16HA-125:E

DDR_512MB_MICRON

N3

A0

P7

A1

P3

A2

N2

A3

P8

A4

P2

A5

R8

A6

R2

A7

T8

A8

R3

A9

L7

A10/AP

R7

A11

N7

A12/BC

T3

A13

M7

NC_5

M2

BA0

N8

BA1

M3

BA2

J7

CK

K7

CK

K9

CKE

L2

CS

K1

ODT

J3

RAS

K3

CAS

L3

WE

T2

RESET

F3

DQSL

G3

DQSL

C7

DQSU

B7

DQSU

E7

DML

D3

DMU

E3

DQ0

F7

DQ1

F2

DQ2

F8

DQ3

H3

DQ4

H8

DQ5

G2

DQ6

H7

DQ7

D7

DQ8

C3

DQ9

C8

DQ10

C2

DQ11

A7

DQ12

A2

DQ13

B8

DQ14

A3

DQ15

C413 1uF
C414 1uF

M8

VREFCA

H1

VREFDQ

L8

ZQ

B2

VDD_1

D9

VDD_2

G7

VDD_3

K2

VDD_4

K8

VDD_5

N1

VDD_6

N9

VDD_7

R1

VDD_8

R9

VDD_9

A1

VDDQ_1

A8

VDDQ_2

C1

VDDQ_3

C9

VDDQ_4

D2

VDDQ_5

E9

VDDQ_6

F1

VDDQ_7

H2

VDDQ_8

H9

VDDQ_9

J1

NC_1

J9

NC_2

L1

NC_3

L9

NC_4

T7

A14

A9

VSS_1

B3

VSS_2

E1

VSS_3

G8

VSS_4

J2

VSS_5

J8

VSS_6

M1

VSS_7

M9

VSS_8

P1

VSS_9

P9

VSS_10

T1

VSS_11

T9

VSS_12

B1

VSSQ_1

B9

VSSQ_2

D1

VSSQ_3

D8

VSSQ_4

E2

VSSQ_5

E8

VSSQ_6

F9

VSSQ_7

G1

VSSQ_8

G9

VSSQ_9

M0_DDR_A0
M0_DDR_A1
M0_DDR_A2
M0_DDR_A3
M0_DDR_A4
M0_DDR_A5
M0_DDR_A6
M0_DDR_A7
M0_DDR_A8

M0_DDR_A9
M0_DDR_A10
M0_DDR_A11
M0_DDR_A12
M0_DDR_A13
M0_DDR_A14
M0_DDR_A15

M0_DDR_BA0
M0_DDR_BA1
M0_DDR_BA2

M0_U_CLK

M0_U_CLKN
M0_DDR_CKE

M0_DDR_ODT

M0_DDR_RASN
M0_DDR_CASN

M0_DDR_WEN

M0_DDR_RESET_N

M0_DDR_DQS2

M0_DDR_DQS_N2

M0_DDR_DQS3

M0_DDR_DQS_N3

M0_DDR_DM2
M0_DDR_DM3

M0_DDR_DQ16

M0_DDR_DQ17
M0_DDR_DQ18
M0_DDR_DQ19
M0_DDR_DQ20
M0_DDR_DQ21
M0_DDR_DQ22
M0_DDR_DQ23

M0_DDR_DQ24
M0_DDR_DQ25
M0_DDR_DQ26
M0_DDR_DQ27
M0_DDR_DQ28
M0_DDR_DQ29
M0_DDR_DQ30
M0_DDR_DQ31

H5TQ4G63AFR-PBC

N3

A0

P7

A1

P3

A2

N2

A3

P8

A4

P2

A5

R8

A6

R2

A7

T8

A8

R3

A9

L7

A10/AP

R7

A11

N7

A12/BC

T3

A13

T7

A14

M7

A15

M2

BA0

N8

BA1

M3

BA2

J7

CK

K7

CK

K9

CKE

L2

CS

K1

ODT

J3

RAS

K3

CAS

L3

WE

T2

RESET

F3

DQSL

G3

DQSL

C7

DQSU

B7

DQSU

E7

DML

D3

DMU

E3

DQL0

F7

DQL1

F2

DQL2

F8

DQL3

H3

DQL4

H8

DQL5

G2

DQL6

H7

DQL7

D7

DQU0

C3

DQU1

C8

DQU2

C2

DQU3

A7

DQU4

A2

DQU5

B8

DQU6

A3

DQU7

IC402-*1

MT41K256M16HA-125:E

DDR_512MB_MICRON

N3

M8

A0

VREFCA

P7

A1

P3

A2

N2

H1

A3

VREFDQ

P8

A4

P2

A5

R8

L8

A6

ZQ

R2

A7

T8

A8

R3

B2

A9

VDD_1

L7

D9

A10/AP

VDD_2

R7

G7

A11

VDD_3

N7

K2

A12/BC

VDD_4

T3

K8

A13

VDD_5

N1

VDD_6

M7

N9

NC_5

VDD_7

R1

VDD_8

M2

R9

BA0

VDD_9

N8

BA1

M3

BA2

A1

VDDQ_1

J7

A8

CK

VDDQ_2

K7

C1

CK

VDDQ_3

K9

C9

CKE

VDDQ_4

D2

VDDQ_5

L2

E9

CS

VDDQ_6

K1

F1

ODT

VDDQ_7

J3

H2

RAS

VDDQ_8

K3

H9

CAS

VDDQ_9

L3

WE

J1

NC_1

T2

J9

RESET

NC_2

L1

NC_3

L9

NC_4

F3

T7

DQSL

A14

G3

DQSL

C7

A9

DQSU

VSS_1

B7

B3

DQSU

VSS_2

E1

VSS_3

E7

G8

DML

VSS_4

D3

J2

DMU

VSS_5

J8

VSS_6

E3

M1

DQ0

VSS_7

F7

M9

DQ1

VSS_8

F2

P1

DQ2

VSS_9

F8

P9

DQ3

VSS_10

H3

T1

DQ4

VSS_11

H8

T9

DQ5

VSS_12

G2

DQ6

H7

DQ7

B1

VSSQ_1

D7

B9

DQ8

VSSQ_2

C3

D1

DQ9

VSSQ_3

C8

D8

DQ10

VSSQ_4

C2

E2

DQ11

VSSQ_5

A7

E8

DQ12

VSSQ_6

A2

F9

DQ13

VSSQ_7

B8

G1

DQ14

VSSQ_8

A3

G9

DQ15

VSSQ_9

IC402

DDR3
4Gbit
(x16)

DDR_512MB_HYNIX_1600_29n

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

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

M0_1_DDR_VREFCA

M8

H1

R419

L8

ZQ

B2
D9
G7
K2
K8
N1
N9
R1
R9

A1
A8
C1
C9
D2
E9
F1
H2
H9

J1
J9
L1
L9

A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9

B1
B9
D1
D8
E2
E8
F9
G1
G9

M0_1_DDR_VREFDQ

+1.5V_DDR

240
1%

C429 1uF
C430 1uF

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

M14-DDR3(MAIN)

2014.04.10
4

PAGE 5

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

IC101

LG1311

M1_DDR_VREF1
M1_DDR_VREF2

M1_DDR_U_CLKP
M1_DDR_U_CLKN
M1_DDR_D_CLKP
M1_DDR_D_CLKN

M1_DDR_RESET_N

M1_DDR_DQS_P0
M1_DDR_DQS_N0
M1_DDR_DQS_P1
M1_DDR_DQS_N1
M1_DDR_DQS_P2
M1_DDR_DQS_N2
M1_DDR_DQS_P3
M1_DDR_DQS_N3

M1_DDR_ZQCAL

M1_DDR_A0
M1_DDR_A1
M1_DDR_A2
M1_DDR_A3
M1_DDR_A4
M1_DDR_A5
M1_DDR_A6
M1_DDR_A7
M1_DDR_A8

M1_DDR_A9
M1_DDR_A10
M1_DDR_A11
M1_DDR_A12
M1_DDR_A13
M1_DDR_A14
M1_DDR_A15

M1_DDR_BA0
M1_DDR_BA1
M1_DDR_BA2

M1_DDR_CKE

M1_DDR_ODT

M1_DDR_RASN
M1_DDR_CASN

M1_DDR_WEN

M1_DDR_DM0
M1_DDR_DM1
M1_DDR_DM2
M1_DDR_DM3

M1_DDR_DQ0
M1_DDR_DQ1
M1_DDR_DQ2
M1_DDR_DQ3
M1_DDR_DQ4
M1_DDR_DQ5
M1_DDR_DQ6
M1_DDR_DQ7
M1_DDR_DQ8
M1_DDR_DQ9

M1_DDR_DQ10
M1_DDR_DQ11
M1_DDR_DQ12
M1_DDR_DQ13
M1_DDR_DQ14
M1_DDR_DQ15
M1_DDR_DQ16
M1_DDR_DQ17
M1_DDR_DQ18
M1_DDR_DQ19
M1_DDR_DQ20
M1_DDR_DQ21
M1_DDR_DQ22
M1_DDR_DQ23
M1_DDR_DQ24
M1_DDR_DQ25
M1_DDR_DQ26
M1_DDR_DQ27
M1_DDR_DQ28
M1_DDR_DQ29
M1_DDR_DQ30
M1_DDR_DQ31

VREF_M1_0

A2
Y1

M5
N5
K5
H5
T4
H4
R4
J5
T5
L5
U4
P4
P5
K4
R5
N4

G4
U5
L4

R3
R2
F3
F2
M4

F5
E4
F4
G5

J4

E2
E3
G2
G1
P2
P3
T2
T1

H1
E1
U1
P1

C2
K2
B3
J3
B1
K1
B2
K3
J2
D2
H3
C3
G3
D1
H2
D3
M2
V3
L3
W2
L1
W1
L2
W3
V2
N2
U3
M3
T3
N1
U2
N3

E5

R501

VREF_M1_1

M1_DDR_A0
M1_DDR_A1
M1_DDR_A2
M1_DDR_A3
M1_DDR_A4
M1_DDR_A5
M1_DDR_A6
M1_DDR_A7
M1_DDR_A8
M1_DDR_A9
M1_DDR_A10
M1_DDR_A11
M1_DDR_A12
M1_DDR_A13
M1_DDR_A14
M1_DDR_A15

M1_DDR_BA0
M1_DDR_BA1
M1_DDR_BA2

M1_U_CLK
M1_U_CLKN
M1_D_CLK
M1_D_CLKN
M1_DDR_CKE

M1_DDR_ODT
M1_DDR_RASN
M1_DDR_CASN
M1_DDR_WEN

M1_DDR_RESET_N

M1_DDR_DQS0
M1_DDR_DQS_N0
M1_DDR_DQS1
M1_DDR_DQS_N1
M1_DDR_DQS2
M1_DDR_DQS_N2
M1_DDR_DQS3
M1_DDR_DQS_N3

M1_DDR_DM0
M1_DDR_DM1
M1_DDR_DM2
M1_DDR_DM3

M1_DDR_DQ0
M1_DDR_DQ1
M1_DDR_DQ2
M1_DDR_DQ3
M1_DDR_DQ4
M1_DDR_DQ5
M1_DDR_DQ6
M1_DDR_DQ7
M1_DDR_DQ8
M1_DDR_DQ9
M1_DDR_DQ10
M1_DDR_DQ11
M1_DDR_DQ12
M1_DDR_DQ13
M1_DDR_DQ14
M1_DDR_DQ15

M1_DDR_DQ17
M1_DDR_DQ18
M1_DDR_DQ19
M1_DDR_DQ20
M1_DDR_DQ21
M1_DDR_DQ22
M1_DDR_DQ23
M1_DDR_DQ24
M1_DDR_DQ25
M1_DDR_DQ26
M1_DDR_DQ27
M1_DDR_DQ28
M1_DDR_DQ29
M1_DDR_DQ30
M1_DDR_DQ31

240
1%

+1.5V_DDR

+1.5V_DDR

OPT

+1.5V_DDR

+1.5V_DDR

1K
1%

1K
1%

1K
1%

R508
1K
1%

R509

R502
10K

R503
100

R504

R505

R506
1K
1%

R507
1K
1%

VREF_M1_0

C501

0.1uF

M1_DDR_RESET_N

M1_D_CLK

M1_D_CLKN

M1_DDR_VREFCA

C502

0.1uF

M1_DDR_VREFDQ

C503

0.1uF

+1.5V_DDR

M1_DDR_CKE

+1.5V_DDR

+1.5V_DDR

VREF_M1_1

R515
1K
1%

R516
1K
1%

R510

100

M1_1_DDR_VREFCA

R511
1K
1%

C507

R512

1K

0.1uF

1%

M1_1_DDR_VREFDQ

R513

1K
1%

C508

R514

1K

0.1uF

1%

C506

0.1uF

R517
10K

M1_U_CLK

M1_U_CLKN

+1.5V_DDR

IC501

H5TQ4G63AFR-PBC

N3

M1_DDR_A0
M1_DDR_A1 M1_DDR_A1
M1_DDR_A2
M1_DDR_A3
M1_DDR_A4
M1_DDR_A5
M1_DDR_A6
M1_DDR_A7
M1_DDR_A8

M1_DDR_A9
M1_DDR_A10
M1_DDR_A11
M1_DDR_A12
M1_DDR_A13
M1_DDR_A14
M1_DDR_A15

M1_DDR_BA0
M1_DDR_BA1
M1_DDR_BA2

M1_D_CLK

M1_D_CLKN
M1_DDR_CKE

M1_DDR_ODT

M1_DDR_RASN
M1_DDR_CASN

M1_DDR_WEN

M1_DDR_RESET_N

M1_DDR_DQS0

M1_DDR_DQS_N0

M1_DDR_DQS1

M1_DDR_DQS_N1

M1_DDR_DM0
M1_DDR_DM1

M1_DDR_DQ0
M1_DDR_DQ1
M1_DDR_DQ2
M1_DDR_DQ3
M1_DDR_DQ4
M1_DDR_DQ5
M1_DDR_DQ6
M1_DDR_DQ7

M1_DDR_DQ8
M1_DDR_DQ9

M1_DDR_DQ10
M1_DDR_DQ11
M1_DDR_DQ12
M1_DDR_DQ13M1_DDR_DQ16
M1_DDR_DQ14
M1_DDR_DQ15

DDR3

A0

P7

4Gbit

A1

DDR_512MB_HYNIX_1600_29n

P3

A2

N2

A3

P8

A4

P2

A5

R8

A6

R2

A7

T8

A8

R3

A9

L7

A10/AP

R7

A11

N7

A12/BC

T3

A13

T7

A14

M7

A15

M2

BA0

N8

BA1

M3

BA2

J7

CK

K7

CK

K9

CKE

L2

CS

K1

ODT

J3

RAS

K3

CAS

L3

WE

T2

RESET

F3

DQSL

G3

DQSL

C7

DQSU

B7

DQSU

E7

DML

D3

DMU

E3

DQL0

F7

DQL1

F2

DQL2

F8

DQL3

H3

DQL4

H8

DQL5

G2

DQL6

H7

DQL7

D7

DQU0

C3

DQU1

C8

DQU2

C2

DQU3

A7

DQU4

A2

DQU5

B8

DQU6

A3

DQU7

MT41K256M16HA-125:E

N3
P7
P3
N2
P8
P2
R8
R2
T8
R3
L7
R7
N7
T3

M7

M2
N8
M3

J7
K7
K9

L2
K1
J3
K3
L3

T2

F3
G3

C7
B7

E7
D3

E3
F7
F2
F8
H3
H8
G2
H7

D7
C3
C8
C2
A7
A2
B8
A3

M8

VREFCA

H1

VREFDQ

L8

ZQ

B2

VDD_1

D9

VDD_2

G7

VDD_3

K2

VDD_4

K8

VDD_5

N1

VDD_6

N9

VDD_7

R1

VDD_8

R9

VDD_9

A1

VDDQ_1

A8

VDDQ_2

C1

VDDQ_3

C9

VDDQ_4

D2

VDDQ_5

E9

VDDQ_6

F1

VDDQ_7

H2

VDDQ_8

H9

VDDQ_9

J1

NC_1

J9

NC_2

L1

NC_3

L9

NC_4

A9

VSS_1

B3

VSS_2

E1

VSS_3

G8

VSS_4

J2

VSS_5

J8

VSS_6

M1

VSS_7

M9

VSS_8

P1

VSS_9

P9

VSS_10

T1

VSS_11

T9

VSS_12

B1

VSSQ_1

B9

VSSQ_2

D1

VSSQ_3

D8

VSSQ_4

E2

VSSQ_5

E8

VSSQ_6

F9

VSSQ_7

G1

VSSQ_8

G9

VSSQ_9

IC501-*1

DDR_512MB_MICRON

M8

A0

VREFCA
A1
A2

H1

A3

VREFDQ
A4
A5

L8

A6

ZQ
A7
A8

B2

A9

VDD_1

D9

A10/AP

VDD_2

G7

A11

VDD_3

K2

A12/BC

VDD_4

K8

A13

VDD_5

N1

VDD_6

N9

NC_5

VDD_7

R1

VDD_8

R9

BA0

VDD_9
BA1
BA2

A1

VDDQ_1

A8

CK

VDDQ_2

C1

CK

VDDQ_3

C9

CKE

VDDQ_4

D2

VDDQ_5

E9

CS

VDDQ_6

F1

ODT

VDDQ_7

H2

RAS

VDDQ_8

H9

CAS

VDDQ_9
WE

J1

NC_1

J9

RESET

NC_2

L1

NC_3

L9

NC_4

T7

DQSL

A14

DQSL

A9

DQSU

VSS_1

B3

DQSU

VSS_2

E1

VSS_3

G8

DML

VSS_4

J2

DMU

VSS_5

J8

VSS_6

M1

DQ0

VSS_7

M9

DQ1

VSS_8

P1

DQ2

VSS_9

P9

DQ3

VSS_10

T1

DQ4

VSS_11

T9

DQ5

VSS_12
DQ6
DQ7

B1

VSSQ_1

B9

DQ8

VSSQ_2

D1

DQ9

VSSQ_3

D8

DQ10

VSSQ_4

E2

DQ11

VSSQ_5

E8

DQ12

VSSQ_6

F9

DQ13

VSSQ_7

G1

DQ14

VSSQ_8

G9

DQ15

VSSQ_9

+1.5V_DDR

IC502-*1

MT41K256M16HA-125:E

DDR_512MB_MICRON

N3

A0

P7

A1

P3

A2

N2

A3

P8

A4

P2

A5

R8

A6

R2

A7

T8

A8

R3

A9

L7

A10/AP

R7

A11

N7

A12/BC

T3

A13

M7

NC_5

M2

BA0

N8

BA1

M3

BA2

J7

CK

K7

CK

K9

CKE

L2

CS

K1

ODT

J3

RAS

K3

CAS

L3

WE

T2

RESET

F3

DQSL

G3

DQSL

C7

DQSU

B7

DQSU

E7

DML

D3

DMU

E3

DQ0

F7

DQ1

F2

DQ2

F8

DQ3

H3

DQ4

H8

DQ5

G2

DQ6

H7

DQ7

D7

DQ8

C3

DQ9

C8

DQ10

C2

DQ11

A7

DQ12

A2

DQ13

B8

DQ14

A3

DQ15

M1_DDR_VREFCA

R518

1uF

C524

1uF

C525

M8

VREFCA

H1

VREFDQ

L8

ZQ

B2

VDD_1

D9

VDD_2

G7

VDD_3

K2

VDD_4

K8

VDD_5

N1

VDD_6

N9

VDD_7

R1

VDD_8

R9

VDD_9

A1

VDDQ_1

A8

VDDQ_2

C1

VDDQ_3

C9

VDDQ_4

D2

VDDQ_5

E9

VDDQ_6

F1

VDDQ_7

H2

VDDQ_8

H9

VDDQ_9

J1

NC_1

J9

NC_2

L1

NC_3

L9

NC_4

T7

A14

A9

VSS_1

B3

VSS_2

E1

VSS_3

G8

VSS_4

J2

VSS_5

J8

VSS_6

M1

VSS_7

M9

VSS_8

P1

VSS_9

P9

VSS_10

T1

VSS_11

T9

VSS_12

B1

VSSQ_1

B9

VSSQ_2

D1

VSSQ_3

D8

VSSQ_4

E2

VSSQ_5

E8

VSSQ_6

F9

VSSQ_7

G1

VSSQ_8

G9

VSSQ_9

M1_DDR_VREFDQ

240

DDR3 1.5V bypass Cap

: Place these caps near Memory

1_2Gbit : T7(NC_6)

M1_DDR_RESET_N

M1_DDR_DQS_N2

IC501-*2

H5TQ2G63FFR-PBC

DDR_256MB_HYNIX_1600_29n

N3

M8

A0

VREFCA

P7

A1

P3

A2

N2

H1

A3

VREFDQ

P8

A4

P2

A5

R8

L8

A6

ZQ

R2

A7

T8

A8

R3

B2

A9

VDD_1

L7

D9

A10/AP

VDD_2

R7

G7

A11

VDD_3

N7

K2

A12/BC

VDD_4

T3

K8

A13

VDD_5

N1

VDD_6

M7

N9

NC_5

VDD_7

R1

VDD_8

M2

R9

BA0

VDD_9

N8

BA1

M3

BA2

A1

VDDQ_1

J7

A8

CK

VDDQ_2

K7

C1

CK

VDDQ_3

K9

C9

CKE

VDDQ_4

D2

VDDQ_5

L2

E9

CS

VDDQ_6

K1

F1

ODT

VDDQ_7

J3

H2

RAS

VDDQ_8

K3

H9

CAS

VDDQ_9

L3

WE

J1

NC_1

T2

J9

RESET

NC_2

L1

NC_3

L9

NC_4

F3

T7

DQSL

NC_6

G3

DQSL

C7

A9

DQSU

VSS_1

B7

B3

DQSU

VSS_2

E1

VSS_3

E7

G8

DML

VSS_4

D3

J2

DMU

VSS_5

J8

VSS_6

E3

M1

DQL0

VSS_7

F7

M9

DQL1

VSS_8

F2

P1

DQL2

VSS_9

F8

P9

DQL3

VSS_10

H3

T1

DQL4

VSS_11

H8

T9

DQL5

VSS_12

G2

DQL6

H7

DQL7

B1

VSSQ_1

D7

B9

DQU0

VSSQ_2

C3

D1

DQU1

VSSQ_3

C8

D8

DQU2

VSSQ_4

C2

E2

DQU3

VSSQ_5

A7

E8

DQU4

VSSQ_6

A2

F9

DQU5

VSSQ_7

B8

G1

DQU6

VSSQ_8

A3

G9

DQU7

VSSQ_9

4Gbit : T7(A14)

M1_DDR_A0

M1_DDR_A2
M1_DDR_A3
M1_DDR_A4
M1_DDR_A5
M1_DDR_A6
M1_DDR_A7
M1_DDR_A8

M1_DDR_A9
M1_DDR_A10
M1_DDR_A11
M1_DDR_A12
M1_DDR_A13
M1_DDR_A14
M1_DDR_A15

M1_DDR_BA0
M1_DDR_BA1
M1_DDR_BA2

M1_U_CLK

M1_U_CLKN
M1_DDR_CKE

M1_DDR_ODT

M1_DDR_RASN
M1_DDR_CASN

M1_DDR_WEN

M1_DDR_DQS2

M1_DDR_DQS3

M1_DDR_DQS_N3

M1_DDR_DM2
M1_DDR_DM3

M1_DDR_DQ16
M1_DDR_DQ17
M1_DDR_DQ18
M1_DDR_DQ19
M1_DDR_DQ20
M1_DDR_DQ21
M1_DDR_DQ22
M1_DDR_DQ23

M1_DDR_DQ24
M1_DDR_DQ25
M1_DDR_DQ26
M1_DDR_DQ27
M1_DDR_DQ28
M1_DDR_DQ29
M1_DDR_DQ30
M1_DDR_DQ31

IC502-*2

H5TQ2G63FFR-PBC

DDR_256MB_HYNIX_1600_29n

N3

A0

VREFCA

P7

A1

P3

A2

N2

A3

VREFDQ

P8

A4

P2

A5

R8

A6

R2

A7

T8

A8

R3

A9

VDD_1

L7

A10/AP

VDD_2

R7

A11

VDD_3

N7

A12/BC

VDD_4

T3

A13

VDD_5
VDD_6

M7

NC_5

VDD_7
VDD_8

M2

BA0

VDD_9

N8

BA1

M3

BA2

VDDQ_1

J7

CK

VDDQ_2

K7

CK

VDDQ_3

K9

CKE

VDDQ_4
VDDQ_5

L2

CS

VDDQ_6

K1

ODT

VDDQ_7

J3

RAS

VDDQ_8

K3

CAS

VDDQ_9

L3

WE

NC_1

T2

RESET

NC_2
NC_3
NC_4

F3

DQSL

NC_6

G3

DQSL

C7

DQSU

VSS_1

B7

DQSU

VSS_2
VSS_3

E7

DML

VSS_4

D3

DMU

VSS_5
VSS_6

E3

DQL0

VSS_7

F7

DQL1

VSS_8

F2

DQL2

VSS_9

F8

DQL3

VSS_10

H3

DQL4

VSS_11

H8

DQL5

VSS_12

G2

DQL6

H7

DQL7

VSSQ_1

D7

DQU0

VSSQ_2

C3

DQU1

VSSQ_3

C8

DQU2

VSSQ_4

C2

DQU3

VSSQ_5

A7

DQU4

VSSQ_6

A2

DQU5

VSSQ_7

B8

DQU6

VSSQ_8

A3

DQU7

VSSQ_9

+1.5V_DDR

IC502

H5TQ4G63AFR-PBC

N3

DDR3

A0

P7

4Gbit

A1

P3

DDR_512MB_HYNIX_1600_29n

A2

N2

A3

P8

A4

P2

A5

R8

A6

R2

A7

T8

A8

R3

A9

L7

A10/AP

R7

A11

N7

A12/BC

T3

A13

T7

A14

M7

A15

M2

BA0

N8

BA1

M3

BA2

J7

CK

K7

CK

K9

CKE

L2

CS

K1

ODT

J3

RAS

K3

CAS

L3

WE

T2

RESET

F3

DQSL

G3

DQSL

C7

DQSU

B7

DQSU

E7

DML

D3

DMU

E3

DQL0

F7

DQL1

F2

DQL2

F8

DQL3

H3

DQL4

H8

DQL5

G2

DQL6

H7

DQL7

D7

DQU0

C3

DQU1

C8

DQU2

C2

DQU3

A7

DQU4

A2

DQU5

B8

DQU6

A3

DQU7

IC501-*3

MT41K128M16JT-125:K

DDR_256MB_MICRON

M8

H1

L8

ZQ

B2
D9
G7
K2
K8
N1
N9
R1
R9

A1
A8
C1
C9
D2
E9
F1
H2
H9

J1
J9
L1
L9
T7

A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9

B1
B9
D1
D8
E2
E8
F9
G1
G9

N3

A0

P7

A1

P3

A2

N2

A3

P8

A4

P2

A5

R8

A6

R2

A7

T8

A8

R3

A9

L7

A10/AP

R7

A11

N7

A12/BC

T3

A13

M7

NC_5

M2

BA0

N8

BA1

M3

BA2

J7

CK

K7

CK

K9

CKE

L2

CS

K1

ODT

J3

RAS

K3

CAS

L3

WE

T2

RESET

F3

DQSL

G3

DQSL

C7

DQSU

B7

DQSU

E7

DML

D3

DMU

E3

DQ0

F7

DQ1

F2

DQ2

F8

DQ3

H3

DQ4

H8

DQ5

G2

DQ6

H7

DQ7

D7

DQ8

C3

DQ9

C8

DQ10

C2

DQ11

A7

DQ12

A2

DQ13

B8

DQ14

A3

DQ15

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

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

ZQ

NC_1
NC_2
NC_3
NC_4
NC_6

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

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

M8

H1

L8

B2
D9
G7
K2
K8
N1
N9
R1
R9

A1
A8
C1
C9
D2
E9
F1
H2
H9

J1
J9
L1
L9
T7

A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9

B1
B9
D1
D8
E2
E8
F9
G1
G9

ZQ

M8

H1

L8

B2
D9
G7
K2
K8
N1
N9
R1
R9

A1
A8
C1
C9
D2
E9
F1
H2
H9

J1
J9
L1
L9

A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9

B1
B9
D1
D8
E2
E8
F9
G1
G9

MT41K128M16JT-125:K

IC502-*3

DDR_256MB_MICRON

N3

A0

P7

A1

P3

A2

N2

A3

P8

A4

P2

A5

R8

A6

R2

A7

T8

A8

R3

A9

L7

A10/AP

R7

A11

N7

A12/BC

T3

A13

M7

NC_5

M2

BA0

N8

BA1

M3

BA2

J7

CK

K7

CK

K9

CKE

L2

CS

K1

ODT

J3

RAS

K3

CAS

L3

WE

T2

RESET

F3

DQSL

G3

DQSL

C7

DQSU

B7

DQSU

E7

DML

D3

DMU

E3

DQ0

F7

DQ1

F2

DQ2

F8

DQ3

H3

DQ4

H8

DQ5

G2

DQ6

H7

DQ7

D7

DQ8

C3

DQ9

C8

DQ10

C2

DQ11

A7

DQ12

A2

DQ13

B8

DQ14

A3

DQ15

M1_1_DDR_VREFCA

R519

+1.5V_DDR

C540
C541

M8

VREFCA

H1

VREFDQ

L8

ZQ

B2

VDD_1

D9

VDD_2

G7

VDD_3

K2

VDD_4

K8

VDD_5

N1

VDD_6

N9

VDD_7

R1

VDD_8

R9

VDD_9

A1

VDDQ_1

A8

VDDQ_2

C1

VDDQ_3

C9

VDDQ_4

D2

VDDQ_5

E9

VDDQ_6

F1

VDDQ_7

H2

VDDQ_8

H9

VDDQ_9

J1

NC_1

J9

NC_2

L1

NC_3

L9

NC_4

T7

NC_6

A9

VSS_1

B3

VSS_2

E1

VSS_3

G8

VSS_4

J2

VSS_5

J8

VSS_6

M1

VSS_7

M9

VSS_8

P1

VSS_9

P9

VSS_10

T1

VSS_11

T9

VSS_12

B1

VSSQ_1

B9

VSSQ_2

D1

VSSQ_3

D8

VSSQ_4

E2

VSSQ_5

E8

VSSQ_6

F9

VSSQ_7

G1

VSSQ_8

G9

VSSQ_9

M1_1_DDR_VREFDQ

240

1uF
1uF

DDR3 1.5V bypass Cap

: Place these caps near Memory

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

M14-DDR3(DE)

2014.04.10
5

PAGE 6

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

VDD3V3_HDMI

AVDD33

C637

0.1uF
16V

+1.5V_DDR

TP5207

+1.5V_DDR

TP5208

AVDD25_C4TX

AVDD25

AVDD25_AUD

GND JIG POINT

DVDD33 +1.1V_VDD

L18
L21
L22
L23
M23
T11

Y23
AA23
AC12
AC13
AC14
AC15
AC11

P23

R23

T23

U23

V23

AF22

F9
F10
F11
F12
F13
F14
F15
F16
F17

G6

H6

J6

K6

L6

M6

N6

P6

R6

V11
W11
Y11

AA11
AC18
AC19
AC20
AC21
AC22
AC23

G19
H19
H20

AC17
AB23

JP602

JP601

LG1311

DVDD33_1
DVDD33_2
DVDD33_3
DVDD33_4
DVDD33_5
DVDD33_6
DVDD33_7
DVDD33_8
DVDD33_9
DVDD33_10
DVDD33_11
DVDD33_12
AVDD33_BT_USB
AVDD33_USB_1
AVDD33_USB_2
AVDD33_HDMI_1
AVDD33_HDMI_2
AVDD33_HDMI_3

AVDD33_CVBS

DVDD15_M0_1
DVDD15_M0_2
DVDD15_M0_3
DVDD15_M0_4
DVDD15_M0_5
DVDD15_M0_6
DVDD15_M0_7
DVDD15_M0_8
DVDD15_M0_9

DVDD15_M1_1
DVDD15_M1_2
DVDD15_M1_3
DVDD15_M1_4
DVDD15_M1_5
DVDD15_M1_6
DVDD15_M1_7
DVDD15_M1_8
DVDD15_M1_9

AVDD25_C4TX_1
AVDD25_C4TX_2
AVDD25_C4TX_3
AVDD25_C4TX_4
AVDD25_COMP_1
AVDD25_COMP_2
AVDD25_CVBS_1
AVDD25_CVBS_2
AVDD25_DMD
AVDD25_AAD
DVDD25_XTAL
AVDD25_DR3PLL
SP_VQPS

AVDD25_AUD
AVDD25_APLL

JP604

JP603

IC101

AVDD11_COMP_LLPLL

DVDD11_1
DVDD11_2
DVDD11_3
DVDD11_4
DVDD11_5
DVDD11_6
DVDD11_7
DVDD11_8

DVDD11_9
DVDD11_10
DVDD11_11
DVDD11_12
DVDD11_13
DVDD11_14
DVDD11_15
DVDD11_16
DVDD11_17
DVDD11_18
DVDD11_19
DVDD11_20
DVDD11_21
DVDD11_22
DVDD11_23
DVDD11_24
DVDD11_25
DVDD11_26
DVDD11_27
DVDD11_28
DVDD11_29
DVDD11_30
DVDD11_31
DVDD11_32
DVDD11_33
DVDD11_34
DVDD11_35
DVDD11_36
DVDD11_37
DVDD11_38
DVDD11_39

DVDD11_40
DVDD11_41
DVDD11_42
DVDD11_43
DVDD11_44
DVDD11_45
DVDD11_46
DVDD11_47
DVDD11_48
DVDD11_49
DVDD11_50
DVDD11_51

AVDD11_APLL

AVDD11_C4TX_1
AVDD11_C4TX_2
AVDD11_C4TX_3
AVDD11_C4TX_4

DVDD11_XTAL

DVDD11_DR3PLL

DVDD11_CVBSPLL

AVDD11_DMD_1
AVDD11_DMD_2

DVDD18_EMMC_1
DVDD18_EMMC_2

M20
M21
N13
N14
N15
N16
N17
N18
P20
P21
R13
R14
R15
R16
R17
R18
R19
R20
R21
T13
T20
T21
U14
U15
U16
U17
U18
U19
U20
U21
V13
V20
V21
W13
W14
W15
W16
W17
W18
W19
Y13
Y20
Y21
AA13
AA14
AA15
AA17
AA18
AA19
AA20
AA21
AB21
AB19
V12
W12
Y12
AA12

G18
H18

AF23
AF24
AF25

L26
M26

TP5209

+1.1V_VDD

AVDD11_DMD

TP5210

DVDD18_EMMC

+3.3V_Bypass Cap

+3.3V_NORMAL

L601

BLM18PG121SN1D

C601

4.7uF
10V

+2.5V_Bypass Cap

+2.5V_NORMAL

L602

BLM18PG121SN1D

C602

4.7uF
10V

+2.5V_NORMAL

L603

BLM18PG121SN1D

AVDD25_AUD

C603

4.7uF
10V

DVDD33

AVDD25

C604

4.7uF
10V

C605

4.7uF
10V

C606

4.7uF
10V

C607

0.1uF

C608

0.1uF

C609

0.1uF

B22
B24
C22
C23
C24

D20
D21

E20
E21

F18
F19
F20
F21

G10
G11
G12
G13
G14
G15
G16
G17
G20
G21
G22
G23
G24
G25
G26
G27

H10
H11
H12
H13
H14
H15
H16
H17
H21
H22
H23
H24
H25
H26
H27
H31

J26
J27

K26
K27

L11
L12
L13
L14
L15
L16
L17
L19
L20
L27

M11
M12
M13
M14
M15
M16
M17
M18
M19
M22
M27

N11
N12
N19
N20
N21
N22
N23
N26
N27
N30

P11
P12
P13
P14
P15
P16
P17
P18

D4
D5
D6

E6

F6
F7
F8

G7
G8
G9

H7
H8
H9

J7
J8

K7
K8

L7
L8

M7
M8

N7
N8

P7
P8

IC101

LG1311

GND_1
GND_2
GND_3
GND_4
GND_5
GND_6
GND_7
GND_8
GND_9
GND_10
GND_11
GND_12
GND_13
GND_14
GND_15
GND_16
GND_17
GND_18
GND_19
GND_20
GND_21
GND_22
GND_23
GND_24
GND_25
GND_26
GND_27
GND_28
GND_29
GND_30
GND_31
GND_32
GND_33
GND_34
GND_35
GND_36
GND_37
GND_38
GND_39
GND_40
GND_41
GND_42
GND_43
GND_44
GND_45
GND_46
GND_47
GND_48
GND_49
GND_50
GND_51
GND_52
GND_53
GND_54
GND_55
GND_56
GND_57
GND_58
GND_59
GND_60
GND_61
GND_62
GND_63
GND_64
GND_65
GND_66
GND_67
GND_68
GND_69
GND_70
GND_71
GND_72
GND_73
GND_74
GND_75
GND_76
GND_77
GND_78
GND_79
GND_80
GND_81
GND_82
GND_83
GND_84
GND_85
GND_86
GND_87
GND_88
GND_89
GND_90
GND_91
GND_92
GND_93
GND_94
GND_95
GND_96
GND_97
GND_98
GND_99
GND_100
GND_101
GND_102
GND_103
GND_104
GND_105
GND_106
GND_107
GND_108
GND_109
GND_110
GND_111
GND_112
GND_113

GND_114
GND_115
GND_116
GND_117
GND_118
GND_119
GND_120
GND_121
GND_122
GND_123
GND_124
GND_125
GND_126
GND_127
GND_128
GND_129
GND_130
GND_131
GND_132
GND_133
GND_134
GND_135
GND_136
GND_137
GND_138
GND_139
GND_140
GND_141
GND_142
GND_143
GND_144
GND_145
GND_146
GND_147
GND_148
GND_149
GND_150
GND_151
GND_152
GND_153
GND_154
GND_155
GND_156
GND_157
GND_158
GND_159
GND_160
GND_161
GND_162
GND_163
GND_164
GND_165
GND_166
GND_167
GND_168
GND_169
GND_170
GND_171
GND_172
GND_173
GND_174
GND_175
GND_176
GND_177
GND_178
GND_179
GND_180
GND_181
GND_182
GND_183
GND_184
GND_185
GND_186
GND_187
GND_188
GND_189
GND_190
GND_191
GND_192
GND_193
GND_194
GND_195
GND_196
GND_197
GND_198
GND_199
GND_200
GND_201
GND_202
GND_203
GND_204
GND_205
GND_206
GND_207
GND_208
GND_209
GND_210
GND_211
GND_212
GND_213
GND_214
GND_215
GND_216
GND_217
GND_218
GND_219
GND_220
GND_221
GND_222
GND_223
GND_224
GND_225
GND_226

P19
P22
P26
P30
R7
R8
R11
R12
R22
R26
R27
T6
T7
T8
T12
T14
T15
T16
T17
T18
T19
T22
T26
T27
U6
U7
U8
U11
U12
U13
U22
U26
V4
V5
V6
V7
V8
V14
V15
V16
V17
V18
V19
V22
V26
V30
V31
W4
W8
W20
W21
W22
W23
W26
W27
Y2
Y3
Y4
Y8
Y14
Y15
Y16
Y17
Y18
Y19
Y22
Y26
AA8
AA16
AA22
AA26
AB11
AB12
AB13
AB14
AB15
AB16
AB17
AB18
AB20
AB22
AB26
AB30
AB31
AC16
AC26
AD26
AE26
AF6
AF8
AF9
AF10
AF11
AF12
AF13
AF14
AF15
AF16
AF17
AF18
AF19
AF20
AF21
AF26
AG20
AG25
AG31
AH25
AJ25
AK9
AK25
AL9
AL15

+1.1V_Bypass Cap

+3.3V_NORMAL

16V

L606

BLM18PG121SN1D

C614

4.7uF

AVDD33

10V

C615

0.1uF
16V

AFE 3CH Power

+2.5V_NORMAL

16V

16V

AVDD25_C4TX

L604

BLM18PG121SN1D

C610

0.1uF
16V

C613

4.7uF

C616

0.1uF
16V

10V

+1.1V_VDD

C617

C618

4.7uF

4.7uF

10V

+1.1V_VDD

BLM18PG121SN1D

10V

L607

C619

4.7uF
10V

AVDD11_DMD

C622

4.7uF
10V

C620

4.7uF
10V

C625

0.1uF

C623

4.7uF

16V

C627

C626

0.1uF

10V

16V

0.1uF

C628

0.1uF

16V

16V

+1.5V_Bypass Cap

+1.5V_DDR

+1.5V_DDR

OPT

C629
22uF

10V

OPT

C630
22uF

10V

C631

0.1uF
16V

C632

0.1uF
16V

C633

0.1uF
16V

C634

0.1uF
16V

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

11/05/31

xxLY960H-ZA 2014.04.10

M14-POWER

6

+3.5V_ST

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

RL_ON

+3.5V_ST

L/DIM0_MOSI

R2301

10K

OPT

R2361

10K

+12V

C2306

0.1uF

R2343

0

OPT

R2300

B

10K

UBW2012-121F

C2307

0.1uF
16V

50V

RT1P141C-T112

C

Q2300
MMBT3904(NXP)

E

VA23001

AMOTECH CO., LTD.

L2304

UBW2012-121F

L2303

5.6V

Q2303

B

5V

ZD2303

E

C

PWR ON

3.5V

3.5V

L/DIM0_MOSI

POWER_WAFER_18PIN

P2300

SMAW200-H18S5

1

1
3

3
5

5

GND

7

7

24V

10

9

9

10

GND

11

12

12

11

12V

13

14

14

13

12V

15

16

16

15

GND

17

18

18

17

GND

20

19

GND

21

22

19

23

24

25

.

SMAW200-H24S5

P2301

POWER_WAFER_24PIN

INV ON

2

2

PDIM#1

4

4

3.5V

6

6

PDIM#2

8

8

24V
GND
12V
24V
GND
GND
L/DIMO_VS
L/DIM0_SCLK

L2306

UBW2012-121F

C2316

0.1uF
50V

R2309
100

+24V

+3.3V_NORMAL

R2310
1K
OPT

10K

R2334

R2354

4.7K
OPT

R2356
1K
OPT

INV_CTL

PWM_DIM

PWM_DIM2

R2355

4.7K
OPT

L/DIM0_VS
L/DIM0_SCLK

+3.3V - eMMC 4.41

+3.5V_ST

+3.3V_NORMAL

L2302

BLM18PG121SN1D

C2305

0.1uF
16V

C2300
22uF
10V

3.3V_EMMC

+1.8V - eMMC 4.51(LG1311-B0)

+3.3V_NORMAL

IC2306

AZ1117EH-ADJTRG1

ADJ/GND

+12V

+3.3V_NORMAL

L2300
BLM18PG121SN1D

C2302

C2303

10uF

0.1uF

16V

16V

R23 03

68K

1/1 6W
1%

R1

1/1 6W

1%

R2304 10K

R2

R23 05

22K

POWER_ON/OFF1

R2302

5.1K

1/16W
1%

EN

VFB

VREG5

SS

3.3V_DCDC_TI

IC2300-*1

TPS54327DDAR

1

2

3

4

THERMAL

[EP]GND

VIN

8

VBST

9

7

SW

6

GND

5

3.3V_DCDC_RHOM

3.3V_DCDCl_TI
C2312-*1

3300pF
50V

C2304 100pF 50V

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

DVDD18_EMMC

OUTIN

C2310
1uF
10V

C2312
2200pF
50V

3.3V_DCDC_RHOM

1%

1/16W

1%

1/16W

EN

FB

VREG

SS

R2347
1

75

R2357

C2301
10uF

33

10V

R2358

IC2300

BD9D320EFJ

1

2

3

3.3V_DCDC_ROHM

4

3A

9

THERMAL

8

7

6

5

C2308
10uF
10V

Vout=0.765*(1+R1/R2)

[EP]FIN

VIN

BOOT

SW

GND

D2302

2.5V

C2313

0.1uF
16V

L2301

2uH

+3.3V_NORMAL

C2314
22uF
10V

C2315
22uF
10V

ZD2300
5V

PANEL_POWER

+12V

Q2302

C2333
10uF

16V

PMV48XP

PANEL_CTL

L2313

UBW2012-121F

R2314

10K

C2331

0.1uF
50V

R2317

R2318

5.1K

B

30K

C

Q2301
MMBT3904(NXP)

E

+2.5V

IC2302

[EP]

IN

1

PG

2

VCC

3

1.5A

EN

4

9

THERMAL

OUT

8

FB

7

SS

6

GND

5

+3.3V_NORMAL

+5V_NORMAL

POWER_ON/OFF2_1

AP7173-SPG-13 HF(DIODES)

R2312

10K

C2327

10uF

10V

+1.1V_CORE

R2316

R1

R2319

9.1K

1/16W

1%

C2332

10uF

+12V

20K

R2323

L2307

C2326

C2328

1uF

10uF

16V

10V

16V

1/16W

R2

R2320

10.7K

1/16W

1%

1%

C2325

2200pF

FB

23

GND

22

MODE

21

VREG

20

VDD

19

NC_2

18

VIN_3

17

VIN_2

16

VIN_1

15

50V

Vout=0.6*(1+R1/R2)
SoC A0/A1 : 1.22V(R1/R2=10.7K,10.5K)
SoC B0 : 1.12V(R1/R2=9.1K,10.7K)(1309016)

POWER UP SEQUENCE

3.3V->2.5V->1.5V/1.1V->5V

39K

1/16W

5%

TRIP26NC_327GND128GND2

24VO25

THERMAL

29

IC2301

TPS53513RVER

8A

12

13

14

PGND_3

PGND_4

PGND_5

11

PGND_2

10

PGND_1

PANEL_VCC

D

S

G

C2337
2200pF
50V

R2346 3.3K

LVDS_DISCHARGE

1%

4.3 K

1/1 6W

R23 22

1%

R23 212K1/1 6W

C2347

0.1uF
50V

R1

C2346
10uF
10V

R2

Vout=0.8*(1+R1/R2)

R2311

10K

R23 15

91K

[EP]

1

2

3

4

5

6

7

8

9

1/1 6W

RF

PGOOD

EN

VBST

NC_1

SW_1

SW_2

SW_3

SW_4

1%

C2323

0.1uF
16V

C2321

1000pF

R23 1327K

1/1 6W1%

50V

R23071K

R2306

C2320

2K

4.7

R2308
1/16W

C2322
470pF

R2351

3.3

5%

50V

1/16W

5%

L2305

1uH

C2319

22uF

0.1uF
16V

C2318

10V

+2.5V_NORMAL

C2357

0.1uF
5V

16V

ZD2304

POWER_ON/OFF2_3

+1.1V_VDD

C2317

ZD2301

22uF

22uF

10V

2.5V

10V

P_DET_BOTH_12_24V

R2349-*1
100

P_DET_BOTH_24_3.5V

R2336-*1
100K

P_DET_BOTH_24_3.5V

C2356-*1

0.1uF
50V

P_DET_BOTH_24_3.5V

P_DET_BOTH_12_24V

P_DET_BOTH_12_24V

P_DET_BOTH_12_24V

Power_DET

P_DET_BOTH_12_3.5V

P_DET_BOTH_12_3.5V

On-semi

P_DET_BOTH_12_3.5V_DIODES

IC2308-*1
APX803D29

VCC

RESET

3

2

1

GND

+12V

R2325-*1

2.7K
1%

R2326-*1

1.2K
1%

P_DET_BOTH_24_3.5V

P_DET_BOTH_24_3.5V

P_DET_ONLY_12V

P_DET_ONLY_12V
R2325

2.7K
1%

R2326

1.2K
1%

+24V

+3.5V_ST

R2330
0
5%

P_DET_BOTH_24_3.5V

+3.5V_ST

R2348

R2327

0

8.2K

P_DET_BOTH_12_3.5V

R2328

1.5K
1%

P_DET_BOTH_12_3.5V

DDR MAIN 1.5V

10K

+3.5V_ST

L2308

C2340

C2339

0.1uF

10uF

16V

10V

THERMAL

17

IC2303-*1

TPS54319TRE

5

AGND

BOOT14PWRGD15EN16VIN_3

7

COMP

RT/CLK6VSENSE

13

PH_3

12

PH_2

11

PH_1

10

SS/TR

9

8

1.5V_DCDC_TI
R2329-*1
15K

1/16W
5%

C2344-*1

4700pF50V

1.5V_DCDC_TI

1.5V_DCDC_TI

EP[GND]

VIN_1

1

VIN_2

2

GND_1

3

GND_2

4

PVIN_1

PVIN_2

PGND_1

PGND_2

[EP]FIN

1

THERMAL

2

3

BD9A300MUV

4

1.5V_DCDC_ROHM
5

AGND8MODE

Vout=0.8*(1+R1/R2)

+5.0V normal & USB

+24V

R23 35 1 6K 1 %

R23 4115 0K 1%

R23 40 1 6K 1%

L2310

120-ohm

C2309
10uF
35V
OPT

C2311
10uF
35V

AGND

[EP]

28

VIN_1

1

THERMAL

VIN_2

2

VIN_3

C2329

0.1uF
50V

1uF

25V

C23 24

3

PGND_1

4

SN1302001(TPS65286RHDR)

PGND_2

5

PGND_3

6

V7V

7

8

MODE/SYNC

C2330

0.0068uF
50V

RSET2

27

29

IC2304

6A

9EN10

SW_OUT211SW_OUT1

10K

R2339

+5V_USB_3

L2312

BLM18PG121SN1D

POWER_ON/OFF2_4

Non_Cruise

xxLY960H-ZA

MAIN POWER

COMP25RLIM26RSET1

SW_EN213SW_EN1

R2324

17

IC2303

6

FB

C2334
2200pF
50V

R2342
10K

12

USB_CTL2

C2355

0.1uF
16V

C2356

0.1uF
50V

C2353

0.1uF

16V

7

ITH

22SS23FB24

21

20

19

18

17

16

15

14

NFAULT2

USB_CTL3

R2327-*1

8.2K

R2328-*1

P_DET_BOTH_12_24V

1.5K
1%

R2325-*2

2.7K
1%

P_DET_BOTH_12_24V

R2326-*2

1.2K
1%

R2337
100K

RESET IC_ROHM

IC2307

BD48K28G

VDD

3

1

GND

P_DET_BOTH_12_3.5V

R2336
100K

P_DET_BOTH_12_3.5V_ROHM

IC2308

BD48K28G

VDD

3

1

GND

C2341

0.1uF

1.5V_DCDC_TI

16V

BOOT14PGD15EN16AVIN

13

SW_3

12

SW_2

11

SW_1

10

C2342

SS

9

0.01uF
50V

R2331

5%

330K1/16W

R2329

C2344

8.2K
1/16W1%

50V

1.5V_DCDC_RHOM

1.5V_DCDC_RHOM

3A

OPT
C2335

C2336

100pF

0.047uF

50V

25V

C2343

82pF

LX_3

LX_2

LX_1

BST

SW_IN2

SW_IN1

NFAULT1

/USB_OCD2

+5V_USB_2

50V

L2311

4.7uH

5%

PAGE 8

R2336-*2
100K

R2349-*2
100

VOUT

2

VOUT

2

POWER_ON/OFF2_2

NR5040T2R2N
L2309

2.2uH

2700pF

C2338

0.047uF
25V

100K

R2344

1/16W

/USB_OCD3

Vout=0.6*(1+R1/R2)

5.1V:R1-51K, R2-6.8K

C2356-*2

0.1uF
50V

P_DET_BOTH_12_24V

+3.5V_ST

R2350
100

R2349
100

P_DET_BOTH_12_3.5V

C2345

C2349

22uF

22uF

10V

10V

R2

1%

6.8K

1/16W

R2345

C2348
22uF
10V

R1

1%

51K

1/16W

R2352





L2311 Change, 131120

for Currnet UP

C2350
1uF

5%

10V

100K

R2353

1/16W

R2338
10K

OPT

not to RESET at 8kV ESD

+1.5V_DDR

1%

16K

R1

1/1 6W

R2

1%

18K

1/1 6W

C2351
22uF
10V

RESET IC_DIODES

VCC

C2365

0.1uF
16V

ST_3.5V-->3.5V

R23 32

1.5V_DCDC_TI

R23 33

C2352
10uF
10V

2014.04.10

IC2307-*1
APX803D29

RESET

3

2

1

GND

POWER_DET

24V-->3.48V
12V-->3.58V

2.5V

ZD2302

C2354
100pF
50V

+5V_NORMAL

23

HDMI (REAR HDMI1 with IR_OUT / SIDE HDMI2 ARC, HDMI3 with IR_OUT,MHL)

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

5V_HDMI_1

PAGE 10

BODY_SHIELD

20

EAG63530101

JK3202

DAADR019A

19

18

17

16

15

14

13

12

11

10

9

8

7

6

5

4

3

2

1

HP_DET

5V

GND

DDC_DATA

DDC_CLK

NC

CE_REMOTE

CK-

CK_GND

CK+

D0-

D0_GND

D0+

D1-

D1_GND

D1+

D2-

D2_GND

D2+

VA3215
ESD_HDMI

VA3208

ESD_HDMI

VA3206

ESD_HDMI

R3250

100K

R3265

AR3200

VA3207

ESD_HDMI

CEC_REMOTE

33

33

1/16W

IP4294CZ10-TBR

1
2
3
4
5

ESD_HDMI_TMDS

IP4294CZ10-TBR

ESD_HDMI_TMDS

HDMI2 with ARC

1
2
3
4
5

D3210

D3211

HDMI_HPD_1

DDC_SCL_1

DDC_SDA_1

10
9
8
7
6

10
9
8
7
6

VA3213

ESD_HDMI

5V_HDMI_1
R3248

1K
OPT

C3202 1uF

10V

R3249

3.9K
OPT

CK-_HDMI1
CK+_HDMI1

D0-_HDMI1
D0+_HDMI1

D1-_HDMI1

D1+_HDMI1

D2-_HDMI1
D2+_HDMI1

C3226

0.1uF
16V
OPT

ARC

SPDIF_OUT_ARC

+12V

820

BODY_SHIELD

GND

20

EAG63530101

JK3203

DAADR019A

19

18

17

16

15

14

13

12

11

10

9

8

7

6

5

4

3

2

1

HP_DET

5V

GND

DDC_DATA

DDC_CLK

NC

CE_REMOTE

CK-

CK_GND

CK+

D0-

D0_GND

D0+

D1-

D1_GND

D1+

D2-

D2_GND

D2+

5V_HDMI_4

VA3216
ESD_HDMI

R3211
1K

G

IR_OUT_HDMI3

CEC_REMOTE

R3212

D

Q3203
PMBFJ177

S

VA3212
ESD_HDMI

VA3210

ESD_HDMI

IP4294CZ10-TBR

1
2
3
4
5

ESD_HDMI_TMDS

IP4294CZ10-TBR

1
2
3
4
5

ESD_HDMI_TMDS

R3267

D3215

D3214

100K

HDMI3 with MHL/IR_OUT

OPT

VA3211

ESD_HDMI

10
9
8
7
6

10
9
8
7
6

AR3202

33

1/16W

R3261
0

HDMI_HPD_4

DDC_SCL_4
DDC_SDA_4

CK-_HDMI4
CK+_HDMI4

D0-_HDMI4
D0+_HDMI4

D1-_HDMI4
D1+_HDMI4

D2-_HDMI4
D2+_HDMI4

+5V_NORMAL

MHL_DET

R3243
1K

1/16W
5%

5.6V

VA3217

C3201

0.1uF

C3223

0.047uF
25V

D3201

A1

C

A2

B

Q3200
MMBT3904(NXP)

R3201

10K

+3.5V_ST

R3246

10K

C

E

R3247
10K

R3202
330K

B

VIN

GND

EN

E

C

IC3201

BD2242G

1

2

3

MMBT3906(NXP)

Q3201

5V_HDMI_4

D3202
MBR230LSFT1G

VOUT

6

5

4

ILIM

OC

MHL_DET

30V

C3203
10uF
10V

C3228
22uF
10V
OPT

R3204

100K

1%

R3200 16K

HDMI LEAKAGE Workaround in MTK A2(A0) (Default= with HDMI_LEAKAGE)

+3.3V_NORMAL

R3255
0

OPT

1/16W
5%

PANEL_VCC

R3254

10K

G

S

NTR4501NT1G

Q3202

D

VDD3V3_HDMI

C3227

0.1uF
16V

SHIELD

20

EAG59023302

JK3201

YKF45-7058V

19

18

17

16

15

14

13

12

11
10

9

8

7

6

5

4

3

2

1

HP_DET

5V

GND

DDC_DATA

DDC_CLK

NC

CE_REMOTE

CK-

CK_GND

CK+

D0-

D0_GND

D0+

D1-

D1_GND

D1+

D2-

D2_GND

D2+

5V_HDMI_2

HDMI_EXT_EDID

Q3206

HDMI_EXT_EDID

1K

R3268

ESD_HDMI

VA3209
ESD_HDMI

IR_OUT_HDMI1

CEC_REMOTE

VA3205

100K

C

R3251
33

HDMI_INT_EDID

R3266

MMBT3904(NXP)

E

B

1K

R3269

HDMI_EXT_EDID

VA3203
ESD_HDMI

1
2
3
4
5

ESD_HDMI_TMDS

1
2
3
4
5

ESD_HDMI_TMDS

HDMI1 with IR_OUT

HDMI_HPD_2

HDMI_EXT_EDID
R3270

4.7K
AR3201
33
1/16W

VA3204
ESD_HDMI

D3212

IP4294CZ10-TBR

10
9
8
7
6

D3213

IP4294CZ10-TBR

10
9
8
7
6

DDC_SCL_2

DDC_SDA_2

CK-_HDMI2
CK+_HDMI2

D0-_HDMI2
D0+_HDMI2

D1-_HDMI2
D1+_HDMI2

D2-_HDMI2
D2+_HDMI2

EDID

IC3203-*1

AT24C02C-SSHM-T

A0

1

A1

2

A2

3

GND

4

HDMI_EXT_EDID_ATMEL

IC3203

M24C02-RMN6T

E0

1

E1

2

E2

3

VSS

4

HDMI_EXT_EDID_ST

VCC

8

WP

7

SCL

6

SDA

5

VCC

8

WC

7

SCL

6

SDA

5

Q3208

RT1N141C-T112-1

HDMI_EXT_EDID

R3258
HDMI_EXT_EDID

R3259 33

HDMI_EXT_EDID

+3.5V_ST

R3253

4.7K
HDMI_EXT_EDID

C

B

E

For CEC

From HDMI Connector

CEC_REMOTE HDMI_CEC

5V_HDMI_2

+5V_NORMAL

A1

A2

D3216

MMBD6100

C

AR3206

47K

1/16W

33

EDID_WP

DDC_SCL_2

DDC_SDA_2

+5V_NORMAL

D3203
BAT54C

AR3205

47K

5V_HDMI_4

1/16W

+3.5V_ST

A2CA1

D3205

DDC_SDA_4
DDC_SCL_4

A2CA1

R3209
27K

D3208
BAT54_SUZHO

+3.5V_ST

G

D

+5V_NORMAL

D3200

AR3204

47K

1/16W

S

Q3207
RUE003N02

5V_HDMI_1

A2CA1

R3210
120K

DDC_SDA_1
DDC_SCL_1

To NEC MICOM

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

HDMI(MHL)

2014.04.10
32

+3.5V_ST

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

PAGE 11

DDTS TEST ONLY

M_REMOTE_RX

M_REMOTE_TX

R3401
10K
OPT

P3401

12507WS-04L

OPT

1

2

3

4

5

SPDIF OUT

SPDIF_OUT

C3402
47pF
50V

+3.3V_NORMAL

C3400

0.1uF
16V

GND

VCC

VINPUT

JK3401

JST1223-001

Fiber Optic

1

2

3

4

AV/COMPONENT REAR

PPJ245N2-01

JK3802

[GN/YL]E-LUG

6A

5A

[GN/YL]O-SPRING

4A

[GN/YL]CONTACT

5B

[BL]O-SPRING

7C

[RD1]E-LUG-S

5C

[RD1]O-SPRING

4C

[RD1]CONTACT

5D

[WH]O-SPRING

4E

[RD2]CONTACT

5E

[RD2]O-SPRING

6E

[RD2]E-LUG

VA3804

5.5V

VA3805

5.5V

VA3801

5.6V

+3.3V_NORMAL

VA3806

5.5V

R3404

10K

VA3803

5.6V

COMP1_Pb

COMP1_Pr

COMP1/AV1/DVI_L_IN

VA3802

5.6V

Place JACK Side

R3402
1K

COMP1/AV1/DVI_R_IN

AV1_CVBS_DET

+3.3V_NORMAL

R3810
10K

VA3800

5.6V

R3403
1K

C310
150pF

OPT

3216
R314
75

COMP1_DET

Place SOC Side

R327 100

R334 33

0.047uF

C325

C323 0.047uF

C328

1000pF

AV1_CVBS_IN_SOC

COMP2_Y_IN_SOC

COMP2_Y_IN_SOC_SOY

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

SPDIF 34

2014.04.10

RS232C

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

C3800 0.1uF

C3801 0.1uF

C3802 0.1uF

C3803 0.1uF

C1+

V+

C1-

C2+

C2-

V-

DOUT2

RIN2

IC3800

MAX3232CDR

1

2

3

4

5

6

7

8

EAN41348201

EXT UART SWITCH

CONNECTION

2A@5V /1A@12V FOR COMMERCIAL(RS-232C POWER)

DBG_SW

EXT_12V

EXT_5V

10

5

9

8

7

6

SPG09-DB-009

JK3803

4

3

2

1

C3804

0.1uF

IR_OUT_RS232C

D3804
20V
OPT

+3.5V_ST

R3811

4.7K

D3805
20V
OPT

R3814

4.7K

+3.5V_ST

R3820 100

R3821 100

50V

BAP70-02

D3803

RS232_RX

RS232_TX

R3834
1K

+3.5V_ST

VCC

16

GND

15

DOUT1

14

RIN1

13

ROUT1

12

DIN1

11

DIN2

10

ROUT2

9

UART_SW1

+3.5V_ST

SOC_TX

SOC_RX

B0 - A

L
H

B1 - A

SELECT

VCC

C3822

0.1uF

SELECT

VCC

C3823

0.1uF

IC3811

NLASB3157DFT2G

6

ON SEMICONDUCTOR

ANALOG SWITCH

5

A

4

EAN38256201

IC3812

NLASB3157DFT2G

6

ON SEMICONDUCTOR

ANALOG SWITCH

5

A

4

EAN38256201

M14 ADJ.

M14 DEBUG

B1

1

GND

2

B0

3

B1

1

GND

2

B0

3

R3801

22 R3805

R3802

R3803

R3804

SOC_DBG_TX

22

RS232_TX

22

SOC_DBG_RX

22

RS232_RX

SOC_NEC_RX

RS232_TX

SOC_NEC_TX

RS232_RX

UART_SW2

L

22

R3806
22

CONNECTION

B0 - A
B1 - AH

B1

GND

B0

B1

GND

B0

IC3802

NLASB3157DFT2G

1

ON SEMICONDUCTOR

ANALOG SWITCH

2

3

EAN38256201

IC3804

NLASB3157DFT2G

1

ON SEMICONDUCTOR

ANALOG SWITCH

2

3

EAN38256201

INTERACTIVE

NEC USB D/L

SELECT

6

VCC

5

C3811

0.1uF

A

4

SELECT

6

VCC

5

C3813

0.1uF

A

4

UART_SW2

+3.5V_ST

NEC_TX

NEC_RX

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

UART DBG SWITCH

UART_DBG_SW

L
H

SOC_DBG_TX

NEC_DBG_TXD

SOC_DBG_RX

NEC_DBG_RXD

CONNECTION

B0 - A
B1 - A

+3.5V_ST

R3844

4.7K

+3.5V_ST

R3845

4.7K
OPT

Debug NEC
Debug M14

B1

GND

B0

B1

GND

B0

IC3805

NLASB3157DFT2G

1

ON SEMICONDUCTOR

ANALOG SWITCH

2

3

EAN38256201

IC3807

NLASB3157DFT2G

1

ON SEMICONDUCTOR

ANALOG SWITCH

2

3

EAN38256201

EXT_SPK_CONTROL & DBG OUT

DBG_SW

D3806

5.6V

D3807

5.6V

CONNECTION

L

B0 - A DEBUG_NEC/M14

H

OPT

OPT

EXT.SPK VOL Control

B1 - A

E_SPRING

T_TERMINAL1

B_TERMINAL1

R_SPRING

T_SPRING

B_TERMINAL2

T_TERMINAL2

JK3801

PEJ027-04

3

6A

7A

4

5

7B

6B

EXT_SPK_CONTROL

2014.04.10

38

+3.3V_NORMAL

IC3806

R3849

UART_DBG_SW

SELECT

6

VCC

5

C3814

0.1uF

A

4

SELECT

6

VCC

5

C3815

0.1uF

A

4

+3.5V_ST

EXT_SPK_VOL+

JK_DBG_TX

JK_DBG_TX

EXT_SPK_VOL-

JK_DBG_RX

JK_DBG_RX

3.6K

+3.3V_NORMAL

R3851

3.6K

NLASB3157DFT2G

B1

1

ON SEMICONDUCTOR

ANALOG SWITCH

GND

2

B0

3

EAN38256201

NLASB3157DFT2G

B1

1

ON SEMICONDUCTOR

ANALOG SWITCH

GND

2

B0

3

EAN38256201

IC3808

SELECT

6

VCC

5

A

4

SELECT

6

VCC

5

A

4

+3.5V_ST

+3.5V_ST

C3816

0.1uF

C3817

0.1uF

DBG_SW

C3818

1000pF

C3819

1000pF

OPT

50V

OPT

50V

JP3801

JP3802

xxLY960H-ZA

RS232/UART/VOL_CTL

BT_RESET

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

WOL/WIFI_POWER_ON

I2C_SDA2

I2C_SCL2

LED_R

P4000

SMAW200-H18S5

C4006

+3.5V_ST

C4015
5pF
50V

OPT

22uF

10V

R4018
10

R4019
10

C4005

C4008
1000pF
50V

OPT

0.1uF

C4016
5pF
50V

OPT

C4003-*1

2K

2K_resistor

C4003

0.1uF

C4004

+3.5V_ST

R4005

10K

0.1uF

C4007
100pF

50V

R4012 100

R4013 100

IR

R4015

1.8K

OPT

C4009

0.1uF
16V

R4001

R4002

D4001

5.6V

100

100

GND

BT_RESET

NC
WOL
SDA
SCL
GND

IR

LED_R

1
3
5
7
9
11
13
15
17

19

2
4
6

8
10
12
14
16
18

GND

+3.5V_WOL

USB_DM
USB_DP
GND
GND
KEY1
KEY2
+3.5V_ST
GND

D4000

RCLAMP0502BA

WIFI_DMDP_ESD

C4001

0.1uF
OPT

WIFI_DM

WIFI_DP

+3.5V_WOL

+3.5V_ST

R4008

10K

5%

C4002

0.1uF
OPT

R4009

10K
5%

R4006

R4007

100

KEY1

100

KEY2

IR OUT

IR_OUT_CTRL

IR_OUT_RS232C

IR_OUT_HDMI1

R4031 30K

IR_OUT_HDMI3

R4033 30K

R4023 22

R4028 22

Q4003
2SC3052

C

B

E

R4032 22

Q4005
2SC3052

C

B

E

+3.5V_ST

Q4001

2SC3052

R4024

4.7K

C

B

E

Q4004

2SC3052

Q4006

2SC3052

+3.5V_ST

+3.5V_ST

C

E

R4025 10K

R4029

4.7K

C

B

E

R4034

4.7K

B

R4030 10K

R4035 10K

+3.5V_ST

R4026
47K

Q4002
2SC3052

C

B

E

R4027 47K

WOL POWER ENABLE CONTROL

+3.5V_ST

IN

WIFI_EN

R4022 33

R4021
10K

OPT

EN

IC4001

AP2151WG-7

5

WOL_SW_0.6A

4

+3.5V_WOL

OUT

1

GND

2

FLG

3

IC4001-*1

AP2191WG-7

IN

5

WOL_SW_1.6A

EN

4

WOL_SW Multi add, 131120

USE this after 131201

OUT

1

GND

2

FLG

3

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

IR / KEY

2014.04.10
40

PAGE 13

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

USB_DM3

USB_DP3

C4308

10uF

10V

C4306

22uF

10V

ESD_USB

USB_ESD_0502BA

D4301-*1
RCLAMP0502BA

+5V_USB_2

+5V_USB_3

5V

ZD4301

USB2 Side(Side Up)

MAX 1.5A

3AU04S-305- ZC- (LG)

JK4300

1234

USB DOWN ST REA M

D4301

RCLAMP0582B

USB_ESD_0582B

5

USB_DM2

USB_DP2

C4307

10uF

10V

C4304

22uF

10V

5V

ZD4300

ESD_USB

USB_ESD_0502BA

D4300-*1
RCLAMP0502BA

USB1 SIDE(Side Down)

MAX 1.5A

3AU04S-305- ZC- (LG)

JK4302

1234

USB DOWN ST REA M

5

D4300

RCLAMP0582B

USB_ESD_0582B

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

USB1/2

2014.04.10
43

AUDIO AMP(NTP7514)

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

Instant_Power_On

+24V

Q5602

C5631

4.7uF
50V

AO3407B

G

+3.3V_NORMAL

B

POWER_DET

AMP_PWR_EN

C5629

0.01uF
50V

L5607

UBW2012-121F

C5630

0.1uF
50V

R5614 10K

R5613
10K

+24V

AMP_MUTE

R5615
33K

R5616
47K

C

B

E

L5606

UBW2012-121F

OPT

AUD_LRCH

AUD_LRCK

AUD_SCK

I2C_SDA1

I2C_SCL1

R5600 10K

AMP_MUTE_MICOM

Q5600
MMBT3904(NXP)

+24V_AMP

+24V_AMP

DS

R5601
10K
AMP_MUTE_MICOM

C

Q5601
MMBT3904(NXP)
AMP_MUTE_MICOM

E

C5633

0.1uF
50V

C5601

1uF

10V

R5611
100

R5612
100

R5602 100

AMP_MUTE_MICOM

R5690 100

AMP_MUTE_PWR_DET

+3.3V_NORMAL

L5601
BLM18PG121SN1D

C5603

0.1uF
16V

C5602
1uF
10V

C5622
33pF
50V

C5600

1000pF

50V

AMP_RESET_N

MAIN_AMP_RESET

AUD_MASTER_CLK

C5623
33pF
50V

AMP_MUTE_MICOM

R5618 0

NC_1

VDD_PLL

NC_2

GND
NC_3
DVDD

SDATA

WCK

BCK

SDA

OPT

R5617 100

1000pF

[EP]GND

1
2
3
4
5
6
7
8
9
10

TP5601

C5624

50V

VDD_IO

40

11

SCL

R5619

4.7K

AD

CLK_I

GND_IO

38

39

THERMAL

41

NTP7514

12

13

FAULT

MONITOR_0

MONITOR_1

WOOFER_MUTE

50V

C5604

22000pF

BST1A

RESET

35

36

37

IC5600

0x54

14

15

16

BST2B

MONITOR_2

50V

C5605 22000pF

I2S_AMP

WOOFER_MUTE

PVDD1A

OUT1A

PGND1A

33

34

17

18

OUT2B

PGND2B

PVDD2B

PVDD1B

31

32

19

20

PVDD2A

+24V_AMP

30
29
28
27
26
25
24
23
22
21

C5606
10uF
35V

OUT1B
PGND1B
BST1B
VDR1
NC_4
AGND
VDR2
BST2A
PGND2A
OUT2A

+24V_AMP

C5607
10uF
35V

C5608
22000pF
50V

C5609
22000pF
50V

R5603

3.3
1/10W

C5611
390pF
50V

C5612
390pF
50V

R5604

3.3
1/10W

R5605

3.3
1/10W

C5613
390pF
50V

C5614
390pF
50V

R5606

3.3
1/10W

C5610
1uF
10V

L5604

10.0uH

NRS6045T100MMGK

L5605

10.0uH

NRS6045T100MMGK

C5615
1uF
10V

L5602

10.0uH

NRS6045T100MMGK

L5603

10.0uH

NRS6045T100MMGK

PAGE 18

C5616

0.47uF
50V

C5617

0.47uF
50V

C5618

0.1uF
50V

C5619

0.1uF
50V

C5620

0.1uF
50V

C5621

0.1uF
50V

R5607

4.7K

R5608

4.7K

R5609

4.7K

R5610

4.7K

SPK_L+

SPEAKER_L

SPK_L-

SPK_R+

SPEAKER_R

SPK_R-

WAFER-ANGLE

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

SPK_L+

SPK_L-

SPK_R+

SPK_R-

4

3

2

1

P5600

xxLY960H-ZA 2014.04.10

56AUDIO AMP(MAIN)

A1

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

TU_GND_A

1. should be guarded by ground

2. No via on both of them

3. Signal Width >= 12mils
Signal to Signal Width = 12mils

47

SHIELD

TU_H_EU

TU6701
TDJH-G101D

B1[+3.3V]

1

NC_1

2

IF_AGC

3

SCL

4

SDA

5

IF[P]

6

IF[N]

7

NC_2

8

NC_3

9

B1

B1

TU_GND_B

TU_GND_B

TU_H_BR

TU6706
TDJK-T101F

B1[+3.3V]

1

RF_S/W_CTL

2

IF_AGC

3

SCL

4

SDA

5

IF[P]

6

IF[N]

7

NC_1

8

NC_2

9

A1

B1

B1

47

SHIELD

TU_GND_B

A1

TU_GND_A

A1

TU_GND_A

TU_H/M_AJ

C6701

22

0

R6716-*1

TU_H/M_AJ

1000pF

630V

TU_H/M_EU_10

R6716

10

0

R6701

TU_H/M_AJ

TU_H/M_NON_AJ
C6702
1000pF
630V

R6716-*2

TU_H/M_EU_22

DVB-T GND

DVB-S JACK GND

A1

A1

TU_GND_A

47

SHIELD

TU_M_CN

TU6705
TDJM-C301D

B1[+3.3V]

1

RF_SW_CTL

2

NC_1

3

SCL_RF

4

SDA_RF

5

NC_2

6

NC_3

7

SIF

8

CVBS

9

NC_4

10

NC_5

11

ERROR

12

GND_1

13

MCLK

14

SYNC

15

VAILD

16

D0

17

D1

18

D2

19

D3

20

D4

21

D5

22

D6

23

D7

24

RESET_DEMOD

25

B2[+3.3V]

26

SCL_DEMOD

27

B3[+1.1V]

28

NC_6

29

SDA_DEMOD

30

B1

B1

TU_GND_B

A1

TU_GND_A

TU_M_BR

TU6704
TDJM-B101F

B1[+3.3V]

1

RF_SW_CTL

2

AIF_AGC

3

SCL_RF

4

SDA_RF

5

AIF[P]

6

AIF[N]

7

NC_1

8

NC_2

9

NC_3

10

NC_4

11

ERROR

12

GND_1

13

MCLK

14

SYNC

15

VAILD

16

D0

17

D1

18

D2

19

D3

20

D4

21

D5

22

D6

23

D7

24

RESET_DEMOD

25

B2[+3.3V]

26

SCL_DEMOD

27

B3[+1.1V]

28

NC_5

29

SDA_DEMOD

30

TU_GND_A

A1

A1

B1

A1

B1

47

SHIELD

TU6703
TDJM-G105D

47

SHIELD

TU_M_AJ

B1[+3.3V]

1

NC_1

2

AIF_AGC

3

SCL_RF

4

SDA_RF

5

AIF[P]

6

AIF[N]

7

NC_2

8

NC_3

9

NC_4

10

B2[+3.3V]

11

ERROR

12

GND_1

13

MCLK

14

SYNC

15

VAILD

16

D0

17

D1

18

D2

19

D3

20

D4

21

D5

22

D6

23

D7

24

RESET_DEMOD

25

B3[+3.3V]

26

SCL_DEMOD

27

B4[+1.1V]

28

F22_OUTPUT

29

SDA_DEMOD

30

B1

B1

should be guarded by ground,Match GND VIA

A1

A1

TU_GND_B

TU_GND_B

TU_GND_A

TU_M_EU

TU6702
TDJM-G101D

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

B1

47

47

B1[+3.3V]

NC_1

AIF_AGC

SCL_RF

SDA_RF

AIF[P]

AIF[N]

NC_2

NC_3

NC_4

B2[+3.3V]

ERROR

GND_1

MCLK

SYNC

VALID

D0

D1

D2

D3

D4

D5

D6

D7

RESET_DEMOD

B3[+3.3V]

SCL_DEMOD

B4[+1.1V]

F22_OUTPUT

SDA_DEMOD

LNB

GND

B1

TU_GND_B

TU_K/M/W_TW/BR/CO/CN

TU_K/M/W_TW/BR/CO/CN

close to TUNER

R6704
10

TU_ALL_IntDemod

R6705
10

TU_ALL_IntDemod

close to Tuner

C6705

0.1uF

LNB_TX

LNB_OUT

close to Tuner

C6703
100pF
50V

R6702 1K

TU_K/M/W_TW/BR/CO/CN

R6715
10K

TU_ALL_IntDemod

C6709
33pF

TU_H/M_EU/BR/TW/CO

C6710
33pF

TU_H/M_EU/BR/TW/CO

R6706 0

TU_ALL_2178B

TU_M_KR/EU // W_ALL

BLM18PG121SN1D

C6712

TU_M/W

16V

0.1uF

L6705

BLM18PG121SN1D

TU_M/W

TU_M/W

C6714

0.1uF

BLM18PG121SN1D

C6704

0.1uF

TU_ALL_IntDemod

C6706

0.1uF
16V

C6708

47pF
50V
OPT

IF_P

IF_N

TUNER_SIF

+3.3V_TUNER

L6702

C6711

0.1uF
TU_M_KR/EU // W_ALL

TU_M/W

R6709

/TU_RESET1

100

C6713

0.1uF
TU_M/W

Demod_Core

OPT

TP6700

TP6701

C6716
18pF
50V

OPT
C6715

18pF
50V

+3.3V_TUNER

L6701

R6703

C6707
47pF
50V
OPT

FE_DEMOD1_TS_ERROR

FE_DEMOD1_TS_CLK

FE_DEMOD1_TS_SYNC

FE_DEMOD1_TS_VAL

BLM18PG121SN1D

R6710 33

TU_M/W

R6711 33

TU_M/W

LNB_TX

LNB_OUT

1K

TU_M/W

L6703

Ground Width >= 24mils

AR6701

33

1/16W

TU_ALL

TU_ALL_2178B

FE_DEMOD1_TS_ERROR

FE_DEMOD1_TS_DATA[0]

FE_DEMOD1_TS_DATA[1]

FE_DEMOD1_TS_DATA[2]

FE_DEMOD1_TS_DATA[3]

FE_DEMOD1_TS_DATA[4]

FE_DEMOD1_TS_DATA[5]

FE_DEMOD1_TS_DATA[6]

FE_DEMOD1_TS_DATA[7]

+3.3V_TUNER

I2C_SCL4

I2C_SDA4

RF_SWITCH_CTL

IF_AGC

I2C_SCL6
I2C_SDA6

+3.3V_TUNER

R6707
200

E

B

C

AR6701-*1
200
1/16W

TU_W_BR/TW

TU_ALL_2178B

R6708

200

TU_ALL_2178B
Q6701
MMBT3906(NXP)

FE_DEMOD1_TS_DATA[0-7]

1608 perallel
because of derating

TU_CVBS

Global F/E Option Name

1. TU

2. Tuner Name = TDJ’H’,TDj’M’...

3. Country Name = KR,US,BR,EU ...

Example of Option name
TU_ALL_IntDemod = All Tuner type for Internal demod
TU_M/W = apply TDSM&TDSW Type Tuner

14’ Tuner Type for Global
TDJ’H’-G101D : Half NIM for EU,AJJA
TDJ’H’-H101F : Half NIM for US, KR
TDJ’K’-T101F : Half NIM for TW
TDJ’M’-C301D,F : FULL NIM for China
TDJ’M’-B101F : Brazil NIM with Isolater Type
TDJ’M’-K101F : colombia NIM
TDJ’M’-G101D,G105D,G151D : EU Combo&Full NIM
TDJ’M’-H101F,H151F : Korea PIP tuner
TDJ’W’-A151D : AJJA T2 PIP

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

T2 : Max 1.7A

else : Max 0.7A

TU_M/W

IC6701

POWER_ON/OFF2_1

+3.3V_NORMAL





L6704
BLM18PG121SN1D

C6717
22uF
10V
85C

+3.3V_TUNER

+3.5V_ST

TU_M/W
C6718
10uF
10V

TU_M/W

10K

R6712

+5V_NORMAL

C6720
1uF

TU_M/W

C6719

0.1uF
TU_M/W

AP2132MP-2.5TRG1

1

PG

2

EN

3

VIN

4

2A

VCTRL

EAN61387601

9

THERMAL

[EP]

8

GND

7

ADJ

6

VOUT

5

NC

1%

1/1 6W

1%

1/1 6W

10K

R67 13

TU_M/W_1.2V

R67 14

10. 5K

TU_M/W_1.2V

R2

R1

Demod_Core

R6713-*1

18K

TU_M/W_1.1V

R6714-*1

16K

TU_M/W_1.1V

TU_M/W
C6721
10uF
16V

1/16W

1%

1/16W

1%

Vout=0.6*(1+R1/R2)

xxLY960H-ZA

TUNER

2014.04.10
67

LVDS

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

[51Pin FHD LVDS Connector]

P7201

FI-RE51S-HF-J-R1500

LVDS

52

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

36

37

38

39

40

41

42

43

44

45

46

47

48

49

50

51

GND

NC

NC

NC

NC

CP_BOX

NC

CP_BOX

NC

OPT

LVDS_SEL

NC

NC

L/DIM_ENABLE

GND

RA0N

RA0P

RA1N

RA1P

RA2N

RA2P

GND

RACLKN

RACLKP

GND

RA3N

RA3P

RA4N

RA4P

GND

BIT_SEL

RB0N

RB0P

RB1N

RB1P

RB2N

RB2P

GND

RBCLKN

RBCLKP

GND

RB3N

RB3P

RB4N

RB4P

GND

GND

GND

GND

GND

NC

VLCD

VLCD

VLCD

VLCD

LGD_2D/3D_CTRL

33

R7210

0

R7200

R7201 0

0

R7204

R7218 33

LGD_T-Con_Scanning

R7220

R7219

L7200

UBW2012-121F

AUO_SHARP

2D/3D_CTL

AUO_L/D_EN

OPC_EN

33

33

TXA0N/TX11N
TXA0P/TX11P
TXA1N/TX10N
TXA1P/TX10P
TXA2N/TX9N
TXA2P/TX9P

TXACLKN/TX8N
TXACLKP/TX8P

TXA3N/TX7N
TXA3P/TX7P
TXA4N/TX6N
TXA4P/TX6P

TXB0N/TX5N
TXB0P/TX5P
TXB1N/TX4N
TXB1P/TX4P
TXB2N/TX3N
TXB2P/TX3P

TXBCLKN/TX2N
TXBCLKP/TX2P

TXB3N/TX1N
TXB3P/TX1P
TXB4N/TX0N
TXB4P/TX0P

2D/3D_CTL

I2C_SDA1
I2C_SCL1

PWM_DIM

OPC_EN

H or FLOAT : 10-bit
<L : 8-bit>

PANEL_VCC

LVDS_SEL

+3.3V_NORMAL

R7217

3.3K
LVDS_SEL_HIGH

R7215
10K

LVDS_SEL_LOW

BIT_SEL

R7214

10K

BIT_SEL_LOW

[41Pin LVDS OUTPUT Connector]

P7202

FI-RE41S-HF-J-R1500

LVDS_41PIN

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

36

37

38

39

40

41

42

R7221 33
AUO_2D/3D_CTRL

2D/3D_CTL

TXC0N/TX23N
TXC0P/TX23P
TXC1N/TX22N
TXC1P/TX22P
TXC2N/TX21N
TXC2P/TX21P

TXCCLKN/TX20N
TXCCLKP/TX20P

TXC3N/TX19N
TXC3P/TX19P
TXC4N/TX18N
TXC4P/TX18P

TXD0N/TX17N
TXD0P/TX17P
TXD1N/TX16N
TXD1P/TX16P
TXD2N/TX15N
TXD2P/TX15P

TXDCLKN/TX14N
TXDCLKP/TX14P

TXD3N/TX13N
TXD3P/TX13P
TXD4N/TX12N
TXD4P/TX12P

PAGE 27

EPI_CH8

EPI_CH7

EPI_CH6
EPI_CH5

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

LVDS INTERFACE

2014.04.10
72

LOCAL DIMMING

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

[To LED DRIVER]

P7400

12507WR-08L

L/DIM_OUT_8P

PAGE 28

1

2

3

4

5

6

7

8

9

R7401
10K

L/DIM_OUT_8P

33
1/16W

AR7400

L/DIM_OUT_8P

L/DIM0_SCLK

L/DIM0_MOSI

I2C_SCL2

I2C_SDA2

L/DIM0_VS

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

LOCAL DIMMING

2014.04.10
74

CLK6

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

C7707

C7704

560pF

560pF

50V

50V

Improve the Vertical dot noise

C7708
560pF
50V

C7709
560pF
50V

C7716
560pF
50V

C7721
560pF
50V

CLK5
CLK4
CLK3
CLK2
CLK1

R7700

1/16W

VCC18

2K

REVERSE

PVINB1

[EP]

1

GCLK

2

MCLK

3

GST

4

E/O

5

GND

6

VGL

7

SWN

8

CTRLN

9

RST

10

OUT1

11

SWB1

12

AGND

13
14

15

AVIN

V14-LGD PANEL

EPI 8-Lane (LEFT)

P7702

FL11S050HA1

EPI_V12_V13

R7715

NC

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50

51

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

0

CLK1

CLK2

CLK3

CLK4

CLK5

CLK6

VGH

VGH_ODD

VGH_EVEN

VSS

VST

NC(GIP_RST)

VCOM_L_BOT

VCOM_FB(Z_OUT)

VCOM_L_TOP

GND

VDD

VDD

H_VDD

GND

EPI4-

EPI4+

GND

EPI3-

EPI3+

GND

EPI2-

EPI2+

GND

EPI1-

EPI1+

GND

VCC18

VCC12

LOCK_I

LOCK_O

GND

GMA18

NC

GMA15

GMA14

GMA12

GMA10

GMA9

GMA7

GMA5

GMA4

NC

GMA1

Z_OUT
CLK1
CLK2
CLK3
CLK4
CLK5

CLK6
VGH
VGH_ODD
VGH_EVEN
VGL

VST
GIP_RST
VCOM_L_BOT

VCOM_L_FB

VCOM_TOP

TXB2N/TX3N
TXB2P/TX3P

6-Lane case

TXBCLKN/TX2N
TXBCLKP/TX2P

TXB3N/TX1N
TXB3P/TX1P

TXB4N/TX0N
TXB4P/TX0P

EPI_LOCK4/3

GMA18

GMA15
GMA14
GMA12
GMA10
GMA9
GMA7
GMA5
GMA4

GMA1

VDD

(+16V)

VCORE

C7700

0.01uF
50V

EPI 8-Lane (RIGHT)

P7703

FL11S050HA1

GMA1

1

NC

2

GMA4

3

GMA5

4

GMA7

5

GMA9

6

GMA10

7

GMA12

8

GMA14

9

GMA15

10

51

11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50

NC

GMA18

GND

LOCK_O

LOCK_I

VCC12

VCC18

GND

EPI8-

EPI8+

GND

EPI7-

EPI7+

GND

EPI6-

EPI6+

GND

EPI5-

EPI5+

GND

H_VDD

VDD

VDD

GND

VCOM_R_TOP

VCOM_FB(Z_OUT)

VCOM_R_BOT

NC(GIP_RST)

VST

VSS

VGH_EVEN

VGH_ODD

VGH

CLK6

CLK5

CLK4

CLK3

CLK2

CLK1

NC

H_VDD

(+8V)

VCC18

C7701

0.1uF
50V

R7723

0

EPI_V12_V13

<T-CON POWER BLOCK>

VGH44VGH_E/O45RESET46VST47EVEN48ODD49NC50CLK651CLK552CLK453CLK354CLK255CLK156RE

43

SWP

42

THERMAL

57

IC7703-*1

SW5084B

PMIC_SIW

16

17

19

20

22VL23

SCL21SDA

SWB318OUT3

PGND3

PVINB3

C7710
10uF
10V

GMA1

GMA4
GMA5
GMA7
GMA9
GMA10
GMA12
GMA14
GMA15

GMA18

EPI_LOCK8/6_SOURCE
EPI_LOCK4/3

TXD2N/TX15N
TXD2P/TX15P

TXDCLKN/TX14N
TXDCLKP/TX14P

TXD3N/TX13N
TXD3P/TX13P

TXD4N/TX12N
TXD4P/TX12P

VST

VGL
VGH_EVEN
VGH_ODD
VGH

CLK6
CLK5
CLK4
CLK3
CLK2
CLK1

Z_OUT

CTRLP

41

VCOMFB

40

VCOMDAC

39

VCOM

38

GGND

37

GMA_N6

36

GMA_N5

35

GMA_N4

34

GMA_P3

33

GMA_P2

32

GMA_P1

31

COMP

30

SS

29

24

27

SWI28SWO

PGND25SW_126SW_2

TCOMP

C7711
10uF
10V

6-Lane case

VCOM_TOP
VCOM_R_FB
VCOM_R_BOT
GIP_RST

C7712
1uF
10V

L7702

22uH

D7700
SX34

40V

PANEL_VCC

VCORE

H_VDD

MCLK_SOC

GCLK_SOC

R7701

1/16W

C7713
10uF
25V

(+8V)

EO_SOC

GST_SOC

FROM SOC

FROM SOC

FROM SOC

10K

C7714
10uF
25V

VDD

(+16V)

FROM SOC

VCC18

R7729

For EMI

R7736

4.7

OPT

OPT

C7724
1uF

H_VDD

2.7K

VCC18

C7702

0.1uF
50V

REVERSE

GCLK
MCLK

GST

EO

VGL
SWN
CTRLN

OPT

R7737

4.7

C7722
4700pF
50V
C7725
2200pF
50V

25V

C7715
10uF
16V

R7703

1/16W

R7704

1/16W

R7705 47

1/16W

R7706

1/16W

OPT

C7703

0.01uF
50V

47

47

47

I2C_SCL2
I2C_SDA2

EPI_CTL

C7717
15pF
50V

C7718
15pF
50V

C7719
15pF
50V

C7720
15pF
50V

REVERSE

GCLK
MCLK

GST
E/O
GND
VGL
SWN

CTRLN

RST

OUTB

SWB

AGND

PVINB

NR6020T6R8NC

PANEL_VCC

[EP]AGND

1
2
3
4
5
6
7
8
9
10
11
12
13
14

1/16W

L7703

6.8uH

C7723
10uF
25V

+1.1V_VDD

+3.3V_NORMAL

RE

THERMAL

15

AVIN

AR7700

33

L7704

22uH

EO

GST

MCLK

GCLK

CLK1

16

PVINH

R7741

57

SWH

1K

CLK2

17

C7730
1uF
10V
OPT

OUTH

CLK5

CLK4

CLK3

IC7703

TPS65175B

18

19

20

SCL21SDA

PGNDH

VL

C7742
1uF

10V

For EMI

VCOM_BOT

CLK6

22VL23

AO3438

Q7702

S

PVCOM

VGH_ODD

24

PGND

TCOMP

TCOMP

G

VGH_EVEN

R7724

25SW26

D

V14_32INCH OPTION

EPI_V14(32)_V12_V13

GIP_RST

VST

VGH

0

VGH44VGH_E/O

RESET46VST47EVEN48ODD49NC_250CLK651CLK552CLK453CLK354CLK255CKL156RE

43

45

42
41
40
39
38
37
36
35
34
33
32
31
30
29

27

SWI28SWO

NC_1

R7713

2.2

1/16W

OPT

VCORE

C7732
1uF
10V
OPT

VDD

R7771

1/16W

C7729
470pF

50V

OPT

OPT

0

SWP
CTRLP
VCOMFB
VCOM
VCOM_DAC
VGND
GMA6
GMA5
GMA4
GMA3
GMA2
GMA1
COMP
SS

D7701
SX34

40V

C7728

0.1uF
50V

OPT

C7760

1uF
25V

R7774

C7726
470pF

50V

OPT

1K

SWP
CTRLP

VCOM_FB2
VCOM_TOP
PVCOM

GMA15_18
GMA14
GMA12_10
GMA7_9
GMA5
GMA4_1
COMP
SS

C7737

0.1uF
50V

C7734

0.1uF
50V

VCOM_L_FB

VCOM_R_FB

VCOM_FB_PANEL

VCOM_TOP

VCOM_FB_PANEL

VCOM_BOT

VCOM_BOT

R7772

VDD

C7705
22uF
25V

C7706
22uF
25V

** 42/47/55INCH OPTION **

R7708

R7709

0

R7710

0

R7716

0

R7766

0

R7767

0

EPI_NON_32inch

EPI_NON_32inch

0

5%

EPI

IC7702

RT9148GJ5

1VOUT 5 VS+

OPT

2VS-

3VIN+

4 VIN-

CTRLN

SWN

CTRLP

VDD

R7718

9.1K

EPI_NON_32inch

0

EPI_NON_32inch

OPT

EPI_NON_32inch

EPI_NON_32inch

OPT

R7719

0

R7721

0

R7759

0

1/16W

R7728 100K

SWP

TH7700

47k-ohm

R7770

0

1/16W 5%

C7745

1uF 10V

R7727 100K

VL

R7720
47K

VCOM_FB_PANEL

VCOM_FB1

VCOM_FB2

VCOM_L_BOT

VCOM_R_BOT

R7760

0

1/16W

C7747

10V

1uF

C7746

1uF 25V

1/16W 5%

R7722
120K
1%

VCOM_FB1

C7748

1uF 25V

TCOMP

REVERSE

< VCOM OPTION TABLE >

IC7702

INSTEAD OF AMCC0208

Q7700

MMBT3904(NXP)

EBC

EBC

Q7701

MMBT3906(NXP)

D7703

1N4148W

100V

D7705

1N4148W

100V

INSTEAD OF AMCC0209

D7704

1N4148W

100V

D7706

1N4148W

100V

PAGE 29

C7727

0.1uF
50V

C7754

0.1uF
50V

EPI_LOCK8/6_SOURCE

VCC18

COMP

R7717
22K

C7736
1000pF
50V

EXT.OP AMP USE

USE

R7710

R7716

USE

R7766

USE

R7767

1Kohm

R7719

0 ohm

R7721

30Kohm

0 ohm

0 ohm

0

0

0

R7731

0

GMA15

GMA18

GMA12

GMA10

OPT

C7740
10pF
50V

R7707

R7702

R7711

R7712

0 ohm

0 ohm

0 ohm

0 ohm

EXT.OP AMP NOT USE

NC

C7760

NC

L7706

NC

R7770

0 ohm

R7772

0 ohm

R7708

0 ohm

R7709

0 ohm

R7710

NC

GMA15_18

GMA12_10

OPT

VCOMR_FB

R7716

R7766

R7767

R7719

R7721

R7771

R7748
1K

R7749
1K

** 32INCH OPTION **

VCOM_R_BOT

VCOM_R_BOT

VCOM_BOT

V14 42~55INCH

IC7702

0 ohm

C7760

0 ohm

L7706

NC

R7770

0 ohm

R7771

0 ohm

R7772

NC

R7708

R7709

EPI_V14(32)_V12_V13

EPI_V14(32)_V12_V13

Z_OUT

R7725

R7726

EPI_V14

R7730

EPI_V14

MID_LG1311

T-Con 77

R7739

1.5K
1/16W
5%

C7755
1uF
50V

VCC18

R7761
10K

SS

EPI_32inch

0

EPI_32inch

0

EPI_32inch

0

OPT

0

R7714

OPT

0

EXT.OP AMP NOT USE

IC7702

NC

C7760

L7706

NC

R7770

R7771

R7772

R7702

R7707

R7711

R7712

R7714

C7756
1uF
10V

OPT

C7757
1uF
50V

R7755

33

C7731

0.1uF
16V

VCOM_FB2

NC

NC

NC

NC

NC

NC

0 ohm

0 ohm

0 ohm

NC

NC

EPI_V14(32)_V12_V13

GMA7_9

EPI_V14(32)_V12_V13

GMA4_1

2013.04.03

C7733
10uF
10V

R7744
20K
1/10W

VCOM_L_FB

VCOM_R_FB

VCOM_FB1

VCOM_L_BOT

V14 32INCH

EPI_V14

29

EPI_LOCK8/6

R7751
30K
1/16W

VCOML_FB

EXT.OP AMP USE

IC7702

C7760

L7706

R7770

R7771

R7772

R7702

R7707

R7711

R7712

R7714

R7733

0

R7732

0

R7734

0

R7735

0

EPI_V14

VGL

R7750
20K
1/10W

USE

USE

1kohm

0 ohm

30Kohm

USE

0 ohm

0 ohm

VGH

RE

0 ohm

0 ohm

0 ohm

GMA7

GMA9

GMA4

GMA1

31

eMMC I/F

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

* A0 / A1 : Use EMMC_4.41

PAGE 30

DVDD18_EMMC

10K

1/16W

AR8104

EMMC_DATA[0-7]

EMMC_DATA[0]
EMMC_DATA[1]
EMMC_DATA[2]
EMMC_DATA[3]

EMMC_DATA[4]
EMMC_DATA[5]
EMMC_DATA[6]
EMMC_DATA[7]

EMMC_CLK
EMMC_CMD
EMMC_RST

AR8100
22
1/16W

AR8101
22
1/16W

AR8102
22
1/16W

C8107
10pF

OPT

50V

C8100

0.1uF

OPT

16V

Don’t Connect Power At VDDI

(Just Interal LDO Capacitor)

10K

1/16W

DAT3

AR8103

DAT4

DAT5

DAT6

10K

R8117

EMMC_CLK_BALL

EMMC_CMD_BALL

10K

R8116

DVDD18_EMMC

EMMC_RESET_BALL

C8105

0.1uF
16V

EMMC_VDDI

EMMC_VDDI

C8106

2.2uF
10V

3.3V_EMMC

C8102

0.1uF
16V

DAT3
DAT4
DAT7

DAT5

pattern 0.2mm

C8103

2.2uF
10V

DAT7

C8104
1uF
10V

THGBMAG6A2JBAIR

A3

DAT0

A4

DAT1

A5

DAT2

B2

DAT3

B3

DAT4

B4

DAT5

B5

DAT6

B6

DAT7

M6

CLK

M5

CMD

A6

RFU_1

A7

RFU_2

C5

NC_21

E5

RFU_3

E8

RFU_4

E9

RFU_5

E10

RFU_6

F10

RFU_7

G3

RFU_8

G10

RFU_9

H5

RFU_10

J5

RFU_11

K6

RFU_12

K7

RFU_13

K10

RFU_14

P7

RFU_15

P10

RFU_16

K5

RST_N

C6

VCCQ_1

M4

VCCQ_2

N4

VCCQ_3

P3

VCCQ_4

P5

VCCQ_5

E6

VCC_1

F5

VCC_2

J10

VCC_3

K9

VCC_4

C2

VDDI

E7

VSS_1

G5

VSS_2

H10

VSS_3

K8

VSS_4

C4

VSSQ_1

N2

VSSQ_2

N5

VSSQ_3

P4

VSSQ_4

P6

VSSQ_5

A1

NC_1

A2

NC_2

A8

NC_3

A9

NC_4

A10

NC_5

A11

NC_6

A12

NC_7

A13

NC_8

A14

NC_9

B1

NC_10

B7

NC_11

B8

NC_12

B9

NC_13

B10

NC_14

B11

NC_15

B12

NC_16

B13

NC_17

B14

NC_18

C1

NC_19

C3

NC_20

C7

NC_22

IC8100

C8

NC_23

C9

NC_24

C10

NC_25

C11

NC_26

C12

NC_27

C13

NC_28

C14

NC_29

D1

NC_30

D2

NC_31

D3

NC_32

D4

NC_33

D12

NC_34

D13

NC_35

D14

NC_36

E1

NC_37

E2

NC_38

E3

NC_39

E12

NC_40

E13

NC_41

E14

NC_42

F1

NC_43

F2

NC_44

F3

NC_45

F12

NC_46

F13

NC_47

F14

NC_48

G1

NC_49

G2

NC_50

G12

NC_51

G13

NC_52

G14

NC_53

H1

NC_54

H2

NC_55

H3

NC_56

H12

NC_57

H13

NC_58

H14

NC_59

J1

NC_60

J2

NC_61

J3

NC_62

J12

NC_63

J13

NC_64

J14

NC_65

K1

NC_66

K2

NC_67

K3

NC_68

K12

NC_69

K13

NC_70

K14

NC_71

L1

NC_72

L2

NC_73

L3

NC_74

L12

NC_75

L13

NC_76

L14

NC_77

M1

NC_78

M2

NC_79

M3

NC_80
NC_81
NC_82
NC_83
NC_84
NC_85
NC_86
NC_87
NC_88
NC_89
NC_90
NC_91
NC_92
NC_93
NC_94
NC_95
NC_96
NC_97
NC_98

NC_99
NC_100
NC_101
NC_102
NC_103
NC_104
NC_105
NC_106
NC_107

M7
M8
M9
M10
M11
M12
M13
M14
N1
N3
N6
N7
N8
N9
N10
N11
N12
N13
N14
P1
P2
P8
P9
P11
P12
P13
P14

EMMC4.5_8G_TOSHIBA

* B0 : Use EMMC_4.5

DAT5

DAT6

EMMC_RESET_BALL

EMMC_CLK_BALL

EMMC_CMD_BALL

MTFC4GMCDM-1M WT

A3

DAT0

A4

DAT1

A5

DAT2

B2

DAT3

B3

DAT4

B4

DAT5

B5

DAT6

B6

DAT7

M6

CLK

M5

CMD

A6

RFU_1

A7

RFU_2

C5

NC_21

E5

RFU_3

E8

RFU_4

E9

RFU_5

E10

RFU_6

F10

RFU_7

G3

RFU_8

G10

RFU_9

H5

RFU_10

J5

RFU_11

K6

RFU_12

K7

RFU_13

K10

RFU_14

P7

RFU_15

P10

RFU_16

K5

RST_N

C6

VCCQ_1

M4

VCCQ_2

N4

VCCQ_3

P3

VCCQ_4

P5

VCCQ_5

E6

VCC_1

F5

VCC_2

J10

VCC_3

K9

VCC_4

C2

VDDI

E7

VSS_1

G5

VSS_2

H10

VSS_3

K8

VSS_4

C4

VSSQ_1

N2

VSSQ_2

N5

VSSQ_3

P4

VSSQ_4

P6

VSSQ_5

A1

NC_1

A2

NC_2

A8

NC_3

A9

NC_4

A10

NC_5

A11

NC_6

A12

NC_7

A13

NC_8

A14

NC_9

B1

NC_10

B7

NC_11

B8

NC_12

B9

NC_13

B10

NC_14

B11

NC_15

B12

NC_16

B13

NC_17

B14

NC_18

C1

NC_19

C3

NC_20

C7

NC_22

THGBMAG7A2JBAIR

A3

DAT0

A4

DAT1

A5

DAT2

B2

DAT3

B3

DAT4

B4

DAT5

B5

DAT6

B6

DAT7

M6

CLK

M5

CMD

A6

RFU_1

A7

RFU_2

C5

NC_21

E5

RFU_3

E8

RFU_4

E9

RFU_5

E10

RFU_6

F10

RFU_7

G3

RFU_8

G10

RFU_9

H5

RFU_10

J5

RFU_11

K6

RFU_12

K7

RFU_13

K10

RFU_14

P7

RFU_15

P10

RFU_16

K5

RST_N

C6

VCCQ_1

M4

VCCQ_2

N4

VCCQ_3

P3

VCCQ_4

P5

VCCQ_5

E6

VCC_1

F5

VCC_2

J10

VCC_3

K9

VCC_4

C2

VDDI

E7

VSS_1

G5

VSS_2

H10

VSS_3

K8

VSS_4

C4

VSSQ_1

N2

VSSQ_2

N5

VSSQ_3

P4

VSSQ_4

P6

VSSQ_5

A1

NC_1

A2

NC_2

A8

NC_3

A9

NC_4

A10

NC_5

A11

NC_6

A12

NC_7

A13

NC_8

A14

NC_9

B1

NC_10

B7

NC_11

B8

NC_12

B9

NC_13

B10

NC_14

B11

NC_15

B12

NC_16

B13

NC_17

B14

NC_18

C1

NC_19

C3

NC_20

C7

NC_22

IC8100-*1

IC8100-*3

C8

NC_23

C9

NC_24

C10

NC_25

C11

NC_26

C12

NC_27

C13

NC_28

C14

NC_29

D1

NC_30

D2

NC_31

D3

NC_32

D4

NC_33

D12

NC_34

D13

NC_35

D14

NC_36

E1

NC_37

E2

NC_38

E3

NC_39

E12

NC_40

E13

NC_41

E14

NC_42

F1

NC_43

F2

NC_44

F3

NC_45

F12

NC_46

F13

NC_47

F14

NC_48

G1

NC_49

G2

NC_50

G12

NC_51

G13

NC_52

G14

NC_53

H1

NC_54

H2

NC_55

H3

NC_56

H12

NC_57

H13

NC_58

H14

NC_59

J1

NC_60

J2

NC_61

J3

NC_62

J12

NC_63

J13

NC_64

J14

NC_65

K1

NC_66

K2

NC_67

K3

NC_68

K12

NC_69

K13

NC_70

K14

NC_71

L1

NC_72

L2

NC_73

L3

NC_74

L12

EMMC4.5_4G_MICRON

NC_75

L13

NC_76

L14

NC_77

M1

NC_78

M2

NC_79

M3

NC_80

M7

NC_81

M8

NC_82

M9

NC_83

M10

NC_84

M11

NC_85

M12

NC_86

M13

NC_87

M14

NC_88

N1

NC_89

N3

NC_90

N6

NC_91

N7

NC_92

N8

NC_93

N9

NC_94

N10

NC_95

N11

NC_96

N12

NC_97

N13

NC_98

N14

NC_99

P1

NC_100

P2

NC_101

P8

NC_102

P9

NC_103

P11

NC_104

P12

NC_105

P13

NC_106

P14

NC_107

C8

NC_23

C9

NC_24

C10

NC_25

C11

NC_26

C12

NC_27

C13

NC_28

C14

NC_29

D1

NC_30

D2

NC_31

D3

NC_32

D4

NC_33

D12

NC_34

D13

NC_35

D14

NC_36

E1

NC_37

E2

NC_38

E3

NC_39

E12

NC_40

E13

NC_41

E14

NC_42

F1

NC_43

F2

NC_44

F3

NC_45

F12

NC_46

F13

NC_47

F14

NC_48

G1

NC_49

G2

NC_50

G12

NC_51

G13

NC_52

G14

NC_53

H1

NC_54

H2

NC_55

H3

NC_56

H12

NC_57

H13

NC_58

H14

NC_59

J1

NC_60

J2

NC_61

J3

NC_62

J12

NC_63

J13

NC_64

J14

NC_65

K1

NC_66

K2

NC_67

K3

NC_68

K12

NC_69

EMMC4.5_16G_TOSHIBA

K13

NC_70

K14

NC_71

L1

NC_72

L2

NC_73

L3

NC_74

L12

NC_75

L13

NC_76

L14

NC_77

M1

NC_78

M2

NC_79

M3

NC_80

M7

NC_81

M8

NC_82

M9

NC_83

M10

NC_84

M11

NC_85

M12

NC_86

M13

NC_87

M14

NC_88

N1

NC_89

N3

NC_90

N6

NC_91

N7

NC_92

N8

NC_93

N9

NC_94

N10

NC_95

N11

NC_96

N12

NC_97

N13

NC_98

N14

NC_99

P1

NC_100

P2

NC_101

P8

NC_102

P9

NC_103

P11

NC_104

P12

NC_105

P13

NC_106

P14

NC_107

A3

DAT0

A4

DAT1

A5

DAT2

B2

DAT3

B3

DAT4

B4

DAT5

B5

DAT6

B6

DAT7

M6

CLK

M5

CMD

A6

RFU_1

A7

RFU_2

C5

NC_21

E5

RFU_3

E8

RFU_4

E9

RFU_5

E10

RFU_6

F10

RFU_7

G3

RFU_8

G10

RFU_9

H5

RFU_10

J5

RFU_11

K6

RFU_12

K7

RFU_13

K10

RFU_14

P7

RFU_15

P10

RFU_16

K5

RST_N

C6

VCCQ_1

M4

VCCQ_2

N4

VCCQ_3

P3

VCCQ_4

P5

VCCQ_5

E6

VCC_1

F5

VCC_2

J10

VCC_3

K9

VCC_4

C2

VDDI

E7

VSS_1

G5

VSS_2

H10

VSS_3

K8

VSS_4

C4

VSSQ_1

N2

VSSQ_2

N5

VSSQ_3

P4

VSSQ_4

P6

VSSQ_5

A1

NC_1

A2

NC_2

A8

NC_3

A9

NC_4

A10

NC_5

A11

NC_6

A12

NC_7

A13

NC_8

A14

NC_9

B1

NC_10

B7

NC_11

B8

NC_12

B9

NC_13

B10

NC_14

B11

NC_15

B12

NC_16

B13

NC_17

B14

NC_18

C1

NC_19

C3

NC_20

C7

NC_22

A3

DAT0

A4

DAT1

A5

DAT2

B2

DAT3

B3

DAT4

B4

DAT5

B5

DAT6

B6

DAT7

M6

CLK

M5

CMD

A6

RFU_1

A7

RFU_2

C5

NC_21

E5

RFU_3

E8

RFU_4

E9

RFU_5

E10

RFU_6

F10

RFU_7

G3

RFU_8

G10

RFU_9

H5

RFU_10

J5

RFU_11

K6

RFU_12

K7

RFU_13

K10

RFU_14

P7

RFU_15

P10

RFU_16

K5

RST_N

C6

VCCQ_1

M4

VCCQ_2

N4

VCCQ_3

P3

VCCQ_4

P5

VCCQ_5

E6

VCC_1

F5

VCC_2

J10

VCC_3

K9

VCC_4

C2

VDDI

E7

VSS_1

G5

VSS_2

H10

VSS_3

K8

VSS_4

C4

VSSQ_1

N2

VSSQ_2

N5

VSSQ_3

P4

VSSQ_4

P6

VSSQ_5

A1

NC_1

A2

NC_2

A8

NC_3

A9

NC_4

A10

NC_5

A11

NC_6

A12

NC_7

A13

NC_8

A14

NC_9

B1

NC_10

B7

NC_11

B8

NC_12

B9

NC_13

B10

NC_14

B11

NC_15

B12

NC_16

B13

NC_17

B14

NC_18

C1

NC_19

C3

NC_20

C7

NC_22

MTFC8GLCDM-1M WT

THGBMAG5A1JBAIR

IC8100-*2

NC_23
NC_24
NC_25
NC_26
NC_27
NC_28
NC_29
NC_30
NC_31
NC_32
NC_33
NC_34
NC_35
NC_36
NC_37
NC_38
NC_39
NC_40
NC_41
NC_42
NC_43
NC_44
NC_45
NC_46
NC_47
NC_48
NC_49
NC_50
NC_51
NC_52
NC_53
NC_54
NC_55
NC_56
NC_57
NC_58
NC_59
NC_60
NC_61
NC_62
NC_63
NC_64
NC_65
NC_66
NC_67
NC_68
NC_69
NC_70
NC_71
NC_72
NC_73
NC_74

EMMC4.5_8G_MICRON

NC_75
NC_76
NC_77
NC_78
NC_79
NC_80
NC_81
NC_82
NC_83
NC_84
NC_85
NC_86
NC_87
NC_88
NC_89
NC_90
NC_91
NC_92
NC_93
NC_94
NC_95
NC_96
NC_97
NC_98

NC_99
NC_100
NC_101
NC_102
NC_103
NC_104
NC_105
NC_106
NC_107

IC8100-*4

NC_23

NC_24

NC_25

NC_26

NC_27

NC_28

NC_29

NC_30

NC_31

NC_32

NC_33

NC_34

NC_35

NC_36

NC_37

NC_38

NC_39

NC_40

NC_41

NC_42

NC_43

NC_44

NC_45

NC_46

NC_47

NC_48

NC_49

NC_50

NC_51

NC_52

NC_53

NC_54

NC_55

NC_56

NC_57

NC_58

NC_59

NC_60

NC_61

NC_62

NC_63

NC_64

NC_65

NC_66

NC_67

NC_68

NC_69

EMMC4.5_4G_TOSHIBA

NC_70

NC_71

NC_72

NC_73

NC_74

NC_75

NC_76

NC_77

NC_78

NC_79

NC_80

NC_81

NC_82

NC_83

NC_84

NC_85

NC_86

NC_87

NC_88

NC_89

NC_90

NC_91

NC_92

NC_93

NC_94

NC_95

NC_96

NC_97

NC_98

NC_99
NC_100
NC_101
NC_102
NC_103
NC_104
NC_105
NC_106
NC_107

IC8100-*5

H26M31003GMR

C8
C9
C10
C11
C12
C13
C14
D1
D2
D3
D4
D12
D13
D14
E1
E2
E3
E12
E13
E14
F1
F2
F3
F12
F13
F14
G1
G2
G12
G13
G14
H1
H2
H3
H12
H13
H14
J1
J2
J3
J12
J13
J14
K1
K2
K3
K12
K13
K14
L1
L2
L3
L12
L13
L14
M1
M2
M3
M7
M8
M9
M10
M11
M12
M13
M14
N1
N3
N6
N7
N8
N9
N10
N11
N12
N13
N14
P1
P2
P8
P9
P11
P12
P13
P14

C8
C9
C10
C11
C12
C13
C14
D1
D2
D3
D4
D12
D13
D14
E1
E2
E3
E12
E13
E14
F1
F2
F3
F12
F13
F14
G1
G2
G12
G13
G14
H1
H2
H3
H12
H13
H14
J1
J2
J3
J12
J13
J14
K1
K2
K3
K12
K13
K14
L1
L2
L3
L12
L13
L14
M1
M2
M3
M7
M8
M9
M10
M11
M12
M13
M14
N1
N3
N6
N7
N8
N9
N10
N11
N12
N13
N14
P1
P2
P8
P9
P11
P12
P13
P14

A3

DAT0

A4

DAT1

A5

DAT2

B2

DAT3

B3

DAT4

B4

DAT5

B5

DAT6

B6

DAT7

M6

CLK

M5

CMD

A6

RFU_1

A7

RFU_2

C5

NC_21

E5

RFU_3

E8

RFU_4

E9

RFU_5

E10

RFU_6

F10

RFU_7

G3

RFU_8

G10

RFU_9

H5

RFU_10

J5

RFU_11

K6

RFU_12

K7

RFU_13

K10

RFU_14

P7

RFU_15

P10

RFU_16

K5

RST_N

C6

VCCQ_1

M4

VCCQ_2

N4

VCCQ_3

P3

VCCQ_4

P5

VCCQ_5

E6

VCC_1

F5

VCC_2

J10

VCC_3

K9

VCC_4

C2

VDDI

E7

VSS_1

G5

VSS_2

H10

VSS_3

K8

VSS_4

C4

VSSQ_1

N2

VSSQ_2

N5

VSSQ_3

P4

VSSQ_4

P6

VSSQ_5

A1

NC_1

A2

NC_2

A8

NC_3

A9

NC_4

A10

NC_5

A11

NC_6

A12

NC_7

A13

NC_8

A14

NC_9

B1

NC_10

B7

NC_11

B8

NC_12

B9

NC_13

B10

NC_14

B11

NC_15

B12

NC_16

B13

NC_17

B14

NC_18

C1

NC_19

C3

NC_20

C7

NC_22

C8

NC_23

C9

NC_24

C10

NC_25

C11

NC_26

C12

NC_27

C13

NC_28

C14

NC_29

D1

NC_30

D2

NC_31

D3

NC_32

D4

NC_33

D12

NC_34

D13

NC_35

D14

NC_36

E1

NC_37

E2

NC_38

E3

NC_39

E12

NC_40

E13

NC_41

E14

NC_42

F1

NC_43

F2

NC_44

F3

NC_45

F12

NC_46

F13

NC_47

F14

NC_48

G1

NC_49

G2

NC_50

G12

NC_51

G13

NC_52

G14

NC_53

H1

NC_54

H2

NC_55

H3

NC_56

H12

NC_57

H13

NC_58

H14

NC_59

J1

NC_60

J2

NC_61

J3

NC_62

J12

NC_63

J13

NC_64

J14

NC_65

K1

NC_66

K2

NC_67

K3

NC_68

K12

NC_69

K13

NC_70

K14

NC_71

L1

NC_72

L2

NC_73

L3

NC_74

L12

EMMC4.5_4G_SKHynix

NC_75

L13

NC_76

L14

NC_77

M1

NC_78

M2

NC_79

M3

NC_80

M7

NC_81

M8

NC_82

M9

NC_83

M10

NC_84

M11

NC_85

M12

NC_86

M13

NC_87

M14

NC_88

N1

NC_89

N3

NC_90

N6

NC_91

N7

NC_92

N8

NC_93

N9

NC_94

N10

NC_95

N11

NC_96

N12

NC_97

N13

NC_98

N14

NC_99

P1

NC_100

P2

NC_101

P8

NC_102

P9

NC_103

P11

NC_104

P12

NC_105

P13

NC_106

P14

NC_107

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

eMMC

2014.04.10

81

Ethernet HUB(RTL8305N-CG)

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

Ethernet Power

L8403

C8400

2.2uF
25V

ETNHUB_DVDD33

C8425

C8419

0.1uF

22uF

16V

10V

MP20045DQ-LF-Z

VIN_1

1

VIN_2

2

VOUT_1

3

VOUT_2

4

Vout=1.5*(1+R1/R2)

L8401

BLM18PG121SN1D

IC8400

9

THERMAL

8

7

6

5

EP[GND]

EN

PG

GND

FB

C8422

0.1uF
16V

R8407
10K

R8408
100K

R8409
10K

Vout

R2

R8406

R1

2K

C8430

2.2uF
25V

+3.5V_ST_LAN

BLM18PG121SN1D

ETNHUB_AVDD33

C8429

C8426

0.1uF

0.1uF
16V

16V

L8406

BLM18PG121SN1D

ETNHUB_AVDD33ETNHUB_DVDD33ETNHUB_AVDD33

ETNHUB_DVDD18

BLM18PG121SN1D

C8435

22uF

0.1uF
16V

10V

OPT

C8405

0.1uF
16V

ETNHUB_AVDD18

L8407

LAN1

TO PHY Chip

LAN2

ETNHUB_EPHY_RXIN1

ETNHUB_EPHY_RXIP1
ETNHUB_EPHY_TXOP1
ETNHUB_EPHY_TXON1

ETNHUB_EPHY_TXON2
ETNHUB_EPHY_TXOP2

ETNHUB_EPHY_RXIP2

ETNHUB_EPHY_RXIN2

ETNHUB_EPHY_RXIP3

Differential 100 ohm
No Via
Close to

ETNHUB_AVDD18

AVDD18_1

TXON[1]
TXOP[1]
RXIP[1]
RXIN[1]

AVDD18_2

RXIN[2]
RXIP[2]
TXOP[2]
TXON[2]
TXON[3]
TXOP[3]

Place Close To RTL8305N

C8440
27pF
50V

25.0MHz

VCTRL43IBREF44AVDD18_6

RXIN[0]

RXIP[0]

TXOP[0]

TXON[0]

[EP]GND

45

46

47

48

1
2

THERMAL

3

49

4

IC8401

5
6

RTL8305N_REALTEK

7
8
9
10
11
12

13

17

19

RXIP[3]14RXIN[3]15TXOP[4]16TXON[4]

RXIP[4]20RXIN[4]

AVDD18_318DVDD18_1

X8400

40X141X242

21

AVDD18_422DVDD18_223DVDD18_3

C8441
27pF
50V

R8424

1.69K
1%

1.96K

OSCI38AVDD3339AVDD18_5

37

LED_ACT[0]/BCINDROP

36

LED_ACT[1]/GYSPD100

35

LED_ACT[2]/P4ANEG

34

P4FLCTRL/CPU_INTT

33

RESET

32

DVDD18_4

31

LED_ACT[3]/EN48PASS1

30

LED_ACT[4]

29

DVDD33

28

SDA_MDIO

27

SCL_MDC

26

ENEEPROM

25

24

LDIND/DISLD

22

Realtek WOL

R8427

ETNHUB_AVDD33

R8423

Place Close To RTL8305N

270

1%

R8436 1K

ETNHUB_DVDD33

R8440 100

Realtek WOL

R8434 33
R8435 33

ETNHUB_DVDD18

R8452 22
RST_PHY_MICOM

R8449 22

RST_PHY_CPU

EPHY_MDCC8438

EPHY_MDIO

LAN_ACT0

GYSPD

LAN_ACT2

ETNHUB_INT

/ETHERNET_RESET
/RST_PHY
LAN_ACT3

EPHY_MDIO
EPHY_MDCETNHUB_EPHY_RXIN3

ETNHUB_DVDD33

R84 58

1.5 K

STRAPPING PIN CONFIG

LAN_ACT0
LAN_ACT2
LAN_ACT3

ETNHUB_ENDEFER

/ETHERNET_RESET

/RST_PHY

LED_ACT[2]/P4ANEG : Auto-negotiation Enable/Disable

R84 65

1.5 K

R8466 22
RST_PHY_MICOM

R8467 22

RST_PHY_CPU

GYSPD

OPT

OPT

OPT

OPT

OPT

OPT

1K

R8451 1K

R8454 1K

R8448 1K

R8444 1K

R8446

R8450 1K

All Strapping Pins are internal pull-up

ETNHUB_DVDD18

C8406

0.1uF

C8410

0.1uF

ETNHUB_AVDD18

C8407

0.1uF

C8411

0.1uF

C8418

0.1uF

C8424

0.1uF

ETNHUB_EPHY_TXOP3

ETNHUB_EPHY_TXON3

LAN2

ETNHUB_ENDEFER

PHY TO RTL matching

TR0P

TR0N

TR1P

TR1N

Place to center position between two chips

L8408

MAG_NEW

C8442

0.1uF

C8446

0.1uF

C8443

0.1uF

C8444

0.1uF

C8447

0.1uF

C8445

0.1uF

Place close to chip

ETNHUB_AVDD18

R8416

49.9

R8417

49.9

R8418

49.9

R8419

49.9

L8408-*1

UBW2012-121F

SHENCHEN_NEW

ETNHUB_EPHY_TXOP2

ETNHUB_EPHY_TXON2

ETNHUB_EPHY_RXIP2

ETNHUB_EPHY_RXIN2

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

2014.04.10

84HUB

EXT_SPEAKER_AMP

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

+24V_AMP

EXT_SPK OUT(Single End)

MAIN_AMP_RESET

EXT_SPK_MUTE

+3.5V_ST

OPT

B

R8601

10K

HP_LOUT/Ext_LOUT

HP_ROUT/Ext_ROUT

R8602
10K

R8610

OPT

C

Q8601
MMBT3904(NXP)
OPT

E

R8603

100

OPT

C8600

10V
1uF

EXT_SPK
EXT_SPK

C8601

10V
1uF

EXT_SPK

C8602

1uF

50V

100

EXT_SPK

C8603

1uF
50V

C8604

4.7uF
50V

EXT_SPK

C8605

0.1uF
50V

L8600

EXT_SPK

EXT_SPK

BLM18PG121SN1D

TPA3124D2PWPR

PVCCL_1

1

SD

2

PVCCL_2

3

MUTE

4

LIN

5

RIN

6

BYPASS

7

AGND_1

8

AGND_2

9

PVCCR_1

10

VCLAMP

11

PVCCR_2

12

EXT_SPK

L8604

BLM18PG121SN1D

EXT_SPK

C8611

0.1uF
50V

EXT_SPK

IC8600

EXT_SPK

EXT_SPK

C8609

C8610

0.1uF

4.7uF

50V

50V

PGNDL_2

24

PGNDL_1

23

LOUT

22

21

20

19

18

17

16

15

14

13

BSL

AVCC_2

AVCC_1

GAIN0

GAIN1

BSR

ROUT

PGNDR_2

PGNDR_1

C8607

0.22uF
50V

EXT_SPK

EXT_SPK

C8608

0.22uF
50V

EXT_SPK

L8602

22.0uH

L8603

22.0uH

EXT_SPK

R8604
10K

OPT

R8605
10K

EXT_SPK

EXT_SPK

R8608

4.7K

EXT_SPK

R8609

4.7K

R8606
10K

OPT

R8607
10K
EXT_SPK

EXT_SPK

C8612
1uF
50V

EXT_SPK

C8613
1uF
50V

EXT_SPK

C8614

0.47uF
50V

EXT_SPK

C8615

0.47uF
50V

47uF

C8616

47uF

C8617

25V

25V

EXT_SPK

EXT_SPK

EXT_SPK
R8616
10K

EXT_SPK
R8617

10K

EXT_OUT_L

EXT_OUT_R

EXT_OUT_R

EXT_OUT_L

EXT_SPK_DET

C8618

1uF
10V

OPT

C8619

1uF
10V

OPT

+3.3V_NORMAL

EXT_SPK

R8612
15K

Connected

GND

R

L

DETECT

GND

EXT_SPK_DET

High

EXT_SPK

JK8600

PEJ034-01

Disconnected

Low

HEAD PHONE AMP

HP_ROUT/Ext_ROUT

C8620 1uF 10V

HP_OUT

HP_ROUT_AMP

SIDE_HP_MUTE

R8618 10K

HP_OUT

C8621

18pF

50V
HP_OUT

R8619 43K

HP_OUT

R8620
43K

HP_OUT

+3.3V_NORMAL

R8621

4.7K
HP_OUT

C8623
1uF
10V
HP_OUT

HP_OUT
C8622
10pF
50V

+INR

-INR

OUTR

GND_1

MUTE

VSS

CN

HP_OUT

IC8601

TPA6138A2

1

2

3

4

5

6

7

C8624 1uF 10V

HP_OUT

HP OUT

+3.3V_NORMAL

R8628
10K

+INL

14

-INL

13

12

11

10

R8622 43K 1%

HP_OUT

C8629
10pF

OUTL

50V

HP_OUT

UVP

GND_2

VDD

9

CP

8

C8625
18pF
50V

R8623 10K

R8624
43K 1%

HP_OUT

+3.3V_NORMAL

C8627
1uF
10V
HP_OUT

HP_OUT

C8628

0.1uF
16V
HP_OUT

HP_OUT

C8626 1uF 10V

HP_OUT

HP_LOUT/Ext_LOUT

HP_LOUT_AMP

HP_LOUT_AMP

HP_ROUT_AMP

L8605

BLM18PG121SN1D

HP_OUT

L8606

BLM18PG121SN1D

HP_OUT

C8630

0.22uF
10V
HP_OUT

C8631

0.22uF
10V
HP_OUT

HP_LOUT

HP_ROUT

HP_ROUT

HP_LOUT

HP_DET

R8627 150

HP_OUT

R8625 150

HP_OUT

HP_OUT

VA8601

5.6V
HP_OUT

33

22

44

11

JK8601

PJ-3596T

HP_OUT

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

2014.04.10

86EXT_SPK/HP

REAL TIME CLOCK

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

PCF8523T

C8719 3.3pF

RTC

C8720 3.3pF

RTC

RTC

R8729 1K

1

BA8700

BATTERY

2

X8702

32.768KHz
RTC

RTC

OSCI

OSCO

VBAT

1

2

3

VSS

4

MICOM MODEL OPTION

+3.5V_ST

OPT

TOUCH KEY

NON_CLOCK

R8735 10K

R8779 10K

R8780 10K

OPT

CLOCK

TACK KEY

R8781 10K

R8782 10K

R8701 10K

MODEL OPTION

PIN NAME HIGH

MODEL1_OPT_0

MODEL1_OPT_1

MODEL1_OPT_2

CLOCK_DET

PIN NO.

87

86

85

18

OPT

TOUCH KEY

NON_CLOCK CLOCK

CLOCK

IC8702

RTC

MODEL1_OPT_0
MODEL1_OPT_1
MODEL1_OPT_2

TACT KEY

LOW

OPT

OPT

VDD

8

INT1/CLKOUT

7

SCL

6

SDA

5

C8723
8pF

OPT

C8721

0.1uF
16V

RTC

+3.5V_ST

C8722
10uF
10V

RTC

R8730 22

R8731 22

C8724
8pF
OPT

NEC MICOM UPDATE

+3.5V_ST

R8709

MICOM_RESET

RTC

RTC

CLOCK_SCL

CLOCK_SDA

POWER_ON/OFF2_3
POWER_ON/OFF2_4

POWER_ON/OFF2_4

TP8705

+3.5V_ST

R8714
10K

R8715
10K

CLOCK_SCL
CLOCK_SDA

HDMI_CEC
EPHY_MDC

EPHY_MDIO

PI_RESET_NEC

WARM_MODE

/RTL8201_PMEB

ETNHUB_ENDEFER

UART_SW2

RL_ON

POWER_ON/OFF2_2

UART_SW1

UART_DBG_SW

DBG_SW

INV_CTL

PANEL_CTL

POWER_ON/OFF1

SOC_RESET

ETNHUB_PWR_ON/OFF

POWER_DET

LED_R

+3.5V_ST

MICOM_RESET

R8783
47K

SW8700

RESET91P124/XT2

40

R8784 22

P40/TOOL0

89

90

41

42

R8798

1K

C8715

2.2uF
10V

P44/SI01

P43/SCK01

P42/TI04/TO04

P41/TOOL1

86

87

88

43

44

45

4 3

R8793 22

R8792 22

P120/INTP0/EXLVI

P47/INTP2

P46/INTP1/TI05/TO05

P45/SO01

81

82

83

84

85

80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51

46

47

48

50

12

TOOL0
TOOL1
MODEL1_OPT_0
MODEL1_OPT_1
MODEL1_OPT_2

LOGO_LIGHT

LOGO_LIGHT

P140/PCLBUZ0/INTP6
P141/PCLBUZ1/INTP7
P142/SCK20/SCL20
P143/SI20/RXD2/SDA20
P144/SO20/TXD2
P145/TI07/TO07

R8774

P00/TI00
P01/TO00

R8775
P02/SO10/TXD1
P03/SI10/RXD1/SDA10
P04/SCK10/SCL10
P131/TI06/TO06
P130
P20/ANI0
P21/ANI1
P22/ANI2
P23/ANI3
P24/ANI4
P25/ANI5
P26/ANI6
P27/ANI7
P150/ANI8
P151/ANI9
P152/ANI10
P153/ANI11
P154/ANI12
P155/ANI13
P156/ANI14
P157/ANI15
AVSS

R8772 22
R8771 22

R8773

0

100

R8767
R8766
R8765 100

AMP_PWR_EN

WIFI_EN
KEY1
KEY2

NEC_DBG_RXD
NEC_DBG_TXD
MHL_DET

R8776

10K

10K

22
22

OPT

+3.5V_ST

EXT_SPK_MUTE

WOL/WIFI_POWER_ON

NEC_EEPROM_SDA
NEC_EEPROM_SCL
EXT_SPK_DET
AMP_MUTE

Closed to Crystal

C8712

0.1uF

16V

C8711

EVDD0

100

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

31

+3.5V_ST

+3.5V_ST

R8711

R8712

3.3K

3.3K
RTC

RTC

IR

R8726

RTC

R8718 22
R8719 22

RTC

R8727 33
R8728 33

100

+3.5V_ST

P60/SCL0
P61/SDA0

P31/TI03/TO03/INTP4

P77/EX23/KR7/INTP11
P76/EX22/KR6/INTP10

P64/RD
P65/WR0
P66/WR1

P67/ASTB

P75/EX21/KR5/INTP9
P74/EX20/KR4/INTP8

P73/EX19/KR3
P72/EX18/KR2
P71/EX17/KR1
P70/EX16/KR0

P06/WAIT

P05/CLKOUT

EVSS1
P80/EX0
P81/EX1
P82/EX2
P83/EX3
P84/EX4
P85/EX5
P86/EX6
P87/EX7

P30/INTP3/RTC1HZ

EVDD1

P62
P63

FLMD0

13pF

13pF

C8710

X8701

10MHz

R8786

1M

R8785 100K

0.1uF

C8713

P123/XT1

FLMD094P122/X2/EXCLK

P121/X1

REGC97VSS98EVSS099VDD

93

95

96

IC8700

NEC_MICOM

33

92

39

4.7K

TOOL0

TOOL1

FLMD0

R8710

4.7K

P8701

12507WS-06L

1

2

3

4

5

6

7

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

C8708

0.1uF

P50/EX832P51/EX9

P52/EX1034P53/EX1135P54/EX1236P55/EX1337P56/EX1438P57/EX15

R8723 22

R8722 22

EDID_WP

EPI_CTL

ETNHUB_INT

/RTL8201_INT

POWER_ON/OFF2_1

P14/EX28/RXD3

P17/EX31/TI02/TO02

P15/EX29/RTCDIV/RTCCL

P16/EX30/TI01/TO01/INTP5

EXT5V_CTRL

SCART_MUTE

EXT12V_CTRL

SIDE_HP_MUTE

MAIN_AMP_RESET

TP8700

SCART_MUTE

AVREF1

P13/EX27/TXD3

P10/EX24/SCK00

P12/EX26/SO00/TXD0

P11/EX25/SI00/RXD0
22

R8724 22

R8725

NEC_RX

NEC_TX

EEPROM_SW

SOC_NEC_TX

SOC_NEC_RX

+3.5V_ST

AVREF0

P110/ANO049P111/ANO1

C8709

0.1uF
16V

IR_OUT_CTRL

/ETHERNET_RESET

GP4 High/MID Power SEQUENCE

POWER_ON/OFF!

POWER_ON/OFF2_1

POWER_ON/OFF2_2

POWER_ON/OFF2_3

POWER_ON/OFF2_4

SOC_RESET

xxLY960H-ZA 2014.04.10

87NEC MICOM

Ethernet PHY(RTL8201FN)/RJ45

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

ETNHUB_PWR_ON/OFF

+3.5V_ST

C9028

0.1uF

R9002 33

R9007
10K
OPT

+3.5V_ST_LAN

AP2191WG-7

IN

5

EN

4

L9000

BLM18PG121SN1D

BLM18PG121SN1D

IC9003

L9001

+3.5V_ST_LAN

LAN 1

OUT

1

GND

2

FLG

3

LAN_AVDD33

C9012

0.1uF
16V

LAN_DVDD33

C9013

0.1uF
16V

(AUX LAN)

ETNHUB_EPHY_TXOP1

ETNHUB_EPHY_TXON1

ETNHUB_EPHY_RXIP1

ETNHUB_EPHY_RXIN1

C9015

0.1uF

C9016

0.1uF

R9039

49.9
1%

R9040

49.9
1%

R9041

49.9
1%

R9042

49.9
1%

D9004

5.5V

LAN_ESD

D9006

5.5V

LAN_ESD

D9008

5.5V

LAN_ESD

D9010

5.5V

ETNHUB_AVDD18

L9002

BLM18PG121SN1D

LAN_ESD

C9017

0.01uF
50V

C9021

0.1uF
16V

JK9000

RJ45VT-01SN002

1

1

2

2

3

3

4

4

5

5

6

6

7

7

8

8

9

9

LAN_AVDD33

C9000

0.1uF
16V

LAN_DVDD33

C9001

0.1uF
16V

TR1N

TR1P

LAN_DVDD33

EPHY_RXD0

EPHY_RXD1

TR0P

TR0N

R9001 4.7K

C9003

Place this Res. near IC

LAN_DVDD33

MDI+[0]
MDI-[0]

NC_1
MDI+[1]
MDI-[1]

AVDD33_1

NC_2

NC_3

NC_4

NC_5

EN_LDO_OUT

TXER

R9004 4.7K

C9002

0.1uF
16V

R9009

2.49K

1%

[EP]GND

1
2
3
4
5
6
7
8
9
10
11
12

13

RXDV

50V

12pF

X9000

C9004

0.1uF
16V

NC_645NC_746RSET47NC_848AVDD10OUT

44

THERMAL

49

IC9000

RTL8201FN

14

15

16

RXD[0]

RXD[1]17RXD[2]

DVDD33_1

50V
12pF
C9005

25.0MHz

DVDD10OUT

AVDD33_2

CKXTAL1

CKXTAL2

40

41

42

43

18

19

20

21

22

RXC

TXC

INTB

DVDD33_2

RXD[3]/CLK_CTL

R9067 3.3K

R9013 100

C9007

0.1uF

DVDD33_3

COL39RXER/FXEN

37

38

36
35
34
33
32
31
30
29
28
27
26
25

23

TXD[0]24TXD[1]

LAN_DVDD33

LAN_DVDD33LAN_AVDD33

16V

CRS/CRS_DV
LED1/PHYAD[1]
LED0/PHYAD[0]
PMEB
LED2/PHYAD[2]
MDIO
MDC
PHYRSTB
DVDD10
TXEN
TXD[3]
TXD[2]

R9012

4.7K

PHY ADDRESS CONFIG

CONFIG PHY_ADDRESS = 111

LAN_DVDD33

C9006

0.1uF
16V

C9010

0.1uF
16V

TP9000

R9014 3.3K

LAN_DVDD33

R9011

C9026 33pF

1

R9026

4.7K

R9025

4.7K
R9015 22

R9000 33
R9003 33

C9011

0.1uF
16V

51

0

R9027

4.7K

Place near IC

C9027 5pF

R9032

4.7K

C9014

0.1uF
16V

+3.5V_ST

2

Place Closed

ET_COL/SNI

EPHY_CRS_DV

R9005

1.5K
OPT

EPHY_EN

R9006

1.5K
OPT

EPHY_MDIO
EPHY_MDC

EPHY_TXD1
EPHY_TXD0

EPHY_REFCLK

/RTL8201_INT

LAN_DVDD33

R9038

R9031 22

4.7K
RST_PHY_CPU

R9030 22

RST_PHY_MICOM

TO SOC / MCU

ET_COL/SNI

/RST_PHY

/ETHERNET_RESET
/RTL8201_PMEB

TO MCU

ETNHUB_EPHY_TXOP3

ETNHUB_EPHY_TXON3

ETNHUB_EPHY_RXIP3

ETNHUB_EPHY_RXIN3

LAN 2

C9024

0.1uF

C9025

0.1uF

R9051

49.9
1%

R9052

49.9
1%

R9053

49.9
1%

R9054

49.9
1%

D9005

5.5V

LAN_ESD

D9007

5.5V

LAN_ESD

D9009

5.5V

LAN_ESD

D9011

5.5V

C9023

0.01uF

ETNHUB_AVDD18

L9003

BLM18PG121SN1D

LAN_ESD

C9022

0.1uF
16V

JK9001

RJ45VT-01SN002

1

1

2

2

3

3

4

4

5

5

6

6

7

7

8

8

9

9

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

PHY/RJ45

2014.04.10

90

12V EXT.Power Out

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

R9100

18K

close to pin

D9100

MBRA340T3G

C9114
150pF
50V

R9107
150K

SW_1

SW_2

EN

COMP

FB

R9110
100K

C9113

50V

IC9102

MP4460DQ-LF-Z

1

2

3

$0.21

4

5

L9100
22UH

0.1uF

11

THERMAL

10

9

8

7

6

Switching noise reducing [MPS recommend]

R9117
200K

1/8W
1%

C9104

0.1uF
50V

R9111
22

R9114
20K
1/16W

1%

P_12V

R9118
270K

1/16W
1%

C9102

3.3uF
50V

EP_GND

BST

VIN_2

VIN_1

FREQ

GND

C9108
22uF
25V

+24V

R9106
10K

1/16W
1%

C9110

0.1uF
50V

P_12V

EXT12V_CTRL

P_12V

Vout=(1+R1/R2)*0.765=5.03V

R9104
43

IC9101

MP5000DQ

GND

L9103

CB3216PA501E

R9101
1K

C9105
470pF
50V

ENABLE/FAULT

C9106
1uF
25V

DV/DT

I-LIMIT

C9107
22uF
25V

1

2

3

4

NC

5

10

9

8

7

6

11

VCC

SOURCE_5

SOURCE_4

SOURCE_3

SOURCE_2

SOURCE_1

L9101

CB3216PA501E

C9109

0.1uF
50V

EXT_12V

EXT5V_CTRL

R9112

R9113

11K

56K

1%

1%

C9112
100pF

R9116

12K

L9105

CB3216PA501E

R9103
10K

VREG5

1%

C9117
1uF
10V

C9115
3300pF
50V

IC9103

TPS54327DDAR

EN

1

VFB

2

3

SS

4

9

THERMAL

8

7

6

5

[EP]GND

VIN

VBST

SW

GND

close IC1800

C9111
10uF
25V

C9116

0.1uF

50V L9104

3.6uH

NR8040T3R6N

C9103
22uF
16V

C9101
22uF
16V

EXT_5V

L9102

BLM18PG121SN1D

Non_Cruise

BLM18PG121SN1D

+5V_USB_3

L9106

Cruise

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

2014.04.10

91EXT. Power(12V/5V)

Pro:Idiom (XMARK)

Copyright © 2015 LG Electronics Inc. All rights reserved.
Only for training and service purposes

LGE Internal Use Only

Power

+3.3V_NORMAL

PRO_IDIOM

L9401

MLB-201209-0120P-N2

27MHz(200ppm)

PROIDIOM_SYSCLK

XMARK_1.8V

+3.3V_PROIDIOM

L9400

PRO_IDIOM

MLB-201209-0120P-N2

C9400
22uF
16V

PRO_IDIOM

RESET

PROIDIOM_RESET

+3.3V_PROIDIOM

PRO_IDIOM

+3.3V_PROIDIOM

C9405
10uF
10V

+3.3V_PROIDIOM

C9404

C9403

0.1uF

10uF
10V

PRO_IDIOM

R9401
22

PRO_IDIOM

MLB-201209-0120P-N2

+VCC

OUTPUT

IC9401

AZ1117H-1.8TRE1(EH13A)

INPUT

PRO_IDIOM

3

2

OUTPUT

C9401

0.1uF
16V

PRO_IDIOM

C9440

1uF
25V

OPT

R9429
100

PRO_IDIOM

M15

R9428

4.7K

PRO_IDIOM

PRO_IDIOM

L9402

X9400
27MHz

4

3

PRO_IDIOM

ADJ/GND

1

APX809-26SAG-7

RESET

2

+3.3V_VCCINT

TRI

1

GND

2

PRO_IDIOM

IC9400

1

GND

C9406

0.1uF
16V

PRO_IDIOM

+3.3V_PROIDIOM

VCC

3

C9441
1uF
25V

PRO_IDIOM

XMARK_1.8V

PRO_IDIOM

C9408

22uF

16V

[M14 -> Pro:Idiom] IP Serial IN

TS_S_OUT_CLK
TS_S_OUT_VAL
TS_S_OUT_SYNC
TS_S_OUT_DATA

R9423

R9424
R9425
R9426

[M14 -> Pro:Idiom] RF Parallel IN

BLM18PG121SN1D

PRO_IDIOM

C9410

4.7uF

PRO_IDIOM

R9412 10K

AR9400 33

AR9401 33

AR9402 33

L9403

TPO_CLK

TPO_VAL
TPO_SOP

TPO_DATA[0-7]

PI_RESET_NEC

PROIDIOM_RESET

TPO_DATA[0]
TPO_DATA[1]
TPO_DATA[2]
TPO_DATA[3]
TPO_DATA[4]
TPO_DATA[5]
TPO_DATA[6]
TPO_DATA[7]

XMARK_1.8V

+3.3V_PROIDIOM

R9413

22

OPT

C9409

0.1uF

PRO_IDIOM

PRO_IDIOM

PRO_IDIOM

PRO_IDIOM

Close to IC

I2C_SCL3
I2C_SDA3

33
33
33
33

D16

PRO_IDIOM
PRO_IDIOM

PRO_IDIOM
PRO_IDIOM

PROIDIOM_SYSCLK

R9409 33
R9410 33

R9411 0

PRO_IDIOM
PRO_IDIOM

XMARK_1.8V

C9413

IO2_29/TP_SOP

IO2_21/TP_VALID

IO2_17/TP_ERR
IO2_41/TP_DATA[7]
IO2_36/TP_DATA[6]
IO2_31/TP_DATA[5]
IO2_25/TP_DATA[4]
IO2_23/TP_DATA[3]
IO2_18/TP_DATA[2]
IO2_14/TP_DATA[1]

IO2_8/TP_DATA[0]

IO2_48/RESET
IO3_37/I2C_SCK
IO3_34/I2C_SDA

IO1_22/ASDO

PRO_IDIOM

0.1uF

IO1_1/INIT_DONE

0.1uF

C9412

PRO_IDIOM

XMARK_1.8V

CLK1

IO1_29

IO1_2
IO1_3
IO1_4
IO1_5
IO1_6
IO1_7
IO1_8

IO1_9
IO1_10
IO1_11
IO1_12

CLK0

DCLK

CONF_DONE

NCONFIG

DATA0

IO1_21SO

NCEO

NSTATUS

MSEL0

MSEL1

IO1_13
IO1_14
IO1_15
IO1_16
IO1_17
IO1_18
IO1_19
IO1_20
IO1_23
IO1_24
IO1_25
IO1_26
IO1_27
IO1_28
IO1_30
IO1_31
IO1_32
IO1_33
IO1_34
IO1_35

H1
B8
B9
B10
C5
C6
C7
C8
C9
C10
C11
C12
M1
C3
C2
B1
G5
F4
D3
E4
F5
E3
D2
E2
G1
B2
D14
E14
K4
K13
H3

NCE

J4
H2
G4
K3
H4
J13
J3
J2

TCK

J14

TDO

H15

TMS

J15

TDI

H14
D4
D1
F3
G3
F2
E1
G2
F1
H5
J1
K2
L3
K1
L1
L2
N1
M2
N2
M3
L5
M4

IO1_36K5IO1_37L4IO1_38R1IO1_39P2IO1_40P3IO1_41N4IO1_42

C9414

PRO_IDIOM

N3

0.1uF

IO2_39E5IO2_40

E6

IO2_35B5IO2_42D6IO2_37D5IO2_38

B6

0.1uF

C9415

PRO_IDIOM

VCCA_PLL2

H11

GND_25

GND_26

GNDA_PLL1

GNDG_PLL1

GNDA_PLL2

GNDG_PLL2

VCCA_PLL1

J6

J5

H6

R2

IO4_1T2IO4_2R3IO4_3P4IO4_4R4IO4_5T4IO4_6R5IO4_7M5IO4_9

T12

T16

J11

J12

C9417

0.1uF

PRO_IDIOM

GND_12

GND_13J7GND_14

GND_15K6GND_16

GND_17

GND_18L6GND_19

GND_20L9GND_21

GND_22T1GND_23T5GND_24

H8

J9

K8

L8

L11

H10

K10

IC9403

LGDT1001

I2C : 0x47

M6

IO4_10N5IO4_11N6IO4_12R6IO4_14M7IO4_15T6IO4_16R7IO4_17N7IO4_19T8IO4_21M8IO4_22N8IO4_23

C9418

0.1uF

PRO_IDIOM

PRO_IDIOM

Cap close to IC

C9419

0.1uF

M10

IO4_25T9IO4_27N9IO4_29

PRO_IDIOM

GND_11

G11

C9420

0.1uF

GND_8G7GND_9G9GND_10

T11

IO4_31

IO4_32

F11

PRO_IDIOM

N10

N11

IO4_36

IO4_37M9IO4_38

N12

GND_2A5GND_3

GND_4F6GND_5F8GND_6F9GND_7

A12

M11

M12

IO4_39

IO4_40

IO4_42

C9421

0.1uF

PRO_IDIOM

A16

R12

C9422 0.1uF

VCCIO2_4

GND_1

A1

T13

IO4_43

IO4_44

PRO_IDIOM

VCCIO2_3

F7

A3

R13

R14

IO4_45

PRO_IDIOM

C9423 0.1uF

C9424 0.1uF

VCCIO3_3

VCCIO2_1

VCCIO2_2

A14

F10

P13

T15

IO4_46

IO4_47

IO4_48

PRO_IDIOM

VCCIO3_2

K11

C16

R15

N13

IO3_1

1uF 6.3V

PRO_IDIOM

C9426 0.1uF

C9425

VCCIO4_3

VCCIO4_4

VCCIO3_1

T14

P16

P14

P15

IO3_2

IO3_3

IO3_4

PRO_IDIOM

C9427 0.1uF

VCCIO4_1

VCCIO4_2

T3

L7

L10

R16

N15

N16

IO3_5

IO3_6

C9428

0.1uF

PRO_IDIOM

PRO_IDIOM

PRO_IDIOM

C9429 0.1uF

VCCIO1_1

VCCIO1_2

VCCIO1_3

C1

G6

P1

K12

K14

L12

IO3_7

IO3_8

IO3_9

PRO_IDIOM

C9431 0.1uF

C9430 0.1uF

VCCINT_10

VCCINT_11

VCCINT_12

T7

T10

N14

M13

M14

IO3_10

IO3_11

IO3_12

PRO_IDIOM

C9432 0.1uF

VCCINT_8

VCCINT_9

K7

K9

J10

L13

M15

IO3_13

IO3_14

PRO_IDIOM
PRO_IDIOM

PRO_IDIOM

PRO_IDIOM

C9433 0.1uF

VCCINT_5

VCCINT_6

VCCINT_7

H7

H9

J8

M16

L14

L15

IO3_15

IO3_16

IO3_17

R9416 4.7K
R9414 4.7K
R9415 4.7K

PRO_IDIOM

C9434 0.1uF

VCCINT_3

VCCINT_4

G8

G10

L16

K16

IO3_18

IO3_19

PRO_IDIOM

PRO_IDIOM

C9435 0.1uF

VCCINT_1

VCCINT_2

A7

A10

R11

R8
R9

R10

P5
P6
P7
P8

P9
P10
P11
P12

E7

A6

B7

A4

D7

A8

E8

D8

B4
E10

C4

D9

A9
D10
A11
B11

B3
D11
D12

E9
E11
E12

A2
B12
A13
B13
C13
B14
A15
B15
D13
C14
C15
B16
G12
H13
E13
F12
D15
D16
E15
E16
F15
F13
F14
F16
G15
G13
G14
H12
G16
H16

K15

J16

IO3_20

IO3_21

+3.3V_PROIDIOM

L9404

L9405

BLM18PG121SN1D

PRO_IDIOM

PRO_IDIOM

IO4_34/CH_CLK
IO4_20/CH_VALID
IO4_26/CH_SOP
IO4_30/CH_ERR
IO4_8/CH_DATA[0]
IO4_13/CH_DATA[1]
IO4_18/CH_DATA[2]
IO4_24/CH_DATA[3]
IO4_28/CH-DATA[4]
IO4_33/CH_DATA[5]
IO4_35/CH_DATA[6]
IO4_41/CH_DATA[7]
IO2_34
IO2_33
IO2_32
IO2_43
IO2_30
IO2_28
IO2_27
IO2_26
IO2_44
IO2_24
IO2_45
IO2_22
IO2_20
IO2_19
IO2_16
IO2_15
IO2_46
IO2_13
IO2_12
IO2_11
IO2_10
IO2_9
IO2_47
IO2_7
IO2_6
IO2_5
IO2_4
IO2_3
IO2_2
IO2_1
IO3_43
IO3_42
IO3_41
IO3_40
IO3_39
IO3_38
IO3_36
IO3_35
IO3_33
IO3_32
IO3_31
IO3_30
IO3_29
IO3_28
IO3_27
IO3_26
IO3_25
IO3_24
IO3_23
IO3_22
CLK2
CLK3

R9417 4.7K
R9418 4.7K

+3.3V_PROIDIOM

+3.3V_VCCINT

L9406

L9407

BLM18PG121SN1D

BLM18PG121SN1D

PRO_IDIOM

PRO_IDIOM

XMARK_1.8V

C9437

0.1uF

PRO_IDIOM

C9438

0.1uF

PRO_IDIOM

C9439

0.1uF

PRO_IDIOM

PRO_IDIOM

C9436

0.1uF

+3.3V_PROIDIOM

PRO_IDIOM

PRO_IDIOM

L9408

BLM18PG121SN1D

BLM18PG121SN1D

PRO_IDIOM

IP : Serial TP

TS_S_IN_0_CLK
TS_S_IN_0_VAL
TS_S_IN_0_SYNC

TS_S_IN_0_DATA

TPI_DATA[0]
TPI_DATA[1]
TPI_DATA[2]
TPI_DATA[3]
TPI_DATA[4]
TPI_DATA[5]
TPI_DATA[6]
TPI_DATA[7]

Cap close to IC

TPI_CLK
TPI_VAL
TPI_SOP
TPI_DATA[0-7]

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS
ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

xxLY960H-ZA

2014.04.10

92Pro:IDIOM