LG 43LF590, 49LF590*-Z Schematic

Internal Use Only

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

LED TV

SERVICE MANUAL

CHASSIS : LD50H

MODEL : 43/49LF590* 43/49LF590*-Z*

CAUTION

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

Printed in KoreaP/NO : MFL69287102 (1506-REV00)

CONTENTS

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

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

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

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

ADJUSTMENT INSTRUCTION .............................................................. 10

BLOCK DIAGRAM ................................................................................. 17

EXPLODED VIEW .................................................................................. 21

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

TROUBLE SHOOTING GUIDE ................................................ 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 LD50H
chassis.

2. Requirement for Test

Each part is tested as below without special appointment.
(1) Operating Temperature: 0 °C to 40 °C
(2)

Operating
(3) Storage Temperature : -20 °C to 60
(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 about 5 minutes prior to

the adjustment.

Humidity: Less than 80 %

°C

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

DTV & Analog (Total 37 countries)
DTV (MPEG2/4, DVB-T) : 26 countries

Germany, Netherland, Switzerland, Hungary, Austria, Slovenia, Bul­garia, France, Spain, Belgium, Luxemburg, Greece, Czech, Turkey,
Morocco, Ireland, Latvia, Estonia, Lithuania, Poland, Portugal, Roma­nia, Albania, Bosnia, Slovakia, Belarus

1 Market EU(PAL Market-37Countries)

DTV (MPEG2/4, DVB-T2): 11 countries

UK(Ireland), Sweden, Denmark, Finland, Norway, Ukraine, Kazakh­stan, Russia, Italy, Croatia, Serbia

DTV (MPEG2/4, DVB-C): 37 countries

Germany, Netherland, Switzerland, Hungary, Austria, Slovenia,
Bulgaria, France, Spain, Italy, Belgium, Russia, Luxemburg, Greece,
Czech, Croatia, Turkey, Morocco, Ireland, Latvia, Estonia, Lithuania,
Poland, Portugal, Romania, Albania, Bosnia, Serbia, Slovakia, Belarus,
UK, Sweden, Denmark, Finland, Norway, Ukraine, Kazakhstan

DTV (MPEG2/4,DVB-S): 37 countries

Germany, Netherland, Switzerland, Hungary, Austria, Slovenia, Bulgar­ia, France, Spain, Belgium, Luxemburg, Greece, Czech, Turkey, Mo­rocco, Ireland, Latvia, Estonia, Lithuania, Poland, Portugal, Romania,
Albania, Bosnia, Slovakia, Belarus, UK(Ireland), Sweden, Denmark,
Finland, Norway, Ukraine, Kazakhstan, Russia, Italy, Croatia, Serbia

Supported satellite : 35 satellites

ABS1 75.0E, AMOS 4.0W, ASIASAT3S 105.5E, ASTRA 19.2E, ASTRA

23.5E, ASTRA 28.2E, ASTRA 4.8E, ATLANTIC BIRD2 8.0W, ATLAN­TIC BIRD3 5.0W, BADR 26.0E, DIRECTV-1R 56.0E, EUROBIRD 9A

9.0E, EUROBIRD3 33.0E, EUTELSAT 36 A/B 36.0E, EUTELSAT W2A

10.0E, EUTELSAT W3A 7.0E, EUTELSAT7WA 7.3W, EUTELSAT

16.0E, EXPRESS AM1 40.0E, EXPRESS AM3 140.0E, EXPRESS
AM33 96.5E, HELLASSAT 39.0E, HISPASAT 1CDE 30.0W, HOTBIRD

13.0E, INTELSAT10&7 68.5E, INTELSAT15 85.2E, INTELSAT1R

50.0W, INTELSAT903 33.5W, INTELSAT904 60.0E, NILESAT 7.0W,
NSS12 57.0E, THOR 0.8W, TURKSAT 42.0E, YAMAL201 90.0E,
OTHER

Only for training and service purposes

- 6 -

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

No. Item Specication Remarks

1) Digital TV

- DVB-T/T2

- DVB-C

2 Television system

3 Program coverage

4 Receiving system

- DVB-S/S2

2) Analogue TV

- PAL/SECAM B/G/I/D/K

- SECAM L/L’

1) Digital TV

- VHF, UHF

- C-Band, Ku-Band

2) Analogue TV

- VHF : E2 to E12

- UHF : E21 to E69

- CATV : S1 to S20

- HYPER : S21 to S47

Analog : Upper Heterodyne
Digital : COFDM, QAM

► 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 (Model : *L*V*-Z* (T2 only Model))

- 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

► DVB-C

- Symbolrate : 4.0Msymbols/s to 7.2Msymbols/s

- Modulation : 16QAM, 64-QAM, 128-QAM and 256-QAM

► DVB-S/S2

- symbolrate
DVB-S2 (8PSK / QPSK) : 2 ~ 45 Msymbol/s
DVB-S (QPSK) : 2 ~ 45 Msymbol/s

- viterbi
DVB-S mode : 1/2, 2/3, 3/4, 5/6, 7/8
DVB-S2 mode : 1/2, 2/3, 3/4, 3/5, 4/5, 5/6, 8/9, 9/10

Scart (1EA)

5

* Non CIS model

6 Video Input RCA (1EA) PAL, SECAM, NTSC4.43

7 Head phone out

8 Component Input (1EA)

9 HDMI Input (2EA)

10 Audio Input (3EA) DVI Audio, Component, AV1 L/R Input.
11 SDPIF out (1EA) SPDIF out
12 USB (2EA) EMF, DivX HD, For SVC (download) JPEG, MP3, DivX HD
13 Ethernet Connect (1EA) Ethernet Connect
14 PCMCIA Card slot (1EA) PCMCIA slot

PAL, SECAM

Antenna, AV1, AV2, Component, HDMI1,
HDMI2, USB1, USB2

Y/Cb/Cr
Y/Pb/Pr

HDMI1-DTV
HDMI2-DTV

Scart Jack is Full scart and support ATV/DTV-OUT
(not support DTV Auto AV)

4 System : PAL, SECAM, NTSC4.43, PAL60
Hybrid Type

Hybrid Type

HDMI1: PC support(HDMI version 1.3)
Support HDCP

Only for training and service purposes

- 7 -

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

5. External Input Support Format

5.1. Component Video Input (Y, Pb, Pr)

No.

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

Resolution H-freq(kHz) V-freq(Hz) Pixel clock

Specication

Only for training and service purposes

- 8 -

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 Remarks

1. 640*480 31.469 59.94 SDTV 480P

2. 648*480 31.5 60.00 SDTV 480P

3. 720*480 15.73 59.97 SDTV, DVD 480I(525I)

Spec. out but display4. 720*480 15.75 60 SDTV, DVD 480I(525I)

5. 720*576 15.625 50 SDTV, DVD 576I(625I) 50Hz

6. 720*480 31.47 59.94 SDTV 480P

7. 720*480 31.5 60 SDTV 480P

8. 720*576 31.25 50 SDTV 576P

9. 1280*720 44.96 59.94 HDTV 720P

10. 1280*720 45 60 HDTV 720P

11. 1280*720 37.5 50 HDTV 720P

12. 1920*1080 28.125 50 HDTV 1080I

13. 1920*1080 33.72 59.94 HDTV 1080I

14. 1920*1080 33.75 60.00 HDTV 1080I

15. 1920*1080 26.97 23.976 HDTV 1080P

16. 1920*1080 27.00 24.000 HDTV 1080P

17. 1920*1080 33.71 29.97 HDTV 1080P

18. 1920*1080 33.75 30.00 HDTV 1080P

19. 1920*1080 56.25 50.00 HDTV 1080P

20. 1920*1080 67.432 59.94 HDTV 1080P

21. 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

- 9 -

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
LD50H 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 →

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

- 10 -

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.

3.4.2. 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 55LF630V-ZA) or Serial

number like photo.

3.5. CI+ Key checking method

- Check the Section 3.1
Check whether the key was downloaded or not at ‘In Start’
menu. (Refer to below).

=> Check the Download to CI+ Key value in LGset.

3.5.1. Check the method of CI+ Key value

(1) Check the method on Instart menu
(2) Check the method of RS232C Command

1) Into the main ass’y mode(RS232: aa 00 00)
CMD 1 CMD 2 Data 0

A A 0 0

2) Check the key download for transmitted command

(RS232: ci 00 10)

CMD 1 CMD 2 Data 0

C I 1 0

3) Result value

- Normally status for download : OKx

- Abnormally status for download : NGx

3.5.2. Check the method of CI+ key value(RS232)

1) Into the main ass’y mode(RS232: aa 00 00)
CMD 1 CMD 2 Data 0

A A 0 0

2) Check the mothed of CI+ key by command

(RS232: ci 00 20)

CMD 1 CMD 2 Data 0

C I 2 0

3) Result value

i 01 OK 1d1852d21c1ed5dcx

CI+ Key Value

3.6. 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

4) Check the model name Instart menu. → Factory name
displayed. (ex 55LF630V-ZA)

5) Check the Diagnostics.(DTV country only) → Buyer
model displayed. (ex 55LF630V-ZA)

Only for training and service purposes

- 11 -

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

4. Manual Adjustment

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

adjustment)

4.1. EDID DATA

4.1.1. 2D FHD EDID

▪ 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 : ‘2013’ → ‘17’

ⓓ Model Name(Hex): LGTV

Chassis MODEL NAME(HEX)

LD50H 00 00 00 FC 00 4C 47 20 54 56 0A 20 20 20 20 20 20 20

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

ⓔ1

HDMI1 40 1B

HDMI2 40 0B

ⓕ Vendor Specific(HDMI)

INPUT MODEL NAME(HEX)

HDMI1 67 03 0C 00 10 00 80 1E

HDMI2 67 03 0C 00 20 00 80 1E

ⓔ2

8 bit

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) Warm-up time: About 5 Min

3) Surrounding Humidity : 20 % ~ 80 %

4) 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 (NCG: CH 9 / WCG: CH12 / LED:

CH14)

(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)

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

4.2.4. Equipment connection MAP

Color Analyzer

Probe

USB to RS-232C

Signal Source

* If TV internal pattern is used, not needed

* Pattern Generator

RS-232C

Computer

RS-232C

Only for training and service purposes

- 12 -

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

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

Applied Model : LD50H Chassis ALL MODELS

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)

4.2.6. Adjustment method

(1) Auto adjustment 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 a 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 cable.

▪ 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 206 Gray internal pattern

will be displayed)

4) Adjust Cool modes

① 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.)

② 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.

③ 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.

■ 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°)

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 13000 K 0.0000

Medium 0.286 0.289 9300 K 0.0000

Warm 0.313 0.329 6500 K 0.0000

▪ Standard color coordinate and temperature using CA-210(CH 14)

Mode

Cool 0.271 ± 0.002 0.270 ± 0.002 13000 K 0.0000

Medium 0.286 ± 0.002 0.289 ± 0.002 9300 K 0.0000

Warm 0.313 ± 0.002 0.329 ± 0.002 6500K 0.0000

Coordinate

x y

Coordinate

x y

Temp ∆uv

Temp ∆uv

Only for training and service purposes

- 13 -

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

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 & Global
Model: (normal line)LGD

NC4.0

Aging

time

(Min)

1 0-2 282 289 297 308 324 348
2 3-5 281 287 296 306 323 346
3 6-9 279 284 294 303 321 333
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 & Global
Model: (normal line)LGD

NC4.0

Aging

time

(Min)

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

Cool Medium Warm

x y x y x y

271 270 286 289 313 329

Cool Medium Warm

x y x y x y

271 270 286 289 313 329

4.3. Function Inspect

4.3.1. HDMI ARC Function Inspection

(1) Test equipment

- Optic Receiver Speaker

- MSHG-600 (SW: 1220 ↑)

- HDMI Cable (for 1.4 version)

(2) Test method

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

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)

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

NC4.0

spec 271 270 286 289 313 329

target 278 280 293 299 320 339

Only for training and service purposes

Cool Medium Warm

x y x y x y

- 14 -

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

in a master equipment

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

4.3.2. EYE-Q Green Function Inspection

Step 1) Turn on the TV.
Step 2) Press 'EYE' key 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.

4.4. LNB voltage and 22KHz tone check

(only for DVB-S/S2 model)

▪ Test method

(1) Set TV in Adj. mode using POWER ON.
(2) Connect cable between satellite ANT and test JIG.
(3) Press Yellow key(ETC+SWAP) in Adj Remote control to

make LNB on.
(4) Check LED light ‘ON’ at 18 V menu.
(5) Check LED light ‘ON’ at 22 KHz tone menu.
(6) Press Blue key(ETC+PIP INPUT) in Adj Remote control

to make LNB off.
(7) Check LED light ‘OFF’ at 18 V menu.
(8) Check LED light ‘OFF’ at 22 KHz tone menu.

▪ Test result

(1) After press LNB On key, ‘18 V LED’ and ‘22 KHz tone

LED’ should be ON.

(2) After press LNB OFF key, ‘18 V LED’ and ‘22 KHz tone

LED’ should be OFF.

5. Tool Option selection

▪ Method : Press "ADJ" key on the Adjustment remote control,

then select Tool option.

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

After final inspection, press "IN-STOP" key of the Adjustment
remote control and check that the unit goes to Stand-by mode.

7. GND and Internal Pressure check

7.1. Method

(1) GND & Internal Pressure auto-check preparation

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

(2) Perform GND & Internal Pressure 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.

7.2. Checkpoint

▪ TEST voltage

(1) DQA Test

- GND: 1.5 KV / min at 100 mA

- SIGNAL: 3 KV / min at 100 mA

(2) Mass Production Line Test

- GND: AC 1.5 KV / sec, Cut off current not exceed 100 mA

▪ TEST time: DQA 1 min, Mass Production Line 1 sec
▪ TEST POINT

- GND TEST = POWER CORD GND & SIGNAL CABLE

METAL GND

- Internal Pressure TEST = POWER CORD GND & LIVE &

NEUTRAL

▪ LEAKAGE CURRENT: At 0.5 mArms

4.5. Option selection per country

4.5.1. Overview

- Option selection is only done for models in Non-EU

4.5.2. Method

(1) Press ADJ key on the Adj. R/C, then select Country Group

Meun.

(2) Select Country Group Code 04 or Country Group EU.

Only for training and service purposes

8. Audio

No. Item Min Ty p Max Unit Remark

- 15 -

Audio practical
max Output, L/R

1.

(Distortion = 10

% max Output)

Speaker (6 Ω

2.
Impedance)

Measurement condition:
(1) RF input: Mono, 1 KHz sine wave signal, 100 % Modulation
(2) CVBS, Component: 1 KHz sine wave signal 0.5 Vrms

4.5 5 6 W

5.5 6 Vrms

4.5 5 6 W

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

EQ Off
AVL Off
Clear Voice Off

9. USB S/W Download(Service only)

(1) Put the USB Stick to the USB socket.
(2) Go to General menu then enter to About This TV.

(3) Enter the USB EXPERT MODE.

(4) Updating is starting.
(5) Updating completed, the TV will restart automatically
(6) If your TV is turned on, check your updated version and

Tool option. (explain the Tool option, next stage)

* If downloading version is more new than your TV have,

TV can lost all channel data. In this case, you have to
channel recover. if all channel data is cleared, you didn’t
have a DTV/ATV test on production line.

* After downloading, have to adjust Tool Option again.

(1) Push "IN-START" key in service remote control.
(2) Select "Tool Option 1" and push "OK" key.
(3) Punch in the number. (Each model has their number)

Only for training and service purposes

- 16 -

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

Y

A

1. MTK(A5LR)

BLOCK DIAGRAM

SUB

ASS

IR

KEY

I2C

Audio AMP

eMMC 5.0

USB

(4GB)

IC101

51P

LVDS

A5LR

HDMI

MUX

I2C_1

DDR3 1600 X 16

(512MB X 2EA)

SYSTEM EEPROM

(256Kb)

I2C 1

X_TAL

24MHz

Analog Demod

Digital Demod

P_TS

WIFI

USB_WIFI

IR / KEY

(R5F100GEAFB)

Sub Micom

I2C 3

I

ETHERNET

SPDIF OUT

P_TS

CI slot

IF (+/-)

Tuner : I2C_2

Tuner

Only for training and service purposes

OCP

1.5A

USB1

SID

OCP

USB2

1.5A

(ARC)

HDMI1

HDMI2

E

SIDE

Rear

REA

R

- 17 -

LAN

OPTIC

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

2. I2C

IC101

+3.3V_NORMAL

A5LR

IC6900

TUNER

0xC0

33Ω

3.3KΩ

+3.3V_NORMAL

2C_ SDA2

I2 C_SCL2

I

2C_ SDA1
I

I2 C_SCL1

LNB

0x10

33Ω

3.3KΩ

2C_ SDA4
I

I2 C_SDA3

0xCA

TUNER (Demod)

33Ω

I2 C_SCL4

I2 C_SCL3

+3.3V_NORMAL

33Ω

IC100

NVRAM

0xA0

Only for training and service purposes

3.3KΩ

100 Ω

IC5600

NTP7515(AMP)

+3.3V_NORMAL

3.3KΩ

0x52

33Ω

IC3000

R5F100GEAFB MICOM

+3.5V_ST

3.3KΩ

YE _I2C_SDA
E

100Ω

IR / KEY/EYE

EY E_I2C_SCL

0x54

- 18 -

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

3. Tuner/CI

CI_MCLKI

CI_MIVAL

CI Slot

VCC

CI_MISTRT

/CI_IOWR#

/CI_IORD#

CI_ADDR[0-14]

CI_DATA[0-7]

CI_RESET

/CI_CD1#

/CI_CD2#

CI_CE1#

/CI_WAIT#

/CI_OE#

/CI_WE#

/CI_IREQ#

CI_MCLKO

CI_MOVAL

CI_MDI[0-7]

CI_MDO[0-7]

CI_MOSTRT

+5V_CI_ON

/CI_CD1#

/CI_CD2#

/CI_IOWR#

CI_RESET

/CI_WAIT# CI_WAIT#

/CI_OE# CI_OE#

/CI_WE# CI_WE#

/CI_IREQ#

CI_TS_VAL

CI_TS_CLK

CI_MDI[0-7]

CI_MDO[0-7]

CI_TS_SYNC

+5V_CI_ON

CI 5V

47 Ω

Power detect

10K Ω

+3.3V_NORMAL

CI_IOWR#

CI_IORD# /CI_IORD#

EB_DATA[0-7] CI_DATA[0-7]

EB_ADDR[0-14] CI_ADDR[0-14]

PCM_5V_CTL

MTK

LNB

A5LR

IC6900

DT1803

10 [TONECTRL]

2 [LNB]

7 [SCL]

CAM_CD1_N

D2-E4

D1-D7

C11[SPI_CLK]

B4[CI_MCLKI]

G1[SPI_CLK1]

M22[OPCTRL6]

8 [SDA]

G18[OPCTRL11]

F18[OPCTRL12]

33Ω

33 Ω

H5[CI_MIVAL]

E15[OSCL1]

D15[OSDA1]

33 Ω

C10[SPI_CLE]

D11[SPI_DATA]

D4[CI_MISTRT]

D12[CI_TSCLK]

F13 [DEMOD_TSCLK]

F11 [DEMOD_TSSYNC]

G13 [DEMOD_TSVAL]

CI_REG# /CI_REG#

B2[CI_RST]

D10[CI_INT] /CI_REG#

C9[PVR_TSDATA1]

F12 [DEMOD_TSDATA0]

J6 [GPIO42]

J7 [GPIO43]

G11 [GPIO44]

E12[CI_TSVAL]

B11[PVR_TSDATA0]

H11 [GPIO45]

H12 [GPIO46]

G12 [GPIO47]

E14 [RF_AGC]

TPI_SOP

TPI_VAL

TPI_CLK

F4[CI_TSSYNC]

E13 [DEMOD_RST]

TPI_DATA[0-7]

TPO_DATA[0-7]

D3-C4

E3-C6

TPO_DATA[0-7]

TPI_DATA[0-7]

E10[PVR_TSCLK]

E11[CI_TSDATA0]

F10[PVR_TSSYNC]

G28[CVBS1P]

D27 [ADCINP_DEMOD]

ADCN_P_DEMOD

ADCN_N_DEMOD

F15[IF_AGC]

D28 [ADCINN_DEMOD]

G26[CVBS0P]

+3.3V_NORMAL

+1.2V_Demod_Core

+3.3V_NORMAL

[+3.3V_TUNER] 11

[+3.3V_LNA_TU] 1

[3.3V_Demod_TU] 26

TDJM- G301D

Only for training and service purposes

FILTER

3.3KΩ

LNB_TX

LNB_OUT

I2C_SCL4

I2C_SDA4

I2C_SCL2

I2C_SDA2

FE_DEMOD1_TS_CLK

FE_DEMOD1_TS_SYNC

FE_DEMOD1_TS_VAL

FE_DEMOD1_TS_ERROR

/TU_RESET1

IF_P

IF_N

IF_AGC

TU_CVBS

TUNER_SIF

FE_DEMOD1_TS_DATA [0-7]

[IF_P] 6

[IF_N] 7

[LNB_TX] 29

[LNB_OUT] 31

[I2C_SCL4_TU] 27

[I2C_SDA4_TU] 30

[1.2V_D_Demod_Core] 28

[I2C_SCL2_TU] 4

[I2C_SDA2_TU] 5

[FE_DEMOD1_TS_VAL] 16

[FE_DEMOD1_TS_SYNC] 15

[FE_DEMOD1_1_TS_CLK] 14

[FE_DEMOD1_TS_ERROR_TU] 12

FE_DEMOD1_TS_DATA[0] 17

FE_DEMOD1_TS_DATA[1] 18

FE_DEMOD1_TS_DATA[2] 19

FE_DEMOD1_TS_DATA[3] 20

FE_DEMOD1_TS_DATA[4] 21

FE_DEMOD1_TS_DATA[5] 22

FE_DEMOD1_TS_DATA[6] 23

[/TU_RESET1_TU] 25

FE_DEMOD1_TS_DATA[7] 24

- 19 -

[TU_SIF_TU] 8

[IF_AGC_TU] 3

[TU_CVBS_TU] 9

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

4. Power

5V

CI Slot

13V

LNB

(TR+FET)

LNB Switch circuit

0.45A

13V

Panel Vcc Switch

0.63A

Panel

SCART OPAMP

circuit (TR+FET)

USB1

(0.5A)

OCP_AP2151WG-7

0.5A1.56A

(4A)

TPS65282REGR

USB2

1.5A

1.5A

13.2V

1.2V

A5LR_Core

2.86A

(6A)

BD86106EFJ

0.3A

PSU

LDO

DC DCConverter

AMP

Other Device

(4A)

TPS56428

2.4A 0.72A1.8A

3.4V

(1.6A)

OCP_AP2191WG

0.6A

WIFI

Only for training and service purposes

1.2V

TJ2132

0.3A

TUNER

3.4V

(2A)

Micom

IR/KEY

D_Demod_Core

1.5V

TJ2132

0.5A

(2A)

DDR

3.4V_Nor mal

- 20 -

1A

(TR+FET)

Switch circuit

AZ1117EH_ADJ

1.8V

EmmC

A5LR

(1A)

EmmC

Tuner

Scart Out

NVRAM

Earphone

AMP

Buffer IC

AMP

JACK

OPTIC

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

400

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

502

500

LV1

200

521

540

800

901

401

570

571

A10

Set + Stand

A2

120

Only for training and service purposes

- 21 -

530

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

IC101

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

LGE Internal Use Only

LGE5221(A5LRA0)

+3.3V_NORMAL

R101

4.7K

R100

4.7K
OPT

+3.3V_NORMAL

R102
10K

OPT

R103
10K

R104

OPT

4.7K
OPT

OPT

NVRAM

IC100

AT24C256C-SSHL-T

A0

1

A1

2

A2

3

GND

4

NVRAM_ATMEL

R107

R105

10K

10K

OPT

R106

R108

10K

10K

I2C

NVRAM_ROHM

IC100-*1

BR24G256FJ-3

VCC

A0

8

1

WP

A1

7

R115

1.8K

2

A2

3

GND

4

I2C_SCL1

I2C_SDA1

+3.3V_TUNER

R116

1.8K

SCL

6

SDA

5

STRAPPING

R117

3.3K

X-TAL

XTAL_IN

LED_PWM0

0

0

0

I2C_1 : AMP, L/D, NVM, TCON
I2C_2 : TUNER
I2C_3 : MICOM
I2C_4 : S/Demod,T2/Demod, LNB

+3.3V_NORMAL

R118

3.3K

LED_PWM1

0ICE mode + 24M + serial boot

1

0

I2C_SCL1

I2C_SDA1

I2C_SCL2
I2C_SDA2
I2C_SCL3
I2C_SDA3
I2C_SCL4
I2C_SDA4

C100
5pF
50V

X-TAL_1

OPCTRL3

1

0

0

GND_1

X100

24MHz

4

1

2

3

5V_HDMI_1

PCM_5V_CTL

L/DIM0_MOSI

/TU_RESET2

L/DIM0_SCLK

L/DIM0_VS

GND_2

X-TAL_2

C101
5pF
50V

/TU_RESET2

XTAL_OUT

+3.3V_NORMAL

L/D

R121 33

L/D

R119 33

L/D

R120 33

5V_HDMI_3

NON_L/D

R122

NON_L/D

10K

VDD3V3

Near SoC

NON_L/D

R123
10K

C106

1uF

10V

TPO_DATA[0-7]

TPI_DATA[0-7]

5V_HDMI_3

NON_JP

R124

R140

10K

10K

DVDD18_EMMC

Near SoC

C102

USB_DP2
USB_DM2

USB_DP1
USB_DM1

WIFI_DP
WIFI_DM

NON_EU

R138
10K

VDD3V3

1uF

10V

OPCTRL3

I2C_SCL3
I2C_SDA3

I2C_SCL4

I2C_SDA4

+3.3V_NORMAL

VCC

8

0.1uF

WP

7

SCL

6

SDA

5

TU_M/W

R109

1.8K

C112

LED_PWM0
LED_PWM1
OPCTRL3

+3.3V_TUNER

TU_M/W

R110

1.8K

Write Protection

- Low : Normal Operation

- High : Write Protection

33

R111

R112 33

ICE moce + 24M + ROM to 60bit ECC Nand boot

ICE moce + 24M + ROM to eMMC boot from
eMMC pins(share pins w/s NAND)

+3.3V_NORMAL

R113

R114

3.3K

3.3K

5V_HDMI_1

R199
1K

I2C_SDA1

I2C_SCL1

XTAL_IN

XTAL_OUT

C107

0.1uF

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

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

R141
1K

C108

0.1uF

C109

0.1uF

C103

4.7uF
10V

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]

TPO_CLK
TPO_VAL

TPO_SYNC

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

TP107

C104

4.7uF
10V

AE26
AH26

AD28
AD27

B28
B27

J22

J1

H24
K21

J23

U25

Y26

B12
A12

C13
D13

D14
C14

F23

D2
D1
C3
C1
C2
B1
A1
A2
C5
B5
D6
A5
A3
D5
E4
B4
H5
D4
D3
E5
F5
H6
H4
A4
B3
C4
E1
E2
G3
D9
B9
B8
B7
D7
E3
F3
G2
A9
A8
A7
C7
C6

P26
P25
P24
N24
M24
M23
M22
K23
L23
E20
D20
G18
F18

DEV

OSDA0
OSCL0

XTALI
XTALO

AVDD33_REG_STB

VCC3IO_EMMC

AVDD33_RGB_STB
AVSS33_RGB

AVDD33_PLL_STB

AVDD10_LDO

AVDD10_ELDO

USB_DP_P0
USB_DM_P0

USB_DP_P1
USB_DM_P1

USB_DP_P2
USB_DM_P2

USB_DP_P3
USB_DM_P3

AVDD33_USB

IC101

LGE5221(A5LRA0)

CI_A0
CI_A1
CI_A2
CI_A3
CI_A4
CI_A5
CI_A6
CI_A7
CI_A8
CI_A9
CI_A10
CI_A11
CI_A12
CI_A13
CI_A14
CI_MCLKI
CI_MIVAL
CI_MISTRT
CI_MDI0
CI_MDI1
CI_MDI2
CI_MDI3
CI_MDI4
CI_MDI5
CI_MDI6
CI_MDI7
CI_D0
CI_D1
CI_D2
CI_D3

DEV

CI_D4
CI_D5
CI_D6
CI_D7
CI_MDO0
CI_MDO1
CI_MDO2
CI_MDO3
CI_MDO4
CI_MDO5
CI_MDO6
CI_MDO7

OPCTRL0
OPCTRL1
OPCTRL2
OPCTRL3
OPCTRL4
OPCTRL5
OPCTRL6
OPCTRL7
OPCTRL8
OPCTRL9
OPCTRL10
OPCTRL11
OPCTRL12

DEMOD_RST

DEMOD_TSCLK

DEMOD_TSDATA0

DEMOD_TSSYNC

DEMOD_TSVAL

CI_TSCLK

CI_TSDATA0

CI_TSSYNC

CI_TSVAL

PVR_TSCLK
PVR_TSVAL

PVR_TSSYNC
PVR_TSDATA0
PVR_TSDATA1

SPI_CLK1

SPI_DATA

VCC3IO_SD

LED_PWM0
LED_PWM1

ADIN0_SRV
ADIN1_SRV
ADIN2_SRV
ADIN3_SRV
ADIN4_SRV
ADIN5_SRV
ADIN6_SRV
ADIN7_SRV

U0TX
U0RX

POWE__B

POOE__B
POCE1__B
POCE0__B

PDD7
PDD6
PDD5
PDD4
PDD3
PDD2
PDD1
PDD0

PARB__B

PACLE

PAALE
EMMC_CLK
EMMC_RST

OPWRSB

ORESETB

OIRI

FSRC_WR

TXVP_0
TXVN_0
RXVP_1
RXVN_1

PHYLED1
PHYLED0

REXT

AVDD33_ETH

CI_INT

CI_RST

SPI_CLK

SPI_CLE

OPWM2
OPWM1
OPWM0

SD_D0
SD_D1
SD_D2

SD_D3
SD_CMD
SD_CLK

GPIO42
GPIO43
GPIO44
GPIO45
GPIO46
GPIO47

E13

F13
F12
F11
G13

D10
D12
E11
F4
E12
B2
E10
A11
F10
B11
C9

G1
C11
D11
C10

AE25
AG26
AF26

K4
L5
L4
L6
K5
H1

H2

R22
R24

J6
J7
G11
H11
H12
G12

K24
L24
J24
E28
F25
F26
H25
H26

T25
T24

J2
N7
M7
L7
P3
N1
N2
N4
M3
L1
N6
P6
N5
L3
K3
P4
P7

R26
L25

L26

AH27

AB27
AB26
AC25
AC26

AA25
AA26

AB28

AB25

R125

R126 24K

/TU_RESET1

FE_DEMOD1_TS_CLK
FE_DEMOD1_TS_DATA[0]
FE_DEMOD1_TS_SYNC
FE_DEMOD1_TS_VAL

CI_REG#
CI_CE1#

TPI_SYNC

CI_WE#
CI_OE#
CI_RESET
TPI_VAL

CI_VS1#

TPI_CLK
CI_IREQ#
CI_WAIT#

CI_CD2#
CI_CD1#
CI_IORD#
CI_IOWR#

SOC_TX
SOC_RX

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

EMMC_DATA[1]

EMMC_DATA[0]

EMMC_CLK
EMMC_RST

4.7K

EPHY_TDP
EPHY_TDN
EPHY_RDP
EPHY_RDN

MODEL_OPT_12
MODEL_OPT_13

1%

+3.3V_NORMAL

AMP_RESET_N

LED_PWM0
LED_PWM1

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]

AV1_CVBS_DET

COMP1_DET

SC_DET

/USB_OCD1
/USB_OCD2
USB_CTL2
USB_CTL1

EMMC_CMD

VDD3V3

C110

0.1uF

R143

R144

4.7K

4.7K
OPT

OPT

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

R139
10K

22

+3.3V_NORMAL

R130

4.7K
OPT

R131
1K

PWM1_PULL_DOWN_1K

NON_EU

R128

SC_ID_SOC

PCM_5V_CTL

TPO_DATA[0-7]
TPI_DATA[0-7]

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]

R133

4.7K
OPT

R135

R134
1K

SC_ID_SOC

VDD3V3

SC_DET

TPO_CLK
TPO_VAL

TPO_SYNC

PWM_DIM2

R136

22

R142

OPT

22

PWM2_PULL_DOWN_1K

TP100
TP101
TP102
TP103
TP104
TP105

R137
10K

OPT

C105

0.1uF
16V

TP149
TP150
TP148

TP199
TP198
TP115

TP116
TP117
TP118
TP119
TP120
TP121
TP109
TP110
TP111
TP112
TP113
TP114
TP106
TP108
TP147
TP145
TP146

PWM_DIM2

0

PWM_DIM

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]

VDD3V3

C111

0.1uF

SOC_RESET

TP139
TP140
TP141
TP142
TP143
TP144
TP137
TP138
TP126
TP127
TP128
TP129
TP130
TP131
TP132

TP133
TP134
TP135

TP123
TP124
TP125
TP136

EB_DATA[0]
EB_DATA[1]
EB_DATA[2]
EB_DATA[3]
EB_DATA[4]
EB_DATA[5]
EB_DATA[6]
EB_DATA[7]
CI_REG#
CI_CE1#
TPI_SYNC
CI_WE#
CI_OE#
CI_RESET
TPI_VAL

TPI_CLK
CI_IREQ#
CI_WAIT#

CI_CD2#
CI_CD1#
CI_IORD#
CI_IOWR#

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.

A5LR_Bring_Up

MAIN1

2014.11.01

1

HDMI_HPD_5V_3

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

LGE Internal Use Only

HDMI_HPD_5V_1

COMP1/AV1/DVI_L_IN

COMP1/AV1/DVI_R_IN

+1.2V_MTK_AVDD

C322

0.1uF

FE_DEMOD1_TS_DATA[7]

SC_CVBS_IN_SOC

1uF

10V

C353

Closed to SoC Side

DDC_SCL_3
DDC_SCL_1

DDC_SDA_3
DDC_SDA_1

5V_HDMI_2

TP340
TP341

+1.2V_MTK_AVDD

C321

0.1uF

ADCIN_P_DEMOD
ADCIN_N_DEMOD

IF_AGC

I2C_SCL2
I2C_SDA2

AV1_CVBS

TU_CVBS_SOC

TU_SIF_TU

CEC

DDC_SCL_2
DDC_SCL_3

TP336

DDC_SCL_1

TP337

DDC_SDA_2
DDC_SDA_3

TP338

DDC_SDA_1

TP339

HDMI_HPD_5V_2_CBUS
HDMI_HPD_5V_3
HDMI_HPD_5V_1

C324

0.1uF

Closed to SoC Side

TP300

VDD3V3_HDMI

C354

0.1uF

COMP1_Pb

COMP1_Pr

COMP1_Y/AV1

R300
10K

C300

0.047uF
25V

C301 0.01uF

R301

2.2K

OPT

Closed to SoC Side

R365
1K

C359
10uF
10V

R366
10K

TP302

Place JACK Side

R302
470K
OPT

LGE5221(A5LRA0)

D27

ADCINP_DEMOD

D28

ADCINN_DEMOD

E27

AVDD12_DEMOD

F15

IF_AGC

E14

RF_AGC

E15

OSCL1

D15

OSDA1

H27

CVBS_COM

H28

CVBS3P

J25

CVBS2P

G28

CVBS1P

G26

CVBS0P

G25

SIF_COM

1uF

10V

C302

C19

CEC

HDMI_CEC

C16

HDMI_0_SCL

D19

HDMI_1_SCL

U23

HDMI_2_SCL

D16

HDMI_0_SDA

G19

HDMI_1_SDA

U24

HDMI_2_SDA

E18

HDMI_0_PWR5V

E17

HDMI_0_HPD_CBUS

F19

HDMI_1_HPD

T22

HDMI_2_HPD

E16

MHL_SENSE

A14

AVDD12_HDMI_1

U26

AVDD12_HDMI_2

G20

AVDD33_HDMI

R303
0

R304
0

IC101

R306
470K
OPT

IF_P

IF_N

AVDD33_VIDEO_STB

DEV

C305
50V
560pF

OPT

75

1%

1005

1005

R307

3216
R308
75
1%

TU_CVBS

HSYNC
VSYNC

VGA_SDA
VGA_SCL

VDACX_OUT

AVSS33_XTAL

AVSS33_DEMOD

HDMI_0_RX_0

HDMI_0_RX_0B

HDMI_0_RX_1

HDMI_0_RX_1B

HDMI_0_RX_2

HDMI_0_RX_2B

HDMI_0_RX_C

HDMI_0_RX_CB

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_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

Place SOC Side

1uF

C307
25V

C3081uF

25V
C306
50V
560pF
OPT

75

50V

50V

1%

10pF

10pF

C311

C309

R309

50V

10pF

C310

Close to Tuner

TU_ALL_IntDemod

R311 1K

R310 1K

TU_ALL_IntDemod

R27
R28
N26

RP

N28

GP

P28

BP

N27

COM

P27

SOG

T28
T27

M25

COM1

L28

PB1P

L27

PR1P

M26

Y1P

N25

SOY1

K26

COM0

K25

PB0P

J26

PR0P

K27

Y0P

K28

SOY0

R364
0

G27

H23

J20
K20

A17
B17
A16
B16
A15
B15
C17
D17

A20
B20
A19
B19
C18
D18
C21
B21

W26
W25
V26
V25
V28
V27
Y28
Y27

R312

1K

TU_ALL_IntDemod

SC_G_IN_SOC
SC_R_IN_SOC
SC_B_IN_SOC

COMP_COM_SOC
COMP_PB_IN_SOC
COMP_PR_IN_SOC
COMP_Y_AV1_IN_SOC
COMP1_Y_SOY

DTV/MNT_V_OUT

R324

30K

R325

30K

C315
100pF

50V

OPT

SC_COM_SOC

SC_FB_SOC

C316
100pF

50V

OPT

R322 100

1/16W
5%

R323 100

1/16W
5%

R363 100

R321
10

1/16W
5%

R315 100

R317
100

1/16W
5%

TU_ALL_2178B
R320 100

Closed to SoC Side

TU_ALL_IntDemod

C303

1uF

10V

TU_ALL_IntDemod

C304 1uF

10V

TU_ALL_IntDemod

TU_ALL_IntDemod

VDD3V3

C355

0.1uF

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

D0+_HDMI3
D0-_HDMI3
D1+_HDMI3
D1-_HDMI3
D2+_HDMI3
D2-_HDMI3
CK+_HDMI3
CK-_HDMI3

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

C314 0.01uF

C312

33pF

C313

33pF

TP313
TP311
TP308
TP309
TP310
TP312
TP314
TP317
TP318
TP315

TP316

C317 0.01uF

C352 0.047uF

C323

1500pF

C319 0.01uF

C320 0.01uF

C318 0.047uF

R313 51

TU_ALL_IntDemod

R314 51

TU_ALL_IntDemod

DTV/MNT_V_OUT

SC_COM_SOC

TP320
TP321
TP322
TP323
TP324
TP325
TP326
TP327

TP328
TP329
TP332
TP334
TP335
TP333
TP330
TP331

TU_ALL_2178B

SC_G_IN_SOC
SC_R_IN_SOC

SC_B_IN_SOC
SC_FB_SOC

SC_CVBS_IN_SOC

SCART_RIN_SOC
SCART_Lout_SOC
SCART_Rout_SOC

SCART_LIN_SOC

D0+_HDMI3
D0-_HDMI3
D1+_HDMI3
D1-_HDMI3
D2+_HDMI3
D2-_HDMI3
CK+_HDMI3
CK-_HDMI3

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

COMP/AV1/DVI_L_IN_SOC
COMP/AV1/DVI_R_IN_SOC

COMP_PB_IN_SOC

COMP_PR_IN_SOC

AV1_CVBS

COMP1_Y_SOY

COMP_Y_AV1_IN_SOC

COMP_COM_SOC

TU_CVBS_SOC

ADCIN_P_DEMOD

ADCIN_N_DEMOD

+1.2V_MTK_AVDD

C356

0.1uF

VDD3V3

C357

1uF
10V

C358

0.1uF

COMP/AV1/DVI_R_IN_SOC
COMP/AV1/DVI_L_IN_SOC

SCART_RIN_SOC
SCART_LIN_SOC

AVDD3V3_AADC

VDD3V3

MODEL_OPT_11

HP_DET

BIT0
BIT1
BIT2
BIT3
BIT4
BIT5
BIT6

BIT7
MODEL_OPT_8
MODEL_OPT_9

MODEL_OPT_10

R332 24K

1%

C332

C328

1uF

0.1uF

TP303

10V

Close to AVDD33_ADAC & AVDD33_AADC

L300

C325

C326

10uF

1uF

10V

10V

C327

0.1uF

AE18
AF18
AD17
AE15
AD15
AC19
AD18
AD19
AC17
AD16
AC15
AC18
AB17

AG14

G22

AF14

C22
C24
B23
E23
D23
A22
B22
C23

E21

D22

K19

IC101

LGE5221(A5LRA0)

TCON0
TCON1
TCON2
TCON3
TCON4
TCON5
TCON6
TCON7
TCON8
TCON9
TCON10
TCON11
TCON12

AVDD12_LVDS

AVDD33_LVDSA

REXT_VPLL

DEV

AIN_R0
AIN_L0
AIN_R1
AIN_L1
AIN_R2
AIN_L2
AIN_R3
AIN_L3

AVDD33_ADAC

AVDD33_AADC

VMID_AADC

AVSS33_CLN

AVDD3V3_AADC

AECKP
AECKN

AOCKP
AOCKN

AR0_ADAC
AL0_ADAC

AR1_ADAC
AL1_ADAC

AR2_ADAC
AL2_ADAC

ASPDIFI

ASPDIFO0

AOBCK
AOLRCK
AOMCLK

AOSDATA1
AOSDATA0

TUNER OPTION

Model Option

+3.3V_NORMAL

R351

R337

4.7K

R339

4.7K

BIT0_1

BIT1_1

R338

4.7K

R340

4.7K

BIT0_0

BIT1_0

AREA OPTION

BIT [0/1]

0 / 0
0 / 1
1 / 0
1 / 1 EPI FHD, 120Hz, V12 (6 lane)

AF19

AE0P

AE19

AE0N

AH19

AE1P

AG19

AE1N

AH18

AE2P

AG18

AE2N

AF17
AE17
AF16

AE3P

AE16

AE3N

AH16

AE4P

AG16

AE4N

AG15

AE5P

AH15

AE5N

AF24

AO0P

AE24

AO0N

AF23

AO1P

AE23

AO1N

AH23

AO2P

AG23

AO2N

AF22
AE22
AF21

AO3P

AE21

AO3N

AH21

AO4P

AG21

AO4N

AF20

AO5P

AE20

AO5N

A25
C25

B26
A27

B25
A26

F21

AG27
AH28

AF27
AD26
AG28
AE27
AF28

HP_ROUT_SOC
HP_LOUT_SOC

SCART_Rout_SOC
SCART_Lout_SOC

AVDD3V3_AADC

DVB

EU/CIS

CHINA/HONGKONG

TAIWAN/COLOM

ASIA/AFRICA

TXA4N

TXA4P
TXA3N
TXA3P
TXACLKN
TXACLKP

TXA2N
TXA2P
TXA1N
TXA1P
TXA0N
TXA0P

TXB4N
TXB4P
TXB3N
TXB3P
TXBCLKN
TXBCLKP
TXB2N
TXB2P
TXB1N
TXB1P
TXB0N
TXB0P

SPDIF_OUT

HDMI_ARC

R335 100
R334 100
R333 100

OPT

R336 100

C329
OPT
22pF

ATSC

N/AMERICA

KOREA

S/AMERCIA

C330

OPT

22pF

C331

OPT

33pF

JAPAN

R343

4.7K

BIT2_1

BIT3_1

BIT0

BIT1

R344

4.7K

BIT2_0

BIT3_0

JP

AUD_SCK
AUD_LRCK

AUD_LRCH

4.7K

R350

4.7K

R345

4.7K
BIT5_1

BIT4_1

R349

4.7K

R346

4.7K

R352

4.7K

BIT4_0

BIT5_0

BACK-END OPTION

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

R353

4.7K

BIT6_1

BIT2

BIT3
BIT4

BIT5

R354

4.7K

BIT6_0

FHD

TYPE

LVDS FHD, 60Hz

EPI FHD, 120Hz, v14_32inch (6 lane)
EPI FHD, 120Hz, V13 (6 lane)

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

LVDS FHD, 120Hz
EPI FHD, 120Hz, V14 (8 lane)
LVDS HD, 60Hz
LVDS FHD, 60Hz, CP BOX
LVDS HD, 60Hz SMALL SMART

Vby1 FHD, 120Hz
LVDS FHD, 120Hz OLED

+1.2V_MTK_CORE

BLM18PG121SN1D

+3.3V_NORMAL

BIT [6/7]

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

R355

4.7K

BIT7_1

R356

4.7K

BIT7_0

FRC

PANEL TYPE

OLED

L301

L302

BLM18PG121SN1D

C337
10uF

EU/CIS

AJJA

TAIWAN/COL

C341

2.2uF

T2/C PIP

R361

4.7K

EXT_EEPROM

R362

4.7K

INT_EEPROM

TP304

TP305

T/C

T2/C

R371

R370

OPT

CHINA/HONG

Default

OPT

R373

4.7K

4.7K

R372

4.7K

4.7K

+1.2V_MTK_CORE

OPT

C344
10uF

+1.2V_MTK_CORE

OPT

R375

R374

C345
10uF

T/C Default

T2/C

+1.2V_MTK_AVDD

C339
10uF

T2/C/ATV_EXT
T2/C/ATV_SOC

R357

4.7K

DDR_768MB

R358

4.7K

DDR_1GB

C340

0.1uF

T/C

T2/C/S2

R359

4.7K

SIDE_HDMI

R360

4.7K

REAR_HDMI

T2/C/S2/ATV_EXT

T2/C/S2/ATV_SOC

BIT6
BIT7

C338
10uF

VDD3V3

ATSC NIM+T2
Half NIM+T2

4.7K

4.7K

KOREA

Half NIM
ATSC PIP

OPT

C346

0.1uF

C347
10uF

NORTH AMERICA

MODEL_OPT_8

MODEL_OPT_9

MODEL_OPT_10

MODEL_OPT_11

MODEL_OPT_12

MODEL_OPT_13

OPT

C349

0.1uF

C348

0.1uF

Default

MODEL_OPT_11

HIGH : ODT DISABLE
LOW : ODT ENABLE

C350

0.1uF

C351

0.1uF

BRAZIL

ISDB PIP

ISDB

JAPAN

POWER_ON/OFF1

+1.2V_MTK_CORE

TP307

TP301

LGE5221(A5LRA0)

Y16

VCCK_1

W17

VCCK_2

Y17

VCCK_3

W18

VCCK_4

Y18

VCCK_5

P19

VCCK_6

R19

VCCK_7

T19

VCCK_8

U19

VCCK_9

V19

VCCK_10

W19

VCCK_11

Y19

VCCK_12

P20

VCCK_13

R20

VCCK_14

T20

VCCK_15

U20

VCCK_16

V20

VCCK_17

W20

VCCK_18

Y20

VCCK_19

U21

VCCK_20

V21

VCCK_21

W21

VCCK_22

LGE5221(A5LRA0)

A28

DVSS_1

C12

DVSS_2

C15

DVSS_3

C26

DVSS_4

C27

DVSS_5

C28

DVSS_6

D24

DVSS_7

D26

DVSS_8

E6

DVSS_9

E7

DVSS_10

E8

DVSS_11

E9

DVSS_12

E22

DVSS_13

E26

DVSS_14

F6

DVSS_15

F7

DVSS_16

F8

DVSS_17

F9

DVSS_18

G6

DVSS_19

G7

DVSS_20

G8

DVSS_21

G9

DVSS_22

G14

DVSS_23

H3

DVSS_24

H7

DVSS_25

H8

DVSS_26

J3

DVSS_27

J5

DVSS_28

J14

DVSS_29

J15

DVSS_30

J16

DVSS_31

J17

DVSS_32

J18

DVSS_33

K6

DVSS_34

K9

DVSS_35

K10

DVSS_36

K11

DVSS_37

K12

DVSS_38

K13

DVSS_39

K14

DVSS_40

K15

DVSS_41

K16

DVSS_42

K17

DVSS_43

K18

DVSS_44

L2

DVSS_45

L9

DVSS_46

L10

DVSS_47

L11

DVSS_48

L12

DVSS_49

L13

DVSS_50

L14

DVSS_51

L15

DVSS_52

L16

DVSS_53

L17

DVSS_54

L18

DVSS_55

L19

DVSS_56

L20

DVSS_57

M4

DVSS_58

M9

DVSS_59

M10

DVSS_60

M11

DVSS_61

M12

DVSS_62

M13

DVSS_63

M14

DVSS_64

M15

DVSS_65

M16

DVSS_66

M17

DVSS_67

M18

DVSS_68

M19

DVSS_69

M20

DVSS_70

N3

DVSS_71

N9

DVSS_72

N10

DVSS_73

N11

DVSS_74

N12

DVSS_75

N13

DVSS_76

N14

DVSS_77

N15

DVSS_78

N16

DVSS_79

N17

DVSS_80

N18

DVSS_81

N19

DVSS_82

N20

DVSS_83

P5

DVSS_84

IC101

DEV

IC101

DEV

VCCK_23
VCCK_24
VCCK_25
VCCK_26
VCCK_27
VCCK_28
VCCK_29
VCCK_30
VCCK_31
VCCK_32

VCC3IO_A
VCC3IO_B

DVSS_85
DVSS_86
DVSS_87
DVSS_88
DVSS_89
DVSS_90
DVSS_91
DVSS_92
DVSS_93
DVSS_94
DVSS_95
DVSS_96
DVSS_97
DVSS_98

DVSS_99
DVSS_100
DVSS_101
DVSS_102
DVSS_103
DVSS_104
DVSS_105
DVSS_106
DVSS_107
DVSS_108
DVSS_109
DVSS_110
DVSS_111
DVSS_112
DVSS_113
DVSS_114
DVSS_115
DVSS_116
DVSS_117
DVSS_118
DVSS_119
DVSS_120
DVSS_121
DVSS_122
DVSS_123
DVSS_124
DVSS_125
DVSS_126
DVSS_127
DVSS_128
DVSS_129
DVSS_130
DVSS_131
DVSS_132
DVSS_133
DVSS_134
DVSS_135
DVSS_136
DVSS_137
DVSS_138
DVSS_139
DVSS_140
DVSS_141
DVSS_142
DVSS_143
DVSS_144
DVSS_145
DVSS_146
DVSS_147
DVSS_148
DVSS_149
DVSS_150
DVSS_151
DVSS_152
DVSS_153
DVSS_154
DVSS_155
DVSS_156
DVSS_157
DVSS_158
DVSS_159
DVSS_160
DVSS_161
DVSS_162
DVSS_163
DVSS_164
DVSS_165
DVSS_166
DVSS_167

Y21
W22
Y22
AA22
AB22
Y23
AA23
AB23
AA24
AB24

G21
F22

P11
P12
P13
P14
P15
P16
P17
P18
P22
R3
R11
R12
R13
R14
R15
R16
R17
R18
T11
T12
T13
T14
T15
T16
T17
T18
T23
T26
U7
U8
U11
U12
U13
U14
U15
U16
U17
U18
V3
V11
V12
V13
V14
V15
V16
V17
V18
W7
W11
W12
W13
W14
W16
Y3
Y25
AA8
AB1
AB5
AB9
AB11
AB13
AB16
AB18
AB19
AB20
AC2
AC13
AC22
AC23
AC24
AD4
AD13
AD14
AD25
AE14
AF4
AF7
AF10
AF13
AF25
AG1
AH6
AH9

+1.2V_MTK_CORE

VDD3V3

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.

A5LR_Bring_Up

MAIN2

2014.11.01

3

+1.5V_DDR

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

LGE Internal Use Only

C501

0.1uF

C503

0.1uF

C505

0.1uF

C507

0.1uF

C509

0.1uF

+1.5V_DDR

C514

C512

10uF

1uF

10V

C525

C524

10uF

1uF

10V

+1.5V_DDR

C502

C500

0.1uF

0.1uF

PCB Bottom Side

+1.5V_DDR

OPT

C537

0.1uF

/RCSD
/RRAS
/RCAS

RRESET

RCLK0

/RCLK0
DDRVREF_A1
DDRVREF_A2

+1.5V_DDR

AB4
AC9
AE3
AE6
AD9
AE4

AC11

AD5
AE9
AE5

AE7
AD11
AE12

AC5
AE10
AE11

AD7

AE8

AC7

V4

/RCS

W4
AA5
AA6
AC4

/RWE

W5

RODT

W6

RCKE

U6
AA4

Y4

U5

AE13

W9

W8

Y8

Y9

AC20
AD20

R4

T4

R5

T5

R6

T6

R7

T7

R8

V8

R9

T9

U9

V9

AB12

T8

RA0
RA1
RA2
RA3
RA4
RA5
RA6
RA7
RA8

RA9
RA10
RA11
RA12
RA13
RA14
RA15

RBA0
RBA1
RBA2

R501
120

1/16W
1%

TP500

R500

49.9

1/16W
1%

C506

0.1uF

OPT

OPT

C538

C539

0.1uF

0.1uF

IC101

LGE5221(A5LRA0)

RA0
RA1
RA2
RA3
RA4
RA5
RA6
RA7
RA8
RA9
RA10
RA11
RA12
RA13
RA14
RA15
RBA0
RBA1
RBA2
RCS
RCSD
RRAS
RCAS
RWE
RODT
RCKE
RRESET
RCLK0
RCLK0B

DEV

DDRVREF_A1
DDRVREF_A2
ARTP
ARTN
MEMTP
MEMTN
TP_HPCPLL
TN_HPCPLL

DDRV_1
DDRV_2
DDRV_3
DDRV_4
DDRV_5
DDRV_6
DDRV_7
DDRV_8

AVDD33_DDR

DDRV_9

AVDD12_DDR
DDRV_10
DDRV_11

AVSS12_DDR
DDRV_12
DDRV_13
DDRV_14
DDRV_15

DDRVA

C508

0.1uF

RDQM0
RDQS0

RDQS0B

RDQM1
RDQS1

RDQS1B

RDQ10
RDQ11
RDQ12
RDQ13
RDQ14
RDQ15
RDQM2
RDQS2

RDQS2B

RDQ16
RDQ17
RDQ18
RDQ19
RDQ20
RDQ21
RDQ22
RDQ23
RDQM3
RDQS3

RDQS3B

RDQ24
RDQ25
RDQ26
RDQ27
RDQ28
RDQ29
RDQ30
RDQ31

+1.5V_DDR

C529

C528

0.1uF

0.1uF

VREFCA1

M8

VREFCA

H1

VREFDQ

R504

L8

ZQ

240

1%

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

HYNIX_DDR

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

10uF

1uF

10V

DDRVREF_A2

+1.5V_DDR

C532 1uF
C533 1uF

Near DRAM

+1.5V_DDR

R506

R508

VREFCA2

C534

0.1uF

1K 1%

C522

0.1uF

1K 1%

C535

0.1uF

DDRVREF_A1

+1.5V_DDR

C519 1uF
C520 1uF

Near DRAM

+1.5V_DDR

RCLK0

VREFCA1

C518

0.1uF

R502

1K 1%

C517

0.1uF

R503

1K 1%

/RCLK0

RRESET

+1.5V_DDR

+1.5V_DDR

+1.5V_DDR

1%

1%

1%

1%

+1.5V_DDR

1%

1%

Near DRAM

100

R505

IC502

H5TQ4G63CFR_RDC

DDR3
4Gbit

N3

RA0
RA1

RCLK0

/RCLK0

/RCSD

/RRAS
/RCAS

RRESET

RDQS2

/RDQS2

RDQS3

/RDQS3

RDQM2

RDQM3
RDQ[16]
RDQ[17]
RDQ[18]
RDQ[19]
RDQ[20]
RDQ[21]
RDQ[22]
RDQ[23]

RDQ[24]
RDQ[25]
RDQ[26]
RDQ[27]
RDQ[28]
RDQ[29]
RDQ[30]
RDQ[31]

RA2
RA3
RA4
RA5
RA6
RA7
RA8

RA9
RA10
RA11
RA12
RA13
RA14
RA15

RBA0
RBA1
RBA2

RCKE

RODT

/RWE

OPT

47K

R563

C521

0.1uF

OPT

100

R559

/RCS

OPT

100

R560

OPT

100

R561

/RCSD

OPT

100

R562

RDQ[16-23]

RDQ[24-31]

100

R564

RCKE

100

R565

A0

P7

(x16)

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

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

DQL0

F7
F2
F8
H3
H8
G2
H7

D7
C3
C8
C2
A7
A2
B8
A3

1GB_HYNIX_DDR

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

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

VREFCA2

M8

H1

C536

0.1uF

R507

L8

ZQ

240

1%
B2
D9
G7
K2
K8
N1
N9
R1
R9

A1
A8
C1
C9
D2
E9
F1
H2
H9

J1

NC_1

J9

NC_2

L1

NC_3

L9

NC_4

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

B1
B9
D1
D8
E2
E8
F9
G1
G9

RCLK0

/RCLK0

/RRAS
/RCAS

RRESET

RDQS0

/RDQS0

RDQS1

/RDQS1

RDQM0
RDQM1

RDQ[8]
RDQ[9]
RDQ[10]
RDQ[11]
RDQ[12]
RDQ[13]
RDQ[14]
RDQ[15]

RA10
RA11
RA12
RA13
RA14
RA15

RBA0
RBA1
RBA2

RCKE

/RCS
RODT

/RWE

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

C523

0.1uF

RA0
RA1
RA2
RA3
RA4
RA5
RA6
RA7
RA8
RA9

C510

0.1uF

0.1uF

OPT

OPT

C541

C540

0.1uF

0.1uF

AA3

RDQM0

Y2

RDQS0

Y1

/RDQS0

U3

RDQ0

AE2

RDQ1

T3

RDQ2

AE1

RDQ3

R2

RDQ4

AF2

RDQ5

R1

RDQ6

AF1

RDQ7

W2

RDQM1

AB3

RDQS1

AB2

/RDQS1

AD2

RDQ8

U1

RDQ9

AD3
U2
AC3
V1
AC1
V2
AF8

RDQM2

AG7

RDQS2

AH7

/RDQS2

AG3
AG12
AF3
AH12
AG2
AG13
AH2
AH13
AG6

RDQM3

AF9

RDQS3

AG9

/RDQS3

AF12
AH4
AF11
AG4
AG10
AF5
AH10
AF6

U4
Y15

W15

10uF

1uF

10V

OPT

OPT

C543

C542

0.1uF

0.1uF
16V

+1.2V_MTK_CORE

RDQ[0-7]

RDQ[8-15]

RDQ[16-23]

RDQ[24-31]

C511
1uF

RDQ[0-7]

VDD3V3

RDQ[8-15]

C504

0.1uF

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

RDQ[8]

RDQ[9]
RDQ[10]
RDQ[11]
RDQ[12]
RDQ[13]
RDQ[14]
RDQ[15]

RDQ[16]
RDQ[17]
RDQ[18]
RDQ[19]
RDQ[20]
RDQ[21]
RDQ[22]
RDQ[23]

RDQ[24]
RDQ[25]
RDQ[26]
RDQ[27]
RDQ[28]
RDQ[29]
RDQ[30]
RDQ[31]

C516

C515

C513

C527

C526

0.1uF

0.1uF

IC501

H5TQ4G63CFR_RDC

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

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

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

DDR3
4Gbit
(x16)

C531

C530

+1.5V_DDR

1%

100

R566

RODT

100

R567

K4B4G1646D-BCMA

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

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

IC502-*1

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

1GB_SS_DDR

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

ZQ

B2
D9
G7
K2
K8
N1
N9
R1
R9

A1
A8
C1
C9
D2
E9
F1
H2
H9

J1

NC_1

J9

NC_2

L1

NC_3

L9

NC_4

T7

NC_6

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

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

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

768MB_SS_DDR

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

IC502-*2

K4B2G1646Q-BCMA

IC502-*3

H5TQ2G63FFR-RDC

N3

VREFCA

A0

P7

A1

P3

A2

N2

VREFDQ

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

NC_5

M2

BA0

N8

BA1

M3

BA2

VDDQ_1

J7

VDDQ_2

CK

K7

VDDQ_3

CK

K9

VDDQ_4

CKE

VDDQ_5

L2

VDDQ_6

CS

K1

VDDQ_7

ODT

J3

VDDQ_8

RAS

K3

VDDQ_9

CAS

L3

WE

T2

RESET

F3

DQSL

G3

DQSL

C7

DQSU

B7

DQSU

E7

DML

D3

DMU

E3

DQL0

F7

DQL1

F2

DQL2

F8

VSS_10

DQL3

H3

768MB_HYNIX_DDR

VSS_11

DQL4

H8

VSS_12

DQL5

G2

DQL6

H7

DQL7

VSSQ_1

D7

VSSQ_2

DQU0

C3

VSSQ_3

DQU1

C8

VSSQ_4

DQU2

C2

VSSQ_5

DQU3

A7

VSSQ_6

DQU4

A2

VSSQ_7

DQU5

B8

VSSQ_8

DQU6

A3

VSSQ_9

DQU7

M8

H1

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
A8
C1
C9
D2
E9
F1
H2
H9

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
T1
T9

B1
B9
D1
D8
E2
E8
F9
G1
G9

K4B4G1646D-BCMA

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

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-*1

VREFCA

VREFDQ

ZQ

VDD_1
VDD_2
VDD_3
VDD_4
VDD_5
VDD_6
VDD_7
VDD_8
VDD_9

VDDQ_1
VDDQ_2
VDDQ_3
VDDQ_4
VDDQ_5
VDDQ_6
VDDQ_7
VDDQ_8
VDDQ_9

NC_1
NC_2
NC_3
NC_4
NC_6

SS_DDR

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

1%

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

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.

A5LR_Bring_Up

DDR

2014.11.01

5

TPO_DATA[0-7]

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

LGE Internal Use Only

TPO_CLK

TPO_SYNC

TPO_VAL

/CI_CD2#
/CI_CD1#

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

From SoC to CICAM

CI

AR703

47

+3.3V_NORMAL

CI

CI

10K

R708

R706

CI

C706

0.1uF

/CI_WAIT#

10K

/CI_IREQ#

CI

C707

0.1uF

AR701

AR702

CI_MCLKI

CI_MISTRT

CI_MIVAL

CI

47

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

CI
47

CI_RESET
/CI_WAIT#

CI_MCLKO
CI_MOVAL

CI_MOSTRT

AR704

/CI_IORD#

/CI_IOWR#

From CICAM to SoC

CI

47

CI_MCLKO

R702
R703

AR705

CI_WAIT#
CI_IREQ#
CI_CD2#
CI_CD1#

47
47

CI

47

CI_MDI[0-7]

R711

10K

CI
CI

CI_MDO[0-7]

CI_MDI[0-7]

+5V_CI_ON

R707

10K

OPT

TPI_VAL
TPI_SYNC

CI

+5V_CI_ON

10K

R701

10K

OPT

C708
12pF
50V

OPT

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

C701

0.1uF
CI

/CI_CD1#

CI_MDO[3]
CI_MDO[4]

TPI_CLK

CI_MDO[5]
CI_MDO[6]
CI_MDO[7]

CI_MDI[0]
CI_MDI[1]
CI_MDI[2]
CI_MDI[3]

CI_MDI[4]
CI_MDI[5]
CI_MDI[6]
CI_MDI[7]

/CI_REG#

CI_MOVAL
CI_MOSTRT
CI_MDO[0]
CI_MDO[1]
CI_MDO[2]

/CI_CD2#

R705

CI

Closed to SoC
TP signal CLK
from CI to SoC

From CICAM to SoCFrom SoC to CICAM

C702

4.7uF
10V

CI

CI

AR706

AR707 47

CI

+5V_CI_ON

47

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

R715

CI

R716 47

CI

TPI_DATA[0-7]

CI

CI_CE1#

R721 47

C705

CI_MIVAL

CI_MCLKI
CI_MISTRT

CI_DATA[0-7]

CI_ADDR[10]

CI_ADDR[11]
CI_ADDR[9]
CI_ADDR[8]
CI_ADDR[13]
CI_ADDR[14]

CI

CI_ADDR[12]
CI_ADDR[7]
CI_ADDR[6]
CI_ADDR[5]
CI_ADDR[4]
CI_ADDR[3]
CI_ADDR[2]
CI_ADDR[1]
CI_ADDR[0]

/CI_OE#

+5V_CI_ON

R722

10K

CI

CI_DATA[0-7]

/CI_WE#
/CI_IREQ#

CI

JK701

10125901-015LF

35

47

36

CI

37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59

65
66
67
68

69

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
2660
2761
2862
2963
3064
31
32
33
34

G1G2

CI_DATA[3]
CI_DATA[4]
CI_DATA[5]
CI_DATA[6]
CI_DATA[7]

CI

R720 47

C704 0.1uF

CI_DATA[0]
CI_DATA[1]
CI_DATA[2]

C703
12pF
50V
OPT

CI_ADDR[10]

CI_ADDR[11]
CI_ADDR[9]
CI_ADDR[8]
CI_ADDR[13]
CI_ADDR[14]

CI

CI

0.1uF
16V

CI_ADDR[12]
CI_ADDR[7]
CI_ADDR[6]
CI_ADDR[5]
CI_ADDR[4]
CI_ADDR[3]
CI_ADDR[2]
CI_ADDR[1]
CI_ADDR[0]

Closed to CI
TP signal CLK
from SoC to CI

CI_DATA[0]
CI_DATA[1]
CI_DATA[2]
CI_DATA[3]

CI_DATA[4]
CI_DATA[5]
CI_DATA[6]
CI_DATA[7]

CI_ADDR[0]
CI_ADDR[1]
CI_ADDR[2]
CI_ADDR[3]

CI_ADDR[4]
CI_ADDR[5]
CI_ADDR[6]
CI_ADDR[7]

CI_ADDR[8]

CI_ADDR[9]
CI_ADDR[10]
CI_ADDR[11]

CI_ADDR[12]
CI_ADDR[13]
CI_ADDR[14]

/CI_REG#

/CI_OE#

/CI_WE#
/CI_IORD#
/CI_IOWR#

AR713

47

CI

AR714

47

CI

AR709

47

CI

AR710

47

CI

AR711

47

CI

AR712

47

CI

AR708

47

EB_DATA[0]
EB_DATA[1]
EB_DATA[2]
EB_DATA[3]

EB_DATA[4]
EB_DATA[5]
EB_DATA[6]
EB_DATA[7]

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]
CI_REG#

CI_OE#

CI_WE#
CI_IORD#
CI_IOWR#

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.

A5LR_Bring_Up

CI

2014.11.01

7