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LED LCD TV
SERVICE MANUAL
CAUTION
BEFORE SERVICING THE CHASSIS,
READ THE SAFETY PRECAUTIONS IN THIS MANUAL.
CHASSIS : LJ03D
MODEL : 32LE5500 32LE5500-SA
North/Latin America http://aic.lgservice.com
Europe/Africa http://eic.lgservice.com
Asia/Oceania http://biz.lgservice.com
Internal Use Only
Printed in KoreaP/NO : MFL63261812 (1004-REV00)
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
LGE Internal Use Only- 2 -
CONTENTS
CONTENTS .............................................................................................. 2
PRODUCT SAFETY ................................................................................. 3
SPECIFICATION ....................................................................................... 6
ADJUSTMENT INSTRUCTION .............................................................. 12
EXPLODED VIEW .................................................................................. 20
SVC. SHEET ...............................................................................................
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
LGE Internal Use Only- 3 -
SAFETY PRECAUTIONS
Many electrical and mechanical parts in this chassis have special safety-related characteristics. These parts are identified by in the
Schematic Diagram and 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
1.5 Kohm/10W
To Instrument’s
exposed 
METALLIC PARTS
Good Earth Ground
such as WATER PIPE,
CONDUIT etc.
AC Volt-meter
When 25A is impressed between Earth and 2nd Ground
for 1 second, Resistance must be less than 0.1
*Base on Adjustment standard
IMPORTANT SAFETY NOTICE
0.15 uF
Ω
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
LGE Internal Use Only- 4 -
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 conflict 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 specified 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 flammable mixture.
Unless specified 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 fixtures specified in this
service manual.
CAUTION: Do not connect the test fixture 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 field-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-statictype solder removal device. Some solder
removal devices not classified as "anti-static" can generate
electrical charges sufficient to damage ES devices.
5. Do not use freon-propelled chemicals. These can generate
electrical charges sufficient 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 floor can generate static electricity
sufficient 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 wire-
bristle (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 flows 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.
SERVICING PRECAUTIONS
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
LGE Internal Use Only- 5 -
IC Remove/Replacement
Some chassis circuit boards have slotted holes (oblong) through
which the IC leads are inserted and then bent flat 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.
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.
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.
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
LGE Internal Use Only- 6 -
SPECIFICATION
NOTE : Specifications and others are subject to change without notice for improvement.
1. Application range
This specification is applied to the LCD TV used LJ03B/D/E/F chassis.
2. Requirement for Test
Each part is tested as below without special appointment.
1) Temperature
: 25 ºC ± 5 ºC (77 ºF ± 9 ºF), CST : 40 ºC ± 5 ºC
2) Relative Humidity: 65 % ± 10 %
3) Power Voltage
: Standard input voltage (AC 100-240 V~ 50 / 60 Hz)
* Standard Voltage of each products is marked by models.
4) Specification and performance of each parts are followed each drawing and specification by part number in accordance with
BOM.
5) The receiver must be operated for about 20 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 
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
- 7 - LGE Internal Use Only
4. General Specification(TV)
No Item Specification Remark
1 Receivable System 1) SBTVD / NTSC / PAL-M / PAL-N
2 Available Channel VHF : 02 ~ 13
UHF : 14 ~ 69
DTV : 07 ~ 69
CATV : 01 ~ 135
3 Input Voltage 1) AC 100 ~ 240V 50/60Hz
4 Market Central and South AMERICA
5 Screen Size 32 inch Wide (1920 x 1080) 32LE7500,32LD650,32LE5500 
42 inch Wide (1920 x 1080) 42LE7500,42LD650,42LE5500,42LE8500
47 inch Wide (1920 x 1080) 47LE7500,47LD650,47LE5500, 
55 inch Wide (1920 x 1080) 55LE7500,55LD650
60 inch Wide (1920 x 1080) 60LE5500 
6 Aspect Ratio 16:9
7 Tuning System FS
8 LCD Module LC320EUH-SCA4 (Vitiaz 5) 32LE7500-SA 
LC420EUH-SCA2 (Vitiaz 5) 42LE7500-SA 
LC470EUH-SCA2 (Vitiaz 5) 47LE7500-SA 
LC550EUB-SCA2 (Vitiaz 5) 55LE7500-SA 
LC320WUH-SCA1(Vitiaz 5) 32LD650-SA 
LC420WUH-SCA1(Vitiaz 5) 42LD650-SA 
LC470WUH-SCA1(Vitiaz 5) 47LD650-SA 
LC550WUB-SCA1(Vitiaz 5) 55LD650-SA 
LC320EUH-SCA1(Vitiaz 5) 32LE5500-SA 
LC420EUH-SCA1(Vitiaz 5) 42LE5500-SA 
LC470EUH-SCA1(Vitiaz 5) 47LE5500-SA 
Sharp 60 FHD T240 IOP LED 60LE5500-SA 
LC420MUK-SCA1 (Vitiaz 5) 42LE8500-SA 
9 Operating Environment Temp : 0 ~ 40 deg
Humidity : ~ 80 %
10 Storage Environment Temp : -20 ~ 60 deg
Humidity : -85 %
5. Chrominance & Luminance Specification 
1) LJ03D/E (LE5500,LE7500,42LE8500) 
- 8 - LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
No Item Min Typ Max Unit Remark 
1. Max Luminance Module 360 450 cd/m2 32/42/47/55LE7(5)500 
(Center 1-point / Full White Pattern) 450 500 42LE8500 
Set 300 450 cd/m2 32/42/47/55LE7(5)500
400 500 42LE8500
2. Luminance uniformity 77 % Full white 
3. Color coordinate RED X Typ. 0.651 Typ. 32LE7(5)500 
-0.03 0.647 +0.03 42/55LE7(5)500 
0.645 47LE7(5)500 
(TBD) (42LE8500) 
Y 0.332 
0.332 
0.333 
(TBD) 
GREEN X 0.308 
0.309 
0.310 
(TBD) 
Y 0.597 
0.601 
0.593 
(TBD) 
BLUE X 0.149 
0.149 
0.152 
(TBD) 
Y 0.059 
0.059 
0.057 
(TBD) 
WHITE X 0.279
(0.280)
Y 0.292
(0.290)
4. Color coordinate uniformity N/A 
5. Contrast ratio 900:1 1300:1 32LE7(5)500 NORMAL 
1000:1 1400:1 42/47/55, 42LE85
3,000,000:1 5,000,000:1 LE7(5)500 DCR 
5,000,000:1 7,000,000:1 42LE8500 
6. Color Temperature Cool 0.267 0.269 0.271 <Test Condition> 
0.271 0.273 0.275 85% Full white pattern
Standard 0.283 0.285 0.287 ** The W/B Tolerance is
0.291 0.293 0.295 ±0.015 Adjustment
Warm 0.311 0.313 0.315
0.327 0.329 0.331
7. Color Distortion, DG 10.0 % 
8. Color Distortion, DP 10.0 deg 
9. Color S/N, AM/FM 43.0 dB
10. Color Killer Sensitivity -80 dBm 
- 9 - LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
2) LJ03B (32/42/47/55LD650-SA) 
No Item Min Typ Max Unit Remark 
1. Max Luminance Module 400 500 cd/m2 32/42/47/55LD650 
(Center 1-point / Full White Pattern) 
Set 400 500 cd/m2 32/42/47/55LD650
2. Luminance uniformity 77 % Full white 
3. Color coordinate RED X Typ. 0.642 Typ. 32LD650 
-0.03 0.636 +0.03 42LD650 
0.639 47LD650
(TBD) 55LD650 
Y 0.334 
0.335 
0.334 
(TBD) 
GREEN X 0.292 
0.291 
0.290 
(TBD) 
Y 0.607 
0.603 
0.606 
(TBD) 
BLUE X 0.146
0.146 
0.146 
(TBD) 
Y 0.056
0.061 
0.058 
(TBD) 
WHITE X 0.279
Y 0.292
4. Color coordinate uniformity N/A 
5. Contrast ratio 1000:1 1400:1 32LD650 NORMAL 
1100:1 1500:1 42/55LD650 
1200:1 1500:1 47LD650 DCR 
50,000:1 70,000:1
6. Color Temperature Cool 0.267 0.269 0.271 <Test Condition> 
0.271 0.273 0.275 85% Full white pattern
Standard 0.283 0.285 0.287 ** The W/B Tolerance is
0.291 0.293 0.295 ±0.015 Adjustment
Warm 0.311 0.313 0.315
0.327 0.329 0.331
7. Color Distortion, DG 10.0 % 
8. Color Distortion, DP 10.0 deg 
9. Color S/N, AM/FM 43.0 dB
10. Color Killer Sensitivity -80 dBm 
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
- 10 - LGE Internal Use Only
6. Component Video Input (Y, CB/PB, CR/PR)
No Resolution H-freq(kHz) V-freq.(kHz) Pixel clock Proposed 
1. 720*480 15.73 60 13.5135 SDTV ,DVD 480I 
2. 720*480 15.73 59.94 13.5 SDTV ,DVD 480I 
3. 720*480 31.50 60 27.027 SDTV 480P 
4. 720*480 31.47 59.94 27.00 SDTV 480P 
5. 720*576 15.625 50* 13.5 SDTV 576I 
6. 720*576 31.25 50* 13.5 SDTV 576P 
7. 1280*720 37.5 50* 74.25 HDTV 720P 
8. 1280*720 45.00 60.00 74.25 HDTV 720P 
9. 1280*720 44.96 59.94 74.176 HDTV 720P 
10. 1929*1080 28.125 50* 74.25 HDTV 1080I 
11. 1920*1080 33.75 60.00 74.25 HDTV 1080I 
12. 1920*1080 33.72 59.94 74.176 HDTV 1080I 
13. 1920*1080 56.25 50* 148.5 HDTV 1080P 
14. 1920*1080 67.50 60 148.50 HDTV 1080P 
15. 1920*1080 67.432 59.94 148.352 HDTV 1080P 
16. 1920*1080 27.00 24.00 74.25 HDTV 1080P 
17. 1920*1080 26.97 23.976 74.176 HDTV 1080P
18. 1920*1080 33.75 30.00 74.25 HDTV 1080P
19. 1920*1080 33.71 29.97 74.176 HDTV 1080P
8. RGB Input (PC)
No Resolution H-freq(kHz) V-freq.(kHz) Pixel clock Proposed 
PC DDC
1. 640*350 31.468 70.09 25.17 EGA X 
2. 720*400 31.469 70.08 28.32 DOS O 
3. 640*480 31.469 59.94 25.17 VESA(VGA) O
4 . 800*600 37.879 60.31 40.00 VESA(SVGA) O 
5. 1024*768 48.363 60.00 65.00 VESA(XGA) O 
6. 1280*768 47.776 59.87 79.50 CVT(WXGA) O 
7. 1360*768 47.712 60.015 85.50 VESA(WXGA) O
8. 1280*1024 63.981 60.020 108.00 VESA(SXGA) O 
9. 1600*1200 75.00 60.00 162 VESA(UXGA) O
10. 1920*1080 67.50 60 148.5 HDTV 1080P O
• RGB PC Monitor Range Limits
Min Vertical Freq - 56 Hz 
Max Vertical Freq - 62 Hz 
Min Horiz. Freq - 30 kHz 
Max Horiz. Freq - 80 kHz 
Pixel Clock - 170 MHz 
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
- 11 - LGE Internal Use Only
9. HDMI input (PC/DTV)
No Resolution H-freq(kHz) V-freq.(kHz) Pixel clock Proposed 
PC DDC
1. 640*350 31.468 70.09 25.17 EGA X 
2. 720*400 31.469 70.08 28.32 DOS O 
3. 640*480 31.469 59.94 25.17 VESA(VGA) O
4 . 800*600 37.879 60.31 40.00 VESA(SVGA) O 
5. 1024*768 48.363 60.00 65.00 VESA(XGA) O 
6. 1280*768 47.776 59.870 79.50 CVT(WXGA) X 
7. 1360*768 47.712 60.015 85.50 VESA(WXGA) X
8. 1280*1024 63.981 60.020 108.00 VESA(SXGA) O 
9. 1600*1200 75.00 60.00 162 VESA(UXGA) O
10. 1920*1080 67.5 60 148.5 HDTV 1080P O
DTV
1. 720*480 31.50 60 27.027 SDTV 480P 
2. 720*480 31.47 59.94 27.00 SDTV 480P 
3. 720*576 31.25 50* 13.5 SDTV 576P 
4. 1280*720 37.5 50* 74.25 HDTV 720P 
5. 1280*720 45.00 60.00 74.25 HDTV 720P 
6. 1280*720 44.96 59.94 74.176 HDTV 720P 
7. 1929*1080 28.125 50* 74.25 HDTV 1080I 
8. 1920*1080 33.75 60.00 74.25 HDTV 1080I 
9. 1920*1080 33.72 59.94 74.176 HDTV 1080I 
10. 1920*1080 56.25 50* 148.5 HDTV 1080P 
11. 1920*1080 67.50 60 148.50 HDTV 1080P 
12. 1920*1080 67.432 59.94 148.352 HDTV 1080P 
13. 1920*1080 27.00 24.00 74.25 HDTV 1080P 
14. 1920*1080 26.97 23.976 74.176 HDTV 1080P 
15. 1920*1080 33.75 30.00 74.25 HDTV 1080P 
16. 1920*1080 33.71 29.97 74.176 HDTV 1080P 
• HDMI Monitor Range Limits
Min Vertical Freq - 56 Hz Max Vertical Freq - 62 Hz 
Min Horiz. Freq - 30 kHz Max Horiz. Freq - 80 kHz 
Pixel Clock - 170 MHz 
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposesLGE Internal Use Only- 12 -
ADJUSTMENT INSTRUCTION
1. Application Range
This specification sheet is applied all of the LJ03D/E LCD TV
models, which produced in manufacture department or similar
LG TV factory 
2. Notice 
(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 ºC ± 5 ºC of temperature and 65 % ± 10 % of relative
humidity if there is no specific designation. 
(4) The input voltage of the receiver must keep AC 100-220
V~ 50 / 60Hz.
(5) Before adjustment, execute Heat-Run for 5 minutes. 
A After Receive 100% Full white pattern (06CH) then
process Heat-run 
(or “8. Test pattern” condition of Ez-Adjust status) 
A How to make set white pattern 
1) Press Power ON button of Service Remocon 
2) Press ADJ button of Service remocon. Select “8. Test
pattern” and, after select “White” using navigation
button, and then you can see 100% Full White pattern. 
* In this status you can maintain Heat-Run useless any
pattern generator 
* Notice: if you maintain one picture over 20 minutes
(Especially sharp distinction black with white
pattern – 13Ch, or Cross hatch pattern – 09Ch)
then it can appear image stick near black level. 
3. Adjustment Items 
3.1. PCB Assembly Adjustment 
A MAC Address Download 
A Adjust 480i Comp1 
A Adjust 1080p Comp1/RGB 
• If it is necessary, it can adjustment at Manufacture Line 
• You can see set adjustment status at “1. ADJUST
CHECK” of the “In-start menu” 
A EDID (The Extended Display Identification Data)/DDC
(Display Data Channel) download 
3.2. Set Assembly Adjustment 
A Color Temperature (White Balance) Adjustment 
A Using RS-232C 
A PING Test 
A Selection Factory output option 
4. PCB Assembly Adjustment 
4.1. MAC Address 
4.1.1. Equipment & Condition 
• Play file: Serial.exe 
• MAC Address edit 
• Input Start / End MAC address 
4.1.2 Download method 
4.1.2.1 Communication Prot connection 
Connect: PCBA Jig-> RS-232C Port== PC-> RS-232C Port 
4.1.2.2 MAC Address Download 
• Com 1,2,3,4 and 115200(Baudrate) 
• Port connection button click(1) 
• Load button click(2) for MAC Address write. 
• Start MAC Address write button(3) 
• Check the OK Or NG 
4.1.3 Equipment & Condition 
• Each other connection to LAN Port of IP Hub and Jig 
 PCBA PC(RS-232C)
 
RS-232C Port 
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
- 13 - LGE Internal Use Only
4.1.4 LAN inspection solution 
• LAN Port connection with PCB 
• Network setting at MENU Mode of TV 
• Setting automatic IP 
• Setting state confirmation 
- If automatic setting is finished, you confirm IP and MAC
Address. 
4.1.5 LAN Port Inspection (PING Test) 
4.1.5.1 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 
4.1.6 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 
4.2. Using RS-232C 
Adjust 3 items at 3.1 PCB assembly adjustments “adjustment
sequence” one after the order. 
A Adjustment protocol 
See ADC Adjustment RS232C Protocol_Ver1.0 
A Necessary items before Adjustment items 
• Pattern Generator : (MSPG-925FA) 
•Adjust 480i Comp1 (MSPG-925FA:model :209 , pattern
:65) – Comp1 Mode 
• Adjust 1080p Comp1 (MSPG-925FA:model :225 ,
pattern :65) – Comp1 Mode 
• Adjust RGB (MSPG-925FA:model :225 , Pattern :65) –
RGB-PC Mode 
* If you want more information then see the below
Adjustment method (Factory Adjustment) 
A Adjustment sequence 
• aa 00 00: Enter the ADC Adjustment mode. 
• xb 00 40: Change the mode to Component1 (No actions) 
• ad 00 10: Adjust 480i Comp 
• ad 00 10: Adjust 1080p Comp 
• xb 00 60: Change to RGB-PC mode(No action) 
• ad 00 10: Adjust 1080p RGB 
• xb 00 90: Endo of Adjustmennt 
- 14 - LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
5 Factory Adjustment 
5.1 Manual Adjust Component 480i/1080p
RGB 1080p 
A Summary : Adjustment component 480i/1080i and RGB
1080p is Gain and Black level setting at Analog to Digital
converter, and compensate the RGB deviation
A Using instrument 
• Adjustment remocon, 801GF(802B, 802F, 802R) or
MSPG925FA pattern generator (It can output 480i/1080i
horizontal 100% color bar pattern signal, and its output
level must setting 0.7V±0.1V p-p correctly) 
<Pic.4 Adjustment pattern : 480i / 1080p 60Hz Pattern > 
A You must make it sure its resolution and pattern cause
every instrument can have different setting 
A Adjustment method 480i Comp1, Adjust 1080p Comp1/RGB
(Factory adjustment) 
• ADC 480i Component1 adjustment 
- Check connection of Component1 
- MSPG-925FA -> Model: 209, Pattern 65 
• Set Component 480i mode and 100% Horizontal Color
Bar Pattern(HozTV31Bar), then set TV set to
Component1 mode and its screen to “NORMAL” 
• ADC 1080p Component1 / RGB adjustment 
- Check connection both of Component1 and RGB 
- MSPG-925FA -> Model: 225, Pattern 65 
• Set Component 1080p mode and 100% Horizontal Color
Bar Pattern(HozTV31Bar), then set TV set to
Component1 mode and its screen to “NORMAL” 
• After get each the signal, wait more a second and enter
the “IN-START” with press IN-START key of Service
remocon. After then select “7. External ADC” with
navigator button and press “Enter”. 
• After Then Press key of Service remocon “Right
Arrow(VOL+)” 
• You can see “ADC Component1 Success” 
• Component1 1080p, RGB 1080p Adjust is same method. 
• Component 1080p Adjustment in Component1 input
mode 
• RGB 1080p adjustment in RGB input mode 
• If you success RGB 1080p Adjust. You can see “ADC
RGB-DTV Success” 
5.2 EDID (The Extended Display
Identification Data) / DDC (Display Data
Channel) Download. 
A Summary 
• It is established in VESA, for communication between PC
and Monitor without order from user for building user
condition. It helps to make easily use realize “Plug and
Play” function. 
• For EDID data write, we use DDC2B protocol. 
A Auto Download 
• After enter Service Mode by pushing “ADJ” key, 
• Enter EDID D/L mode. 
• Enter “START” by pushing “OK” key. 
=> Caution : - Never connect HDMI & D-sub Cable when
the user downloading . 
- Use the proper cables below for EDID
Writing. 
§ Edid data and Model option download (RS232) 
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
LGE Internal Use Only- 15 -
5.2.1 Manual Download 
A Write HDMI EDID data 
• Using instruments 
- Jig. (PC Serial to D-Sub connection) for PC, DDC
adjustment. 
- S/W for DDC recording (EDID data write and read) 
- D-sub jack 
- Additional HDMI cable connection Jig. 
• Preparing and setting. 
- Set instruments and Jig. Like pic.5), then turn on PC and
Jig. 
- Operate DDC write S/W (EDID write & read) 
- It will operate in the DOS mode. 
Pic.3) For write EDID data, setting Jig and another instruments. 
• EDID data for LJ03B/D/E/R Chassis (Model name = LG TV) 
- HDMI-1 EDID table (0x04, 0x5A) 
- HDMI-2 EDID table (0x04, 0x4A) 
- HDMI-3 EDID table (0x04, 0x3A) 
- HDMI-4 EDID table (0x04, 0x2A) 
- Analog (RGB) EDID table (0x1D) 
See Working Guide if you want more information about EDID
communication. 
PC
VSC
B/D
- 16 - LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
5.3 Adjustment Color Temperature (White
balance) 
A Using Instruments 
• Color Analyzer: CA-210 (CH 9) 
- Using LCD color temperature, Color Analyzer (CA-210)
must use CH 9, which Matrix compensated (White, Red,
Green, Blue compensation) with CS-2100. See the
Coordination bellowed one. 
• Auto-adjustment Equipment (Itneeds when Auto-
adjustment – It is availed communicate with RS-232C :
Baud rate: 115200) 
• Video Signal Generator MSPG-925F 720p, 216Gray
(Model: 217, Pattern 78) 
A Connection Diagram (Auto Adjustment) 
• Using Inner Pattern 
• Using HDMI input 
<Pic.5 Connection Diagram for Adjustment White balance> 
A White Balance Adjustment 
If you can’t adjust with inner pattern, then you can adjust it
using HDMI pattern. You can select option at “Ez-Adjust
Menu – 7. White Balance” there items “NONE, INNER,
HDMI”. It is normally setting at inner basically. If you can’t
adjust using inner pattern you can select HDMI item, and
you can adjust. 
In manual Adjust case, if you press ADJ button of service
remocon, and enter “Ez-Adjust Menu – 7. White Balance”,
then automatically inner pattern operates. (In case of
“Inner” originally “Test-Pattern. On” will be selected in The
“Test-Pattern. On/Off”. 
• Connect all cables and equipments like Pic.5) 
• Set Baud Rate of RS-232C to 115200. It may set 115200
orignally. 
• Connect RS-232C cable to set 
• Connect HDMI cable to set 
A RS-232C Command (Commonly apply) 
• “wb 00 00”: Start Auto-adjustment of white balance. 
• “wb 00 10”: Start Gain Adjustment (Inner pattern) 
• “jb 00 c0” : 
• …
• “wb 00 1f”: End of Adjustment 
* If it needs, offset adjustment (wb 00 20-start, wb 00 2f-
end) 
• “wb 00 ff”: End of white balance adjustment (inner pattern
disappear) 
C A -100+
C O L O R
A N A L Y Z E R
T Y PE ; C A -100+
F u l l W h i t e Pat t er n
R S-232C
 
O Notice) Adjustment Mapping information 
• When Color temperature (White balance) Adjustment
(Automatically) 
- Press “Power only key” of service remocon and operate
automatically adjustment. 
- Set BaudRate to 115200. 
• If it needs, then adjustment “Offset”. 
A White Balance Adjustment (Manual adjustment) 
• Test Equipment: CA-210 
- Using LCD color temperature, Color Analyzer (CA-210)
must use CH 9, which Matrix compensated (White, Red,
Green, Blue compensation) with CS-2100. See the
Coordination bellowed one. 
• Manual adjustment sequence is like bellowed one. 
- Turn to “Ez-Adjust” mode with press ADJ button of
service remocon. 
- Select “10.Test Pattern” with CH+/- button and press
enter. Then set will go on Heat-run mode. Over 30
minutes set let on Heat-run mode. 
- Let CA-210 to zero calibration and must has gap more
10cm from center of LCD module when adjustment. 
- Press “ADJ” button of service remocon and select
“7.White-Balance” in “Ez-Adjust” then press “ G ” button
of navigation key.
(When press “ G ” button then set will go to full white
mode)
- Adjust at three mode (Cool, Medium, Warm) 
- If “cool” mode 
Let B-Gain to 192 and R, G, B-Cut to 64 and then
control R, G gain adjustment High Light adjustment. 
- If “Medium” and “Warm” mode 
Let R-Gain to 192 and R, G, B-Cut to 64 and then
control G, B gain adjustment High Light adjustment. 
- All of the three mode 
Let R-Gain to 192 and R, G, B-Cut to 64 and then
control G, B gain adjustment High Light adjustment. 
- With volume button (+/-) you can adjust. 
- After all adjustment finished, with Enter (A key) turn to
Ez-Adjust mode. Then with ADJ button, exit from
adjustment mode 
Attachment: White Balance adjustment coordination and
color temperature. 
• Using CS-1000 Equipment. 
- COOL : T=11000K, ∆uv=0.000, x=0.276 y=0.283 
- MEDIUM : T=9300K, ∆uv=0.000, x=0.285 y=0.293 
- WARM : T=6500K, ∆uv=0.000, x=0.313 y=0.329 
• Using CA-210 Equipment. (9 CH) 
- Contrast value: 216 Gray 
- White Balance adjustment coordination and color
temperature for Edge(IOP) LED (LJ03D/E) 
-White Balance adjustment table for Edge (IOP) LED
(LJ03D/E) 
- 17 - LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
5.4 EYE-Q function check 
1) Turn on TV 
2) Press EYE key of Adj. R/C 
3) Cover the Eye Q II sensor on the front of the using your
hand and wait for 6 seconds 
4) Confirm that R/G/B value is lower than 10 of the “Raw Data
(Sensor data, Back lignt )” . If after 6 seconds, R/G/B value
is not lower than 10, replace Eye Q II sensor 
5) Remove your hand from the Eye Q II sensor and wait for 6
seconds 
6) Confirm that “ok” pop up. 
If change is not seen, replace Eye Q II sensor 
5.5 HDCP (High-Bandwidth Digital
Contents Protection) Setting 
• No Need. 
5.6 Test of RS-232C control. 
Press In-Start button of Service Remocon then set the
“4.Baud Rate” to 115200. Then check RS-232C control and 
5.7 Selection of Country option. 
Selection of country option is allowed only North American
model (Not allowed Korean model). It is selection of Country
about Rating and Time Zone. 
• Models: All models which use LJ03X Chassis (See the first
page.) 
• Press “In-Start” button of Service Remocon, then enter the
“Option” Menu with “PIP CH-“ Button 
• Select one of these three (USA, CANADA, MEXICO)
defends on its market using “Vol. +/-“button. 
* Caution : Don’t push The INSTOP KEY after completing
the function inspection. 
6. GND and ESD Testing 
6.1 Prepare GND and ESD Testing. 
A Check the connection between set and power cord 
6.2 Operate GND and ESD auto-test. 
A Fully connected (Between set and power cord) set enter the
Auto-test sequence. 
A Connect D-Jack AV jack test equipment. 
A Turn on Auto-controller(GWS103-4) 
A Start Auto GND test. 
A If its result is NG, then notice with buzzer. 
A If its result is OK, then automatically it turns to ESD Test. 
A Operate ESD test 
A If its result is NG, then notice with buzzer. 
A If its result is OK, then process next steps. Notice it with
Good lamp and STOPER Down.Check Items. 
A Test Voltage 
• GND: 1.5KV/min at 100mA 
• Signal: 3KV/min at 100mA 
A Test time: just 1 second. 
A Test point 
• GND test: Test between Power cord GND and Signal
cable metal GND. 
• ESD test: Test between Power cord GND and Live and
neutral. 
A Leakage current: Set to 0.5mA(rms) 
7. Preset Ch information. 
In case of POWER ONLY, System color is operated multi
system 
In case of IN STOP, System color is operated default system
(PAN-M) 
- 18 - LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
8. Default Service option. 
8.1 ADC-Set. 
A R-Gain adjustment Value (default 128) 
A G-Gain adjustment Value (default 128) 
A B-Gain adjustment Value (default 128) 
A R-Offset adjustment Value (default 128) 
A G-Offset adjustment Value (default 128) 
A B-Offset adjustment Value (default 128) 
8.2 White balance. Value. 
9. USB DOWNLOAD (*.epk file
download) 
9.1 Put the USB Stick to the USB socket 
9.2 Press Menu key, and move OPTION 
9.3 Press “FAV” Press 7 times. 
9.4 Select download file (epk file) 
9.5 After download is finished, remove the
USB stick. 
9.6 Press “IN-START” key of ADJ remote
control, check the S/W version.
- 19 - LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
Copyright LG Electronics. Inc. All right reserved. 
Only for training and service purposes
- 20 - LGE Internal Use Only
300
200
530
800
540
521
400
880
920
900
910
810
830
820
120
500
A2 A5 A10
EXPLODED VIEW
Many electrical and mechanical parts in this chassis have special safety-related characteristics. These
parts are identified by in the Schematic Diagram and EXPLODED VIEW. 
It is essential that these special safety parts should be replaced with the same components as
recommended in this manual to prevent X-RADIATION, Shock, Fire, or other Hazards. 
Do not modify the original design without permission of manufacturer.
IMPORTANT SAFETY NOTICE
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTSIN THE SYMBOL MARK OF THE SCHEMETIC.
2009.06.18
BCM3556 & NAND FLASH
BCM (EUROBBTV)
NAND_DATA[7]
CI_A[0]
CI_A[3]
CI_A[2]
NAND_DATA[6]
NAND_DATA[6]
NAND_DATA[2]
CI_A[12]
NAND_DATA[0]
NAND_DATA[4]
NAND_DATA[3]
NAND_DATA[3]
NAND_DATA[1]
NAND_DATA[2]
CI_A[8]
CI_A[5]
NAND_DATA[7]
CI_A[6]
NAND_DATA[5]
NAND_DATA[7]
NAND_DATA[0]
NAND_DATA[5]
NAND_DATA[1]
NAND_DATA[0]
CI_A[9]
CI_A[11]
NAND_DATA[6]
CI_A[13]
CI_A[7]
NAND_DATA[5]
CI_A[4]
NAND_DATA[2]
NAND_DATA[4]
NAND_DATA[4]
CI_A[10]
N
A
N
D
_
D
A
T
A
[
0
-
7
]
CI_A[1]
NAND_DATA[1]
NAND_DATA[3]
R132 22
R12722
R117
33
R1037
2.7KOPT
R1003
2.7K
NAND_WEb
PWM_DIM
DSUB_DET
NAND_DATA[0-7]
R1007
2.7K
OPT
R10222
SC_RE2
NAND_CEb
R1012 100
MODEL_OPT_5
R
1
0
2
2
1
K
D
D
R
_
5
1
2
M
B
MODEL_OPT_1
C115
0.1uF
R169
2.7K
C114
0.1uF
NAND_REb
R133 22
SCL3_3.3V
R
1
0
2
3
1
K
N
O
N
_
G
I
P
R1001
2.7K
MODEL_OPT_0
R
1
9
3
4
.
7
K
FRC_RESET
NAND_ALE
CI_OUTCLK
MODEL_OPT_1
C116
4700pF
SDA1_3.3V
MODEL_OPT_2
R140
22
A_DIM
R
1
9
4
4
.
7
K
R1008
2.7K
OPT
RGB_DDC_SCL
R1040
2.7KOPT
NAND_ALE
R1039
2.7K
EBI_WE
/CI_IREQ
C103
0.1uF
CI_MOD_RESET
RF_SWITCH_CTL
MODEL_OPT_0
R109 100
NAND_CLE
+3.3V_NORMAL
C167
8pF
OPT
R1000
2.7K
MODEL_OPT_5
NAND_CEb
TUNER_RESET
R12222
ERROR_OUT
R1024 100
NAND_CLE
NAND_REb
R130 22
NAND_WEb
+3.3V_NORMAL
R1002
2.7KOPT
AV_CVBS_DET
+3.3V_NORMAL
R1033 22
R157
2.7K
OPT
CI_A[0-13]
SIDE_AV_DET
IF_AGC_SEL
EPHY_LINK
MODEL_OPT_4
R1045
4.7K
NAND_RBb
R1006
2.7KOPT
R
1
3
6
4
.
7
K
R
1
0
1
8
1
K
N
O
_
F
R
C
R1005
2.7K
R
1
0
1
1
1
K
M
I
N
I
_
L
V
D
S
/
N
O
 
L
O
C
A
L
_
D
FE_TS_VAL_ERR
+3.3V_NORMAL
SDA3_3.3V
R1019 100
/CI_CD2
R
1
0
1
3
1
K
E
X
T
E
R
N
E
L
 
F
R
C
/
T
_
C
O
N
 
F
R
C
+3.3V_NORMAL
R
1
0
1
5
1
K
D
D
R
_
2
5
6
M
B
BT_RESET
R156
2.7K
+3.3V_NORMAL
NAND_DATA[0-7]
R108 100
R158
2.7K
OPT
NAND_CLE
R
1
0
2
1
1
K
H
D
R110 100
SC_RE1
MODEL_OPT_2
R111 22
R1034
2.7K
+3.3V_NORMAL
R1004
2.7K
OPT
SCL1_3.3V
C171
8pF
OPT
MODEL_OPT_3
CI_5V_CTL
R
1
3
4
2
.
7
K
R
1
9
1
2
.
7
K
SCL0_3.3V
R
1
0
2
0
1
K
F
R
C
+3.3V_NORMAL
EBI_CS
R
1
0
0
9
1
K
G
I
P
RGB_DDC_SDA
+3.3V_NORMAL
EBI_CS
R1046 22
/CI_WAIT
NAND_DATA[0-7]
EBI_RW
R1035
2.7K
R10440
BCM_RX
EPHY_ACTIVITY
Q101
KRC103S
E
B
C
R
1
0
1
7
1
K
F
H
D
R1038
2.7K
R12922
MODEL_OPT_4
R
1
0
1
4
1
K
L
V
D
S
/
L
O
C
A
L
_
D
HP_DET
NAND_ALE
SDA0_3.3V
BCM_TX
FLASH_WP
LNA2_CTL/BOSTER_CTL
R1036
2.7KOPT
+3.3V_NORMAL
MODEL_OPT_3
R
1
0
1
0
1
K
N
O
 
F
R
C
/
I
N
T
E
R
N
E
R
 
F
R
C
R107 100
/CI_CD1
R11622
NAND_RBb
R
1
0
2
7
1
0
K
SYS_RESETb
+3.3V_NORMAL
SOC_RESET
WIRELESS_DL_TX
WIRELESS_DL_RX
COMP2_DET
SDA2_3.3V
SCL2_3.3V
AUD_MASTER_CLK
SCART1_DET
VREG_CTRL
/RST_HUB
R1030 0
R1032
0
R
1
0
2
5
4
.
7
K
C136 10uF
10V
SDA3_3.3V
SCL3_3.3V
R1026 22
R1028 22
DTV_ATV_SELECT
SIDE_COMP_DET
POWER_DET
R10470
OPT
HDMI_HPD_4
HDMI_HPD_3
HDMI_HPD_2
HDMI_HPD_1
R1141K
R1029 1K
R199 1K
R106 1K
5V_HDMI_1
5V_HDMI_2
5V_HDMI_3
5V_HDMI_4
R1048 100
R1050 100
R161 100
R104922
R105122
LOCAL DIMMING R
1
7
0
1
.
2
K
R
1
8
7
1
.
2
K
R
1
8
0
1
.
2
K
R
1
8
3
1
.
2
K
R
1
7
6
1
.
2
K
R
1
8
4
1
.
2
K
R
1
7
1
1
.
2
K
R
1
7
7
1
.
2
K
R123 0 WIRELESS
R124 0 WIRELESS
IC101
NAND04GW3B2DN6E
NAND FLASH
26
NC_17
27
NC_18
28
NC_19
29
I/O0
30
I/O1
31
I/O2
32
I/O3
33
NC_20
34
NC_21
35
NC_22
36
VSS_2
37
VDD_2
38
NC_23
39
NC_24
40
NC_25
41
I/O4
42
I/O5
43
I/O6
44
I/O7
45
NC_26
46
NC_27
47
NC_28
48
NC_29
17
AL
3
NC_3
6
NC_6
16
CL
15
NC_10
14
NC_9
13
VSS_1
12
VDD_1
11
NC_8
10
NC_7
9
E
8
R
7
RB
4
NC_4
5
NC_5
25
NC_16
24
NC_15
23
NC_14
2
NC_2
22
NC_13
21
NC_12
1
NC_1
20
NC_11
19
WP
18
W
SIDE_COMP_DET
Q103
FDV301N
OPT
G
D S
Q104
FDV301N
OPT
G
D S
R
1
7
3
1
0
K
O
P
T
WIRELESS_SCL
SDA2_3.3V
WIRELESS_SDA
SCL2_3.3V
+3.3V_NORMAL
R160100
LG5111_RESET
R1920
DC DC
DEMOD_RESET
DEMOD_RESET
DD DD
M_REMOTE_RX M_REMOTE_RX
M_REMOTE_TXM_REMOTE_TX
R103 0
RF_SWITCH_CTL_CHB RF_SWITCH_CTL_CHB
R11322
LG5111_RESET
+12V
C178
0.1uF
50V
C179
0.1uF
50V
R104112K
C173
22uF
16V
C180
100pF
50V
EMI
R105 56
R115 1.8K
R1052
4.7K
+3.3V_NORMAL
MODEL_OPT_6/CI_SEL
MODEL_OPT_6
R
1
1
8
1
K
O
L
E
D
R
1
1
9
1
K
N
O
N
_
O
L
E
D
M
D
S
6
2
1
1
0
2
0
4
G
A
S
6
-
*
1
5
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
4
G
A
S
7
-
*
1
5
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
4
G
A
S
1
-
*
1
5
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
6
G
A
S
6
6
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
6
G
A
S
2
6
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
6
G
A
S
7
6
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
6
G
A
S
5
O
P
T
M
D
S
6
2
1
1
0
2
0
6
G
A
S
1
6
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
6
G
A
S
4
6
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
6
G
A
S
3
O
P
T
M
D
S
6
2
1
1
0
2
0
6
G
A
S
8
6
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
6
G
A
S
9
6
.
5
T
_
G
A
S
IC100
LGE3556C (C0 VERSION) 
GPIO_00
N26
GPIO_01
L26
GPIO_02
N25
GPIO_03
L25
GPIO_04
K27
GPIO_05
K28
GPIO_06
K24
GPIO_07
K26
GPIO_08
K25
GPIO_09
AA27
GPIO_10
AA28
GPIO_11
AA26
GPIO_12
L1
GPIO_13
L3
GPIO_14
L2
GPIO_15
Y25
GPIO_16
Y26
GPIO_17
M27
GPIO_18
AA25
GPIO_19
R25
GPIO_20
N28
GPIO_21
N27
GPIO_22
AH18
GPIO_23
P23
GPIO_24
M23
GPIO_25
AD19
GPIO_26
AE19
GPIO_27
M4
GPIO_28
M5
GPIO_29
L23
GPIO_30
Y28
GPIO_31
Y27
GPIO_32
G2
GPIO_33
G3
GPIO_34
G5
GPIO_35
G6
GPIO_36
G4
GPIO_37
L24
GPIO_38
P25
GPIO_39
L5
GPIO_40
K4
GPIO_41
K1
GPIO_42
L27
GPIO_43
M26
GPIO_44
N23
GPIO_45
R28
GPIO_46
R27
GPIO_47
R26
GPIO_48
P28
GPIO_49
P27
GPIO_50
K6
GPIO_51
K5
GPIO_52
P26
GPIO_53
M3
GPIO_54
M2
GPIO_55
M1
GPIO_56
L4
GPIO_57
L6
SGPIO_00
W27
SGPIO_01
W28
SGPIO_02
W26
SGPIO_03
W25
SGPIO_04
J2
SGPIO_05
J1
SGPIO_06
K3
SGPIO_07
K2
EBI_ADDR3
J23
EBI_ADDR4
J24
EBI_ADDR2
H25
EBI_ADDR1
H24
EBI_ADDR0
H23
EBI_ADDR5
J25
EBI_ADDR6
F26
EBI_ADDR8
H28
EBI_ADDR9
J26
EBI_ADDR13
H27
EBI_ADDR12
G26
EBI_ADDR11
J27
EBI_ADDR10
J28
EBI_ADDR7
F27
EBI_TAB
G24
EBI_WE1B
H26
EBI_CLK_IN
G27
EBI_CLK_OUT
G28
EBI_RWB
K23
EBI_CS0B
G25
NAND_DATA0
U24
NAND_DATA1
T26
NAND_DATA2
T27
NAND_DATA3
U26
NAND_DATA4
U27
NAND_DATA5
V26
NAND_DATA6
V27
NAND_DATA7
V28
NAND_CS0B
T24
NAND_ALE
R23
NAND_REB
T23
NAND_CLE
T25
NAND_WEB
R24
NAND_RBB
U25
SF_MISO
W24
SF_MOSI
U23
SF_SCK
V23
SF_CSB
V24
M
D
S
6
2
1
1
0
2
0
5
G
A
S
6
-
*
2
7
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
5
G
A
S
1
-
*
2
7
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
5
G
A
S
7
-
*
2
7
.
5
T
_
G
A
S
BT_ON/OFF
R181 100
BCM BT MODULE
M
D
S
6
2
1
1
0
2
0
4
G
A
S
2
-
*
1
5
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
5
G
A
S
2
-
*
2
7
.
5
T
_
G
A
S
BT_ON/OFF
VREG_CTRL
BT_RESET
R1042 22
+3.3V_NORMALR1053 2.7K
IC102
M24M01-HRMN6TP
3
E2
2
E1
4
VSS
1
NC
5
SDA
6
SCL
7
WP
8
VCC
R187-*1
2.2K
NON_EU
R184-*1
2.2K
NON_EU
M
D
S
6
2
1
1
0
2
0
5
G
A
S
8
-
*
2
7
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
5
G
A
S
9
-
*
2
7
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
4
G
A
S
8
-
*
1
5
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
4
G
A
S
9
-
*
1
5
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
5
G
A
S
4
-
*
2
7
.
5
T
_
G
A
S
M
D
S
6
2
1
1
0
2
0
4
G
A
S
4
-
*
1
5
.
5
T
_
G
A
S
1
Default Res. of all NAND pin is Pull-down
For CI
For CI
* I2C MAP
* NAND FLASH MEMORY 4Gbit (512M for BB)
MODEL OPTION
External Demod.
Open Drain
* I2C_0 : 
* I2C_1 : 
* I2C_2 : 
* I2C_3 : 
BB Add.
For CI
Boot Strap
RESET
A8’h
NAND_IO[0] : Flash Select (1)
0 : Boot From Serial Flash
1 : Boot From NAND Flash
NAND_IO[1] : NAND Block 0 Write (DNS)
0 : Enable Block 0 Write
1 : Disable Block 0 Write
NAND_IO[3:2] : NAND ECC (1, DNS)
00 : No ECC
01 : 1 ECC Bit
10 : 4 ECC Bit
11 : 8 ECC Bit
NAND_IO[4] : CPU Endian (0)
0 : Little Endian
1 : Big Endian
NAND_IO[6:5] : Xtal Bias Control (1, DNS)
00 : 1.2mA (Fundmental Recommand)
01 : 1.8mA
10 : 2.4mA (3rd over tune Recommand)
11 : 3.0mA
NAND_IO[7] : MIPS Frequency (DNS)
0 : 405MHz
1 : 378MHz
NAND_ALE : I2C Level (DNS)
0 : 3.3V Switching
1 : 5V Switching
NAND_CLE
0 : Enable D2CDIFF AC (DNS)1 : Disabe D2CDIFF AC 
NVRAM
EXT IRQ
GPIO_00, GPIO_01, GPIO_02,
GPIO_11, GPIO_11, GPIO_39
IR_INT : GPIO_23
IR1_IN : GPIO_25
IR2_IN : GPIO_29
IR_OUT : GPIO_26
PWM0 : GPIO_24
PWM1 : GPIO_09
IR_IN
INTERRUPT PIN
INTERRUPT PIN
INTERRUPT PIN
IR_IN
BCM_AVC_DEBUG_TX1
BCM_AVC_DEBUG_RX1
BT_MUTE
From wireless_I2C to micom I2C
SMD GASKET
15page:TW_9910_RESET
17page:M_RFMODULE_RESET
15page:CHB_RESET
17page : Motion Remocon
17page : Motion Remocon
28page : ISDB Demod
17page : Motion Remocon
17page : Motion Remocon
15page : CHB_SUB_TUNER
FOR ESD 12V Pattern 
URSA3 External
HIGH
LOW
HIGH
OLED
LOW
DDR-256M
MODEL_OPT_4
HIGH
MAIN_MINI_LVDS
HD
MAIN_LVDS
K1
NON_OLED
MODEL_OPT_3
MODEL_OPT_6
MODEL_OPT_4
L25
N28
MODEL_OPT_5
FRC
MODEL_OPT_0
MODEL_OPT_2 DDR-512M
HIGH
GIP
PIN NAME
PWIZ Pannel T-con
with LG FRC
MODEL_OPT_1 AA26
HIGH
R26
URSA3 Internal
LOW
NON_URSA3
LOW
K4
*MODEL_OPT_0 & MODEL_OPT_4
 REFER TO THIS OPTION
NON-GIP
PIN NO.
LOW
K27
NO FRC
NON_FRC
MODEL_OPT_0
FHD
URSA3
43page : Bluetooth
43page : Bluetooth
43page : Bluetooth
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. BCM3556 AUD_IN/LVDS
2009.06.18BCM (EUROBBTV)
CI_OUTDATA[6]
CI_OUTDATA[7]
CI_OUTVALID
CI_OUTSTART
CI_OUTDATA[1]
CI_OUTDATA[2]
CI_OUTDATA[0]
CI_OUTDATA[3]
CI_OUTDATA[4]
CI_OUTDATA[5]
54MHz_XTAL_N
54MHz_XTAL_P
L202
BLM18PG121SN1D
C213
0.01uF
A3.3V A2.5V
C
2
1
9
0
.
1
u
F
C
2
1
4
0
.
1
u
F
R220 560
A1.2V
C215
0.1uF
C
2
2
3
0
.
1
u
F
+3.3V_NORMAL
R
2
0
1
1
.
5
K
R
2
0
0
1
.
5
K
L200
BLM18PG121SN1D
A2.5V
C
2
0
9
0
.
1
u
F
R209
3.9K
C201
100pF
R210
120
A1.2V
C
2
0
7
0
.
1
u
F
C
2
0
3
0
.
1
u
F
C
2
0
2
0
.
1
u
F
A3.3V
R218
240 R2191K
C222
0.1uF
A2.5V
C
2
9
5
0
.
1
u
F
A2.5VA1.2V
C
2
3
6
0
.
1
u
F
C
2
3
9
0
.
1
u
F
A1.2V
C
2
0
1
2
0
.
1
u
F
54MHz_XTAL_P 002:I2
C
2
5
1
0
.
1
u
F
54MHz_XTAL_N 002:I1
A2.5V
A1.2V
L203
BLM18PG121SN1D
C233
0.1uF
+3.3V_NORMAL
A2.5V
+3.3V_NORMAL
C234
0.1uF
SYS_RESETb001:A6;001:B7
L204
BLM18PG121SN1D
A1.2V
A1.2V
L207
BLM18PG121SN1D
C
2
3
7
0
.
1
u
F
R2221K
R2621K
R221
4.7K
L211
BLM18PG121SN1D
LVDS_TX_0_DATA3_P013:F7;035:AK14
LVDS_TX_0_DATA0_P013:E7;035:AK11
LVDS_TX_1_DATA3_N013:E7;035:AK19
LVDS_TX_1_DATA1_P013:E7;035:AK16
LVDS_TX_0_DATA1_N013:E7;035:AK12
LVDS_TX_0_DATA1_P013:E7;035:AK11
LVDS_TX_1_CLK_P 013:E7;035:AK18
LVDS_TX_0_DATA2_N013:F7;035:AK12
LVDS_TX_1_CLK_N 013:E7;035:AK18
LVDS_TX_0_DATA4_P013:F7;035:AK14
LVDS_TX_1_DATA4_P013:E7;035:AK19
LVDS_TX_0_DATA2_P013:F7;035:AK12
LVDS_TX_1_DATA3_P013:E7;035:AK19
LVDS_TX_0_CLK_N 013:E7;035:AK13
LVDS_TX_0_DATA4_N013:F7;035:AK15
LVDS_TX_0_CLK_P 013:E7;035:AK13
LVDS_TX_1_DATA4_N013:E7;035:AK20
LVDS_TX_1_DATA1_N013:E7;035:AK17
LVDS_TX_0_DATA3_N013:F7;035:AK14
LVDS_TX_1_DATA0_N013:E7;035:AK16
LVDS_TX_1_DATA0_P013:E7;035:AK16
LVDS_TX_1_DATA2_P013:E7;035:AK17
LVDS_TX_1_DATA2_N013:E7;035:AK17
LVDS_TX_0_DATA0_N013:E7;035:AK11
SC1_LR_INCM002:J7
REAR_AV_LR_INCM002:J6
R233 51
R231 51
R230 51
R234 51
R229 51
R232 51
COMP2_LR_INCM002:J6
SC1_L_IN041:B5
R228 51
PC_LR_INCM002:J7
PC_R_IN009:I3
SC1_R_IN041:B5
PC_L_IN009:I3
R215 51
C
2
3
8
0
.
1
u
F
D3.3V
R235
2.7K
P200
TJC2508-4A
1
2
3
4
A1.2V
R240
390
OPT
R
2
4
3
6
0
4
L
2
0
8
1
0
0
8
L
S
-
2
7
2
X
J
L
C
C
2
5
7
3
3
p
F
R212
22
R211
22
C229
12pF
C230
12pF
X
9
0
3
5
4
M
H
z
2
1
3
R
2
4
5
3
4
R
2
5
1
3
4
COMP2_VID_INCM
TU_CVBS_INCM
003:A3
R257
5.1
R256
5.1
B_VID_INCM
003:A5
R258
5.1
R259
5.1
R252
5.1
C2016 0.1uF
C2015 0.1uF
C258 0.1uF
R
2
5
0
3
4
C262 0.1uF
R_VID_INCM
003:A5
R
2
4
8
3
4
R
2
4
4
3
4
REAR_AV_LR_INCM002:C6
C264 0.1uF
R
2
4
6
3
4
R
2
4
7
3
4
C261 0.1uF
SIDE_AV_LR_INCM
002:C6
C2019 0.1uF
COMP2_LR_INCM
002:C6
G_VID_INCM
003:A5
PC_LR_INCM
002:C6
REAR_AV_CVBS_INCM
003:A3
C2014
0.15uF
C2024
0.15uF
C265
0.15uF
C2022
0.15uF
C269
0.15uF
EPHY_TDN
EPHY_TDP
A2.5V A1.2V
EPHY_RDP
C244
0.1uF
16V
L210
BLM18PG121SN1D
C
2
4
7
0
.
1
u
F
C
2
0
2
0
0
.
1
u
F
EPHY_RDN
L209
BLM18PG121SN1D
L212
BLM18PG121SN1D
CI_OUTDATA[0-7],CI_OUTSTART,CI_OUTVALID
045:V14
CI_A[14]
SC1_CVBS_INCM 003:A3
C2011 0.1uF
R
2
6
0
3
4
SIDE_AV_CVBS_INCM 003:A3
R
2
6
1
3
4
C2023 0.1uF
FE_TS_DATA_CLK
FE_TS_SERIAL
FE_TS_SYNC
TU_SIF_INCM 003:A3
SC1_LR_INCM
002:C6
SC1_RGB_INCM
003:A4
R2491K
R204 51
R214 51
BT_DP
BT_DM
SIDE_USB_DM
SIDE_USB_DP
COMP2_L_IN
COMP2_R_IN
DTV/MNT_V_OUT
REAR_AV_R_IN041:B5
REAR_AV_L_IN041:B5
SIDE_AV_LR_INCM002:J6
SIDE_AV_L_IN041:B5
SIDE_AV_R_IN041:B5
C
2
1
2
4
.
7
u
F
C
2
0
2
8
4
.
7
u
F
C
2
0
8
4
.
7
u
F
C2026
4.7uF
C
2
0
2
1
4
.
7
u
F
C
2
0
1
8
4
.
7
u
F
C217
10uF
C228
10uF
OPT
C
2
4
2
4
.
7
u
F
C
2
0
1
3
4
.
7
u
F
C235
4.7uF
C
2
4
1
4
.
7
u
F
C
2
4
0
4
.
7
u
F
C231
10uF
C270
0.47uF
C271
0.47uF
C2025
0.47uF
C2010
0.47uF
C2017
0.47uF
TP4021
TP4022
TP4023
R
2
3
6 0
R
2
3
7 0
R224
2.7K
OPT
R225
2.7K
OPT
R227
2.7K
R226
2.7K
C224 0.015uF
C226 0.015uF
C210 0.015uF
C206 0.015uF
C232 0.015uF
C220 0.015uF
C225 0.015uF
C221 0.015uF
C211 0.015uF
C227 0.015uF
C
2
9
8
0
.
0
4
7
u
F
C
2
7
9
0
.
0
4
7
u
F
C
2
7
7
0
.
0
4
7
u
F
C
2
5
3
0
.
0
4
7
u
F
C
2
5
6
0
.
0
4
7
u
F
C
2
5
4
0
.
0
4
7
u
F
C
2
0
2
7
0
.
0
4
7
u
F
C
2
9
6
0
.
0
4
7
u
F
C
2
9
9
0
.
0
4
7
u
F
C
2
5
2
0
.
0
4
7
u
F
R
2
6
4
0
R
2
6
5
0
R266
2.7K
R
2
3
8
7
5
1
%
IC100
LGE3556C (C0 VERSION) 
PKT0_CLK
D23
PKT0_DATA
C24
PKT0_SYNC
B26
RMX0_CLK
A25
RMX0_DATA
B25
RMX0_SYNC
A26
POD2CHIP_MCLKI
G23
POD2CHIP_MDI0
D25
POD2CHIP_MDI1
D24
POD2CHIP_MDI2
C25
POD2CHIP_MDI3
E27
POD2CHIP_MDI4
E26
POD2CHIP_MDI5
D28
POD2CHIP_MDI6
D27
POD2CHIP_MDI7
D26
POD2CHIP_MISTRT
E23
POD2CHIP_MIVAL
E24
CHIP2POD_MCLKO
F25
CHIP2POD_MDO0
C27
CHIP2POD_MDO1
C26
CHIP2POD_MDO2
B28
CHIP2POD_MDO3
B27
CHIP2POD_MDO4
A27
CHIP2POD_MDO5
F24
CHIP2POD_MDO6
F23
CHIP2POD_MDO7
E25
CHIP2POD_MOSTRT
C28
CHIP2POD_MOVAL
A28
VDAC_AVDD2P5
AC18
VDAC_AVDD1P2
AF20
VDAC_AVDD3P3_1
AG20
VDAC_AVDD3P3_2
AG21
VDAC_AVSS_1
AF19
VDAC_AVSS_2
AD20
VDAC_AVSS_3
AE20
VDAC_RBIAS
AH22
VDAC_1
AH20
VDAC_2
AG19
VDAC_VREG
AH21
BSC_S_SCL
M25
BSC_S_SDA
M24
USB_AVSS_1
R6
USB_AVSS_2
T6
USB_AVSS_3
R7
USB_AVSS_4
T7
USB_AVSS_5
T8
USB_AVDD1P2
R3
USB_AVDD1P2PLL
U3
USB_AVDD2P5
T4
USB_AVDD2P5REF
T3
USB_AVDD3P3
R4
USB_RREF
U4
USB_DM1
V1
USB_DP1
V2
USB_DM2
U1
USB_DP2
U2
USB_MONCDR
T5
USB_MONPLL
R5
USB_PWRFLT_1
R1
USB_PWRFLT_2
R2
USB_PWRON_1
T2
USB_PWRON_2
T1
EPHY_VREF
P6
EPHY_RDAC
P5
EPHY_RDN
P3
EPHY_RDP
P2
EPHY_TDN
N3
EPHY_TDP
N2
EPHY_AVDD1P2
P1
EPHY_AVDD2P5
P4
EPHY_PLL_VDD1P2
N4
EPHY_AGND_1
N1
EPHY_AGND_2
N5
EPHY_AGND_3
P7
AUDMX_LEFT1
AE6
AUDMX_RIGHT1
AD7
AUDMX_INCM1
AF6
AUDMX_LEFT2
AH4
AUDMX_RIGHT2
AG5
AUDMX_INCM2
AG4
AUDMX_LEFT3
AG6
AUDMX_RIGHT3
AF7
AUDMX_INCM3
AE7
AUDMX_LEFT4
AH5
AUDMX_RIGHT4
AG7
AUDMX_INCM4
AH6
AUDMX_LEFT5
AD8
AUDMX_RIGHT5
AF8
AUDMX_INCM5
AE8
AUDMX_LEFT6
AH7
AUDMX_RIGHT6
AH8
AUDMX_INCM6
AG8
AUDMX_AVSS_1
AF5
AUDMX_AVSS_2
AB9
AUDMX_AVSS_3
AA10
AUDMX_AVSS_4
AB10
AUDMX_AVSS_5
AA11
AUDMX_AVSS_6
AB11
AUDMX_LDO_CAP
AC8
AUDMX_AVDD2P5
AE5
LVDS_TX_0_DATA0_P
B4
LVDS_TX_0_DATA0_N
A4
LVDS_TX_0_DATA1_P
C6
LVDS_TX_0_DATA1_N
B6
LVDS_TX_0_DATA2_P
B3
LVDS_TX_0_DATA2_N
A3
LVDS_TX_0_DATA3_P
A1
LVDS_TX_0_DATA3_N
A2
LVDS_TX_0_DATA4_P
D5
LVDS_TX_0_DATA4_N
D6
LVDS_TX_0_CLK_P
C5
LVDS_TX_0_CLK_N
B5
LVDS_TX_1_DATA0_P
B1
LVDS_TX_1_DATA0_N
B2
LVDS_TX_1_DATA1_P
C2
LVDS_TX_1_DATA1_N
C3
LVDS_TX_1_DATA2_P
D1
LVDS_TX_1_DATA2_N
D2
LVDS_TX_1_DATA3_P
E1
LVDS_TX_1_DATA3_N
E2
LVDS_TX_1_DATA4_P
E3
LVDS_TX_1_DATA4_N
E4
LVDS_TX_1_CLK_P
D3
LVDS_TX_1_CLK_N
D4
LVDS_PLL_VREG
F5
LVDS_TX_AVDDC1P2
F1
LVDS_TX_AVDD2P5_1
F4
LVDS_TX_AVDD2P5_2
F2
LVDS_TX_AVSS_1
C1
LVDS_TX_AVSS_2F3
LVDS_TX_AVSS_3
C4
LVDS_TX_AVSS_4
A5
LVDS_TX_AVSS_5
E5
LVDS_TX_AVSS_6
E6
LVDS_TX_AVSS_7
D7
LVDS_TX_AVSS_8
E7
LVDS_TX_AVSS_9
F7
LVDS_TX_AVSS_10
G7
LVDS_TX_AVSS_11
H7
CLK54_AVDD1P2
AD27
CLK54_AVDD2P5
AD28
CLK54_AVSS
AD26
CLK54_XTAL_N
AC26
CLK54_XTAL_P
AC27
CLK54_MONITOR
AE25
PM_OVERRIDE
Y23
VCXO_AGND_1
AA23
VCXO_AGND_2
AB24
VCXO_AGND_3
AC24
VCXO_AVDD1P2
AF25
VCXO_PLL_AUDIO_TESTOUT
AF24
RESET_OUTB
P24
RESETB
F6
NMIB
N24
TMODE_0
J5
TMODE_1
J4
TMODE_2
J6
TMODE_3
J3
SPI_S_MISO
V25
POR_OTP_VDD2P5
AH3
POR_VDD1P2
AB8
EJTAG_TCK
H4
EJTAG_TDI
H3
EJTAG_TDO
H2
EJTAG_TMS
H1
EJTAG_TRSTB
G1
EJTAG_CE0
H6
EJTAG_CE1
H5
PLL_MAIN_AVDD1P2
AB26
PLL_MAIN_AGND
AC25
PLL_MAIN_MIPS_EREF_TESTOUT
AB27
PLL_RAP_AVD_TESTOUT
M6
PLL_RAP_AVD_AVDD1P2
N6
PLL_RAP_AVD_AGND
N7
BYP_CPU_CLK
AA24
BYP_DS_CLK
Y24
BYP_SYS216_CLK
AE24
BYP_SYS175_CLK
AD25
BT_DP
BT_DM
2
Route INCM between associated
left and right signals of same channel
The INCM trace ends at the
same point where the connector
ground connects to the board ground
(thru-hole connector pin).
Place test points, resistors
near audio connector.
Connect the other side of
the resistor to GND as close
as possible to the ground
connection of the associated
audio connector.
54MHz X-TAL
R220 : BCM recommened resistor 562 ohm
BROAD BAND STUDIO
When usding FUNDMENTAl then series R = 0 ohm and CL = 8 pF 
When usding Dip-type X-tal then series R = 22 ohm and CL = 12 pF 
VIDEO INCM
PLACE NEAR BCM CHIP
AUDIO INCM
PLACE NEAR BCM CHIP
PLACE NEAR Jacks
Route Between SC2_L_IN & SC2_R_IN
Route Between AV1_L_IN & AV1_R_IN
Route Between COMP1_L_IN & COMP1_R_IN
Route Between SC1_L_IN & SC1_R_IN
Route Between PC_L_IN & PC_R_IN
Near J1501
Near J1600
Near J1603
Near J1500
Near J1602
Near Q1705
Near J1500
Near J1603
Near P1600
Near Q1704
Near J1501
Near J1500
Route Along With TUNER_SIF_IF_N
Run Along TUNER_CVBS_IF_P Trace
Run Along SC1_R,SC_G,SC_B Trace
Run Along COMP_Y_IN,COMP_Pr_IN,COMP_Pb_IN Trace
Run Along DSUB_R Trace
Run Along DSUB_G Trace
Run Along DSUB_B Trace
Run Along SC1_CVBS_IN Trace
Run Along SC2_CVBS_IN Trace
TP is Necessory
43page : Bluetooth
43page : Bluetooth
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.06.18
BCM3556 VIDEO IN
EUROBBTV
B_VID_INCM
A2.5V
L105
BLM18PG121SN1D
A2.5V
A3.3V
R128
0
C125 0.1uF
C133 0.1uF
L103
BLM18PG121SN1D
A1.2V
L107
BLM18PG121SN1D
R137
10K
C
1
0
5
O
P
T
L110
BLM18PG121SN1D
C156
0.1uF
A1.2V
DSUB_B
RGB_VSYNC
C130 0.1uF
A1.2V
R_VID_INCM
C112
0.1uF
SC1_RGB_INCM
C155
0.1uF
C154
0.1uF
L102
BLM18PG121SN1D
A2.5V
COMP2_VID_INCM
C110 0.1uF
A1.2V
G_VID_INCM
C134 0.1uF
C144
0.1uF
C131 0.1uF
D3.3V
A1.2V
L106
BLM18PG121SN1D
C160
0.1uF
C119
0.1uF
DSUB_G
R
3
1
0
1
0
K
C111
0.1uF
C
1
0
4
O
P
T
C150
0.1uF
C157
0.1uF
C113
0.1uF
C124 0.1uF
C151
0.01uF
C117
1000pF
C161
0.1uF
C158
1000pF
C129 0.1uF
A2.5V
L108
BLM18PG121SN1D
C149
0.01uF
A1.2V
RGB_HSYNC
SPDIF_OUT
C153
0.1uF
C132 0.1uF
C135 0.1uF
C127 0.1uF
R153499
OPT
C152
0.01uF
R152499
C120
1000pF
C147
0.01uF
C123
0.01uF
C159
1000pF
C106
0.1uF
A2.5V
L109
BLM18PG121SN1D
C128 0.1uF
R139
12K
A2.5V
A3.3V
C148
0.01uF
L104
BLM18PG121SN1D
C118
0.01uF
DSUB_R
A2.5V
C121
0.1uF
+5V_NORMAL
R
2
0
3
7 1
0
K
O
P
T
R
2
0
3
8
1
0
K
1
0
K
R
2
0
3
9
C3006
0.1uF
16V
HDMI_SCL
HDMI_SDA
R3070
R3080
R2036
1K
R309 10K
R3055
240O
P
T
A2.5V
R4020
10K
R
4
0
2
1
1
2
KC4020
0.1uF
R
3
0
5
6
1
2
0
O
P
T
SC1_FB
SC1_ID
SC1_R
SC1_B
SC1_G
SIDE_AV_CVBS_INCM
SC1_CVBS_INCM
SC1_CVBS_IN
TU_CVBS_INCM
REAR_AV_CVBS_INCM
C100 0.1uF
SCART1_Rout_P
SCART1_Lout_N
SCART1_Rout_N
SCART1_Lout_P
TU_SIF_INCM
TU_SIF
TU_CVBS
HP_LOUT_N
HP_LOUT_P
HP_ROUT_P
HP_ROUT_N
D3.3V
C357
10uF
10V
C267
0.01uF
D1.2V
C320
0.1uF
16V
C319
0.1uF
16V
C284
0.01uF
C286
33uF
D1.8V
C356
0.1uF
16V
C318
0.1uF
16V
C276
0.1uF
C243
0.1uF
C293
0.01uF
C377
0.01uF
C304
0.1uF
16V
D1.2V
C363
0.1uF
16V
C378
0.1uF
C2006
0.01uF
C2003
0.1uF
D1.8V
C216
0.1uF C275
0.1uF
C374
0.01uF
C294
0.1uF C274
0.1uF
C255
1000pF
C382
0.01uF
C348
0.1uF
16V
C289
0.1uF
C370
0.1uF
C259
1000pF
C2004
33uF
C292
1000pF
C246
0.01uFC250
1000pF
D1.8V
C281
1000pF
C282
1000pF
C373
1000pF
D3.3V
C290
0.01uF
C375
0.1uF
C272
0.1uF
C248
1000pF
R205
20
C364
0.1uF
16V
C371
0.01uF
D1.2V
C366
0.1uF
C365
0.1uF
16V
A3.3V
D1.8V
C383
1000pF
C2005
0.01uF
C288
1000pF
C268
1000pF
C285
0.01uF
C283
1000pF
D3.3V
C381
0.1uF
COMP2_Pb
COMP2_Pr
COMP2_Y
AUD_SCK
AUD_LRCK
AUD_LRCH
REAR_AV_CVBS
SIDE_AV_CVBS
C122
4.7uF
C172
4.7uF
C140
4.7uF
C145
4.7uF
C164
10uF
C162
10uF
C165
10uF
C166
10uF
C163
10uF
C380
10uF
C379
10uF
C291
10uF
C263
4.7uF
C245
4.7uF
C280
4.7uF
C278
4.7uF
C297
4.7uF
C266
4.7uF
C369
4.7uF
C376
4.7uFC249
4.7uF
R142 OPT
R
3
1
3
7
5
1
%
N
O
N
_
E
U
R
3
1
5
7
5
1
%
N
O
N
_
E
U
R
1
3
1
7
5
1
%
R
3
1
2
7
5
1
%
R2114
0
C174 0.1uF
C175 0.1uF
C176 0.1uF
SIDE_COMP_Pb
SIDE_COMP_Pr
SIDE_COMP_INCM
SIDE_COMP_Y
R
1
6
6
7
5
1
%
C
1
7
7
O
P
T
R
1
6
7
7
5
1
%
R
1
2
0
8
2
1
%
R
1
6
5
8
2
1
%
R2113
12
R2115
12
R143 62
R100 62
C
1
7
0
4
7
p
F
C
1
6
9
4
7
p
F
C
1
0
1
4
7
p
F
A3.3V+3.3V_NORMAL
L112
CIC21J501NE
C2007
0.1uF
16V
+1.8V_HDMI+1.8V_AMP
C2008
0.1uF
16V
L111
BLM18PG121SN1D
HDMI_RX0+
HDMI_RX0-
HDMI_RX2+
HDMI_RX2-
HDMI_RX1-
HDMI_RX1+
HDMI_CLK-
HDMI_CLK+
SIDE_COMP_Y
SIDE_COMP_Pr
SIDE_COMP_Pb
SIDE_COMP_INCM
TU_IF_AGC_2
TU_IF_P_1
TU_IF_P_1
TU_IF_N_1
TU_IF_AGC_1
TU_IF_N_1
TU_IF_AGC_2
TU_IF_AGC_1
C146
4.7uF
R
2
0
3
5
0
R2117
0
R
2
1
1
60
O
P
T
C287
100uF
C384
33uF
10V
IC100
LGE3556C (C0 VERSION) 
DS_AGCI_CTL
AG28
DS_AGCT_CTL
AH28
EDSAFE_AVSS_1
AA21
EDSAFE_AVSS_2
AB22
EDSAFE_AVSS_3
AF26
EDSAFE_AVSS_4
AF27
EDSAFE_AVSS_5
AF28
EDSAFE_AVDD2P5
AG27
EDSAFE_DVDD1P2
AE26
EDSAFE_IF_N
AE28
EDSAFE_IF_P
AE27
PLL_DS_AGND
AD24
PLL_DS_AVDD1P2
AB19
PLL_DS_TESTOUT
AB25
SD_V5_AVDD1P2
AB18
SD_V5_AVDD2P5
AC17
SD_V5_AVSS
AB17
SD_V1_AVDD1P2
AD14
SD_V1_AVDD2P5
AD16
SD_V1_AVSS_1
AB15
SD_V1_AVSS_2
AC15
SD_V2_AVDD1P2
AD13
SD_V2_AVDD2P5
AE13
SD_V2_AVSS_1
AC13
SD_V2_AVSS_2
AB14
SD_V2_AVSS_3
AC14
SD_V3_AVDD1P2
AC12
SD_V3_AVDD2P5
AD12
SD_V3_AVSS_1
AB13
SD_V3_AVSS_2
AA14
SD_V4_AVDD1P2
AC11
SD_V4_AVDD2P5
AD11
SD_V4_AVSS
AB12
SD_R
AD10
SD_INCM_R
AC10
SD_G
AE9
SD_INCM_G
AF9
SD_B
AH9
SD_INCM_B
AG9
SD_Y1
AG15
SD_PR1
AE15
SD_PB1
AF15
SD_INCM_COMP1
AH15
SD_Y2
AG16
SD_PR2
AF16
SD_PB2
AH17
SD_INCM_COMP2
AH16
SD_Y3
AG14
SD_PR3
AE14
SD_PB3
AF14
SD_INCM_COMP3
AH14
SD_L1
AH10
SD_C1
AG10
SD_INCM_LC1
AE10
SD_L2
AE11
SD_C2
AF11
SD_INCM_LC2
AH11
SD_L3
AH13
SD_C3
AE12
SD_INCM_LC3
AF12
SD_CVBS1
AD9
SD_CVBS2
AG11
SD_CVBS3
AG12
SD_CVBS4
AF13
SD_INCM_CVBS1
AC9
SD_INCM_CVBS2
AF10
SD_INCM_CVBS3
AH12
SD_INCM_CVBS4
AG13
SD_SIF1
AF17
SD_INCM_SIF1
AG17
SD_FB
AD15
SD_FS
AE16
SD_FS2
AE17
PLL_VAFE_AVDD1P2
AB16
PLL_VAFE_AVSS
AA15
PLL_VAFE_TESTOUT
AC16
RGB_HSYNC
AG3
RGB_VSYNC
AF4
I2S_CLK_IN
AE18
I2S_CLK_OUT
AF18
I2S_DATA_IN
AD17
I2S_DATA_OUT
AH19
I2S_LR_IN
AD18
I2S_LR_OUT
AG18
AUD_LEFT0_N
AG26
AUD_LEFT0_P
AH26
AUD_AVDD2P5_0
AF23
AUD_AVSS_0_1
AA20
AUD_AVSS_0_2
AB21
AUD_AVSS_0_3
AC22
AUD_AVSS_0_4
AC23
AUD_AVSS_0_5
AD23
AUD_RIGHT0_N
AH25
AUD_RIGHT0_P
AG25
AUD_LEFT1_N
AH23
AUD_LEFT1_P
AG23
AUD_RIGHT1_N
AG24
AUD_RIGHT1_P
AH24
AUD_AVDD2P5_1
AE22
AUD_AVSS_1_1
AB20
AUD_AVSS_1_2
AC21
AUD_AVSS_1_3
AE23
AUD_LEFT2_N
AF21
AUD_LEFT2_P
AE21
AUD_RIGHT2_N
AF22
AUD_RIGHT2_P
AG22
AUD_AVDD2P5_2
AD21
AUD_AVSS_2_1
AC20
AUD_AVSS_2_2
AD22
AUD_SPDIF
AH2
SPDIF_AVDD2P5
AC6
SPDIF_AVSS
AE4
SPDIF_IN_N
AF3
SPDIF_IN_P
AH1
HDMI_RX_0_CEC_DAT
AG1
HDMI_RX_0_HTPLG_IN
AA6
HDMI_RX_0_HTPLG_OUT
AA5
HDMI_RX_0_DDC_SCLAB3
HDMI_RX_0_DDC_SDA
Y6
HDMI_RX_0_RESREF
AC4
HDMI_RX_0_CLK_N
AC1
HDMI_RX_0_CLK_P
AC2
HDMI_RX_0_DATA0_N
AD1
HDMI_RX_0_DATA0_P
AD2
HDMI_RX_0_DATA1_N
AE1
HDMI_RX_0_DATA1_P
AE2
HDMI_RX_0_DATA2_N
AF1
HDMI_RX_0_DATA2_P
AF2
HDMI_RX_0_VDD3P3
AD3
HDMI_RX_0_VDD1P2
AE3
HDMI_RX_0_VDD2P5
AC3
HDMI_RX_0_AVSS_1
AD4
HDMI_RX_0_AVSS_2
AB5
HDMI_RX_0_AVSS_3
AB6
HDMI_RX_0_AVSS_4
AG2
HDMI_RX_0_AVSS_5
AB4
HDMI_RX_0_AVSS_6
AA7
HDMI_RX_0_PLL_AVSS
Y8
HDMI_RX_0_PLL_DVDD1P2
AC5
HDMI_RX_0_PLL_DVSS
W8
HDMI_RX_1_CEC_DAT
AA3
HDMI_RX_1_HTPLG_IN
V4
HDMI_RX_1_HTPLG_OUT
U6
HDMI_RX_1_DDC_SCL
V5
HDMI_RX_1_DDC_SDA
V3
HDMI_RX_1_RESREF
W4
HDMI_RX_1_CLK_N
W2
HDMI_RX_1_CLK_P
W3
HDMI_RX_1_DATA0_N
Y1
HDMI_RX_1_DATA0_P Y2
HDMI_RX_1_DATA1_N
AA2
HDMI_RX_1_DATA1_P AA1
HDMI_RX_1_DATA2_N
AB2
HDMI_RX_1_DATA2_P
AB1
HDMI_RX_1_VDD3P3
Y3
HDMI_RX_1_VDD1P2
Y4
HDMI_RX_1_VDD2P5
W5
HDMI_RX_1_AVSS_1
W1
HDMI_RX_1_AVSS_2
U5
HDMI_RX_1_AVSS_3
W6
HDMI_RX_1_AVSS_4
U7
HDMI_RX_1_AVSS_5
V7
HDMI_RX_1_AVSS_6
W7
HDMI_RX_1_AVSS_7
U8
HDMI_RX_1_AVSS_8
V8
HDMI_RX_1_AVSS_9
Y5
HDMI_RX_1_PLL_AVSS
V6
HDMI_RX_1_PLL_DVDD1P2
AA4
HDMI_RX_1_PLL_DVSS
Y7
IC100
LGE3556C (C0 VERSION) 
VDDC_1
H8
VDDC_2
J8
VDDC_3
K8
VDDC_4
L8
VDDC_5
M8
VDDC_6
N8
VDDC_7
P8
VDDC_8
R8
VDDC_9
AA8
VDDC_10
H9
VDDC_11
H10
VDDC_12
H11
VDDC_13
H12
VDDC_14
H13
VDDC_15
H14
VDDC_16
H15
VDDC_17
H16
VDDC_18
H17
VDDC_19
H18
VDDC_20
H19
VDDC_21
H21
VDDC_22
J21
VDDC_23
K21
VDDC_24
L21
VDDC_25
M21
VDDC_26
N21
VDDC_27
P21
VDDC_28
R21
VDDC_29
T21
VDDC_30
U21
VDDC_31
V21
VDDC_32
W21
VDDC_33
Y21
AGC_VDDO
AH27
VDDO_1
AA12
VDDO_2
AA13
VDDO_3
AA18
VDDO_4
AA19
VDDO_5
E28
VDDO_6
L28
VDDO_7
U28
VDDO_8
AB28
DDRV_1
A9
DDRV_2
G9
DDRV_3
G11
DDRV_4
G13
DDRV_5
A14
DDRV_6
G15
DDRV_7
G17
DDRV_8
A19
DDRV_9
G19
IC100
LGE3556C (C0 VERSION) 
DVSS_1
AD5
DVSS_2
AD6
DVSS_3
J7
DVSS_4
K7
DVSS_5
L7
DVSS_6
M7
DVSS_7
AB7
DVSS_8
AC7
DVSS_9
G8
DVSS_10
D9
DVSS_11
AA9
DVSS_12
G10
DVSS_13
A11
DVSS_14
L11
DVSS_15
M11
DVSS_16
N11
DVSS_17
P11
DVSS_18
R11
DVSS_19
T11
DVSS_20
U11
DVSS_21
V11
DVSS_22
D12
DVSS_23
G12
DVSS_24
L12
DVSS_25
M12
DVSS_26
N12
DVSS_27
P12
DVSS_28
R12
DVSS_29
T12
DVSS_30
U12
DVSS_31
V12
DVSS_32
L13
DVSS_33
M13
DVSS_34
N13
DVSS_35
P13
DVSS_36
R13
DVSS_37
T13
DVSS_38
U13
DVSS_39
V13
DVSS_40
G14
DVSS_41
L14
DVSS_42
M14
DVSS_43
N14
DVSS_44
P14
DVSS_45
R14
DVSS_46
T14
DVSS_47
U14
DVSS_48
V14
DVSS_49
L15
DVSS_50
M15
DVSS_51
N15
DVSS_52
P15
DVSS_53
R15
DVSS_54
T15
DVSS_55
U15
DVSS_56
V15
DVSS_57
A16
DVSS_58
G16
DVSS_59
L16
DVSS_60
M16
DVSS_61
N16
DVSS_62
P16
DVSS_63
R16
DVSS_64
T16
DVSS_65
U16
DVSS_66
V16
DVSS_67
AA16
DVSS_68
D17
DVSS_69
L17
DVSS_70
M17
DVSS_71
N17
DVSS_72
P17
DVSS_73
R17
DVSS_74
T17
DVSS_75
U17
DVSS_76
V17
DVSS_77
AA17
DVSS_78
AC19
DVSS_79
G18
DVSS_80
L18
DVSS_81
M18
DVSS_82
N18
DVSS_83
P18
DVSS_84
R18
DVSS_85
T18
DVSS_86
U18
DVSS_87
V18
DVSS_88
D20
DVSS_89
G20
DVSS_90
H20
DVSS_91
A21
DVSS_92
E21
DVSS_93
F21
DVSS_94
G21
DVSS_95
E22
DVSS_96
F22
DVSS_97
G22
DVSS_98
H22
DVSS_99
J22
DVSS_100
K22
DVSS_101
L22
DVSS_102
M22
DVSS_103
N22
DVSS_104
P22
DVSS_105
R22
DVSS_106
T22
DVSS_107
U22
DVSS_108
V22
DVSS_109
W22
DVSS_110
Y22
DVSS_111
AA22
DVSS_112
W23
DVSS_113
AB23
DVSS_114
F28
DVSS_115
M28
DVSS_116
T28
DVSS_117
AC28
R2112
181%
EU_CN R141 1% EU_CN75
R2112-*1
125%
NON_EU_CN
R141-*1
5%
NON_EU_CN
62
R196
10
1%
R195 10
1%
R138 10
NON_EU
R138-*1
0EU
R
1
3
5
7
5
1
%
O
P
T R135-*1
82 1%
NON_EU
3
CONNECT NEAR BCM CHIP
CVBS
COMPONENT
DSUB
SIDE COMPONENT
Place here for common circuit with ATSC
BT_LOUT_N
BT_LOUT_P
BT_ROUT_N
BT_ROUT_P
26page : TUNER(HALF NIM)
COMP1_Pr ==>
COMP1_Pb ==>
SC1_RGB(EU)/COMPNENT1[NON_EU]
COMP1_Y ==>
ONLY USE NON_EU
FOR COMP 1
FOR ESD
FOR ESD
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. DDR Memory
BCM (EUROBBTV) 2009.06.18
DDR01_A[12]
DDR01_A[0]
DDR01_A[8]
DDR0_A[6]
DDR1_DQ[15]
DDR01_A[1]
DDR1_DQ[7]
DDR01_A[2]
DDR01_A[2]
DDR01_A[9]
DDR01_A[1]
DDR1_DQ[0]
DDR1_DQ[5]
DDR0_DQ[7]
DDR1_DQ[11]
DDR1_DQ[8]
DDR01_A[10]
DDR0_DQ[6]
DDR1_A[5]
DDR0_DQ[9]
DDR01_A[12]
DDR1_DQ[7]
DDR01_A[3]
DDR1_DQ[15]
DDR0_A[6]
DDR1_DQ[9]
DDR1_A[5]
DDR0_DQ[5]
DDR01_A[7]
DDR0_DQ[10]
DDR01_A[10]
DDR1_DQ[8]
DDR01_A[11]
DDR1_DQ[4]
DDR0_DQ[11]
DDR0_A[4]
DDR1_DQ[0]
DDR1_A[5]
DDR0_DQ[4]
DDR01_A[7]
DDR0_A[5]
DDR01_A[1]
DDR0_DQ[1]
DDR0_DQ[2]
DDR1_DQ[14]
DDR01_A[7]
DDR01_A[8]
DDR01_A[0]
DDR01_A[2]
DDR0_A[5]
DDR1_A[4]
DDR01_A[3]
DDR0_A[6]
DDR0_A[6]
DDR1_DQ[13]
DDR01_A[13]
DDR01_A[10]
DDR1_A[6]
DDR1_A[4]
DDR01_A[11]
DDR0_DQ[5]
DDR01_A[3]
DDR01_A[9]
DDR0_DQ[7]
DDR01_A[0]
DDR1_A[6]
DDR0_DQ[10]
DDR01_A[2]
DDR1_DQ[5]
DDR01_A[8]
DDR0_DQ[4]
DDR01_A[12]
DDR01_A[1]
DDR0_DQ[14]
DDR01_A[12]
DDR01_A[9]
DDR01_A[9]
DDR0_DQ[14]
DDR01_A[3]
DDR01_A[13]
DDR01_A[12]
DDR0_DQ[13]
DDR01_A[7]
DDR0_DQ[11]
DDR01_A[10]
DDR1_DQ[10]
DDR01_A[9]
DDR01_A[10]
DDR1_DQ[12]
DDR0_A[5]
DDR0_DQ[2]
DDR01_A[7]
DDR0_DQ[3]
DDR1_DQ[4]
DDR01_A[11]
DDR1_DQ[2]
DDR1_DQ[13]
DDR1_A[4]
DDR01_A[8]
DDR0_DQ[0]
DDR1_DQ[1]
DDR01_A[0]
DDR01_A[11]
DDR01_A[11]
DDR01_A[0]
DDR0_A[4]
DDR01_A[10]
DDR01_A[12]
DDR1_A[6]
DDR01_A[11]
DDR0_A[4]
DDR01_A[2]
DDR01_A[13]
DDR01_A[0]
DDR1_DQ[10]
DDR1_DQ[14]
DDR0_DQ[9]
DDR1_DQ[1]
DDR01_A[3]
DDR1_A[6]
DDR0_A[4]
DDR0_DQ[15]
DDR01_A[8]
DDR01_A[10]
DDR01_A[11]
DDR01_A[1]
DDR0_DQ[15]
DDR1_DQ[12]
DDR01_A[13]
DDR0_DQ[12]
DDR1_DQ[3]
DDR0_DQ[1]
DDR01_A[8]
DDR0_DQ[8]
DDR1_DQ[11]
DDR0_DQ[12]
DDR01_A[7]
DDR01_A[13]
DDR01_A[7]
DDR0_DQ[0]
DDR0_DQ[8]
DDR0_DQ[13]
DDR01_A[13]
DDR1_DQ[2]
DDR1_DQ[9]
DDR1_DQ[6]
DDR01_A[1]
DDR1_A[5]
DDR01_A[13]
DDR0_DQ[3]
DDR01_A[2]
DDR01_A[2]
DDR01_A[0]
DDR1_DQ[3]
DDR01_A[12]
DDR0_DQ[6]
DDR01_A[9]
DDR1_DQ[6]
DDR01_A[9]
DDR01_A[3]
DDR01_A[8]
DDR01_A[3]
DDR01_A[1]
DDR0_A[5]
DDR1_A[4]
DDR1_VREF0
DDR1_DQS1 004:H3
DDR0_CLKb 004:C7;004:C4
DDR0_VREF0
DDR1_CLK004:A7;004:F4
DDR01_CASb
C
4
7
7
0
.
1
u
F
C
4
7
9
4
7
0
p
F
C
4
5
5
0
.
1
u
F
DDR01_CASb
C
4
4
1
0
.
0
4
7
u
F
C466
0.1uF
DDR1_A[4-6]
R407
100
1%
C491
0.1uF
C
4
8
2
0
.
0
4
7
u
F
DDR01_BA2
DDR01_BA0
R409 75
C406
0.1uF
DDR01_WEb
D1.8V
DDR0_DQS1b 004:E3
DDR01_A[0-3,7-13]
DDR01_BA0
AR408
75
DDR01_BA1
C
4
7
8
0
.
0
4
7
u
F
C
4
0
9
4
7
0
p
F
D1.8V
DDR01_BA0
DDR1_DQ[0-7]
DDR0_DM0 004:E6
DDR01_WEb
DDR01_CKE
C492
0.1uF
DDR01_BA2
C464
470pF
DDR0_DQS0 004:A4
DDR01_CASb
DDR1_DQS0 004:A4
AR403
75
DDR01_A[7-13]
DDR0_DQ[0-7] 004:B6
DDR01_BA1
D1.8V
DDR01_CKE
DDR01_A[0-3,7-13]
C
4
4
2
0
.
1
u
F
DDR01_CASb
DDR01_BA1
DDR01_A[0-3]
DDR01_WEb
DDR01_BA1
DDR01_WEb
DDR01_WEb
DDR01_CKE
DDR1_DQS0 004:H6
D1.8V
DDR01_BA2
DDR01_BA0
C453
470pF
DDR01_RASb
C
4
4
5
0
.
0
4
7
u
F
DDR1_DQ[0-7]
004:B5
DDR1_CLK
C4030.1uF
DDR01_BA2
C
4
0
8
4
7
0
p
F
C
4
6
5
0
.
0
4
7
u
F
R410 75
DDR01_ODT
C415
0.1uF
DDR01_WEb
AR404
75
C463
470pF
C
4
7
1
0
.
0
4
7
u
F
DDR01_BA0
DDR01_BA0
DDR0_VREF0
C
4
6
0
0
.
0
4
7
u
F
DDR0_DQS1 004:E3
C493
0.1uF
DDR01_WEb
C
4
5
9
0
.
1
u
F
C
4
0
2
4
7
0
p
F
R408 75
AR409
75
DDR01_BA1
DDR0_DM1 004:E3
DDR1_CLK 004:F7;004:F4
DDR0_A[4-6]
DDR01_BA0
DDR01_CASb
DDR0_A[4-6]
AR407
75
C
4
5
6
0
.
0
4
7
u
F
DDR01_BA2
DDR0_CLK004:A7;004:C7
DDR1_DQ[8-15]
DDR_VTT
DDR01_BA1
DDR1_DQS0b 004:A3
DDR01_CKE
004:A7;004:C7;004:F7;004:F4
DDR01_CKE
DDR0_CLKb004:A7;004:C4
C
4
4
0
4
7
0
p
F
R404 75
DDR01_RASb
C
4
8
1
0
.
1
u
F
DDR01_ODT
C
4
7
0
4
7
0
p
F
DDR0_DQ[0-7]
C
4
0
0
4
7
0
p
F
DDR0_CLKb004:A7;004:C7
DDR1_DQS1b 004:A3
AR406
75
DDR01_ODT
D1.8V
C484
0.1uF
DDR0_DM0 004:A4
DDR1_A[4-6]
004:B6;004:F6;004:I7
C
4
6
1
4
7
0
p
F
DDR01_ODT
DDR0_DQ[8-15]DDR1_VREF0
DDR01_BA1
DDR01_A[0-3,7-13]
C450
0.1uF
DDR01_ODT
004:A7;004:C5;004:C2;004:F2;004:I4;004:I6
DDR01_RASb
DDR1_CLKb 004:F7;004:F4
DDR01_RASb
C
4
6
2
4
7
0
p
F
D1.8V
DDR01_RASb
C467
0.1uF
C
4
4
6
0
.
1
u
F
DDR01_A[0-3,7-13]
DDR1_A[4-6]004:B6;004:F3;004:I7
AR401
75
DDR01_A[0-3,7-13]
DDR1_DM1 004:H3
DDR0_DQS1b 004:A4
DDR1_DQS1b 004:H3
DDR1_DQS1 004:A3
DDR01_ODT
DDR0_DM1 004:A4
C
4
9
5
4
7
0
p
F
DDR01_BA2
D1.8V
DDR0_CLK004:A7;004:C4
DDR0_DQS0 004:E6
C
4
6
8
0
.
1
u
F
DDR0_VREF0
C4040.1uF
DDR01_RASb
C452
470pF
DDR1_CLKb004:A7;004:F4
C449
0.1uF
DDR0_A[4-6]
DDR0_DQ[8-15]
C
4
7
5
2
2
u
F
C
4
5
1
2
2
u
F
R406
100
1%
DDR0_DQS0b 004:A4
DDR_VTT
C483
0.1uF
C
4
5
7
4
7
0
p
F
DDR01_RASb
DDR1_CLKb
R412 240
1%
C
4
4
4
4
7
0
p
F
C494
0.1uF
DDR1_DM0 004:H6
DDR01_CASb
A1.2V
DDR0_CLK 004:C7;004:C4
AR405
75
C
4
7
2
0
.
1
u
F
DDR1_DM1 004:A4
AR400
75
DDR1_DQS0b 004:H6
AR402
75
DDR1_DM0 004:A4
DDR0_A[4-6]
DDR1_A[4-6]
DDR1_DQ[8-15]
004:B5
DDR0_DQS0b 004:E6
R411 0
OPT
DDR01_ODT
DDR1_VREF0
DDR01_BA2
DDR0_DQS1 004:A4
C
4
7
3
1
0
u
F
C
4
7
6
1
0
u
F
C
4
5
4
1
0
u
F
C
4
4
8
1
0
u
F
C
4
6
9
1
0
u
F
C
4
4
3
1
0
u
F
C
4
8
0
1
0
u
F
C
4
5
8
1
0
u
F
C
4
0
1
1
u
F
C
4
1
0
1
u
F
C
4
0
7
1
u
F
C
4
0
5
1
u
F
C
4
7
4
1
0
u
F
C
4
4
7
1
0
u
F
C496
0.1uF
C497
0.1uF
C498
0.1uF
C490
0.1uF
C487
0.1uF
C486
0.1uF
C488
0.1uF
C485
0.1uF
C489
0.1uF
C499
0.1uF
C421
0.1uF
DDR01_CKE
DDR01_CKE
R417
220
C412
0.1uF
16V
R414 0
C417
10uF
10V
C419
10uF
10V
DDR1_VREF0
C416
10uF
10V
C418
1uF
10V
C
4
1
4
0
.
1
u
F
1
6
V
DDR_VTT
R
4
1
8
1
0
K
R415 0
C422
1uF
10V
D3.3V
C413
0.1uF
16V
D1.8V
C423
10uF
10V
C411
0.1uF
16V
IC404
BD35331F-E2 
3
VTTS
2
EN
4
VREF
1
GND
5
VDDQ
6
VCC
7
VTT_IN
8
VTT
C420
0.1uF
16V
DDR0_VREF0
IC403
NT5TU128M8DE_BD
CK
E8
CK
F8
CKE
F2
RAS
F7
CAS
G7
WE
F3
CS
G8
BA0
G2
BA1
G3
NC_1/BA2
G1
A0
H8
A1
H3
A2
H7
A3
J2
A4
J8
A5
J3
A6
J7
A7
K2
A8
K8
A9
K3
A10/AP
H2
A11
K7
A12
L2
A13
L8
NC_2/A14
L3
NC_3/A15
L7
ODT
F9
DQ0
C8
DQ1
C2
DQ2
D7
DQ3
D3
DQ4
D1
DQ5
D9
DQ6
B1
DQ7
B9
DQS
B7
DQS
A8
DM/RDQS
B3
NU/RDQS
A2
VDDQ_1
A9
VDDQ_2
C1
VDDQ_3
C3
VDDQ_4
C7
VDDQ_5
C9
VDD_1
A1
VDD_2
L1
VDD_3
E9
VDD_4
H9
VSSQ_1
A7
VSSQ_2
B2
VSSQ_3
B8
VSSQ_4
D2
VSSQ_5
D8
VSS_1
A3
VSS_2
E3
VSS_3
J1
VSS_4
K9
VREF
E2
VDDL
E1
VSSDL
E7
IC402
NT5TU128M8DE_BD
CK
E8
CK
F8
CKE
F2
RAS
F7
CAS
G7
WE
F3
CS
G8
BA0
G2
BA1
G3
NC_1/BA2
G1
A0
H8
A1
H3
A2
H7
A3
J2
A4
J8
A5
J3
A6
J7
A7
K2
A8
K8
A9
K3
A10/AP
H2
A11
K7
A12
L2
A13
L8
NC_2/A14
L3
NC_3/A15
L7
ODT
F9
DQ0
C8
DQ1
C2
DQ2
D7
DQ3
D3
DQ4
D1
DQ5
D9
DQ6
B1
DQ7
B9
DQS
B7
DQS
A8
DM/RDQS
B3
NU/RDQS
A2
VDDQ_1
A9
VDDQ_2
C1
VDDQ_3
C3
VDDQ_4
C7
VDDQ_5
C9
VDD_1
A1
VDD_2
L1
VDD_3
E9
VDD_4
H9
VSSQ_1
A7
VSSQ_2
B2
VSSQ_3
B8
VSSQ_4
D2
VSSQ_5
D8
VSS_1
A3
VSS_2
E3
VSS_3
J1
VSS_4
K9
VREF
E2
VDDL
E1
VSSDL
E7
IC401
NT5TU128M8DE_BD
CK
E8
CK
F8
CKE
F2
RAS
F7
CAS
G7
WE
F3
CS
G8
BA0
G2
BA1
G3
NC_1/BA2
G1
A0
H8
A1
H3
A2
H7
A3
J2
A4
J8
A5
J3
A6
J7
A7
K2
A8
K8
A9
K3
A10/AP
H2
A11
K7
A12
L2
A13
L8
NC_2/A14
L3
NC_3/A15
L7
ODT
F9
DQ0
C8
DQ1
C2
DQ2
D7
DQ3
D3
DQ4
D1
DQ5
D9
DQ6
B1
DQ7
B9
DQS
B7
DQS
A8
DM/RDQS
B3
NU/RDQS
A2
VDDQ_1
A9
VDDQ_2
C1
VDDQ_3
C3
VDDQ_4
C7
VDDQ_5
C9
VDD_1
A1
VDD_2
L1
VDD_3
E9
VDD_4
H9
VSSQ_1
A7
VSSQ_2
B2
VSSQ_3
B8
VSSQ_4
D2
VSSQ_5
D8
VSS_1
A3
VSS_2
E3
VSS_3
J1
VSS_4
K9
VREF
E2
VDDL
E1
VSSDL
E7
IC400
NT5TU128M8DE_BD
CK
E8
CK
F8
CKE
F2
RAS
F7
CAS
G7
WE
F3
CS
G8
BA0
G2
BA1
G3
NC_1/BA2
G1
A0
H8
A1
H3
A2
H7
A3
J2
A4
J8
A5
J3
A6
J7
A7
K2
A8
K8
A9
K3
A10/AP
H2
A11
K7
A12
L2
A13
L8
NC_2/A14
L3
NC_3/A15
L7
ODT
F9
DQ0
C8
DQ1
C2
DQ2
D7
DQ3
D3
DQ4
D1
DQ5
D9
DQ6
B1
DQ7
B9
DQS
B7
DQS
A8
DM/RDQS
B3
NU/RDQS
A2
VDDQ_1
A9
VDDQ_2
C1
VDDQ_3
C3
VDDQ_4
C7
VDDQ_5
C9
VDD_1
A1
VDD_2
L1
VDD_3
E9
VDD_4
H9
VSSQ_1
A7
VSSQ_2
B2
VSSQ_3
B8
VSSQ_4
D2
VSSQ_5
D8
VSS_1
A3
VSS_2
E3
VSS_3
J1
VSS_4
K9
VREF
E2
VDDL
E1
VSSDL
E7
IC100
LGE3556C (C0 VERSION) 
DDR_BVDD0
A6
DDR_BVDD1
A24
DDR_BVSS0
B7
DDR_BVSS1
B24
DDR_PLL_TEST
F20
DDR_PLL_LDO
B23
DDR01_CKE
B17
DDR_COMP
C22
DDR01_ODT
E16
DDR_EXT_CLK
C23
DDR0_CLK
B12
DDR0_CLKB
C12
DDR1_CLK
A13
DDR1_CLKB
A12
DDR01_A00
B15
DDR01_A01
E14
DDR01_A02
A15
DDR01_A03
D15
DDR0_A04
E13
DDR0_A05
E12
DDR0_A06
F13
DDR01_A07
C14
DDR01_A08
F14
DDR01_A09
B14
DDR01_A10
D14
DDR01_A11
C13
DDR01_A12
D13
DDR01_A13
B13
DDR1_A04
F15
DDR1_A05
C15
DDR1_A06
D16
DDR01_BA0
F16
DDR01_BA1
B16
DDR01_BA2
E15
DDR01_CASB
A17
DDR0_DQ00
A8
DDR0_DQ01
B11
DDR0_DQ02
B8
DDR0_DQ03
D11
DDR0_DQ04
E11
DDR0_DQ05
C8
DDR0_DQ06
C11
DDR0_DQ07
C9
DDR0_DQ08
D8
DDR0_DQ09
E10
DDR0_DQ10
E9
DDR0_DQ11
F11
DDR0_DQ12
F12
DDR0_DQ13
E8
DDR0_DQ14
D10
DDR0_DQ15
F8
DDR1_DQ00
C18
DDR1_DQ01
C20
DDR1_DQ02
A18
DDR1_DQ03
B21
DDR1_DQ04
C21
DDR1_DQ05
B18
DDR1_DQ06
B20
DDR1_DQ07
D18
DDR1_DQ08
E18
DDR1_DQ09
D21
DDR1_DQ10
F18
DDR1_DQ11
E20
DDR1_DQ12
A22
DDR1_DQ13
F17
DDR1_DQ14
B22
DDR1_DQ15
E17
DDR0_DM0
A10
DDR0_DM1
C10
DDR1_DM0
A20
DDR1_DM1
F19
DDR0_DQS0
B10
DDR0_DQS0B
B9
DDR0_DQS1
F10
DDR0_DQS1B
F9
DDR1_DQS0
B19
DDR1_DQS0B
C19
DDR1_DQS1
E19
DDR1_DQS1B
D19
DDR01_RASB
C16
DDR_VREF0
A7
DDR_VREF1
A23
DDR01_WEB
C17
DDR_VDDP1P8_1
C7
DDR_VDDP1P8_2
D22
C425
10uF
16V
C426
10uF
16V
4
HONG YEON HYUK
Close to IC
Close to ICClose to IC
Close to IC
SI
SI
PI
* DDR_VTT
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
09/10/19
HP/COMP/REAR AV(NON_EU_CN) 11
GP2_BCM
HP_LOUT
R1113
0
C1112
100pF
50VR1105
0
R1116
1K
+3.3V_NORMAL
C1123
27pF
50V
R1124
10KO
P
T
D1102
5.6V
C11011uF
25V
C1105
47pF
50V
D1110
5.6V
D1111
5.5V
SC1_L_IN
C1104
100pF
50V
C1124
100pF
C1120
27pF
50V
L1102
270nH
D1114
5.6V
R1119
1K
D1105
5.6V
R
1
1
2
5
1
0
K
HP_ROUT
D1100
5.6V
SC1_R_IN
C1117
1uF
25V
R1114
0
SC1_R
C1114
1uF
25V
JK1100
PPJ237-01
5J [GN3]O-SPRING
6J [GN3]E-LUG
4J [GN3]CONTACT
7K [BL3]E-LUG-S
5K [BL3]O-SPRING
7L [RD3]E-LUG-S
5L [RD3]O-SPRING_1
5M [WH3]O-SPRING
4N [RD3]CONTACT
5N [RD3]O-SPRING_2
6N [RD3]E-LUG
6D [GN2]E-LUG
5D [GN2]O-SPRING
4D [GN2]CONTACT
7E [BL2]E-LUG-S
5E [BL2]O-SPRING
7F [RD2]E-LUG-S
5F [RD2]O-SPRING_1
5G [WH2]O-SPRING
4H [RD2]CONTACT
5H [RD2]O-SPRING_2
6H [RD2]E-LUG
6A [YL1]E-LUG
5A [YL1]O-SPRING
4A [YL1]CONTACT
5B [WH1]O-SPRING
4C [RD1]CONTACT
5C [RD1]O-SPRING
6C [RD1]E-LUG
R1103
470K
L1103
270nH
C1125
100pF
+3.3V_NORMAL
R1108
470K
R1117
0
D1112
5.5V
C1100
100pF
50V
C1113
1uF
25V
D1107
5.5V
C1130
1000pF
50V
OPT
R
1
1
0
0
0
O
P
T
COMP2_DET
D1104
5.6V
SIDE_HP_MUTE
C1122
27pF
50V
COMP2_Pb
R1110
470K
D1109
5.6V
JK1101
KJA-PH-0-0177
3DETECT
4L
5GND
1R
R1111
470K
Q1100
MMBT3904-(F)
OPT
E
B
C
Q1102
MMBT3904-(F)
OPT
E
B
C
R1118
0 COMP2_R_IN
C1103
100pF
50V
C1115
100pF
50V
C11021uF
25V
AV_CVBS_DET
9:G3
C1109
27pF
50V
R1102
470K
R1109
470K
SC1_B
R1106
0
D1115
5.6V
+3.5V_ST
C1119
27pF
50V
C1121
27pF
50V
COMP2_Y
C1106
27pF
50V
L1104
270nH
COMP2_L_IN
L1105
270nH
L1101
270nH
Q1103
MMBT3904-(F)
OPT
E
B
C
HP_DET
C1107
27pF
50V
+3.3V_NORMAL
Q1101
MMBT3904-(F)
OPT
E
B
C
C1127
100pF
D1106
5.5V
COMP2_Pr
R1122
1KO
P
T
C1131
1000pF
50V
OPT
C1108
27pF
50V
R1123
1K
R1104
1K
L1100
270nH
REAR_AV_CVBS
11:C4;AL18
C1118
27pF
50V
C1111
27pF
50V
REAR_AV_L_IN
10:B5;AF22
C1126
100pF
R1107
0
D1101
5.6V
C1110
27pF
50V
R1121
1KO
P
T
REAR_AV_R_IN
10:B5;AF24
SCART1_DET
C1116
1uF
25V
SC1_G
+3.3V_NORMAL
DTV/MNT_V_OUT
SC1_FB
TP1100
TP1101
SC1_IDTP1102
DTV_ATV_SELECTTP1103
SCART1_Rout_P
SCART1_Rout_N
TP1104
TP1105
SC1_CVBS_INTP1107
SC_RE2
SC_RE1TP1108
TP1109
SCART1_Lout_PSCART1_Lout_NTP1110
TP1111
R1115
10K
R1101
10K
R1112
10K
C1139
0.1uF
16V
HP_LOUT_N
R1129
OPT
100K
SIDE_HP_MUTEC1134
1uF
10V
R1133
0
OPT
HP_ROUT
L1106
10uH
HP_LOUT_P
C1140
2.2uF
10V
R
1
1
2
8
O
P
T
HP_ROUT_P
IC1100
TPA6132A2
EAN60724701
3
INR+
2
INL+
4
INR-
1
INL-
5
O
U
T
R
6
G
0
7
G
1
8
H
P
V
S
S
9
CPN
10
PGND
11
CPP
12
HPVDD
13
E
N
14
V
D
D
15
S
G
N
D
16
O
U
T
L
R
1
1
2
7
4
.
7
K
R1134
1K
C1132
1uF
10V
C1137
10uF
10V
R1132
4.7K
L1107
BG2012B080TF
C1136
1uF
10V
Q1104
2SC3052
E
B
C
HP_ROUT_N
C1135
1uF
10V
L1108
BG2012B080TF
HP_LOUT
C1138
2.2uF
10V
R
1
1
2
0
4
.
7
K
R
1
1
2
6
O
P
T
+3.3V_NORMAL
+3.3V_NORMAL
C1141
2.2uF
10V
C1133
1uF
10V
D1103
5.1V
D1116
5.1V
D1108
5.1V
D1117
5.1V
D1113
5.1V
D1118
5.1V
R1130
0
1/16W
R1131
0
1/16W C1142
0.22uF
16V
C1143
0.22uF
16V
J
P
8
8
1
8
J
P
8
8
1
9
AV
New Item Development
EARPHONE BLOCK
COMPONENT1
COMPONENT2
AV1
COMPONENT2
<Practically COMP1>
NON_SCART
EARPHONE AMP
==> COMP1_DET
==> COMP1_R_IN
==> COMP1_L_IN
==> COMP1_Y
==> COMP1_Pb
==> COMP1_Pr
COMPONENT1
<Practically COMP2>
Close to the IC
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
+3.3V_TU
IF_AGC_SEL
Q2601
ISA1530AC1E
B
C
R2604 0INT_DEMOD
TU_SIF
R2602 0
R2623
10K
C2600
100pF
50V
R2608
10K
OPT
C2605
100pF
50V
R2621
10K
C2607
0.1uF
16V
LNA2_CTL/BOSTER_CTL
C2610
0.1uF
16V
R2606
100
Q2602
ISA1530AC1
E
B
C
R2622
4.7K
R2615
0
R2600 0
OPT
R2612 100
NIM
TU_CVBS
C2603
0.1uF
16V
+5V_TU
IF_P_EXT
C2608
0.1uF
16V
OPT
R2611 100
NIM
C2606
0.1uF
16V
C2602
0.1uF 16V
R2616
200
R2605 0
TUNER_RESET
SCL0_3.3V
+5V_TU
Q2600
2SC3052
OPT
E
B
C
SDA0_3.3V
C2604
100pF
50V
IF_AGC
R2626
82
R2601 0
C2609
10uF
10V
OPT
C2613
0.01uF
25V
R2607
100K
+1.2V_TU
+5V_TU
Q2604
2SC3052
E
B
C
+5V_TU
L2600
BLM18PG121SN1D
R2613 0
Q2605
ISA1530AC1
E
B
C
IF_N_EXT
TU_IF_N_BCM
C2601
0.1uF
16V
+3.3V_TU
R2625
470
TU_IF_P_BCM
R2619
200
R2603 0INT_DEMOD
R2614
1K
OPT
RF_SWITCH_CTL
R2618
2.2K
C2622
0.1uF
16V
+3.3V_TU
C2626
22uF
10V
C2620
0.1uF
16V
C2625
22uF
10V
+3.3V_NORMAL
L2603
BLM18PG121SN1D
+5V_TU
C2623
0.1uF
16V
C2621
0.1uF
16V
+5V_NORMAL
L2604
CIC21J501NE
R
2
6
4
1
5
1
0
R
2
6
3
2
3
.
9
K
1
/
1
6
W
5
%
TU_IF_N_1
R
2
6
2
4
3
.
9
K
1
/
1
6
W
5
%
R
2
6
4
2
5
1
0
R
E
A
D
Y
R2633
2K
1/16W
5%
TU_IF_AGC_2
TU_IF_P_1
C
2
6
2
9
0
.
0
1
u
F
A3.3V
R2638
220
1/16W
5%
TU_IF_N_BCM
C26310.01uF
TU_IF_AGC_BCM
C26320.01uF
+5V_NORMAL
TU_IF_P_BCM
C
2
6
2
7
0
.
0
1
u
F
TU_IF_AGC_1
C2614
0.1uF
16V
+1.2V_TU
C2615
10uF
10V
R2627
1.2K
IC2600
AZ1117H-ADJTRE1(EH11A)
2
OUTPUT
3INPUT 1 ADJ/GND
GND
R2628
10
C2616
0.1uF
16V
R2629
1
+3.3V_TU
C2633
0.1uF
16V
TU2600
TDTR-T055F
Taiwan/Brazil_V
14
+B3[3.3V]
13
+B2[1.2V]
5
AS
12
GND
11
VIDEO
2
BST_CNTL
10
NC
4
NC[RF_AGC]
1
ANT_PWR[OPT]
17
DIF_1[N]
9
SIF
8
NC(IF_TP)
3
+B[5V]
16
IF_AGC_CNTL
7
SDA
6
SCL
15
RESET
18
DIF_2[P]
19
SHIELD
TU2600-*3
TDTJ-S031D
AU_Asia_Tuner_V
14
3.3V
13
1.2V
5
AS
12
GND
11
VIDEO
2
BST_CNTL
10
NC
4
NC[RF_AGC]
1
ANT_PWR[OPT]
17
DIF_1
9
SIF
8
NC(IF_TP)
3
+B
16
IF_AGC_CNTL
7
SDA
6
SCL
15
RESET
18
DIF_2
19
SHIELD
TU2600-*4
TDTJ-S001D
AU_Asia_Tuner_H
14
3.3V
13
1.2V
5
AS
12
GND
11
VIDEO
2
BST_CNTL
10
NC
4
NC[RF_AGC]
1
ANT_PWR[OPT]
17
DIF_1
9
SIF
8
NC[IF_TP]
3
+B
16
IF_AGC_CNTL
7
SDA
6
SCL
15
RESET
18
DIF_2
19
SHIELD
R2643
1K
OPT
R2644 0
OPT
TU2600-*5
TDTR-T035F
Taiwan/Brazil_H
14
+B3[3.3V]
13
+B2[1.2V]
5
NC_2
12
GND
11
VIDEO
2
BST_CTL
10
NC_4
4
NC_1[RF_AGC]
1
RF_S/W_CTL
17
DIF_1[N]
9
SIF
8
NC_3
3
+B1[5V]
16
IF/AGC
7
SDAT
6
SCLT
15
RESET
18
DIF_2[P]
19
SHIELD
TU2600-*1
TDVJ-H031F
Latin_Tuner_V
14
3.3V
13
1.2V
5
AS
12
GND
11
VIDEO
2
BST_CNTL
10
NC
4
NC[RF_AGC]
1
ANT_PWR[OPT]
17
DIF_1
9
SIF
8
NC(IF_TP)
3
+B
16
IF_AGC_CNTL
7
SDA
6
SCL
15
RESET
18
DIF_2
19
SHIELD
TU2600-*2
TDVJ-H001F
Latin_Tuner_H
14
3.3V
13
1.2V
5
AS
12
GND
11
VIDEO
2
BST_CNTL
10
NC
4
NC[RF_AGC]
1
ANT_PWR[OPT]
17
DIF_1
9
SIF
8
NC(IF_TP)
3
+B
16
IF_AGC_CNTL
7
SDA
6
SCL
15
RESET
18
DIF_2
19
SHIELD
L2605
BLM18PG121SN1D
C2634
10uF
10V
C2635
10uF
10V
C2636
22uF
10V
C2637
0.1uF
16V
C2638
20pF
50V
TUNER_I2C_LPF
C2639
20pF
50V
TUNER_I2C_LPF
L2609
TUNER_I2C_LPF
270nH
L2610
TUNER_I2C_LPF
270nH
L2609-*1
33
NON_TUNER_I2C_LPF
L2610-*1
33
NON_TUNER_I2C_LPF
C2612
62pF
50V
TUNER_I2C_LPF
C2611
62pF
50V
TUNER_I2C_LPF
C2611-*1
18pF
50V NON_TUNER_I2C_LPF
C2612-*1
18pF
50V
NON_TUNER_I2C_LPF
C2624
10uF
16V
Tuner (Half Nim)
GP2_BCM Ver. 1.0
28
CAN H-NIM/NIM TUNER for TAIWAN
close to TUNER
OPTION : RF AGC
close to TUNER
60mA
200mA
IF AGC FILTER
IF FILTER OPTION
CAUTION : Closed BCM IC(IC100)
R2
R1
V_OUT=V_REF(1+R2/R1)
For ESD
close to TUNER
close to TUNER
TUNER I2C LPF 
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
R2801 2.2K
ISDB_DEMOD
C2823
0.1uF
16V
ISDB_DEMOD
SDA1_3.3V
X2800
25MHz
ISDB_DEMOD
C2817
0.1uF
16V
ISDB_DEMOD
C2806 0.1uF ISDB_DEMOD
R2802 2.2K
ISDB_DEMOD
R2800
10K 1%
ISDB_DEMOD
+3.3V_DE
IF_N_EXT
FE_TS_SERIAL
FE_TS_VAL_ERR
C2810
0.1uF
16V
ISDB_DEMOD
C2824 0.1uF
ISDB_DEMOD
R2805 2.2K
ISDB_DEMOD
FE_TS_SYNC
R2812
2.2K
OPT
C2818
15pF
50V
ISDB_DEMOD
C2802 0.1uF
ISDB_DEMOD
C2803 0.1uF
ISDB_DEMOD
C2826 0.1uF
ISDB_DEMOD
C2809
0.1uF
ISDB_DEMOD
DEMOD_RESET
C2805 0.1uF ISDB_DEMOD
C2827 0.1uF
ISDB_DEMOD
FE_TS_DATA_CLK
C2814
15pF
50V
ISDB_DEMOD
IF_P_EXT
R2804 2.2K
ISDB_DEMOD
C2800 0.1uF
ISDB_DEMOD
R2809 22
ISDB_DEMOD
C2816
0.1uF
16V
ISDB_DEMOD
+3.3V_DE
C2807 0.1uF ISDB_DEMOD
R2806
1M
ISDB_OPT
C2821
0.1uF
16V
ISDB_DEMOD
C2825 0.1uF
ISDB_DEMOD
C2820
0.1uF
16V
ISDB_DEMOD
IF_AGC_ISDB
C2819
0.1uF
16V
ISDB_DEMOD
C2812
0.1uF
16V
ISDB_DEMOD
+1.2V_DE
SCL1_3.3V
R2810 22
ISDB_DEMOD
R2808 22
ISDB_DEMOD
C2804 0.1uF ISDB_DEMOD
C2813
0.1uF
16V
ISDB_DEMOD
R2803 10K
ISDB_DEMOD
C2811
0.1uF
16V
ISDB_DEMOD
C2801 0.1uF
ISDB_DEMOD
C2815
0.1uF
16V
ISDB_DEMOD
C2822
0.1uF
16V
ISDB_DEMOD
R2807 22
ISDB_DEMOD
R2811
2.2K
OPT
C2808 0.1uF ISDB_DEMOD
R2813 22
R2814 22
IC2800
MN884433
ISDB_DEMOD
1VSS_1
2AVDD_S
3AII_S
4AIQ_S
5AVSS_S
6VRT_S
7VRB_S
8TCPO_S
9VDDL_1
10MSCL_S
11MSDA_S
12VSS_2
13VSSH
14PSEL
15ZSEL
16VDDL_2
17ACKI
18TCPO_T
19IR_T
20VRT_T
21VRB_T
22AVDD_T
23AIN_T
24AIP_T
25AVSS_T
2
6
V
S
S
_
3
2
7
M
S
C
L
_
T
2
8
M
S
D
A
_
T
2
9
V
D
D
H
_
1
3
0
G
P
O
1
3
1
A
G
C
I
_
T
3
2
A
G
C
R
_
T
3
3
G
P
O
0
3
4
V
D
D
L
_
3
3
5
V
S
S
_
4
3
6
X
O
3
7
X
I
3
8
V
D
D
H
_
2
3
9
G
P
I
1
4
0
G
P
I
0
4
1
T
E
S
T
4
4
2
S
H
V
P
P
4
3
S
H
V
D
D
H
4
4
N
C
_
1
4
5
V
S
S
_
5
4
6
V
D
D
L
_
4
4
7
T
C
K
4
8
T
D
I
4
9
N
R
S
T
5
0
T
E
S
T
3
51 VSS_6
52 VDDL_5
53 TRST
54 TMS
55 CSEL0
56 CSEL1
57 TDO
58 SYNCA
59 ERRA
60 SYNCB
61 ERRB
62 VSS_7
63 VDDL_6
64 SADR_T
65 NC_2
66 SADR_S
67 HDVDDL0
68 VSS_8
69 SDA
70 SCL
71 VDDH_3
72 SADR
73 INTA
74 INTB
75 VSS_9
7
6
T
E
S
T
1
7
7
T
E
S
T
2
7
8
S
C
K
A
7
9
G
P
I
2
8
0
S
D
O
A
8
1
P
C
K
A
8
2
D
E
N
A
8
3
V
D
D
H
_
4
8
4
V
S
S
_
1
0
8
5
H
D
V
P
P
8
6
R
O
N
8
7
N
C
_
3
8
8
H
D
V
D
D
H
8
9
N
C
_
4
9
0
H
D
V
D
D
L
1
9
1
V
S
S
_
1
1
9
2
V
D
D
L
_
7
9
3
S
C
K
B
9
4
T
E
S
T
0
9
5
S
D
O
B
9
6
P
C
K
B
9
7
D
E
N
B
9
8
G
P
O
2
9
9
V
D
D
H
_
5
1
0
0
A
G
C
_
S
ISDB-T Demodulator
GP2_Saturn7M Ver. 1.0
28
AMP_I2C HAVE PULL-UP
(FE_TS_SERIAL)
PANASONIC (ISDB-T)
MN884433
THESYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
C2905
22uF
16V
ISDB_POWER
C2904
0.1uF
16V
ISDB_POWER
IC2900
SC4215ISTRT
ISDB_POWER
3
VIN
2
EN
4
NC_2
1
NC_1
5
NC_3
6
VO
7
ADJ
8
GND
+3.3V_DE
IF_AGC
L2900
BLM18PG121SN1D
ISDB_POWER
C2902
0.1uF
16V
ISDB_POWER
R2900
0
ISDB_DEMOD
R
2
9
0
2
1
0
K
I
S
D
B
_
P
O
W
E
R
R2901
0
INT_DEMOD
IF_AGC_ISDB
+3.3V_DE
C2903
10uF
10V
ISDB_POWER
R2903
5.1K
ISDB_POWER
TP2901
C2900
0.1uF
ISDB_POWER
IF_AGC_SEL
TU_IF_AGC_BCM
C2901
0.1uF
ISDB_POWER
+3.3V_NORMAL
+1.2V_DE
Demodulator
GP2_Saturn7M Ver. 1.0
29
IF AGC SELECTION
Panasonic Demodulator Power(3.3V,1.2V)
U
S
B
 
D
O
W
N
 
S
T
R
E
A
M
THERMAL
U
S
B
 
D
O
W
N
 
S
T
R
E
A
M
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
USB
C2205
0.1uF
SCL2_3.3V
USB_DP2
+3.3V_USB
USB_DM2
+3.3V_USB
C2201
1uF
10V
C
2
2
1
1
0
.
1
u
F
C
2
2
0
9
1
u
F
1
0
V
USB_DP1
C2215
0.1uF
OPT
D2204
5.6V
CDS3C05HDMI1
R2212 100K OPT
C2214
4.7uF
R
2
2
0
6
1
0
0
K
C2203
0.1uF
R22080 OPT
R2202
1M 1%
C
2
2
0
7
0
.
1
u
F
R
2
2
0
5
1
0
0
K
+3.3V_USB
R2213 100K OPT
/RST_HUB
C2204
0.1uF
S
I
D
E
_
U
S
B
_
D
P
C2202
0.1uF
JK2202
KJA-UB-4-0004
1
2
3
4
5
USB_DP2
+3.3V_USB
R2209
100K
OPT
R2210
100K
USB_DM1
/
U
S
B
_
O
C
D
2
C
2
2
0
6
1
u
F
1
0
V
/USB_OCD1
C2212
0.1uF
R22070 OPT
R
2
2
0
4
1
0
0
K
D2202
5.6V
CDS3C05HDMI1
R2214
0
/
U
S
B
_
O
C
D
1
USB_CTL1
USB_DM1
+3.3V_USB
+3.3V_NORMAL
R
2
2
0
3
1
0
0
K
SDA2_3.3V
S
I
D
E
_
U
S
B
_
D
M
L2201
BLM18PG121SN1D
D2203
5.6V
CDS3C05HDMI1
C2213
0.1uF
U
S
B
_
C
T
L
2
D2201
5.6V
CDS3C05HDMI1
R2211 100K OPT
USB_DP1
USB_DM2
U
S
B
_
C
T
L
1
R
2
2
0
1
1
2
K
1
/
1
0
W
1
%
IC2201
USB2512A_AEZG
1USBDN1_DM
3USBDN2_DM
7NC_2
9NC_4
1
0
V
D
D
A
3
3
_
2
1
1
T
E
S
T
1
2
P
R
T
P
W
R
1
1
3
O
C
S
1
_
N
1
4
V
D
D
1
8
1
5
V
D
D
3
3
C
R
1
6
P
R
T
P
W
R
2
1
7
O
C
S
2
_
N
1
8
N
C
_
5
19 NC_6
20 NC_7
21 NC_8
22 SDA/SMBDATA/NON_REM1
23 VDD33
24 SCL/SMBCLK/CFG_SEL0
25 HS_IND/CFG_SEL1
26 RESET_N
27 VBUS_DET
2
8
S
U
S
P
_
I
N
D
/
L
O
C
A
L
_
P
W
R
/
N
O
N
_
R
E
M
0
2
9
V
D
D
A
3
3
_
3
3
0
U
S
B
U
P
_
D
M
3
1
U
S
B
U
P
_
D
P
3
2
X
T
A
L
2
5VDDA33_1
8NC_3
6NC_1
4USBDN2_DP
2USBDN1_DP
3
3
X
T
A
L
1
/
C
L
K
I
N
3
4
V
D
D
1
8
P
L
L
3
5
R
B
I
A
S
3
6
V
D
D
3
3
P
L
L
37
V
S
S
X2201
24MHz
C
2
2
0
8
1
5
p
F
C
2
2
1
0
1
5
p
F
C2218
100uF
16V
C2222
0.1uF
IC2202
AP2191SG-13
EAN60921001
3 IN_2
2 IN_1
4 EN
1 GND
5FLG
6OUT_1
7OUT_2
8NC
+5V_USB
R2226
2.7K
R2225 0
R2220
4.7K
OPT
+3.3V_NORMAL
C2220
10uF
10V
L2202
MLB-201209-0120P-N2
120-ohm
JK2201
KJA-UB-4-0004
1
2
3
4
5
R2227 0
R2223
2.7K
C2223
0.1uF
R2221
4.7K
OPT
L2203
MLB-201209-0120P-N2
120-ohm
IC2203
AP2191SG-13
EAN60921001
3 IN_2
2 IN_1
4 EN
1 GND
5FLG
6OUT_1
7OUT_2
8NC
C2221
10uF
10V
+5V_USB
C2219
100uF
16V
+3.3V_NORMAL
/USB_OCD2
040:J6
USB_CTL2
USB2 OPTION
USB / DVR Ready
USB
40
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
Bluetooth
P1895
12507WR-10L
BCM BT MODULE
1
2
3
4
5
6
7
8
9
10
11
+3.3V_NORMAL
R1896
27
BCM BT MODULE
R1897
27
BCM BT MODULE
R1898
0
BCM BT MODULE
VREG_CTRL
BT_RESET
R1899
0
BCM BT MODULE
BT_DP
BT_DM
D1898
5.6V
CDS3C05HDMI1
BCM BT MODULE
D1899
5.6V
CDS3C05HDMI1
BCM BT MODULE
R
1
8
8
9
1
0
B
C
M
 
B
T
 
M
O
D
U
L
E
Q
1
8
0
1
R
T
R
0
3
0
P
0
2
B
C
M
 
B
T
 
M
O
D
U
L
E
SD
G
Q1800
2SC3052
BCM BT MODULE
E
B
C
BT_ON/OFF
R1887
47K
BCM BT MODULER1886
47K
BCM BT MODULE
R1888
4.7K
BCM BT MODULE
L
1
8
9
9
5
0
0
O
P
T
C1898
1uF
BCM BT MODULE
C1899
22uF
10V
BCM BT MODULE
BLUETOOTH FOR BCM
43
BLUETOOTH
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Non_CI
2009.10.19
CI_A[0]
CI_A[1]
CI_A[2]
CI_A[3]
CI_A[4]
CI_A[5]
CI_A[6]
CI_A[7]
CI_A[8]
CI_A[9]
CI_A[10]
CI_A[11]
CI_A[12]
CI_A[13]
CI_OUTDATA[4]
CI_OUTDATA[5]
CI_OUTDATA[6]
CI_OUTDATA[7]
CI_OUTCLK
CI_OUTVALID
CI_OUTSTART
CI_OUTDATA[0]
CI_OUTDATA[1]
CI_OUTDATA[2]
CI_OUTDATA[3]
CI_OUTCLK
/CI_WAIT
CI_MOD_RESET [GP49]
/CI_CD2 [GP38]
CI_MOD_RESET
/CI_CD1
FE_TS_DATA_CLK
FE_TS_VAL_ERR
/CI_WAIT
/CI_IREQ
[GP39]
007:H5;016:AJ3
/CI_CD1
CI_OUTCLK,CI_OUTDATA[0-7],CI_OUTSTART,CI_OUTVALID
FE_TS_SYNC
/CI_CD2
EBI_RW007:E6
CI_5V_CTL
[GP27]007:H7
CI_A[0-13]
EBI_WE
/CI_SEL
CI_A[14]
EBI_CS
High_Common(BCM3556)
46
DVB-CI PULL-UP (Near CI Slot)
DVB-CI PULL-DOWN (Near CI Slot)
CI POWER ENABLE CONTROL
CI CONTROL BUFFER
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. URSA3 120Hz MINI_LVDS
09/10/xx
74
COMMON
GMA18
R7416 0 NON_GIP
Z_OUT
R7400 0 GIP
GMA16
GMA15
RXC2-
GSP/GVST_I
GMA13
VCC_LCM
GMA1
HVDD
R
7
4
0
7
0
N
O
N
_
G
I
P
VGI_N
R7401 0 GIP
VGL
(-5V)
SOE
VDD_ODD
GMA6
GMA3
R
7
4
1
1
0
N
O
N
_
G
I
P
GMA1
C7404
0.1uF
50V
MINI_LVDS
RXC0-
GSP/GVST_I
RXD1-
GMA18
R7413
3.3K
MINI_LVDS
R7402
3.3K
MINI_LVDS
RXC2+
POL
RXD0-
RXB4-
RXA0+RXC3+
VCC_LCM
GMA13
RXB1+
RXC4+
RXB2-
VST
CLK1
R7409 0 GIP
VGH_M
(+25V)
R7417 0 NON_GIP
R7412 0 MINI_LVDS
C7409
10uF
16V
MINI_LVDS
VCOMRFB
GMA10
VDD_EVEN
VCC_LCM
VCC_LCM
CLK4
VDD_LCM
CLK3
RXD0+
R7415 0 NON_GIP
GMA12
R7403 0 NON_GIP
GMA10
RXC4-
CLK6
RXB4+
R7419 0 NON_GIP
RXC0+
VCC_LCM
VCOMLFB
VGI_P
GMA4
C7407
0.01uF
50V
MINI_LVDS
CLK2
VGI_N
VDD_EVEN
R
7
4
0
8
0
N
O
N
_
G
I
P
RXB2+
GSC/GCLK3_I
R7418 0 NON_GIP
CLK5
R7414 0 NON_GIP
RXD1+
RXC1+
VGL_I
CLK3
SOE
H_CONV
CLK2
C7401
10uF
16V
MINI_LVDS
GMA3
POL
GMA7
R
7
4
0
6
0
N
O
N
_
G
I
P
RXA1-
GMA7
C7405
0.1uF
16V
MINI_LVDS
VDD_ODD
RXB3+
RXC3-
GMA6
RXB3-
GMA9
R
7
4
1
0
0
N
O
N
_
G
I
P
VDD_LCM
C7402
0.01uF
50V
MINI_LVDS
CLK1
C7400
0.1uF
16V
MINI_LVDS
RXB0-
R
7
4
0
5
0
N
O
N
_
G
I
P
C7408
0.1uF
50V
MINI_LVDS
CLK6
VGL_I
GOE/GCLK1_I
VGI_P
VGL
(-5V) H_CONV
RXC1-
GMA15
VCOML
R7404
3.3K
NON_GIP
RXB0+
GMA16
VST
CLK4
GMA9
GMA4
Z_OUT
RXB1-
CLK5
RXA1+
HVDD
GMA12
RXA0-
VCOMR
C7403
1uF
50V
MINI_LVDS
C7406
1uF
50V
MINI_LVDS
P7400
104060-6017
MINI_LVDS
1 GND
2 GMA1
3 GMA3
4 GMA4
5 GMA6
6 GMA7
7 GMA9
8 GMA10
9 GMA12
10 GMA13
11 GMA15
12 GMA16
13 GMA18
14 GND
15 OPT_N
16 H_CONV
17 VST_IN
18 POL
19 SOE
20 GND
21 LV0+
22 LV0-
23 LV1+
24 LV1-
25 LV2+
26 LV2-
27 LVCLK+
28 LVCLK-
29 LV3+
30 LV3-
31 LV4+
32 LV4-
33 LV5+
34 LV5-
35 GND
36 VCC
37 VCC
38 GND
39 HALF_VDD
40 HALF_VDD
41 VDD
42 VDD
43 GND
44 VCOM_IN
45 VCOM_FB
46 GND
47 VST
48 VSS
49 VGH_EVEN
50 VGH_ODD
51 VGI_P
52 VGI_N
53 CLK6
54 CLK5
55 CLK4
56 CLK3
57 CLK2
58 CLK1
59 Z_OUT
60 GND
61
.
P7401
104060-6017
MINI_LVDS
1 GND
2 Z_OUT
3 CLK1
4 CLK2
5 CLK3
6 CLK4
7 CLK5
8 CLK6
9 VGI_N
10 VGI_P
11 VGH_ODD
12 VGH_EVEN
13 VSS
14 VST
15 GND
16 VCOM_FB
17 VCOM_IN18 GND
19 VDD
20 VDD
21 HALF_VDD
22 HALF_VDD
23 GND
24 VCC
25 VCC
26 GND
27 RV0+
28 RV0-
29 RV1+
30 RV1-
31 RV2+
32 RV2-
33 RVCLK+
34 RVCLK-
35 RV3+
36 RV3-
37 RV4+
38 RV4-
39 RV5+
40 RV5-
41 GND
42 SOE
43 POL
44 VST_IN
45 H_CONV
46 OPT_N
47 GND
48 GMA18
49 GMA16
50 GMA15
51 GMA13
52 GMA12
53 GMA10
54 GMA9
55 GMA7
56 GMA6
57 GMA4
58 GMA3
59 GMA1
60 GND
61
.
JP8804
JP8805
JP8806
JP8807
JP8808
[LEFT FFC Connector]
 (60Pin Mini-LVDS)
Mini LVDS
[Right FFC Connector]
 (60Pin Mini-LVDS)
2012
To reduce
Audible Noise
To reduce
Audible Noise
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
URSA3 120Hz LVDS
PWM_DIM
RXC4-
P7700
TF05-51S
FHD_120Hz
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
52
RXD3+
RXA3-
R7711
3.3K
JEIDA
R7708-*1 0
FHD_OPC
RXDCK-
RXD0+
RXB1-
R7705 33
240Hz
RXACK+
RXB2-
RXD1-
R7703 33
240Hz
RXA0-
RXD4-
RXC4+
RXBCK-
RXB0+
+3.3V_NORMAL
RXA3+
RXA4-
RXB3+
RXA2-
R7706 0
LD60_SCANR7702 0
NON_SCAN
R7708 0
LD60_SCAN
RXCCK+
RXB1+
RXC2+
RXA0+
RXD3-
SDA3_3.3V
RXCCK-
SCAN_BLK1/OPC_OUT
RXB4+
RXA1-
R7712
10K
VESA
RXBCK+
RXC1-
R7710
10K
8BIT
R7707 0
FHD_OPC
RXC1+
R7700 0
NON_LGD_22
OPC_OUT
RXC0-
RXA1+
RXA2+
FRC_RESET
RXB2+
RXACK-
RXD0-
RXD2+
R7701 0
NON_LGD_22
RXC3-
P7701
TF05-41S
FHD_120Hz
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
RXB3-
SCL3_3.3VR7704 33
240Hz
SCAN_BLK2
C7701
1000pF
50V
R7709 0
FHD_OPC
RXD1+
RXB4-
TP7700
PANEL_VCC
OPC_EN
RXB0-
RXD4+
RXDCK+
RXD2-
RXA4+
RXC3+
RXC2-
RXC0+
L7700
500
FHD_120Hz
C7702
0.1uF
50V
C7700
10uF
25V
OPT
JP8809
VESA
BIT_SEL
[41Pin LVDS Connector]
 (For FHD 120Hz)
10BIT
LVDS_SEL
HIGH
GND(NC)
OPEN
[51Pin LVDS Connector]
 (For FHD 60/120Hz)
JEIDA
LVDS
8BIT GND
35
T
H
E
R
M
A
L
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. POWER
BCM (EUROBBTV)
+5V_USB
+3.5V_ST
R8018
100
CMO_PSU
L8004
3.6uH
NR8040T3R6N
0
R8035
HD_OPC
Q8001
2SC3052
E
B
C
+12V
R8030 0AUO_PSU
PANEL_CTL
1:AK10
C8017
0.1uF
OPT
+5V_USB
+3.3V_NORMAL
POWER_ON/OFF2_2
L8010
3.6uH
NR8040T3R6N
0
R8027
LGD_IOP
R8031 0
A_DIM_LGD
POWER_ON/OFF1
R
8
0
3
7
4
.
7
K
N
O
N
_
L
E
D
_
M
O
D
E
L
Q8003
2SC3052
E
B
C
C8020
22uF
10V
C8046
100pF
50V
OPT
+12V
P8000
FW20020-24S
NORMAL_26~52
19
14
9
4
18
13
8
3
17
12
7
2
16
11
6
1
20
15
10
5
21 22
23 24
R8003
22K
R8019
100
NON_CMO
R
8
0
5
4
5
.
6
K
1
%
C8016
100pF
50V
OPT
C8004
0.1uF
16V
C8015
1uF
25V
OPT
Q8000
2SC3052
E
B
C
INV_CTL
+3.5V_ST
C8018
0.1uF
50V
R
8
0
0
9
0 S
C
A
N R
8
0
5
5
1
0
K
1
%
C8040
2200pF
PWM_DIM
R8004
4.7K
C8047
22uF
10V
R8000
10K
0
R8020
NON_SCAN_PSU
R8008
22K
+3.3V_NORMAL
Q8002
RT1P141C-T112
1
2
3
R8074
100
0
R8021
AUO_PSU/SHARP_PSU_60
C8007
0.1uF
+5V_NORMAL
C8021
1uF
25V
OPT
OPC_OUT
R8050
10K
R8068
100K
R8012
10K
R8023
6.8K
OPT
C8025
0.1uF
16V
R
8
0
6
7
1
4
K
1
%
P
D
_
+
3
.
5
V
SCAN_BLK1/OPC_OUT
L
8
0
0
1
5
0
0
0
R8033
PWM_NON_OPC
R8029
0CMO_PSU
L8003
MLB-201209-0120P-N2
C
8
0
1
2
1
u
F
2
5
V
O
P
T
R8049
12K
R8039
10K
OPT
+12V
R
8
0
7
5
1
0
K
O
P
T
C8024
68uF
35V
0
R8034
SCAN/FHD_OPC
A_DIM
R8001
47K
RL_ON
ERROR_OUT
L8005
MLB-201209-0120P-N2
+24V
R
8
0
5
3
4
7
K
1
%
R8013
10K
POWER_DET
C8019
100pF
50V
OPT
PANEL_VCC
+3.5V_ST
0
R8024
AUO_PSU/SHARP_PSU_52_60
+12V
R8006
22
C8014
1uF
50V
IC8007
NCP803SN293
1
GND
3VCC 2 RESET
S
C
A
N
_
B
L
K
2
R
8
0
1
5
0L
D
R
8
0
1
7
6
.
2
K
1
%
C8000
100uF
16V
IC8000
MP8706EN-C247-LF-Z
3
SW_2
2
SW_1
4
BST
1
IN
5
EN/SYNC
6
FB
7
VCC
8
GND
C
8
0
1
1
0
.
1
u
F
1
6
V
O
P
T
+24V
V_SYNC
R8002
10K
OPT
R
8
0
1
1
1
.
8
K
C8028
10uF
25V
L8002
MLB-201209-0120P-N2
R
8
0
6
3
1
2
K
1
%
P
D
_
+
1
2
V
POWER_ON/OFF2_1
C8023
0.1uF
16V
R8032
10K
C8030
10uF
25V
R8022
0
C8049
0.1uF
16V
R
8
0
1
0
1
0
K
+3.5V_ST
C8006
0.1uF
16V
0
R8025
NON_LED_MODEL
+12V
R
8
0
6
4
5
.
1
K
1
/
1
6
W
5
%
N
O
N
_
P
D
_
+
3
.
5
V
R
8
0
1
6
3
3
K
1
%
Q8005
2SC3052E
B
C
C8008
0.01uF
25V
POWER_ON/OFF2_1
R
8
0
6
6
3
.
9
K
O
P
T
L8015
3.6uH
IC8005
AOZ1024DI
1
P
G
N
D
2
VIN
3
A
G
N
D
4
FB
5
COMP
6
EN
7
LX
+12V
D3.3V
C8064
0.1uF
16V
C8063
0.1uF
16V
+3.3V_NORMAL
L8016
CIC21J501NE
R
8
0
6
9
2
7
K
1
%
R
8
0
7
0
4
.
7
K
1
%
R
8
0
7
1
1
0
K
1
%
POWER_ON/OFF2_2
R8036
0
400Hz_VSYNC
R8028 0
400Hz_MO_SCLK
R
8
0
0
5
0
4
0
0
H
z
_
M
D
_
M
D
S
I
L_VS
M
O
_
M
O
S
I
MO_SCLK
L8000
CIC21J501NE
L8007
CIC21J501NE
L8013
CIC21J501NE
R8058
20K
R8026
1K
R8045
0
NON_ESD
C8029
22uF
16V
L
8
0
0
6
M
L
B
-
2
0
1
2
0
9
-
0
1
2
0
P
-
N
2
L8011
BLM18PG121SN1D
R
8
0
4
7
3
.
9
K
O
P
T
C8045
0.1uF
16V
A1.2VD1.2V
R8040
100K
C8027
0.1uF
+3.5V_ST
R8043
470K
1%
C8036
0.1uF
C8032
0.1uF
L8009
2uH
R8048
910K
1%
C8026
0.1uF
10
R8041 R8042
0
C8035
22uF
D1.8V
L8012
3.6uH
NR8040T3R6N
R8052
10K
0.1uF
C8050
R8051
6.8K
C8042
0.01uF
25V
+3.5V_ST
C8038
0.01uF
25V
C8031
22uF
10V
C8044
100pF
50V
OPT
R8057
10K
1%
C8048
22uF
10V
R8056
10K
1/10W
1%
C
8
0
3
4
0
.
0
1
u
F
2
5
V
L
8
0
0
8
C
I
C
2
1
J
5
0
1
N
E
IC8003
AOZ1072AI
3
AGND
2
VIN
4
FB
1
PGND
5
COMP
6
EN
7
LX_1
8
LX_2
R
8
0
0
7
0
N
O
N
_
S
C
A
N
_
L
I
P
S
R
8
0
1
4
0
S
H
A
R
P
_
P
S
U
_
2
6
_
3
2
_
5
2
R
8
0
7
6
0
4
0
0
H
z
_
M
D
_
M
D
S
I
/
4
2
_
4
7
_
L
O
C
A
L
 
D
I
M
M
I
N
G
M
2
_
M
O
S
I
R_VS
R8078
0
400Hz_VSYNC/42_47_LOCAL DIMMING
M2_SCLK
R8077 0
400Hz_MO_SCLK/42_47_LOCAL DIMMING
L_VS
R_VS
M2_SCLK
MO_SCLK
M2_MOSI
MO_MOSI
C8001
100uF
25V
C8003
0.1uF
50V
C8005
0.1uF
50V
C8009
0.1uF
50V
C8010
10uF
25V
OPT
C8022
0.1uF
50V
C8052
22uF
25V
C8051
0.1uF
50V
C8002
10uF
25V
C8013
4.7uF
50V
R8081
100
R8079
100K
IC8008
NCP803SN293
1
GND
3VCC 2 RESET
R8061
24K 1%
POWER 20V
R8061-*1
24K 1%
POWER 24V
R8062
5.1K 5%
POWER 20V
R8062-*1
4.3K 1%
POWER 24V
+3.5V_ST
R8080
14K 1%
OPT
IC8002
MP2108DQ
3
LX
2
VIN
4
PGND
1
BST
5
SGND
6
SS
7
FB
8
COMP
9
VREF
10
RUN
IC8001
MP2208DL-LF-Z
3
PGND_1
2
SS
4
SW_1
1
AGND
6
NC
5
IN_1
7
BS
8
VCC
9
POK
10
IN_2
11
SW_2
12
PGND_2
13
EN/SYNC
14
FB
1
5
EP
P8001
SMAW200-H24S2
SLIM_32~52
1912V
14 GND
93.5V
4 24V
18 INV ON
13GND
8 GND
324V
1712V
12 3.5V
7GND
2 24V
16 GND/V-sync
113.5V
6 GND
1PWR ON
20 A.DIM
15GND
10 3.5V
5GND
2112V 22 P.DIM1
23GND/P.DIM2 24 Err OUT
25
Q8004
AO3407A
G
DS
R8072
39K
1%
IC8004
SC4215ISTRT
3
VIN
2
EN
4
NC_2
1
NC_1
5
NC_3
6
VO
7
ADJ
8
GND
0.1uF
C8062
0.1uF
C8056
OPT
R8073
18K
1%
A2.5V
L
8
0
1
7
5
0
0
R8059
10K
+3.3V_NORMAL
L
8
0
1
4
5
0
0
0.1uF
C8055
C8053
10uF
16V
C8058
10uF
16V
C8061
10uF
16V
C8065
0.1uF
16V
ESD
C8039
3300pF
50V
C8041
22uF
10V
C8037
22uF
10V
C8057
22uF
10V
C8059
22uF
10V
R8082 0
400Hz_VSYNC
C8033
1uF
10V
R8060
10K
R8044
10K
R
8
0
8
5
0
S
C
A
N
_
L
I
P
S
R8084
0
SCAN_PSU
R
8
0
8
3
0
S
C
A
N
_
P
S
U
C8067
10uF
10V
C8068
0.1uF
16V
C8054
2200pF
50V
D8000
5.6V
ESD
R8045-*1
100K
ESD
C8069
0.1uF
NON_LED_MODEL
R8061-*2
22K 1%
POWER 18.5V
R8062-*2
4.7K 1%
POWER 18.5V
C8066
10uF
16V
C8043
10uF
16V
R8046
30K
1%
15
<OS MODULE PIN MAP>
PIN No
INV_ON
Vout=(1+R1/R2)*0.8
+5V_NORMAL
R2
3A
ST_3.5V-->3.5V
INV_ONVout=0.8*(1+R1/R2)
INV_ON
INV_ON
+5V_USB
Err_out
20V-->3.5V
Power_DET
15V-->3.6V
PANEL_POWER
22
NC
2A
PWM_DIM
R1
24V-->3.48V
FROM LIPS & POWER B/D
AUO
R2
18
V4:VBR-A
V5:NC
SHARP
Err_out
CMO(09)
PWM_DIM
PWM_DIM
PWM_DIM
GND
20
MAX 350mA
A-DIM
R1
MAX 1500mA
A-DIM
Err_out
24
Max 1100 mA
12V-->3.58V
LGD +3.3V_NORMAL
MAX 3.1A
MAX 2.3A
Vout=0.8*(1+R1/R2)
R1 R2
BCM core 1.2V volt
Placed on SMD-TOP
Vout=0.9*(1+R1/R2)
Replaced Part
R1
C IN
3A
Placed on SMD-TOP
R2
BCM DDR 1.8V
R2
VOUT : 2.533V
A2.5V
Vout=0.8*(1+R1/R2)
R1
not to RESET at 8kV ESD
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
+
3
.
5
V
_
S
T
POWER_ON/OFF1
W
I
R
E
L
E
S
S
_
P
W
R
_
E
N
R
8
1
7
8
2
2
W
I
R
E
L
E
S
S
_
D
E
T
E
C
T
OPC_EN
R8126
10K
OPT
R8139
10K
OPT
R
8
1
1
2
1
0
K
T
A
C
T
_
K
E
Y
R8135 22
R8192 22
R8116 22
L
E
D
_
B
/
L
G
_
L
O
G
O
R8182 10K
OPT
NEC_EEPROM_SDA
+3.5V_ST
R8127 22
R
8
1
7
7
2
2
C
8
1
0
0
0
.
1
u
F
R8115 22
R8134 22
R
8
1
2
4
1
0
K
L
C
D
/
P
D
P
RL_ON
INV_CTL
R8194 22
WIRELESS_SW_CTRL
MODEL1_OPT_2
+3.5V_ST
+3.5V_ST
+3.5V_ST
R8132 22
+3.5V_ST
R
8
1
7
6
2
2
N
E
C
_
I
S
P
_
T
x
I
R
R
8
1
2
5
4
.
7
K
N
E
C
_
I
S
P
_
R
x
OCD1B
OCD1A
SW8100
JTP-1127WEM
12
4 3
R8114
22
MODEL1_OPT_3
R
8
1
1
1
1
0
K
T
O
U
C
H
_
K
E
Y
AMP_RESET_N
FLMD0
MICOM_RESET
P
O
W
E
R
_
O
N
/
O
F
F
2
_
2
R
8
1
4
3
1
0
K
NEC_EEPROM_SDA
OCD1A
O
C
D
1
A
R8195 22
M
I
C
O
M
_
R
E
S
E
T
R8113 22
R8188 22
R
8
1
4
2
2
2
N
O
N
_
M
-
R
E
M
O
T
E
+3.5V_ST
+3.5V_ST
KEY1
Q8100
2SC3052
E
B
C
SOC_RESET
MODEL1_OPT_0
IC8101
UPD78F0513AGA-GAM-AX
NEC_MICOM
1P60/SCL0
2P61/SDA0
3P62/EXSCL0
4P63
5P33/TI51/TO51/INTP4
6P75
7P74
8P73/KR3
9P72/KR2
10P71/KR1
11P70/KR0
12P32/INTP3/OCD1B
1
3
P
3
1
/
I
N
T
P
2
/
O
C
D
1
A
1
4
P
3
0
/
I
N
T
P
1
1
5
P
1
7
/
T
I
5
0
/
T
O
5
0
1
6
P
1
6
/
T
O
H
1
/
I
N
T
P
5
1
7
P
1
5
/
T
O
H
0
1
8
P
1
4
/
R
X
D
6
1
9
P
1
3
/
T
X
D
6
2
0
P
1
2
/
S
O
1
0
2
1
P
1
1
/
S
L
1
0
/
R
X
D
0
2
2
P
1
0
/
S
C
K
1
0
/
T
X
D
0
2
3
A
V
R
E
F
2
4
A
V
S
S
25 ANI7/P27
26 ANI6/P26
27 ANI5/P25
28 ANI4/P24
29 ANI3/P23
30 ANI2/P22
31 ANI1/P21
32 P20/ANI0
33 P130
34 P01/TI010/TO00
35 P00/TI000
36 P140/PCL/INTP6
3
7
P
1
2
0
/
I
N
T
P
0
/
E
X
L
V
I
3
8
P
4
1
3
9
P
4
0
4
0
R
E
S
E
T
4
1
P
1
2
4
/
X
T
2
/
E
X
C
L
K
S
4
2
P
1
2
3
/
X
T
1
4
3
F
L
M
D
0
4
4
P
1
2
2
/
X
2
/
E
X
C
L
K
/
O
C
D
0
B
4
5
P
1
2
1
/
X
1
/
O
C
D
0
A
4
6
R
E
G
C
4
7
V
S
S
4
8
V
D
D
R8106 10K
R
8
1
8
5
2
0
K
1
/
1
6
W
1
%
C
8
1
0
4
0
.
1
u
F
R
8
1
8
4
4
7
K
+3.5V_ST
NEC_ISP_Tx
N
E
C
_
R
X
D
R8128 22
NEC_EEPROM_SCL
SCART1_MUTE
R8133 22
R
8
1
1
0
1
0
K
L
C
D
/
O
L
E
D
R8104 10K
N
E
C
_
T
X
D
R8181 10K
OPT
R
8
1
4
5
2
2
R8186 20K
1/16W
1%
MODEL1_OPT_1
R8190 22
R
8
1
2
3
1
0
K
O
L
E
D
/
3
D
AMP_MUTE
R8189 10K
POWER_ON/OFF2_1
R8108 10K
R8183 10K
OPT
C8103
0.1uF
R
8
1
4
4
2
2
T
A
C
T
_
K
E
Y
HDMI_CEC
R
8
1
8
0
2
2
R8175
4.7M
R8105 10K
R
8
1
0
0
4
7
K
R8187 22
MODEL1_OPT_1
+
3
.
5
V
_
S
T
R
8
1
4
0
4
7
K
O
P
T
C
8
1
0
7
1
u
F
R8191 22
R8118 22
KEY2
R
8
1
2
1
1
0
K
P
W
M
_
L
E
D
NEC_EEPROM_SCL
OCD1B
F
L
M
D
0
R
8
1
2
0
1
0
K
L
O
G
O
_
B
U
Z
Z
R8130 22
NEC_ISP_Rx
MODEL1_OPT_3
R8103 100
NEC_ISP_Tx
EDID_WP
R8102 100
SIDE_HP_MUTE
R8117
22
R8129 22
P8100
12505WS-12A00
1
2
3
4
5
6
7
8
9
10
11
12
13
R8196 22
+3.5V_ST
P
O
W
E
R
_
D
E
T
NEC_ISP_Rx
R8131 22
R
8
1
2
2
4
.
7
K
OCD1B
R8119 22
R
8
1
7
9
2
2
MODEL1_OPT_0
R8107 10K
R
8
1
0
9
1
0
K
P
D
P
/
3
D
L
E
D
_
R
/
B
U
Z
Z
MODEL1_OPT_2
R8193 22
PANEL_CTL
R8136 22
NON_M-REMOTE
X8100
10MHz
R8138
0
GND
GND
SDA1_3.3V
SCL1_3.3V
MICOM_DOWNLOAD
R8146
0
R8101 100
OPC
FLASH_WP
MICOM_DOWNLOAD
SCART1_MUTE TP8100
C8101
15pF
50V
C8102
15pF
50V
C8108
0.1uF
IC8100
M24C16-WMN6T
3
NC/E2
2
NC/E1
4
VSS
1
NC/E0
5
SDA
6
SCL
7
WC
8
VCC
C
8
1
0
5
1
5
p
F
C
8
1
0
6
1
5
p
F
X8101
32.768KHz
MICOM_KDS
X8101-*1
32.768KHz
MICOM_EPSON
5
0
0
MODEL_OPT_3
1
0
31
LOW_SMALL
1
1
LOGO_BUZZ
LCD/PDP
MODEL OPTION
01
PWM_LED
HIGH
� �
PIN NAME
MODEL_OPT_0
OLED
MICOM MODEL OPTION
TBD
8
MODEL_OPT_3
PIN NO.
30
11
1MODEL_OPT_0 1
TOUCH_KEY
0
3D
LCD/OLED
MODEL_OPT_2
LOW
OLED/3D
MODEL_OPT_2
EEPROM for Micom
0
1
MODEL_OPT_1
0
for Debugger
TACT_KEY
MODEL_OPT_1
LOW
PDP/3D
10
PDPLCD
HIGH
MICOM
GP2_Saturn7M Ver. 1.4
1
0
M
h
z
 
C
r
y
s
t
a
l
 
R
e
a
d
y
FOR ATSC Assy
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
+3.5V_ST
R8206
3.3K
OPT
R8280
10K
OPT
Q8202
2SC3052
COMMERCIAL_EU E
B
C
C8209
1000pF
50V
IR_OUT
L8200
BLM18PG121SN1D
+3.5V_ST
LED_B/LG_LOGO
R8212
0
COMMERCIAL_US
R8204
47K
+3.5V_ST
R8213
10K
1%
R8208
22
WIRELESS
C8207
0.1uF
LED_R/BUZZ
C8210
0.1uF
16V
R8224
100
R8209
100
R8218
47K
COMMERCIAL
L8201
BLM18PG121SN1D
P8200
12507WR-12L
1
2
3
4
5
6
7
8
9
10
11
12
13
R8219
47K
WIRELESS
R8216
10K
COMMERCIAL_EU
R8201
0
OPT
R8217
10K
WIRELESS
D8205
5.6V
CDS3C05HDMI1C8206
0.1uF
R8215
47K
WIRELESS
C8212
100pF
50V
IR_PASS
R8225
100
EYEQ
D8201
5.6V
AMOTECH
+3.5V_ST
+3.5V_ST
C8214
1000pF
50V
OPT
L8203
BLM18PG121SN1D
R8210
100
Q8204
2SC3052
COMMERCIAL
E
B
C
R8226
100
EYEQ
KEY2
+3.5V_ST
+3.5V_ST
Q8205
2SC3052
WIRELESS
E
B
C
D8204
5.6V
CDS3C05HDMI1
IR
C8213
1000pF
50V
OPT
R8221
47K
WIRELESS
C8208
0.1uF
16V
R8227 1.5K
TACT_KEY
R8207
22
COMMERCIAL
+3.5V_ST
D8200
5.6V
AMOTECH
R8214
47K
COMMERCIAL_EU
Q8201
2SC3052
E
B
C
R8200
22
Q8203
2SC3052
WIRELESS E
B
C
R8205
47K
R8220
47K
COMMERCIAL
R8202
47K
C8211
1000pF
50V
R8203
10K
D8206
5.6V
AMOTECH
R8276
1.5K
KEY1
+3.5V_ST
R8211
10K
1%
+3.3V_NORMAL
Q8200
2SC3052
E
B
C
L8202
BLM18PG121SN1D
NEC_EEPROM_SCL
NEC_EEPROM_SDA
D
8
2
0
9
5
.
6
V
JK8200
XRJV-01V-D12-180
1
2
3
4
5
6
7
8
D1
D2
D3
D4
9
L8204
CIC21J501NE
D
8
2
1
2
5
.
6
V
D
8
2
1
1
5
.
6
V
D
8
2
0
7
5
.
6
V
EPHY_TDN
D
8
2
0
8
5
.
6
V
EPHY_ACTIVITY
R8281 510
C8216
1000pF
50V
EPHY_LINK
D3.3V
R8282 510
D
8
2
1
0
5
.
6
V
EPHY_RDP
EPHY_RDN
C8217
1000pF
EPHY_TDP
BCM_RXD1
+3.5V_ST
+3.5V_ST
R8223
4.7K
OPT
R8272 0
R8274 0
C8201
0.1uF
C8202
0.1uF
C8204
0.1uF
R8275 0
JK8201
SPG09-DB-009
1
2
3
4
5
6
7
8
9
10
R8222
4.7K
OPT
C8200 0.33uF
R8273 0
IR_OUT
R8277
100
C8205
0.1uF
C8203
0.1uF
NEC_RXD
D8203
30V
CDS3C30GTH
D8202
30V
CDS3C30GTH
IC8200
MAX3232CDR
EAN41348201
3
C1-
2
V+
4
C2+
1
C1+
6
V-
5
C2-
7
DOUT2
8
RIN2
9
ROUT2
10
DIN2
11
DIN1
12
ROUT1
13
RIN1
14
DOUT1
15
GND
16
VCC
R8278
100
R8279
0
OPT
A2.5V
BCM_TXD1
NEC_TXD
R8283
0
R8284
0
R8285
0
R8286
0
C8218
10pF
50V
OPT
C8220
10pF
50V
OPT
C8222
10pF
50V
OPT
C8221
10pF
50V
OPT
R8287
10K
LD650/LD750
Zener Diode is
COMMERCIAL
WIRELESS
close to wafer
IR & KEY
RS232C
Adjacent TX/RX differential pairs should be separated by more than 
15 mils to each other
ETHERNET CONNECT
5 mils trace width with 7 mils air gap on P/N pair.
Trace impedance : 100 ohm differenctial impedance to GND plane
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.06.18
HDMI
BCM (EUROBBTV)
CK-_HDMI3
D2-_HDMI1
R
8
3
3
8
2
2
GND
+5V_NORMAL
C83000.1uF
D
1
-
_
H
D
M
I
4
+5V_NORMAL
H
D
M
I
_
R
X
1
+
D0-_HDMI2
DDC_SDA_1
5V_HPD1
R8326
22K
D
1
+
_
H
D
M
I
2
D2+_HDMI2
5V_HDMI_3
HDMI_HPD_4
R8308
0
+3.3V_HDMI
JP8305
GND
HDMI_HPD_1
GND
DDC_SDA_4
R8325
1.8K
HDMI_CEC
D0+_HDMI3
CEC_REMOTE
DDC_SDA_1
C
8
3
0
5
0
.
1
u
F
DDC_SCL_1
R8348
4.7K
OPT
D2+_HDMI1
R8323
47K
Q8304
KRC104S
E
B
C
D
2
-
_
H
D
M
I
4
R
8
3
4
0
2
2
C8318
0.1uF
16V
R8310
4.7K
H
D
M
I
_
C
L
K
-
+3.3V_NORMAL
R8301
1K
CK+_HDMI1
GND
DDC_SCL_4
D8306
A
1
C
A
2 H
D
M
I
_
C
L
K
+
D
1
-
_
H
D
M
I
2
GND
D
D
C
_
S
D
A
_
4
D8310
A
1
C
A
2
CEC_REMOTE
D1-_HDMI4
R8309
4.7K
HDMI_3 H
D
M
I
_
R
X
1
-
D1-_HDMI1
R8318
0
C
K
+
_
H
D
M
I
4
JK8300
YKF45-7058V
E
A
G
5
9
0
2
3
3
0
2
HDMI_3
14
NC
13
CE_REMOTE
5
D1_GND
20
SHIELD
12
CK-
11
CK_GND
2
D2_GND
19
HP_DET
18
5V
10
CK+
4
D1+
1
D2+
17
GND
9
D0-
8
D0_GND
3
D2-
16
DDC_DATA
7
D0+
6
D1-
15
DDC_CLK
D1+_HDMI1
C
8
3
0
9
0
.
1
u
F
D0+_HDMI2
R8306
0
D
D
C
_
S
C
L
_
4
GND
R8321
4.7K
R8316
1K
Q8307
KRC104S
E
B
C
H
D
M
I
_
H
P
D
_
2
C8322
0.1uF
GND
D
0
+
_
H
D
M
I
2
DDC_SCL_3
R8304
0
HDMI_3
H
D
M
I
_
H
P
D
_
4
D1+_HDMI4
+5V_NORMAL
D0-_HDMI4
+5V_NORMAL
R8313
47K
R
8
3
3
6
0
S
C
L
2
_
3
.
3
V
D8303
5.5V
OPTDDC_SDA_2
DDC_SCL_2
GND
Q8300
KRC104S
HDMI_3
E
B
C
+5V_NORMAL
D8300
5.5V
OPT
D2-_HDMI4
D0+_HDMI1
D
2
-
_
H
D
M
I
2
H
D
M
I
_
S
D
A
HDMI_HPD_3
CK+_HDMI3
DDC_SDA_1
C
K
-
_
H
D
M
I
2
B
S
S
8
3
Q
8
3
0
8
SBD
GDDC_SDA_4
R8324
1.8K
D
1
+
_
H
D
M
I
4
D2+_HDMI1
CK+_HDMI1
R8346 0
OPT
CK+_HDMI4
JK8301
YKF45-7058V
E
A
G
5
9
0
2
3
3
0
2
14
NC
13
CE_REMOTE
5
D1_GND
20
SHIELD
12
CK-
11
CK_GND
2
D2_GND
19
HP_DET
18
5V
10
CK+
4
D1+
1
D2+
17
GND
9
D0-
8
D0_GND
3
D2-
16
DDC_DATA
7
D0+
6
D1-
15
DDC_CLK
JP8303
R8344
12K
5V_HPD4
Q8302
KRC104S
E
B
C
5V_HDMI_2
Q8306
KRC104S
E
B
C
GND
5V_HDMI_4
D8302
5.5V
OPT
GND
C
8
3
0
7
0
.
1
u
F
Q8305
KRC104S
E
B
C
DDC_SDA_3
Q8303
KRC104S
HDMI_3
E
B
C
DDC_SCL_2
5V_HPD2
D0-_HDMI1
H
D
M
I
_
R
X
2
+
CK-_HDMI4
5V_HPD2
D
0
-
_
H
D
M
I
4
+1.8V_HDMI
D1-_HDMI2
C8324
0.1uF
C8321
0.1uF
D8311
5.5V
ESD
D1+_HDMI3
D2+_HDMI4
R8312
47K
R8305
0
R8343
OPT0
JP8304
D0-_HDMI3
Q8301
KRC104S
E
B
C
JP8307
JP8306
D
0
+
_
H
D
M
I
4
+3.3V_HDMI
D8305
5.5V
OPT
H
D
M
I
_
R
X
0
+
C8303
0.1uF
16V
DDC_SCL_1
5V_HDMI_1
5V_HDMI_3
D2+_HDMI3
CK+_HDMI3
C
K
-
_
H
D
M
I
4
5V_HDMI_1
GND
+3.3V_HDMI
R8319
47K
HDMI_3
C8316
0.1uF
16V
R8314
47K
HDMI_HPD_3
DDC_SCL_3
D8309
HDMI_3A
1
C
A
2
5V_HPD4
C8302
0.1uF
16V
5V_HPD3
+3.5V_ST
D0+_HDMI4
H
D
M
I
_
S
C
L
R8347
4.7K
OPT
5V_HDMI_3
JP8302
D2-_HDMI3
C8320
0.1uF
D2-_HDMI1
D1-_HDMI3
R8302
1K
R8303
0
HDMI_3
5V_HDMI_4
D0-_HDMI1
5V_HDMI_2
D1-_HDMI3
R8311
4.7K
R8327
0
D0+_HDMI1
H
D
M
I
_
R
X
0
-
CK+_HDMI2
DDC_SDA_2
D8301
5.5V
OPT
CEC_REMOTE
D
D
C
_
S
D
A
_
2
CK-_HDMI1
D8307
A
1
C
A
2
+5V_NORMAL
C
K
+
_
H
D
M
I
2
D0-_HDMI3
C8304
0.1uF
16V
R8322
47K
HDMI_3
CEC_REMOTE
CEC_REMOTE
C8313
0.1uF
16V
D8312
MMBD301LT1G
R8337
0
GND
R8307
0
HDMI_HPD_1
GND
DDC_SCL_4
D8304
5.5V
OPT
HDMI_HPD_2
GND
S
D
A
2
_
3
.
3
V
DDC_SDA_3
5V_HPD1
GND
R8300
1K
HDMI_3
R8317
0
5V_HDMI_2
5V_HDMI_1
R8315
47K
D2-_HDMI3
D1-_HDMI1
CK-_HDMI2
JK8303
KJA-ET-0-0032 
E
A
G
4
2
4
6
3
0
0
1
14
NC
13
CE_REMOTE
5
D1_GND
20
JACK_GND
GND
12
CK-
11
CK_GND
2
D2_GND
19
HP_DET
18
5V
10
CK+
4
D1+
1
D2+
17
GND
9
D0-
8
D0_GND
3
D2-
16
DDC_DATA
7
D0+
6
D1-
15
DDC_CLK
C8317
0.1uF
16V
D1+_HDMI3
+1.8V_HDMI
GND
D2-_HDMI2
C8306
0.1uF
16V
D1+_HDMI1
C8312
0.1uF
16V
5V_HPD3
R8320
47K
D
2
+
_
H
D
M
I
2
C8301
0.1uF
16V
DDC_SCL_1
D0+_HDMI3
DDC_SDA_3
JP8300
C8323
0.1uF
16V
JK8302
YKF45-7058V
E
A
G
5
9
0
2
3
3
0
2
14
NC
13
CE_REMOTE
5
D1_GND
20
SHIELD
12
CK-
11
CK_GND
2
D2_GND
19
HP_DET
18
5V
10
CK+
4
D1+
1
D2+
17
GND
9
D0-
8
D0_GND
3
D2-
16
DDC_DATA
7
D0+
6
D1-
15
DDC_CLK
L8300
BLM18PG121SN1D
D2+_HDMI3
C8319
0.1uF
D1+_HDMI2
D
0
-
_
H
D
M
I
2
C
8
3
0
8
0
.
1
u
F
DDC_SCL_3
JP8301
CK-_HDMI1
5V_HDMI_4
D
2
+
_
H
D
M
I
4
H
D
M
I
_
R
X
2
-
D
D
C
_
S
C
L
_
2
CK-_HDMI3
R
8
3
3
5
0
O
P
T
R8345
0
OPT
R8328
0
OPT
R
8
3
3
9
0 O
P
T
C8314
0.1uF
16V
C
8
3
1
5
0
.
1
u
F
C
8
3
1
0
0
.
1
u
F
C
8
3
1
1
0
.
1
u
F
IC8300
TDA19997
1VSS_1
2OUT_C+
3OUT_C-
4VDDO[3V3]
5OUT_DDC_CLK
6OUT_DDC_DAT
7VSS_2
8VDDDC[1V8]_1
9RXA_HPD
10RXA_5V
11RXA_DDC_DAT
12RXA_DDC_CLK
13RXA_C-
14RXA_C+
15VDDH[3V3]_1
16RXA_D0-
17RXA_D0+
18VSS_3
19RXA_D1-
20RXA_D1+
21VDDH[3V3]_2
22RXA_D2-
23RXA_D2+
24VDDH[1V8]_1
25AUX_5V
2
6
V
S
S
_
4
2
7
T
E
S
T
1
2
8
R
X
B
_
H
P
D
2
9
R
X
B
_
5
V
3
0
R
X
B
_
D
D
C
_
D
A
T
3
1
R
X
B
_
D
D
C
_
C
L
K
3
2
R
X
B
_
C
-
3
3
R
X
B
_
C
+
3
4
V
D
D
H
[
3
V
3
]
_
3
3
5
R
X
B
_
D
0
-
3
6
R
X
B
_
D
0
+
3
7
V
S
S
_
5
3
8
R
X
B
_
D
1
-
3
9
R
X
B
_
D
1
+
4
0
V
D
D
H
[
3
V
3
]
_
4
4
1
R
X
B
_
D
2
-
4
2
R
X
B
_
D
2
+
4
3
V
S
S
_
6
4
4
C
D
E
C
_
D
D
C
4
5
V
D
D
D
C
[
1
V
8
]
_
2
4
6
V
D
D
D
C
[
1
V
8
]
_
4
4
7
T
E
S
T
2
4
8
P
D
4
9
I
2
C
_
S
D
A
5
0
I
2
C
_
S
C
L
51 RXE_DDC_CLK
52 RXE_DDC_DAT
53 INT_N/MUTE
54 CDEC_STBY
55 VDDS[3V3]
56 VSS_7
57 CEC
58 RXC_HPD
59 RXC_5V
60 RXC_DDC_DAT
61 RXC_DDC_CLK
62 RXC_C-
63 RXC_C+
64 VDDH[3V3]_5
65 RXC_D0-
66 RXC_D0+
67 VSS_8
68 RXC_D1-
69 RXC_D1+
70 VDDH[3V3]_6
71 RXC_D2-
72 RXC_D2+
73 VSS_9
74 R12K
75 VDDH[1V8]_2
7
6
R
X
D
_
H
P
D
7
7
R
X
D
_
5
V
7
8
R
X
D
_
D
D
C
_
D
A
T
7
9
R
X
D
_
D
D
C
_
C
L
K
8
0
R
X
D
_
C
-
8
1
R
X
D
_
C
+
8
2
V
D
D
H
[
3
V
3
]
_
7
8
3
R
X
D
_
D
0
-
8
4
R
X
D
_
D
0
+
8
5
V
S
S
_
1
0
8
6
R
X
D
_
D
1
-
8
7
R
X
D
_
D
1
+
8
8
V
D
D
H
[
3
V
3
]
_
8
8
9
R
X
D
_
D
2
-
9
0
R
X
D
_
D
2
+
9
1
V
D
D
D
C
[
1
V
8
]
_
3
9
2
V
S
S
_
1
1
9
3
O
U
T
_
D
2
+
9
4
O
U
T
_
D
2
-
9
5
V
D
D
O
[
1
V
8
]
9
6
O
U
T
_
D
1
+
9
7
O
U
T
_
D
1
-
9
8
V
S
S
_
1
2
9
9
O
U
T
_
D
0
+
1
0
0
O
U
T
_
D
0
-
D
8
3
1
3
5
.
6
V
C
D
S
3
C
0
5
H
D
M
I
1
E
S
D
D
8
3
1
4
5
.
6
V
C
D
S
3
C
0
5
H
D
M
I
1
E
S
D
GND
R
8
3
2
9
3
3
R
8
3
3
4
3
3
R
8
3
3
2
3
3
R
8
3
3
3
3
3
R
8
3
3
1
3
3
R
8
3
3
0
3
3
D8308
5.5V
ESD
R
8
3
4
9
1
0
0
K
LEE GI YOUNG
8
* HDMI CEC
EDID Pull-up
SIDE_HDMI_PORT4
UI_HW_PORT3
HDMI4
UI_HW_PORT1
HDMI2
Ready for TDA19997
HDMI3
HDMI1
UI_HW_PORT2
Place close 
to TDA9996
F
i
b
e
r
 
O
p
t
i
c
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.06.18EUROBBTV
DSUB_R
JK8401
PEJ027-01
6B T_TERMINAL2
7B B_TERMINAL2
5 T_SPRING
4 R_SPRING
7A B_TERMINAL1
6A T_TERMINAL1
3 E_SPRING
D8407
5.6V
AMOTECH
RGB_DDC_SDA
+3.3V_NORMAL
D8409
ENKMC2838-T112
A1
C
A2
EDID_WP
RGB_HSYNC
C8409
100pF
50V
IC8401
M24C02-RMN6T
RGB_EDID_ST
0IMMR00014A
3E2
2E1
4VSS
1E0
5 SDA
6 SCL
7 WC
8 VCC
R8412
470K
RGB_DDC_SCL
D8406
5.6V
AMOTECH
+5V_NORMAL
RGB_VSYNC
R8418
0
PC_R_IN
IC8400
74F08D
3
Q0
2
D0B
4
D1A
1
D0A
6
Q1
5
D1B
7
GND
8
Q2
9
D2A
10
D2B
11
Q3
12
D3A
13
D3B
14
VCC
JK8402
SPG09-DB-010
1
R
E
D
2
G
R
E
E
N
3
B
L
U
E
4
G
N
D
_
1
5
D
D
C
_
G
N
D
6
R
E
D
_
G
N
D
7
G
R
E
E
N
_
G
N
D
8
B
L
U
E
_
G
N
D
9
N
C
1
0
S
Y
N
C
_
G
N
D
1
1
G
N
D
_
2
1
2
D
D
C
_
D
A
T
A
1
3
H
_
S
Y
N
C
1
4
V
_
S
Y
N
C
1
5
D
D
C
_
C
L
O
C
K
1
6
S
H
I
L
E
D
R8401
22
DSUB_B
PC_L_IN
+5V_NORMAL
R
8
4
1
4
2
.
7
K
R8411
470K
R8419
0
DSUB_G
R8402
22
DSUB_DET
R
8
4
1
3
2
.
7
K
R8423
0
OPT
R8425
1K
R8424
10K
R
8
4
2
1
0R
8
4
1
7
0
C
8
4
0
2
2
2
p
F
5
0
V
OPT
C
8
4
0
3
2
2
p
F
5
0
V
OPTR8405
22
R8406
22
C8401
0.1uF
C
8
4
0
4
0
.
1
u
F
1
6
V
C
8
4
0
5
1
8
p
F
5
0
V
C
8
4
0
6
1
8
p
F
5
0
V
R8416
22
R8415
22
R8422
100
R8420
10K
D
84
0
1
3
0
V
A
D
U
C
3
0
S
0
3
0
1
0
L
_
A
M
O
D
I
O
D
E
 
D
8
4
0
3
3
0
V
A
D
U
C
3
0
S
0
3
0
1
0
L
_
A
M
O
D
I
O
D
E
 
D8402
30V
D8404
30V
D8405
30V
D8408
5.6V
CDS3C05HDMI1
OPT
D8410
5.6V
CDS3C05HDMI1
OPT
D8411
5.6V
ADMC5M03200L_AMODIODE
OPT
R8407
75
R8404
75
R8403
75
C8407
1uF
25V
C8408
1uF
25V
JP8401
+3.3V_NORMAL
JP8402
JK8400
JST1223-001
1
GND
2
VCC
3
VINPUT
4
FIX_POLE
JP8400
D8400
30V
OPT
SPDIF_OUT
C8400
0.1uF
16V
R8400
1K
IC8401-*1
R1EX24002ASAS0A
RGB_EDID_RENESAS
DEV
3
A2
2
A1
4
VSS
1
A0
5
SDA
6
SCL
7
WP
8
VCC
L8408 60-ohm
RGB_BEAD
L8410 60-ohm
RGB_BEAD
L8409 60-ohm
RGB_BEAD
L8408-*1
0
RGB_0OHM
L8409-*1
0
RGB_0OHM
L8410-*1
0
RGB_0OHM
9ETC SUB BOARD I/F
RGB AUDIO IN
RGB PC
RGB IN
BCM Reference
BCM Reference
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
SIDE_GENDER
SIDE_AV_DET
SIDE_AV_R_IN
SIDE_AV_CVBS
SIDE_AV_L_IN
SIDE_COMP_Pb
SIDE_COMP_Y
SIDE_COMP_Pr
SIDE_COMP_DET
L8602
270nH
C8610
27pF
50V
L8601
270nH
C8602
27pF
50V
C8609
27pF
50V
C8603
27pF
50V
C8605
47pF
50V
0
R8603
D8601
5.6V
R8605
10K
+3.3V_NORMAL
C8600
100pF
50V
R8608
1K
C8611
100pF
50V
R8601
470K
D8602
5.6V
R8606
0
C8607
1uF
25V
R8607
0
R8602
470K
C8606
1uF
25V
D8603
5.6V
C8612
100pF
50V
C8608
27pF
50V
C8601
27pF
50V
L8600
270nH
R8604
1K
+3.3V_NORMAL
C8604
100pF
50V
D8606
5.6V
R8600
10K
D8607
5.5V
D8605
5.5V
SIDE_COMP_INCM
C8613 0.1uF
R
8
6
0
9
3
6
JK8601
KJA-PH-1-0177
3 M3_DETECT
4 M4
5 M5_GND
1 M1
6 M6
JK8600
KJA-PH-1-0177
3 M3_DETECT
4 M4
5 M5_GND
1 M1
6 M6
D8609
5.1V
D8608
5.1V
D8610
5.1V
D8611
5.1V
11
(New Item Developmen)
(New Item Developmen)
SIDE CVBS PHONE JACK
SIDE COMPONENT PHONE JACK
ALL for SIDE_GENDER option
Run Along SIDE_COMP_Y_IN,SIDE_COMP_Pr_IN,SIDE_COMP_Pb_IN Trace
Near J
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
WIRELESS
BCM_RXD1
R8705
2.2K
C8702
0.01uF
50V
+3.5V_ST
JK8700
KJA-PH-3-0168
14
GND_3
13
I2C_SDA
5
VCC[24V/20V/17V]_5
12
I2C_SCL
11
GND_2
2
VCC[24V/20V/17V]_2
19
GND_5
18
IR
10
RESET
4
VCC[24V/20V/17V]_4
1
VCC[24V/20V/17V]_1
17
GND_4
9
GND_1
8
INTERRUPT
3
VCC[24V/20V/17V]_3
16
UART_TX
7
DETECT
6
VCC[24V/20V/17V]_6
15
UART_RX
20
GND_6
21
SHIELD
TP8700
+24V
R8700
0
NON_3DTV
C8701
2.2uF
R
8
7
1
1
4
.
7
K
O
P
T
C8703
0.1uF
R8713 1K
IC8700
MC14053BDR2G
WIRELESS
3
Z1
2
Y0
4
Z
1
Y1
6
INH
5
Z0
7
VEE
8
VSS
9
C
10
B
11
A
12
X0
13
X1
14
X
15
Y
16
VDD
R8704
22K
R
8
7
1
2
4
7
K
O
P
T
R8706
0 NON_WIRELESS
R8708 0
NON_3DTV
C8700
0.1uF
50V
WIRELESS_TX
WIRELESS_SCL
R8714
10K
TP8701
R8707
0
WIRELESS
WIRELESS_DL_RX
+3.3V_NORMAL
+3.5V_ST
IR_PASS
R8701 0
WIRELESS
WIRELESS_DETECT
R8702
10K
WIRELESS_RX
R8703 0
NON_WIRELESS
WIRELESS_PWR_EN
Q8700
E
B
C
WIRELESS_SW_CTRL
BCM_RX
BCM_TX
Q8701
AO3407A
G
D
S
WIRELESS_RX
WIRELESS_TX
BCM_TXD1
WIRELESS_DL_TX
WIRELESS_SDA
C8704
10uF
35V
C8705
10uF
35V
L8700
MLB-201209-0120P-N2
RS232C & Wireless
LOW
WIRELESS_SW_CTRL
Wireless power
WIRELESS Dongle connect --> WIRELESS RS232HIGH
SELECT PIN
WIRELESS Dongle Dis_con --> S7 RS232X0/Y0/Z0
X1/Y1/Z1
WIRELESS READY MODEL
STATUS
12
THERMAL
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.06.18
NTP7000
BCM (EUROBBTV)
+1.8V_AMP
0.1uF
C8820
50V
IC8800
AP1117E18G-13 
2
OUT
3IN 1 ADJ/GND
C8810
1000pF
50V
C8840
0.47uF
50V
R8803 100
C8808
1000pF
50V
R8822
4.7K
+1.8V_AMP
C8800
0.1uF
16V
+1.8V_AMP
Q8800
2SC3052
E
B
C
R8819
12
R8821
4.7K
R8809
3.3
EMI
C8826
10uF
35V
R8811
10K
R8814
12
C8802
10uF
10V
C8837
390pF
50V
L8801
B
L
M
1
8
P
G
1
2
1
S
N
1
D
C8806
100pF
50V
0.1uF
C8824
50V
AUD_LRCK
C8805
10uF
10V
OPT
AUD_LRCH
C8830
22000pF
50V
R8815
12
SCL1_3.3V
0.1uF
C8818
16V
D8802
100V
1N4148W
OPT
R8826
0
AUD_SCK
C8825
1uF
25V
0.1uF
C8807
16V
AMP_MUTE
C8832
0.01uF
50V
EMI
SPK_L+
0.1uF
C8842
50V
AMP_RESET_N
0.1uF
C8831
50V
SPK_L-
R8818
12
D8801
100V
1N4148W
OPT
C8809
33pF
50V
SPK_R+
R8806
3.3K
C8803
0.1uF
16V
+3.3V_NORMAL
SPK_R-
C8823
22000pF
50V
R8812
12
+1.8V_AMP
SPK_L+
C8829
22000pF
50V
C8812
33pF
50V
P8800
WAFER-ANGLE
1
2
3
4
AUD_MASTER_CLK
C8839
0.47uF
50V
R
8
8
0
0
1
R8827
0
L8802
B
L
M
1
8
P
G
1
2
1
S
N
1
D
+24V_AMP
SPK_R+
+3.5V_ST
C8838
390pF
50V R8823
4.7K
L8800
B
L
M
1
8
P
G
1
2
1
S
N
1
D
R8805 100
D8803
100V
1N4148W
OPT
C8815
10uF
10V
OPT
0.1uF
C8843
50V
0.1uF
C8844
50V
+3.3V_NORMAL
R8808 100
R8801 100
POWER_DET
R8813
12
R8816
12
C8801
10uF
10V
OPT
0.1uF
C8833
50V
R8817
12
C8835
390pF
50V
R8807
0
OPT
0.1uF
C8841
50V
R8824
0
R8802 100
SDA1_3.3V
R8804 100
C8804
0.1uF
16V
D8800
100V
1N4148W
OPT
R8810
10K
C8821
1000pF
50V
C8828
1uF25V
C8834
10uF
35V
0.1uF
C8811
C8816
1uF 25V
+24V_AMP
C8822
1uF
25V
R8820
4.7K
C8819
22000pF
50V
SPK_R-
R8825
0
SPK_L-
C8836
390pF
50V
IC8801
NTP-7000
EAN60969601
1BST1A
2VDR1A
3/RESET
4AD
5DGND_1
6GND_IO
7CLK_I
8VDD_IO
9DGND_PLL
10AGND_PLL
11LF
12AVDD_PLL
13DVDD_PLL
14GND
1
5
D
G
N
D
_
2
1
6
D
V
D
D
1
7
S
D
A
T
A
1
8
W
C
K
1
9
B
C
K
2
0
S
D
A
2
1
S
C
L
2
2
M
O
N
I
T
O
R
0
2
3
M
O
N
I
T
O
R
1
2
4
M
O
N
I
T
O
R
2
2
5
/
F
A
U
L
T
2
6
V
D
R
2
B
2
7
B
S
T
2
B
2
8
P
G
N
D
2
B
_
1
29 PGND2B_2
30 OUT2B_1
31 OUT2B_2
32 PVDD2B_1
33 PVDD2B_2
34 PVDD2A_1
35 PVDD2A_2
36 OUT2A_1
37 OUT2A_2
38 PGND2A_1
39 PGND2A_2
40 BST2A
41 VDR2A
42 NC
4
3
V
D
R
1
B
4
4
B
S
T
1
B
4
5
P
G
N
D
1
B
_
1
4
6
P
G
N
D
1
B
_
2
4
7
O
U
T
1
B
_
1
4
8
O
U
T
1
B
_
2
4
9
P
V
D
D
1
B
_
1
5
0
P
V
D
D
1
B
_
2
5
1
P
V
D
D
1
A
_
1
5
2
P
V
D
D
1
A
_
2
5
3
O
U
T
1
A
_
1
5
4
O
U
T
1
A
_
2
5
5
P
G
N
D
1
A
_
1
5
6
P
G
N
D
1
A
_
2
57
E
P
_
P
A
D
+24V
L8803
MLB-201209-0120P-N2
+24V_AMP
0.1uF
C8827
50V
L8805
AD-9060
15uH
2S
1S 1F
2F
L8804
AD-9060
15uH
2S
1S 1F
2F
C8813
47pF
50V
EMI
C8814
47pF
50V
EMI
C8817
47pF
50V
EMI
AMP_MUTE1
AMP_MUTE1
38
KIM JONG HYUN
120 mA
SPEAKER_L
SPEAKER_R
Vd=1.4V
CCFL = 20V
Edge_LED 32~47 Inch = 20V
55 Inch & IOP Module = 24V
For 3 AMP MODEL
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.09.11
URSA3 DDR & Power
COMMON
89
DDR3_A[9]
DDR3_DQU[4]
DDR3_DQL[4]
DDR3_DQU[6]
DDR3_A[0]
DDR3_DQL[2]
DDR3_A[8]
DDR3_DQU[1]
DDR3_A[2]
DDR3_DQL[6]
DDR3_A[1]
DDR3_DQU[2]
DDR3_A[6]
DDR3_DQL[0]
DDR3_A[10]
DDR3_A[11]
DDR3_DQU[5]
DDR3_A[5]
DDR3_DQL[3]
DDR3_DQL[1]
DDR3_DQL[5]
DDR3_A[7]
DDR3_DQU[7]
DDR3_DQL[7]
DDR3_A[3]
DDR3_DQU[3]
DDR3_DQU[0]
DDR3_A[4]
DDR3_A[12]
DDR3_DQSUB
D1.5V_DDR3
FRC_A[12]
DDR3_DQU[0]
DDR3_DML
D1.5V_DDR3
DDR3_WEB
DDR3_DQU[1]
DDR3_A[3]
DDR3_DQL[4]
DDR3_A[1]
DDR3_A[0]
R
8
9
2
2
1
5
0
O
P
T
DDR3_A[2]
DDR3_CASB
DDR3_A[9]
DDR3_A[10]
DDR3_RASB
DDR3_A[4]
DDR3_DQU[6]
DDR3_DMU
DDR3_RESETB
FRC_A[0]
C
8
9
2
4
0
.
1
u
F
DDR3_ODT
DDR3_A[12]
MVREFCA
DDR3_DQU[5]
FRC_BA2
DDR3_DQL[3]
FRC_DQU[3]
DDR3_DQU[4]
DDR3_DQSL
C
8
9
1
3
0
.
1
u
F
C
8
9
2
9
0
.
1
u
F
DDR3_A[7]
FRC_DQSLBD1.5V_DDR3
C
8
9
1
0 1
0
0
0
p
F
OPT
FRC_DQU[1]
DDR3_MCLK
DDR3_A[11]
DDR3_DQU[3]
FRC_DQU[5]
DDR3_DMU
FRC_DQSL
MVREFDQ
FRC_RASB
C
8
9
2
2
0
.
1
u
F
MVREFCA
DDR3_DQL[6]
FRC_DQL[2]
DDR3_WEB
FRC_WEB
FRC_DQU[7]
R
8
9
0
4
1
K
1
%
R
8
9
2
0
1
K
1
%
FRC_A[6]
DDR3_DQL[7]
FRC_DQSU
FRC_DML
C
8
9
3
0
0
.
1
u
F
DDR3_DQSU
DDR3_BA1
DDR3_DML
C8902
10uF
10V
FRC_DQL[7]
DDR3_BA0
DDR3_DQL[0]
DDR3_DQU[7]
DDR3_A[8]
C
8
9
1
5
0
.
1
u
F
DDR3_A[0-12]
DDR3_DQSLB
FRC_DQL[1]
FRC_DQL[3]
D1.5V_DDR3
DDR3_BA0
FRC_DQU[6]
C
8
9
2
8
0
.
1
u
F
FRC_ODT
DDR3_ODT
C
8
9
1
7
0
.
1
u
F
DDR3_DQU[0-7]
R8921
240
1%
DDR3_DQL[2]
DDR3_MCLKB
FRC_DQU[2]
FRC_CASB
FRC_CKE
FRC_MCLKB
FRC_DQU[4]
FRC_DQL[4]
C
8
9
0
9
0
.
1
u
F
MVREFDQ
FRC_DDR3_RESETB
FRC_DQSUB
C
8
9
2
1
0
.
1
u
F
DDR3_DQL[5]
FRC_A[4]
DDR3_MCLK
DDR3_DQL[1]
FRC_DQL[5]
FRC_DQL[6]
FRC_A[2]
FRC_BA1
C
8
9
1
9
0
.
1
u
F
FRC_BA0
C
8
9
2
7
0
.
1
u
F
DDR3_MCLKB
DDR3_BA2
C
8
9
2
5
0
.
1
u
F
R
8
9
1
9
1
K
1
%
C
8
9
1
8
0
.
1
u
F
DDR3_A[6]
L8900
C
8
9
0
8
1
0
u
F
DDR3_DQSL
DDR3_DQSU
FRC_A[11]
C
8
9
0
1
0
.
1
u
F
FRC_A[5]
FRC_A[10]
C
8
9
1
6
0
.
1
u
F
FRC_DQU[0]
D1.5V_DDR3
DDR3_DQL[0-7]
DDR3_DQU[2]
DDR3_A[5]
DDR3_DQSLB
FRC_A[8]
C
8
9
0
3 1
0
0
0
p
F
OPT
FRC_MCLK
DDR3_CKE
DDR3_RESETB
FRC_A[9]
DDR3_CASB
R
8
9
0
0
1
K
1
%
C
8
9
1
4
0
.
1
u
F
D1.5V_DDR3
FRC_DMU
DDR3_BA2
FRC_A[3]
C8904
0.1uF
16V
+1.5V_MEMC
R8923
10K
FRC_A[1]
DDR3_DQSUB
FRC_A[7]
C
8
9
2
0
0
.
1
u
F
C
8
9
2
6
0
.
1
u
F
DDR3_CKE
DDR3_BA1
C
8
9
2
3
0
.
1
u
F
FRC_DQL[0]
DDR3_RASB
+1.5V_MEMC+3.3V_MEMC
C8934
10uF
25V
C8937
2200pF
+3.3V_MEMC+12V
R8928
10K
C8944
0.1uF
16V
R
8
9
3
5
1
0
K
1
%
C8942
22uF
10V
C8940
100pF
50V
OPT
L8905
3.6uH
NR8040T3R6N
C8932
10uF
25V
POWER_ON/OFF2_2
POWER_ON/OFF2_1
+1.26V_MEMC
AR8903
10
AR8900
10
AR8902
10
AR8901
10
AR8904
10
AR8905
10
AR8908
10
AR8907
10
AR8906
10
R8912
10
R8910
10
R8909
10
R8913
10
R8911
10
R8914
10
R8918
10
R8916
10
R8917
10
R8915
10
R
8
9
3
3
2
7
K
1
%
R
8
9
3
4
4
.
7
K
1
%
L8902
CIC21J501NE
R8925
9.1K
R8929
56
1%
L
8
9
0
3
C
I
C
2
1
J
5
0
1
N
E IC8901
AP1117EG-13 
ADJ/GND
OUTIN
R8926
10K
L8904
3.6uH
NR8040T3R6N
C8933
10uF
25V
C8939
100pF
50V
OPT
C8943
0.1uF
16VC8931
10uF
25V
C8941
22uF
10V
+12V
R
8
9
3
2
1
2
K
1
%
L
8
9
0
1
R
8
9
3
1
3
.
9
K
1
%
R8924
6.2K
C8936
3300pF
H5TQ1G63BFR-12C
IC8900
A0
N3
A1
P7
A2
P3
A3
N2
A4
P8
A5
P2
A6
R8
A7
R2
A8
T8
A9
R3
A10/AP
L7
A11
R7
A12/BC
N7
A13
T3
A15
M7
BA0
M2
BA1
N8
BA2
M3
CK
J7
CK
K7
CKE
K9
CS
L2
ODT
K1
RAS
J3
CAS
K3
WE
L3
RESET
T2
DQSL
F3
DQSL
G3
DQSU
C7
DQSU
B7
DML
E7
DMU
D3
DQL0
E3
DQL1
F7
DQL2
F2
DQL3
F8
DQL4
H3
DQL5
H8
DQL6
G2
DQL7
H7
DQU0
D7
DQU1
C3
DQU2
C8
DQU3
C2
DQU4
A7
DQU5
A2
DQU6
B8
DQU7
A3
VREFCA
M8
VREFDQ
H1
ZQ
L8
VDD_1
B2
VDD_2
D9
VDD_3
G7
VDD_4
K2
VDD_5
K8
VDD_6
N1
VDD_7
N9
VDD_8
R1
VDD_9
R9
VDDQ_1
A1
VDDQ_2
A8
VDDQ_3
C1
VDDQ_4
C9
VDDQ_5
D2
VDDQ_6
E9
VDDQ_7
F1
VDDQ_8
H2
VDDQ_9
H9
NC_1
J1
NC_2
J9
NC_3
L1
NC_4
L9
NC_6
T7
VSS_1
A9
VSS_2
B3
VSS_3
E1
VSS_4
G8
VSS_5
J2
VSS_6
J8
VSS_7
M1
VSS_8
M9
VSS_9
P1
VSS_10
P9
VSS_11
T1
VSS_12
T9
VSSQ_1
B1
VSSQ_2
B9
VSSQ_3
D1
VSSQ_4
D8
VSSQ_5
E2
VSSQ_6
E8
VSSQ_7
F9
VSSQ_8
G1
VSSQ_9
G9
IC8903
AOZ1072AI
3
AGND
2
VIN
4
FB
1
PGND
5
COMP
6
EN
7
LX_1
8
LX_2
IC8902
AOZ1072AI
3
AGND
2
VIN
4
FB
1
PGND
5
COMP
6
EN
7
LX_1
8
LX_2
C8935
10uF
16V
R
8
9
2
7
2
7
0
1
%
R
8
9
3
0
3
.
3
K
1
%
C8946
0.1uF
16V
R
8
9
3
6
1
10uF
C8938
DDR3 1.5V By CAP - Place these Caps near Memory
Close to DDR Power Pin
2A
R1
R2
+3.3V_MEMC
Vout=0.8*(1+R1/R2)
URSA3 CORE 1.26V
1074 mA
URSA3 DDR3 1.5V
R2
R1
2A
Vout=0.8*(1+R1/R2)
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.09.11
URSA3 (NO L.D.)
COMMON
90
FRC_DQL[3]
FRC_A[7]
FRC_DQU[1]
FRC_A[10]
FRC_A[8]
FRC_A[9]
FRC_A[11]
FRC_DQL[2]
FRC_DQL[0]
FRC_DQL[4]
FRC_DQL[6]
FRC_DQU[3]
FRC_DQL[1]
FRC_DQL[5]
FRC_DQU[0]
FRC_DQU[2]
FRC_DQU[5]
FRC_A[0]
FRC_DQU[4]
FRC_A[1]
FRC_A[2]
FRC_A[3]
FRC_A[12]
FRC_DQU[6]
FRC_A[6]
FRC_A[4]
FRC_DQL[7]
FRC_DQU[7]
FRC_A[5]
FRC_DQSL
+1.26V_MEMC
L
V
D
S
_
T
X
_
1
_
D
A
T
A
1
_
N
RXD1-
C9033
0.1uF
L
V
D
S
_
T
X
_
0
_
C
L
K
_
P
FRC_WEB
FRC_CONF0
L
V
D
S
_
T
X
_
1
_
D
A
T
A
2
_
N
RXD4-
AVDD_DDR
L
V
D
S
_
T
X
_
0
_
D
A
T
A
2
_
P
R
9
0
4
4
1
K
O
P
T
L9001
CIC21J501NE
AVDD_LVDS
RXA1+
L
V
D
S
_
T
X
_
0
_
D
A
T
A
0
_
P
FRC_CONF0
F
R
C
_
S
P
I
_
D
I
C9004
10uF
L9000
CIC21J501NE
FRC_BA2
C9018
0.1uF
RXB3-
L9006
CIC21J501NE
FRC_CASB
L
V
D
S
_
T
X
_
1
_
D
A
T
A
4
_
N
FRC_MCLK
C9015
0.1uF
L
V
D
S
_
T
X
_
1
_
D
A
T
A
0
_
N
RXB2+
L
V
D
S
_
T
X
_
0
_
D
A
T
A
1
_
N
FRC_SPI_CZ
R9006 10
R9024
100
FRC_SPI_CK
RXCCK+
L
V
D
S
_
T
X
_
0
_
C
L
K
_
N
RXD2-
AVDD
C9011
0.1uF
R
9
0
4
5
1
K
C9008
10uF
C9009
0.1uF
FRC_PWM1
FRC_DQSLB
RXA0+
C9013
0.1uF
FRC_A[0-12]
+3.3V_MEMC
RXB1-
L
V
D
S
_
T
X
_
1
_
D
A
T
A
3
_
N
R9029
1M
R9011 100
RXA1-
G
V
D
D
_
E
V
E
N
C9029
0.1uF
RXA2+
RXB2-
AVDD_DDR
RXB3+
RXBCK+
R9021
100
FRC_BA1
RXA3-
R9025
100
R
9
0
3
2
1
0
0
G
V
D
D
_
O
D
D
R9020
100
C9016
0.1uF
F
R
C
_
C
O
N
F
0
FRC_RASB
C9025
10uF
RXD4+
RXB0-
R9019
100
RXA0-
AVDD_LVDS
L
V
D
S
_
T
X
_
1
_
D
A
T
A
1
_
P
FRC_DQU[0-7]
R9037 0
MINI_LVDS
FRC_PWM0
RXC4+
FRC_CKE
FRC_DQSUB
AVDD
R
9
0
5
1
1
K
O
P
T
C9027
0.1uF
FRC_SPI_DO
R9038 100
LD_SCAN
FRC_PWM0
RXA4-
R9014 100
RXA4+
RXBCK-
+3.3V_MEMC
F
R
C
_
S
P
I
_
C
Z
+3.3V_MEMC
AVDD_PLL
L
V
D
S
_
T
X
_
1
_
C
L
K
_
N
FRC_MCLKB
C9024
10uF
L
V
D
S
_
T
X
_
1
_
C
L
K
_
P
RXDCK+
RXDCK-
C9010
0.1uF
C9035
0.1uF
L
V
D
S
_
T
X
_
0
_
D
A
T
A
4
_
N
FRC_CONF1
C9017
0.1uF
C9030
0.1uF
R9027
100
RXA3+
R9039 100
LD_SCAN
L
V
D
S
_
T
X
_
1
_
D
A
T
A
2
_
P
RXD3+
C9006
10uF
FRC_DQSU
FRC_BA0
R
9
0
4
9
1
K
O
P
T
F
R
C
_
C
O
N
F
1
RXC3-
C9014
0.1uF
RXCCK-
FRC_PWM0
R9016 100
FRC_DML
FRC_PWM1
R
9
0
3
0
0
U
R
S
A
3
L
V
D
S
_
T
X
_
1
_
D
A
T
A
0
_
P
RXB0+
RXD0-
RXC1-
L
V
D
S
_
T
X
_
0
_
D
A
T
A
4
_
P
L
V
D
S
_
T
X
_
0
_
D
A
T
A
2
_
N
C9021
0.1uF
+1.5V_MEMC
R9018
100
AVDD_PLL
R9015 100
GCLK4
C9034
0.1uF
R
9
0
4
7
1
K
O
P
T
R9022
100
L
V
D
S
_
T
X
_
0
_
D
A
T
A
3
_
P
F
R
C
_
S
P
I
_
D
O
RXD3-
R9017
100
RXC2-
RXB1+
R9040
0
C9031
0.1uF
C9026
0.1uF
RXC0+
C9005
0.1uF
R9026
100
+3.3V_MEMC
FRC_DDR3_RESETB
GCLK2
VDDP
C9012
0.1uF
VDDC
L
V
D
S
_
T
X
_
0
_
D
A
T
A
0
_
N
RXC1+
R9005 10
R9041
820
RXD1+
RXA2-
RXACK+
AVDD_MEMPLL
L
V
D
S
_
T
X
_
0
_
D
A
T
A
1
_
P
L
V
D
S
_
T
X
_
1
_
D
A
T
A
4
_
P
RXB4-
C9007
10uF
F
R
C
_
R
E
S
E
T
FRC_DMU
SCAN_BLK2
AVDD_MEMPLL
FRC_SPI_DI
R
9
0
4
8
1
K
F
R
C
_
S
P
I
_
C
K
R9028
100
RXD2+
L9002
CIC21J501NE
R9012 100
H
_
C
O
N
V
C
9
0
2
8
0
.
1
u
F
FRC_PWM1
RXC3+
+3.3V_MEMC
RXC2+
FRC_DQL[0-7]
R9000 10
C9032
0.1uF
VDDC
RXACK-
R9023
100
L
V
D
S
_
T
X
_
1
_
D
A
T
A
3
_
P
RXC4-
C9000
10uF
VDDP
L9005
CIC21J501NE
R9013 100
R9002 10K
DPM_A
L9003
CIC21J501NE
R9001 10
C9023
0.1uF
RXB4+
C9022
0.1uF
L
V
D
S
_
T
X
_
0
_
D
A
T
A
3
_
N
R
9
0
5
0
1
K
+3.3V_MEMC
FRC_ODT
SCAN_BLK1/OPC_OUT
L9004
CIC21J501NE
RXD0+
RXC0-
R
9
0
3
1
1
0
0
+3.3V_MEMC
R
9
0
4
6
1
K
V_SYNC
R9043 0
OPT
SDA1_3.3V
SCL1_3.3V
URSA3_SDA
URSA3_SCL
URSA3_SCL
URSA3_SDA
URSA3_SDA
URSA3_SCL
X9000
12MHz
P9000
12505WS-04A00
1
2
3
4
5
L9007
CIC21J501NE
C9036
10uF
C9037
0.1uF
VDDC
+3.3V_MEMC
SW9000
JTP-1127WEM
1 2
43
R900322
R900422
+3.3V_MEMC
R900722
R900822
SDA3_3.3V
SCL3_3.3V
C9020
10uF
C9003
10uF
C9019
10uF
C9001
10uF
C9002
10uF
R
9
0
3
4
4
.
7
K
U
R
S
A
3
_
N
O
N
_
M
I
R
R
O
R
R
9
0
3
3
4
.
7
K
U
R
S
A
3_
M
I
R
R
O
R
R
9
0
3
5
4
.
7
K
U
R
S
A
3
_
M
I
N
I
_
L
V
D
S
R
9
0
3
6
4
.
7
K
U
R
S
A
3
_
L
V
D
S
R901022
OPT
R900922
OPT
IC9000
MX25L4005CM2I-12G
URSA3_FLASH_MACRONIX
EAN61009401
3WP#
2SO
4GND
1CS#
5 SI
6 SCLK
7 HOLD#
8 VCC
IC9000-*2
W25X40VSSIG
URSA3_FLASH_WINBOND_OLD
EAN35097301
3
WP
2
DO
4
GND
1
CS
5
DIO
6
CLK
7
HOLD
8
VCC
C9038
22pF
C9039
22pF
IC9000-*1
W25X40BVSSIG
URSA3_FLASH_WINBOND_NEW
3
WP
2
DO[IO1]
4
GND
1
CS
5
DI[IO0]
6
CLK
7
HOLD
8
VCC
R
9
0
5
2
4
.
7
K
U
R
S
A
3
_
N
O
N
_
G
I
P
R
9
0
5
3
4
.
7
K
U
R
S
A
3
_
G
I
P
R
9
0
5
5
4
.
7
K
U
R
S
A
3
_
S
C
A
N
N
I
N
G
_
O
F
F
R
9
0
5
7
4
.
7
K
U
R
S
A
3
_
L
O
C
A
L
_
D
I
M
M
I
N
G
R
9
0
5
4
4
.
7
K
U
R
S
A
3
_
S
C
A
N
N
I
N
G
_
O
N
R
9
0
5
6
4
.
7
K
U
R
S
A
3
_
N
O
N
_
L
O
C
A
L
_
D
I
M
M
I
N
G
R
9
0
4
2
1
0
0
LGE7378A[FRC_TCON_URSA3]
IC9001
URSA3
DDR3_A0/DDR2_NC
E2
DDR3_A1/DDR2_A6
U6
DDR3_A2/DDR2_A7
E3
DDR3_A3/DDR2_A1
G2
DDR3_A4/DDR2_CASZ
R4
DDR3_A5/DDR2_A10
G1
DDR3_A6/DDR2_A0
U5
DDR3_A7/DDR2_A5
F3
DDR3_A8/DDR2_A2
T5
DDR3_A9/DDR2_A9
F1
DDR3_A10/DDR2_A11
R6
DDR3_A11/DDR2_A4
R5
DDR3_A12/DDR2_A8
T6
DDR3_BA0/DDR2_BA2
G3
DDR3_BA1/DDR2_ODT
U4
DDR3_BA2/DDR2_A12
E1
DDR3_MCLK/DDR2_MCLK
U1
DDR3_MCLKZ/DDR2_MCLKZ
U2
DDR3_CKE/DDR2_RASZ
T4
DDR3_ODT/DDR2_BA1
H2
DDR3_RASZ/DDR2_WEZ
J1
DDR3_CASZ/DDR2_CKE
H3
DDR3_WEZ/DDR2_BA0
H1
DDR3_RESET/DDR2_A3
F2
DDR2_DQS0/DDR3_DQS0
M3
DDR2_DQS1/DDR3_DQS1
N2
DDR2_DQSB0/DDR3_DQSB0
N1
DDR2_DQSB1/DDR3_DQSB1
N3
DDR2_DQ7/DDR3_DQM0
R2
DDR2_DQ11/DDR3_DQM1
K3
DDR2_DQ6/DDR3_DQ0
K2
DDR2_DQ0/DDR3_DQ1
R3
DDR2_DQ1/DDR3_DQ2
K1
DDR2_DQ2/DDR3_DQ3
T1
DDR2_DQ4/DDR3_DQ4
J2
DDR2_NC/DDR3_DQ5
T3
DDR2_DQ3/DDR3_DQ6
J3
DDR2_DQ5/DDR3_DQ7
T2
DDR2_DQ8/DDR3_DQ8
P2
DDR2_DQ14/DDR3_DQ9
L3
DDR2_DQ13/DDR3_DQ10
R1
DDR2_DQ12/DDR3_DQ11
L1
DDR2_DQ15/DDR3_DQ12
P1
DDR2_DQ9/DDR3_DQ13
L2
DDR2_DQ10/DDR3_DQ14
P3
DDR2_DQM1/DDR3_DQ15
M1
DDR2_DQM0/DDR3_NC
M2
I2CM_SDA
C9
I2CM_SCL
D9
I2CM_SDA2_L
P7
I2CM_SCL2_L
N8
I2CM_SDA2_R
P9
I2CM_SCL2_R
N10
A
V
D
D
_
1
F
8
A
V
D
D
_
2
F
9
A
V
D
D
_
D
D
R
_
1
L
5
A
V
D
D
_
D
D
R
_
2
L
6
A
V
D
D
_
D
D
R
_
3
L
7
A
V
D
D
_
D
D
R
_
4
L
8
A
V
D
D
_
D
D
R
_
5
M
7
A
V
D
D
_
D
D
R
_
6
M
8
A
V
D
D
_
L
V
D
S
_
1
G
1
2
A
V
D
D
_
L
V
D
S
_
2
H
1
2
A
V
D
D
_
L
V
D
S
_
3
J
1
2
A
V
D
D
_
L
V
D
S
_
4
K
1
2
A
V
D
D
_
M
E
M
P
L
L
M
6
A
V
D
D
_
P
L
L
_
1
F
1
1
A
V
D
D
_
P
L
L
_
2
F
1
2
D
V
D
D
_
D
D
R
[
1
.
2
6
V
]
J
5
V
D
D
_
E
V
E
N
E
1
6
V
D
D
_
O
D
D
E
1
7
V
D
D
C
_
1
F
6
V
D
D
C
_
2
F
7
V
D
D
C
_
3
G
5
V
D
D
C
_
4
G
6
V
D
D
C
_
5
G
7
V
D
D
C
_
6
H
5
V
D
D
C
_
7
H
6
V
D
D
C
_
8
J
6
V
D
D
P
_
1
G
1
1
V
D
D
P
_
2
K
5
V
D
D
P
_
3
K
6
V
D
D
P
_
4
M
1
0
V
D
D
P
_
5
M
1
1
V
S
S
_
1
C
1
0
V
S
S
_
2
C
1
2
V
S
S
_
3
G
8
V
S
S
_
4
G
9
V
S
S
_
5
G
1
0
V
S
S
_
6
H
7
V
S
S
_
7
H
8
V
S
S
_
8
H
9
V
S
S
_
9
H
1
0
V
S
S
_
1
0
H
1
1
V
S
S
_
1
1
J
4
V
S
S
_
1
2
J
7
V
S
S
_
1
3
J
8
V
S
S
_
1
4
J
9
V
S
S
_
1
5
J
1
0
V
S
S
_
1
6
J
1
1
V
S
S
_
1
7
K
7
V
S
S
_
1
8
K
8
V
S
S
_
1
9
K
9
V
S
S
_
2
0
K
1
0
V
S
S
_
2
1
K
1
1
V
S
S
_
2
2
L
9
V
S
S
_
2
3
L
1
0
V
S
S
_
2
4
L
1
1
V
S
S
_
2
5
M
9
V
S
S
_
2
6
N
4
V
S
S
_
2
7
P
6
A
1
0
A
1
0
A
1
1
A
1
1
A
1
2
A
1
2
B
1
0
B
1
0
B
1
1
B
1
1
B
1
2
B
1
2
C
1
1
C
1
1
D
1
1
D
1
1
T
E
S
T
P
I
N
L
1
3
V
B
1
_
T
E
S
T
F
1
0
A0P/RV0+
B14
A0M/RV0-
A14
A1P/RV1+
C14
A1M/RLV1-
C15
A2P/RV2+
A15
A2M/RV2-
B15
ACKP/R3+
B16
ACKM/RV3-
A16
A3P/RV4+
A17
A3M/RV4-
B17
A4P/RV5+
C16
A4M/RV5-
C17
B0P/RV6+
D16
B0M/RV6-
D17
B1P/RV7+
D15
B1M/RV7-
E15
B2P/RV8+
F16
B2M/RV8-
F17
BCKP/WPWM
F15
BCKM/OPT_P
G15
B3P/OPT_N
G17
B3M/FLK
G16
B4P/GCLK6
H16
B4M/GLCK5
H17
C0P/LV0+
H15
C0M/LV0-
J15
C1P/LV1+
J17
C1M/LV1-
J16
C2P/LV2+
K16
C2M/LV2-
K17
CCKP/LV3+
K15
CCKM/LV3-
L15
C3P/LV4+
L17
C3M/LV4-
L16
C4P/LV5+
M16
C4M/LV5-
M17
D0P/LV6+
M15
D0M/LV6-
N15
D1P/LV7+
N17
D1M/LV7-
N16
D2P/LV8+
P15
D2M/LV8-
R15
DCKP/GOE
R17
DCKM/GSC/GCLK3
R16
D3P/GSP_R
T16
D3M/GSP
T17
D4P/SOE
T15
D4M/POL
U17
GCLK4
P16
GCLK2
P17
I2CS_SDA
D1
I2CS_SCL
D2
PWM0
P14
PWM1
R14
LPLL_FBCLK
B13
LPLL_OUTCLK
U16
LPLL_REFIN
A13
R
E
C
K
P
A
2
R
E
C
K
N
B
2
R
E
0
P
A
4
R
E
0
N
B
4
R
E
1
P
C
3
R
E
1
N
C
4
R
E
2
P
B
3
R
E
2
N
A
3
R
E
3
P
C
1
R
E
3
N
C
2
R
E
4
P
B
1
R
E
4
N
A
1
R
O
C
K
P
A
6
R
O
C
K
N
B
6
R
O
0
P
A
8
R
O
0
N
B
8
R
O
1
P
C
7
R
O
1
N
C
8
R
O
2
P
B
7
R
O
2
N
A
7
R
O
3
P
C
5
R
O
3
N
C
6
R
O
4
P
B
5
R
O
4
N
A
5
X
T
A
L
O
A
9
X
T
A
L
I
B
9
G
P
I
O
[
0
]
K
1
4
G
P
I
O
[
1
]
J
1
3
G
P
I
O
[
2
]
H
1
4
G
P
I
O
[
3
]
G
1
3
G
P
I
O
[
4
]
F
1
4
G
P
I
O
[
5
]
E
1
3
G
P
I
O
[
8
]
D
3
G
P
I
O
[
9
]
D
4
G
P
I
O
[
1
0
]
E
4
G
P
I
O
[
1
2
]
D
5
G
P
I
O
[
1
3
]
D
7
G
P
I
O
[
1
4
]
F
4
M
_
S
_
P
I
F
_
C
L
K
_
1
R
7
M
_
S
_
P
I
F
_
C
L
K
_
2
U
8
M
_
S
_
P
I
F
_
C
S
U
7
M
_
S
_
P
I
F
_
D
A
1
T
8
M
_
S
_
P
I
F
_
F
C
T
7
S
_
M
_
P
I
F
_
C
L
K
U
1
4
S
_
M
_
P
I
F
_
C
S
U
1
5
S
_
M
_
P
I
F
_
D
A
0
R
1
3
S
_
M
_
P
I
F
_
D
A
1
T
1
3
S
_
M
_
P
I
F
_
F
C
T
1
4
L
T
D
_
C
L
K
_
L
T
1
0
L
T
D
_
C
L
K
_
R
T
1
1
L
T
D
_
D
A
0
_
L
R
1
0
L
T
D
_
D
A
0
_
R
U
1
1
L
T
D
_
D
A
1
_
L
R
9
L
T
D
_
D
A
1
_
R
U
1
2
L
T
D
_
D
E
_
L
U
1
0
L
T
D
_
D
E
_
R
R
1
1
O
P
_
S
Y
N
C
_
L
U
9
O
P
_
S
Y
N
C
_
R
R
1
2
P
L
L
_
L
O
C
K
_
L
T
9
P
L
L
_
L
O
C
K
_
R
T
1
2
S
O
F
T
_
R
S
T
_
L
R
8
S
O
F
T
_
R
S
T
_
R
U
1
3
S
P
I
_
C
K
P
1
3
S
P
I
_
C
Z
N
1
4
S
P
I
_
D
I
N
1
2
S
P
I
_
D
O
N
1
3
R
E
S
E
T
M
1
4
R
E
X
T
C
1
3
Serial Flash
I2C ADR: GPIO1: HI:B8 LOW:B4
CHIP_CONF: {GPIO8, PWM1, PWM0}
CHIP_CONF= 3
� �
d5: boot from internal SRAM
CHIP_CONF= 3
� �
d6: boot from EEPROM
CHIP_CONF= 3
� �
d7: boot from SPI FlashSeparate DVDD_DDR Power
SCAN_OFF
HIGH
K14 NON_MIRROR
NON_GIP
LD
LVDS
SCAN_ONR9
LOW
U10
GIP
MINI_LVDS
R10
NON_LD
MIRROR
T10
FRC OPTION
THERMAL
THERMAL
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. T-Con (NO L.D.)
09/09/10
91
COMMON
L9100
6.8uH
DEV
MINI_LVDS
R9114
OPT
OPT
D9105
40V
MBRA340T3G
R9109
3K
GIP
R9132
0
R9151
0
OPT
IC9103
MAX17113ETL+
DEV
MINI_LVDS
EAN60924401
3GND2
2DRVP
4SRC
1THR
6DRN
5GON
7MODE
8DLP
9FBP
10GPGND
1
1
C
T
L
1
2
D
R
V
N
1
3
A
G
N
D
1
4
F
B
N
1
5
R
E
F
1
6
D
E
L
1
1
7
F
B
2
1
8
B
S
T
1
9
L
X
2
2
0
L
X
2
21 OUT
22 IN2
23 IN2
24 VIN
25 FSEL
26 EN1
27 DEL2
28 VL
29 EN2
30 PGND
3
1
P
G
N
D
3
2
L
X
1
3
3
L
X
1
3
4
S
W
1
3
5
S
W
0
3
6
F
B
1
3
7
C
O
M
P
3
8
P
G
O
O
D
3
9
C
R
S
T
4
0
A
G
N
D
RXA3-
R9133
10
GIP
R9146
33K
NON_GIP
HVDD
R9161
0
R9113
10K
GIP
R9139 0
GIP
C9150
1uF
50V
D9101
KDS226
A AC
C
DISCHG
R9194
360
OPT
R9144
27K
1%
TCON_42_FHD
R9134-*1
200
NON_GIP
R9127
150K
TCON_42_FHD
PANEL_VCC
R9116
10
GIP
GCLK6_I
R9160
0
NON_GIP
GCLK4_I
EN2
GCLK4
R9134
10
GIP
C9116
1uF
50V
R9163
0
GIP
VDD_LCM
(+16V)
C9108
10uF
25V
MINI_LVDS
GVDD_EVEN
R9166
15K
1%
TCON_42_FHD
C9124
1uF
50V
R9130
220K 1%
TCON_42_FHD
R9147-*1
0
GIP
D9103
100V
MMSD4148T1G
R9110
22
GIP
CLK6
C9128
1000pF
50V
GIP
G
M
A
1
6
VCC_LCM
(+3.3V)
R9177
0
GIP
R9115
10
GIP
C9139
1uF 50V
CLK5
CLK1
R9122
10
R9197
3.3K
NON_GIP
RXDCK+
C9104
1uF
50V
GIP
R9155
510 NON_GIP
R9140 0
GIP
GCLK2
C9146
150pF
50V
C9142
1uF
50V
CLK2
R
E
F
VDD_LCM
(+16V)
R9105
22
GIP
C9103
0.1uF
50V
R9155-*1
0
GIP
C9138
0.1uF
50V
VCC_LCM
(+3.3V)
C9135
OPT
C9106
1uF
50V
MINI_LVDS
R9133-*1
200
NON_GIP R9167
0
NON_GIP
C9129
15pF
50V
NON_GIP
C9140
0.1uF
50V
C9101
0.22uF
50V
GIP
RXD3-
C9134
OPT
GMA7
R9169
2.2
SDA3_3.3V
CLK4
VDD_LCM
(+16V)
IC9100
MAX9668ETP+
MINI_LVDS
DEV
1SDA
3DVDD
7
A
V
D
D
_
A
M
P
9
N
C
_
1
1
0
G
M
A
1
11 GMA2
12 GMA313 GMA4
14 GMA5
15 GMA6
1
6
A
V
D
D
_
2
1
7
N
C
_
2
1
8
G
M
A
7
1
9
G
M
A
8
2
0
S
C
L
5VCOM
8
A
V
D
D
_
1
6
V
C
O
M
_
F
B
4AGND_AMP
2A0 21
E
P
[
G
N
D
]
C9148
22uF
25V
C9112
4.7uF
50V
MINI_LVDS
R9117
47K
OPT
VCC_LCM
(+3.3V)
F
L
K
R9120
7.5K
R9106
0
VCC_LCM
(+3.3V)
L
9
1
0
4
B
L
M
1
8
P
G
1
2
1
S
N
1
D
O
P
T
C9144
0.1uF
50V
VGH
(+25V)
R9148-*1
0
GIP
C9136
27pF 50V
NON_GIP
C9123
1uF
10V
R
9
1
0
3
3
3
R9142
0
OPT
VGH
(+25V)
S
C
L
3
_
3
.
3
V
GSC/GCLK3_I
SCL3_3.3V
C9143
0.1uF
50V
FLK
C9156
15pF
50V
OPT
C9119
15pF
50V
NON_GIP
C9126 0.047uF NON_GIP
C9153
100uF
25V
R9138
0
C9154
OPT
VCC_LCM
(+3.3V)
VGH
(+25V)
EN2
C9159
15pF
50V
OPT
L
9
1
0
3
B
L
M
1
8
P
G
1
2
1
S
N
1
D
R9112
10
1/8W
C9149
22uF
10V
GVDD_EVEN_I
R9136
10 NON_GIP
R9148
510 NON_GIP
R9152 0
NON_GIP
T
H
9
0
0
0
4
7
k
-
o
h
m
N
C
P
1
8
W
B
4
7
3
F
1
0
R
B
G
I
P
GVDD_ODD
R9158
0
GIP
POL
C9157
15pF
50V
OPT
R9131
11K 1%
TCON_42_FHD
C9131
15pF
50V
NON_GIP
R9168
10K
GIP
RXD4+
R9196 24K
GCLK2_I
GMA12
R9107
0
GCLK5_I
R9159
0
GCLK6_I
VGH
(+25V)
R9150 0 GIP
R9118
10K
OPT
EN2
GOE/GCLK1_I
R9180
360
R9168-*1
33K
NON_GIP
C9105
0.1uF
50V
R9121
0
GIP
VCOM
R9164
0
GIP
C9111
1uF
50V
R9153 0
NON_GIP
C9155
22uF
25V
DISCHG
C9113
22pF
50V
R9171
0
GOE/GCLK1_I
R9170
10
DPM_A
R9128
200K
TCON_42_FHD
VDD_LCM
(+16V)
C9145
1000pF
50V
GIP
R9173
1K
R9149
0
R9111
10
GIP
G
M
A
1
5
VGH_M
(+25V)
GMA4
VCOM_FB0
R9176
0
GIP
R9125
18K
C9145-*1
560pF
50V
NON_GIP
R9102
1K
1% TCON_42_FHD
D9102
KDS226
A AC
C
L9101
22UH
2.8A
GMA6
RXA4-
C9127
1uF
50V
RXDCK-
R9108
100
GIP
VGL
(-5V)
C9118
10uF
16V
IC9101
MAX17119DS
GIP
EAN60987201
DEV
1A9
3A7
7A3
9
A
1
1
0
G
O
N
1
1
1
G
O
F
F
1
2
G
O
N
2
1
3
Y
1
1
4
Y
2
15 Y3
16 Y4
17 Y5
18 Y6
19 Y7
20 Y8
21 Y9
2
2
Y
D
C
H
G
2
3
G
N
D
2
4
R
E
2
5
F
L
K
3
2
6
F
L
K
2
2
7
F
L
K
1
2
8
V
S
E
N
S
E
5A5
8
A
2
6A4
4A6
2A8 29
E
P
[
V
G
O
F
F
]
C9160
15pF
50V
R9135
3.6K
VGH_FB
R9157
75K
1%
TCON_42_FHD
R9145
150K
1%
TCON_42_FHD
R
9
1
0
1
1
K
O
P
T
R9172
1K
VGI_P
D9100
100V
MMSD4148T1G
OPT
R9137
0
VGI_N
C9137
0.1uF
50V
GIP
RXD4-
DPM
VGL
(-5V)
C9158
15pF
50V
OPT
R9178
0
GIP
VDD_LCM
(+16V)
RXA4+
C9162
22uF
25V
R
9
1
0
4
1
K
1
%
T
C
O
N
_
4
2
_
F
H
D
R9174
OPT
GVDD_ODD_I
C9147
1uF
50V
GCLK5_I
REF
C9133
15pF
50V
OPT
C9120
15pF
50V
V
C
O
M
_
F
B
0
V
C
O
M
R
F
B
EN2
F
L
K
R9156
150K
1%
TCON_42_FHD
R9100
33
GMA3
VDD_ODD
VGH
(+25V)
C9122
0.47uF
25V
R9143
3.3K
GIP
C9109
10uF
25V
MINI_LVDS
R9165
18K
1%
OPT
D9107 100V
MMSD4148T1G
PANEL_VCC
(+12V)
GCLK2_I
CLK3
R9123
1M
NON_GIP
SOE
C9132
15pF
50V
OPT
P9100
12505WS-03A00
1
2
3
4
RXD3+
C9125 68pF NON_GIP
PANEL_VCC
(+12V)
GSP/GVST_I
C9110
1uF
25V
C9117
1uF
50V
IC9102
TPS62110RSAR
MINI_LVDS
EAN60985901
DEV1
PGND_1
3VIN_2
7
L
B
I
9 AGND
10 FB
11 GND_1
12 GND_2
1
3
P
G
1
4
S
W
_
1
1
5
S
W
_
2
1
6
P
G
N
D
_
2
5
S
Y
N
C
8
V
I
N
A
6
L
B
O
4EN
2VIN_1
PANEL_VCC
(+12V)
GSC/GCLK3_I
R9175
0
GIP
V
G
L
_
F
B
C9102
OPT
OPT
D9106 MBRA340T3G
D9104 MBRA340T3G
C9151
0.1uF
50V
L9102
22UH
2.8A
DPM
GVDD_ODD_I
R9154 0 GIP
R9119
20K
V
C
O
M
L
F
B
VGL_I
VCOMR
VST
R9162
0
C9115
10uF
16V
R9126
510K
TCON_42_FHD
SDA3_3.3V
R9147
2.7K
NON_GIP
VGH_FB
R9181
5.1K
C9114
22uF
16V
R9129
56K 1%
TCON_42_FHD
GCLK4_I
VGL_FB
C9107
1uF
50V
GIP
VCC_LCM
(+3.3V)
C9100
0.1uF
50V
VCOM
VGL
(-5V)
C9130
15pF
50V
NON_GIP
VDD_EVEN
R9124
18K
GSP/GVST_I
R9141
0
EN2
VCOML
C9121
15pF
50V
R9182
9.1K
1/8W
GVDD_EVEN_I
C9128-*1
470pF
50V
NON_GIP
VDD_LCM
(+16V)
C9152
1uF
10V
VGL
(-5V)
GMA13
R9179
0
R9195
2.2K
R9193
2.2K
C9137-*1
1uF
10V
NON_GIP
C9164
0.47uF
25V
OPT
C9141
47uF
25V
Signal Name Change
[HVDD Block]
6.8uH/1.8A
(6x6x2mm)
10uF/25V(3216)
[P-GAMMA Block]
R2
4.7uF/50V(3216)
[LEVEL Shift Block]
1uF/50V(2012)
Vo = 1.153*(1+R1/R2)
Value should
be checked
To reduce
Audible noise
To reduce
Audible noise
GSP_R
For P-Gamma Data Download
* Voltage Target 
VDD_LCM = 16.25V
VGH = 28.50V
VGL = -5.35V
R1
[POWER Block]
CHECK Value!!
To reduce
Audible noise
Slave Address : 0xE8h
 (AO Pin - GND)
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS 
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. T-Con Power Option
09/12/15
98
Common
R9127-*4
68K
1%
TCON_55_FHD
R9127-*3
150K
1%
TCON_47_FHD
R9102-*1
1K
1%
TCON_32_FHD
R9102-*2
1.5K
5%
TCON_37_FHD
R9144-*3
51K
1%
TCON_47_FHD
R9128-*3
220K
1%
TCON_47_FHD
R9131-*2
12K
1%
TCON_37_FHD
R9129-*3
51K
1%
TCON_47_FHD
R9131-*1
11K
1%
TCON_32_FHD
R9127-*1
150K
1%
TCON_32_FHD
R9126-*4
180K
1%
TCON_55_FHD
R9101-*3
1K
1%
TCON_47_FHD
R9128-*1
200K
1%
TCON_32_FHD
R9145-*3
270K
1%
TCON_47_FHD
R9102-*3
1K
1%
TCON_47_FHD
R9130-*1
220K
1%
TCON_32_FHD
R9145-*4
150K
1%
TCON_55_FHD
R9104-*2
1K
1%
TCON_37_FHD
R9104-*1
1K
1%
TCON_32_FHD
R9157-*3
75K
1%
TCON_47_FHD
R9101-*1
1K
1%
TCON_32_FHD
R9156-*1
150K
1%
TCON_32_FHD
R9165-*2
470K
1%
TCON_37_FHD
R9101-*2
1K
1%
TCON_37_FHD
R9166-*3
20K
1%
TCON_47_FHD
R9156-*2
910K
1%
TCON_37_FHD
R9144-*4
27K
1%
TCON_55_FHD
R9157-*1
27K
1%
TCON_32_FHD
R9130-*4
68K
1%
TCON_55_FHD
R9126-*1
510K
1%
TCON_32_FHD
R9166-*1
24K
1%
TCON_32_FHD
R9126-*3
510K
1%
TCON_47_FHD
R9130-*2
220K
1%
TCON_37_FHD
R9166-*4
15K
1%
TCON_55_FHD
R9130-*3
220K
1%
TCON_47_FHD
R9156-*4
150K
1%
TCON_55_FHD
R9131-*4
27K
1%
TCON_55_FHD
R9129-*1
22K
1%
TCON_32_FHD
R9129-*2
47K
1%
TCON_37_FHD
R9145-*1
270K
1%
TCON_32_FHD
R9157-*4
75K
1%
TCON_55_FHD
R9166-*2
56K
1%
TCON_37_FHD
R9128-*4
56K
1%
TCON_55_FHD
R9156-*3
180K
1%
TCON_47_FHD
R9104-*3
1K
1%
TCON_47_FHD
R9129-*4
510K
1%
TCON_55_FHD
R9131-*3
11K
1%
TCON_47_FHD
R9157-*2
56K
1%
TCON_37_FHD
R9126-*2
470K
1%
TCON_37_FHD
R9102-*4
0
5%
TCON_55_FHD
R9144-*1
51K
1%
TCON_32_FHD
R9127-*2
91K
1%
TCON_37_FHD
R9144-*2
20K
1%
TCON_37_FHD
R9145-*2
150K
1%
TCON_37_FHD
VGL
VGL
VGH
VGL
47_FHD
VGH
VCOM FEED BACK
VGL
VDD
42_FHD
91 or 95
Sheet
HVDD
VCOM FEED BACK
VDD
R9104 OPEN
37_FHD32_FHD
VCOM FEED BACK
HVDDVDD
VDD
VGL
R9101 OPEN
HVDD
VGH
55_FHD
R9165 OPEN
VCOM FEED BACK
VDD
VGH
VCOM FEED BACK
HVDD
R9128 OPEN
VGH
R9165 OPEN
HVDD
R9165 OPEN
91 or 95
Sheet
91 or 95
Sheet
91 or 95
Sheet
91 or 95
Sheet
MICOM
UPD78F0513AGA
-GAM-AX
IC8101
SUB_SCL/SDA
MAX3232CDR
IC8200
RX
BCM_TXD1
MICOM EEPROM
M24C16-WMN6T
16Kbit
IC8100
BCM3556
IC100
RS232
(P8201)
NEC_TXD
TX
BCM_RXD1
NEC_RXD
IR_PASS
NEC_EEPROM
_SCL/SDA
CEC_REMOTE
WIRELESS
JK8700
WIRELESS_SCL/SDA=>AMP_SCL/SDA
MC14053BDR2G
IC8700
Wireless_TX
Wireless_RX
Wireless_DL_RX
Wireless_DL_TX
BCM_TX
BCM_RX
USB
EPHY_RDP/RDN
USB_DM1/2
USB_DP1/2
P2201/2
USB2512
IC2201
ETHERNET
(JK8200)
EPHY_TDP/RDP
BLUETOOTH
P1895
BT_DM, BT_DP
MOTION REMOCON
P1700
M_REMOTE_RX
BT_RESET
VREG_CTRL
M_REMOTE_TX
TUNER
HNIM/FNIM
(TU2701)
TU_CVBS/TU_SIF
SCL1/SDA1
CONTROL
IR & KEY
P8200
NEC_EEPROM
_SCL/SDA
LED_R/BUZZ
KEY1
KEY2
IR
LED_B/LG LOGO
SIDE_USB
_DP/DM
HDMI 1
TDA19997
4x1 
HDMI Switch
IC8300
HDMI 2
HDMI 3
HDMI 4
HDMI0_ SCL/SDA, TMDS[0-2,CLK]
HDMI1_ SCL/SDA, TMDS[0-2,CLK]
HDMI2_ SCL/SDA, TMDS[0-2,CLK]
HDMI3_ SCL/SDA, TMDS[0-2,CLK]
FE_TS_SERIAL/SYNC/VAL_ERR/DATA_CLK
ATV/DTV
TUNER
(HNIM)
TU2600
Cable
IF_N / P
AV1
COMP1
COMP2
CVBS,L,R
YPbPr,L,R
YPbPr,L,R
Brazil(ISDB)
AUS/TW(DVB-T)
Internal Demod
DVB-T
ISDB DEMOD
MN884433
IC2800
IF_AGC
Brazil OPT
BCM High Block Diagram (Input/Interface)
RGB-PC
(P8400)
M24C02(EEPROM)
IC8401
PC AUDIO IN
(JK8401)
DSUB_R/G/B, H/V_Sync
RGB_DDC_SCL/SDA
Copyright ⓒ 2010 LG Electronics. Inc. All right reserved.
Only for training and service purposes LGE Internal Use Only
DDR2 SDRAM
MT47H128M8HQ
(1GBit)
IC400/401
NANDFlash
(4Gbit)
NAND04G_B2DN
IC101
Digital AMP
(NTP7000)
IC8801
LLV[0-5]±, LCLK±
RLV[0-5]±, RCLK±
NAND_DATA[0:7]
LPF
DDR0 Data[0:15]
DDR2 SDRAM
MT47H128M8HQ
(1GBit)
IC402/403
DDR0 Address[0:13]
BCM3556
IC100
SOE/POL/GSP/H_CONV/OPT_N, …
NVM
M24M01-HRMN6TP
1Mbit IC102
DDR1 Data[0:15]
DDR1 Address[0:13]
AMP_SCL/SDA
PWM
DDR3 SDRAM
H5TQ1G63BFR-12C
(1GBit)
IC8900
JK8400 AUDIO OUT [SPDIF]
JK1101 AUDIO OUT [EARPHONE]
SCL2/SDA2
Mini-LVDS
P7400/1
P-GAMMA 
for MINI-LVDS
MAX9668ETP
IC601 GMA[8 bit]
LEVEL SHIFT 
MAX17119ETI+
IC602
MINI_LVDS_POWER 
MAX17113
IC603
DPM_A => EN2
MINI_LVDS_POWER
TPS62110
IC600 HVDD
VDD_LCM 
VCC_LCM
SPDIF_OUT
HP_L/ROUT
I2S
P8800
(4pin)
MST7378P
(URSA3)
IC9001
LVDS_TX_E/O[0-4]
I2C_SCL/SDA
D
D
R
3 Address[0:12]
D
D
R
3 D
ata[0:15]
LVDS_E/O_CLK
Serial Flash
W25X40VSSIG
IC9000
FRC_SPI
SCL1/SDA1
DDR2 SDRAM
MT47H128M8HQ
(1GBit)
IC400/401
DDR0 Data[0:15]
DDR2 SDRAM
MT47H128M8HQ
(1GBit)
IC402/403
DDR0 Address[0:13]
DDR1 Data[0:15]
DDR1 Address[0:13]
BCM High Block Diagram (Output/Audio)
AMP
KA4558D
IC1100
HP_L/R_+/-
AUDIO
OUT
Copyright ⓒ 2010 LG Electronics. Inc. All right reserved.
Only for training and service purposes LGE Internal Use Only
DDR2 SDRAM
MT47H128M8HQ
(1GBit)
IC400/401
NAND Flash
(4Gbit)
NAND04G_B2DN
IC101
LLV[0-5]±, LCLK±
RLV[0-5]±, RCLK±
NAND_DATA[0:7]
DDR0 Data[0:15]
DDR2 SDRAM
MT47H128M8HQ
(1GBit)
IC402/403
DDR0 Address[0:13]
BCM3556
IC100
SOE/POL/GSP/H_CONV/OPT_N, …
NVM
M24M01-HRMN6TP
1Mbit IC102
DDR1 Data[0:15]
DDR1 Address[0:13]
DDR3 SDRAM
H5TQ1G63BFR-12C
(1GBit)
IC8900
SCL3/SDA3
Mini-LVDS
P7400/1
LGE7378A
(URSA3)
IC9001
LVDS_TX_E/O[0-4]
SCL1/SDA1
D
D
R
3 Address[0:12]
D
D
R
3 D
ata[0:15]
LVDS_E/O_CLK
Serial Flash
W25L4005CM2I
IC9000
FRC_SPI
DDR2 SDRAM
MT47H128M8HQ
(1GBit)
IC400/401
DDR0 Data[0:15]
DDR2 SDRAM
MT47H128M8HQ
(1GBit)
IC402/403
DDR0 Address[0:13]
DDR1 Data[0:15]
DDR1 Address[0:13]
BCM High Block Diagram (Memory)
MICOM
UPD78F0513AGA
-GAM-AX
IC8101
SCL1/SDA1
MICOM EEPROM
M24C16-WMN6T
16Kbit
IC8100
NEC_EEPROM_SCL/SDA
Copyright ⓒ 2010 LG Electronics. Inc. All right reserved.
Only for training and service purposes LGE Internal Use Only
I2C Map_DV2
CH0CH0
Tuner
HNIM
(TU2701)
Tuner
HNIM
(TU2701)
P-Gamma
MAX9668ETP
(IC601) 0xe8
P-Gamma
MAX9668ETP
(IC601) 0xe8
HDMI SW
TDA9996HL
(IC800) 0xc0
HDMI SW
TDA9996HL
(IC800) 0xc0
ISDB_DEMOD
MN884433
(IC3701) 0xd8
MICOM
NEC
(IC1002)
MICOM
NEC
(IC1002)
Audio Amp.
NTP7000
(IC501)
Audio Amp.
NTP7000
(IC501)
USB2
USB2512
(IC2201)
FRC(URSA3)
MST7378
(IC1300)
FRC(URSA3)
MST7378
(IC1300)
CH1CH1
CH2CH2
CH3CH3
NVRAM
M24M01
(IC102)
NVRAM
M24M01
(IC102)
(Brazil Only)
Copyright ⓒ 2010 LG Electronics. Inc. All right reserved.
Only for training and service purposes LGE Internal Use Only
I2C Map_DV1
CH0CH0
Tuner
HNIM
(TU2701)
Tuner
HNIM
(TU2701)
P-Gamma
MAX9668ETP
(IC601) 0xe8
P-Gamma
MAX9668ETP
(IC601) 0xe8
HDMI SW
TDA9996HL
(IC800) 0xc0
HDMI SW
TDA9996HL
(IC800) 0xc0
ISDB_DEMOD
MN884433
(IC3701) 0xd8
MICOM
NEC
(IC1002)
MICOM
NEC
(IC1002)
Audio Amp.
NTP7000
(IC501)
Audio Amp.
NTP7000
(IC501)
USB2
USB2512
(IC2201)
FRC(URSA3)
MST7378
(IC1300)
FRC(URSA3)
MST7378
(IC1300)
CH1CH1
CH2CH2
CH3CH3
NVRAM
M24M01
(IC102)
NVRAM
M24M01
(IC102)
Copyright ⓒ 2010 LG Electronics. Inc. All right reserved.
Only for training and service purposes LGE Internal Use Only
	#EV#