LCD TV SERVICE MANUAL - diagramas.diagram...
LCD TV SERVICE MANUAL - diagramas.diagram...
LCD TV SERVICE MANUAL - diagramas.diagram...
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<strong>LCD</strong> <strong>TV</strong><br />
<strong>SERVICE</strong> <strong>MANUAL</strong><br />
CHASSIS : LP81A<br />
MODEL : 32LG30R 32LG30R-MA<br />
CAUTION<br />
BEFORE SERVICING THE CHASSIS,<br />
READ THE SAFETY PRECAUTIONS IN THIS <strong>MANUAL</strong>.<br />
Internal Use Only<br />
website:http://biz.LGservice.com
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
CONTENTS<br />
CONTENTS .............................................................................................. 2<br />
SAFETY PRECAUTIONS ..........................................................................3<br />
SPECIFICATION ........................................................................................6<br />
ADJUSTMENT INSTRUCTION .................................................................9<br />
TROUBLE SHOOTING ............................................................................14<br />
BLOCK DIAGRAM...................................................................................19<br />
EXPLODED VIEW .................................................................................. 20<br />
EXPLODED VIEW PARTS LIST..............................................................21<br />
REPLACEMENT PARTS LIST ............................................................... 22<br />
SVC. SHEET ...............................................................................................<br />
- 2 -<br />
LGE Internal Use Only
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
SAFETY PRECAUTIONS<br />
Many electrical and mechanical parts in this chassis have special safety-related characteristics. These parts are identified by in the<br />
Schematic Diagram and Replacement Parts List.<br />
It is essential that these special safety parts should be replaced with the same components as recommended in this manual to prevent<br />
Shock, Fire, or other Hazards.<br />
Do not modify the original design without permission of manufacturer.<br />
General Guidance<br />
An isolation Transformer should always be used during the<br />
servicing of a receiver whose chassis is not isolated from the AC<br />
power line. Use a transformer of adequate power rating as this<br />
protects the technician from accidents resulting in personal injury<br />
from electrical shocks.<br />
It will also protect the receiver and it's components from being<br />
damaged by accidental shorts of the circuitry that may be<br />
inadvertently introduced during the service operation.<br />
If any fuse (or Fusible Resistor) in this <strong>TV</strong> receiver is blown,<br />
replace it with the specified.<br />
When replacing a high wattage resistor (Oxide Metal Film Resistor,<br />
over 1W), keep the resistor 10mm away from PCB.<br />
Keep wires away from high voltage or high temperature parts.<br />
Before returning the receiver to the customer,<br />
always perform an AC leakage current check on the exposed<br />
metallic parts of the cabinet, such as antennas, terminals, etc., to<br />
be sure the set is safe to operate without damage of electrical<br />
shock.<br />
Leakage Current Cold Check(Antenna Cold Check)<br />
With the instrument AC plug removed from AC source, connect an<br />
electrical jumper across the two AC plug prongs. Place the AC<br />
switch in the on position, connect one lead of ohm-meter to the AC<br />
plug prongs tied together and touch other ohm-meter lead in turn to<br />
each exposed metallic parts such as antenna terminals, phone<br />
jacks, etc.<br />
If the exposed metallic part has a return path to the chassis, the<br />
measured resistance should be between 1MΩ and 5.2MΩ.<br />
When the exposed metal has no return path to the chassis the<br />
reading must be infinite.<br />
An other abnormality exists that must be corrected before the<br />
receiver is returned to the customer.<br />
IMPORTANT SAFETY NOTICE<br />
- 3 -<br />
Leakage Current Hot Check (See below Figure)<br />
Plug the AC cord directly into the AC outlet.<br />
Do not use a line Isolation Transformer during this check.<br />
Connect 1.5K/10watt resistor in parallel with a 0.15uF capacitor<br />
between a known good earth ground (Water Pipe, Conduit, etc.)<br />
and the exposed metallic parts.<br />
Measure the AC voltage across the resistor using AC voltmeter<br />
with 1000 ohms/volt or more sensitivity.<br />
Reverse plug the AC cord into the AC outlet and repeat AC voltage<br />
measurements for each exposed metallic part. Any voltage<br />
measured must not exceed 0.75 volt RMS which is corresponds to<br />
0.5mA.<br />
In case any measurement is out of the limits specified, there is<br />
possibility of shock hazard and the set must be checked and<br />
repaired before it is returned to the customer.<br />
Leakage Current Hot Check circuit<br />
To Instrument's<br />
exposed<br />
METALLIC PARTS<br />
AC Volt-meter<br />
0.15uF<br />
1.5 Kohm/10W<br />
Good Earth Ground<br />
such as WATER PIPE,<br />
CONDUIT etc.<br />
LGE Internal Use Only
CAUTION: Before servicing receivers covered by this service<br />
manual and its supplements and addenda, read and follow the<br />
SAFETY PRECAUTIONS on page 3 of this publication.<br />
NOTE: If unforeseen circumstances create conflict between the<br />
following servicing precautions and any of the safety precautions on<br />
page 3 of this publication, always follow the safety precautions.<br />
Remember: Safety First.<br />
General Servicing Precautions<br />
1. Always unplug the receiver AC power cord from the AC power<br />
source before;<br />
a. Removing or reinstalling any component, circuit board<br />
module or any other receiver assembly.<br />
b. Disconnecting or reconnecting any receiver electrical plug or<br />
other electrical connection.<br />
c. Connecting a test substitute in parallel with an electrolytic<br />
capacitor in the receiver.<br />
CAUTION: A wrong part substitution or incorrect polarity<br />
installation of electrolytic capacitors may result in an<br />
explosion hazard.<br />
2. Test high voltage only by measuring it with an appropriate high<br />
voltage meter or other voltage measuring device (DVM,<br />
FE<strong>TV</strong>OM, etc) equipped with a suitable high voltage probe.<br />
Do not test high voltage by "drawing an arc".<br />
3. Do not spray chemicals on or near this receiver or any of its<br />
assemblies.<br />
4. Unless specified otherwise in this service manual, clean<br />
electrical contacts only by applying the following mixture to the<br />
contacts with a pipe cleaner, cotton-tipped stick or comparable<br />
non-abrasive applicator; 10% (by volume) Acetone and 90% (by<br />
volume) isopropyl alcohol (90%-99% strength)<br />
CAUTION: This is a flammable mixture.<br />
Unless specified otherwise in this service manual, lubrication of<br />
contacts in not required.<br />
5. Do not defeat any plug/socket B+ voltage interlocks with which<br />
receivers covered by this service manual might be equipped.<br />
6. Do not apply AC power to this instrument and/or any of its<br />
electrical assemblies unless all solid-state device heat sinks are<br />
correctly installed.<br />
7. Always connect the test receiver ground lead to the receiver<br />
chassis ground before connecting the test receiver positive<br />
lead.<br />
Always remove the test receiver ground lead last.<br />
8. Use with this receiver only the test fixtures specified in this<br />
service manual.<br />
CAUTION: Do not connect the test fixture ground strap to any<br />
heat sink in this receiver.<br />
Electrostatically Sensitive (ES) Devices<br />
Some semiconductor (solid-state) devices can be damaged easily<br />
by static electricity. Such components commonly are called<br />
Electrostatically Sensitive (ES) Devices. Examples of typical ES<br />
devices are integrated circuits and some field-effect transistors and<br />
semiconductor "chip" components. The following techniques<br />
should be used to help reduce the incidence of component<br />
damage caused by static by static electricity.<br />
1. Immediately before handling any semiconductor component or<br />
semiconductor-equipped assembly, drain off any electrostatic<br />
charge on your body by touching a known earth ground.<br />
Alternatively, obtain and wear a commercially available<br />
discharging wrist strap device, which should be removed to<br />
prevent potential shock reasons prior to applying power to the<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
SERVICING PRECAUTIONS<br />
- 4 -<br />
unit under test.<br />
2. After removing an electrical assembly equipped with ES<br />
devices, place the assembly on a conductive surface such as<br />
aluminum foil, to prevent electrostatic charge buildup or<br />
exposure of the assembly.<br />
3. Use only a grounded-tip soldering iron to solder or unsolder ES<br />
devices.<br />
4. Use only an anti-static type solder removal device. Some solder<br />
removal devices not classified as "anti-static" can generate<br />
electrical charges sufficient to damage ES devices.<br />
5. Do not use freon-propelled chemicals. These can generate<br />
electrical charges sufficient to damage ES devices.<br />
6. Do not remove a replacement ES device from its protective<br />
package until immediately before you are ready to install it.<br />
(Most replacement ES devices are packaged with leads<br />
electrically shorted together by conductive foam, aluminum foil<br />
or comparable conductive material).<br />
7. Immediately before removing the protective material from the<br />
leads of a replacement ES device, touch the protective material<br />
to the chassis or circuit assembly into which the device will be<br />
installed.<br />
CAUTION: Be sure no power is applied to the chassis or circuit,<br />
and observe all other safety precautions.<br />
8. Minimize bodily motions when handling unpackaged<br />
replacement ES devices. (Otherwise harmless motion such as<br />
the brushing together of your clothes fabric or the lifting of your<br />
foot from a carpeted floor can generate static electricity<br />
sufficient to damage an ES device.)<br />
General Soldering Guidelines<br />
1. Use a grounded-tip, low-wattage soldering iron and appropriate<br />
tip size and shape that will maintain tip temperature within the<br />
range or 500°F to 600°F.<br />
2. Use an appropriate gauge of RMA resin-core solder composed<br />
of 60 parts tin/40 parts lead.<br />
3. Keep the soldering iron tip clean and well tinned.<br />
4. Thoroughly clean the surfaces to be soldered. Use a mall wirebristle<br />
(0.5 inch, or 1.25cm) brush with a metal handle.<br />
Do not use freon-propelled spray-on cleaners.<br />
5. Use the following unsoldering technique<br />
a. Allow the soldering iron tip to reach normal temperature.<br />
(500°F to 600°F)<br />
b. Heat the component lead until the solder melts.<br />
c. Quickly draw the melted solder with an anti-static, suctiontype<br />
solder removal device or with solder braid.<br />
CAUTION: Work quickly to avoid overheating the circuit<br />
board printed foil.<br />
6. Use the following soldering technique.<br />
a. Allow the soldering iron tip to reach a normal temperature<br />
(500°F to 600°F)<br />
b. First, hold the soldering iron tip and solder the strand against<br />
the component lead until the solder melts.<br />
c. Quickly move the soldering iron tip to the junction of the<br />
component lead and the printed circuit foil, and hold it there<br />
only until the solder flows onto and around both the<br />
component lead and the foil.<br />
CAUTION: Work quickly to avoid overheating the circuit<br />
board printed foil.<br />
d. Closely inspect the solder area and remove any excess or<br />
splashed solder with a small wire-bristle brush.<br />
LGE Internal Use Only
IC Remove/Replacement<br />
Some chassis circuit boards have slotted holes (oblong) through<br />
which the IC leads are inserted and then bent flat against the<br />
circuit foil. When holes are the slotted type, the following technique<br />
should be used to remove and replace the IC. When working with<br />
boards using the familiar round hole, use the standard technique<br />
as outlined in paragraphs 5 and 6 above.<br />
Removal<br />
1. Desolder and straighten each IC lead in one operation by gently<br />
prying up on the lead with the soldering iron tip as the solder<br />
melts.<br />
2. Draw away the melted solder with an anti-static suction-type<br />
solder removal device (or with solder braid) before removing the<br />
IC.<br />
Replacement<br />
1. Carefully insert the replacement IC in the circuit board.<br />
2. Carefully bend each IC lead against the circuit foil pad and<br />
solder it.<br />
3. Clean the soldered areas with a small wire-bristle brush.<br />
(It is not necessary to reapply acrylic coating to the areas).<br />
"Small-Signal" Discrete Transistor<br />
Removal/Replacement<br />
1. Remove the defective transistor by clipping its leads as close as<br />
possible to the component body.<br />
2. Bend into a "U" shape the end of each of three leads remaining<br />
on the circuit board.<br />
3. Bend into a "U" shape the replacement transistor leads.<br />
4. Connect the replacement transistor leads to the corresponding<br />
leads extending from the circuit board and crimp the "U" with<br />
long nose pliers to insure metal to metal contact then solder<br />
each connection.<br />
Power Output, Transistor Device<br />
Removal/Replacement<br />
1. Heat and remove all solder from around the transistor leads.<br />
2. Remove the heat sink mounting screw (if so equipped).<br />
3. Carefully remove the transistor from the heat sink of the circuit<br />
board.<br />
4. Insert new transistor in the circuit board.<br />
5. Solder each transistor lead, and clip off excess lead.<br />
6. Replace heat sink.<br />
Diode Removal/Replacement<br />
1. Remove defective diode by clipping its leads as close as<br />
possible to diode body.<br />
2. Bend the two remaining leads perpendicular y to the circuit<br />
board.<br />
3. Observing diode polarity, wrap each lead of the new diode<br />
around the corresponding lead on the circuit board.<br />
4. Securely crimp each connection and solder it.<br />
5. Inspect (on the circuit board copper side) the solder joints of<br />
the two "original" leads. If they are not shiny, reheat them and if<br />
necessary, apply additional solder.<br />
Fuse and Conventional Resistor<br />
Removal/Replacement<br />
1. Clip each fuse or resistor lead at top of the circuit board hollow<br />
stake.<br />
2. Securely crimp the leads of replacement component around<br />
notch at stake top.<br />
3. Solder the connections.<br />
CAUTION: Maintain original spacing between the replaced<br />
component and adjacent components and the circuit board to<br />
prevent excessive component temperatures.<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 5 -<br />
Circuit Board Foil Repair<br />
Excessive heat applied to the copper foil of any printed circuit<br />
board will weaken the adhesive that bonds the foil to the circuit<br />
board causing the foil to separate from or "lift-off" the board. The<br />
following guidelines and procedures should be followed whenever<br />
this condition is encountered.<br />
At IC Connections<br />
To repair a defective copper pattern at IC connections use the<br />
following procedure to install a jumper wire on the copper pattern<br />
side of the circuit board. (Use this technique only on IC<br />
connections).<br />
1. Carefully remove the damaged copper pattern with a sharp<br />
knife. (Remove only as much copper as absolutely necessary).<br />
2. carefully scratch away the solder resist and acrylic coating (if<br />
used) from the end of the remaining copper pattern.<br />
3. Bend a small "U" in one end of a small gauge jumper wire and<br />
carefully crimp it around the IC pin. Solder the IC connection.<br />
4. Route the jumper wire along the path of the out-away copper<br />
pattern and let it overlap the previously scraped end of the good<br />
copper pattern. Solder the overlapped area and clip off any<br />
excess jumper wire.<br />
At Other Connections<br />
Use the following technique to repair the defective copper pattern<br />
at connections other than IC Pins. This technique involves the<br />
installation of a jumper wire on the component side of the circuit<br />
board.<br />
1. Remove the defective copper pattern with a sharp knife.<br />
Remove at least 1/4 inch of copper, to ensure that a hazardous<br />
condition will not exist if the jumper wire opens.<br />
2. Trace along the copper pattern from both sides of the pattern<br />
break and locate the nearest component that is directly<br />
connected to the affected copper pattern.<br />
3. Connect insulated 20-gauge jumper wire from the lead of the<br />
nearest component on one side of the pattern break to the lead<br />
of the nearest component on the other side.<br />
Carefully crimp and solder the connections.<br />
CAUTION: Be sure the insulated jumper wire is dressed so the<br />
it does not touch components or sharp edges.<br />
LGE Internal Use Only
SPECIFICATION<br />
NOTE : Specifications and others are subject to change without notice for improvement.<br />
1. Application range<br />
This specification is applied to LP81A chassis.<br />
2. Requirement for Test<br />
Each part is tested as below without special appointment.<br />
(1) Temperature : 25 ± 5°C(77 ± 9°F), CST : 40 ± 5°C<br />
(2) Humidity : 65% ± 10%<br />
(3) Power : Standard input voltage (100-240V~, 50/60Hz)<br />
* Standard Voltage of each products is marked by models.<br />
(4) Specification and performance of each parts are followed<br />
each drawing and specification by part number in<br />
accordance with BOM.<br />
(5) The receiver must be operated for about 20 minutes prior<br />
to the adjustment.<br />
4. General Specification(<strong>LCD</strong> Module)<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 6 -<br />
3. Test method<br />
(1) Performance : LGE <strong>TV</strong> test method followed<br />
(2) Demanded other specification<br />
Safety : CE, IEC Specification<br />
EMC : CE, IEC<br />
Item Specification Measurement Result Remark<br />
Display Screen Device 26” wide Color Display Module Resolution:1366X768(HD)<br />
32” wide Color Display Module Resolution:1366X768(HD)<br />
Aspect Ratio 16:9<br />
<strong>LCD</strong> Module 26” TFT WXGA <strong>LCD</strong> 26” HD MAKER :CMO<br />
32” TFT WXGA <strong>LCD</strong> 32” HD MAKER :LPL CPT, CMO, AUO, SHARP<br />
Operating Environment 1) Temp. : 0 ~ 40 deg<br />
2) Humidity : 0 ~ 85%<br />
LGE SPEC<br />
Storage Environment 1) Temp. : -20 ~ 60 deg<br />
2) Humidity : 0 ~ 85 %<br />
Input Voltage 100-240V~, 50/60Hz<br />
Power Consumption Power on (Blue) : LG30/LG50<br />
Power on (White) : LG60<br />
Volume: 1/8 volume of sound distortion point<br />
≤ TBD 26” HD<br />
≤ TBD 32” HD<br />
St-By (Red) ≤ 1.0 W (All) LG60:St-by Light condition<br />
<strong>LCD</strong> Module Maker Inch (H) x (V) x (D) unit Remark<br />
(Maker : AUO, CMO, CMO(HD) Outline Dimension 26” 626 x 373 x 43.7 mm [with inverter]<br />
CPT, LPL, SHARP) Pixel Pitch 26” 0.1405 x 0.4215 mm<br />
Back Light 26” 12 CCFL mm<br />
Outline Dimension 32” 760 x 450 x 47.4 mm [with inverter]<br />
Pixel Pitch 32” 0.17025 x 0.51075 mm<br />
Back Light 32” 16 CCFL mm<br />
LPL(HD) Outline Dimension 32” 760 x 450 x 48 mm [with inverter]<br />
Pixel Pitch 32” 0.17025 x 0.51075 mm<br />
Back Light 32” 12 EEFL mm<br />
Display Colors -<br />
Coating 3H, AG/ 2H, AG LPL, CMO, AUO / Sharp<br />
LGE Internal Use Only
5. Model Specification<br />
Item<br />
Market<br />
Broadcasting system<br />
Available Channel<br />
Receiving system<br />
Video Input (2EA)<br />
AV Output (1EA)<br />
S-Video Input (1EA)<br />
Component Input (2EA)<br />
RGB Input (1EA)<br />
HDMI Input 2EA<br />
3EA<br />
Audio Input (5EA)<br />
RS-232C<br />
USB Input<br />
Specification<br />
Central and South America<br />
PAL SECAM B/G/D/K, PAL I/II, NTSC-M<br />
BAND NTSC<br />
VHF 2~13<br />
UHF 14~69<br />
CA<strong>TV</strong> 1~125<br />
Upper Heterodyne<br />
NTSC, PAL-M/N<br />
NTSC, PAL-M/N<br />
NTSC, PAL-M/N<br />
Y/Cb/Cr, Y/ Pb/Pr<br />
RGB-PC, S/W Upgrade<br />
HDMI-D<strong>TV</strong>, Only PCM MODE<br />
PC Audio, Component (2EA), AV (2EA)<br />
Remote control, Commercial<br />
Divx, MP3, JPEG<br />
6. Component Video Input (Y, PB, PR)<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 7 -<br />
Remark<br />
Rear 1EA, Side 1EA<br />
Rear<br />
Side (S-Video Priority)<br />
Rear<br />
Rear<br />
LG30 Tool, 32LG60<br />
LG50, LG70 Tool<br />
L/R Input<br />
Side(1EA)-LG30 Tool only (LG50, LG60, LG70 not Support)<br />
Side(1EA) - LG60, LG70 Tool Only (LG30, LG50 Not Support)<br />
Resolution H-freq(kHz) V-freq.(kHz) Pixel clock(MHz) Proposed<br />
720*480 15.73 59.94 13.500 SD<strong>TV</strong>, DVD 480I(525I)<br />
720*480 15.75 60.00 13.514 SD<strong>TV</strong>, DVD 480I(525I)<br />
720*576 15.625 50.00 13.500 SD<strong>TV</strong>, DVD 576I(625I) 50Hz<br />
720*480 31.47 59.94 27.000 SD<strong>TV</strong> 480P<br />
720*480 31.50 60.00 27.027 SD<strong>TV</strong> 480P<br />
720*576 31.25 50.00 27.000 SD<strong>TV</strong> 576P 50Hz<br />
1280*720 44.96 59.94 74.176 HD<strong>TV</strong> 720P<br />
1280*720 45.00 60.00 74.250 HD<strong>TV</strong> 720P<br />
1280*720 37.50 50.00 74.25 HD<strong>TV</strong> 720P 50Hz<br />
1920*1080 28.125 50.00 74.250 HD<strong>TV</strong> 1080I 50Hz,<br />
1920*1080 33.72 59.94 74.176 HD<strong>TV</strong> 1080I<br />
1920*1080 33.75 60.00 74.25 HD<strong>TV</strong> 1080I<br />
1920*1080 56.25 50 148.5 HD<strong>TV</strong> 1080P<br />
1920*1080 67.432 59.94 148.350 HD<strong>TV</strong> 1080P<br />
1920*1080 67.5 60.00 148.5 HD<strong>TV</strong> 1080P<br />
LGE Internal Use Only
7. RGB Input (Analog PC)<br />
Resolution H-freq(kHz) V-freq.(kHz) Pixel clock(MHz) Proposed Remark<br />
640*350 31.468 70.80 25.17 EGA<br />
720*400 31.469 70.08 28.32 DOS<br />
640*480 31.469 59.94 25.17 VESA(VGA)<br />
800*600 37.879 60.31 40 VESA(SVGA)<br />
1024*768 48.363 60 65 VESA(XGA)<br />
1280*768 47.776 59.87 79.5 VESA(WXGA)<br />
1360*768 47.72 59.799 84.75 VESA(WXGA)<br />
1366*768 47.7 60 84.62 VESA(WXGA)<br />
1280*1024 63.668 59.895 109.00 SXGA Only FHD<br />
1400*1050 65.317 59.978 121.75 SXGA Only FHD<br />
1600*1200 74.537 59.869 161.00 UXGA Only FHD<br />
1920*1080 66.587 59.934 138.50 WUXGA(Reduced Blanking) Only FHD<br />
8. HDMI input (PC)<br />
- Spec. out but display correctly at only HDMI/DVI IN 1 via DVI to HDMI Cable<br />
Resolution H-freq(kHz) V-freq.(kHz) Pixel clock(MHz) Proposed Remark<br />
720_400 31.468 70.08 28.32<br />
640_480 31.469 59.94 25.17 VESA(VGA)<br />
800_600 37.879 60.31 40.00 VESA(SVGA)<br />
1024_768 48.363 60.00 65.00 VESA(XGA)<br />
1280_768 47.776 59.87 79.5 VESA(WXGA)<br />
1360_768 47.72 59.799 84.62 VESA(WXGA)<br />
1366_768 47.7 60 84.62 VESA(WXGA)<br />
1280_1024 63.595 60.0 108.875 SXGA Only FHD<br />
1400_1050 65.160 60.0 122.50 SXGA Only FHD<br />
1600_1200 74.077 60.0 130.375 UXGA Only FHD<br />
1920_1080 66.647 59.988 138.625 WUXGA Only FHD<br />
9. HDMI input (D<strong>TV</strong>)<br />
Resolution H-freq(kHz) V-freq.(kHz) Pixel clock(MHz) Proposed Remark<br />
720*480 31.47 59.94 27 SD<strong>TV</strong> 480P Support(not spec)<br />
720*480 31.5 60 27.027 SD<strong>TV</strong> 480P support(not spec)<br />
720*576 31.25 50 27 SD<strong>TV</strong> 576P support(not spec)<br />
1280*720 44.96 59.94 74.176 HD<strong>TV</strong> 720P<br />
1280*720 45 60 74.25 HD<strong>TV</strong> 720P<br />
1280*720 37.5 50 74.25 HD<strong>TV</strong> 720P<br />
1920*1080 28.125 50 74.25 HD<strong>TV</strong> 1080I<br />
1920*1080 33.72 59.94 74.176 HD<strong>TV</strong> 1080I<br />
1920*1080 33.75 60 74.25 HD<strong>TV</strong> 1080I<br />
1920*1080 56.25 50 148.5 HD<strong>TV</strong> 1080P<br />
1920*1080 67.432 59.94 148.350 HD<strong>TV</strong> 1080P<br />
1920*1080 67.5 60.00 148.5 HD<strong>TV</strong> 1080P<br />
1920*1080 27 24 74.25 HD<strong>TV</strong> 1080P<br />
1920*1080 33.75 30 74.25 HD<strong>TV</strong> 1080P<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 8 -<br />
LGE Internal Use Only
1. Application Range<br />
This spec. sheet is applied all of the 32/37/42/47/52” <strong>LCD</strong> <strong>TV</strong>,<br />
LP81A chassis (HURRICANE 5) by manufacturing LG <strong>TV</strong><br />
Plant all over the world.<br />
2. Specification<br />
1) Because this is not a hot chassis, it is not necessary to use<br />
an isolation transformer. However, the use of isolation<br />
transformer will help protect test instrument.<br />
2) Adjustment must be done in the correct order.<br />
3) The adjustment must be performed in the circumstance of<br />
25±5°C of temperature and 65±10% of relative humidity if<br />
there is no specific designation.<br />
4) The input voltage of the receiver must keep 100-220V,<br />
50/60Hz.<br />
5) Before adjustment, execute Heat-Run for 15 minutes at RF<br />
no signal.<br />
3. S/W program download<br />
3-1. Preliminary steps<br />
(1) Download method 1 (PCB Assy)<br />
- HD<br />
- FHD<br />
(2) Connect the download jig to D-sub jack<br />
3-2. Download steps<br />
(1) Execute ‘ISP Tool’ program in PC, then a main window will<br />
be opened<br />
Double click<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
ADJUSTMENT INSTRUCTION<br />
- 9 -<br />
(2) Click the connect button and confirm “Dialog Box”.<br />
(3) Click the Config button and Change speed<br />
E2PROM Device setting : over the 350Khz<br />
(4) Read and write bin file<br />
Click “(1)Read” tab, and then load download file(XXXX.bin)<br />
by clicking “Read”.<br />
(1)<br />
(5).Click “Auto(2)” tab and set as below<br />
(6).click “Run(3)”.<br />
(7).After downloading, check “OK(4)” message.<br />
(2)<br />
filexxx.bin<br />
filexxx.bin<br />
(3)<br />
(4) .......... OK<br />
LGE Internal Use Only
## USB DOWNLOAD<br />
1) Put the USB Stick to the USB socket<br />
2) Automatically detecting update file in USB Stick<br />
3) Select “Start” Button and press “ok” button<br />
Updating is staring.<br />
4) Finishing the version updating, you have to put out USB<br />
stick and “AC Power” off.<br />
5) After putting “AC Power” on and check updated version<br />
on your <strong>TV</strong>.<br />
4. ADC Process<br />
* Required Equipments<br />
- Remote controller for adjustment<br />
- MSPG-925F Pattern Generator<br />
4-1. Method of Auto RGB Color Balance<br />
- Convert to RGB PC in Input-source<br />
- Input the PC 1024x768 @ 60Hz 1/2 Black & White<br />
Pattern(MSPG-925F model:60, pattern:54) into RGB.<br />
- Adjust by commanding AUTO_COLOR_ADJUST(0xF1) 0x00<br />
0x02 instruction.<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 10 -<br />
(1) Confirmation<br />
- We confirm whether “0xF1 (offset), 0xF2 (gain)” address<br />
of EEPROM “0xBC” is “0xAA” or not.<br />
- If “0xF1”, “0xF2” address of EEPROM “0xBC” isn’t “0xAA”,<br />
we adjust once more<br />
- We can confirm the ADC values from “0x00~0x05”<br />
addresses in a page “0xBC”<br />
* Manual ADC process using Service Remocon. After enter<br />
Service Mode by pushing “ADJ” key, execute “Auto-RGB”<br />
by pushing “_” key at “Auto-RGB”.<br />
4-2. Component input ADC<br />
(1) Component Gain/Offset Adjustment7<br />
- Convert to Component in Input-source<br />
- Input the Component ( Which has 720p@60Hz YPbPr<br />
signal : 100% Color Bar (MSPG-925F Model: 217/<br />
Pattern: 65 ) into Component.<br />
- Adjust by commanding AUTO_COLOR_ADJUST (0xF1)<br />
0x00 0x02 instruction<br />
(2) Confirmation<br />
- We confirm whether “0xF3 (offset), 0xF4 (gain)”<br />
address of EEPROM “0xBC” is “0xAA” or not.<br />
- If “0xF3”, “0xF4” address of EEPROM “0xBC” isn’t<br />
“0xAA”, we adjust once more.<br />
- We can confirm the ADC values from “0x06~0x0B”<br />
addresses in a page “0xBC”.<br />
* Manual ADC process using Service Remocon. After<br />
enter Service Mode by pushing “ADJ” key, execute<br />
“Auto-RGB” by pushing “_” key at “Auto-RGB”.<br />
** TOOL Option, Area Option change and AC off<br />
Before PCBA check, you have to change the Tool option, Area<br />
option and have to AC off/on (Plug out and in)<br />
(If missing this process, set can operate abnormally)<br />
5. TOOL Option, Area Option change<br />
(1) Profile : Must be changed the option value because being<br />
different with some setting value depend on module maker,<br />
inch and market.<br />
(2) Equipment : adjustment remote control.<br />
(3) Adjustment method<br />
The input methods are same as other chassis.(Use IN-<br />
START Key on the Adjust Remocon.)<br />
(If not changed the option, the input menu can differ the<br />
model spec.)<br />
* Refer to Job Expression of each main chassis ass’y<br />
(EBTxxxxxxxx) for Option value<br />
* Never push the IN-STOP KEY after completing the function<br />
inspection.<br />
LGE Internal Use Only
6. EDID (The Extended Display Identification Data )<br />
/DDC (Display Data Channel) download<br />
* Caution<br />
Use the proper signal cable for EDID Download<br />
6-1. EDID DOWNLOAD<br />
* Caution:<br />
- Never connect HDMI & D-SUB Cable at the same time.<br />
- Use the proper cables below for EDID Writing<br />
For RGB EDID<br />
* EDID Data<br />
Item<br />
Manufacturer ID<br />
Version<br />
Revision<br />
* LP81A HD Model EDID<br />
<br />
/ <br />
The data is same without Physical address<br />
C<br />
C<br />
F<br />
Condition<br />
GSM<br />
Digital : 1<br />
Digital :3<br />
-> Physical address(F) : HDMI 1 -> 10, HDMI 2 -> 20<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
D<br />
D<br />
For HDMI EDID<br />
Data<br />
1E6D<br />
01<br />
03<br />
A<br />
D<br />
B<br />
A B<br />
D<br />
E<br />
E<br />
- 11 -<br />
- Detail EDID Options are below (A, B, C, D, E, F)<br />
A. Product ID<br />
B. Serial No: Controlled on production line<br />
C. Month, Year: Controlled on production line:<br />
ex) Monthly: ‘09 ‘09<br />
Year: ‘2007 Ë ‘11’<br />
D. Model Name(Hex):<br />
Model name Model Name(HEX)<br />
LG <strong>TV</strong> 00 00 00 FC 00 4C 47 20 54 56 0A 20 20 20 20 20 20 20<br />
E Checksum: Changeable by total EDID data<br />
6-2. HDCP SETTING<br />
(High-Bandwidth Digital Contents Protection)<br />
- Connect D-sub Signal Cable to D-Sub Jack<br />
- Input HDCP key with HDCP-key- in-program<br />
- HDCP Key value is stored on EEPROM(AT24C64) which is<br />
From “0x80” addresses of 0xA0 page<br />
- AC off/ on and on HDCP button of MSPG925 and confirm<br />
whether picture is displayed or not of using MSPG925<br />
- HDCP Key value is different among the sets.,<br />
7. Adjustment of White Balance<br />
7-1. Purpose and Principle for adjustment<br />
of the color temperature<br />
- Purpose : Adjust the color temperature to reduce the<br />
deviation of the module color temperature.<br />
- Principle : To adjust the white balance without the saturation,<br />
Fix the one of R/G/B gain to C0 and decrease the others.<br />
7-2. Adjustment mode : Two modes of Cool<br />
and Warm<br />
(Medium data is automatically calibrated by the Cool data)<br />
* Required Equipment<br />
- Remote controller for adjustment<br />
- Color Analyzer : CA100+ or CA-210 or same product (ch:9)<br />
- Auto W/B adjustment instrument(only for Auto adjustment)<br />
7-3. Connecting <strong>diagram</strong> of equipment for<br />
measuring (For Automatic Adjustment)<br />
LGE Internal Use Only
(1) Enter the adjustment mode of DDC<br />
- Set command delay time : 50ms<br />
- Enter the DDC adjustment mode at the same time heatrun<br />
mode when pushing the power on by power only key<br />
- Maintain the DDC adjustment mode with same condition<br />
of Heat-run (Maintain after AC off/on in status of Heat-run<br />
pattern display)<br />
(2) Release the DDC adjustment mode<br />
- Release the adjust mode after AC off/on or std-by off/on<br />
in status of finishing the Hear-run mode<br />
- Release the Adjust mode when receiving the aging off<br />
command(F3 00 00) from adjustment equipment<br />
- Need to transmit the aging off command to <strong>TV</strong> set after<br />
finishing the adjustment.<br />
- Check DDC adjust mode release by exit key and release<br />
DDC adjust mode<br />
(3) Enter the adjust mode of white balance<br />
- Enter the white balance adjustment mode with aging<br />
command(F3, 00, FF)<br />
* Luminance min value is 200cd/m 2 ≥ in the cool mode (For <strong>LCD</strong>)<br />
7-4. Adjustment of White Balance<br />
(for Manual adjustment)<br />
(1) Adjustment mode : Two modes (Cool and Warm)<br />
(Medium data is automatically calibrated by the Cool data)<br />
(2) Color analyzer(CA100+, CA210) should be used in the<br />
calibrated ch by CS-1000(<strong>LCD</strong> : CH9, PDP : CH10)<br />
(3) Operate the zero-calibration of the CA100+ or CA-210,<br />
then stick sensor to the module when adjusting.<br />
(4) For manual adjustment, it is also possible by the following<br />
sequence.<br />
1) Select white pattern of heat-run by pressing “POWER<br />
ON” key on remote control for adjustment then operate<br />
heat run longer than 15 minutes. (If not executed this<br />
step, the condition for W/B may be different.)<br />
2) Push “Exit” key.<br />
3) Change to the AV mode by remote control.(Push front-<br />
AV or Input key)<br />
4) Input external pattern(85% white pattern)<br />
5) Push the ADJ key two times (entering White Balance<br />
mode)<br />
6) Stick the sensor to the center of the screen and select<br />
each items (Red/Green/Blue Gain and Offset) using<br />
D/E(CH +/-) key on R/C.<br />
7) Adjust R/ G/ B Gain using F/G(VOL +/-) key on R/C.<br />
8) Adjust two modes (Cool and Warm)<br />
(Fix the one of R/G/B and change the others)<br />
9) When adjustment is completed, Exit adjustment mode<br />
using EXIT key on R/C.<br />
* CASE<br />
First adjust the coordinate far away from the target value(x, y).<br />
(1) x, y > target<br />
1) Decrease the R, G.<br />
(2) x, y < target<br />
1) First decrease the B gain,<br />
2) Decrease the one of the others.<br />
- In case of decreasing the x, decreasing the R : fix G<br />
- In case of decreasing the y, decreasing the G : fix R<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 12 -<br />
(3) x > target , y < target<br />
1) First decrease B, so make y a little more than the<br />
target.<br />
2) Adjust x value by decreasing the R<br />
(4) x < target , y > target<br />
1) First decrease B, so make x a little more than the<br />
target.<br />
2) Adjust x value by decreasing the G<br />
- Standard color coordinate and temperature when using the<br />
CA100+ or CA210 equipment<br />
Mode Color coordinate Temp ∆uv<br />
X Y<br />
Cool 0.276±0.002 0.283±0.002 11,000K 0.000<br />
Warm 0.313±0.002 0.329±0.002 6,500K 0.003<br />
** DDC Command set **<br />
Adjustment<br />
Aging On/Off<br />
Input select<br />
R GAIN<br />
G GAIN<br />
B GAIN<br />
R GAIN<br />
G GAIN<br />
B GAIN<br />
R GAIN<br />
G GAIN<br />
B GAIN<br />
CSM mode<br />
AUTO ADC<br />
EEPROM Read<br />
EEPROMWrite<br />
CMD(HEX)<br />
F3<br />
F4<br />
16<br />
18<br />
1A<br />
16<br />
18<br />
1A<br />
16<br />
18<br />
1A<br />
F2<br />
F1<br />
E7<br />
E8<br />
ADR<br />
00<br />
00<br />
00<br />
01<br />
02<br />
00<br />
00<br />
00<br />
00<br />
VALUE<br />
detail<br />
FF/00 FF : ON / OO : OFF<br />
0x10 : <strong>TV</strong><br />
0x20 : AV1<br />
0x21 : AV2<br />
0x40 : Component1<br />
0x41 : Component2<br />
0x60 : RGB<br />
0x90 : HDMI1<br />
0x91 : HDMI2<br />
00 - C0 GAIN adjustment<br />
00 - C0 CSM COOL<br />
00 - C0<br />
00 - C0 GAIN adjustment<br />
00 - C0 CSM NORMAL<br />
00 - C0<br />
00 - C0 GAIN adjustment<br />
00 - C0 CSM WARM<br />
00 - C0<br />
00 COOL<br />
01 NORMAL<br />
02 WARM<br />
0, 1, 2 0: Offset adjustment<br />
1: Gain adjustment<br />
2: Offset and Gain adjustment<br />
00 EEPROM read<br />
data EEPROM write<br />
LGE Internal Use Only
8. DDC command protocol<br />
8-1. Signal TABLE<br />
8-2. E2PROM Data Write<br />
(1) Signal TABLE<br />
LEN : 84h+Bytes<br />
CMD : E8h<br />
ADH : E2PROM Slave Address (A0,A2,A4,A6), Not 00h<br />
(Reserved by BufferToEEPROM)<br />
ADL : E2PROM Sub Address(00~FF)<br />
Data : Write data<br />
Delay : 20ms<br />
(2) Command Set<br />
Adjustment contents CMD(hex) LEN Details<br />
* Purpose<br />
1) EDID write : 16-byte by 16-byte, 8 order (128-byte)<br />
write(TO “00 – 7F” of “EEPROM Page A4”).<br />
2) FOS Default write : 14-mode data write<br />
(SyncFlags, HPeriodH, HPeriodL, VtotalH, VtotalL,<br />
SrcHTotalH, SrcHTotalL, SrcHStartH, SrcHStartL,<br />
SrcVStartH, SrcVStartL, HsyncPhase).<br />
3) Random Data write : write the appointment Address of<br />
E2PROM.<br />
(3) E2PROM Data Read<br />
1) Signal TABLE<br />
2) COMMAND SET<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
Delay 20m<br />
EEPROM WRITE E8h 94 16-Byte Write<br />
Delay 150ms<br />
128 Bytes<br />
* Purpose : To read(84h) the appointment Address of E2PROM<br />
by 128(80h)-byte<br />
VAL<br />
(84+n)h n-byte Write<br />
Adjustment contents CMD(hex) ADH(hex) ADL(hex) Details<br />
EEPROM READ E7 A0 0 0-Page 0~7F Read<br />
80 0-Page 80~FF Read<br />
A2 0 1-Page 0~7F Read<br />
80 1-Page 80~FF Read<br />
A4 0 2-Page 0~7F Read<br />
80 2-Page 80~FF Read<br />
A6 0 3-Page 0~7F Read<br />
80 3-Page 80~FF Read<br />
- 13 -<br />
LGE Internal Use Only
1. No power<br />
(1) Symptom<br />
1) It is not discharged minutely from module.<br />
2) Light does not come into the front LED.<br />
(2) Check process<br />
Is the power cord<br />
plugged in?<br />
Yes<br />
Are the line filter and<br />
PSU connected?<br />
Yes<br />
Is the fuse of PSU<br />
normal? (F101)<br />
Yes<br />
Is it connected<br />
that PSU and P1100<br />
in Main B/D?<br />
Yes<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
TROUBLESHOOTING<br />
No<br />
No<br />
No<br />
No<br />
After all cables connect is removed to PSU, the<br />
AC voltage marking is authorized on manual.<br />
When ST-BY 5V is not operated. replace PSU.<br />
- 14 -<br />
Plug in the power cord.<br />
Connect the cable.(SC100)<br />
Replace the fuse.<br />
Connect a cable P1100.<br />
LGE Internal Use Only
2. No Raster<br />
(1) Symptom<br />
1) No OSD and image occur at screen.<br />
2) It maintains the condition where the front LED is green.<br />
(2) Check process<br />
Does<br />
minute discharge<br />
at Module?<br />
Yes<br />
Is the link cable<br />
normal?<br />
Yes<br />
Is the IC801’s<br />
output normal?<br />
3. Unusual display from RF mode<br />
Is<br />
video output of the<br />
Tuner normal? (Check<br />
TU500_Pin13)<br />
Block A<br />
Yes<br />
Is the LVDS<br />
Cable connected?<br />
well<br />
Yes<br />
Change the IC(IC801)<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
No<br />
Is the inverter<br />
/ VaVs on?<br />
No<br />
No<br />
No<br />
Yes<br />
Check the <strong>LCD</strong> Module<br />
Reconnect Panel line cable.<br />
(HD : P403, FHD : P402)<br />
Replace the VSC.<br />
No<br />
Is the<br />
input voltage<br />
normal?(Check<br />
Pin3)<br />
Yes<br />
No<br />
No<br />
Check the power.<br />
Cable inserts well.<br />
- 15 -<br />
Is output the normality<br />
Low/High voltage except<br />
Stand-by 5V?<br />
Is the I2C communication normal?<br />
(Check Pin9, Pin10)<br />
No<br />
Check the Tuner.<br />
Replace the<br />
Power board.<br />
LGE Internal Use Only
4. Unusual display from rear AV mode.<br />
Is video input of<br />
the A/V Jack normal?<br />
(Check R8044)<br />
Yes<br />
Same as Block A.<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
Check the input source.<br />
5. Unusual display from Side AV model.<br />
Is video input of<br />
the Side A/V Jack normal?<br />
(Check R8043)<br />
Yes<br />
Same as Block A.<br />
No<br />
Check the input source.<br />
6. Unusual display from Side S-Video mode.<br />
Is video input of<br />
the S-Video Jack normal?<br />
(Check R8041/42)<br />
Yes<br />
Same as Block A.<br />
No<br />
No<br />
Check the input source.<br />
- 16 -<br />
LGE Internal Use Only
7. Unusual display from component 1 mode<br />
Is video<br />
input of the Com1<br />
Jack normal? (Check<br />
R8011/12/13)<br />
Yes<br />
Change IC801.<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
Check the input source.<br />
8. Unusual display from component 2 model<br />
Is video<br />
input of the Com2<br />
Jack normal? (Check<br />
R8030/32/33)<br />
Yes<br />
Change IC801.<br />
No<br />
Check the input source.<br />
9. Unusual display from RGB model<br />
Is video<br />
input of the Com2<br />
Jack normal? (Check<br />
R8035/37/39)<br />
Yes<br />
Change IC801.<br />
No<br />
No<br />
Check the input source.<br />
- 17 -<br />
LGE Internal Use Only
10. No Sound<br />
(1) Symptom<br />
1) LED is green<br />
2) Screen display but sound is not output.<br />
(2) Check process<br />
All input(mode)<br />
is no sound.<br />
Yes<br />
All input(mode)<br />
is no sound.<br />
Yes<br />
Only AV/COM2/PC<br />
input is no sound.<br />
Yes<br />
Only RF is no sound.<br />
No<br />
No<br />
No<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
No<br />
Is the speaker<br />
on it menu?<br />
No<br />
Download the<br />
EDID data.<br />
Is the output of<br />
IC600 normal?<br />
Yes<br />
Check the signal after<br />
IC600 refer to circuit<br />
<strong>diagram</strong>.<br />
Check the Tuner In/Out.<br />
- 18 -<br />
No<br />
Yes<br />
Is the speaker<br />
cable normal?<br />
Yes<br />
Replace IC600<br />
Is IC801 operated<br />
normality?<br />
Yes<br />
Is IC601 operated<br />
normality?<br />
Yes<br />
Replace Main B/D.<br />
No<br />
No<br />
No<br />
Set on speaker<br />
in menu.<br />
Check the Speaker<br />
cable.<br />
Replace IC801<br />
Replace IC601<br />
LGE Internal Use Only
TUNER_I2C<br />
CVBS IN<br />
RF<br />
(Tuner)<br />
DDR MEM<br />
MAIN NVM<br />
LINE IN<br />
AV1 in<br />
SERIAL<br />
FLASH<br />
CVBS OUT x4<br />
LM324<br />
LINE_MUTE<br />
LINE OUT<br />
X4 AMP LINE OUT<br />
CVBS IN<br />
Y/C IN<br />
Y/Pb/Pr IN LINE IN x0.55 S_VIDEO_DET LINE_MUTE<br />
x0.55<br />
LINE IN<br />
Y/Pb/Pr IN<br />
AV out<br />
DISPLAY MODULE<br />
SideAV in<br />
(AV2 in)<br />
Comp1 in<br />
Mstar<br />
Romeo<br />
LGE6891CD<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
x0.55<br />
SIF IN<br />
CVBS IN<br />
LINE IN<br />
PART_I2C<br />
BLOCK DIAGRAM<br />
LVDS<br />
MC74HC4066<br />
Audio SW<br />
Comp2 in<br />
LINE IN<br />
AUDIO_SW<br />
x0.55<br />
LINE IN<br />
ROM_I2C<br />
R/G/B/HS/VS IN<br />
RGB in<br />
(D/L)<br />
DSUB_DDC<br />
LINE IN<br />
x0.55<br />
RS-232C Rx/Tx MX3232<br />
PC Audio<br />
EDID NVM<br />
in<br />
- 19 -<br />
PART_I2C<br />
UART_Rx/Tx<br />
TMDS(HDMI in)<br />
NTP3000A<br />
Digital<br />
Audio AMP<br />
SW_RESET<br />
I2S OUT<br />
HDMI_SEL<br />
HDMI1<br />
TMDS351PAG<br />
HDMI MUX<br />
DDC/HDP/CEC<br />
TMDS(HDMI in)<br />
DDC/HPD/CEC<br />
[CEC not through HDMI MUX, direct JACK to MAIN IC]<br />
DDC<br />
EDID NVM<br />
TMDS(HDMI in)<br />
HDMI2<br />
DDC<br />
EDID NVM<br />
DDC/HPD/CEC<br />
PART_I2C<br />
TMDS(HDMI in)<br />
HDMI3<br />
TW9910<br />
Sub Decoder<br />
SW_RESET<br />
656 IN<br />
DDC/HPD/CEC<br />
x4<br />
DDC<br />
CVBS OUT<br />
EDID NVM<br />
MPEG RX/TX<br />
USB(AV I/O, Data I/O)<br />
Zoran<br />
VADDIS-966XD<br />
+5V BD2041 MPEG Decoder<br />
Protect IC<br />
DDR MEM SERIAL<br />
FLASH<br />
USB<br />
MPEG RESET I2S IN<br />
656 IN<br />
LGE Internal Use Only
800<br />
300<br />
400<br />
200<br />
804<br />
521<br />
530<br />
803<br />
510<br />
121<br />
Copyright © 2008 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
EXPLODED VIEW<br />
540<br />
821<br />
802<br />
- 20 -<br />
550<br />
805<br />
801<br />
500<br />
401<br />
910<br />
120<br />
904<br />
122<br />
830<br />
902 901<br />
905<br />
900<br />
903<br />
LGE Internal Use Only
EAX40043808<br />
MSTAR LP81A<br />
JK101<br />
PPJ209-02<br />
KCN-DS-1-0089<br />
1<br />
2<br />
3<br />
4<br />
5<br />
JK104<br />
6630TGA004K<br />
6<br />
7<br />
8<br />
9<br />
10<br />
16 SHILED<br />
COMPONENT1<br />
3E<br />
4E<br />
2E<br />
5D<br />
2D<br />
5C<br />
2C<br />
5B<br />
2B<br />
3A<br />
4A<br />
2A<br />
11<br />
12<br />
13<br />
14<br />
15<br />
[RD]O_SPRING<br />
[RD]CONTACT<br />
[RD]1P_CAN2<br />
[WH]C_LUG_L<br />
[WH]1P_CAN<br />
[RD]C_LUG_L<br />
[RD]1P_CAN1<br />
[BL]C_LUG_L<br />
[BL]1P_CAN<br />
[GN]O_SPRING<br />
[GN]CONTACT<br />
[GN]1P_CAN<br />
PC<br />
RED_GND<br />
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES<br />
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.<br />
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS<br />
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR<br />
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.<br />
GND_2<br />
RED<br />
GREEN_GND<br />
DDC_DATA<br />
GREEN<br />
BLUE_GND<br />
H_SYNC<br />
BLUE<br />
NC<br />
V_SYNC<br />
GND_1<br />
SYNC_GND<br />
DDC_CLOCK<br />
DDC_GND<br />
D115<br />
5.6V<br />
D116<br />
5.6V<br />
R119<br />
220K<br />
D117<br />
SD05<br />
D118<br />
SD05<br />
D119<br />
SD05<br />
R146<br />
0<br />
R147<br />
0<br />
R120<br />
220K<br />
R121<br />
75<br />
R122<br />
75<br />
R123<br />
75<br />
SDC 15 applying check<br />
R138<br />
C113<br />
1000pF<br />
READY<br />
C114<br />
1000pF<br />
READY<br />
10K<br />
R140<br />
10K<br />
+5V_MULTI<br />
R139<br />
12K<br />
R141<br />
12K<br />
COMP1_Pr<br />
COMP1_Pb<br />
COMP1_Y<br />
C100<br />
0.1uF<br />
C<br />
AC A<br />
D108<br />
ENKMC2837-T112<br />
D110<br />
30V<br />
CDS3C30GTH<br />
C101<br />
0.1uF<br />
COMP1_R<br />
COMP1_L<br />
C<br />
AC A<br />
D109<br />
ENKMC2837-T112<br />
C<br />
AC A<br />
R112<br />
4.7K<br />
D112<br />
30V<br />
CDS3C30GTH<br />
C102<br />
0.1uF<br />
ENKMC2837-T112<br />
D111<br />
D113<br />
30V<br />
CDS3C30GTH<br />
R115<br />
R114<br />
R113<br />
4.7K<br />
JK100<br />
PPJ209-02<br />
D114<br />
30V<br />
CDS3C30GTH<br />
68<br />
68<br />
C103<br />
68pF<br />
C104<br />
68pF<br />
COMPONENT2<br />
3E<br />
[RD]O_SPRING<br />
4E [RD]CONTACT<br />
2E [RD]1P_CAN2<br />
5D [WH]C_LUG_L<br />
2D [WH]1P_CAN<br />
5C [RD]C_LUG_L<br />
2C [RD]1P_CAN1<br />
5B [BL]C_LUG_L<br />
2B [BL]1P_CAN<br />
3A [GN]O_SPRING<br />
4A [GN]CONTACT<br />
2A [GN]1P_CAN<br />
DSUB_SDA<br />
DSUB_SCL<br />
PC_HS<br />
R117<br />
75<br />
PC_VS<br />
R116<br />
75<br />
R118<br />
75<br />
PC_R<br />
PC_G<br />
PC_B<br />
D103<br />
5.6V<br />
D104<br />
5.6V<br />
**MULTI ITEM<br />
A0<br />
A1<br />
A2<br />
GND<br />
1<br />
2<br />
3<br />
4<br />
IC100<br />
AT24C02BN-10SU-1.8<br />
8<br />
7<br />
6<br />
5<br />
R106<br />
220K<br />
D105<br />
SD05<br />
D106<br />
SD05<br />
D107<br />
SD05<br />
VCC<br />
WP<br />
SCL<br />
SDA<br />
R148<br />
0<br />
R108<br />
220K<br />
R149<br />
0<br />
R109<br />
75<br />
R110<br />
75<br />
R111<br />
75<br />
C115<br />
1000pF<br />
READY<br />
C116<br />
1000pF<br />
READY<br />
R124<br />
100<br />
R125<br />
100<br />
R134<br />
10K<br />
R136<br />
10K<br />
COMP2_Pr<br />
COMP2_Pb<br />
COMP2_Y<br />
R135<br />
12K<br />
R137<br />
12K<br />
+5V_ST<br />
C105<br />
0.1uF<br />
COMP2_R<br />
COMP2_L<br />
1.24C02-SUB:0IMMRAL014D<br />
2.ENKMC2837-SUB:0DS226009AA<br />
(KDS226)<br />
R126<br />
4.7K<br />
R127<br />
4.7K<br />
DSUB_SCL<br />
DSUB_SDA<br />
SIGN1420<br />
RS-232C<br />
*ONLY LG30<br />
C107<br />
0.1uF<br />
C109<br />
0.1uF<br />
C106<br />
0.1uF<br />
C108<br />
0.1uF<br />
C1+<br />
V+<br />
C1-<br />
C2+<br />
C2-<br />
V-<br />
DOUT2<br />
RIN2<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
RS232C<br />
IC101<br />
MAX3232CDR<br />
16<br />
15<br />
14<br />
13<br />
12<br />
11<br />
10<br />
9<br />
VCC<br />
GND<br />
DOUT1<br />
RIN1<br />
ROUT1<br />
DIN1<br />
DIN2<br />
ROUT2<br />
JK102<br />
PEJ024-01<br />
R128<br />
100<br />
R129<br />
100<br />
C110<br />
0.1uF<br />
+5V_ST<br />
*RS232C TX<br />
MAIN : EAN41348201(TI)<br />
SUB : 0IMCRSG010A(STM)<br />
3 E_SPRING<br />
6A T_TERMINAL1<br />
7A B_TERMINAL1<br />
4 R_SPRING<br />
5 T_SPRING<br />
7B B_TERMINAL2<br />
6B T_TERMINAL2<br />
8 SHIELD_PLATE<br />
+3.3V_MST<br />
+5V_ST<br />
READY<br />
R130<br />
R131<br />
R150<br />
4.7K<br />
PC SOUND<br />
100<br />
100<br />
READY<br />
D122<br />
5.6V<br />
CDS3C05GTA<br />
D123<br />
5.6V<br />
CDS3C05GTA<br />
C111<br />
OPT<br />
C112<br />
OPT<br />
R151<br />
4.7K<br />
R132<br />
220K<br />
R133<br />
220K<br />
D120<br />
CDS3C30GTH<br />
30V<br />
IR_OUT<br />
D121<br />
CDS3C30GTH<br />
30V<br />
L100<br />
1000-ohm<br />
L101<br />
1000-ohm<br />
RXD<br />
TXD<br />
IR_OUT<br />
R143<br />
R144<br />
10K<br />
10K<br />
KCN-DS-1-0088<br />
R142<br />
12K<br />
R145<br />
12K<br />
JK103<br />
INPUT1 : COMP1/2,RS232C,PC<br />
MSTAR LP81A<br />
INPUT1<br />
6<br />
7<br />
8<br />
9<br />
10<br />
1<br />
2<br />
3<br />
4<br />
5<br />
PC_AUD_R<br />
PC_AUD_L<br />
2007/12/20<br />
1 11
EAX40043808<br />
MSTAR LP81A<br />
SIDE AV<br />
PPJ218-01<br />
JK205<br />
PSJ015-02<br />
SHIELD 7<br />
JK204<br />
3 GROUND<br />
4D C_LUG_S_2<br />
4C C_LUG_L_2<br />
4B C_LUG_S_1<br />
4A C_LUG_L_1<br />
5 O_SPRING<br />
4A [YL]O_SPRING<br />
5A [YL]CONTACT<br />
2A [YL]U_CAN<br />
3B [WH]C_LUG<br />
2B [WH]U_CAN<br />
4C [RD]O_SPRING<br />
5C [RD]CONTACT<br />
2C [RD]U_CAN<br />
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES<br />
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.<br />
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS<br />
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR<br />
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.<br />
D219<br />
SD05<br />
D217<br />
SD05<br />
D218<br />
SD05<br />
R245<br />
75<br />
R246<br />
75<br />
C210<br />
OPT<br />
READY<br />
READY C213<br />
0.1uF<br />
16V<br />
D215<br />
5.6V<br />
D216<br />
5.6V<br />
D214<br />
SD05<br />
R251<br />
0<br />
R252<br />
0<br />
SIDE_Y<br />
SIDE_C<br />
R241<br />
75<br />
R242<br />
220K<br />
S_VIDEO_DET<br />
R244<br />
220K<br />
SIDE_V<br />
C214<br />
100pF<br />
50V<br />
READY<br />
R247<br />
C215<br />
100pF<br />
50V<br />
READY<br />
R249<br />
10K<br />
10K<br />
R248<br />
12K<br />
R250<br />
12K<br />
SIDE_LIN<br />
SIDE_RIN<br />
PPJ150-09<br />
JK200<br />
CVBS<br />
4F[YL]CONTACT2<br />
3F [YL]O_SPRING2<br />
2F [YL]1P_CAN2<br />
3E [WH]0_SPRING2<br />
2E[WH]1P_CAN2<br />
4D[RD]CONTACT2<br />
3D [RD]O_SPRING2<br />
2D [RD]1P_CAN2<br />
4C[YL]CONTACT1<br />
3C [YL]O_SPRING1<br />
2C [YL]1P_CAN1<br />
3B [WH]0_SPRING1<br />
2B[WH]1P_CAN1<br />
4A[RD]CONTACT1<br />
3A [RD]O_SPRING1<br />
2A [RD]1P_CAN1<br />
NON HOTEL_OPT<br />
D208<br />
5.6V<br />
NON HOTEL_OPT<br />
HOTEL_OPT<br />
R214<br />
0<br />
D202<br />
5.6V<br />
D204<br />
5.6V<br />
HOTEL_OPT<br />
R213<br />
0<br />
D209<br />
5.6V<br />
NON HOTEL_OPT<br />
R236 1K<br />
C216<br />
100pF<br />
50V<br />
READY<br />
NON HOTEL_OPT<br />
R237 1K<br />
C217<br />
100pF<br />
50V<br />
READY<br />
NON HOTEL_OPT<br />
D201<br />
SD05<br />
SPK_R-_HOTEL<br />
NON HOTEL_OPT<br />
R230<br />
470K<br />
R222<br />
0<br />
R223<br />
0<br />
SPK_R+_HOTEL<br />
C<br />
E<br />
R208<br />
75<br />
B<br />
R209<br />
220K<br />
R227<br />
R210<br />
0<br />
R212<br />
220K<br />
R211<br />
0<br />
75<br />
R229<br />
C<br />
470K Q203<br />
RT1C3904-T112<br />
E<br />
HOTEL_OPT<br />
C209<br />
10uF<br />
16V<br />
Q202<br />
RT1C3904-T112<br />
INPUT2<br />
B<br />
C207<br />
OPT<br />
C211<br />
100pF<br />
50V<br />
READY<br />
C212<br />
100pF<br />
50V<br />
READY<br />
R228<br />
10K<br />
C208<br />
10uF<br />
16V<br />
R218<br />
R220<br />
10K<br />
C206<br />
100uF<br />
16V<br />
10K<br />
R219<br />
12K<br />
R221<br />
12K<br />
MNT_ROUT<br />
MNT_LOUT<br />
AUDIO_R<br />
CVBS_VIN<br />
CVBS_LIN<br />
CVBS_RIN<br />
MNT_VOUT<br />
POP NOISE<br />
MUTE_LINE<br />
INPUT2 : CVBS,SIDE AV<br />
MSTAR N-EU 2007/12/20<br />
2 11
EAX40043808<br />
MSTAR LP81A<br />
HPD_MST_2<br />
HPD_MST_1<br />
R301<br />
10K<br />
.<br />
22<br />
R300<br />
10K<br />
2SC3875S<br />
Q300<br />
RT1C3904-T112<br />
B<br />
19 HPD<br />
C<br />
E<br />
18 +5V_POWER<br />
17DDC/CEC_GND<br />
16 SDA<br />
15 SCL<br />
14 NC<br />
13 CEC<br />
12 CLK-<br />
11 CLK_SHIELD<br />
10 CLK+<br />
9 DATA0-<br />
8 DATA0_SHIELD<br />
7 DATA0+<br />
6 DATA1-<br />
5 DATA1_SHIELD<br />
4 DATA1+<br />
3 DATA2-<br />
2 DATA2_SHIELD<br />
1 DATA2+<br />
20 JACK_GND<br />
21<br />
JK302<br />
QJ41193-FEE2-7F<br />
.<br />
22<br />
B<br />
19 HPD<br />
Q301C<br />
18 +5V_POWER<br />
17 DDC/CEC_GND<br />
16 SDA<br />
15 SCL<br />
14 NC<br />
13 CEC<br />
.<br />
12 CLK-<br />
11 CLK_SHIELD<br />
10 CLK+<br />
9 DATA0-<br />
8 DATA0_SHIELD<br />
7 DATA0+<br />
6 DATA1-<br />
5 DATA1_SHIELD<br />
4 DATA1+<br />
3 DATA2-<br />
2 DATA2_SHIELD<br />
1 DATA2+<br />
20 JACK_GND<br />
21<br />
JK301<br />
QJ41193-FEE2-7F<br />
R319<br />
1K<br />
+5V_HDMI_2<br />
JP1117<br />
JP1118<br />
RT1C3904-T112<br />
E 2SC3875S<br />
.<br />
R310<br />
1K<br />
HPD_S/W_2<br />
CEC<br />
TMDS2_RXC-<br />
TMDS2_RXC+<br />
TMDS2_RX0-<br />
TMDS2_RX0+<br />
TMDS2_RX1-<br />
TMDS2_RX1+<br />
TMDS2_RX2-<br />
TMDS2_RX2+<br />
HPD_S/W_1<br />
+5V_HDMI_1<br />
CEC<br />
TMDS1_RXC-<br />
TMDS1_RXC+<br />
TMDS1_RX0-<br />
TMDS1_RX0+<br />
TMDS1_RX1-<br />
TMDS1_RX1+<br />
TMDS1_RX2-<br />
TMDS1_RX2+<br />
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES<br />
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.<br />
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS<br />
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR<br />
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.<br />
A0<br />
A1<br />
A2<br />
GND<br />
IC301<br />
AT24C02BN-10SU-1.8<br />
1<br />
2<br />
3<br />
4<br />
A0<br />
A1<br />
A2<br />
GND<br />
IC300<br />
AT24C02BN-10SU-1.8<br />
1<br />
2<br />
3<br />
4<br />
8 VCC<br />
7 WP<br />
6<br />
5<br />
SCL<br />
SDA<br />
8 VCC<br />
7 WP<br />
6<br />
5<br />
SCL<br />
SDA<br />
R323<br />
100<br />
R322<br />
100<br />
+5V_HDMI_2<br />
R330 R331<br />
47K 47K<br />
+5V_ST<br />
+5V_HDMI_2<br />
R329<br />
10K<br />
R328<br />
10K<br />
A1<br />
C<br />
A2<br />
KDS184<br />
D300<br />
KDS184S<br />
+5V_HDMI_1<br />
R324<br />
10K<br />
HDMI2_5V_DET<br />
HDMI1_5V_DET<br />
SIDE_HDMI<br />
R335<br />
10K<br />
2.SMD HDMI Jack-SUB:6612B00015B<br />
+5V_ST<br />
JP1119<br />
JP1120<br />
C301<br />
0.01uF<br />
50V<br />
+5V_HDMI_1<br />
R326 R327<br />
47K 47K<br />
R325<br />
10K<br />
A1<br />
C<br />
A2<br />
KDS184<br />
D301<br />
KDS184S<br />
0.01uF<br />
C300<br />
50V<br />
HPD_MST_3<br />
DDC_SDA2<br />
DDC_SCL2<br />
DDC_SDA1<br />
DDC_SCL1<br />
SIDE_HDMI<br />
JACK_GND<br />
20<br />
19 HPD<br />
18+5V_POWER<br />
17DDC/CEC_GND<br />
16 SDA<br />
15 SCL<br />
14 NC<br />
13 CEC<br />
12 CLK-<br />
11 CLK_SHIELD<br />
10 CLK+<br />
9 DATA0-<br />
8 DATA0_SHIELD<br />
7 DATA0+<br />
6 DATA1-<br />
5 DATA1_SHIELD<br />
4 DATA1+<br />
3 DATA2-<br />
2 DATA2_SHIELD<br />
DC1R019NBH<br />
JK303<br />
SIDE_HDMI<br />
**MULTI ITEM<br />
1.24C02-SUB:0IMMRAL014D<br />
R321<br />
R320<br />
100<br />
100<br />
+5V_HDMI_3<br />
SIDE_HDMI<br />
R344<br />
1K<br />
Q307C<br />
2SC3875S<br />
B<br />
RT1C3904-T112<br />
1 DATA2+<br />
E<br />
JP1115<br />
JP1116<br />
HPD_S/W_3<br />
A0<br />
A1<br />
A2<br />
GND<br />
CEC<br />
TMDS3_RXC-<br />
TMDS3_RXC+<br />
TMDS3_RX0-<br />
TMDS3_RX0+<br />
TMDS3_RX1-<br />
TMDS3_RX1+<br />
TMDS3_RX2-<br />
TMDS3_RX2+<br />
SIDE_HDMI<br />
IC303<br />
AT24C02BN-10SU-1.8<br />
1<br />
2<br />
3<br />
4<br />
DDC_SDA3<br />
DDC_SCL3<br />
TMDS3_RXC-<br />
TMDS3_RXC+<br />
TMDS3_RX0-<br />
TMDS3_RX0+<br />
TMDS3_RX1-<br />
TMDS3_RX1+<br />
TMDS3_RX2-<br />
TMDS3_RX2+<br />
8 VCC<br />
7 WP<br />
6<br />
5<br />
SCL<br />
SDA<br />
+5V_HDMI_3<br />
R352<br />
10K<br />
R351<br />
10K<br />
R349<br />
R348<br />
C309<br />
R377<br />
R378<br />
C308<br />
100<br />
100<br />
22<br />
22<br />
0.01uF<br />
0.01uF<br />
R353<br />
47K<br />
R372<br />
4.7K<br />
1%<br />
+5V_ST<br />
+5V_HDMI_3<br />
R354<br />
47K<br />
A1<br />
C<br />
A2<br />
KDS184<br />
D303<br />
KDS184S<br />
0.01uF<br />
C313<br />
50V<br />
HDMI3_5V_DET<br />
SDA3<br />
SCL3<br />
GND_1<br />
B31<br />
A31<br />
VCC_1<br />
B32<br />
A32<br />
GND_2<br />
B33<br />
A33<br />
VCC_2<br />
B34<br />
A34<br />
GND_3<br />
VSADJ<br />
DDC_SDA3<br />
DDC_SCL3<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
13<br />
14<br />
15<br />
16<br />
HPD_S/W_3<br />
TMDS2_RX2+<br />
TMDS2_RX2-<br />
0 R370<br />
READY<br />
62 B24<br />
63 A24<br />
64 HPD3<br />
17<br />
Y4<br />
18<br />
Z4<br />
R345 R346<br />
0 0<br />
HDMI_2+<br />
HDMI_2-<br />
19<br />
0.01uF<br />
C311<br />
61 VCC_8<br />
20<br />
TMDS2_RX1+<br />
TMDS2_RX1-<br />
59 B23<br />
60 A23<br />
21<br />
R347 R350<br />
0 0<br />
HDMI_1+<br />
HDMI_1-<br />
22<br />
58 GND_7<br />
TMDS2_RX0+<br />
TMDS2_RX0-<br />
R355 R356<br />
0 0<br />
HDMI_0+<br />
HDMI_0-<br />
0.01uF<br />
C314<br />
IC302<br />
TMDS351PAG<br />
23<br />
56 B22<br />
57 A22<br />
24<br />
25<br />
OPTION<br />
55 VCC_7<br />
26<br />
TMDS2_RXC+<br />
TMDS2_RXC-<br />
DDC_SCL2<br />
DDC_SDA2<br />
HPD_S/W_2<br />
27<br />
HDMI_C+<br />
HDMI_C-<br />
CEC<br />
28<br />
R357 R358<br />
0 0<br />
29<br />
30<br />
HDMI_SCL<br />
HDMI_SDA<br />
READY<br />
R332<br />
200<br />
D302<br />
30V<br />
CDS3C30GTH<br />
R369<br />
0<br />
READY<br />
53<br />
52 SCL2<br />
51 SDA2<br />
50 HPD2<br />
49 VDD<br />
B21<br />
54 A21<br />
31<br />
VCC_3<br />
C310 0.01uF Y3<br />
Z3<br />
GND_4<br />
Y2<br />
Z2<br />
VCC_4<br />
C312 0.01uF Y1<br />
Z1<br />
GND_5<br />
SCL_SINK<br />
SDA_SINK<br />
HPD_SINK<br />
S1<br />
SW_HPD : USE SW HPD (Default)<br />
MST_HPD : USE MST HPD<br />
22<br />
R382<br />
22<br />
R381<br />
4.7K<br />
R361<br />
32<br />
+3.3V_MULTI_MST<br />
R333<br />
51K<br />
R373<br />
0<br />
4.7K<br />
R362<br />
R376<br />
0<br />
READY<br />
A<br />
30V<br />
+3.3V<br />
CEC_C<br />
C<br />
MMBD301LT1G<br />
D304<br />
+5V_MULTI<br />
D305<br />
KDS184S<br />
KDS184<br />
MSTAR N-EU<br />
HDMI<br />
A1<br />
C<br />
A2<br />
48 A14<br />
47 B14<br />
45 A13<br />
44 B13<br />
42 A12<br />
41 B12<br />
39 A11<br />
38 B11<br />
37 SCL1<br />
36 SDA1<br />
35 HPD1<br />
34 EQ<br />
33 S2<br />
Q306<br />
BSS83<br />
D<br />
B<br />
S<br />
+3.3V_HDMI_SW<br />
46 VCC_6<br />
43 GND_6<br />
40 VCC_5<br />
+3.3V<br />
R371<br />
47K<br />
R383<br />
0<br />
READY<br />
+5V_ST<br />
0<br />
R359<br />
READY<br />
C316<br />
C315<br />
READY 0<br />
R365<br />
R380<br />
R334<br />
R368<br />
0<br />
READY<br />
0.01uF<br />
0.01uF<br />
READY<br />
R360<br />
4.7K<br />
READY<br />
+3.3V_MULTI_MST<br />
30K<br />
G<br />
R379 22<br />
22<br />
C307<br />
0.01uF<br />
50V<br />
READY<br />
TMDS1_RX1+<br />
TMDS1_RX1-<br />
TMDS1_RX0+<br />
TMDS1_RX0-<br />
TMDS1_RXC+<br />
TMDS1_RXC-<br />
DDC_SCL1<br />
DDC_SDA1<br />
HPD_S/W_1<br />
+3.3V_HDMI_SW<br />
R374<br />
4.7K<br />
TMDS1_RX2+<br />
TMDS1_RX2-<br />
*TI Recommand<br />
R375<br />
4.7K<br />
READY<br />
-> Pull up<br />
R366<br />
4.7K<br />
READY<br />
+3.3V_MULTI_MST<br />
HDMI_SEL2<br />
HDMI_SEL1<br />
2007/12/20<br />
3 11
EAX40043808<br />
MSTAR LP81A<br />
P400<br />
12505WS-15A00<br />
16<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
13<br />
14<br />
15<br />
USE LG50_60_70<br />
ZD401<br />
5.6B<br />
ZD400<br />
5.6B<br />
C400<br />
0.1uF<br />
PANEL WAFER<br />
BEAD_USE LG50_60_70<br />
L411<br />
BG1608B501F<br />
USE LG50_60_70<br />
BG1608B501F<br />
L410<br />
BEAD_USE LG50_60_70<br />
5.6B<br />
ZD402<br />
USE LG50_60_70<br />
READY<br />
C403<br />
47pF<br />
L402<br />
EAM38769502<br />
C407<br />
OPT<br />
BG1608B121F<br />
L400 EAM38769502<br />
L401<br />
C401<br />
470pF<br />
NOT LG60<br />
R_USE LG50_60_70<br />
L411-*1 0<br />
NOT LG60<br />
L410-*1 0<br />
R_USE LG50_60_70<br />
USE LG50_60_70<br />
R422 0<br />
R423<br />
EAM38769502<br />
Q403<br />
KRC102S<br />
NOT LG60 E<br />
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES<br />
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.<br />
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS<br />
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR<br />
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.<br />
0<br />
C<br />
SCL_LED<br />
SDA_LED<br />
L407<br />
USE LG50_60_70<br />
120OHM<br />
Q402<br />
2SA1530A-T112-1R<br />
NOT LG60<br />
+5V_ST<br />
R434<br />
10K<br />
NOT LG60<br />
B<br />
C414<br />
22uF<br />
16V<br />
UBW2012-121F<br />
USE LG50_60_70<br />
C406<br />
22uF<br />
16V<br />
3.3K<br />
R417 READY<br />
3.3K<br />
R435 NOT LG60<br />
+3.3V_MST<br />
IR-OUT<br />
R439<br />
47K<br />
E<br />
C<br />
IR<br />
IR-OUT<br />
R440<br />
10K<br />
B<br />
IR-OUT E<br />
10K READY<br />
R403<br />
B<br />
C412<br />
470pF<br />
+5V_ST<br />
C<br />
IR-OUT<br />
R441<br />
10K<br />
Q405<br />
2SC3052<br />
LED_G<br />
NOT LG60<br />
R410<br />
100<br />
R409<br />
10K<br />
READY<br />
BG1608B121F R420<br />
4.7K<br />
L403 EAM38769502<br />
L406<br />
C404<br />
470pF<br />
R443<br />
10K<br />
IR-OUT<br />
B<br />
C402<br />
OPT<br />
READY<br />
R414<br />
LED_R/PWM<br />
EAM38769502<br />
+5V_ST<br />
C<br />
LG60<br />
AC_DET<br />
C411<br />
0.1uF<br />
R413<br />
R425<br />
R442<br />
22 IR-OUT<br />
Q404<br />
2SC3052<br />
E IR-OUT<br />
10K<br />
NOT LG60<br />
R407 R424<br />
HD X O<br />
FHD 4.7K X<br />
READY<br />
0<br />
R407<br />
4.7K<br />
FHD<br />
R424<br />
0<br />
HD<br />
+3.3V<br />
C408<br />
0.1uF<br />
3.3K<br />
+3.3V_MST<br />
IR_OUT<br />
R421<br />
4.7K<br />
SPK-N<br />
TXCE0+,TXCE0-,TXCE1+,TXCE1-,TXCE2+,TXCE2-,TXCE3+,TXCE3-,TXCE4+,TXCE4-,TXCLKE+,TXCLKE-<br />
L404<br />
120OHM<br />
KEY1<br />
KEY2<br />
UBW2012-121F<br />
TXCE0-<br />
TXCE1-<br />
TXCE2-<br />
TXCLKE-<br />
TXCE3-<br />
TXCE4-<br />
TXCO0-<br />
TXCO1-<br />
TXCO2-<br />
TXCLKO-<br />
TXCO3-<br />
TXCO4-<br />
LED_R_PWM_Big<br />
EYEQ_RESET<br />
+5V_ST<br />
FHD<br />
P402<br />
SMAW200-40C<br />
1<br />
3<br />
5<br />
7<br />
9 10<br />
FHD 8BIT:NC<br />
11 12 FHD 8BIT:NC<br />
13<br />
15<br />
17<br />
19<br />
2<br />
4<br />
6<br />
8<br />
14<br />
16<br />
18<br />
20<br />
21 22<br />
23 24<br />
25 26<br />
FHD 8BIT:NC 27 28 FHD 8BIT:NC<br />
29 30<br />
31 32<br />
33 34<br />
35 36<br />
37 38<br />
39 40<br />
R415<br />
0<br />
READY<br />
NOT LG60<br />
R404<br />
Q406<br />
2SA1530A-T112-1R<br />
*LG6 Sound module output<br />
0<br />
R405<br />
0<br />
E<br />
C<br />
B<br />
LG60<br />
R408<br />
0<br />
TXCE0+,TXCE0-,TXCE1+,TXCE1-,TXCE2+,TXCE2-,TXCE3+,TXCE3-,TXCLKE+,TXCLKE-<br />
+3.3V<br />
10BIT except for 52 sharp R401<br />
4.7K<br />
8BIT or 52 sharp<br />
R402<br />
0<br />
TXCLKO+,TXCLKO-,TXCO0+,TXCO0-,TXCO1+,TXCO1-,TXCO2+,TXCO2-,TXCO3+,TXCO3-,TXCO4+,TXCO4-<br />
R444 3.3K LG60<br />
R445<br />
FHD<br />
3.3K<br />
LG60<br />
+5V_ST_SW<br />
CONTROL KEY<br />
TXCO0+<br />
TXCO1+<br />
TXCO2+<br />
TXCLKO+<br />
TXCO3+<br />
TXCO4+<br />
VCC_<strong>LCD</strong><br />
TXCE0+<br />
TXCE1+<br />
TXCE2+<br />
TXCLKE+<br />
TXCE3+<br />
TXCE4+<br />
VCC_<strong>LCD</strong><br />
R438<br />
HD 0<br />
R431<br />
READY<br />
R401 R402<br />
10BIT 4.7K X<br />
8BIT(HD) X 0<br />
8BIT(FHD) X 0<br />
52 sharp X 0<br />
32 sharp X X<br />
0<br />
TXCE0-<br />
TXCE1-<br />
TXCE2-<br />
TXCLKE-<br />
TXCE3-<br />
HD_NORMAL<br />
P403<br />
SMW200-26C<br />
1 2<br />
3 4<br />
5 6<br />
7 8<br />
9 10<br />
11 12<br />
13 14<br />
15 16<br />
17 18<br />
19 20<br />
NC<br />
21 22<br />
NC<br />
23 24<br />
25 26<br />
HD<br />
TXCE0+<br />
TXCE1+<br />
TXCE2+<br />
TXCLKE+<br />
TXCE3+<br />
LVDS,CTR KEY<br />
CPT<br />
R428 0<br />
R404 R444 R445 Q406 L410 L411 L407 C414 R414<br />
LG30 O X X X X X X X X<br />
LG50 O X X X BEAD BEAD BEAD 22uF X<br />
LG60 X 3.3K 3.3K O BEAD BEAD BEAD 22uF 10K<br />
LG70 O X X X BEAD BEAD BEAD 22uF X<br />
**MULTI ITEM<br />
2SC3052(P/N:0TRIY80001A) RA:2SC3875(P/N:0TR387500AA)<br />
R432 0<br />
READY<br />
HD_ATN<br />
1<br />
3<br />
5<br />
7<br />
9<br />
11<br />
13<br />
15<br />
17<br />
19<br />
P403-*1<br />
SMAW200-24C<br />
2<br />
4<br />
6<br />
8<br />
10<br />
12<br />
14<br />
16<br />
18<br />
20<br />
21 22<br />
23 24<br />
CPT<br />
R428<br />
O<br />
LPL X<br />
32 sharp X<br />
MSTAR 2007/12/20<br />
4 11
EAX40043808<br />
MSTAR LP81A<br />
21<br />
TU500<br />
TAFT-Z703D<br />
SHIELD<br />
1 NC_1<br />
2 GND_1<br />
3 +B[5V]<br />
4 NC_2<br />
5 RF_AGC<br />
R514<br />
0<br />
6 TP[33V_OPTION]<br />
7 NC_3<br />
8 GND_2<br />
9 DATA<br />
10 CLOCK<br />
11 AS<br />
12 NC_4<br />
13 V-OUT<br />
14 AFT<br />
15 A-OUT<br />
16 SIF-OUT<br />
17 NC_5<br />
18 NC_6<br />
19 NC_7<br />
20 NC_8<br />
READY R553<br />
OPT<br />
C501<br />
27pF<br />
R503<br />
4.7K<br />
+5V_TUNER<br />
C503<br />
0.01uF<br />
C502<br />
27pF<br />
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES<br />
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.<br />
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS<br />
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR<br />
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.<br />
NON EU TUNER<br />
C521<br />
10uF<br />
16V<br />
L502<br />
BLM18BD102SN1D<br />
READY<br />
R545<br />
R507 100<br />
READY<br />
READY<br />
R506<br />
0<br />
330<br />
R505 330<br />
Near the pin<br />
C507<br />
0.01uF<br />
READY<br />
C510<br />
4.7uF<br />
35V<br />
MAIN_SIF<br />
+5V_TUNER<br />
R504<br />
4.7K<br />
R508<br />
4.7K<br />
R518<br />
R519<br />
0<br />
0<br />
SDA_TUNER<br />
SCL_TUNER<br />
C520<br />
0.1uF<br />
B<br />
E<br />
+5V_TUNER<br />
UBW2012-121F<br />
L501<br />
120OHM<br />
R521<br />
220<br />
R522<br />
220<br />
Q502<br />
2SA1530A-T112-1R<br />
C<br />
C513<br />
270pF<br />
READY<br />
<strong>TV</strong>_MAIN<br />
C506<br />
4700pF<br />
B<br />
+5V_TUNER<br />
C<br />
Q501<br />
RT1C3904-T112<br />
E<br />
R515 1K<br />
R513<br />
1K<br />
C512<br />
0.027uF<br />
AM_AUDIO<br />
21<br />
TU500-*1<br />
TAFT-H703F<br />
1 NC_1<br />
2 GND_1<br />
3<br />
4 NC_2<br />
5 RF_AGC<br />
6<br />
8 GND_2<br />
9 DATA<br />
10 CLOCK<br />
11 AS<br />
+B[5V]<br />
7 NC_3<br />
12 NC_4<br />
13 V-OUT<br />
14 AFT<br />
16<br />
SHIELD<br />
SIF-OUT<br />
17 NC_5<br />
18 NC_6<br />
19 NC_7<br />
NTSC TUNER<br />
TP[33V_OPTION]<br />
15 A-OUT<br />
20 NC_8<br />
MSTAR 2007/12/20<br />
TUNER 5 1 1
EAX40043808<br />
MSTAR LP81A<br />
SW_RESET<br />
I2S_MCLK<br />
+1.8V_AVDD<br />
C601<br />
100pF<br />
C603<br />
1000pF<br />
R600<br />
3.3K<br />
+1.8V_AVDD<br />
C600<br />
10uF 16V<br />
+3.3V<br />
C605<br />
0.1uF<br />
C602<br />
0.1uF<br />
+1.8V_DVDD<br />
C606<br />
1000pF<br />
C642<br />
100pF<br />
READY<br />
SIDE_LIN<br />
COMP2_L<br />
AUDIO_SW<br />
for COMP2<br />
C608READY<br />
D602 1uF 30V<br />
R601<br />
100<br />
C604<br />
10uF 16V<br />
C607<br />
0.1uF<br />
+5V_MULTI<br />
+5V_MULTI<br />
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES<br />
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.<br />
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS<br />
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR<br />
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.<br />
C662<br />
R634<br />
4.7K<br />
2.2uF<br />
R611<br />
680K<br />
R612<br />
680K<br />
SW_L<br />
+5V_MULTI<br />
C663<br />
BST1A<br />
VDR1A<br />
/RESET<br />
AD<br />
VSS_IO<br />
CLK_I<br />
CLK_O<br />
VDD_IO<br />
DGNDPLL<br />
AGNDPLL<br />
LFM<br />
AVDDPLL<br />
DVDDPLL<br />
NC_1<br />
16V 10uF<br />
C609<br />
2.2uF<br />
C611<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
13<br />
14<br />
+1.8V_DVDD<br />
R629<br />
680K<br />
R630<br />
680K<br />
22000pF<br />
PGND1A_2<br />
15<br />
DVSS<br />
C610<br />
0.1uF<br />
56<br />
PGND1A_1<br />
55<br />
16<br />
DVDD<br />
OUT1A_2<br />
54<br />
17<br />
SDATA<br />
OUT1A_1<br />
53<br />
18<br />
WCK<br />
PVDD1A_2<br />
52<br />
19<br />
BCK<br />
PVDD1A_1<br />
51<br />
20<br />
SDA<br />
R602<br />
100<br />
C615<br />
0.1uF<br />
PVDD1B_2<br />
50<br />
I2S_SDO<br />
I2S_WS<br />
I2S_SCK<br />
SDA_Part<br />
SCL_Part<br />
XA<br />
YA<br />
YB<br />
XB<br />
CONTROL_B<br />
CONTROL_C<br />
GND<br />
C617<br />
0.1uF<br />
IC600<br />
NTP3000A<br />
21<br />
SCL<br />
PVDD1B_1<br />
49<br />
22<br />
PWM_3B/PWM_HP2<br />
R603<br />
100<br />
OUT1B_2<br />
48<br />
23<br />
PWM_3A/PWM_HP1<br />
IC602<br />
MC74HC4066ADR2G<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
OUT1B_1<br />
24<br />
PROTECT<br />
0<br />
R642<br />
AMP_MUTE_HOTEL<br />
R604<br />
3.3<br />
C613<br />
0.01uF<br />
47<br />
PGND1B_2<br />
25<br />
FAULT<br />
HOTEL_OPT<br />
46<br />
35V 330uF<br />
C612<br />
C616<br />
22000pF<br />
PGND1B_1<br />
45<br />
26<br />
VDR2B<br />
C614<br />
1uF<br />
BST1B<br />
READY<br />
30V<br />
D601<br />
44<br />
27<br />
D603<br />
30V BST2B<br />
READY<br />
PGND2B_1<br />
+16V_NTP<br />
VDR1B<br />
43<br />
28<br />
C651<br />
1000pF<br />
50V<br />
C618 1uF<br />
R606<br />
C666<br />
330uF 35V<br />
42<br />
41<br />
40<br />
39<br />
38<br />
37<br />
36<br />
35<br />
34<br />
33<br />
14 VCC<br />
13 CONTROL_A<br />
12 CONTROL_D<br />
11 XD<br />
10 YD<br />
9 YC<br />
8 XC<br />
NC_2<br />
C620<br />
1000pF<br />
VDR2A<br />
BST2A<br />
PGND2A_2<br />
PGND2A_1<br />
OUT2A_2<br />
OUT2A_1<br />
PVDD2A_2<br />
PVDD2A_1<br />
PVDD2B_2<br />
32 PVDD2B_1<br />
31 OUT2B_2<br />
30 OUT2B_1<br />
29 PGND2B_2<br />
0<br />
+16V_NTP<br />
C623<br />
R607<br />
3.9<br />
R608<br />
3.9<br />
C619<br />
1000pF<br />
Q608<br />
2SA1530A-T112-1R<br />
E<br />
22000pF<br />
C<br />
+16V_NTP<br />
C622<br />
1000pF<br />
R609<br />
3.9<br />
R610<br />
3.9<br />
C621<br />
1000pF<br />
30V<br />
D600<br />
READY<br />
+3.3V_MST<br />
C624<br />
C626<br />
0.1uF<br />
L603<br />
2S DA-8580 2F<br />
1S 1F<br />
EAP38319001<br />
1uF<br />
C625<br />
22000pF<br />
+5V_MULTI<br />
+5V_MULTI<br />
R637<br />
680K<br />
R638<br />
680K<br />
+5V_MULTI<br />
R639<br />
680K<br />
R640<br />
680K<br />
C632<br />
0.47uF<br />
+16V_NTP<br />
C631<br />
1000pF<br />
+16V_NTP<br />
C629<br />
0.1uF<br />
C630<br />
1000pF<br />
AC_DET<br />
Audio S/W : COMP2 or SIDE L/R<br />
10K<br />
R650<br />
B<br />
100<br />
R651<br />
R618<br />
3.9<br />
R617<br />
3.9<br />
C664<br />
SW_R<br />
C665<br />
C637<br />
0.1uF<br />
C636<br />
0.1uF<br />
+16V_NTP<br />
C635<br />
1000pF<br />
R622<br />
3.9<br />
R621<br />
3.9<br />
C634<br />
1000pF<br />
Q600<br />
RT1C3904-T112<br />
+5V_MULTI<br />
2.2uF<br />
R633<br />
4.7K<br />
2.2uF<br />
R624<br />
4.7K<br />
R623<br />
4.7K<br />
L607<br />
2S DA-8580 2F<br />
1S 1F<br />
EAP38319001<br />
C<br />
E<br />
B<br />
C641<br />
0.1uF<br />
C639<br />
0.01uF<br />
R626<br />
3.3<br />
R625<br />
3.3<br />
C638<br />
0.01uF<br />
C640<br />
0.47uF<br />
C644<br />
0.1uF<br />
C643<br />
0.1uF<br />
R641<br />
L611<br />
BG2012B121F<br />
EAM38769506<br />
L610<br />
BG2012B121F<br />
EAM38769506<br />
R628<br />
4.7K<br />
R627<br />
4.7K<br />
10K<br />
SIDE_RIN<br />
COMP2_R<br />
C648<br />
0.01uF<br />
R636<br />
3.3<br />
R635<br />
3.3<br />
C647<br />
0.01uF<br />
L612<br />
BG2012B121F<br />
EAM38769506<br />
SPK_L-<br />
L613<br />
BG2012B121F<br />
EAM38769506<br />
AUDIO_SW<br />
SPK_R+<br />
Digital Audio AMP<br />
for SIDE R/L<br />
SPK_L-<br />
SPK_R-<br />
SPK_L+<br />
MNT_ROUT<br />
MNT_LOUT<br />
+12V<br />
Q606<br />
RT1C3904-T112<br />
R647<br />
4.7K<br />
MNT_L_AMP<br />
+12V<br />
Q607<br />
RT1C3904-T112<br />
R649<br />
4.7K<br />
C649<br />
6800pF<br />
+12V<br />
MNT_R_AMP<br />
C<br />
E<br />
C<br />
E<br />
B<br />
+1.8V<br />
AMP_MUTE_HOTEL<br />
+12V<br />
B<br />
+12V<br />
R646<br />
1K<br />
C650<br />
6800pF<br />
L614<br />
120OHM<br />
UBW2012-121F<br />
EAM38769505<br />
L615<br />
120OHM<br />
UBW2012-121F<br />
EAM38769505<br />
R645<br />
1K<br />
+3.3V<br />
READY<br />
10K<br />
R648<br />
C628<br />
R615<br />
R614<br />
C627<br />
HOTEL_OPT<br />
R632<br />
200<br />
HOTEL_OPT<br />
R616-*115K<br />
NON HOTEL_OPT<br />
R616 10K<br />
33pF<br />
5.6K<br />
L606<br />
120OHM<br />
UBW2012-121F<br />
EAM38769505<br />
5.6K<br />
33pF<br />
NON HOTEL_OPT<br />
R613 10K<br />
HOTEL_OPT<br />
R613-*115K<br />
+1.8V_AVDD<br />
+1.8V_DVDD<br />
R620<br />
6.8K<br />
C633<br />
0.1uF<br />
R619<br />
6.8K<br />
+3.3V<br />
B<br />
R605<br />
SPK_R-<br />
SPK_R+<br />
SPK_L-<br />
SPK_L+<br />
C<br />
HOTEL_OPT<br />
Q609<br />
RT1C3904-T112<br />
E<br />
READY<br />
10K<br />
R631<br />
HOTEL_OPT<br />
0<br />
IC601<br />
SPK_R+_HOTEL<br />
SPK_R-_HOTEL<br />
1 OUT1 LM324DOUT4<br />
2 INPUT1-<br />
3 INPUT1+<br />
4 VCC<br />
+3.3V_1<br />
AMP :GAIN X 4<br />
5 INPUT2+<br />
6 INPUT2-<br />
+3.3V_1<br />
AUDIO_R<br />
INPUT4- 13<br />
INPUT4+<br />
GND<br />
INPUT3+<br />
INPUT3- 9<br />
7 OUT2 OUT3 8<br />
MSTAR N-EU<br />
AUDIO<br />
+16V_NTP<br />
HOTEL_OPT<br />
SW_RESET<br />
14<br />
12<br />
11<br />
10<br />
0.1uF<br />
C646<br />
P601<br />
SMAW250-04<br />
1<br />
2<br />
3<br />
4<br />
Chinese Hotel Option<br />
JP600<br />
JP601<br />
HOTEL_OPT<br />
P600<br />
12505WR-09A00<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
2007/12/20<br />
6 11
EAX40043808<br />
MSTAR LP81A<br />
JK700<br />
12505WS-04A00<br />
5<br />
1<br />
2<br />
3<br />
4<br />
JP700<br />
JP701<br />
JP702<br />
JP703<br />
KJA-UB-4-0004<br />
USB DOWN STREAM<br />
DEBUG TEST OPTION<br />
USB<br />
P701<br />
1<br />
2<br />
3<br />
4<br />
5<br />
RAMADD[4-9]<br />
RAMADD[0-3]<br />
+3.3VDDP<br />
DUPRD0<br />
DEC_656[0] DUPTD0<br />
** 1A Design<br />
R700<br />
27<br />
R701<br />
27<br />
RAMADD[4]<br />
28<br />
VSS1<br />
29<br />
A4<br />
R702<br />
5.1K<br />
READY<br />
100uF<br />
16V<br />
C722 C723<br />
MBW3216-501TF<br />
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES<br />
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.<br />
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS<br />
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR<br />
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.<br />
L715<br />
C709 :EMI Solution<br />
+3.3VDDP<br />
RAMADD[11]<br />
IPCLK<br />
R706<br />
4.7K<br />
R707<br />
56<br />
C709<br />
5pF<br />
RAMADD[10]<br />
RAMBA[1]<br />
RAMBA[0]<br />
RAMCS<br />
RAMRAS<br />
5%<br />
1/10W<br />
0.1uF<br />
50V<br />
R703<br />
5.1K<br />
READY<br />
RAMCAS<br />
RAMWE<br />
RAMDQM<br />
USB_DN<br />
USB_DP<br />
50V<br />
IC704<br />
HY57V641620FTP<br />
+3.3VDDP<br />
27<br />
26<br />
25<br />
24<br />
23<br />
22<br />
21<br />
20<br />
19<br />
18<br />
17<br />
16<br />
15<br />
14<br />
13<br />
12<br />
11<br />
10<br />
VDD3<br />
A3<br />
A2<br />
A1<br />
A0<br />
RAMADD[3]<br />
RAMADD[5]<br />
30 A5<br />
RAMADD[2]<br />
It’s possibel to 27~47ohm<br />
RAMADD[6]<br />
31 A6<br />
RAMADD[7]<br />
32 A7<br />
RAMADD[1]<br />
RAMADD[0]<br />
RAMADD[8]<br />
33 A8<br />
RAMADD[9]<br />
34 A9<br />
35<br />
A11<br />
36<br />
NC1<br />
37<br />
CKE<br />
38 CLK<br />
A10/AP<br />
BA1<br />
BA0<br />
CS<br />
RAS<br />
CAS<br />
WE<br />
LDQM<br />
Capacitors on VBUSA should be<br />
39<br />
UDQM<br />
40<br />
NC2<br />
41<br />
VSS2<br />
42<br />
DQ8<br />
RAMDAT[8]<br />
VDD2<br />
DQ7<br />
RAMDAT[7]<br />
43 VDDQ3<br />
RAMDAT[9]<br />
44 DQ9<br />
VSSQ2<br />
DQ6<br />
DQ5<br />
RAMDAT[6]<br />
R740<br />
0<br />
Download S/W<br />
1/10W<br />
5%<br />
ZORAN SRAM Board F/W Download<br />
16V<br />
RAMDAT[10]<br />
External F/W Download<br />
R741<br />
0<br />
Download S/W<br />
C724<br />
45<br />
DQ10<br />
46<br />
VSSQ3<br />
47<br />
DQ11<br />
RAMDAT[5]<br />
TOP SIDE!<br />
For Initial Download<br />
placed as close to Connector as possible.<br />
RAMDAT[11]<br />
10uF<br />
48 DQ12<br />
49 VDDQ4<br />
9<br />
8<br />
7<br />
6<br />
VDDQ2<br />
DQ4<br />
DQ3<br />
RAMDAT[4]<br />
RAMDAT[12]<br />
RAMDAT[3]<br />
50 DQ13<br />
5<br />
4<br />
3<br />
2<br />
1<br />
DQ2<br />
DQ1<br />
VDDQ1<br />
DQ0<br />
VDD1<br />
VSSQ1<br />
RAMDAT[13]<br />
RAMDAT[2]<br />
RAMDAT[14]<br />
51<br />
DQ14<br />
52<br />
VSSQ4<br />
53<br />
DQ15<br />
RAMDAT[1]<br />
RAMDAT[15]<br />
RAMDAT[0]<br />
R704<br />
1K<br />
R705<br />
1K<br />
1/10W<br />
5%<br />
RAMDAT[8-15]<br />
54<br />
+3.3V_SDRAM<br />
VSS3<br />
R708<br />
180<br />
RAMDAT[0-7]<br />
FLASH_WP_ZORAN<br />
SFDI<br />
SFCLK<br />
R709<br />
1K<br />
VOUT<br />
L716<br />
OPT<br />
ILIMIT<br />
FAULT/<br />
+3.3VDDP<br />
READY<br />
6<br />
5<br />
4<br />
10K<br />
R710<br />
SFCS<br />
SFDI<br />
IC705<br />
MIC2009YM6-TR<br />
1 VIN<br />
2 GND<br />
3<br />
ENABLE<br />
CS#<br />
SO<br />
WP#<br />
GND<br />
IC703_USB<br />
IC703<br />
MX25L1605AM2C-15G<br />
1<br />
2<br />
3<br />
4<br />
C725<br />
0.1uF<br />
8 VCC<br />
7 HOLD#<br />
6<br />
5<br />
SCLK<br />
SI<br />
OCP_EN<br />
R716<br />
4.7K<br />
+3.3VDDP<br />
SFCLK<br />
SFDO<br />
L717<br />
READY<br />
120OHM<br />
UBW2012-121F<br />
L718<br />
120OHM<br />
UBW2012-121F<br />
SFCS<br />
SFDO<br />
SFDI<br />
SFCLK<br />
USB_DP<br />
USB_DN<br />
+3.3V_USB<br />
+5V_MULTI<br />
+5V_USB<br />
* R715 Recommendation is 6.19k 1%<br />
to meet USB2.0 HS cert<br />
RAMADD[0-11]<br />
UBW2012-121F<br />
R729<br />
200<br />
READY<br />
L712<br />
120OHM<br />
UBW2012-121F<br />
R711<br />
R712<br />
R713<br />
R714<br />
0<br />
0<br />
R715 6.19K<br />
C719 18pF<br />
X702<br />
C720 18pF<br />
RAMADD[4]<br />
RAMADD[3]<br />
RAMADD[5]<br />
RAMADD[2]<br />
RAMADD[6]<br />
RAMADD[1]<br />
RAMADD[7]<br />
RAMADD[0]<br />
RAMADD[8]<br />
RAMADD[10]<br />
RAMADD[9]<br />
RAMADD[11]<br />
L711<br />
120OHM<br />
0<br />
0<br />
C710<br />
22uF<br />
16V<br />
12MHz<br />
C711<br />
22uF<br />
16V<br />
C712<br />
0.1uF<br />
DEC_656[7]<br />
0<br />
R717<br />
READY<br />
C754<br />
10nF<br />
50V<br />
+3.3VDDP<br />
C713<br />
0.1uF<br />
+3.3VDDA<br />
0<br />
0<br />
R718<br />
R719<br />
101<br />
102<br />
103<br />
104<br />
105<br />
106<br />
107<br />
108<br />
109<br />
110<br />
111<br />
112<br />
113<br />
114<br />
115<br />
116<br />
117<br />
118<br />
119<br />
120<br />
121<br />
122<br />
123<br />
124<br />
125<br />
126<br />
127<br />
128<br />
USB 1<br />
0<br />
0<br />
0<br />
0<br />
0<br />
R720<br />
R721<br />
R722<br />
R723<br />
R724<br />
99<br />
100<br />
RAMBA[1]<br />
RAMBA[0]<br />
RAMCS<br />
RAMRAS<br />
RAMCAS<br />
RAMWE<br />
RAMDQM<br />
IPCLK<br />
97<br />
98<br />
95<br />
96<br />
+1.8V<br />
93<br />
94<br />
22<br />
0<br />
R744<br />
R725<br />
IC707<br />
91<br />
92<br />
ZR36966PQCG-XD<br />
L713<br />
120OHM<br />
UBW2012-121F<br />
L714<br />
120OHM<br />
UBW2012-121F<br />
Connect to Main IC(CCIR656 Interface)<br />
DEC_656[6]<br />
DEC_656[5]<br />
DEC_656[4]<br />
DEC_656[3]<br />
DEC_656[2]<br />
DEC_656[1]<br />
DEC_656[0]<br />
89<br />
90<br />
C714<br />
C715<br />
R726<br />
15K<br />
1%<br />
47uF<br />
16V<br />
22uF<br />
16V<br />
DEC_656[0] : DUPTD0<br />
DEC_656[0-7]<br />
OCP_EN<br />
DEC_656_CLK<br />
87<br />
88<br />
85<br />
86<br />
83<br />
84<br />
81<br />
82<br />
C717<br />
0.1uF<br />
C716<br />
0.1uF<br />
C734<br />
0.1uF<br />
50V<br />
79<br />
80<br />
77<br />
78<br />
+1.8VDDC<br />
+1.8VDDA<br />
75<br />
76<br />
73<br />
74<br />
71<br />
72<br />
69<br />
70<br />
+1.8VDDA<br />
67<br />
68<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
13<br />
14<br />
15<br />
16<br />
17<br />
18<br />
19<br />
20<br />
21<br />
22<br />
23<br />
24<br />
25<br />
26<br />
27<br />
28<br />
29<br />
30<br />
31<br />
32<br />
33<br />
34<br />
35<br />
36<br />
37<br />
38<br />
65<br />
66<br />
+3.3VDDA<br />
C726<br />
0.1uF<br />
50V<br />
+3.3VDDP<br />
C735<br />
0.1uF<br />
50V<br />
C747<br />
0.1uF<br />
50V<br />
64<br />
63<br />
62<br />
61<br />
60<br />
59<br />
58<br />
57<br />
56<br />
55<br />
54<br />
53<br />
52<br />
51<br />
50<br />
49<br />
48<br />
47<br />
46<br />
45<br />
44<br />
43<br />
42<br />
41<br />
40<br />
39<br />
C727<br />
0.1uF<br />
50V<br />
C736<br />
0.1uF<br />
50V<br />
C748<br />
0.1uF<br />
50V<br />
+1.8VDDA<br />
+3.3VDDP<br />
+1.8VDDC<br />
RAMDAT[0]<br />
RAMDAT[15]<br />
RAMDAT[1]<br />
RAMDAT[14]<br />
RAMDAT[2]<br />
RAMDAT[13]<br />
RAMDAT[3]<br />
RAMDAT[12]<br />
RAMDAT[4]<br />
RAMDAT[11]<br />
RAMDAT[5]<br />
RAMDAT[10]<br />
RAMDAT[6]<br />
RAMDAT[9]<br />
RAMDAT[7]<br />
RAMDAT[8]<br />
C728<br />
0.1uF<br />
50V<br />
C737<br />
0.1uF<br />
50V<br />
C729<br />
0.1uF<br />
50V<br />
C738<br />
0.1uF<br />
50V<br />
+1.8VDDC<br />
+3.3VDDA<br />
R727<br />
1K<br />
R728<br />
C730<br />
0.1uF<br />
50V<br />
C739<br />
0.1uF<br />
50V<br />
C749<br />
0.1uF<br />
50V<br />
1/10W<br />
5%<br />
R739<br />
C750<br />
0.1uF<br />
50V<br />
R734<br />
R735<br />
R736<br />
R737<br />
0<br />
150<br />
C731<br />
0.1uF<br />
50V<br />
C740<br />
0.1uF<br />
50V<br />
R733<br />
390<br />
R743<br />
ZORAN I2C strobe ready 4.7K<br />
R738 0<br />
READY<br />
RAMDAT[0-15]<br />
MSTAR N-EU<br />
USB/MPEG DEC<br />
READY<br />
R742<br />
4.7K<br />
C732<br />
0.1uF<br />
50V<br />
C751<br />
0.1uF<br />
50V<br />
C741<br />
0.1uF<br />
50V<br />
75<br />
75<br />
75<br />
75<br />
+3.3VDDP<br />
DUPRD0<br />
+3.3VDDP<br />
C742<br />
0.1uF<br />
50V<br />
C752<br />
0.1uF<br />
50V<br />
* Analog Video Option<br />
* R732 Video Output Level Reference<br />
Originally 392 ohm 1%<br />
MPEG_RESET<br />
C753<br />
0.1uF<br />
50V<br />
R732<br />
220K<br />
C743<br />
0.1uF<br />
50V<br />
C745<br />
X703<br />
27MHz<br />
C746<br />
L719<br />
C744<br />
0.1uF<br />
50V<br />
* R732 Video Output Level Referenc<br />
22pF<br />
22pF<br />
MLF2012A2R7JT000 C755<br />
READY 220pF<br />
50V<br />
READY<br />
I2S_DIN<br />
TX_MPEG<br />
RX_MPEG<br />
I2S_WS_IN<br />
I2S_CLK_IN<br />
2007/12/20<br />
7 11
EAX40043808<br />
MSTAR LP81A<br />
DCDC_7.22V_PIP<br />
2SA1530A-T112-1R<br />
MNT_VOUT<br />
R8000<br />
0<br />
GAIN X 4<br />
RXB1N 1<br />
RXB1P 2<br />
GND_3 3<br />
RXB2N 4<br />
RXB2P 5<br />
HPLUGB 6<br />
DDCDB_DA 7<br />
DDCDB_CK 8<br />
RXACKN 9<br />
RXACKP 10<br />
GND_11 11<br />
RXA0N 12<br />
RXA0P 13<br />
AVDD_33_14 14<br />
RXA1N<br />
RXA1P<br />
GND_17<br />
RXA2N<br />
RXA2P<br />
HPLUGA<br />
REXT<br />
DDCDA_DA<br />
DDCDA_CK<br />
HSYNC1<br />
VSYNC1<br />
VCLAMP<br />
REFP<br />
REFM<br />
BIN1P<br />
SOGIN1<br />
GIN1P<br />
RIN1P<br />
VCOM3<br />
BIN0P<br />
VCOM2<br />
GIN0P<br />
SOGIN0<br />
RIN0P<br />
AVDD_33_39<br />
GND_40<br />
HSYNC0<br />
VSYNC0 42<br />
VSYNC2 43<br />
BIN2P 44<br />
SOGIN2 45<br />
GIN2P 46<br />
RIN2P 47<br />
C1 48<br />
Y1 49<br />
C0 50<br />
Y0 51<br />
CVBS3 52<br />
CVBS2 53<br />
CVBS1 54<br />
VCOM1 55<br />
CVBS0 56<br />
VCOM0 57<br />
AVDD_33_58 58<br />
CVBSOUT1 59<br />
CVBSOUT0 60<br />
GND_61<br />
SIP0P<br />
AVDD_SIF<br />
SIF1P<br />
SW800<br />
TMUE312GAB<br />
+5V_ST 2 4<br />
READY<br />
D800<br />
1N4148W<br />
100V<br />
READY<br />
C804<br />
0.1uF<br />
D801<br />
KDS181<br />
C800<br />
4.7uF<br />
10V<br />
R8002<br />
0<br />
+3.3V_MST<br />
R8018<br />
R8016 100<br />
33K<br />
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES<br />
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.<br />
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS<br />
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR<br />
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.<br />
C824<br />
0.1uF<br />
50V<br />
R8019<br />
100<br />
D802<br />
AC_RST<br />
KDS181<br />
HWRESET<br />
R8022<br />
C833<br />
10uF<br />
16V<br />
C834<br />
4.7uF<br />
+3.3V_MULTI_MST<br />
+3.3V_MULTI_MST<br />
0<br />
R8027 0READY<br />
R8028 0READY<br />
R8023 0READY<br />
READY<br />
R8029 0<br />
R8024 0READY<br />
READY<br />
R8026 0<br />
READY<br />
R8053 22<br />
+3.3V_MULTI_MST<br />
COMP2_Pb<br />
COMP2_Y<br />
COMP2_Pr<br />
PC_B<br />
PC_G<br />
PC_R<br />
+3.3V_MULTI_MST<br />
PC_HS<br />
PC_VS<br />
COMP1_Pb<br />
COMP1_Y<br />
COMP1_Pr<br />
SIDE_C<br />
SIDE_Y<br />
SIDE_V<br />
CVBS_VIN<br />
<strong>TV</strong>_MAIN<br />
+3.3V_MULTI_MST<br />
MNT_VOUT_T<br />
PIP_VOUT<br />
MAIN_SIF<br />
+3.3V_MULTI_MST<br />
READY<br />
61<br />
62<br />
63<br />
64<br />
RXB1N<br />
RXB1P<br />
GND_3<br />
1<br />
2<br />
3<br />
HPD_MST_1<br />
R8025 0<br />
RXB2N<br />
READY RXB2P<br />
HPLUGB<br />
DDCDB_DA<br />
4<br />
5<br />
6<br />
7<br />
R8052 22 DDCDB_CK 8<br />
HDMI_C-<br />
HDMI_C+<br />
READY RXACKN<br />
RXACKP<br />
GND_11<br />
9<br />
10<br />
11<br />
HDMI_0-<br />
HDMI_0+<br />
RXA0N<br />
RXA0P<br />
AVDD_33_14<br />
12<br />
13<br />
14<br />
HDMI_1-<br />
HDMI_1+<br />
RXA1N<br />
RXA1P<br />
GND_17<br />
15<br />
16<br />
17<br />
HPD_MST_2<br />
R8021<br />
READY<br />
0<br />
HDMI_2-<br />
HDMI_2+<br />
C805 0.1uF R8054 390<br />
RXA2N<br />
RXA2P<br />
HPLUGA<br />
REXT<br />
18<br />
19<br />
20<br />
21<br />
HDMI_SDA<br />
HDMI_SCL<br />
R8055<br />
R8056<br />
22<br />
22<br />
DDCDA_DA<br />
DDCDA_CK<br />
HSYNC1<br />
22<br />
23<br />
24<br />
C806 0.1uF<br />
VSYNC1 25<br />
C807 0.1uF<br />
C809<br />
0.1uF<br />
VCLAMP<br />
REFP<br />
26<br />
27<br />
C808 0.1uF<br />
REFM 28<br />
R8030 47<br />
R8031 47<br />
R8032 47<br />
R8033 47<br />
R8034 47<br />
R8035 47<br />
R8036 47<br />
R8037 47<br />
R8038 47<br />
R8039 47<br />
C810<br />
C811<br />
C812<br />
C813<br />
C814<br />
C815<br />
C816<br />
C817<br />
C818<br />
C819<br />
BIN1P<br />
0.047uF SOGIN1<br />
1000pF GIN1P<br />
0.047uF RIN1P<br />
0.047uF VCOM3<br />
0.047uF BIN0P<br />
0.047uF VCOM2<br />
0.047uF GIN0P<br />
0.047uF SOGIN0<br />
0.047uF RIN0P<br />
0.047uF AVDD_33_39<br />
29<br />
30<br />
31<br />
32<br />
33<br />
34<br />
35<br />
36<br />
37<br />
38<br />
39<br />
GND_40 40<br />
R8181 4.7K<br />
HSYNC0<br />
VSYNC0<br />
VSYNC2<br />
41<br />
42<br />
43<br />
NON_EU OPTION<br />
R8012<br />
R8017<br />
47<br />
47<br />
C820<br />
C821<br />
0.047uF<br />
1000pF<br />
BIN2P<br />
SOGIN2<br />
44<br />
45<br />
R8011<br />
R8013<br />
47<br />
47<br />
C822<br />
C823<br />
0.047uF<br />
0.047uF<br />
GIN2P<br />
RIN2P<br />
C1<br />
46<br />
47<br />
48<br />
CVBS_V<br />
R8041<br />
R8042<br />
47<br />
47<br />
C825<br />
C826<br />
0.047uF<br />
0.047uF<br />
Y1<br />
C0<br />
Y0<br />
CVBS3<br />
49<br />
50<br />
51<br />
52<br />
R8043<br />
R8044<br />
R8045<br />
47<br />
47<br />
47<br />
C827<br />
C828<br />
C829<br />
0.047uF<br />
0.047uF<br />
0.047uF<br />
CVBS2<br />
CVBS1<br />
VCOM1<br />
53<br />
54<br />
55<br />
R8046<br />
R8047<br />
47<br />
47<br />
C830<br />
C831<br />
0.047uF<br />
0.047uF<br />
CVBS0<br />
VCOM0<br />
56<br />
57<br />
AVDD_33_58 58<br />
R8048<br />
TW9910 block R8049<br />
47<br />
47<br />
CVBSOUT1<br />
CVBSOUT0<br />
GND_61<br />
59<br />
60<br />
61<br />
C832 0.1uF SIP0P<br />
AVDD_SIF<br />
62<br />
63<br />
SIF1P 64<br />
Q801<br />
E<br />
C<br />
193 VDDC_193<br />
194 VDDP_194<br />
195 NC_195<br />
196 NC_196<br />
197 LVA3P<br />
198 LVA3M<br />
199 LVACKP<br />
200 LVACKM<br />
201 LVA2P<br />
202 LVA2M<br />
203 LVA1P<br />
204 LVA1M<br />
205 LVA0P<br />
206 LVA0M<br />
207 VDDP_207<br />
208 GND_208<br />
209 NC_209<br />
210 NC_210<br />
211 LVB3P<br />
212 LVB3M<br />
213 LVBCKP<br />
214 LVBCKM<br />
215 LVB2P<br />
216 LVB2M<br />
217 LVB1P<br />
218 LVB1M<br />
219 LVB0P<br />
220 LVB0M<br />
221 VDDP_221<br />
222 GND_222<br />
223 GPIOE[3]<br />
224 GPIOE[2]<br />
225 GPIOE[1]<br />
226 GPIOE[0]<br />
231<br />
230 IVSYNC<br />
229 IHSYNC<br />
228 IDE<br />
227 ICLK<br />
DI[0]<br />
232 DI[1]<br />
233 DI[2]<br />
234 DI[3]<br />
235 VDDP_235<br />
236 DI[4]<br />
237 DI[5]<br />
238 DI[6]<br />
239 DI[7]<br />
240 VDDC_240<br />
241 GND_241<br />
242 DI[8]<br />
243 DI[9]<br />
244 DI[10]<br />
245 DI[11]<br />
246 DI[12]<br />
247 DI[13]<br />
248 HWRESET<br />
249 XOUT<br />
250 XIN<br />
251 AVDD_MPLL<br />
252 RXBCKN<br />
253 RXBCKP<br />
254 AVDD_33_254<br />
255 RXB0N<br />
256 RXB0P<br />
15<br />
16<br />
17<br />
18<br />
19<br />
20<br />
21<br />
22 IC801-*1<br />
23<br />
24<br />
25<br />
26<br />
27<br />
28<br />
29<br />
30 LGE6891DD<br />
31<br />
32<br />
33<br />
34<br />
35<br />
36<br />
37<br />
38<br />
39<br />
40 HD<br />
41<br />
65<br />
66<br />
67<br />
68<br />
69<br />
70<br />
71<br />
72<br />
73<br />
74<br />
75<br />
76<br />
77<br />
78<br />
79<br />
80<br />
81<br />
82<br />
83<br />
84<br />
85<br />
86<br />
87<br />
88<br />
89<br />
90<br />
91<br />
92<br />
93<br />
94<br />
95<br />
96<br />
97<br />
98<br />
99<br />
100<br />
101<br />
102<br />
103<br />
104<br />
105<br />
106<br />
107<br />
108<br />
109<br />
110<br />
111<br />
112<br />
113<br />
114<br />
115<br />
116<br />
117<br />
118<br />
119<br />
120<br />
121<br />
122<br />
123<br />
124<br />
125<br />
126<br />
127<br />
128<br />
SIFM<br />
GND_66<br />
AUVRADN<br />
AUVRADP<br />
AUVREF<br />
AVDD_AU<br />
AUL0<br />
AUR0<br />
AUL1<br />
AUR1<br />
AUCOM<br />
AUL2<br />
AUR2<br />
AUL3<br />
AUR3<br />
AUMONO<br />
AUOUTL3<br />
AUOUTR3<br />
AUOUTL2<br />
AUOUTR2<br />
AUOUTL1<br />
AUOUTR1<br />
AUOUTL0<br />
AUOUTR0<br />
GPIOF[0]<br />
GPIOF[1]<br />
GPIOF[2]<br />
GPIOF[3]<br />
GPIOF[4]<br />
GPIOF[5]<br />
GPIOF[6]<br />
GPIOF[7]<br />
GPIOF[8]<br />
GPIOF[9]<br />
VDDP_99<br />
GND_100<br />
VDDC_101<br />
DQS[1]<br />
MDATA[15]<br />
MDATA[14]<br />
GND_105<br />
MDATA[13]<br />
MDATA[12]<br />
VDDM_108<br />
MDATA[11]<br />
MDATA[10]<br />
MDATA[9]<br />
MDATA[8]<br />
GND_113<br />
VDDM_114<br />
MDATA[7]<br />
MDATA[6]<br />
MDATA[5]<br />
MDATA[4]<br />
VDDM_119<br />
MDATA[3]<br />
MDATA[2]<br />
MDATA[1]<br />
MDATA[0]<br />
DQS[0]<br />
LDQM<br />
UDQM<br />
MVREF<br />
MCLKE<br />
B<br />
1<br />
3<br />
C<br />
E<br />
R8004<br />
1% 402<br />
5<br />
R8006<br />
470<br />
B<br />
Q802<br />
R8007<br />
68<br />
R868<br />
402<br />
1608<br />
R8010<br />
MNT_VOUT_T<br />
RT1C3904-T112<br />
100<br />
129 MCLKZ<br />
130 MCLK<br />
131 BADR[1]<br />
132 BADR[0]<br />
133 RASZ<br />
134 GND_134<br />
135 VDDM_135<br />
136 AVDD_MEMPLL<br />
137 CASZ<br />
138 WEZ<br />
139 MADR[0]<br />
140 MADR[1]<br />
141 MADR[2]<br />
142 MADR[3]<br />
143 MADR[4]<br />
144 MADR[5]<br />
145 MADR[6]<br />
146 MADR[7]<br />
147 VDDM_147<br />
148 GND_148<br />
149 VDDC_149<br />
150 MADR[8]<br />
151 MADR[9]<br />
152 MADR[10]<br />
153 MADR[11]<br />
154 AD[0]<br />
155 AD[1]<br />
156 AD[2]<br />
157 AD[3]<br />
158 AD[4]<br />
159 AD[5]<br />
160 AD[6]<br />
161 AD[7]<br />
162 WRZ<br />
163 RDZ<br />
164 ALE<br />
165 VDDP_165<br />
166 GND_166<br />
169<br />
168 SDI<br />
167 SCK<br />
CSZ<br />
177<br />
176 PWM1<br />
175 PWM0<br />
174 SAR3<br />
173 SAR2<br />
172 SAR1<br />
171 SAR0<br />
170 SDO<br />
DDCR_DA<br />
178 DDCR_CK<br />
179 DDCA_DA<br />
180 DDCA_CK<br />
183<br />
182 IRIN<br />
181 INT<br />
VDDP_183<br />
184 GND_184<br />
185 VDDC_185<br />
186 GPIOB[4]<br />
187 GPIOB[5]<br />
188 GPIOB[6]<br />
189 NC_189<br />
190 NC_190<br />
192 PWM3<br />
191 PWM2<br />
DCDC_7.22V_PIP<br />
#8. MSTAR<br />
PIP_V<br />
R8081<br />
0<br />
TW9910 block<br />
MSTAR Recommand<br />
: over 8V<br />
R8014<br />
75<br />
0.1uF<br />
C881<br />
C Q804<br />
2SA1530A-T112-1R<br />
GAIN X 4<br />
E<br />
B<br />
R8020<br />
402<br />
R870<br />
402<br />
C<br />
E<br />
TW9910 block<br />
R8050<br />
470<br />
B<br />
PIP_VOUT<br />
Q805<br />
RT1C3904-T112<br />
R8051<br />
68<br />
1608<br />
R8060<br />
100<br />
255 RXB0N<br />
256 RXB0P<br />
C835<br />
0.1uF<br />
1uF<br />
C837<br />
20pF<br />
C882<br />
C838<br />
0.1uF<br />
C836<br />
16V<br />
0.1uF<br />
C880<br />
0.1uF<br />
252 RXBCKN<br />
253 RXBCKP<br />
254 AVDD_33_254<br />
+3.3V_MULTI_MST<br />
251 AVDD_MPLL<br />
X800<br />
14.31818MHz<br />
2.2uF<br />
COMP1_L<br />
2.2uF<br />
20pF<br />
HWRESET<br />
HDMI1_5V_DET<br />
HDMI2_5V_DET<br />
HDMI3_5V_DET<br />
2.2uF<br />
C841<br />
R8064<br />
1M<br />
249 XOUT<br />
250 XIN<br />
248 HWRESET<br />
2.2uF<br />
COMP1_R<br />
SW_L<br />
SW_R<br />
120HZ: H<br />
Normal: L<br />
0.1uF<br />
2.2uF<br />
100<br />
R8065<br />
2.2uF<br />
HDMI_SEL2<br />
HDMI_SEL1<br />
100<br />
R8066<br />
2.2uF<br />
+3.3V_MST<br />
100<br />
R8015<br />
241 GND_241<br />
242 DI[8]<br />
243 DI[9]<br />
244 DI[10]<br />
245 DI[11]<br />
246 DI[12]<br />
247 DI[13]<br />
PC_AUD_L<br />
PC_AUD_R<br />
CVBS_LIN<br />
CVBS_RIN<br />
AM_AUDIO<br />
0.1uF<br />
C850<br />
240 VDDC_240<br />
I2S_DIN<br />
I2S_CLK_IN<br />
I2S_WS_IN<br />
100<br />
100<br />
R8074<br />
2.2uF<br />
2.2uF<br />
100<br />
100<br />
100<br />
100<br />
2.2K<br />
READY<br />
R8071<br />
R8075<br />
READY<br />
R8077<br />
236 DI[4]<br />
237 DI[5]<br />
238 DI[6]<br />
239 DI[7]<br />
R8078<br />
READY<br />
10K<br />
1000pF<br />
R8076<br />
+3.3V_MST<br />
235 VDDP_235<br />
R8173<br />
4.7K<br />
READY<br />
R8174<br />
4.7K<br />
MNT_L_AMP<br />
MNT_R_AMP<br />
SDA_TUNER<br />
SCL_TUNER<br />
222 GND_222<br />
223 GPIOE[3]<br />
224 GPIOE[2]<br />
225 GPIOE[1]<br />
226 GPIOE[0]<br />
231<br />
230 IVSYNC<br />
229 IHSYNC<br />
228 IDE<br />
227 ICLK<br />
DI[0]<br />
232 DI[1]<br />
233 DI[2]<br />
234 DI[3]<br />
22K<br />
1000pF<br />
22K<br />
1000pF<br />
C860<br />
0.1uF<br />
R8105<br />
1K<br />
R8106<br />
READY<br />
+3.3V_MST<br />
R8107<br />
READY<br />
R8109<br />
READY<br />
R8111<br />
3.3K<br />
PWM0 PWM1 PWM2 PWM3<br />
R8112<br />
READY<br />
TXCLKO+,TXCLKO-,TXCO0+,TXCO0-,TXCO1+,TXCO1-,TXCO2+,TXCO2-,TXCO3+,TXCO3-,TXCO4+,TXCO4-<br />
0.1uF<br />
TXCO4+<br />
TXCO4-<br />
TXCO3+<br />
TXCO3-<br />
TXCLKO+<br />
TXCLKO-<br />
TXCO2+<br />
TXCO2-<br />
TXCO1+<br />
TXCO1-<br />
TXCO0+<br />
TXCO0-<br />
C859<br />
+3.3V_MST<br />
R8099<br />
10K<br />
IC801<br />
LGE6991DD<br />
FHD<br />
208 GND_208<br />
209 NC_209<br />
210 NC_210<br />
211 LVB3P<br />
212 LVB3M<br />
213 LVBCKP<br />
214 LVBCKM<br />
215 LVB2P<br />
216 LVB2M<br />
217 LVB1P<br />
218 LVB1M<br />
219 LVB0P<br />
220 LVB0M<br />
C861<br />
0.1uF<br />
0.1uF<br />
TXCE4+<br />
TXCE4-<br />
TXCE3+<br />
TXCE3-<br />
TXCLKE+<br />
TXCLKE-<br />
TXCE2+<br />
TXCE2-<br />
TXCE1+<br />
TXCE1-<br />
TXCE0+<br />
TXCE0-<br />
65<br />
66<br />
67<br />
68<br />
69<br />
70<br />
71<br />
72<br />
73<br />
74<br />
75<br />
76<br />
77<br />
78<br />
79<br />
80<br />
81<br />
82<br />
83<br />
84<br />
85<br />
86<br />
87<br />
88<br />
89<br />
90<br />
91<br />
92<br />
93<br />
94<br />
95<br />
96<br />
97<br />
98<br />
99<br />
100<br />
101<br />
102<br />
103<br />
104<br />
105<br />
106<br />
107<br />
108<br />
109<br />
110<br />
111<br />
112<br />
113<br />
114<br />
115<br />
116<br />
117<br />
118<br />
119<br />
120<br />
121<br />
122<br />
123<br />
124<br />
125<br />
126<br />
127<br />
128<br />
SIFM<br />
GND_66<br />
AUVRADN<br />
AUVRADP<br />
AUVREF<br />
AVDD_AU<br />
AUL0<br />
AUR0<br />
AUL1<br />
AUR1<br />
AUCOM<br />
AUL2<br />
AUR2<br />
AUL3<br />
AUR3<br />
AUMONO<br />
AUOUTL3<br />
AUOUTR3<br />
AUOUTL2<br />
AUOUTR2<br />
AUOUTL1<br />
AUOUTR1<br />
AUOUTL0<br />
AUOUTR0<br />
GPIOF[0]<br />
GPIOF[1]<br />
GPIOF[2]<br />
GPIOF[3]<br />
GPIOF[4]<br />
GPIOF[5]<br />
GPIOF[6]<br />
GPIOF[7]<br />
GPIOF[8]<br />
GPIOF[9]<br />
VDDP_99<br />
GND_100<br />
VDDC_101<br />
DQS[1]<br />
MDATA[15]<br />
MDATA[14]<br />
GND_105<br />
MDATA[13]<br />
MDATA[12]<br />
VDDM_108<br />
MDATA[11]<br />
MDATA[10]<br />
MDATA[9]<br />
MDATA[8]<br />
GND_113<br />
VDDM_114<br />
MDATA[7]<br />
MDATA[6]<br />
MDATA[5]<br />
MDATA[4]<br />
VDDM_119<br />
MDATA[3]<br />
MDATA[2]<br />
MDATA[1]<br />
MDATA[0]<br />
DQS[0]<br />
LDQM<br />
UDQM<br />
MVREF<br />
MCLKE<br />
C839<br />
C840<br />
C842<br />
C843<br />
C844<br />
C845<br />
C846<br />
C847<br />
C848<br />
C849<br />
R8072<br />
R8073<br />
SW_L/R: COMP2_L/R or SIDE_L/R<br />
H/W OPTION #3<br />
R8090<br />
4.7K<br />
READY<br />
R8091<br />
4.7K<br />
SPK-N R8183 2.2K<br />
0<br />
0<br />
C852 0.1uF<br />
R8082 100<br />
I2S_SDO<br />
R8085 100<br />
I2S_SCK<br />
R8087 100<br />
I2S_WS<br />
R8089 100<br />
I2S_MCLK<br />
R8079<br />
R8080<br />
R8092 100 RS232C<br />
TXD<br />
R8094 100 RS232C<br />
RXD RS232C<br />
R8095 100<br />
PANEL_ON<br />
R8058<br />
R8057<br />
HPD_MST_3<br />
C851<br />
DEC_656[0]<br />
DEC_656[1]<br />
DEC_656[2]<br />
DEC_656[3]<br />
DEC_656[4]<br />
DEC_656[5]<br />
DEC_656[6]<br />
R8084<br />
C853<br />
R8088<br />
C854<br />
0<br />
0 HPD_MST_2<br />
READY<br />
FLASH_WP<br />
S_VIDEO_DET<br />
DEC_656[7]<br />
221 VDDP_221<br />
MDATA[15]<br />
MDATA[14]<br />
MDATA[13]<br />
MDATA[12]<br />
MDATA[11]<br />
MDATA[10]<br />
MDATA[9]<br />
MDATA[8]<br />
<br />
C862<br />
207 VDDP_207<br />
C863<br />
0.1uF<br />
R8108<br />
3.3K<br />
TXCE0+,TXCE0-,TXCE1+,TXCE1-,TXCE2+,TXCE2-,TXCE3+,TXCE3-,TXCE4+,TXCE4-,TXCLKE+,TXCLKE-<br />
C864<br />
0.1uF<br />
R8110<br />
3.3K<br />
0.1uF<br />
C865<br />
193 VDDC_193<br />
194 VDDP_194<br />
195 NC_195<br />
196 NC_196<br />
197 LVA3P<br />
198 LVA3M<br />
199 LVACKP<br />
200 LVACKM<br />
201 LVA2P<br />
202 LVA2M<br />
203 LVA1P<br />
204 LVA1M<br />
205 LVA0P<br />
206 LVA0M<br />
MDATA[7]<br />
MDATA[6]<br />
MDATA[5]<br />
MDATA[4]<br />
MDATA[3]<br />
MDATA[2]<br />
MDATA[1]<br />
MDATA[0]<br />
0.1uF<br />
C866<br />
129 MCLKZ<br />
130 MCLK<br />
131 BADR[1]<br />
132 BADR[0]<br />
133 RASZ<br />
134 GND_134<br />
135 VDDM_135<br />
136 AVDD_MEMPLL<br />
137 CASZ<br />
138 WEZ<br />
139 MADR[0]<br />
140 MADR[1]<br />
141 MADR[2]<br />
142 MADR[3]<br />
143 MADR[4]<br />
144 MADR[5]<br />
145 MADR[6]<br />
146 MADR[7]<br />
147 VDDM_147<br />
148 GND_148<br />
149 VDDC_149<br />
150 MADR[8]<br />
151 MADR[9]<br />
152 MADR[10]<br />
153 MADR[11]<br />
154 AD[0]<br />
155 AD[1]<br />
156 AD[2]<br />
157 AD[3]<br />
158 AD[4]<br />
159 AD[5]<br />
160 AD[6]<br />
161 AD[7]<br />
162 WRZ<br />
163 RDZ<br />
164 ALE<br />
165 VDDP_165<br />
166 GND_166<br />
169<br />
168 SDI<br />
167 SCK<br />
CSZ<br />
177<br />
176 PWM1<br />
175 PWM0<br />
174 SAR3<br />
173 SAR2<br />
172 SAR1<br />
171 SAR0<br />
170 SDO<br />
DDCR_DA<br />
178 DDCR_CK<br />
179 DDCA_DA<br />
180 DDCA_CK<br />
183<br />
182 IRIN<br />
181 INT<br />
VDDP_183<br />
184 GND_184<br />
185 VDDC_185<br />
186 GPIOB[4]<br />
187 GPIOB[5]<br />
188 GPIOB[6]<br />
189 NC_189<br />
190 NC_190<br />
192 PWM3<br />
191 PWM2<br />
C868<br />
C869<br />
C867<br />
0.1uF<br />
0.1uF<br />
0.1uF<br />
R8178<br />
R8120<br />
R8121<br />
R8122<br />
R8123<br />
PWM2<br />
PWM3<br />
R8127<br />
R8115<br />
R8116<br />
R8117<br />
R8118<br />
FLASH_WP_ZORAN<br />
FLASH_WP<br />
R8126<br />
100<br />
C870<br />
C871<br />
C872<br />
+3.3V_MULTI_MST<br />
C873<br />
100 NOT LG60<br />
100<br />
R866 100 LG60<br />
100<br />
100<br />
100<br />
100<br />
0<br />
0<br />
0<br />
0<br />
0.1uF<br />
0.1uF<br />
0.1uF<br />
0.1uF<br />
C875<br />
10uF<br />
16V<br />
C876<br />
0.1uF<br />
C877<br />
0.1uF<br />
R8131 100<br />
R8132 1K<br />
LPL_CMO<br />
R8134 100<br />
R8135 100<br />
USE LG50_60_70 R8086<br />
R8168 100<br />
R8169 100<br />
C879<br />
10uF<br />
16V<br />
+3.3V_MST<br />
R8139 100<br />
READY<br />
R8140<br />
100<br />
READY<br />
R8142 1K<br />
AR802<br />
AR801<br />
AR800<br />
R8143<br />
R8144<br />
R8145<br />
R8146<br />
R8147<br />
R8150<br />
R8151<br />
R8152<br />
R8153<br />
R8154<br />
R8003<br />
C878<br />
1000pF<br />
R8005<br />
R8067<br />
0<br />
R8148<br />
R8149<br />
3.3K<br />
R8157<br />
3.3K<br />
R8158<br />
100<br />
100<br />
100<br />
100<br />
100<br />
100<br />
100<br />
100<br />
39<br />
39<br />
100<br />
100<br />
100<br />
100<br />
100<br />
100<br />
R8001<br />
0<br />
READY<br />
100<br />
10K<br />
10K<br />
R8102<br />
READY<br />
B<br />
LED_R/PWM<br />
LED_R_PWM_Big<br />
PWM1<br />
PWM0<br />
IR<br />
DSUB_SCL<br />
DSUB_SDA<br />
KEY2<br />
SPI_CZ<br />
SPI_DI<br />
SPI_CLK<br />
SPI_CZ<br />
SPI_DO<br />
SDA_Part<br />
E_DIMMING<br />
I_DIMMING<br />
MPEG_RESET<br />
KEY1<br />
SPI_DO<br />
DISP_EN<br />
CEC_C<br />
TX_MPEG<br />
RX_MPEG<br />
SCL_Part<br />
SW_RESET<br />
DON’T USE(156,157)<br />
R8163<br />
1K<br />
+3.3V_MST<br />
Q803<br />
R8187<br />
10K<br />
R8061<br />
0<br />
READY<br />
C<br />
RT1C3904-T112<br />
E<br />
MADR[11]<br />
MADR[10]<br />
MADR[9]<br />
MADR[8]<br />
MADR[7]<br />
MADR[6]<br />
MADR[5]<br />
MADR[4]<br />
MADR[3]<br />
MADR[2]<br />
MADR[1]<br />
MADR[0]<br />
AC_DET<br />
PANEL_STATUS<br />
R8167<br />
1K<br />
L509<br />
MBW3216-501TF<br />
+3.3V_MST<br />
R8184<br />
2.2K<br />
USE LG50_60_70<br />
R8137<br />
MADR[0-11]<br />
C883<br />
0.47uF<br />
25V<br />
MADR[0-11]<br />
WEZ<br />
CASZ<br />
RASZ<br />
SBA0<br />
SBA1<br />
MCLK<br />
MCLKZ<br />
CKE<br />
UDQM<br />
LDQM<br />
DQS0<br />
DQS1<br />
R8171<br />
100<br />
R8172<br />
100<br />
EYEQ_RESET<br />
100<br />
MDATA[0-15]<br />
DEC_656[0-7]<br />
+2.5V_VDDM_MST<br />
+3.3V_MST<br />
IC802<br />
AT24C64AN-10SU-2.7<br />
A0<br />
A1<br />
A2<br />
GND<br />
R8185<br />
2.2K<br />
RL_ON<br />
AUDIO_SW<br />
DEC_656_CLK<br />
+1.2V_VDDC_MST<br />
+2.5V_VDDM_MST<br />
1<br />
2<br />
3<br />
4<br />
+3.3V_MST<br />
R867<br />
4.7K<br />
USE LG50_60_70<br />
DDR SDRAM<br />
MSTAR N-EU<br />
MSTAR<br />
MPEG UART<br />
MX25L1605AM2C-15G<br />
CS#<br />
SO<br />
WP#<br />
GND<br />
H/W OPTION #1<br />
R865 HD<br />
4.7K<br />
FHD<br />
R8070<br />
4.7K<br />
1<br />
2<br />
3<br />
4<br />
SDA_LED<br />
MUTE_LINE<br />
SCL_LED<br />
R8182<br />
3.3K<br />
LG60<br />
IC803<br />
8 VCC<br />
7 WP<br />
6<br />
5<br />
NOT LG60<br />
R8188<br />
0<br />
SCL<br />
SDA<br />
8 VCC<br />
7 HOLD#<br />
6<br />
5<br />
SCLK<br />
SI<br />
IC803<br />
+3.3V_MST<br />
LED_G<br />
R8179<br />
100<br />
R8175<br />
0<br />
R8176<br />
0<br />
+3.3V_MST<br />
R8062<br />
4.7K<br />
10BIT<br />
R8063<br />
4.7K<br />
+5V_ST_SW<br />
+3.3V_MST<br />
H/W OPTION #2<br />
8BIT<br />
SPI_CLK<br />
SPI_DI<br />
SCL_Part<br />
SDA_Part<br />
Insert all except LG60:R8188<br />
2007/12/20<br />
8 11
EAX40043807<br />
MSTAR LP81A<br />
#9.DDR<br />
MADR[0-11]<br />
MDATA[0-15]<br />
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES<br />
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.<br />
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS<br />
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR<br />
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.<br />
MADR[0-11]<br />
MADR[11]<br />
MADR[10]<br />
MADR[9]<br />
MADR[8]<br />
MADR[7]<br />
MADR[6]<br />
MADR[5]<br />
MADR[4]<br />
MADR[3]<br />
MADR[2]<br />
MADR[1]<br />
MADR[0]<br />
MDATA[0-15]<br />
MADR[11]<br />
MADR[10]<br />
MADR[9]<br />
MADR[8]<br />
MADR[7]<br />
MADR[6]<br />
MADR[5]<br />
MADR[4]<br />
MADR[3]<br />
MADR[2]<br />
MADR[1]<br />
MADR[0]<br />
MDATA[8]<br />
DQS1<br />
UDQM<br />
WEZ<br />
CASZ<br />
RASZ<br />
SBA0<br />
SBA1<br />
AR902<br />
56<br />
1/16W<br />
AR903<br />
56<br />
1/16W<br />
MADR[10]<br />
MADR[0]<br />
MADR[1]<br />
MADR[2]<br />
MADR[3]<br />
C900<br />
0.1uF<br />
C902<br />
0.1uF<br />
C903<br />
0.1uF<br />
C904<br />
0.1uF<br />
C905<br />
0.1uF<br />
C901<br />
0.1uF<br />
A13/NC_2<br />
BA0<br />
BA1<br />
A10/AP<br />
A0<br />
A1<br />
A2<br />
A3<br />
VDD_3<br />
IC900<br />
HYB25DC256163CE-4<br />
17<br />
26<br />
27<br />
28<br />
29<br />
30<br />
31<br />
32<br />
33<br />
50 NC_7<br />
49 VREF<br />
48 VSS_2<br />
47 UDM<br />
46 CK<br />
45 CK<br />
44 CKE<br />
43 NC_6<br />
42 A12/NC_5<br />
41 A11<br />
40 A9<br />
39 A8<br />
38 A7<br />
37 A6<br />
36 A5<br />
35 A4<br />
34 VSS_1<br />
C907<br />
1000pF<br />
READY<br />
C906<br />
0.1uF<br />
R903<br />
150<br />
C908<br />
0.1uF<br />
C909<br />
0.1uF<br />
R905<br />
150<br />
R906<br />
1K<br />
+2.5V_VDDM_MST<br />
VDDQ_1<br />
3<br />
64 VSSQ_5<br />
MDATA[9] MDATA[6]<br />
MDATA[10]<br />
MDATA[11]<br />
MDATA[12]<br />
MDATA[13]<br />
MDATA[14]<br />
MDATA[15]<br />
MADR[10]<br />
MADR[0]<br />
MADR[1]<br />
MADR[2]<br />
MADR[3]<br />
VDD_1<br />
DQ0<br />
DQ1<br />
DQ2<br />
VSSQ_1<br />
DQ3<br />
DQ4<br />
VDDQ_2<br />
DQ5<br />
DQ6<br />
VSSQ_2<br />
DQ7<br />
NC_1<br />
VDDQ_3<br />
LDQS<br />
VDD_2<br />
NC_3<br />
LDM<br />
WE<br />
CAS<br />
RAS<br />
CS<br />
NC_4<br />
1<br />
2<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
13<br />
14<br />
15<br />
16<br />
18<br />
19<br />
20<br />
21<br />
22<br />
23<br />
24<br />
25<br />
66 VSS_3<br />
65 DQ15<br />
63 DQ14<br />
62 DQ13<br />
61 VDDQ_5<br />
60 DQ12<br />
59 DQ11<br />
58 VSSQ_4<br />
57 DQ10<br />
56 DQ9<br />
55 VDDQ_4<br />
54 DQ8<br />
53 NC_8<br />
52 VSSQ_3<br />
51 UDQS<br />
MADR[11]<br />
MADR[9]<br />
MADR[8]<br />
MADR[7]<br />
MADR[6]<br />
MADR[5]<br />
MADR[4]<br />
AR901<br />
56<br />
1/16W<br />
AR900<br />
56<br />
1/16W<br />
MADR[11]<br />
MADR[9]<br />
MADR[8]<br />
MADR[7]<br />
MADR[6]<br />
MADR[5]<br />
MADR[4]<br />
**MULTI ITEM<br />
R909<br />
1K<br />
MDATA[7]<br />
MDATA[5]<br />
MDATA[4]<br />
MDATA[3]<br />
MDATA[2]<br />
MDATA[1]<br />
MDATA[0]<br />
DQS0<br />
LDQM<br />
MCLK<br />
MCLKZ<br />
MAIN - QIMONDA : EAN41788501<br />
SUB - HYNIX : EAN31729202<br />
CKE<br />
MDATA[0-15]<br />
+2.5V_VDDM_MST<br />
MSTAR<br />
2007/12/20<br />
DDR 9 11
EAX40043807<br />
MSTAR LP81A<br />
SW_RESET<br />
R1004<br />
READY<br />
C1000<br />
0.1uF<br />
SCL_Part<br />
SDA_Part<br />
PIP_V<br />
+1.8V_AVD<br />
R1000<br />
75<br />
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES<br />
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.<br />
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS<br />
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR<br />
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.<br />
+3.3V<br />
100<br />
R1001<br />
4.7K<br />
R1006<br />
4.7K<br />
+3.3V<br />
0.01uF<br />
C1001<br />
R1003<br />
R1002<br />
100<br />
100<br />
C1003<br />
C1004<br />
C1002<br />
0.1uF<br />
0.1uF<br />
0.1uF<br />
+1.8V<br />
VDDE_1<br />
SCLK<br />
SDAT<br />
PDN<br />
RSTB<br />
TMODE<br />
NC_1<br />
AVD_1<br />
YMUX3<br />
YMUX2<br />
YGND<br />
YMUX1<br />
22pF<br />
C1005<br />
X1000<br />
27MHz<br />
R1005 1M<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
11<br />
12<br />
L1000<br />
UBW2012-121F<br />
48 XTO<br />
0.1uF<br />
C1006<br />
0.1uF<br />
C1009<br />
+1.8V_AVD<br />
IC1000<br />
TW9910DANA2-GR<br />
13<br />
120OHM<br />
14<br />
22pF<br />
C1007<br />
47 XTI<br />
46 VSSE_2<br />
45 VD[0]/SIAD0<br />
44 VD[1]<br />
43 NC_4<br />
42 VSS_2<br />
41 VD[2]<br />
40 VD[3]<br />
39 VD[4]<br />
38 VD[5]<br />
37 VD[6]<br />
15<br />
16<br />
C1010<br />
47uF16V<br />
17<br />
18<br />
19<br />
20<br />
+1.8V_AVD<br />
21<br />
22<br />
23<br />
YMUX0<br />
AVS_1<br />
CIN0<br />
AVD_2<br />
AVS_2<br />
NC_2<br />
VSS_1<br />
VS<br />
HS<br />
MPOUT<br />
CLKX2<br />
VSSE_1<br />
0.1uF<br />
C1008<br />
24<br />
MAX 1A<br />
36 VD[7]<br />
35 VD[8]<br />
34 VD[9]<br />
31 NC_3<br />
32 VDD<br />
33 VD[10]<br />
30 VD[11]<br />
29 VD[12]<br />
28 VD[13]<br />
27 VD[14]<br />
26 VD[15]<br />
25 VDDE_2<br />
R1009<br />
TW9910<br />
51<br />
C1013<br />
10pF<br />
READY<br />
AR1000<br />
51<br />
AR1001 51<br />
DEC_656_CLK<br />
+3.3V<br />
C1011<br />
0.1uF<br />
DEC_656[0-7]<br />
DEC_656[0]<br />
DEC_656[1]<br />
DEC_656[2]<br />
DEC_656[3]<br />
DEC_656[4]<br />
DEC_656[5]<br />
DEC_656[6]<br />
DEC_656[7]<br />
0.01uF<br />
C1012<br />
+1.8V_AVD<br />
DEC_656[0-7]<br />
MSTAR<br />
TW9909<br />
2007/12/20<br />
10 11
EAX40043807<br />
MSTAR LP81A<br />
PANEL OPTION<br />
R1197 R1122 C1114 R1127 R1183 R1155 R1103 R1185 R1186 R1187 R1104<br />
Sharp 52" O X X O O X X X X X O<br />
AUO O X X O O X X X X X O<br />
CMO 32/42/47<br />
CMO 57"<br />
X<br />
X<br />
4.7K 0.47uF<br />
4.7K 0.47uF<br />
O<br />
X<br />
X<br />
X<br />
O<br />
O<br />
O<br />
O<br />
O<br />
X<br />
X<br />
O<br />
X<br />
O<br />
X<br />
X<br />
Sharp 32" X X X X X<br />
X X X X X O<br />
the rest X 4.7K 0.47uF O O X X X X X O<br />
+12V<br />
+5VST_MST<br />
L1100<br />
MBW3216-501TF<br />
C1100<br />
220uF<br />
16V<br />
C1101<br />
0.1uF<br />
PANEL_STATUS<br />
D1102<br />
S2A<br />
+5VST_MST 50V<br />
C1103<br />
0.01uF<br />
C1117<br />
4.7uF<br />
C1105<br />
100uF<br />
L1101<br />
22uH<br />
16V<br />
C1102<br />
0.1uF<br />
R1102<br />
47<br />
C1106<br />
0.01uF<br />
C1104<br />
C1107<br />
22uF<br />
10uF<br />
16V D1100 16V<br />
MBR230LSFT1G<br />
30V<br />
NOT CMO 57"<br />
R1127 0<br />
IC1102<br />
MP2355DN-LF-Z<br />
DCDC_7.22V_PIP<br />
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES<br />
SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.<br />
FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS<br />
ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR<br />
THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.<br />
NC_1<br />
VIN<br />
SS<br />
BST<br />
VIN<br />
LX<br />
EN<br />
NC_2<br />
DC-DC CONVERTER<br />
equal to 220uF pad size<br />
C1108<br />
0.01uF<br />
1<br />
2<br />
3<br />
4<br />
1<br />
2<br />
3<br />
4<br />
C1114<br />
0.47uF<br />
NOT SHARP 52",AUO<br />
I_DIMMING<br />
IC1100<br />
SC4215ISTRT<br />
8 RUN<br />
7 COMP<br />
6<br />
8 GND<br />
7 ADJ<br />
6 VO<br />
5 NC_3<br />
FB<br />
5 GND<br />
RL_ON<br />
CMO<br />
R1155 0<br />
C1109<br />
100uF16V<br />
R1111<br />
59K<br />
R1110<br />
12K<br />
R1107<br />
5.6K<br />
NOT SHARP 32&52",AUO<br />
R1122<br />
4.7K<br />
C1112<br />
0.1uF<br />
C1113<br />
2700pF<br />
50V<br />
R1120<br />
7.5K<br />
C1116<br />
2.2uF<br />
25V<br />
R1192<br />
1K<br />
C1115<br />
0.1uF<br />
P_5V<br />
R1115<br />
0<br />
IC1104<br />
AZ1117H-ADJTRE1(EH11A)<br />
INPUT 3 1 ADJ/GND<br />
OUTPUT<br />
P_16V<br />
P_12V<br />
90V<br />
C1128<br />
100uF16V<br />
2<br />
R1191<br />
0<br />
READY<br />
D1103<br />
MBRS190T3G<br />
16V<br />
GND<br />
12V<br />
GND<br />
2<br />
4<br />
6<br />
8<br />
16V<br />
GND<br />
12V<br />
GND<br />
5V<br />
5V<br />
GND<br />
GND<br />
Error out<br />
10<br />
12<br />
14<br />
16<br />
18<br />
5V<br />
5V<br />
GND<br />
AGND<br />
ACD<br />
Power ON<br />
A.Dim<br />
Select<br />
20<br />
22<br />
24<br />
Inverter ON<br />
PWM Dim<br />
SYNC<br />
+3.3V_MST<br />
AZ1117H-ADJTRE1(EH11A)<br />
OUTPUT<br />
R1123<br />
110<br />
1%<br />
L1109<br />
IC1103<br />
INPUT 3 1 ADJ/GND<br />
R1124<br />
330<br />
1%<br />
2<br />
C1119<br />
100uF<br />
16V<br />
SMAW200-24C<br />
C1118<br />
100uF<br />
16V<br />
1<br />
3<br />
5<br />
7<br />
9<br />
11<br />
13<br />
15<br />
17<br />
19<br />
21<br />
23<br />
R1166<br />
3.3K<br />
1%<br />
+5V_TUNER<br />
P1100<br />
R1106<br />
18K<br />
33K<br />
+3.3V_MULTI_MST<br />
*Applied to SIF,HDMI,ADC,MPLL,AUD<br />
R1141<br />
33K<br />
(8)<br />
C1152<br />
10uF<br />
12V->5V_TUNER<br />
R1<br />
OUT:UNDER 7.22V<br />
V0 = 0.8(R1+R2) / R2<br />
R2<br />
IC1107<br />
AZ1117H-ADJTRE1(EH11A)<br />
USB<br />
INPUT 3 1 USB<br />
R1194<br />
330<br />
ADJ/GND<br />
USB<br />
C1120<br />
0.1uF<br />
R1197<br />
0<br />
SHARP 52",AUO<br />
NOT CMO, SHARP 32"<br />
R1183 0<br />
ST 5V->3.3V->1.2V<br />
OUTPUT<br />
2<br />
USB<br />
1%<br />
R1195<br />
110<br />
1%<br />
+5V_USB<br />
C1151<br />
100uF<br />
16V<br />
USB<br />
MBW3216-501TF<br />
+5V_USB<br />
+5V_MULTI<br />
L1108<br />
120OHM<br />
READY<br />
R1165<br />
51<br />
5%<br />
+1.2V_VDDC_MST<br />
OUT:1.25V<br />
+5V_MULTI<br />
IC1101<br />
AZ1117H-ADJTRE1(EH11A)<br />
INPUT 3 1 ADJ/GND<br />
MAX 1A<br />
OUTPUT<br />
2<br />
R1132 0<br />
R1188<br />
0<br />
READY<br />
R1103 0<br />
R1185 0<br />
P_16V<br />
P_12V<br />
R1125 0<br />
RL_ON<br />
R2<br />
R1144 402<br />
R1137<br />
365<br />
1%<br />
P_5V<br />
CMO<br />
1%<br />
C1110<br />
100uF<br />
16V<br />
R1126<br />
2.7K<br />
READY<br />
CMO 32,42,47<br />
R1186 0 CMO 57"<br />
R1104 0<br />
NOT CMO<br />
PANEL_ON<br />
OUT:2.6V<br />
C1111<br />
0.1uF<br />
R1187<br />
CMO 57" 0<br />
110mA<br />
C1121<br />
0.47uF<br />
R1105<br />
P_5V<br />
32 Sharp<br />
UBW2012-121F<br />
P_5V<br />
R1128<br />
10K<br />
+2.5V_VDDM_MST<br />
0<br />
R1133<br />
10K<br />
120OHM<br />
L1110<br />
R1130<br />
22K<br />
B<br />
Q1102<br />
2SC3875S<br />
R1134<br />
10K<br />
C1124<br />
1uF<br />
R1131<br />
1.6K<br />
R1138<br />
4.7K<br />
B<br />
+5V_ST<br />
+5V_ST<br />
R1129<br />
10K READY<br />
R1196 10K<br />
1 2<br />
3<br />
B<br />
C<br />
E<br />
NOT 32 Sharp<br />
UBW2012-121F<br />
R1140<br />
C<br />
Q1107<br />
RT1C3904-T112<br />
E<br />
Q1106<br />
RT1C3904-T112<br />
R1135 10K<br />
DC_DIM<br />
C1125<br />
2.2uF<br />
25VPWM_DIM<br />
+12V<br />
C1126<br />
1uF 25V<br />
AC_RST<br />
S1<br />
G1<br />
S2<br />
G2<br />
+5V_ST<br />
1<br />
2<br />
3<br />
4<br />
R1189<br />
10K<br />
DISP_EN<br />
Q1101<br />
SI4925DY<br />
0TF492509AA<br />
8 D1_2<br />
7 D1_1<br />
6 D2_2<br />
5 D2_1<br />
+5V_MULTI<br />
R1190<br />
1.2K<br />
D1106<br />
AC_DET SAM2333<br />
R1139 1K<br />
DC_DIM<br />
1/10W<br />
5%<br />
R1139-*1 100<br />
120OHM<br />
L1111<br />
1/10W<br />
5%<br />
C<br />
Q1100<br />
RT1C3904-T112<br />
E<br />
+5V_ST<br />
R1184<br />
10K<br />
IC1105<br />
E_DIMMING<br />
C1153<br />
100uF<br />
16V<br />
C1154<br />
0.1uF<br />
P_16V<br />
P_12V<br />
P_5V<br />
EAM38769505<br />
C1136<br />
0.1uF<br />
L1105<br />
UBW2012-121F<br />
C1135 EAM38769505<br />
0.1uF<br />
R1152<br />
2.2K<br />
C1141<br />
100uF<br />
16V<br />
C1137<br />
47uF25V<br />
C1138<br />
220uF<br />
16V<br />
R1153<br />
2.2K<br />
C1142<br />
0.1uF<br />
AZ1117H-3.3<br />
USB L1103<br />
C1129 C1130<br />
INPUT<br />
+5V_MULTI 3 1<br />
USB<br />
MBW3216-501TF<br />
USB<br />
2<br />
22uF 0.1uF<br />
OUTPUT<br />
16V<br />
+3.3V_USB<br />
ADJ/GND<br />
R2<br />
R1168 0<br />
MAX 1A<br />
5%<br />
R1<br />
R1167<br />
OPT<br />
OUTPUT<br />
IC1108<br />
AZ1117H-3.3<br />
INPUT 3 1 ADJ/GND<br />
MAX 1A<br />
2<br />
READY<br />
READY<br />
R1170 0<br />
R1169<br />
OPT<br />
LED Block<br />
SWITCH VCC_<strong>LCD</strong>:12V or 5V<br />
5V:5V_PULLUP,5V_MULTI<br />
R1<br />
20mA<br />
SWITCH 5V->DDR 2.5V<br />
*SHARP 32" : DC DIMMING<br />
R1<br />
R2<br />
5%<br />
C1155<br />
47uF<br />
16V<br />
C1156<br />
0.1uF<br />
R1148<br />
R1149<br />
0<br />
L1104<br />
UBW2012-121F<br />
1<br />
C1131<br />
0.1uF<br />
C1122<br />
0.1uF<br />
+3.3V_HDMI_SW<br />
C1132<br />
0.01uF<br />
L1106<br />
UBW2012-121F<br />
EAM38769505<br />
C1139<br />
0.1uF<br />
C1140<br />
0.1uF<br />
R1154<br />
2.2K<br />
IC1106<br />
AZ1117H-1.8TRE1(EH13A)<br />
OUTPUT<br />
+3.3V<br />
*3.3V_NTP,TW9910,ETC.<br />
C1133<br />
10uF16V<br />
TW9910 block<br />
SWITCH 5V->3.3V->1.8V<br />
POWER<br />
2<br />
C1146<br />
0.01uF<br />
C1149<br />
100uF<br />
16V<br />
+5V_MULTI<br />
INPUT 3 1 ADJ/GND<br />
READY<br />
C1148<br />
0.1uF<br />
+3.3V_SDRAM<br />
R1150<br />
OPT<br />
C1145<br />
47uF<br />
16V<br />
L1107<br />
UBW2012-121F<br />
R1163<br />
0<br />
C1150<br />
0.01uF<br />
VCC_<strong>LCD</strong><br />
R1151 0<br />
5%<br />
C1123<br />
0.1uF<br />
+5V_ST<br />
+16V_NTP<br />
L1112 *12V AUDIO and PANEL<br />
MBW3216-501TF +12V<br />
+12V<br />
EAM30764101 C1144<br />
0.01uF<br />
+5VST_MST<br />
P_5V<br />
+1.8V<br />
C1147<br />
0.1uF<br />
*NTP.USB,TW9910<br />
MSTAR 2007/12/20<br />
11 11
P/NO : MFL41394429<br />
Feb., 2008<br />
Printed in Korea