LCD TV SERVICE MANUAL - Jordans Manuals
LCD TV SERVICE MANUAL - Jordans Manuals
LCD TV SERVICE MANUAL - Jordans Manuals
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Internal Use Only<br />
website:http://biz.LGservice.com<br />
<strong>LCD</strong> <strong>TV</strong><br />
<strong>SERVICE</strong> <strong>MANUAL</strong><br />
CHASSIS : LB75B<br />
MODEL : 47LY3DE 47LY3DE-AA<br />
CAUTION<br />
BEFORE SERVICING THE CHASSIS,<br />
READ THE SAFETY PRECAUTIONS IN THIS <strong>MANUAL</strong>.
CONTENTS<br />
CONTENTS .............................................................................................. 2<br />
PRODUCT SAFETY ..................................................................................3<br />
SPECIFICATION ........................................................................................6<br />
ADJUSTMENT INSTRUCTION ...............................................................12<br />
TROUBLE SHOOTING & BLOCK DIAGRAM ........................................17<br />
EXPLODED VIEW .................................................................................. 43<br />
REPLACEMENT PARTS LIST ............................................................... 45<br />
SVC. SHEET ...............................................................................................<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 2 -<br />
LGE Internal Use Only
SAFETY PRECAUTIONS<br />
IMPORTANT SAFETY NOTICE<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 />
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 />
AC Volt-meter<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 />
To Instrument's<br />
exposed<br />
METALLIC PARTS<br />
0.15uF<br />
1.5 Kohm/10W<br />
Good Earth Ground<br />
such as WATER PIPE,<br />
CONDUIT etc.<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 3 -<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 />
SERVICING PRECAUTIONS<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 500F to 600F.<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 />
(500F to 600F)<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<br />
circuitboard printed foil.<br />
6. Use the following soldering technique.<br />
a. Allow the soldering iron tip to reach a normal temperature<br />
(500F to 600F)<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 />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 4 -<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 />
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 />
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 © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 5 -<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 spec sheet is applied to the 42"/47" <strong>LCD</strong> <strong>TV</strong> used LB75B<br />
chassis.<br />
2. Specification<br />
Each part is tested as below without special appointment<br />
2.1 Temperature : 25±5°C(77±9°F), CST : 40±5°C<br />
2.2 Relative Humidity : 65±10%<br />
2.3 Power Voltage : Standard input voltage<br />
(100~240V@ 50/60Hz)<br />
• Standard Voltage of each products is marked by models<br />
2.4 Specification and performance of each parts are followed<br />
each drawing and specification by part number in<br />
accordance with BOM .<br />
2.5 The receiver must be operated for about 20 minutes prior<br />
to the adjustment.<br />
3. Test method<br />
3.1 Performance : LGE <strong>TV</strong> test method followed.<br />
3.2 Demanded other specification<br />
Safety : CB specification<br />
3.3 EMC : CISOR 13 specification<br />
4. General Specification(<strong>TV</strong>)<br />
No. Item Specification Remark<br />
1. Broadcasting system PAL-B/B, D<strong>TV</strong> : DVB-T<br />
2. Available Channel 1) VHF : 00 ~ 12<br />
2) UHF : 20 ~ 75<br />
3) CA<strong>TV</strong> : 02 ~ 44<br />
4) D<strong>TV</strong> : 06 ~12, 27 ~ 69<br />
3. Tuner IF 1) PAL : 38.90MHz(Picture),<br />
34.40MHz(Sound)<br />
2) DVB-T : 36.125MHz<br />
4 Input Voltage AC 100 ~ 240 V, 50/60Hz Mark : 240V, 50Hz<br />
5. Screen Size 42 inch Wide(1920 x 1080) 42LY3DE<br />
47 inch Wide(1920 x 1080) 47LY3DE<br />
6. Aspect Ratio 16:9<br />
7. Module LC420WU5-SLA2 42LY3DE<br />
LC470WU6-SLA2<br />
47LY3DE<br />
8. Operating Environment 1) Temp : 0 ~ 40 deg<br />
2) Humidity : ~ 80 %<br />
9. Storage Environment 1) Temp : -20 ~ 60 deg<br />
2) Humidity : ~ 85 %<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 6 -<br />
LGE Internal Use Only
5. Chrominance & Luminance Specification<br />
No Item Min Typ Max Unit Remark<br />
1. White peak brightness 450 550 cd/m 2 42LY3DE<br />
400 550 cd/m 2 47LY3DE<br />
2. Contrast ratio cd/m 2 N/A<br />
3. Brightness uniformity 80 % Full white<br />
4. Color coordinate RED X Typ. 0.638 Typ.<br />
Y -0.03 0.340 +0.03<br />
GREEN X 0.279<br />
Y 0.611<br />
BLUE X 0.146<br />
Y 0.062<br />
WHITE X 0.272<br />
Y 0.278<br />
5. Color coordinate uniformity N/A<br />
6. Contrast ratio 600:1 800:1 42/47LY3DE<br />
1100:1 1600:1 With A.I 42/47LY3DE<br />
7. Color Temperature Cool 11,000 12,000 13,000 <br />
Medium 9,300 HDMI input,<br />
Warm 6,500 85% Full white pattern<br />
8. Color Distortion, DG 10.0 %<br />
9. Color Distortion, DP 10.0 deg<br />
10. Color S/N, AM/FM 43.0 dB<br />
11. Color Killer Sensitivity -80 dBm<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 7 -<br />
LGE Internal Use Only
Peak & average Brightness & Contrast measure standard specification<br />
- White Peak brightness measure specification<br />
1) In non-impressed condition, measure peak brightness displayable as much as possible <strong>LCD</strong> module.<br />
2) Measuring instrument: CA-210 or a sort of Color Analyzer.<br />
3) Pattern Generator : VG-828 or a sort of digital pattern generator (displayable Full White & 1/25 White Window pattern)<br />
4) Measure condition<br />
- Test pattern: in center, 1/5(H)x1/5(V) of Window Pattern (white pattern in non-impressed condition)<br />
- SET condition : Contrast & Brightness Level 100%<br />
- Environment condition : Dark room in the non outside light<br />
- Video menu option condition<br />
Signal Picture Mode XD Black Level<br />
RF PAL USER1 On N/A<br />
AV PAL USER1 On Low<br />
Component 720P USER1 On N/A<br />
RGB 1024x768 USER1 N/A N/A<br />
HDMI D<strong>TV</strong> 720P USER1 On High<br />
5) Measurement<br />
- Do heat-run <strong>LCD</strong> module at 30minutes in normal temperature (25°C) by using full white pattern of 15% signal level(38 gray<br />
level).<br />
- Impress test pattern signal in 1/5(H)x1/5(V) White Window of 100%(255Gray Level)<br />
- measure 3 times brightness of central white window, and mark peak brightness in max brightness degree<br />
- measure the same condition in video signal /RGB signal.<br />
Average Brightness measure specification<br />
1) Impress 100%(255Gray Level) full white pattern at the same peak brightness measurement.<br />
2) Measure average brightness in 9 points.<br />
1 4 7<br />
2 5 8<br />
3 6 9<br />
Contrast ratio measure specification<br />
1) Test display signal : 30x30 dots White Window signal & all Black Raster signal<br />
2) Dark room measure condition : Using touch type Color analyzer CA-100 Dark room in the non outside light<br />
3) Bright room measure condition : In bright room of 150Lx illumination in the panel surface, locate a source of light on the above<br />
45°of the panel surface.<br />
4) Measure method<br />
- In standard test condition, impress 30x30 dots White Window Pattern signal .<br />
Measure center peak brightness degree Lw of white window<br />
- Impress black Raster signal as contrast ratio measurement signal.<br />
Measure black brightness degree Lb of PDP central<br />
Calculate the following numerical formula.<br />
Contrast ratio = Lw / Lb<br />
* If it does not use Prior measurement, use generally simple test measurement.<br />
The Correct measure specification is followed by IEC61988-2/CD, JAPAN EIAJ-2710<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 8 -<br />
LGE Internal Use Only
6. Component Input (Y, CB/PB, CR/PR)<br />
No. Resolution H-freq(kHz) V-freq(Hz) Pixel clock(MHz) Remark<br />
1. 720*576 15.625 50.00 13.50 SD<strong>TV</strong>576i<br />
2. 720*576 31.25 50.00 27.00 SD<strong>TV</strong>576p<br />
3. 720*480 15.73/15.75 59.94/60.00 13.50 SD<strong>TV</strong> 480i<br />
4. 720*480 31.47/31.50 59.94/60.00 27.00 SD<strong>TV</strong> 480p<br />
5. 1280*720 44.96/45.00 59.94/60.00 74.25 HD<strong>TV</strong> 720P<br />
6. 1280*720 37.50 50.00 74.25 HD<strong>TV</strong> 720P<br />
7. 1920*1080 33.72/33.75 59.94/60.0 74.25 HD<strong>TV</strong> 1080i<br />
8. 1920*1080 28.125 50.00 74.25 HD<strong>TV</strong> 1080i<br />
9. 1920*1080 26.97/27.00 23.976/24.00 74.1757/74.25 HD<strong>TV</strong> 1080P<br />
10. 1920*1080 33.716/33.750 29.97/30.00 74.1762/74.25 HD<strong>TV</strong> 1080P<br />
11. 1920*1080 56.25 50.00 148.50 HD<strong>TV</strong> 1080P<br />
12. 1920*1080 67.43/67.50 59.94/60.00 148.50 HD<strong>TV</strong> 1080P<br />
7. RGB PC<br />
No. Resolution H-freq(kHz) V-freq(Hz) Pixel clock(MHz) Remark<br />
PC<br />
DDC<br />
1 720*400 31.469 70.08 28.32 DOS O<br />
2 640*480 31.469 59.940 25.175 VESA(VGA) O<br />
3 640*480 37.500 75.000 31.500 VESA(VGA) O<br />
4 800*600 37.879 60.317 40.000 VESA(SVGA) O<br />
5 800*600 46.875 75.000 49.500 VESA(SVGA) O<br />
6 1024*768 48.363 60.004 65.000 VESA(XGA) O<br />
7 1024*768 56.476 70.069 75.000 VESA(XGA) O<br />
8 1024*768 60.023 75.029 78.750 VESA(XGA) O<br />
9 1280*768 47.776 59.870 79.500 VESA(WXGA) X<br />
10 1360*768 47.712 60.015 85.500 VESA(WXGA) O<br />
11 1366*768 47.13 59.65 72.00 X<br />
12 1280*1024 63.981 60.020 108.000 VESA(SXGA) O<br />
13 1280*1024 79.976 75.025 135.000 VESA(SXGA) O<br />
14 1600*1200 75.000 60.000 162.000 VESA(UXGA) O<br />
15 1920*1080 67.500 60.000 148.500 HD<strong>TV</strong> 1080P O<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 9 -<br />
LGE Internal Use Only
8. HDMI Input (PC/D<strong>TV</strong>)<br />
No. Resolution H-freq(kHz) V-freq(Hz) Pixel clock(MHz) Remark<br />
PC<br />
DDC<br />
1 720*400 31.469 70.08 28.32 DOS O<br />
2 640*480 31.469 59.940 25.175 VESA(VGA) O<br />
3 640*480 37.500 75.000 31.500 VESA(VGA) O<br />
4 800*600 37.879 60.317 40.000 VESA(SVGA) O<br />
5 800*600 46.875 75.000 49.500 VESA(SVGA) O<br />
6 1024*768 48.363 60.004 65.000 VESA(XGA) O<br />
7 1024*768 56.476 70.069 75.000 VESA(XGA) O<br />
8 1024*768 60.023 75.029 78.750 VESA(XGA) O<br />
9 1280*768 47.776 59.870 79.500 VESA(WXGA) X<br />
10 1360*768 47.712 60.015 85.500 VESA(WXGA) O<br />
11 1366*768 47.13 59.65 72.00 X<br />
12 1280*1024 63.981 60.020 108.000 VESA(SXGA) O<br />
13 1280*1024 79.976 75.025 135.000 VESA(SXGA) O<br />
14 1600*1200 75.000 60.000 162.000 VESA(UXGA) O<br />
15 1920*1080 67.500 60.000 148.500 HD<strong>TV</strong> 1080P O<br />
D<strong>TV</strong><br />
1 720*576 31.25 50.00 27.00 SD<strong>TV</strong>576p<br />
2 720*480 31.47/31.50 59.94/60.00 27.00 SD<strong>TV</strong> 480p<br />
3 1280*720 44.96/45.00 59.94/60.00 74.25 HD<strong>TV</strong> 720P<br />
4 1280*720 37.50 50.00 74.25 HD<strong>TV</strong> 720P<br />
5 1920*1080 33.72/33.75 59.94/60.0 74.25 HD<strong>TV</strong> 1080i<br />
6 1920*1080 28.125 50.00 74.25 HD<strong>TV</strong> 1080i<br />
7 1920*1080 26.97/27.00 23.976/24.00 74.1757/74.25 HD<strong>TV</strong> 1080P<br />
8 1920*1080 33.716/33.750 29.97/30.00 74.1762/74.25 HD<strong>TV</strong> 1080P<br />
9 1920*1080 56.25 50.00 148.50 HD<strong>TV</strong> 1080P<br />
10 1920*1080 67.43/67.50 59.94/60.00 148.50 HD<strong>TV</strong> 1080P<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 10 -<br />
LGE Internal Use Only
9. General specifications<br />
9-1. 42" <strong>LCD</strong> Full HD(LC420WU2-SLB2)<br />
No Item Specification Unit Remark<br />
1 Active Screen Size 42.02 inches(1067.31mm) mm<br />
2 Outline dimension 983.0(H)x576.0(V)x47.3(D)(Typ, Without inverter) mm<br />
3 Pixel Pitch 0.4845x0.4845 mm<br />
4 Pixel Format 1920 horiz. By 1080 vert. RGB Stripe arrangement<br />
5 Color Depth 8-bit / 16.7M Color<br />
6 Luminance, White 500 cd/m2(Center 1point,Typ)<br />
7 Power Consumption Total 172 Watt(Typ)<br />
8 Weight 11.0Kg(Typ) , 12.0Kg(Max)<br />
9 Display Operating Mode Transmissive Mode, Normally Black<br />
10 Surface Treatment Hard Coating (3H) Anti-glare treatment of the front polarizer(Haze 13%)<br />
9-2. 47" <strong>LCD</strong> MODULE (LC470WU5-SLA1)<br />
No Item Specification Unit Remark<br />
1 Active Screen Size 46.96 inches(1192.87mm)<br />
2 Outline dimension 1096.0(H)x640.0(V)x51(D)(Typ) mm<br />
3 Pixel Pitch 0.5415x0.5415x RGB mm<br />
4 Pixel Format 1920 horiz by 1080 vert. RGB Stripe arrangement<br />
5 Color Depth 8-bit / 16.7M Color<br />
6 Luminance, White 500 cd/m2 kg<br />
7 Power Consumption Total 230.2 Watt<br />
8 Weight 14.5Kg<br />
9 Display Operating Mode Transmissive Mode, Normally Black<br />
10 Surface Treatment Hard Coating (3H), Anti-glare treatment of the front polarizer<br />
10. Mechanical specification<br />
10-1. 42LY3DE<br />
No. Item Content Unit Remark<br />
1. Product Widt(W) Length(D) Height(H) mm<br />
Dimension Before Packing 1113.3 294.3 722.3 mm With Stant<br />
After Packing 1191 835 378 mm<br />
2. Product Only SET 30.1 Kg<br />
With BOX 34.6 Kg<br />
10-2. 47LY3DE<br />
No. Item Content Unit Remark<br />
1. Product Widt(W) Length(D) Height(H) mm<br />
Dimension Before Packing 1144.3 329 825.5 mm With Stant<br />
After Packing 1230 332 902 mm<br />
2. Product Only SET 37.4 Kg<br />
With BOX 41.3 Kg<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 11 -<br />
LGE Internal Use Only
1. Scope<br />
These instructions are applied to all of the <strong>LCD</strong> <strong>TV</strong>, LB75B<br />
Chassis.<br />
2. Designation<br />
2.1 Because this chassis is a non-charge type chassis of<br />
power supply insulation, it does not require an insulation<br />
type transformer. But it is preferable to use an insulation<br />
type transformer between the power supply line and the<br />
chassis input side to operate it before the adjustment.<br />
2.2 The adjustment must be done in the accurate order. But it<br />
can be changed considering the mass production<br />
capability.<br />
2.3 Unless specified specially, the adjustment must be done<br />
in an environment with the surrounding temperature of 25<br />
±5°C and relative humidity of 65 ±10%.<br />
2.4 The input voltage of the receiver during the adjustment<br />
must be maintained at 220V, 60Hz.<br />
2.5 Unless specified otherwise, the receiver must be preoperated<br />
for 15 minutes before the adjustment.<br />
Caution) When you keep the still screen on for more than 20<br />
minutes (Especially for internal Digital pattern (13<br />
CH), Cross Hatch Pattern (09CH) with higher<br />
black/white contrast), be careful not to create<br />
residual image on the black level part.<br />
ADJUSTMENT INSTRUCTION<br />
4. EDID(The Extended Display<br />
Identification Data) / DDC<br />
(Display Data Channel) Download<br />
4.1 Introduction<br />
This has been established by VESA and is the function<br />
created to "Plug and Play" by making the computer<br />
reconfigure user environment through communication with<br />
the monitor automatically without having the user set<br />
commands directly to the PC or the monitor so that the user<br />
can use it immediately.<br />
When writing EDID, use the DDC2B protocol.<br />
4.2 HDMI EDID Data input<br />
1) Using device<br />
a. Jig for PC, DDC adjustment (PC serial to D-sub<br />
connection device)<br />
b. DDC recording S/W (EDID Data Write & Read)<br />
c. D-Sub terminal<br />
d. Separate HDMI Cable connecting JIG is necessary<br />
2) Adjustment preparation and device configuration<br />
a. Configure as Fig., and turn on the PC and Jig<br />
b. Run the DDC recording S/W (EDID Data Write & Read).<br />
(Execute in DOS mode)<br />
3. Board adjustment<br />
- Adjust MST3361-Set<br />
- Adjust Video-Set<br />
- Adjust White Balance<br />
<strong>LCD</strong> <strong>TV</strong> SET<br />
(or Digital Board)<br />
Device configuration diagram for HDMI EDID Data input<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 12 -<br />
LGE Internal Use Only
4.3 EDID Data for LB75B(42/47LY3DE)<br />
O HDMI1 EDID (DDC (Display Data Channel) Data<br />
EDID table =<br />
0 1 2 3 4 5 6 7 8 9 A B C D E F<br />
0 00 FF FF FF FF FF FF 00 1E 6D 01 00 01 01 01 01<br />
10 0E 10 01 03 80 73 41 96 0A CF 74 A3 57 4C B0 23<br />
20 09 48 4C AF CF 00 31 40 45 40 61 40 81 80 A9 40<br />
30 D1 C0 01 01 01 01 02 3A 80 18 71 38 2D 40 58 2C<br />
40 45 00 C4 8E 21 00 00 1E 66 21 50 B0 51 00 1B 30<br />
50 40 70 36 00 C4 8E 21 00 00 1E 00 00 00 FD 00 38<br />
60 4B 1F 44 0F 00 0A 20 20 20 20 20 20 00 00 00 FC<br />
70 00 4C 47 20 54 56 0A 20 20 20 20 20 20 20 01 15<br />
0 1 2 3 4 5 6 7 8 9 A B C D E F<br />
0 02 03 1B F1 4C 20 22 10 1F 01 02 03 04 05 12 93<br />
10 14 23 15 07 50 65 03 0C 00 10 00 01 1D 00 72 51<br />
20 D0 1E 20 6E 28 55 00 C4 8E 21 00 00 1E 01 1D 80<br />
30 18 71 1C 16 20 58 2C 25 00 C4 8E 21 00 00 9E 8C<br />
40 0A D0 90 20 40 31 20 0C 40 55 00 4C 6C 42 00 00<br />
50 18 01 1D 00 BC 52 D0 1E 20 B8 28 55 40 4C 6C 42<br />
60 00 00 1E 01 1D 80 D0 72 1C 16 20 10 2C 25 80 4C<br />
70 6C 42 00 00 9E 00 00 00 00 00 00 00 00 00 00 ED<br />
O HDMI2 EDID (DDC (Display Data Channel) Data<br />
EDID table =<br />
0 1 2 3 4 5 6 7 8 9 A B C D E F<br />
0 00 FF FF FF FF FF FF 00 1E 6D 01 00 01 01 01 01<br />
10 0E 10 01 03 80 73 41 96 0A CF 74 A3 57 4C B0 23<br />
20 09 48 4C AF CF 00 31 40 45 40 61 40 81 80 A9 40<br />
30 D1 C0 01 01 01 01 02 3A 80 18 71 38 2D 40 58 2C<br />
40 45 00 C4 8E 21 00 00 1E 66 21 50 B0 51 00 1B 30<br />
50 40 70 36 00 C4 8E 21 00 00 1E 00 00 00 FD 00 38<br />
60 4B 1F 44 0F 00 0A 20 20 20 20 20 20 00 00 00 FC<br />
70 00 4C 47 20 54 56 0A 20 20 20 20 20 20 20 01 15<br />
0 1 2 3 4 5 6 7 8 9 A B C D E F<br />
0 02 03 1B F1 4C 20 22 10 1F 01 02 03 04 05 12 93<br />
10 14 23 15 07 50 65 03 0C 00 20 00 01 1D 00 72 51<br />
20 D0 1E 20 6E 28 55 00 C4 8E 21 00 00 1E 01 1D 80<br />
30 18 71 1C 16 20 58 2C 25 00 C4 8E 21 00 00 9E 8C<br />
40 0A D0 90 20 40 31 20 0C 40 55 00 4C 6C 42 00 00<br />
50 18 01 1D 00 BC 52 D0 1E 20 B8 28 55 40 4C 6C 42<br />
60 00 00 1E 01 1D 80 D0 72 1C 16 20 10 2C 25 80 4C<br />
70 6C 42 00 00 9E 00 00 00 00 00 00 00 00 00 00 DD<br />
O HDMI3 EDID (DDC (Display Data Channel) Data<br />
EDID table =<br />
0 1 2 3 4 5 6 7 8 9 A B C D E F<br />
0 00 FF FF FF FF FF FF 00 1E 6D 01 00 01 01 01 01<br />
10 0E 10 01 03 80 73 41 96 0A CF 74 A3 57 4C B0 23<br />
20 09 48 4C AF CF 00 31 40 45 40 61 40 81 80 A9 40<br />
30 D1 C0 01 01 01 01 02 3A 80 18 71 38 2D 40 58 2C<br />
40 45 00 C4 8E 21 00 00 1E 66 21 50 B0 51 00 1B 30<br />
50 40 70 36 00 C4 8E 21 00 00 1E 00 00 00 FD 00 38<br />
60 4B 1F 44 0F 00 0A 20 20 20 20 20 20 00 00 00 FC<br />
70 00 4C 47 20 54 56 0A 20 20 20 20 20 20 20 01 15<br />
0 1 2 3 4 5 6 7 8 9 A B C D E F<br />
0 02 03 1B F1 4C 20 22 10 1F 01 02 03 04 05 12 93<br />
10 14 23 15 07 50 65 03 0C 00 30 00 01 1D 00 72 51<br />
20 D0 1E 20 6E 28 55 00 C4 8E 21 00 00 1E 01 1D 80<br />
30 18 71 1C 16 20 58 2C 25 00 C4 8E 21 00 00 9E 8C<br />
40 0A D0 90 20 40 31 20 0C 40 55 00 4C 6C 42 00 00<br />
50 18 01 1D 00 BC 52 D0 1E 20 B8 28 55 40 4C 6C 42<br />
60 00 00 1E 01 1D 80 D0 72 1C 16 20 10 2C 25 80 4C<br />
70 6C 42 00 00 9E 00 00 00 00 00 00 00 00 00 00 CD<br />
O RGB EDID Data<br />
EDID table =<br />
0 1 2 3 4 5 6 7 8 9 A B C D E F<br />
0 00 FF FF FF FF FF FF 00 1E 6D 01 00 01 01 01 01<br />
10 0E 11 01 03 18 73 41 96 0A CF 74 A3 57 4C B0 23<br />
20 09 48 4C A5 4E 00 81 80 A9 40 01 01 01 01 01 01<br />
30 01 01 01 01 01 01 66 21 50 B0 51 00 1B 30 40 70<br />
40 36 00 C4 8E 21 00 00 1A 02 3A 80 18 71 38 2D 40<br />
50 58 2C 45 00 C4 8E 21 00 00 1E 00 00 00 FD 00 30<br />
60 58 1F 64 11 00 0A 20 20 20 20 20 20 00 00 00 FC<br />
70 00 4C 47 20 54 56 0A 20 20 20 20 20 20 20 01 04<br />
0 1 2 3 4 5 6 7 8 9 A B C D E F<br />
0 02 03 04 00 0E 1F 00 80 51 00 1E 30 40 80 37 00<br />
10 C4 8E 21 00 00 1C 00 00 00 00 00 00 00 00 00 00<br />
20 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00<br />
30 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00<br />
40 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00<br />
50 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00<br />
60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00<br />
70 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 25<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 13 -<br />
LGE Internal Use Only
5. Video Set Adjustment<br />
6. MST3361M-Set Adjustment<br />
It is the adjustment to reduce the color difference of the RF<br />
and the video signal, which adjusts Analog RF, AV-PAL, and<br />
AV-NTSC.<br />
5-1. Analog RF and AV-PAL adjust method.<br />
1) After entering the in-house signal, when it is checked<br />
that the signal is received, press the ADJ KEY of the<br />
adjusting R/C to enter into ‘EZ-ADJUST’ Select ‘3.<br />
Adjust RF and AV_PAL’ and press the right arrow key<br />
(G ) to enter into the adjustment mode.<br />
2) When it enters into the adjustment mode, the screen is<br />
automatically switched to <strong>TV</strong> 3CH and the following<br />
window is displayed.<br />
6-1. Synopsis<br />
The Component 480i/1080p RGB 1080p adjustment sets the<br />
optimal black level and gain automatically from the analog =><br />
digital converter, and is the function to correct the RGB<br />
deviation<br />
6-2. Test Equipment<br />
Service R/C, 801GF(802B,802F,802R),<br />
MSPG-925FA, MSPG-1025D Pattern Generator.<br />
(480i, 1080i Horizontal 60Hz Color Bar Pattern output will be<br />
possible and the output level will accurately have to be revised<br />
with 0.7±0.1Vp-p)<br />
3) When the automatic adjustment starts, the main screen<br />
is adjusted, and if adjusting is completed, the message<br />
‘RF-PAL Configuration Success’ is displayed. If<br />
adjusting is failed, the message ‘RF-PAL Configuration<br />
Fail’ is displayed.<br />
(2) AV-NTSC adjustment method.<br />
1) Connect the Video Signal Generator (Master) to the AV<br />
input of the <strong>TV</strong> via the AV output. At this time, when<br />
entering the input pattern with Model : 202(PAL) and<br />
Pattern : 33(100% color Bar), the following screen is<br />
displayed.<br />
(Adjustment pattern : 480i / 1080P 60Hz Pattern)<br />
* Because the above pattern can differ by the model and pattern<br />
for each device, you must check the pattern first.<br />
6-3. Adjustment<br />
(1) Component 1 adjustment method<br />
(A) Enter the Color Bar Pattern of each 480i 60Hz Mode that<br />
can support the input for Component 1, and select<br />
Component 1 as the input mode.<br />
(B) 1 second after receiving the signal, press the ADJ key on<br />
adjustment R/C to enter Ez-Adjust. Select '1. Adjust 480i<br />
Comp1' and press the Vol+ KEY to adjust the Component.<br />
(C) When Component 1 is normally adjusted, you will see the<br />
message saying 'ADC Component1 Success'.<br />
(D) When the adjustment is not done properly, you will see a<br />
message saying 'ADC Component1 480i Fail'. When the<br />
Component is not connected, a message saying<br />
'Component1 Not Connected', when the input format is not<br />
480i, a message saying 'Not Valid Format' and when there<br />
is no input signal, a message saying 'Check Signal Status'<br />
will be displayed for 1 second.<br />
Model : 202(PAL), Pattern : 33(100% Color Bar)<br />
* It should be checked because the above pattern may be<br />
different according to the model and the pattern of the used<br />
equipment.<br />
2) Press the ADJ KEY of the adjusting R/C to enter into<br />
‘EZ-ADJUST’ Select ‘4. Adjust AV_PAL’ and press the<br />
right arrow key (G ) to enter into the adjustment mode.<br />
3) When the automatic adjustment is completed, the<br />
message ‘AV-PAL Configuration Success’ is displayed.<br />
If the adjustment is failed, the message ‘AV-PAL<br />
Configuration Fail’ is displayed.<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 14 -<br />
LGE Internal Use Only
(2) Component 1, RGB adjustment method<br />
(A) Enter the Color Bar Pattern of each 1080p 60Hz Mode<br />
that can support Component 1 and RGB input, and select<br />
Component 1 as the input mode.<br />
(B) 1 second after receiving the signal, press the ADJ key on<br />
adjustment R/C to enter Ez-Adjust. Select '2. Adjust 1080p<br />
Comp1/RGB' and press the Vol£´KEY to have Component<br />
1 adjusted automatically.<br />
(C) When the adjustment is properly done, you will see a<br />
message saying "ADC Component1 Success". When the<br />
adjustment is not done properly, you will see a message<br />
saying 'ADC Component1 1080P Fail'. When Component<br />
1 adjustment is completed, it is automatically switched to<br />
RGB-D<strong>TV</strong> Mode to start RGB adjustment. When the<br />
adjustment is normally completed, you will see a message<br />
saying "ADC RGB 1080P Success".<br />
(D) When the adjustment is not done normally, make the<br />
adjustments again after checking the Pattern or<br />
adjustment conditions. The error message is as shown as<br />
(D) of 4.2.3.1.<br />
(E) When the adjustment is completed, press the ADJ key to<br />
exit the adjustment mode.<br />
7-2. Measuring device connection diagram<br />
(for automatic adjustment)<br />
=> Connection diagram for internal pattern<br />
Full W hite Pattern<br />
RS-232C<br />
=> Connection diagram for HDMI input<br />
CA-100+<br />
COLOR<br />
ANALYZER<br />
TYPE; CA-100+<br />
7. White Balance adjustment<br />
7-1. Using device<br />
A. Color Analyzer : CA-100+ or CA-210 (CH 9)<br />
When adjusting the <strong>LCD</strong> white balance, channel No. 9 with<br />
Matrix adjustment (White, Red, Green, Blue adjustment) with<br />
CS-1000 must be used for the color analyzer (CA-210), and it<br />
must be adjusted in accordance with the white balance<br />
adjustment coordinate shown below. .<br />
B. Automatic adjuster (Necessary for automatic adjustment, must<br />
be able to communicate with RS-232C, Baud Rate : 115200)<br />
C. Video Signal Generator MSPG-925F 720p, 216Gray (Model<br />
:217, Pattern 78)<br />
7-3. White Balance adjustment method<br />
When internal pattern is basically not possible to use, you can<br />
select HDMI input for adjustment. You can select NONE, INNER<br />
and HDMI through the lowest part option from Ez Adjust Menu<br />
5.White Balance menu, and initially it is set to INNER. If you<br />
cannot make adjustments using the internal pattern, select HDMI<br />
for adjustment.<br />
For manual adjustment, press the ADJ key on the adjustment<br />
remote controller to enter Ez Adjust 7.White-Balance so that the<br />
pattern can automatically be set. (When you set the Option to<br />
INNER, initially INNER is always selected initially)<br />
(A) Connect to inner pattern or HDMI input depending on the<br />
measuring device connection diagram of 4.3.2.<br />
(B) Set the Baud Rate of RS-232C to 115200. It is set to 115200<br />
by default.<br />
(C) Connect the RS-232C Cable to the set.<br />
(D) Connect the HDMI Cable to the set. (Limited to HDMI option)<br />
(E) Select and adjust the model applicable to LB75B chassis<br />
from the adjustment device.<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 15 -<br />
LGE Internal Use Only
7-4. White Balance adjustment (For manual<br />
adjustment)<br />
A. Color Analyzer : CA-100+ or CA-210 (CH 9)<br />
When adjusting the plasma white balance, channel No. 9 with<br />
Matrix adjustment (White, Red, Green, Blue adjustment) with<br />
CS-1000 must be used for the color analyzer (CA-210), and it<br />
must be adjusted in accordance with the white balance<br />
adjustment coordinate shown below.<br />
B. Manual adjustment is executed in the following order.<br />
(A) Press the ADJ button of the adjustment R/C to enter 'EZ-<br />
ADJUST'.<br />
(B) Press 9.TEST PATTERN with the CH + / - KEY and execute<br />
the HEAT RUN for more than 30 minutes by pressing the<br />
Enter KEY.<br />
(C) Do a zero calibration for CA-210 and set it at a distance less<br />
than 10Cm at the center of the <strong>LCD</strong> module surface.<br />
(D) Press the ADJ button of adjustment R/C to select '6.White-<br />
Balance' of 'Ez-Adjust', and press the right KEY () to enter<br />
the adjustment mode.<br />
(When you press the button, it switches to Full White inner<br />
pattern.)<br />
(E) Adjustment is done in three white balance of COOL,<br />
MEDIUM and WARM.<br />
(F) When white balance is Cool,<br />
Set to B Gain 192 and set to R-Cut / G-Cut / B-Cut 64<br />
Make High Light adjustment using R Gain / G Gain.<br />
When white balance is Medium,<br />
Set to R Gain 192 and set to R-Cut / G-Cut / B-Cut 64<br />
Make High Light adjustment using G Gain / B Gain.<br />
When white balance is Warm<br />
Set to R Gain 192 and set to R-Cut / G-Cut / B-Cut 64<br />
Make High Light adjustment using G Gain / B Gain.<br />
(G) Use +, - KEY to adjust the volume.<br />
(H) When the adjustment is completed, press the OK ( KEY)<br />
button to move to the Ez-Adjust screen. Press the ADJ KEY<br />
to exit the adjustment mode.<br />
- Reference : White Balance adjustment coordinate and white<br />
balance<br />
a) Standard white balance and standard color coordinate<br />
chart when measuring using CS-1000 device<br />
COOL : T=11000K, uv=0.000, x=0.276 y=0.283<br />
MEIDUM : T=9300K, uv=0.000, x=0.285 y=0.293<br />
WARM : T=6500K, uv=0.000, x=0.313 y=0.329<br />
b) Color coordinate chart when using CA-210 CH 9<br />
* Brightness: Full white 216 gray<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 16 -<br />
LGE Internal Use Only
TROUBLESHOOTING & BLOCK DIAGRAM<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 17 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 18 -<br />
LGE Internal Use Only
+19.0V NTP3000<br />
+12.0V<br />
KIA78R09<br />
9.0V<br />
MC33078<br />
KIA78R09<br />
FAN1 KIA78R09 FAN2, 3<br />
SC1565-2.5<br />
AZ1117H-3.3<br />
MST3369 24C08<br />
+6.0V<br />
PQ05DZ1U<br />
+5.0V<br />
PQ05DZ1U<br />
AT/NT Tuner<br />
CS4344 CS5340<br />
TEA6420 FRC94XYH STMAV335<br />
KIA7805<br />
MIC2505<br />
9.0V<br />
+5.0VST<br />
Live-on<br />
SI3865<br />
+5V<br />
_L<br />
AZ1085S-3.3 BA033FP-3.3 M<strong>TV</strong>416<br />
AZ1085S-1.8<br />
ICL3232CBNZ<br />
3.3VST_MICOM<br />
24C16<br />
12.0V<br />
SC1592-1.0<br />
FRC<br />
SC2595-1.0<br />
SC1565-1.8<br />
1.8V<br />
X260<br />
1.2V<br />
ISL6549CB<br />
MIC2505<br />
HY5DU281622<br />
SC1565-2.6<br />
MIC3910-2.5<br />
+3.3V_L<br />
+3.3V_L<br />
ISL6549CB<br />
1.8V<br />
HYB18T512(4EA) MK3727D 74LVT16373(2EA) S29GL256 ISP1504<br />
Live<br />
Dead<br />
THC63LVD1023 AZ1117H-1.8 NTP3000 CS8416 LM75<br />
24C512<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 19 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 20 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 21 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 22 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 23 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 24 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 25 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 26 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 27 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 28 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 29 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 30 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 31 -<br />
LGE Internal Use Only
ANT/Cable<br />
S/PDIF OUT<br />
AT/NT<br />
TUNER<br />
EXT1/2<br />
COMP 1/2<br />
RGB<br />
HDMI 1/2/3<br />
Optical<br />
Coaxial<br />
L/R<br />
L/R<br />
L/R<br />
S/PDIF<br />
SIF<br />
TP<br />
MSP4450K<br />
I2SO 1<br />
I2S I2S<br />
I2S<br />
L/R I2S<br />
SC 2 I2SI 3<br />
NTP<br />
3000<br />
MCLK<br />
I2S<br />
MCLK<br />
I2S<br />
CS8416<br />
TP A<br />
TP C<br />
SIF IN 1<br />
SIF IN 2<br />
X260<br />
I2S IN 1<br />
I2S IN 2<br />
I2S OUT 1<br />
OUTPUT SPDIF<br />
SPDIF<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 32 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 33 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 34 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 35 -<br />
LGE Internal Use Only
ANT/Cable<br />
SPDIF OUT<br />
AT/NT<br />
TUNER<br />
EXT1/2<br />
COMP 1/2<br />
RGB<br />
MNT<br />
OUT<br />
HDMI 1/2/3<br />
Opti cal<br />
Coaxial<br />
L/R<br />
L/R<br />
L/R<br />
S/PDIF<br />
SIF<br />
MSP4450K<br />
I2SO 1<br />
SC2<br />
I2SO 3<br />
CS8416<br />
TP<br />
I2S I2S<br />
I2S<br />
I2S<br />
NTP<br />
3000<br />
MCLK<br />
I2S<br />
I2S<br />
TP A<br />
TP C<br />
SIF IN 1<br />
SIF IN 2<br />
X260<br />
I2S IN 1<br />
I2S IN 2<br />
I2S OUT 1<br />
OUTPUT SPDIF<br />
SPDIF<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 36 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 37 -<br />
LGE Internal Use Only
ANT/Cable<br />
S/PDIF OUT<br />
AT/NT<br />
TUNER<br />
EXT1/2<br />
COMP 1/2<br />
RGB<br />
MNT<br />
OUT<br />
HDMI 1/2/3<br />
Optical<br />
Coaxial<br />
L/R<br />
L/R<br />
L/R<br />
S/PDIF<br />
SIF<br />
TP<br />
MSP4450K<br />
I2SO 1<br />
I2S I2S<br />
I2S<br />
L/R I2S<br />
SC 2 I2SI 3<br />
NTP<br />
3000<br />
MCLK<br />
I2S<br />
MCLK<br />
I2S<br />
CS8416<br />
TP A<br />
TP C<br />
SIF IN 1<br />
SIF IN 2<br />
X260<br />
I2S IN 1<br />
I2S IN 2<br />
I2S OUT 1<br />
OUTPUT SPDIF<br />
SPDIF<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 38 -<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 39 -<br />
LGE Internal Use Only
ANT/Cable<br />
S/PDIF OUT<br />
AT/NT<br />
TUNER<br />
EXT1/2<br />
COMP 1/2<br />
RGB<br />
MNT<br />
OUT<br />
HDMI 1/2/3<br />
Optical<br />
Coaxial<br />
L/R<br />
L/R<br />
L/R<br />
S/PDIF<br />
SIF<br />
TP<br />
MSP4450K<br />
I2SO 1<br />
I2S I2S<br />
I2S<br />
L/R I2S<br />
SC 2 I2SI 3<br />
NTP<br />
3000<br />
MCLK<br />
I2S<br />
MCLK<br />
I2S<br />
CS8416<br />
TP A<br />
TP C<br />
SIF IN 1<br />
SIF IN 2<br />
X260<br />
I2S IN 1<br />
I2S IN 2<br />
I2S OUT 1<br />
OUTPUT SPDIF<br />
SPDIF<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 40 -<br />
LGE Internal Use Only
1<br />
2<br />
3<br />
4<br />
5<br />
Check HDMI Cable<br />
Check MST3361 (IC402) output<br />
HDMI_SPDIF (R409)<br />
Check CS8416 (IC501) inputs<br />
HDMI_SPDIF (C5005)<br />
Check CS8416 (IC501) outputs<br />
DATA(#26), SCLK(#27), LRCLK(#28)<br />
Check X260 (IC101) Inputs<br />
SCLK(R175), LRCLK(R176), DATA(R177)<br />
Follow the procedure of<br />
"COMMON SOUND OUT"<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 41 -<br />
LGE Internal Use Only
1. USB 1.1 Block Diagram For EMF<br />
5V_USB<br />
X260<br />
USB_ link<br />
(IC101)<br />
USB_PWR_DOWN<br />
USB1.1_OVRCUR<br />
DC/DC Converter<br />
(IC712)<br />
VBUS_5V<br />
DP,DM<br />
J<br />
A<br />
C<br />
K<br />
Cable<br />
Side B/D<br />
USB 1.1 cable<br />
2. Check Sequence<br />
Check the device power LED<br />
N<br />
Y Check the device Cable. Y<br />
Is it USB1.1 cable?<br />
N<br />
Replace the cable to USB1.1 cable<br />
or Replace the device.<br />
If the device is HDD, check a<br />
external power adaptor.<br />
Check VBUS_5V<br />
Y<br />
N<br />
Check the DC/DC Converter<br />
(IC712)<br />
¥Exception<br />
N<br />
Replace the DC/DC Converter<br />
- USB power could be disabled by inrushing current<br />
- In this case, remove the device and try to reboot the <strong>TV</strong> (AC power off/on)<br />
(IC712)<br />
DEVICE<br />
(HDD or Memory)<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 42 -<br />
LGE Internal Use Only
EXPLODED VIEW<br />
500<br />
121<br />
510<br />
300<br />
810<br />
120<br />
700<br />
520<br />
810<br />
A2<br />
A21<br />
200T<br />
200N<br />
200<br />
802<br />
LV1<br />
801<br />
803 804<br />
806<br />
807<br />
550<br />
808<br />
840<br />
805<br />
530<br />
850<br />
820<br />
540<br />
560<br />
830<br />
910<br />
900<br />
400<br />
Copyright LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
- 43 -<br />
LGE Internal Use Only
JK400-*1<br />
PPJ209-02<br />
2A<br />
4A<br />
3A<br />
2B<br />
5B<br />
2C<br />
5C<br />
2D<br />
5D<br />
2E<br />
4E<br />
3E<br />
[GN]1P_CAN<br />
[GN]CONTACT<br />
[GN]O_SPRING<br />
[BL]1P_CAN<br />
[BL]C_LUG_L<br />
[RD]1P_CAN1<br />
[RD]C_LUG_L<br />
[WH]1P_CAN<br />
[WH]C_LUG_L<br />
[RD]1P_CAN2<br />
[RD]CONTACT<br />
[RD]O_SPRING<br />
JK401-*1<br />
PPJ209-02<br />
2A<br />
4A<br />
3A<br />
2B<br />
5B<br />
2C<br />
5C<br />
2D<br />
5D<br />
2E<br />
4E<br />
3E<br />
[GN]1P_CAN<br />
[GN]CONTACT<br />
[GN]O_SPRING<br />
[BL]1P_CAN<br />
[BL]C_LUG_L<br />
[RD]1P_CAN1<br />
[RD]C_LUG_L<br />
[WH]1P_CAN<br />
[WH]C_LUG_L<br />
[RD]1P_CAN2<br />
[RD]CONTACT<br />
[RD]O_SPRING<br />
D<br />
G<br />
B<br />
S<br />
0<br />
4.7K<br />
R249<br />
4.7K<br />
R250<br />
4.7K<br />
R251<br />
C<br />
C<br />
C<br />
A0<br />
A1<br />
NC<br />
GND<br />
IC207<br />
AT24C512W-10SI-2.7<br />
1<br />
2<br />
3<br />
4<br />
8<br />
7<br />
6<br />
5<br />
VCC<br />
WP<br />
SCL<br />
SDA<br />
A0<br />
A1<br />
A2<br />
GND<br />
A0<br />
A1<br />
A2<br />
GND<br />
A0<br />
A1<br />
A2<br />
GND<br />
IC406<br />
AT24C02BN-10SU-1.8<br />
1<br />
2<br />
3<br />
4<br />
AT24C02BN-10SU-1.8<br />
1<br />
2<br />
3<br />
4<br />
IC407<br />
8<br />
7<br />
6<br />
5<br />
AT24C02BN-10SU-1.8<br />
1<br />
2<br />
3<br />
4<br />
IC408<br />
8<br />
7<br />
6<br />
5<br />
8<br />
7<br />
6<br />
5<br />
VCC<br />
WP<br />
SCL<br />
VCC<br />
WP<br />
SCL<br />
SDA<br />
VCC<br />
WP<br />
SCL<br />
SDA<br />
SDA<br />
21<br />
20<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 />
17<br />
18<br />
19<br />
21<br />
20<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 />
17<br />
18<br />
19<br />
21<br />
20<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 />
17<br />
18<br />
19<br />
JK402<br />
DC1R019WDH<br />
22<br />
JK403<br />
DC1R019WDH<br />
22<br />
JK404<br />
DC1R019WDH<br />
22<br />
DAC_VDDI<br />
DAC2_AVDD<br />
/MEM_DQMA3002:D3<br />
MEM_QSA3 002:D3<br />
/MWEA 002:A3;002:D3<br />
C2212<br />
0.1uF<br />
C2218<br />
0.1uF<br />
001:C1<br />
MEM_DQA[0-31]<br />
001:E1<br />
MEM_AA[0-14]<br />
MEM_VREFA<br />
MEM_VREFA<br />
R168<br />
10K<br />
VDDR_MEM<br />
MEM_VREFA<br />
C206<br />
0.1uF<br />
C228<br />
0.1uF<br />
C2147<br />
0.1uF<br />
VDDR_MEM<br />
VDDR_MEM<br />
001:F1;002:D2<br />
001:F1;002:D2<br />
001:F1;002:D3<br />
MCLKA<br />
/MCLKA<br />
MCKENA<br />
001:F1;002:A2<br />
001:F1;002:A2<br />
001:F1;002:A3<br />
MCLKA<br />
/MCLKA<br />
MCKENA<br />
001:F1;002:D3<br />
001:F1;002:D3<br />
001:F1;002:D3<br />
001:F1;002:D3<br />
001:F1;002:D3<br />
MEM_ODTA<br />
/MCSA0<br />
/MRASA<br />
/MCASA<br />
/MWEA<br />
001:F1;002:A3 MEM_ODTA<br />
001:F1;002:A3 /MCSA0<br />
001:F1;002:A3 /MRASA<br />
001:F1;002:A3 /MCASA<br />
001:F1;002:A3 /MWEA<br />
001:E1<br />
001:E1<br />
MEM_QSA0<br />
MEM_QSA1<br />
001:E1 MEM_QSA3<br />
001:E1 MEM_QSA2<br />
X260_OUT_B[0]<br />
001:L2;006:A1;008:A8<br />
001:D1<br />
001:D1<br />
/MEM_DQMA0<br />
/MEM_DQMA1<br />
001:E1<br />
/MEM_DQMA3<br />
001:D1 /MEM_DQMA2<br />
X260_OUT_R[1]<br />
001:L3;006:A1;008:A8<br />
VDDR_MEM<br />
C204<br />
0.1uF<br />
VDDR_MEM<br />
C227<br />
0.1uF<br />
VDDR_MEM<br />
22 R155<br />
VDDR_MEM<br />
VDDR_MEM<br />
VDDR_MEM<br />
VDDR_MEM<br />
22 R160<br />
005:B2<br />
DAC_VDDI<br />
X260_AUD_SPDIF<br />
VDDR_MEM<br />
VDDR_MEM<br />
VDDR_MEM<br />
VDDR_MEM<br />
VDDR_MEM<br />
VDDR_MEM<br />
C2183<br />
0.1uF<br />
C200<br />
0.1uF<br />
C202<br />
0.1uF<br />
C203<br />
0.1uF<br />
C208<br />
0.1uF<br />
C209<br />
0.1uF<br />
C210<br />
0.1uF<br />
0.1uF<br />
C216<br />
0.1uF<br />
C217<br />
0.1uF<br />
C223<br />
0.1uF<br />
C225<br />
0.1uF<br />
C226<br />
0.1uF<br />
C231<br />
0.1uF<br />
C232<br />
0.1uF<br />
C233<br />
0.1uF<br />
C236<br />
0.1uF<br />
C238<br />
0.1uF<br />
C241<br />
0.1uF<br />
+3.3V_L<br />
C2195<br />
0.1uF<br />
EBI_ADDR[1-24]<br />
005:G5<br />
4440_X260_SCLK<br />
C2229<br />
0.1uF<br />
005:G5<br />
4440_X260_DATA<br />
+3.3V_L<br />
EBI_ADDR[1-15]<br />
+3.3V_L<br />
X260_FAD[0-15]<br />
X260_FAD[0-15]<br />
EBI_ADDR[16-24]<br />
R239<br />
4.7K<br />
X260_FAD[0-15]<br />
VPVDD<br />
R229<br />
10K<br />
001:D8<br />
/X260_FWR<br />
22 R228<br />
001:K8;006:J7<br />
/X260_RESET_OUT<br />
22 R230<br />
R232<br />
4.7K<br />
+3.3V_L<br />
APVDD<br />
X260_ALE0<br />
001:D8<br />
X260_ALE1<br />
001:D8<br />
+3.3V_L<br />
R256<br />
22<br />
SCL_CH3<br />
+3.3V_L<br />
R257<br />
22<br />
SDA_CH3<br />
SCL_CH1<br />
C213<br />
C222<br />
C212<br />
C285<br />
0.1uF<br />
SCL_CH2<br />
0.1uF<br />
0.1uF<br />
0.1uF<br />
/X260_FRD<br />
001:D8<br />
R240<br />
0<br />
/FLASH_CS<br />
001:C9;001:D8<br />
+3.3V_L<br />
APVDD<br />
C239<br />
0.1uF<br />
C242<br />
10uF<br />
16V<br />
+3.3V_L<br />
UART0_TX<br />
+3.3V_L<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 />
003:F1;003:F8<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_MST<br />
+3.3V_VDDP<br />
+3.3V_MST<br />
+3.3V_VDVI<br />
+3.3V_MST<br />
+3.3V_VADC<br />
+3.3V_MST<br />
+3.3V_VMPLL<br />
+3.3V_L<br />
+3.3V_L<br />
001:F8<br />
/EJTAG_TRST<br />
R306<br />
4.7K<br />
/X260_RESET<br />
+3.3V_L<br />
UART0_RX<br />
UCOM_RX<br />
001:E8;003:F8<br />
003:H7<br />
X260_FAD[7]<br />
X260_FAD[8]<br />
R328<br />
100<br />
C416<br />
0.1uF<br />
C432<br />
0.1uF<br />
+3.3V_MST<br />
+3.3V_VPLL<br />
+2.5V_MST<br />
+2.5V_VAUPLL<br />
001:B3<br />
004:C3<br />
001:B3<br />
004:E4<br />
EXT_IN_R[0-9]<br />
MST_R[0-9] EXT_IN_G[0-9]<br />
MST_G[0-9]<br />
R435<br />
EXT_IN_R[0]<br />
100<br />
MST_R[0]<br />
L405<br />
HH-1M2012-121<br />
L406<br />
HH-1M2012-121<br />
R436<br />
R437<br />
EXT_IN_R[1]<br />
100 MST_R[1]<br />
EXT_IN_G[0] 100 MST_G[0]<br />
AR431 100<br />
EXT_IN_G[1] R438 100 MST_G[1]<br />
EXT_IN_R[2]<br />
MST_R[2]<br />
EXT_IN_R[3]<br />
C465<br />
C468<br />
MST_R[3]<br />
AR452<br />
EXT_IN_G[2]<br />
100 MST_G[2]<br />
0.1uF<br />
EXT_IN_R[4]<br />
MST_R[4]<br />
EXT_IN_G[3]<br />
MST_G[3]<br />
0.1uF<br />
EXT_IN_R[5]<br />
MST_R[5]<br />
EXT_IN_G[4]<br />
MST_G[4]<br />
EXT_IN_G[5]<br />
MST_G[5]<br />
AR432<br />
AR453 100<br />
EXT_IN_R[6]<br />
100<br />
EXT_IN_G[6]<br />
MST_G[6]<br />
MST_R[6]<br />
EXT_IN_R[7]<br />
EXT_IN_G[7]<br />
MST_G[7]<br />
MST_R[7]<br />
EXT_IN_R[8]<br />
MST_G[8]<br />
MST_R[8]<br />
EXT_IN_G[8]<br />
001:B4<br />
EXT_IN_R[9]<br />
EXT_IN_G[9]<br />
MST_G[9]<br />
MST_R[9]<br />
004:E5<br />
EXT_IN_B[2-9]<br />
MST_B[2-9]<br />
EXT_IN_B[2] AR470 100 MST_B[2]<br />
EXT_IN_B[3]<br />
MST_B[3]<br />
EXT_IN_B[4]<br />
MST_B[4]<br />
+3.3V_MST<br />
EXT_IN_B[5]<br />
MST_B[5]<br />
+5.0V<br />
IC401<br />
AZ1117H-3.3<br />
EXT_IN_B[6] AR471 100 MST_B[6]<br />
INPUT 3 1.0A 1 ADJ/GND EXT_IN_B[7]<br />
MST_B[7]<br />
EXT_IN_B[8]<br />
MST_B[8]<br />
2<br />
EXT_IN_B[9]<br />
MST_B[9]<br />
OUTPUT<br />
C400 C402<br />
C408<br />
C410<br />
47uF 0.1uF<br />
47uF<br />
0.1uF<br />
16V<br />
16V<br />
004:I7<br />
RGB_HS<br />
004:I6<br />
RGB_VS<br />
L400<br />
HH-1M2012-121<br />
C401<br />
0.1uF<br />
HDMI_DDC_SCL<br />
TMDS_RX0+<br />
TMDS_RX1+<br />
TMDS_RX2+<br />
TMDS_RXC+<br />
VIN<br />
33 R400<br />
33 R401<br />
C420<br />
0.1uF<br />
IC400<br />
SC1565IST-2.5TR<br />
1<br />
1.5A 3 VO<br />
2<br />
GND<br />
33 R402<br />
C405<br />
0.1uF<br />
C404<br />
0.1uF<br />
C403<br />
C423<br />
0.1uF<br />
C406<br />
0.1uF<br />
C427<br />
0.1uF<br />
C407<br />
47uF<br />
16V<br />
+3.3V_VADC<br />
+3.3V_VPLL<br />
C436<br />
0.1uF<br />
+2.5V_MST<br />
+2.5V_VAUPLL<br />
+3.3V_VDVI<br />
R405<br />
390<br />
C409<br />
0.1uF<br />
DDCASCL<br />
GND_1<br />
AVDD_AUPLL<br />
AVDD_DVI_1<br />
RXA0N<br />
RXA0P<br />
GND_2<br />
RXA1N<br />
RXA1P<br />
AVDD_DVI_2<br />
RXA2N<br />
RXA2P<br />
GND_3<br />
RXACKN<br />
RXACKP<br />
RXB0N<br />
RXB0P<br />
GND_4<br />
RXB1N<br />
RXB1P<br />
AVDD_DVI_3<br />
RXB2N<br />
RXB2P<br />
GND_5<br />
RXBCKN<br />
RXBCKP<br />
AVDD_DVI_4<br />
REXT<br />
GND_6<br />
AVDD_PLL<br />
DDCBSCL<br />
DDCBSDA<br />
AVDD_ADC_1<br />
GND_7<br />
VREFP<br />
VREFN<br />
HSYNC0<br />
VSYNC0<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 />
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 />
L401<br />
HH-1M2012-121<br />
HDMI_DDC_SDA<br />
33<br />
R406<br />
128 DDCASDA<br />
39<br />
127 GND_15<br />
40<br />
126 VDDP_6<br />
41<br />
005:B2<br />
RX_HDMI_SPDIF<br />
33<br />
R409<br />
125 SPDIFO<br />
C439<br />
0.1uF<br />
001:A3<br />
HDMI_AUDIO_MUTE<br />
33<br />
R412<br />
C440<br />
0.1uF<br />
C441<br />
0.1uF<br />
C442<br />
0.1uF<br />
004:B1<br />
MST_R[0-9]<br />
L402<br />
HH-1M2012-121<br />
C449<br />
0.1uF<br />
IC402<br />
MST3361M-LF-170<br />
42<br />
124 MCKO<br />
43<br />
123 AUMUTE<br />
44<br />
122 AUWS<br />
45<br />
121 AUSCK<br />
46<br />
120 AUSD<br />
47<br />
119 NC_12<br />
48<br />
118 NC_11<br />
49<br />
117 NC_10<br />
50<br />
116 VDDC_3<br />
51<br />
115 GND_14<br />
52<br />
114 VDDP_5<br />
53<br />
MST_R[0]<br />
113 DATA[0]<br />
54<br />
MST_R[1]<br />
112 DATA[1]<br />
55<br />
MST_R[2]<br />
111 DATA[2]<br />
56<br />
MST_R[3]<br />
110 DATA[3]<br />
57<br />
MST_R[4]<br />
109 DATA[4]<br />
58<br />
MST_R[5]<br />
108 DATA[5]<br />
59<br />
MST_R[6]<br />
107 DATA[6]<br />
60<br />
MST_R[7]<br />
106 DATA[7]<br />
61<br />
MST_R[8]<br />
105 DATA[8]<br />
62<br />
MST_R[9]<br />
104 DATA[9]<br />
63<br />
103 VDDC_2<br />
64<br />
C450<br />
0.1uF<br />
C451<br />
0.1uF<br />
102 GND_13<br />
101 VDDP_4<br />
100 FIELD/GPO<br />
99 VSOUT<br />
98 HSOUT<br />
+2.5V_VDDC<br />
97 SOGOUT/DE<br />
96 DATACK<br />
95 VDDC_1<br />
94 GND_12<br />
93 VDDP_3<br />
92 DATA[10]<br />
91 DATA[11]<br />
90 DATA[12]<br />
89 DATA[13]<br />
88 DATA[14]<br />
87 DATA[15]<br />
86 DATA[16]<br />
85 DATA[17]<br />
84 DATA[18]<br />
83 DATA[19]<br />
82 GND_11<br />
81 VDDP_2<br />
80 DATA[20]<br />
79 DATA[21]<br />
78 DATA[22]<br />
77 DATA[23]<br />
76 DATA[24]<br />
75 DATA[25]<br />
74 DATA[26]<br />
73 DATA[27]<br />
72 DATA[28]<br />
71 DATA[29]<br />
70 MDA<br />
69 MCL<br />
68 INT<br />
67 VDDP_1<br />
66 SDA<br />
65 SCL<br />
+3.3V_VMPLL<br />
L404<br />
HH-1M2012-121<br />
+3.3V_VDDP<br />
R445<br />
R446<br />
R447<br />
R448<br />
R441<br />
R442<br />
R443<br />
MST_G[0]<br />
MST_G[1]<br />
MST_G[2]<br />
MST_G[3]<br />
MST_G[4]<br />
MST_G[5]<br />
MST_G[6]<br />
MST_G[7]<br />
MST_G[8]<br />
MST_G[9]<br />
33<br />
33<br />
33<br />
0<br />
MST_B[2]<br />
MST_B[3]<br />
MST_B[4]<br />
MST_B[5]<br />
MST_B[6]<br />
MST_B[7]<br />
MST_B[8]<br />
MST_B[9]<br />
C459<br />
0.1uF<br />
33<br />
33<br />
33<br />
MST_G[0-9]<br />
MST3361_VS 001:B4<br />
MST3361_HS 001:B4<br />
DVI_DE 001:B4<br />
EXT_IN_CLK 001:B3<br />
MST_G[0-9]<br />
MST_B[2-9]<br />
001:D8<br />
/MST3361_IRQ<br />
SDA_CH2<br />
SCL_CH2<br />
4.7K R450<br />
4.7K R451<br />
C452<br />
0.1uF<br />
A0<br />
A1<br />
A2<br />
VSS<br />
+3.3V_MST<br />
IC404<br />
CAT24WC08W-T<br />
1<br />
2<br />
3<br />
4<br />
R4115<br />
READY<br />
R454<br />
R455<br />
R4116<br />
0<br />
001:E8<br />
001:E8<br />
001:E8<br />
DDC_SDA2<br />
DDC_SCL2<br />
TMDS2_RXC+<br />
TMDS2_RX0+<br />
TMDS2_RX1+<br />
TMDS2_RX2+<br />
TMDS0_RXC+<br />
HDMI_SEL0<br />
HDMI_SEL1<br />
HDMI_SEL2<br />
22<br />
22<br />
DDC_SDA0<br />
DDC_SCL0<br />
TMDS0_RX0+<br />
TMDS0_RX1+<br />
TMDS0_RX2+<br />
R423<br />
180<br />
R422<br />
9.1K<br />
8<br />
7<br />
6<br />
5<br />
VCC<br />
WP<br />
SCL<br />
SDA<br />
R425<br />
180<br />
R424<br />
9.1K<br />
R4112<br />
R4113<br />
+5.0V<br />
JK400<br />
PPJ209-03<br />
READY<br />
READY<br />
0 R457<br />
0 R458<br />
0 R459<br />
2A<br />
4A<br />
3A<br />
2B<br />
5B<br />
2C<br />
5C<br />
2D<br />
5D<br />
2E<br />
4E<br />
3E<br />
JP400<br />
JP401<br />
JP402<br />
JP403<br />
JP404<br />
JP405<br />
NC_1<br />
SDA1<br />
SCL1<br />
GND_1<br />
B11<br />
A11<br />
VCC_1<br />
B12<br />
A12<br />
GND_2<br />
B13<br />
A13<br />
VCC_2<br />
B14<br />
A14<br />
GND_3<br />
VCC_3<br />
VSADJ<br />
PRE<br />
NC_2<br />
READY<br />
ZD401<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 />
17<br />
18<br />
19<br />
20<br />
READY<br />
ZD402<br />
READY<br />
ZD403<br />
READY<br />
ZD404<br />
80 HPD1<br />
21<br />
S1<br />
79 VCC_12<br />
22<br />
S2<br />
READY<br />
ZD400<br />
23<br />
S3<br />
ZD405<br />
3.6V<br />
C461<br />
READY<br />
C462<br />
READY<br />
C463<br />
READY<br />
C464<br />
READY<br />
78 GND_14<br />
77 A24<br />
76 B24<br />
24<br />
GND_4<br />
25<br />
Y4<br />
R460<br />
10K<br />
R4071<br />
1K<br />
004:C8<br />
COMP1_Pb<br />
004:E8<br />
COMP1_Pr<br />
004:C8<br />
COMP1_Y<br />
C460<br />
18pF<br />
005:I1<br />
COMP_L_IN_1<br />
005:I1<br />
COMP_R_IN_1<br />
IC409<br />
TMDS341APFCR<br />
26<br />
Z4<br />
R4056<br />
470K<br />
R4057<br />
470K<br />
75 VCC_11<br />
74 A23<br />
73 B23<br />
27<br />
VCC_4<br />
28<br />
Y3<br />
72 GND_13<br />
71 A22<br />
70 B22<br />
29<br />
Z3<br />
30<br />
GND_5<br />
31<br />
Y2<br />
69 VCC_10<br />
68 A21<br />
67 B21<br />
32<br />
Z2<br />
33<br />
VCC_5<br />
34<br />
Y1<br />
003:L7;004:J3;004:J5;004:J8<br />
/W_PROTECT<br />
16<br />
001:L8<br />
COMP1_SW<br />
66 GND_12<br />
35<br />
Z1<br />
65 GND_11<br />
36<br />
GND_6<br />
64 SCL2<br />
37<br />
GND_7<br />
63 SDA2<br />
38<br />
SCL_SINK<br />
62 HPD2<br />
39<br />
SDA_SINK<br />
R464<br />
4.7K<br />
61 VCC_9<br />
40<br />
HPD_SINK<br />
B<br />
HDMI_CEC<br />
60 NC_4<br />
59 GND_10<br />
58 A34<br />
57 B34<br />
56 VCC_8<br />
55 A33<br />
54 B33<br />
53 GND_9<br />
52 A32<br />
51 B32<br />
50 VCC_7<br />
49 A31<br />
48 B31<br />
47 GND_8<br />
46 SCL3<br />
45 SDA3<br />
44 HPD3<br />
43 VCC_6<br />
42 OE<br />
41 NC_3<br />
R465<br />
4.7K<br />
C<br />
E<br />
0 R4117<br />
0 R4118<br />
0 R4119<br />
0 R4120<br />
0 R4121<br />
0 R4122<br />
0 R4123<br />
0 R4124<br />
0 R4138<br />
0 R4139<br />
Q400<br />
2SC3875S<br />
READY<br />
R466<br />
R4114<br />
R403<br />
4.7K<br />
+5.0VST<br />
R4090<br />
27K<br />
CEC_BSS83<br />
C466<br />
47uF<br />
16V<br />
READY<br />
+3.3V_MST<br />
C467<br />
0.1uF<br />
PPJ209-03<br />
R404<br />
4.7K<br />
JK401<br />
R468<br />
10K<br />
TMDS1_RX2+<br />
TMDS1_RX1+<br />
TMDS1_RX0+<br />
TMDS1_RXC+<br />
DDC_SCL1<br />
DDC_SDA1<br />
HDMI_DDC_SDA<br />
HDMI_DDC_SCL<br />
TMDS_RXC+<br />
TMDS_RX2-<br />
TMDS_RXC-<br />
TMDS_RX0-<br />
TMDS_RX0+<br />
TMDS_RX1+<br />
TMDS1_RXC-<br />
TMDS1_RX0-<br />
TMDS1_RX1-<br />
TMDS1_RX2-<br />
TMDS0_RX0-<br />
TMDS0_RXC-<br />
TMDS0_RX1-<br />
TMDS0_RX2-<br />
TMDS2_RX0-<br />
TMDS2_RXC-<br />
TMDS2_RX1-<br />
TMDS2_RX2-<br />
TMDS_RX1-<br />
TMDS_RX2+<br />
R472<br />
10K<br />
2A<br />
4A<br />
3A<br />
2B<br />
5B<br />
2C<br />
5C<br />
2D<br />
5D<br />
2E<br />
4E<br />
3E<br />
R475<br />
100<br />
R476<br />
100<br />
JP414<br />
JP415<br />
JP416<br />
JP417<br />
JP418<br />
JP419<br />
VCC<br />
WP<br />
SCL<br />
SDA<br />
READY<br />
ZD411<br />
READY<br />
ZD412<br />
READY<br />
ZD413<br />
READY<br />
ZD414<br />
3.3VST_MICOM<br />
CEC_BSS83<br />
BSS83<br />
Q408<br />
DGND<br />
R4092<br />
CEC_BSS83<br />
C473<br />
READY<br />
R481<br />
10K<br />
IC405<br />
AT24C02BN-10SU-1.8<br />
8<br />
7<br />
6<br />
5<br />
ZD415<br />
3.6V<br />
READY<br />
ZD410<br />
R4091<br />
100K<br />
CEC_BSS83<br />
C472<br />
READY<br />
C474<br />
READY<br />
C475<br />
READY<br />
KDS184<br />
D405<br />
R4058<br />
470K<br />
R4059<br />
470K<br />
CEC_BSS83<br />
1<br />
2<br />
3<br />
4<br />
004:C8<br />
COMP2_Pb<br />
004:E8<br />
COMP2_Pr<br />
R4093<br />
A0<br />
A1<br />
A2<br />
GND<br />
R4076<br />
1K<br />
0<br />
CEC_BSS83<br />
005:I1<br />
COMP_R_IN_2<br />
001:L8<br />
COMP2_SW<br />
004:C8<br />
COMP2_Y<br />
C471<br />
18pF<br />
005:I1<br />
COMP_L_IN_2 HDMI_CEC<br />
003:I6<br />
HDMICEC<br />
004:L3<br />
WP_CTRL0<br />
0.01uF<br />
C4000<br />
0.01uF<br />
C4001<br />
0.01uF<br />
C4002<br />
0.01uF<br />
C4003<br />
0.01uF<br />
C4004<br />
0.01uF<br />
C4005<br />
0.01uF<br />
C4006<br />
0.01uF<br />
C4007<br />
0.01uF<br />
C4008<br />
0.01uF<br />
C4009<br />
0.01uF<br />
004:L5<br />
WP_CTRL1<br />
Q407<br />
2N7002(F)<br />
CEC_2N7002<br />
3.3VST_MICOM<br />
S<br />
Q404<br />
2SC3875S<br />
+3.3V_MST<br />
C4010<br />
0.01uF<br />
C4011<br />
C<br />
E<br />
HDMICEC<br />
004:I7;004:J2<br />
Q403<br />
2SC3875S<br />
G<br />
L408<br />
C<br />
E<br />
D<br />
R4049<br />
4.7K<br />
B<br />
B<br />
R4044<br />
4.7K<br />
TMDS0_RX2+<br />
TMDS0_RX0+<br />
R4061<br />
0<br />
CEC_BYPASS<br />
HDMI0_HPD 001:A2<br />
HDMI_POWER0 001:A2<br />
R4051<br />
4.7K<br />
/W_PROTECT<br />
003:L7;004:G5;004:J5;004:J8<br />
TMDS1_RX2+<br />
TMDS1_RX1+<br />
TMDS1_RX0+<br />
TMDS_RX1-<br />
TMDS0_RX2-<br />
TMDS0_RX1+<br />
TMDS0_RXC-<br />
R4060 TMDS0_RX0-<br />
27K TMDS0_RXC+<br />
CEC_2N7002<br />
TMDS_RX2-<br />
TMDS0_RX1-<br />
TMDS_RX0-<br />
TMDS_RXC-<br />
TMDS1_RX1-<br />
TMDS1_RX0-<br />
TMDS1_RXC+<br />
TMDS1_RX2-<br />
TMDS1_RXC-<br />
HDMI_POWER1 001:A2<br />
R4050<br />
4.7K<br />
HDMICEC<br />
VR400<br />
R439<br />
1K<br />
VR401<br />
Q406<br />
KRC104S<br />
DDC_SDA0<br />
DDC_SCL0<br />
+3.3V_MST<br />
+3.3V_MST<br />
C<br />
E<br />
R4001<br />
4.7K<br />
R497<br />
4.7K<br />
B<br />
B<br />
E<br />
C<br />
E<br />
Q401<br />
KRC104S<br />
+5.0V<br />
A1<br />
A2<br />
C488<br />
10uF<br />
16V<br />
KDS184<br />
D404<br />
DDC_SCL0<br />
DDC_SDA0<br />
R4042 0<br />
+5.0V<br />
DDC_SCL1<br />
R4043 0<br />
DDC_SDA1<br />
R4016<br />
R4023<br />
KDS184 5.1K<br />
1K<br />
D402<br />
+3.3V_MST<br />
R4017<br />
C487<br />
10K<br />
R4003<br />
10uF<br />
4.7K<br />
16V<br />
C<br />
B Q402<br />
HDMI1_HPD 001:A2 KRC104S<br />
/W_PROTECT<br />
003:L7;004:G5;004:J3;004:J8<br />
R440<br />
1K<br />
Q405<br />
KRC104S<br />
DDC_SDA1<br />
DDC_SCL1<br />
+3.3V_MST<br />
C<br />
E<br />
R496<br />
4.7K<br />
B<br />
R4005<br />
47K<br />
R4004<br />
47K<br />
R4008<br />
47K<br />
R4007<br />
47K<br />
A1<br />
A2<br />
R4020<br />
5.1K<br />
R4021<br />
10K<br />
R4012<br />
R4013<br />
R4018<br />
R4014<br />
R4015<br />
R4019<br />
VR403<br />
4.7K<br />
4.7K<br />
4.7K<br />
VR402<br />
4.7K<br />
4.7K<br />
4.7K<br />
R4024<br />
R4025<br />
R4026<br />
R4027<br />
R4028<br />
R4029<br />
R4030<br />
R4031<br />
R4022<br />
1K<br />
R4032<br />
R4033<br />
R4034<br />
R4035<br />
R4036<br />
R4037<br />
R4038<br />
R4039<br />
R4040<br />
R4041<br />
VR404<br />
0<br />
0<br />
0<br />
0<br />
0<br />
0<br />
0<br />
0<br />
VR405<br />
0<br />
0<br />
0<br />
0<br />
0<br />
0<br />
0<br />
0<br />
0<br />
0<br />
VR407<br />
VR406<br />
R4045<br />
R4046<br />
C491<br />
0.1uF<br />
R4047<br />
R4048<br />
C492<br />
0.1uF<br />
004:I3<br />
WP_CTRL0<br />
33<br />
33<br />
004:I5<br />
WP_CTRL1<br />
33<br />
33<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 />
001:L8;004:H8<br />
PC_SER_CLK<br />
001:L8;004:H8<br />
PC_SER_DATA<br />
007:C2<br />
PC_W/PROTECT<br />
R469<br />
0<br />
PDP<br />
READY<br />
12505WS-04A00<br />
0.047uF<br />
C413<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 />
1<br />
2<br />
3<br />
4<br />
PDP<br />
P401<br />
5<br />
+2.5V_MST<br />
AVDD_ADC_2<br />
READY<br />
C411<br />
GND_8<br />
BIN0P<br />
R407<br />
READY<br />
C412<br />
R408<br />
004:E8<br />
MUX_OUT_Pb<br />
BIN0N<br />
68<br />
R410<br />
0.047uF<br />
33<br />
L407<br />
HH-1M2012-121<br />
SOGIN0<br />
390<br />
R411<br />
004:E8<br />
MUX_OUT_Y<br />
C481<br />
0.1uF<br />
GIN0P<br />
1000pF<br />
C414<br />
C415<br />
R413<br />
R414<br />
READY<br />
GIN0N<br />
0.047uF<br />
C417<br />
68<br />
R415<br />
0.047uF<br />
33<br />
RIN0P<br />
C419<br />
R416<br />
33<br />
C418<br />
READY<br />
R417<br />
C482<br />
0.1uF<br />
004:C8<br />
MUX_OUT_Pr<br />
RIN0N<br />
0.047uF<br />
C421<br />
68<br />
R418<br />
0.047uF<br />
READY<br />
NC_1<br />
C422<br />
READY<br />
+2.5V_VDDC<br />
C484<br />
0.1uF<br />
NC_2<br />
NC_3<br />
NC_4<br />
NC_5<br />
NC_6<br />
NC_7<br />
NC_8<br />
NC_9<br />
AVDD_ADC_3<br />
GND_9<br />
001:A3<br />
VIDEO_SW1<br />
COMP1_Y<br />
004:G1<br />
COMP2_Y<br />
004:H1<br />
RGB_G 004:I7<br />
004:G1<br />
COMP1_Pb<br />
004:H1<br />
COMP2_Pb<br />
RGB_B 004:I7<br />
004:C8<br />
MUX_OUT_Pr<br />
GND_10<br />
C4015<br />
AVDD_MPLL<br />
22pF<br />
XOUT<br />
14.31818MHz<br />
X400<br />
XIN<br />
HWRESET<br />
001:A2<br />
MST3361_RESET<br />
75 R419<br />
A0<br />
C4014<br />
22pF<br />
75 R420<br />
75 R421<br />
R434<br />
10K<br />
R433<br />
READY<br />
75 R4140<br />
75 R4141<br />
75 R4142<br />
33<br />
R449<br />
R4143<br />
200<br />
R4145<br />
200<br />
R4144<br />
0<br />
R4146<br />
100<br />
R4147<br />
100<br />
R4148<br />
0<br />
+3.3V_MST<br />
R491<br />
10K<br />
0.1uF<br />
C4012<br />
0.1uF<br />
C4013<br />
0.1uF<br />
C424<br />
0.1uF<br />
C428<br />
0.1uF<br />
C429<br />
0.1uF<br />
C425<br />
SEL1<br />
Y1<br />
Y2<br />
R<br />
PB1<br />
PB2<br />
G<br />
PR/B<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
IC403<br />
STMAV335<br />
16<br />
15<br />
14<br />
13<br />
12<br />
11<br />
10<br />
9<br />
VCC<br />
Y/R<br />
PR1<br />
PR2<br />
B<br />
C453<br />
10uF<br />
SEL2<br />
PB/G<br />
GND<br />
+5.0V<br />
L403<br />
HH-1M2012-121<br />
0.1uF<br />
C454<br />
0.1uF<br />
C430<br />
0.1uF<br />
C431<br />
0.1uF<br />
C426<br />
33<br />
R456<br />
+3.3V_MST<br />
C457<br />
1000pF<br />
R4152<br />
100<br />
R492<br />
10K<br />
001:A3<br />
VIDEO_SW2<br />
004:B8<br />
MUX_OUT_Y<br />
004:B8<br />
MUX_OUT_Pb<br />
004:G1<br />
COMP1_Pr<br />
R4150 75 R4155<br />
100<br />
004:H1<br />
COMP2_Pr<br />
R4151<br />
0<br />
75 R4153<br />
75 R4154<br />
004:I7<br />
RGB_R<br />
1<br />
2<br />
3<br />
4<br />
5<br />
JK405-*1<br />
A03-7071-094<br />
PDP<br />
6<br />
7<br />
8<br />
9<br />
10<br />
16<br />
11<br />
12<br />
13<br />
14<br />
15<br />
5<br />
4<br />
3<br />
2<br />
1<br />
<strong>LCD</strong><br />
10<br />
9<br />
8<br />
7<br />
6<br />
15<br />
14<br />
13<br />
12<br />
11<br />
KCN-DS-1-0089<br />
JK405<br />
+3.3V_L<br />
R426<br />
4.7K<br />
PDP<br />
R427<br />
4.7K<br />
PDP<br />
+3.3V_L<br />
C469<br />
100pF<br />
R467<br />
10K<br />
ZD420<br />
CDS3C30GTH<br />
PDP<br />
ZD421<br />
CDS3C30GTH<br />
PDP<br />
ZD406<br />
3.6V<br />
R473<br />
READY<br />
ZD407<br />
5.6B<br />
ZD408<br />
5.6B<br />
C443<br />
READY<br />
C444<br />
READY<br />
ZD409<br />
5.6B<br />
C470<br />
470pF<br />
C476<br />
100pF<br />
R477<br />
10K<br />
R478<br />
10K<br />
ZD416<br />
5.6B<br />
ZD417<br />
5.6B<br />
R474<br />
1K<br />
C477<br />
22pF<br />
C478<br />
22pF<br />
003:H7<br />
DDC_SDA<br />
C479<br />
READY<br />
C480<br />
READY<br />
ZD418<br />
5.6B<br />
001:L8;004:A8<br />
PC_SER_DATA<br />
001:L8;004:A8<br />
PC_SER_CLK<br />
003:H6<br />
DDC_SCL<br />
ZD419<br />
5.6B<br />
001:L8<br />
RGB_SW<br />
C483<br />
READY<br />
004:A6<br />
RGB_VS<br />
004:A6<br />
RGB_HS<br />
004:C8<br />
RGB_B<br />
004:C8<br />
RGB_G<br />
004:E8<br />
RGB_R<br />
004:L8<br />
WP_CTRL2<br />
Q411<br />
2SC3875S<br />
HDMICEC<br />
004:I4;004:J2<br />
C<br />
E<br />
R4100<br />
4.7K<br />
B<br />
TMDS2_RX2+<br />
TMDS2_RX1+<br />
TMDS2_RX0+<br />
TMDS2_RX1-<br />
TMDS2_RX0-<br />
TMDS2_RXC+<br />
TMDS2_RX2-<br />
TMDS2_RXC-<br />
R4088 0<br />
+5.0V<br />
DDC_SCL2<br />
R4089 0<br />
DDC_SDA2<br />
R4095<br />
R4096<br />
KDS184 5.1K<br />
1K<br />
D408<br />
+3.3V_MST<br />
R4097<br />
C495<br />
10K<br />
R4099<br />
10uF<br />
4.7K<br />
16V<br />
C<br />
B Q409<br />
HDMI2_HPD 001:E8 KRC104S<br />
HDMI_POWER2 001:A2<br />
R4101<br />
4.7K<br />
/W_PROTECT<br />
003:L7;004:G5;004:J3;004:J5<br />
VR408<br />
R4102<br />
1K<br />
Q410<br />
KRC104S<br />
DDC_SDA2<br />
DDC_SCL2<br />
+3.3V_MST<br />
C<br />
E<br />
R4103<br />
4.7K<br />
B<br />
E<br />
R4105<br />
47K<br />
R4106<br />
47K<br />
A1<br />
A2<br />
R4107<br />
R4108<br />
R4109<br />
VR409<br />
4.7K<br />
4.7K<br />
4.7K<br />
R4080<br />
R4081<br />
R4082<br />
R4083<br />
R4084<br />
R4085<br />
R4086<br />
R4087<br />
0<br />
0<br />
0<br />
0<br />
0<br />
0<br />
0<br />
0<br />
VR410<br />
VR411<br />
R4110<br />
R4111<br />
C496<br />
0.1uF<br />
004:I8<br />
WP_CTRL2<br />
33<br />
33<br />
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
LGE Internal Use Only
Copyright © 2007 LG Electronics. Inc. All right reserved.<br />
Only for training and service purposes<br />
LGE Internal Use Only<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<br />
SYMBOL MARK OF THE SCHEMETIC.<br />
22<br />
R594<br />
6.8uH<br />
L501<br />
0.1uF<br />
C535<br />
+1.8V_NTP<br />
4.7<br />
R5015<br />
SCL_CH2<br />
22000pF<br />
C5007<br />
5.6K R5002<br />
1uF<br />
C568<br />
0.1uF<br />
C5009<br />
C579<br />
READY<br />
1K<br />
R514<br />
/X260_4450_RESET<br />
001:A2;005:G4<br />
3.3<br />
R581<br />
15uH<br />
L511<br />
8415_X260_LRCLK 001:B6<br />
0.1uF<br />
C557<br />
8415_X260_DATA 001:B6<br />
4.7<br />
R5014<br />
100pF<br />
C531<br />
1uF<br />
C565<br />
1uF<br />
C546<br />
4.7K<br />
R5018<br />
15uH<br />
L510<br />
1000pF<br />
C584<br />
JP503<br />
3.3<br />
R582<br />
+19.0V<br />
22000pF<br />
C566<br />
JP502<br />
R5013<br />
READY<br />
0.1uF<br />
C560<br />
0.47uF<br />
C590<br />
JP501<br />
+3.3V_L<br />
SDA_CH2<br />
1000pF<br />
C583<br />
1uF<br />
C564<br />
2N7002(F)<br />
Q503<br />
G<br />
D<br />
S<br />
X260_AUD_MCLK<br />
001:L4<br />
0.1uF<br />
C586<br />
0.1uF<br />
C561<br />
+19.0V<br />
10uF<br />
16V<br />
C532<br />
0<br />
R586<br />
22<br />
R595<br />
X260_4440_LRCLK<br />
001:L4;005:J5<br />
15uH<br />
L513<br />
47K<br />
R593<br />
22<br />
R589<br />
22<br />
R590<br />
0.1uF<br />
C515<br />
LFM<br />
005:G7<br />
+5V_L<br />
3.3<br />
R559<br />
0.01uF<br />
C5005<br />
+19.0V<br />
005:I8;005:J6;005:J6;005:J7;007:G2<br />
AUD_SPDIF_OUT<br />
005:A6;005:B5<br />
+3.3V_L<br />
R5006<br />
READY<br />
4.7K<br />
R5021<br />
SDA_CH2<br />
C578<br />
READY<br />
X260_4440_SCLK<br />
001:L4;005:J5<br />
0.1uF<br />
C571<br />
+3.3V_L<br />
0<br />
R5009<br />
2N7002(F)<br />
Q504<br />
G<br />
D<br />
S<br />
3K<br />
R585<br />
SCL_CH2_5V<br />
005:G4;007:J8<br />
3.3<br />
R560<br />
22000pF<br />
C551<br />
R5012<br />
READY<br />
C580<br />
READY<br />
4.7K<br />
R5019<br />
22000pF<br />
C567<br />
3.3K<br />
R540<br />
+5V_L<br />
+3.3V_L<br />
1000pF<br />
C582<br />
0.01uF<br />
C5006<br />
AZ1117H-1.8TRE1(EH13A)<br />
IC507<br />
1.0A<br />
2<br />
OUTPUT<br />
3<br />
INPUT 1 ADJ/GND 0.1uF<br />
C5010<br />
22<br />
R588<br />
+1.8V_NTP<br />
0.1uF<br />
C529<br />
15uH<br />
L512<br />
0<br />
R5008<br />
X260_AUD_SPDIF<br />
001:L4<br />
R5010<br />
READY<br />
0.01uF<br />
C598<br />
RX_HDMI_SPDIF<br />
004:B3<br />
4.7<br />
R5017<br />
0.1uF<br />
C588<br />
0.01uF<br />
C594<br />
AUD_SPDIF_OUT<br />
005:A6;005:C2<br />
0.01uF<br />
C597<br />
0.01uF<br />
C592<br />
8415_SPDIF_ERROR<br />
001:A3;005:K8<br />
10uF<br />
16V<br />
C562<br />
0.1uF<br />
C5003<br />
10uF<br />
16V<br />
C5002<br />
+19.0V<br />
X260_4440_DATA<br />
001:L4;005:J4<br />
0.1uF<br />
C558<br />
SMW250-04<br />
P501<br />
1<br />
2<br />
3<br />
4<br />
330uF<br />
35V<br />
C570<br />
JP500<br />
0.01uF<br />
C574<br />
0.1uF<br />
C599<br />
1000pF<br />
C581<br />
33pF<br />
C548<br />
C577<br />
READY<br />
330uF<br />
35V<br />
C556<br />
R5007<br />
READY<br />
47K<br />
R587<br />
SMW250-03<br />
P502<br />
1<br />
2<br />
3<br />
5.6K R5003<br />
R5011<br />
READY<br />
33pF<br />
C547<br />
8415_RESET<br />
001:A3<br />
22<br />
R591<br />
+19.0V<br />
+1.8V_NTP<br />
3.3<br />
R584<br />
3.3<br />
R583<br />
0.01uF<br />
C5008<br />
8415_X260_SCLK 001:B6<br />
0.1uF<br />
C585<br />
SCL_CH2<br />
0.1uF<br />
C569<br />
+5V_L<br />
NTP3000<br />
IC505<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 />
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 />
39<br />
40<br />
41<br />
42<br />
43<br />
44<br />
45<br />
46<br />
47<br />
48<br />
49<br />
50<br />
51<br />
52<br />
53<br />
54<br />
55<br />
56<br />
1000pF<br />
C5004<br />
LFM<br />
005:F7<br />
ZD500<br />
READY<br />
4.7<br />
R5016<br />
1000pF<br />
C533<br />
+3.3V_L<br />
0.1uF<br />
C573<br />
10uF<br />
16V<br />
C536<br />
4.7K<br />
R5020<br />
2K R5004<br />
0.01uF<br />
C563<br />
SDA_CH2_5V<br />
005:F4;007:J9<br />
0.1uF<br />
C541<br />
0.1uF<br />
C587<br />
CS8416-CZZR<br />
IC501<br />
3<br />
RXP1<br />
2<br />
RXP2<br />
4<br />
RXP0<br />
1<br />
RXP3<br />
6<br />
VA<br />
5<br />
RXN<br />
7<br />
AGND<br />
8<br />
FILT<br />
9<br />
RST<br />
10<br />
RXP4//RXSEL1<br />
11<br />
RXP5//RXSEL0<br />
12<br />
RXP6//TXSEL1<br />
13<br />
RXP7//TXSEL0<br />
14<br />
AD0/CS//NV/RERR<br />
15<br />
AD1/CDIN//AUDIO<br />
16<br />
SCL/CCLK//96KHZ<br />
17<br />
SDA/CDOUT//RCBL<br />
18<br />
AD2/GPO2//U<br />
19<br />
GPO1//C<br />
20<br />
GPO0//TX<br />
21<br />
VL<br />
22<br />
DGND<br />
23<br />
VD<br />
24<br />
RMCK<br />
25<br />
OMCK<br />
26<br />
SDOUT<br />
27<br />
OSCLK<br />
28<br />
OLRCK<br />
0.47uF<br />
C589<br />
2K R5005<br />
+1.8V_NTP<br />
22000pF<br />
C559<br />
SPDIF<br />
P500<br />
4<br />
3<br />
2<br />
6<br />
1<br />
5<br />
2SC3875S<br />
Q505<br />
E<br />
B<br />
C<br />
3.3VST_MICOM<br />
4.7K<br />
R5023<br />
3.3VST_MICOM<br />
AC_DET<br />
2SC3875S<br />
Q506<br />
E<br />
B<br />
C<br />
4.7K<br />
R5026<br />
22<br />
R5024<br />
2pF<br />
C5013<br />
3.3uF<br />
50V<br />
C5018<br />
18.432MHz<br />
X500<br />
4440_X260_DATA 001:B6<br />
10uF<br />
16V<br />
C5049<br />
COMP_L_IN_1 004:G2<br />
SCL_CH2_5V<br />
005:E4;007:J8<br />
AV_R_IN_2 007:D11<br />
22uH<br />
L521<br />
9.0V<br />
2SC3875S<br />
Q512<br />
E<br />
B<br />
C<br />
1K<br />
R5058<br />
1K<br />
R5055<br />
8.2V<br />
ZD502<br />
0<br />
R5072<br />
2200pF<br />
C5040<br />
MNT_R_OUT<br />
007:C8<br />
100<br />
R5031<br />
0<br />
R5034<br />
0.1uF<br />
C5046<br />
0<br />
R5073<br />
RGB_R_IN 007:E6<br />
220<br />
R5060<br />
1K<br />
R5051<br />
R5064<br />
READY<br />
220<br />
R5061<br />
2200pF<br />
C5024<br />
220<br />
R5043<br />
AV_R_IN_1 007:E5<br />
AV_L_IN_1 007:E5<br />
220<br />
R5039<br />
0.01uF<br />
C5034<br />
39<br />
R5036<br />
2200pF<br />
C5035<br />
0.47uF<br />
C5036<br />
4.7K<br />
R5069<br />
0.47uF<br />
C5021<br />
MUTE1<br />
003:J8<br />
56pF<br />
C5019<br />
COMP_L_IN_2 004:I2<br />
220<br />
R5063<br />
4440_X260_SCLK 001:B6<br />
4440_X260_LRCLK 001:B6<br />
1K<br />
R5049<br />
+5.0V<br />
2.2K<br />
R5070<br />
X260_4440_SCLK<br />
001:L4;005:H8<br />
22uH<br />
L520<br />
AV_L_IN_2 007:D11<br />
10uF<br />
16V<br />
C5048<br />
READY<br />
R5044<br />
0.47uF<br />
C5028<br />
22<br />
R5037<br />
0.1uF<br />
C5030<br />
3.3uF<br />
50V<br />
C5045<br />
2K<br />
R5077<br />
X260_4440_DATA<br />
001:L4;005:H8<br />
220<br />
R5059<br />
1.5K<br />
R5080<br />
2.2K<br />
R5071<br />
2200pF<br />
C5032<br />
0.01uF<br />
C5043<br />
56pF<br />
C5016<br />
MNT_L_OUT<br />
007:C8<br />
2SC3875S<br />
Q511<br />
E<br />
B<br />
C<br />
MSP4450K-QA-D6<br />
IC508<br />
1<br />
NC0<br />
2<br />
I2C_CL<br />
3<br />
I2C_DA<br />
4<br />
I2S_CL<br />
5<br />
I2S_WS<br />
6<br />
I2S_DA_OUT<br />
7<br />
I2S_DA_IN1<br />
8<br />
I2S_DEL_IN<br />
9<br />
I2S_DEL_OUT<br />
10<br />
I2S_DEL_CL<br />
11<br />
I2S_DEL_WS<br />
12<br />
DVSUP0<br />
13<br />
DVSUP1<br />
14<br />
DVSS0<br />
15<br />
DVSS1<br />
16<br />
DVSS2<br />
17<br />
I2S_DA_IN2<br />
18<br />
NC1<br />
19<br />
I2S_CL3<br />
20<br />
I2S_WS3<br />
21<br />
RESETQ<br />
22<br />
I2S_DA_IN3<br />
23<br />
I2S_DA_IN4<br />
24<br />
DACA_R<br />
25 DACA_L<br />
26 VREF2<br />
27 DACM_R<br />
28 DACM_L<br />
29 DACM_C<br />
30 DACM_SUB<br />
31 DACM_SR<br />
32 DACM_SL<br />
33 SC2_OUT_R<br />
34 SC2_OUT_L<br />
35 VREF1<br />
36 SC1_OUT_R<br />
37 SC1_OUT_L<br />
38 CAPL_A<br />
39 AHVSUP<br />
40 CAPL_M<br />
41 SC3_OUT_R<br />
42 SC3_OUT_L<br />
43 AHVSS0<br />
44 AHVSS1<br />
45 AGNDC<br />
46 NC2<br />
47 SC4_IN_L<br />
48 SC4_IN_R<br />
49 ASG0<br />
50 SC3_IN_L<br />
51 SC3_IN_R<br />
52 ASG1<br />
53 SC2_IN_L<br />
54 SC2_IN_R<br />
55 ASG2<br />
56 SC1_IN_L<br />
57 SC1_IN_R<br />
58 VREFTOP<br />
59 SC5_IN_L/MONO_IN<br />
60 SC5_IN_R<br />
61 AVSS0<br />
62 AVSS1<br />
63 NC3<br />
64 NC4<br />
65<br />
AVSUP0<br />
66<br />
AVSUP1<br />
67<br />
ANA_IN1+<br />
68<br />
ANA_IN-<br />
69<br />
ANA_IN2+<br />
70<br />
TESTEN<br />
71<br />
XTAL_IN<br />
72<br />
XTAL_OUT<br />
73<br />
TP<br />
74<br />
AUD_CL_OUT<br />
75<br />
NC5<br />
76<br />
SPDIF_OUT<br />
77<br />
DCTRI/O_1<br />
78<br />
DCTRI/O_0<br />
79<br />
ADR_SEL<br />
STANDBYQ 80<br />
1K<br />
R5052<br />
2200pF<br />
C5042<br />
2pF<br />
C5014<br />
22uF<br />
16V<br />
C5025<br />
2200pF<br />
C5041<br />
1.5K<br />
R5081<br />
4.7uF<br />
50V<br />
C5050<br />
220<br />
R5062<br />
1K<br />
R5048<br />
470K<br />
R5079<br />
100pF<br />
C5039<br />
0.47uF<br />
C5026<br />
KRA102S<br />
Q513<br />
E<br />
B<br />
C<br />
R5065<br />
READY<br />
/X260_4450_RESET<br />
001:A2;005:G7<br />
4.7uF<br />
50V<br />
C5051<br />
22uH<br />
L522<br />
X260_4440_LRCLK<br />
001:L4;005:H8<br />
2K<br />
R5078<br />
1K<br />
R5041<br />
C50272200pF<br />
COMP_R_IN_2 004:I2<br />
4.7K<br />
R5068<br />
2SA1504S<br />
Q510<br />
E<br />
B<br />
C<br />
1K<br />
R5045<br />
SDA_CH2_5V 005:E4;007:J9<br />
C50222200pF<br />
2200pF<br />
C5037<br />
0.1uF<br />
C5015<br />
0.1uF<br />
C5052<br />
470K<br />
R5076<br />
39<br />
R5035<br />
READY<br />
R5033<br />
22<br />
R5038<br />
22uF<br />
16V<br />
C5012<br />
0.01uF<br />
C5020<br />
100<br />
R5057<br />
0.47uF<br />
C5033<br />
RGB_L_IN 007:E7<br />
0.47uF<br />
C5031<br />
220<br />
R5040<br />
2SA1504S<br />
Q508<br />
E<br />
B<br />
C<br />
0.47uF<br />
C5038<br />
0.47uF<br />
C5023<br />
470pF<br />
C5044<br />
2200pF<br />
C5029<br />
56pF<br />
C5017<br />
COMP_R_IN_1 004:G2<br />
1K<br />
R5046<br />
M_SIF1<br />
006:F8<br />
1K<br />
R5042<br />
READY<br />
R5054<br />
9.0V<br />
100uF<br />
16V<br />
C5047<br />
NTP_FAULT<br />
005:J8<br />
NTP_FAULT<br />
005:I8<br />
0<br />
R543<br />
0.47uF<br />
C575<br />
0.47uF<br />
C576<br />
2N7002(F)<br />
Q514<br />
G<br />
D<br />
S<br />
2N7002(F)<br />
Q515<br />
G<br />
D<br />
S<br />
2N7002(F)<br />
Q516<br />
G<br />
D<br />
S<br />
+3.3V_L<br />
0<br />
R5029<br />
SDA_CH3<br />
SCL_CH3<br />
0<br />
R509<br />
33K<br />
R5022<br />
3.3VST_MICOM<br />
R511<br />
READY<br />
2SC3875S<br />
Q507<br />
READY E<br />
B<br />
C<br />
8415_SPDIF_ERROR<br />
001:A3;005:C3<br />
R510<br />
READY<br />
0.1uF<br />
C506<br />
L516<br />
L515<br />
L504<br />
L517<br />
L518<br />
L505<br />
L508<br />
R508<br />
READY<br />
100pF<br />
C505<br />
/X260_NTP_RESET<br />
001:B7<br />
R512<br />
READY<br />
100<br />
R596<br />
/4450_NTP_RESET<br />
005:G3<br />
/4450_NTP_RESET<br />
005:G7<br />
100<br />
R541<br />
100<br />
R542<br />
4450_AUD_MCLK<br />
005:G3;005:G7<br />
22<br />
R592<br />
MSP_TO_8145_CLK<br />
4450_AUD_MCLK<br />
005:D2;005:G7<br />
0.1uF<br />
C5053<br />
1K<br />
R5083<br />
1K<br />
R5082<br />
+3.3V_L<br />
4450_AUD_MCLK<br />
005:D2;005:G3 22<br />
R5032<br />
READY 0<br />
R5030<br />
Optical SPDIF Out<br />
IIC CH3<br />
0x54<br />
=> 20xH(W), 21xH(R)<br />
I2C Bus Address<br />
IIC CH2 0x80<br />
FRC_ODDOUT_B[0-9]<br />
FRC_ODDOUT_R[0-9]<br />
L611<br />
MODE2<br />
0<br />
AR601<br />
MODE0<br />
THE<br />
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<br />
SYMBOL MARK OF THE SCHEMETIC.<br />
4.7K<br />
R6007<br />
0<br />
R684<br />
READY<br />
R663<br />
22<br />
R609<br />
HH-1M2012-121<br />
L606<br />
MAP<br />
HH-1M2012-121<br />
L601<br />
READY<br />
R620<br />
FRC_CLK_OUT<br />
008:H6<br />
FRC_CLK_IN<br />
008:A7;008:J6<br />
FRC_HS<br />
008:F7<br />
0<br />
R644<br />
4.7K<br />
22<br />
R751<br />
<strong>LCD</strong>_FHD_120Hz/ROM_DL<br />
READY<br />
ZD718<br />
470pF<br />
C733<br />
0 R7034<br />
<strong>LCD</strong><br />
KIA78R09F<br />
IC708<br />
1.0A<br />
1<br />
VIN<br />
2<br />
VC<br />
3<br />
VOUT<br />
4<br />
NC<br />
5<br />
GND1<br />
6<br />
GND2<br />
0<br />
R773<br />
READY<br />
C752<br />
75<br />
R714<br />
KEY1<br />
003:L8<br />
C703<br />
READY<br />
0.1uF<br />
C767<br />
IR<br />
007:C6<br />
0.1uF<br />
C7005<br />
1000pF<br />
C744<br />
15K 1%<br />
R787<br />
470K<br />
R719<br />
AV_R_IN_1<br />
005:H1<br />
2.2uH<br />
L700<br />
0.1uF<br />
C765<br />
+6.0V<br />
+3.3V_L<br />
47uF<br />
16V<br />
C7011<br />
1K<br />
R702<br />
LM75CIMX-3<br />
IC706<br />
3<br />
OS<br />
2<br />
SCL<br />
4<br />
GND<br />
1<br />
SDA<br />
5<br />
A2<br />
6<br />
A1<br />
7<br />
A0<br />
8<br />
+VS<br />
ZD710<br />
5.6B<br />
+5.0VST<br />
MNT_R_OUT<br />
005:L3<br />
100<br />
R726<br />
100<br />
R733<br />
DGND<br />
RGB_L_IN<br />
005:I1<br />
0.1uF<br />
C763<br />
AV2_V_SW<br />
001:L7<br />
RGB_R_IN<br />
005:I1<br />
470pF<br />
C704<br />
100pF<br />
C717<br />
10K<br />
R7011<br />
+12.0V<br />
HH-1M2012-121<br />
L718<br />
330uF<br />
C724<br />
16V<br />
10K<br />
R7022<br />
470pF<br />
C728<br />
2.2uH<br />
L703<br />
100<br />
R7009<br />
+5.0VST<br />
SMW200-14<br />
P700<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 />
2.2uF<br />
50V<br />
C711<br />
100pF<br />
C723<br />
R7002<br />
READY<br />
AC_DET<br />
003:L6;005:L8<br />
KEY2<br />
003:L8<br />
0.1uF<br />
C7003<br />
12K<br />
R7019<br />
AV1_S_SW<br />
001:L7<br />
0.1uF<br />
C735<br />
100<br />
R721<br />
SMW250-10<br />
P702<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
USB1.1_PA<br />
001:B6<br />
220K<br />
R771<br />
+6.0V<br />
2.2uH<br />
L709<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<br />
SYMBOL MARK OF THE SCHEMETIC.<br />
2.2uH<br />
L701<br />
+3.3V_L<br />
0.1uF<br />
C766<br />
10<br />
R748<br />
SDA_CH2<br />
5.1<br />
R784<br />
4.7K<br />
R7014<br />
L706<br />
AV_L_IN_1<br />
005:H1<br />
0.1uF<br />
C7008<br />
5.1<br />
R785<br />
100<br />
R7003<br />
READY<br />
C750<br />
JP704<br />
0.1uF<br />
C7006<br />
SI3865BDV<br />
Q702<br />
2.9A<br />
3<br />
D2_2<br />
2<br />
D2_1<br />
1<br />
R2<br />
4<br />
S2<br />
5<br />
ON/OFF<br />
6<br />
R1/C1<br />
100pF<br />
C718<br />
1K<br />
R728<br />
+12.0V<br />
KIA78R09F<br />
IC707<br />
1.0A<br />
1<br />
VIN<br />
2<br />
VC<br />
3<br />
VOUT<br />
4<br />
NC<br />
5<br />
GND1<br />
6<br />
GND2<br />
SAM2333<br />
LD702<br />
A2[GN]<br />
C<br />
A1[RD]<br />
470pF<br />
C729<br />
0<br />
R774<br />
9.0V<br />
75<br />
R720<br />
AV2_C<br />
001:B5<br />
1K<br />
R779<br />
100pF<br />
C722<br />
AV_R_IN_2<br />
005:H1<br />
470K<br />
R745<br />
READY<br />
C749<br />
GIL-G-03-S3T2<br />
P707<br />
1<br />
2<br />
3<br />
ZD703<br />
READY<br />
0.1uF<br />
C743<br />
LED_G<br />
003:J4;007:H11<br />
JP700<br />
LED_G<br />
003:J4;007:G8<br />
68uF<br />
10V<br />
C701<br />
4.7K<br />
R7013<br />
L720<br />
+6.0V<br />
0 R7035 100<br />
R7008<br />
0.1uF<br />
C7002<br />
10K<br />
R7012<br />
+5.0V<br />
AV1_Y<br />
001:B5<br />
10K<br />
R738<br />
1K<br />
R737<br />
+5.0VST<br />
100<br />
R7006<br />
HH-1M2012-121<br />
L710<br />
TX<br />
003:H7<br />
0.1uF<br />
C710<br />
75<br />
R713<br />
SAM2333<br />
LD701<br />
A2[GN]<br />
C<br />
A1[RD]<br />
HH-1M2012-121<br />
L711<br />
15K 1%<br />
R786<br />
0.1uF<br />
C7007<br />
VAVS_ON<br />
003:J3;003:L2<br />
ZD709<br />
READY<br />
22<br />
R752<br />
<strong>LCD</strong>_FHD37/42/47<br />
1K<br />
R736<br />
AI/POD<br />
003:H6;006:H2<br />
100<br />
R723<br />
1K<br />
R778<br />
+3.3V_L<br />
0.1uF<br />
C768<br />
10K<br />
R783<br />
AV2_Y<br />
001:B5<br />
100<br />
R7004<br />
470K<br />
R716<br />
HH-1M2012-121<br />
L712<br />
JP703<br />
ZD708<br />
READY<br />
68uF<br />
10V<br />
C726<br />
VBR_A<br />
003:J3<br />
JP702<br />
VFD_CS<br />
003:L4<br />
470K<br />
R718<br />
AV1_CVBS<br />
001:B5<br />
3.6V<br />
ZD711<br />
470K<br />
R715<br />
VFD_S_CLK<br />
003:L4<br />
100<br />
R724<br />
AV1_V_SW<br />
001:L7<br />
47uF<br />
16V<br />
C7001<br />
C708<br />
READY<br />
470K<br />
R744<br />
0<br />
R740<br />
LIVE_ON_5.0<br />
003:L7<br />
5V_MNT<br />
003:J4<br />
VFD_S_DATA<br />
003:L4<br />
SAM2333<br />
LD700<br />
A2[GN]<br />
C<br />
A1[RD]<br />
0.1uF<br />
C712<br />
READY<br />
ZD719<br />
JP701<br />
1uF<br />
50V<br />
C700<br />
0<br />
R772<br />
+19.0V<br />
+5V_L<br />
0.1uF<br />
C746<br />
100<br />
R729<br />
VBR_B_FHD<br />
006:I2;007:E2<br />
GIL-G-03-S3T2<br />
P706<br />
1<br />
2<br />
3<br />
+3.3V_L<br />
L716<br />
EYE_Q<br />
100<br />
R7005<br />
KIA78R05F<br />
IC704<br />
1.0A<br />
1<br />
VIN<br />
2<br />
VC<br />
3<br />
VOUT<br />
4<br />
NC<br />
5<br />
GND1<br />
6<br />
GND2<br />
+12.0V<br />
2.2uH<br />
L702<br />
10uF<br />
25V<br />
C727<br />
VBR_B_FHD<br />
006:I2;007:C1<br />
MNT_L_OUT<br />
005:L3<br />
ZD706<br />
READY<br />
RL_ON<br />
003:J3;003:L2<br />
M62320FP<br />
IC705<br />
3<br />
SDA<br />
2<br />
SCL<br />
4<br />
D0<br />
1<br />
SO<br />
6<br />
D2<br />
5<br />
D1<br />
7<br />
D3<br />
8<br />
GND<br />
9<br />
D4<br />
10<br />
D5<br />
11<br />
D6<br />
12<br />
D7<br />
13<br />
VDD<br />
14<br />
CS2<br />
15<br />
CS1<br />
16<br />
CS0<br />
LED_R<br />
003:I4;007:G8<br />
470pF<br />
C706<br />
AV2_S_SW<br />
001:L8<br />
10K<br />
R730<br />
ZD700<br />
3.6V<br />
470pF<br />
C707<br />
470pF<br />
C705<br />
3.6V<br />
ZD712<br />
0<br />
R749<br />
75<br />
R712<br />
HH-1M2012-121<br />
L717<br />
AV2_CVBS<br />
001:B5<br />
0<br />
R775<br />
47uF<br />
16V<br />
C7010<br />
AV_L_IN_2<br />
005:I1<br />
AV1_C<br />
001:B5<br />
READY<br />
C751<br />
USB1.1_NA<br />
001:B6<br />
READY<br />
R7001<br />
C702<br />
READY<br />
LED_R<br />
003:I4;007:H11<br />
20K<br />
R777<br />
0<br />
R750<br />
<strong>LCD</strong><br />
SCL_CH2<br />
SMW250-13<br />
P701<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 />
LIVE_ON<br />
003:J3;003:L2;007:N1<br />
2.2uF<br />
50V<br />
C721<br />
+3.3V_L<br />
1K<br />
R717<br />
+3.3V_L<br />
12K<br />
R7021<br />
JP705<br />
2.2uH<br />
L708<br />
SCL_CH2_5V<br />
75<br />
R701<br />
0.1uF<br />
C742<br />
+5.0VST<br />
ZD704 READY<br />
3.6V<br />
ZD705<br />
+5.0V<br />
0<br />
R708<br />
PDP<br />
10K<br />
R782<br />
0.1uF<br />
C764<br />
DGND<br />
0<br />
<strong>LCD</strong><br />
R741<br />
22<br />
R707<br />
<strong>LCD</strong>_FHD_42/120Hz<br />
75<br />
R705<br />
0<br />
R739<br />
SDA_CH2_5V<br />
+5V_L<br />
+9.0V_VFD<br />
IR<br />
007:H10<br />
9.0V<br />
100<br />
R7007<br />
100<br />
R7010<br />
10K<br />
R7020<br />
DGND<br />
SMW200-12<br />
P703<br />
IR_12PIN<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 />
0<br />
R709<br />
0<br />
R710<br />
0 R7068<br />
READY<br />
R7024<br />
READY<br />
R7023<br />
+12.0V<br />
GIL-G-03-S3T2<br />
READY<br />
P709<br />
1<br />
2<br />
3<br />
GIL-G-03-S3T2<br />
READY<br />
P708<br />
1<br />
2<br />
3<br />
READY<br />
R7026<br />
READY<br />
R7025<br />
KA7809ERTM<br />
IC700<br />
1.0A<br />
2<br />
G<br />
3 O<br />
1<br />
I<br />
R743<br />
READY<br />
330uF<br />
C737<br />
25V<br />
47uF<br />
16V<br />
C748<br />
USB DOWN STREAM<br />
UAR27-4K2300<br />
P704<br />
USB1.1_Debugging<br />
1<br />
2<br />
3<br />
4<br />
5<br />
DIGITAL_EYE<br />
003:H7<br />
22<br />
R7049<br />
EYE_Q<br />
USB1.1_PB<br />
001:B6<br />
10K<br />
R7082<br />
+3.3V_L<br />
READY<br />
R7081<br />
USB1.1_OVRCUR<br />
001:B6<br />
0.1uF<br />
C7015<br />
100uF<br />
16V<br />
Low ESR<br />
C7014<br />
USB2_VBUS1<br />
007:J6<br />
+5V_USB<br />
DGND<br />
0.1uF<br />
C7012<br />
5.1<br />
R7084<br />
120-ohm<br />
L755<br />
SMW200-05P<br />
P712<br />
1<br />
2<br />
3<br />
4<br />
5<br />
USB_PWR_DOWN<br />
001:L8<br />
MIC2505-2YM<br />
IC712<br />
2.0A<br />
3<br />
GND<br />
2<br />
FLG<br />
4<br />
GATE<br />
1<br />
CTL<br />
5<br />
IN_1<br />
6<br />
OUT_1<br />
7<br />
IN_2<br />
8<br />
OUT_2<br />
USB2_VBUS1<br />
007:I6<br />
5.1<br />
R7083<br />
15K 1%<br />
R7086<br />
USB1.1_NB<br />
001:B6<br />
15K 1%<br />
R7085<br />
10K<br />
R7080<br />
0.01uF<br />
C7013<br />
330uF<br />
16V<br />
C725<br />
LIVE_ON<br />
003:J3;003:L2;007:B1<br />
0<br />
R7087<br />
ZD701 READY<br />
ZD702 READY<br />
C730<br />
READY<br />
10uF<br />
16V<br />
C7000<br />
JP720<br />
JP721<br />
PMJ029-07<br />
JK705<br />
4A<br />
[YL]CONTACT<br />
2A<br />
[YL]1P_CAN<br />
3A<br />
[YL]0_SPRING<br />
2B<br />
[WH]1P_CAN<br />
5B<br />
[WH]C_LUG_L<br />
2C<br />
[RD]1P_CAN<br />
4C<br />
[RD]CONTACT<br />
3C<br />
[RD]0_SPRING<br />
6 [S-VHS]GROUND_TER<br />
7A<br />
[S-VHS]C_LUG_L1<br />
7B<br />
[S-VHS]C_LUG_L2<br />
7C<br />
[S-VHS]C_LUG_L3<br />
7D<br />
[S-VHS]C_LUG_L4<br />
8 [S-VHS]0_SPRING<br />
PPJ200-08<br />
JK704<br />
3A<br />
2A<br />
4A<br />
2B<br />
5B<br />
PEJ024-01<br />
JK702<br />
6B<br />
T_TERMINAL2<br />
8 SHIELD_PLATE<br />
7B<br />
B_TERMINAL2<br />
5 T_SPRING<br />
4 R_SPRING<br />
7A<br />
B_TERMINAL1<br />
6A<br />
T_TERMINAL1<br />
3 E_SPRING PEJ024-01<br />
JK703<br />
6B<br />
T_TERMINAL2<br />
8 SHIELD_PLATE<br />
7B<br />
B_TERMINAL2<br />
5 T_SPRING<br />
4 R_SPRING<br />
7A<br />
B_TERMINAL1<br />
6A<br />
T_TERMINAL1<br />
3 E_SPRING SMW200-10<br />
P703-*1<br />
IR_10PIN<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
33<br />
R7016<br />
60FAN<br />
27<br />
R7016-*1<br />
50FAN<br />
PMJ029-01<br />
JK705-*1<br />
4A<br />
[YL]CONTACT<br />
2A<br />
[YL]1P_CAN<br />
3A<br />
[YL]0_SPRING<br />
2B<br />
[WH]1P_CAN<br />
5B<br />
[WH]C_LUG_L<br />
2C<br />
[RD]1P_CAN<br />
4C<br />
[RD]CONTACT<br />
3C<br />
[RD]0_SPRING<br />
6 [S-VHS]GROUND_TER<br />
7A<br />
[S-VHS]C_LUG_L1<br />
7B<br />
[S-VHS]C_LUG_L2<br />
7C<br />
[S-VHS]C_LUG_L3<br />
7D<br />
[S-VHS]C_LUG_L4<br />
8 [S-VHS]0_SPRING<br />
PPJ200-07<br />
JK704-*1<br />
3A<br />
2A<br />
4A<br />
2B<br />
5B<br />
READY<br />
R7070<br />
READY<br />
R7069<br />
+5.0V<br />
READY<br />
R7072<br />
READY<br />
R7071<br />
+3.3V_L<br />
0.1uF<br />
C715<br />
0.1uF<br />
C716<br />
L726<br />
L724<br />
L723<br />
L725<br />
L719<br />
VFD<br />
+9.0V_VFD<br />
+5V_USB<br />
+6.0V<br />
0.1uF<br />
C770<br />
KIA278R05PI<br />
IC711<br />
G<br />
O<br />
I<br />
C<br />
68uF<br />
10V<br />
C771<br />
0.1uF<br />
C769<br />
BEAD-CHIP<br />
L715<br />
0.1uF<br />
C731<br />
100uF<br />
16V<br />
C732<br />
DGND<br />
PC_W/PROTECT<br />
004:A8<br />
L748<br />
L749<br />
L750<br />
L751<br />
L752<br />
L753<br />
EYE_Q<br />
SMW200-10<br />
P711<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
9<br />
10<br />
DGND<br />
2.2uF<br />
10V<br />
C713<br />
2.2uF<br />
10V<br />
C714<br />
10pF<br />
C7016<br />
10pF<br />
C7017<br />
FL732<br />
FL729<br />
FL730<br />
<strong>LCD</strong><br />
FL731<br />
FL746<br />
FL747<br />
FL740<br />
FL736<br />
READY<br />
FL737<br />
FL738<br />
FL739<br />
FL744<br />
FL745<br />
FL741<br />
FL742<br />
FL743<br />
DGND<br />
220uF<br />
16V<br />
C9084<br />
DGND<br />
DGND<br />
READY<br />
C9086<br />
READY<br />
R9092<br />
0.1uF<br />
16V<br />
C9080<br />
100<br />
C9089<br />
DGND<br />
2SC3875S<br />
Q9083<br />
2SA1504S<br />
Q9081<br />
E<br />
B<br />
C<br />
0<br />
R9095<br />
470K READY R9082<br />
X260_CVBS_OUT<br />
0<br />
READY<br />
R9081<br />
5.6K<br />
READY<br />
R9093<br />
2SA1504S<br />
Q9082<br />
E<br />
B<br />
C<br />
120-ohm<br />
HH-1M2012-121<br />
READY<br />
L9081<br />
0<br />
R9090<br />
0<br />
R9080<br />
0<br />
R9091<br />
220uF 16V<br />
C9082<br />
10uF<br />
16V<br />
C9085<br />
330uF<br />
35V<br />
READY<br />
C9087<br />
75<br />
R9083<br />
1.1K<br />
R9088<br />
DGND<br />
1K<br />
R9086<br />
+5V_L<br />
PPJ204-01<br />
JK706<br />
1 O_SPRING<br />
2 CONTACT<br />
3 U_CAN<br />
0<br />
R9094<br />
2SA1504S<br />
Q9084<br />
E<br />
B<br />
C<br />
DGND<br />
0.01uF<br />
25V<br />
C9083<br />
150<br />
R9087<br />
120-ohm<br />
HH-1M2012-121<br />
L9080<br />
470pF<br />
READY<br />
C9081<br />
150<br />
R9085<br />
9.0V<br />
100<br />
R9084<br />
3.4V<br />
GND<br />
GND<br />
GND<br />
19V<br />
GND<br />
GND<br />
6V<br />
19V<br />
12V<br />
0x94<br />
IIC CH2<br />
VFD-60" PDP<br />
6V<br />
AC_DET<br />
5VST<br />
GND<br />
5V Det/Error Out<br />
GND<br />
5VST<br />
Bri_ctrl<br />
PWM_dimming<br />
Va/Invert_ON<br />
RL_ON<br />
GND<br />
3.3V_ON<br />
Debugging(PV)<br />
USB 1.1 for EMF<br />
R741<br />
X<br />
O<br />
R708<br />
O<br />
PDP<br />
X<br />
<strong>LCD</strong><br />
HD 32"37"42"<br />
R706,R752 NOT assemble<br />
Full HD 42"(WCG) R707,R751 NOT assemble<br />
Full HD 37"47" R706,R751 NOT assemble<br />
PDP ONLY<br />
PDP ONLY<br />
placed as close to Connector as possible.<br />
Capacitors on VBUSA should be<br />
Monitor Out - CVBS<br />
DAC_VDDI<br />
X260_OUT_R[1]<br />
001:L3;006:A1;008:A8<br />
+3.3V_L<br />
22 R160<br />
SCL_CH2<br />
/MEM_DQMA3002:D3<br />
0.1uF<br />
C2147<br />
THE<br />
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<br />
SYMBOL MARK OF THE SCHEMETIC.<br />
4440_X260_DATA<br />
005:G5<br />
VDDR_MEM<br />
DAC_VDDI<br />
22 R155<br />
10K<br />
R168<br />
/MWEA 002:A3;002:D3<br />
+3.3V_L<br />
4440_X260_SCLK<br />
005:G5<br />
0.1uF<br />
C2212<br />
X260_OUT_B[0]<br />
001:L2;006:A1;008:A8<br />
SCL_CH1<br />
+3.3V_L<br />
0.1uF<br />
C2218<br />
X260_AUD_SPDIF<br />
005:B2<br />
APVDD<br />
DAC2_AVDD<br />
0.1uF<br />
C2183<br />
0.1uF<br />
C2229<br />
MEM_QSA3 002:D3<br />
UART0_TX<br />
003:F1;003:F8<br />
APVDD<br />
VPVDD<br />
0.1uF<br />
C2195<br />
/MEM_DQMA0002:A3<br />
0.1uF<br />
C2186<br />
0.1uF<br />
C2149<br />
R157<br />
READY<br />
0.1uF<br />
C2211<br />
22 R156<br />
0.1uF<br />
C2163<br />
0.1uF<br />
C2138<br />
0.1uF<br />
C2134<br />
DAC1_AVDD<br />
8415_RESET<br />
005:B2<br />
0.1uF<br />
C2143<br />
0.1uF<br />
C2232<br />
22 R154<br />
+3.3V_L<br />
/MST3361_IRQ<br />
004:E6<br />
DVI_DE<br />
004:E4<br />
0.1uF<br />
C2122<br />
MEM_QSA1 002:A3<br />
0.1uF<br />
C2198<br />
DAC_AVDDQ<br />
MPVDD<br />
MCKENA 002:A3;002:D3<br />
0.1uF<br />
C2224<br />
0.1uF<br />
C2166<br />
X260_4440_LRCLK<br />
005:H8;005:J5<br />
PMIVDD<br />
VPVDD12<br />
22<br />
R126<br />
R158<br />
READY<br />
0.1uF<br />
C2168<br />
EXT_IN_R[0-9]<br />
004:A1<br />
DAC1_AVDD<br />
/EJTAG_TRST<br />
003:A1<br />
/MRASA 002:A3;002:D3<br />
0.1uF<br />
C2139<br />
OSC_AVDD<br />
22<br />
R161<br />
4440_X260_LRCLK<br />
005:G5<br />
0.1uF<br />
C2206<br />
R152<br />
READY<br />
R159<br />
READY<br />
X260_OUT_B[1]<br />
001:L2;006:A1;008:A8<br />
0.1uF<br />
C2171<br />
0.1uF<br />
C2169<br />
X260_4440_SCLK<br />
005:H8;005:J5<br />
1K R150<br />
0.1uF<br />
C2231<br />
0.1uF<br />
C2216<br />
0.1uF<br />
C2181<br />
0.1uF<br />
C2227<br />
X260_OUT_G[0]<br />
001:L2;006:A1;008:A8<br />
8415_X260_LRCLK<br />
005:D2<br />
EXT_IN_G[0-9]<br />
004:C1<br />
0.1uF<br />
C2146<br />
/MCSA0 002:A3;002:D3<br />
X260_OUT_R[0]<br />
001:L3;006:A1;008:A8<br />
X260_FAD[0-15]<br />
EXT_IN_CLK 004:E4<br />
0.1uF<br />
C2167<br />
0.1uF<br />
C2219<br />
0.1uF<br />
C2220<br />
0.1uF<br />
C2208<br />
0.1uF<br />
C2165<br />
0.1uF<br />
C2217<br />
0.1uF<br />
C2187<br />
0.1uF<br />
C2182<br />
10K<br />
R169<br />
0.1uF<br />
C2209<br />
0.1uF<br />
C2194<br />
/FLASH_CS<br />
001:C9;002:J8<br />
+3.3V_L<br />
0.1uF<br />
C2184<br />
MEM_QSA2 002:D3<br />
0.1uF<br />
C2215<br />
+3.3V_L<br />
0.1uF<br />
C2222<br />
X260_OUT_HSYNC<br />
006:D4;008:A7<br />
SCL_CH3<br />
/MEM_DQMA2002:D3<br />
VDDR_MEM<br />
0.1uF<br />
C2223<br />
+1.8V_IO<br />
0.1uF<br />
C2214<br />
MEM_AA[0-14]<br />
002:A1<br />
1K R151<br />
0.1uF<br />
C2201<br />
0.1uF<br />
C2150<br />
8415_X260_SCLK<br />
005:D2<br />
X260_XTAL_OUT 001:E8<br />
0.1uF<br />
C2132<br />
X260_ALE0<br />
002:A7<br />
X260_ALE1<br />
002:D7<br />
MEM_QSA0 002:A3<br />
0.1uF<br />
C2197<br />
33 R132<br />
CORE_1.2V<br />
MEM_ODTA 002:A3;002:D3<br />
VI_AVDD<br />
VDDR_MEM<br />
0.1uF<br />
C2141<br />
0.1uF<br />
C2148<br />
EXT_IN_B[2-9]<br />
004:D2<br />
+3.3V_L<br />
0.1uF<br />
C2202<br />
VPVDD12<br />
0.1uF<br />
C2151<br />
PMIVDD<br />
SDA_CH1<br />
0.1uF<br />
C2225<br />
X260_OUT_EN<br />
006:D4;008:A7<br />
SDA_CH2<br />
X260_OUT_B[0-9]<br />
MPVDD<br />
0.1uF<br />
C2170<br />
0.1uF<br />
C2137<br />
/MEM_DQMA1002:A3<br />
DAC2_AVDD<br />
0.1uF<br />
C2172<br />
0.1uF<br />
C2196<br />
0.1uF<br />
C2213<br />
0.1uF<br />
C2210<br />
+3.3V_L<br />
X260_OUT_VSYNC<br />
006:D4;008:A7<br />
0.1uF<br />
C2130<br />
X260_XTAL_IN 001:E8<br />
0.1uF<br />
C2204<br />
/X260_FWR<br />
002:G7<br />
X260_OUT_G[1]<br />
001:L2;006:A1;008:A8<br />
0.1uF<br />
C2203<br />
0.1uF<br />
C2221<br />
UART0_RX<br />
003:F1;003:F8<br />
8415_X260_DATA<br />
005:D2<br />
X260_OUT_G[0-9]<br />
0.1uF<br />
C2207<br />
0.1uF<br />
C2142<br />
0.1uF<br />
C2185<br />
0.1uF<br />
C2140<br />
0.1uF<br />
C2180<br />
/X260_FRD<br />
002:J7<br />
X260_4440_DATA<br />
005:H8;005:J4<br />
X260_OUT_CLK<br />
008:H6<br />
0.1uF<br />
C2164<br />
YFDW254-14S<br />
P101<br />
JTAG<br />
14<br />
9<br />
4<br />
13<br />
8<br />
3<br />
12<br />
7<br />
2<br />
11<br />
6<br />
1<br />
10<br />
5<br />
X260_XTAL_IN<br />
001:B8<br />
MCLKA 002:A2;002:D2<br />
VDDR_MEM<br />
0.1uF<br />
C2230<br />
0.1uF<br />
C2233<br />
/MCLKA 002:A2;002:D2<br />
DAC_AVDDQ<br />
/MCASA 002:A3;002:D3<br />
22 R153<br />
X260_XTAL_OUT<br />
001:B8<br />
0.1uF<br />
C2226<br />
SDA_CH3<br />
10K<br />
R131<br />
0.1uF<br />
C2161<br />
X260_OUT_R[0-9]<br />
VPVDD<br />
0.1uF<br />
C2162<br />
MEM_DQA[0-31]<br />
002:A1<br />
AV2_Y<br />
007:C9<br />
AV1_Y<br />
007:C4<br />
AV2_C<br />
007:C10<br />
M_TU_CVBS<br />
006:D8<br />
AV2_CVBS<br />
007:C10<br />
AV1_CVBS<br />
007:C5<br />
MST3361_HS<br />
004:E4<br />
MST3361_VS<br />
004:E4<br />
10uF<br />
C2131<br />
10uF<br />
C2124<br />
10uF<br />
C2133<br />
10uF<br />
C2136<br />
10uF<br />
C2228<br />
0.1uF<br />
C2114<br />
0.1uF<br />
C2115<br />
0.1uF<br />
C2116<br />
0.1uF<br />
C2117<br />
0.1uF<br />
C2119<br />
0.1uF<br />
C2120<br />
1M<br />
R105<br />
READY<br />
1000pF<br />
C2128<br />
18 R129<br />
18 R130<br />
4.7<br />
R149<br />
USB1.1_PA<br />
007:J3<br />
USB1.1_NA<br />
007:J3<br />
0.1uF<br />
C2239<br />
AV1_C<br />
007:C4<br />
1K<br />
R133<br />
1K<br />
R134<br />
1K<br />
R137<br />
1K<br />
R136<br />
HDMI_POWER0<br />
004:J3<br />
HDMI_POWER1<br />
004:J5<br />
HDMI0_HPD<br />
004:J2<br />
HDMI1_HPD<br />
004:J5<br />
10K<br />
R127<br />
8415_SPDIF_ERROR<br />
005:C3;005:K8<br />
/X260_RESET<br />
003:C1<br />
/X260_RESET_OUT<br />
002:G7;006:J7<br />
0<br />
R143<br />
MST3361_RESET<br />
004:D7<br />
/X260_4450_RESET<br />
005:G4;005:G7<br />
+3.3V_L<br />
+3.3V_L<br />
/FLASH_CS<br />
001:D8;002:J8<br />
AV1_V_SW<br />
007:E5<br />
AV1_S_SW<br />
007:E4<br />
AV2_V_SW<br />
007:C10<br />
AV2_S_SW<br />
007:C9<br />
33<br />
R179<br />
33<br />
R165<br />
33<br />
R166<br />
33<br />
R181<br />
33<br />
R180<br />
10K<br />
R116<br />
10K<br />
R117<br />
1uF<br />
C2199<br />
1uF<br />
C2193<br />
1uF<br />
C2145<br />
1uF<br />
C2191<br />
1uF<br />
C2190<br />
1uF<br />
C2200<br />
1uF<br />
C2192<br />
VIDEO_SW1<br />
004:C8<br />
VIDEO_SW2<br />
004:E8<br />
X260_AUD_MCLK<br />
005:G7<br />
+3.3V_L<br />
HDMI_AUDIO_MUTE<br />
004:B3<br />
+1.8V_IO<br />
/X260_RDY<br />
002:G7<br />
Parallel<br />
TP Input<br />
TP Input<br />
Serial<br />
Port C & D<br />
Port A<br />
Digital<br />
Video Input<br />
Analog<br />
Video Input<br />
Audio Input<br />
USB 1.1<br />
USB 2.0<br />
I2C<br />
FlexBus<br />
656 Input<br />
UART<br />
Serial<br />
Clock<br />
EJTAG<br />
Serial<br />
TP Out PCI Interface SPI<br />
Memory<br />
Stick<br />
DDR Channel A Interface<br />
DDR Channel B Interface<br />
Digital<br />
Video Output<br />
Video Output<br />
Analog<br />
Audio Output<br />
Video DAC<br />
Power<br />
Video ADC<br />
Power<br />
PLLs, VCXO & XTAL<br />
Power<br />
PCI IO<br />
Power<br />
Power<br />
Core<br />
Power<br />
IO(Memory)<br />
Power<br />
IO(GPIO)<br />
Power<br />
DVI Out<br />
Power<br />
DVI In<br />
Power<br />
USB 2.0<br />
Memory IOs<br />
Power<br />
Non-Memory IOs<br />
Power<br />
Digital<br />
Ground<br />
X260<br />
FCBGA_736PIN<br />
IC101<br />
TCLKA<br />
AE2<br />
TSTRTA<br />
AC5<br />
<strong>TV</strong>LDA<br />
AB5<br />
TERA<br />
AC6<br />
TDATA0<br />
AD3<br />
TDATA1<br />
AD4<br />
TDATA2<br />
AC4<br />
TDATA3<br />
AC3<br />
TDATA4<br />
AD2<br />
TDATA5<br />
AE3<br />
TDATA6<br />
AD1<br />
TDATA7<br />
AF2<br />
DVSCLKA/V_TEST0<br />
AE6<br />
DVSYDATA6/FCE5<br />
AH4<br />
DVSYDATA7/V_TEST2<br />
AG4<br />
GPIOA12<br />
W6<br />
DVSYDATA8/V_TEST1<br />
AF5<br />
DVSYDATA9/FREQ<br />
AH5<br />
DVSYDATA2/FGNT<br />
AJ3<br />
DVSYDATA3/FCE2<br />
AG5<br />
DVSYDATA4/FCE3<br />
AF6<br />
DVSYDATA5/FCE4<br />
AE7<br />
DVSYDATA0/FSTB<br />
AG7<br />
DVSYDATA1/GPIOA13<br />
AJ2<br />
DVICLK<br />
P3<br />
DVIL_R0<br />
P1<br />
DVIL_R1<br />
R1<br />
DVIL_R2<br />
R2<br />
DVIL_R3<br />
R3<br />
DVIL_R4<br />
R4<br />
DVIL_R5<br />
R5<br />
DVIL_R6<br />
P6<br />
DVIL_R7<br />
P5<br />
DVIL_R8<br />
P4<br />
DVIL_R9<br />
P2<br />
DVIL_G0<br />
M3<br />
DVIL_G1<br />
M4<br />
DVIL_G2<br />
M5<br />
DVIL_G3<br />
M6<br />
DVIL_G4<br />
N6<br />
DVIL_G5<br />
N2<br />
DVIL_G6<br />
N3<br />
DVIL_G7<br />
N5<br />
DVIL_G8<br />
N4<br />
DVIL_G9<br />
N1<br />
DVIL_B2<br />
T4<br />
DVIL_B3<br />
T3<br />
DVIL_B4<br />
V1<br />
DVIL_B5<br />
T2<br />
DVIL_B6<br />
U4<br />
DVIL_B7<br />
U1<br />
DVIL_B8<br />
U2<br />
DVIL_B9<br />
U3<br />
DVIHSYNC<br />
T6<br />
DVIVSYNC<br />
T5<br />
DVIDE<br />
U6<br />
DVIMODE0<br />
R6<br />
DVIMODE1<br />
U5<br />
HSYNC_IN<br />
AE23<br />
VSYNC_IN<br />
AE22<br />
HS_ALIGN_IN<br />
H1<br />
VS_ALIGN_IN<br />
H2<br />
PCLK_DIV_R<br />
L6<br />
VI_IN2<br />
AG22<br />
VI_IN6<br />
AE20<br />
VI_IN10<br />
AG18<br />
VI_IN14<br />
AG16<br />
VI_IN4<br />
AF21<br />
VI_IN8<br />
AH19<br />
VI_IN0<br />
AF23<br />
VI_IN5<br />
AH21<br />
VI_IN9<br />
AJ20<br />
VI_IN1<br />
AH23<br />
VI_IN3<br />
AJ22<br />
VI_IN7<br />
AG20<br />
VI_IN11<br />
AJ18<br />
VI_IN12<br />
AH17<br />
VI_IN13<br />
AK17<br />
VI_IN15<br />
AJ16<br />
VI_IFP0<br />
AK22<br />
VI_IFM0<br />
AK23<br />
VI_IFP1<br />
AK19<br />
VI_IFM1<br />
AK20<br />
VI_BYPASS0<br />
AJ24<br />
VI_BYPASS1<br />
AJ21<br />
VI_BYPASS2<br />
AF19<br />
VI_BYPASS3<br />
AF18<br />
VI_REFP<br />
AE18<br />
VI_REFM<br />
AE19<br />
VI_ATBP<br />
AF17<br />
VI_ATBM<br />
AE17<br />
I2SSCK_INC<br />
M2<br />
I2SWS_INC<br />
M1<br />
I2SSD_INC<br />
L1<br />
I2SSCLK_IND<br />
L3<br />
I2SWS_IND<br />
L5<br />
I2SSD_IND<br />
L4<br />
USBPA<br />
AA1<br />
USBNA<br />
AA2<br />
USBPB<br />
Y1<br />
USBNB<br />
Y2<br />
USB_OVRCUR<br />
Y3<br />
ULPI_CLKA<br />
AF11<br />
ULPI_STPA<br />
AH11<br />
ULPI_DIRA<br />
AK10<br />
ULPI_NXTA<br />
AG11<br />
ULPI_DA0<br />
AK12<br />
ULPI_DA1<br />
AE13<br />
ULPI_DA2<br />
AJ12<br />
ULPI_DA3<br />
AH12<br />
ULPI_DA4<br />
AG12<br />
ULPI_DA5<br />
AK11<br />
ULPI_DA6<br />
AF12<br />
ULPI_DA7<br />
AJ11<br />
ULPI_VMA<br />
AJ10<br />
ULPI_DB4<br />
AK13<br />
ULPI_DB5<br />
AJ13<br />
ULPI_DB6<br />
AH13<br />
ULPI_DB7<br />
AG13<br />
ULPI_VMB<br />
AF13<br />
IRRXDA<br />
AB4<br />
IRTXDA<br />
AB3<br />
I2CCLKA<br />
AC1<br />
I2CDATAA<br />
AC2<br />
I2CCLKB<br />
W4<br />
I2CDATAB<br />
W3<br />
I2CCLKC<br />
AB6<br />
I2CDATAC<br />
AA6<br />
RDA<br />
Y5<br />
TDA<br />
Y4<br />
RDB<br />
AA4<br />
TDB<br />
AA3<br />
RDC<br />
AF8<br />
TDC<br />
AE8<br />
SPI_CLK<br />
AH26<br />
SPI_IN<br />
AJ27<br />
SPI_OUT<br />
AJ28<br />
SPI_CS0<br />
AG25<br />
MSCLK<br />
AF14<br />
MSDATA0<br />
AK14<br />
MSDATA1<br />
AJ14<br />
MSDATA2<br />
AH14<br />
MSDATA3<br />
AG14<br />
MSBS<br />
AH15<br />
MSXINS<br />
AE14<br />
MSPD<br />
AJ15<br />
FCLK<br />
AH10<br />
FAD0<br />
AJ6<br />
FAD1<br />
AE9<br />
FAD2<br />
AF9<br />
FAD3<br />
AK5<br />
FAD4<br />
AK7<br />
FAD5<br />
AF10<br />
FAD6<br />
AE10<br />
FAD7<br />
AG9<br />
FAD8<br />
AH8<br />
FAD9<br />
AJ7<br />
FAD10<br />
AK8<br />
FAD11<br />
AJ8<br />
FAD12<br />
AE12<br />
FAD13<br />
AE11<br />
FAD14<br />
AG10<br />
FAD15<br />
AH9<br />
FBE0<br />
AG8<br />
FBE1<br />
AH7<br />
FALE0<br />
AK4<br />
FALE1<br />
AJ5<br />
FRDY<br />
AH6<br />
FRD<br />
AK3<br />
FWE<br />
AJ4<br />
FCE0<br />
AG6<br />
FCE1<br />
AF7<br />
FINTR0<br />
AA5<br />
FINTR1<br />
AB2<br />
FINTR2<br />
Y6<br />
NMI<br />
AJ9<br />
XTALIN<br />
AK26<br />
VI_FBLANK<br />
AE24<br />
XTALOUT<br />
AK25<br />
VCXO_INA<br />
AF1<br />
PWMA<br />
AG1<br />
OSC_CLK<br />
AH25<br />
TCK<br />
W2<br />
TRST<br />
V6<br />
TMS<br />
W1<br />
TDI<br />
V5<br />
TDO<br />
V4<br />
DINT<br />
V3<br />
TAPSEL<br />
V2<br />
TESTEN<br />
AK28<br />
MEM_DQA0<br />
AG30<br />
MEM_DQA1<br />
AH29<br />
MEM_DQA2<br />
AG28<br />
MEM_DQA3<br />
AH28<br />
MEM_DQA4<br />
AF26<br />
MEM_DQA5<br />
AG27<br />
MEM_DQA6<br />
AF28<br />
MEM_DQA7<br />
AF30<br />
MEM_DQA8<br />
AE25<br />
MEM_DQA9<br />
AE26<br />
MEM_DQA10<br />
AE28<br />
MEM_DQA11<br />
AE29<br />
MEM_DQA12<br />
AE30<br />
MEM_DQA13<br />
AD25<br />
MEM_DQA14<br />
AC25<br />
MEM_DQA15<br />
AD29<br />
MEM_DQA16<br />
T25<br />
MEM_DQA17<br />
U26<br />
MEM_DQA18<br />
T26<br />
MEM_DQA19<br />
R25<br />
MEM_DQA20<br />
T28<br />
MEM_DQA21<br />
R26<br />
MEM_DQA22<br />
P26<br />
MEM_DQA23<br />
P25<br />
MEM_DQA24<br />
V29<br />
MEM_DQA25<br />
U28<br />
MEM_DQA26<br />
V30<br />
MEM_DQA27<br />
T29<br />
MEM_DQA28<br />
R28<br />
MEM_DQA29<br />
R29<br />
MEM_DQA30<br />
P29<br />
MEM_DQA31<br />
P30<br />
MEM_DQMA0<br />
AF29<br />
MEM_DQMA1<br />
AD26<br />
MEM_DQMA2<br />
U25<br />
MEM_DQMA3<br />
V28<br />
MEM_QSA0<br />
AG29<br />
MEM_QSA1<br />
AD28<br />
MEM_QSA2<br />
T27<br />
MEM_QSA3<br />
U29<br />
MEM_AA0<br />
W26<br />
MEM_AA1<br />
AA29<br />
MEM_AA2<br />
V26<br />
MEM_AA3<br />
Y29<br />
MEM_AA4<br />
Y30<br />
MEM_AA5<br />
Y28<br />
MEM_AA6<br />
W25<br />
MEM_AA7<br />
Y25<br />
MEM_AA8<br />
AA28<br />
MEM_AA9<br />
W30<br />
MEM_AA10<br />
W29<br />
MEM_AA11<br />
W28<br />
MEM_AA12<br />
Y26<br />
MEM_AA13<br />
AB27<br />
MEM_AA14<br />
AA26<br />
MEM_CASA AC28<br />
MEM_RASA AB25<br />
MEM_WEA AC27<br />
MEM_CSA0<br />
AB26<br />
MEM_CSA1<br />
AC26<br />
MEM_CKEA AB28<br />
MEM_CLKA AC29<br />
MEM_CLKA AB29<br />
ODTA AA25<br />
TEST_YCLK F24<br />
TEST_MCLK E24<br />
MEM_VREFD E23<br />
MEM_VREFS<br />
E22<br />
PESD P27<br />
MEM_DQB0<br />
P28<br />
MEM_DQB1<br />
N27<br />
MEM_DQB2<br />
N29<br />
MEM_DQB3<br />
N30<br />
MEM_DQB4<br />
N28<br />
MEM_DQB5<br />
M30<br />
MEM_DQB6<br />
L28<br />
MEM_DQB7<br />
L29<br />
MEM_DQB8<br />
N26<br />
MEM_DQB9<br />
N25<br />
MEM_DQB10<br />
M27<br />
MEM_DQB11<br />
M26<br />
MEM_DQB12<br />
L25<br />
MEM_DQB13<br />
L27<br />
MEM_DQB14<br />
K27<br />
MEM_DQB15<br />
K26<br />
MEM_DQB16<br />
D30<br />
MEM_DQB17<br />
D28<br />
MEM_DQB18<br />
D29<br />
MEM_DQB19<br />
D26<br />
MEM_DQB20<br />
C28<br />
MEM_DQB21<br />
B28<br />
MEM_DQB22<br />
B29<br />
MEM_DQB23<br />
B27<br />
MEM_DQB24<br />
D25<br />
MEM_DQB25<br />
B25<br />
MEM_DQB26<br />
E25<br />
MEM_DQB27<br />
D24<br />
MEM_DQB28<br />
C23<br />
MEM_DQB29<br />
C24<br />
MEM_DQB30<br />
B24<br />
MEM_DQB31<br />
A26<br />
MEM_DQMB0<br />
M28<br />
MEM_DQMB1<br />
K25<br />
MEM_DQMB2<br />
C27<br />
MEM_DQMB3<br />
A27<br />
MEM_QSB0<br />
M29<br />
MEM_QSB1<br />
L26<br />
MEM_QSB2<br />
D27<br />
MEM_QSB3<br />
C25<br />
MEM_AB0<br />
G25<br />
MEM_AB1<br />
F29<br />
MEM_AB2<br />
E27<br />
MEM_AB3<br />
E28<br />
MEM_AB4<br />
E29<br />
MEM_AB5<br />
E30<br />
MEM_AB6<br />
G28<br />
MEM_AB7<br />
H29<br />
MEM_AB8<br />
F28<br />
MEM_AB9<br />
E26<br />
MEM_AB10<br />
F26<br />
MEM_AB11<br />
F25<br />
MEM_AB12<br />
G26<br />
MEM_AB13<br />
H28<br />
MEM_AB14<br />
H25<br />
MEM_CASB J29<br />
MEM_RASB J28<br />
MEM_WEB J26<br />
MEM_CSB0<br />
H26<br />
MEM_CSB1<br />
J27<br />
MEM_CKEB J25<br />
MEM_CLKB K28<br />
MEM_CLKB K29<br />
ODTB G29<br />
MEM_TEST<br />
F23<br />
MEM_VMODE0<br />
F22<br />
MEM_VMODE1<br />
F21<br />
VDDRH0<br />
AB30<br />
VDDRH1<br />
L30<br />
VSSRH0<br />
AC30<br />
VSSRH1<br />
K30<br />
PCI_AD0<br />
A11<br />
PCI_AD1<br />
F12<br />
PCI_AD2<br />
E12<br />
PCI_AD3<br />
D12<br />
PCI_AD4<br />
C12<br />
PCI_AD5<br />
A12<br />
PCI_AD6<br />
E13<br />
PCI_AD7<br />
F13<br />
PCI_AD8<br />
C13<br />
PCI_AD9<br />
D13<br />
PCI_AD10<br />
B13<br />
PCI_AD11<br />
A13<br />
PCI_AD12<br />
E14<br />
PCI_AD13<br />
B14<br />
PCI_AD14<br />
A14<br />
PCI_AD15<br />
B15<br />
PCI_AD16<br />
D16<br />
PCI_AD17<br />
E16<br />
PCI_AD18<br />
F16<br />
PCI_AD19<br />
F17<br />
PCI_AD20<br />
E17<br />
PCI_AD21<br />
B17<br />
PCI_AD22<br />
C17<br />
PCI_AD23<br />
D17<br />
PCI_AD24<br />
B18<br />
PCI_AD25<br />
C18<br />
PCI_AD26<br />
D18<br />
PCI_AD27<br />
B19<br />
PCI_AD28<br />
A19<br />
PCI_AD29<br />
E18<br />
PCI_AD30<br />
F18<br />
PCI_AD31<br />
B21<br />
IDSEL<br />
A17<br />
INTR0<br />
E21<br />
INTR1<br />
D21<br />
INTR2<br />
C22<br />
PCICLK<br />
D20<br />
PCIRESET<br />
F20<br />
REQ0<br />
A21<br />
GNT0<br />
E19<br />
REQ1<br />
A20<br />
GNT1<br />
F19<br />
REQ2<br />
B20<br />
GNT2<br />
B22<br />
CBE0<br />
B12<br />
CBE1<br />
A15<br />
CBE2<br />
B16<br />
CBE3<br />
A18<br />
FRAME<br />
C16<br />
IRDY<br />
D15<br />
TRDY<br />
E15<br />
DEVSEL<br />
F15<br />
STOP<br />
D14<br />
PAR<br />
F14<br />
INTROUT<br />
B23<br />
PERR<br />
C15<br />
SERR<br />
C14<br />
PCICLKOUT0<br />
D19<br />
PCICLKOUT1<br />
C19<br />
PCICLKOUT2<br />
C20<br />
PCICLKOUT3<br />
C21<br />
PCIRESETOUT<br />
E20<br />
TCLKCS1/GPIOA0<br />
AF4<br />
TDATCS1/GPIOA1<br />
AF3<br />
GPIOA2<br />
AE5<br />
GPIOA3<br />
AH2<br />
TCLKDS1/GPIOA4<br />
AG3<br />
TDATDS1GPIOA5<br />
AG2<br />
TSTRTDS1/GPIOA6<br />
AD5<br />
<strong>TV</strong>LDDS1/GPIOA7<br />
AD6<br />
TERDS1/GPIOA8<br />
AH3<br />
<strong>TV</strong>LDCS1/GPIOA9<br />
AE4<br />
TSTRTCS1/GPIOA10<br />
AH1<br />
TERCS1/GPIOA11<br />
W5<br />
DVODATA0/GPIOB6<br />
B3<br />
DVODATA1/GPIOB7<br />
A3<br />
DVODATA2/GPIOB8<br />
C4<br />
DVODATA3/GPIOB9<br />
B4<br />
DVODATA4/GPIOB10<br />
A4<br />
DVODATA5/GPIOB11<br />
B5<br />
DVODATA6/GPIOB12<br />
A5<br />
DVODATA7/GPIOB13<br />
A6<br />
DVODATA8/GPIOB14<br />
B6<br />
DVODATA9/GPIOB15<br />
E6<br />
DVODATA10/GPIOB16<br />
D6<br />
DVODATA11/GPIOB17<br />
C6<br />
DVODATA12/GPIOB0<br />
E7<br />
DVODATA13/GPIOB18<br />
D7<br />
DVODATA14/GPIOB19<br />
F8<br />
DVODATA15/GPIOB24<br />
F9<br />
DVODATA16/GPIOB25<br />
E9<br />
DVODATA17/GPIOB26<br />
D9<br />
DVODATA18/GPIOB27<br />
B9<br />
DVODATA19/GPIOB28<br />
A9<br />
DVODATA20/GPIOB29<br />
F11<br />
DVODATA21/GPIOB30<br />
C9<br />
DVODATA22/GPIOB31<br />
E11<br />
DVODATA23/GPIOB32<br />
F10<br />
DVODATA24/GPIOB33<br />
E10<br />
DVODATA25/GPIOB34<br />
D11<br />
DVODATA26/GPIOB35<br />
D10<br />
DVODATA27/GPIOB36<br />
C11<br />
DVODATA28/GPIOB37<br />
C10<br />
DVODATA29/GPIOB38<br />
B10<br />
GPIOB20<br />
E8<br />
GPIOB21<br />
B8<br />
GPIOB22<br />
C8<br />
GPIOB23<br />
D8<br />
DVOCLK0/GPIOB1<br />
D5<br />
DVOCLK1/GPIOB2<br />
C5<br />
DVODE/GPIOB3<br />
C7<br />
DVOHSYNC/GPIOB4<br />
B7<br />
DVOVSYNC/GPIOB5<br />
F7<br />
DVOMODE0<br />
A8<br />
DVOMODE1<br />
B11<br />
R<br />
E1<br />
G<br />
D2<br />
B<br />
D1<br />
COMP<br />
C1<br />
RSET<br />
D3<br />
C_R<br />
E2<br />
Y_G<br />
F1<br />
COMP_B<br />
F2<br />
R2SET<br />
G3<br />
HSYNC_OUT<br />
H3<br />
VSYNC_OUT<br />
G2<br />
I2SSCK_OUTA<br />
K2<br />
I2SWS_OUTA/DREQA<br />
L2<br />
I2SSD_OUTA0<br />
J2<br />
I2SSD_OUTA1<br />
J1<br />
I2SSD_OUTA2<br />
K3<br />
ISSOSCK_OUTA<br />
J3<br />
I2SSCK_OUTB<br />
K6<br />
I2SWS_OUTB/DREQB<br />
K5<br />
I2SSD_OUTB<br />
K4<br />
I2SSOSCK_OUTB<br />
J4<br />
SPDIF_OUTA<br />
C2<br />
VDDDI<br />
E3<br />
VSSDI<br />
E4<br />
A1VDD1<br />
F4<br />
A1VDD2<br />
G5<br />
AVSSN1<br />
F5<br />
AVSSN2<br />
G6<br />
AVDDQ<br />
H7<br />
AVSSQ<br />
G8<br />
VDD2DI<br />
F3<br />
VSS2DI<br />
G4<br />
A2VDD1<br />
H4<br />
A2VDD2<br />
H5<br />
A2VSSN1<br />
J5<br />
A2VSSN2<br />
J6<br />
A2VDDQ<br />
J7<br />
A2VSSQ<br />
J8<br />
VI_AVDD33<br />
AE15<br />
VI_AVDD1<br />
AE16<br />
VI_AVDD2<br />
AE21<br />
VI_AVDD3<br />
AF16<br />
VI_AVDD4<br />
AF15<br />
VI_AVDD5<br />
AF22<br />
VI_AVDD6<br />
AG17<br />
VI_AVDD7<br />
AG19<br />
VI_AVDD8<br />
AF20<br />
VI_AVDD9<br />
AG23<br />
VI_AVDD10<br />
AH18<br />
VI_AVSS1<br />
AH16<br />
VI_AVSS2<br />
AH20<br />
VI_AVSS3<br />
AH22<br />
VI_AVSS4<br />
AJ17<br />
VI_AVSS5<br />
AJ19<br />
VI_AVSS6<br />
AG15<br />
VI_AVSS7<br />
AJ23<br />
VI_AVSS8<br />
AK16<br />
VI_AVSS9<br />
AK18<br />
VI_AVSS10<br />
AG21<br />
OSC_AVDD<br />
AG24<br />
OSC_AVSS<br />
AH24<br />
OSC_GUARD<br />
AF24<br />
VPVDD<br />
AJ26<br />
VPVDD12<br />
AK27<br />
VPVSS<br />
AJ25<br />
MPVDD<br />
C30<br />
MPVSS<br />
C29<br />
PMIVDD<br />
K7<br />
PMIVSS<br />
K8<br />
APVDD<br />
AD15<br />
APVSS<br />
AC15<br />
NC<br />
AD8<br />
VSS1<br />
A2<br />
VSS2<br />
A23<br />
VSS3<br />
A28<br />
VSS4<br />
B1<br />
VSS5<br />
B2<br />
VSS6<br />
B30<br />
VSS7<br />
C3<br />
VSS8<br />
G24<br />
VSS9<br />
D4<br />
VSS10<br />
D22<br />
VSS11<br />
E5<br />
VSS12<br />
F6<br />
VSS13<br />
F27<br />
VSS14<br />
G12<br />
VSS15<br />
G21<br />
VSS16<br />
G23<br />
VSS17<br />
H6<br />
VSS18<br />
H8<br />
VSS19<br />
H21<br />
VSS20<br />
H23<br />
VSS21<br />
H24<br />
VSS22<br />
H30<br />
VSS23<br />
K23<br />
VSS24<br />
K24<br />
VSS25<br />
M25<br />
VSS26<br />
M7<br />
VSS27<br />
M8<br />
VSS28<br />
M12<br />
VSS29<br />
M13<br />
VSS30<br />
M18<br />
VSS31<br />
M19<br />
VSS32<br />
U8<br />
VSS33<br />
N8<br />
VSS34<br />
N12<br />
VSS35<br />
N13<br />
VSS36<br />
N14<br />
VSS37<br />
N18<br />
VSS38<br />
N19<br />
VSS39<br />
N23<br />
VSS40<br />
N24<br />
VSS41<br />
P13<br />
VSS42<br />
P14<br />
VSS43<br />
P15<br />
VSS45<br />
R14<br />
VSS46<br />
R15<br />
VSS47<br />
R16<br />
VSS48<br />
R27<br />
VSS49<br />
T15<br />
VSS50<br />
T16<br />
VSS51<br />
T17<br />
VSS52<br />
T23<br />
VSS53<br />
T24<br />
VSS54<br />
U7<br />
VSS55<br />
U16<br />
VSS56<br />
U17<br />
VSS57<br />
U18<br />
VSS58<br />
U30<br />
VSS59<br />
V12<br />
VSS60<br />
V13<br />
VSS61<br />
V17<br />
VSS62<br />
V18<br />
VSS63<br />
V19<br />
VSS64<br />
V23<br />
VSS65<br />
V25<br />
VSS66<br />
V27<br />
VSS67<br />
W8<br />
VSS68<br />
W12<br />
VSS69<br />
W13<br />
VSS70<br />
W18<br />
VSS71<br />
W19<br />
VSS72<br />
Y23<br />
VSS73<br />
Y24<br />
VSS74<br />
AA7<br />
VSS75<br />
AA8<br />
VSS76<br />
AA27<br />
VSS77<br />
AB23<br />
VSS78<br />
AB24<br />
VSS79<br />
AC7<br />
VSS80<br />
AC8<br />
VSS81<br />
AC11<br />
VSS82<br />
AC12<br />
VSS83<br />
AC17<br />
VSS84<br />
AC20<br />
VSS85<br />
AC22<br />
VSS86<br />
AD11<br />
VSS87<br />
AD17<br />
VSS88<br />
AD20<br />
VSS89<br />
AD22<br />
VSS90<br />
AD23<br />
VSS91<br />
AD27<br />
VSS92<br />
W7<br />
VSS93<br />
AH30<br />
VSS94<br />
AJ1<br />
VSS95<br />
AK2<br />
VSS96<br />
AK29<br />
VSS97<br />
C26<br />
VDDDP1<br />
G15<br />
VDDDP2<br />
G16<br />
VDDDP3<br />
G18<br />
VDDDP4<br />
G20<br />
VDDDP5<br />
H17<br />
VDDDP6<br />
G17<br />
VDDDP7<br />
H18<br />
VDDDP8<br />
H19<br />
VDDDP9<br />
H20<br />
VDDC1<br />
G14<br />
VDDC2<br />
H16<br />
VDDC3<br />
H13<br />
VDDC4<br />
H14<br />
VDDC5<br />
H12<br />
VDDC6<br />
M14<br />
VDDC7<br />
M15<br />
VDDC8<br />
M16<br />
VDDC9<br />
M17<br />
VDDC10<br />
N15<br />
VDDC11<br />
N16<br />
VDDC12<br />
N17<br />
VDDC13<br />
P12<br />
VDDC14<br />
P16<br />
VDDC15<br />
P17<br />
VDDC16<br />
P18<br />
VDDC17<br />
P19<br />
VDDC18<br />
R12<br />
VDDC19<br />
R13<br />
VDDC20<br />
R17<br />
VDDC21<br />
R18<br />
VDDC22<br />
R19<br />
VDDC23<br />
T12<br />
VDDC24<br />
T13<br />
VDDC25<br />
T14<br />
VDDC26<br />
T18<br />
VDDC27<br />
T19<br />
VDDC28<br />
U12<br />
VDDC29<br />
U13<br />
VDDC30<br />
U14<br />
VDDC31<br />
U15<br />
VDDC32<br />
U19<br />
VDDC33<br />
V14<br />
VDDC34<br />
V15<br />
VDDC35<br />
V16<br />
VDDC36<br />
W14<br />
VDDC37<br />
W15<br />
VDDC38<br />
W16<br />
VDDC39<br />
W17<br />
VDDC40<br />
P23<br />
VDDR1-1<br />
A24<br />
VDDR1-2<br />
A29<br />
VDDR1-3<br />
B26<br />
VDDR1-4<br />
G22<br />
VDDR1-5<br />
G30<br />
VDDR1-6<br />
H22<br />
VDDR1-7<br />
H27<br />
VDDR1-8<br />
J23<br />
VDDR1-9<br />
J24<br />
VDDR1-10<br />
L23<br />
VDDR1-11<br />
L24<br />
VDDR1-12<br />
M24<br />
VDDR1-13<br />
P24<br />
VDDR1-14<br />
M23<br />
VDDR1-15<br />
R24<br />
VDDR1-16<br />
T30<br />
VDDR1-17<br />
U23<br />
VDDR1-18<br />
U24<br />
VDDR1-19<br />
U27<br />
VDDR1-20<br />
W23<br />
VDDR1-21<br />
W24<br />
VDDR1-22<br />
Y27<br />
VDDR1-23<br />
AA23<br />
VDDR1-24<br />
AA24<br />
VDDR1-25<br />
AC23<br />
VDDR1-26<br />
AC24<br />
VDDR1-27<br />
AD24<br />
VDDR1-28<br />
AF27<br />
VDDR1-29<br />
AJ30<br />
VDDR1-30<br />
G27<br />
VDDR1-31<br />
W27<br />
VDDR3-1<br />
L7<br />
VDDR3-2<br />
L8<br />
VDDR3-3<br />
V7<br />
VDDR3-4<br />
V8<br />
VDDR3-5<br />
Y7<br />
VDDR3-6<br />
Y8<br />
VDDR3-7<br />
AB7<br />
VDDR3-8<br />
AB8<br />
VDDR3-9<br />
AC9<br />
VDDR3-10<br />
AC10<br />
VDDR3-11<br />
AC18<br />
VDDR3-12<br />
AC19<br />
VDDR3-13<br />
AC21<br />
VDDR3-14<br />
AD9<br />
VDDR3-15<br />
AD10<br />
VDDR3-16<br />
AD16<br />
VDDR3-17<br />
AD19<br />
VDDR3-18<br />
AD21<br />
VDDR4-1<br />
G10<br />
VDDR4-2<br />
G11<br />
VDDR4-3<br />
H10<br />
VDDR4-4<br />
H11<br />
VDDR5-1<br />
G9<br />
VDDR5-2<br />
H9<br />
VDDR6-1<br />
P7<br />
VDDR6-2<br />
P8<br />
VDDR6-3<br />
R7<br />
VDDR7-1<br />
T7<br />
VDDR7-2<br />
T8<br />
VDDR8-1<br />
AC13<br />
VDDR8-2<br />
AD13<br />
VDDR9-1<br />
AC14<br />
VDDR9-2<br />
AD14<br />
V18-1<br />
D23<br />
V18-2<br />
AE27<br />
V18-3<br />
R23<br />
VDDC18-1<br />
H15<br />
VDDC18-2<br />
R8<br />
VDDC18-3<br />
AC16<br />
TCLKES1<br />
AF25<br />
TDATES1<br />
AG26<br />
TSTRTES1<br />
AH27<br />
<strong>TV</strong>LDES1<br />
AJ29<br />
390nH<br />
L100<br />
150-ohm<br />
L101<br />
3K<br />
R192<br />
COMP1_SW 004:G1<br />
COMP2_SW 004:I1<br />
10K<br />
R190<br />
10K<br />
R119<br />
+3.3V_L<br />
100K<br />
R142<br />
+3.3V_L<br />
0<br />
R1018<br />
0<br />
R1014<br />
0<br />
R1019<br />
0<br />
R1017<br />
0<br />
R1015<br />
0<br />
R1013<br />
0<br />
R1016<br />
1uF<br />
C2155<br />
1uF<br />
C2205<br />
1uF<br />
C2157<br />
1uF<br />
C2160<br />
1uF<br />
C2158<br />
1uF<br />
C2177<br />
1uF<br />
C2178<br />
1uF<br />
C2179<br />
1uF<br />
C2156<br />
1uF<br />
C2176<br />
1uF<br />
C2159<br />
1uF<br />
C2175<br />
1uF<br />
C2154<br />
READY<br />
R1030<br />
R1032<br />
READY<br />
R1034<br />
READY<br />
R1036<br />
READY<br />
40.2<br />
R148<br />
1%<br />
715<br />
R164 1%<br />
715<br />
R163 1%<br />
BST100<br />
BST102<br />
BST104<br />
BST103<br />
BST101<br />
1K<br />
AR100<br />
1K<br />
R139<br />
1K<br />
R140<br />
BST105<br />
BST106<br />
+3.3V_L<br />
R102<br />
READY<br />
POP NOISE<br />
4.7K R103<br />
4.7K<br />
120Hz<br />
R1029<br />
4.7K<br />
R1031<br />
READY<br />
4.7K<br />
R1035<br />
READY<br />
4.7K<br />
R1033<br />
READY<br />
4.7K<br />
R104<br />
+3.3V_L<br />
4.7K<br />
R135<br />
55.474MHz<br />
X100<br />
TXC<br />
C102<br />
READY<br />
C103<br />
READY<br />
C105<br />
READY<br />
READY C101<br />
READY C100<br />
C104<br />
READY<br />
HDMI_POWER2<br />
004:J8<br />
10K R194<br />
10K R195<br />
10K R198<br />
10K R197<br />
10K R196<br />
10K R193<br />
/X260_FRC_RESET 008:J8<br />
HDMI_SEL0<br />
004:F4<br />
HDMI_SEL1<br />
004:F4<br />
HDMI2_HPD<br />
004:J8<br />
RGB_SW 004:H8<br />
HDMI_SEL2<br />
004:F4<br />
R1010 READY<br />
R1011 READY<br />
USB1.1_PB<br />
007:J6<br />
USB1.1_OVRCUR<br />
007:G6<br />
USB1.1_NB<br />
007:J6<br />
15pF<br />
C2127<br />
15pF<br />
C2126<br />
USB_PWR_DOWN 007:G6<br />
100uF 16V<br />
C2189<br />
100uF 16V<br />
C2144<br />
22uF 16V<br />
C2152<br />
22uF 16V<br />
C2173<br />
22uF 16V<br />
C2188<br />
10K<br />
R114<br />
10K<br />
R118<br />
68uF<br />
C2174<br />
10V<br />
68uF<br />
C2153<br />
10V<br />
PC_SER_CLK<br />
004:A8;004:H8<br />
PC_SER_DATA<br />
004:A8;004:H8<br />
R120<br />
READY<br />
R121<br />
READY<br />
C2240 READY<br />
C2241 READY<br />
C2242 READY<br />
C2243<br />
READY<br />
C2244<br />
READY<br />
0<br />
R170<br />
BST107<br />
/X260_NTP_RESET<br />
005:G7<br />
DVB_TP_CLK<br />
/DVB_TP_ERR<br />
DVB_TP_DATA[0-7]<br />
DVB_TP_SOP<br />
DVB_TP_VALID<br />
/COFDM_RESET 006:J7<br />
/MRASB 002:G3;002:J3<br />
/MEM_DQMB0002:G3<br />
MCLKB 002:G2;002:J2<br />
/MEM_DQMB2002:J3<br />
/MEM_DQMB1002:G3<br />
18 R146<br />
MCKENB 002:G3;002:J3<br />
MEM_AB[0-14]<br />
002:G1<br />
18 R147<br />
/MCSB0 002:G3;002:J3<br />
/MWEB 002:G3;002:J3<br />
MEM_ODTB 002:G3;002:J3<br />
MEM_QSB3 002:J3<br />
MEM_QSB0 002:G3<br />
/MEM_DQMB3002:J3<br />
MEM_QSB1 002:G3<br />
/MCASB 002:G3;002:J3<br />
/MCLKB 002:G2;002:J2<br />
MEM_QSB2 002:J3<br />
MEM_DQB[0-31]<br />
002:G1<br />
X260_CVBS_OUT<br />
75<br />
R171<br />
75<br />
R172<br />
0<br />
R167<br />
33<br />
R182<br />
4814V00112J<br />
SP102<br />
4814V00112J<br />
SP101<br />
4814V00112J<br />
SP103<br />
4814V00112J<br />
SP100<br />
EXT_IN_G[8]<br />
EXT_IN_G[7]<br />
EXT_IN_G[6]<br />
EXT_IN_G[5]<br />
EXT_IN_G[4]<br />
EXT_IN_G[3]<br />
EXT_IN_G[2]<br />
EXT_IN_R[9]<br />
EXT_IN_R[8]<br />
EXT_IN_R[7]<br />
EXT_IN_R[6]<br />
EXT_IN_R[5]<br />
EXT_IN_R[4]<br />
EXT_IN_R[3]<br />
EXT_IN_R[2]<br />
EXT_IN_B[9]<br />
EXT_IN_B[8]<br />
EXT_IN_B[7]<br />
EXT_IN_B[6]<br />
EXT_IN_B[5]<br />
EXT_IN_B[4]<br />
EXT_IN_B[3]<br />
EXT_IN_B[2]<br />
EXT_IN_G[9]<br />
X260_FAD[12]<br />
X260_FAD[11]<br />
X260_FAD[10]<br />
X260_FAD[9]<br />
X260_FAD[8]<br />
X260_FAD[7]<br />
X260_FAD[6]<br />
X260_FAD[5]<br />
X260_FAD[4]<br />
X260_FAD[3]<br />
X260_FAD[2]<br />
X260_FAD[1]<br />
X260_FAD[0]<br />
X260_FAD[15]<br />
X260_FAD[14]<br />
X260_FAD[13]<br />
X260_OUT_B[2]<br />
X260_OUT_B[3]<br />
X260_OUT_B[4]<br />
X260_OUT_B[6]<br />
X260_OUT_B[7]<br />
X260_OUT_B[5]<br />
X260_OUT_B[9]<br />
X260_OUT_B[8]<br />
MEM_DQA[0]<br />
MEM_DQA[1]<br />
MEM_DQA[2]<br />
MEM_DQA[3]<br />
MEM_DQA[7]<br />
MEM_DQA[4]<br />
MEM_DQA[5]<br />
MEM_DQA[8]<br />
MEM_DQA[9]<br />
MEM_DQA[10]<br />
MEM_DQA[11]<br />
MEM_DQA[12]<br />
MEM_DQA[13]<br />
MEM_DQA[14]<br />
MEM_DQA[15]<br />
MEM_DQA[16]<br />
MEM_DQA[17]<br />
MEM_DQA[18]<br />
MEM_DQA[19]<br />
MEM_DQA[20]<br />
MEM_DQA[21]<br />
MEM_DQA[22]<br />
MEM_DQA[23]<br />
MEM_DQA[24]<br />
MEM_DQA[25]<br />
MEM_DQA[26]<br />
MEM_DQA[27]<br />
MEM_DQA[28]<br />
MEM_DQA[29]<br />
MEM_DQA[30]<br />
MEM_DQA[31]<br />
MEM_DQA[6]<br />
MEM_AA[11]<br />
MEM_AA[12]<br />
MEM_AA[14]<br />
MEM_AA[5]<br />
MEM_AA[9]<br />
MEM_AA[6]<br />
MEM_AA[3]<br />
MEM_AA[7]<br />
MEM_AA[4]<br />
MEM_AA[0]<br />
MEM_AA[10]<br />
MEM_AA[1]<br />
MEM_AA[2]<br />
MEM_AA[13]<br />
MEM_AA[8]<br />
X260_OUT_G[8]<br />
X260_OUT_G[7]<br />
X260_OUT_G[9]<br />
X260_OUT_G[6]<br />
X260_OUT_G[3]<br />
X260_OUT_G[2]<br />
X260_OUT_G[5]<br />
X260_OUT_G[4]<br />
X260_OUT_R[9]<br />
X260_OUT_R[5]<br />
X260_OUT_R[2]<br />
X260_OUT_R[8]<br />
X260_OUT_R[3]<br />
X260_OUT_R[4]<br />
X260_OUT_R[7]<br />
X260_OUT_R[6]<br />
EXT_IN_G[1]<br />
EXT_IN_G[0]<br />
EXT_IN_R[1]<br />
EXT_IN_R[0]<br />
X260_TCK<br />
X260_TMS<br />
EJTAG_TDI<br />
EJTAG_TDO<br />
DVB_TP_DATA[4]<br />
DVB_TP_DATA[5]<br />
DVB_TP_DATA[6]<br />
DVB_TP_DATA[7]<br />
DVB_TP_DATA[0]<br />
DVB_TP_DATA[1]<br />
DVB_TP_DATA[2]<br />
DVB_TP_DATA[3]<br />
MEM_DQB[20]<br />
MEM_DQB[21]<br />
MEM_AB[7]<br />
MEM_DQB[1]<br />
MEM_DQB[29]<br />
MEM_DQB[23]<br />
MEM_DQB[26]<br />
MEM_DQB[7]<br />
MEM_DQB[24]<br />
MEM_DQB[15]<br />
MEM_DQB[31]<br />
MEM_AB[4]<br />
MEM_DQB[10]<br />
MEM_AB[0]<br />
MEM_AB[2]<br />
MEM_DQB[8]<br />
MEM_DQB[16]<br />
MEM_DQB[3]<br />
MEM_DQB[9]<br />
MEM_DQB[6]<br />
MEM_AB[6]<br />
MEM_DQB[25]<br />
MEM_AB[11]<br />
MEM_DQB[17]<br />
MEM_AB[9]<br />
MEM_DQB[27]<br />
MEM_DQB[14]<br />
MEM_DQB[13]<br />
MEM_DQB[5]<br />
MEM_AB[1]<br />
MEM_AB[13]<br />
MEM_AB[5]<br />
MEM_AB[8]<br />
MEM_DQB[0]<br />
MEM_DQB[22]<br />
MEM_DQB[28]<br />
MEM_DQB[4]<br />
MEM_AB[14]<br />
MEM_DQB[18]<br />
MEM_DQB[11]<br />
MEM_DQB[2]<br />
MEM_AB[12]<br />
MEM_DQB[19]<br />
MEM_AB[3]<br />
MEM_DQB[30]<br />
MEM_DQB[12]<br />
MEM_AB[10]<br />
PORTA<br />
PORTB<br />
MODEL Define<br />
Debugging<br />
Option<br />
EMF
P/NO : MFL40360705<br />
Oct., 2007<br />
Printed in Korea
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