LG 42LG50

March 30, 2018 | Author: nixontvcomputers4521 | Category: Soldering, Printed Circuit Board, Electronic Engineering, Electromagnetism, Electrical Engineering


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Internal Use Onlywebsite:http://biz.LGservice.com LCD TV SERVICE MANUAL CHASSIS : LA84A MODEL : 42LG50 42LG50-UA CAUTION BEFORE SERVICING THE CHASSIS, READ THE SAFETY PRECAUTIONS IN THIS MANUAL. CONTENTS CONTENTS .............................................................................................. 2 PRODUCT SAFETY ..................................................................................3 SPECIFICATION ........................................................................................6 ADJUSTMENT INSTRUCTION ...............................................................12 TROUBLE SHOOTING ............................................................................19 BLOCK DIAGRAM...................................................................................24 EXPLODED VIEW .................................................................................. 25 SVC. SHEET ............................................................................................... Copyright © 2007 LG Electronics. Inc. All right reserved. Only for training and service purposes -2- LGE Internal Use Only replace it with the specified. In case any measurement is out of the limits specified. keep the resistor 10mm away from PCB.) and the exposed metallic parts.5K/10watt resistor in parallel with a 0. such as antennas. Copyright © 2007 LG Electronics. Conduit.5mA. Use a transformer of adequate power rating as this protects the technician from accidents resulting in personal injury from electrical shocks. General Guidance An isolation Transformer should always be used during the servicing of a receiver whose chassis is not isolated from the AC power line. connect an electrical jumper across the two AC plug prongs. Place the AC switch in the on position. or other Hazards. etc. Inc.SAFETY PRECAUTIONS IMPORTANT SAFETY NOTICE Many electrical and mechanical parts in this chassis have special safety-related characteristics. All right reserved. If any fuse (or Fusible Resistor) in this TV receiver is blown. AC Volt-meter Before returning the receiver to the customer. Fire. Any voltage measured must not exceed 0. CONDUIT etc. 1. to be sure the set is safe to operate without damage of electrical shock. When the exposed metal has no return path to the chassis the reading must be infinite.2MΩ. phone jacks. the measured resistance should be between 1MΩ and 5. Leakage Current Hot Check circuit Keep wires away from high voltage or high temperature parts. It is essential that these special safety parts should be replaced with the same components as recommended in this manual to prevent Shock. always perform an AC leakage current check on the exposed metallic parts of the cabinet. over 1W).5 Kohm/10W LGE Internal Use Only . It will also protect the receiver and it's components from being damaged by accidental shorts of the circuitry that may be inadvertently introduced during the service operation. These parts are identified by in the Schematic Diagram and Replacement Parts List. connect one lead of ohm-meter to the AC plug prongs tied together and touch other ohm-meter lead in turn to each exposed metallic parts such as antenna terminals.75 volt RMS which is corresponds to 0. An other abnormality exists that must be corrected before the receiver is returned to the customer.. Only for training and service purposes To Instrument's exposed METALLIC PARTS -3- 0. Reverse plug the AC cord into the AC outlet and repeat AC voltage measurements for each exposed metallic part. Do not modify the original design without permission of manufacturer. Connect 1. there is possibility of shock hazard and the set must be checked and repaired before it is returned to the customer. If the exposed metallic part has a return path to the chassis.15uF Good Earth Ground such as WATER PIPE. terminals. When replacing a high wattage resistor (Oxide Metal Film Resistor. Leakage Current Cold Check(Antenna Cold Check) With the instrument AC plug removed from AC source.15uF capacitor between a known good earth ground (Water Pipe. etc. Leakage Current Hot Check (See below Figure) Plug the AC cord directly into the AC outlet. Do not use a line Isolation Transformer during this check. etc. Measure the AC voltage across the resistor using AC voltmeter with 1000 ohms/volt or more sensitivity. 4. read and follow the SAFETY PRECAUTIONS on page 3 of this publication. place the assembly on a conductive surface such as aluminum foil. 8. Always remove the test receiver ground lead last. Always unplug the receiver AC power cord from the AC power source before. to prevent electrostatic charge buildup or exposure of the assembly. CAUTION: Do not connect the test fixture ground strap to any heat sink in this receiver. hold the soldering iron tip and solder the strand against the component lead until the solder melts. always follow the safety precautions. After removing an electrical assembly equipped with ES devices. c. Remember: Safety First. 3. The following techniques should be used to help reduce the incidence of component damage caused by static by static electricity. cotton-tipped stick or comparable non-abrasive applicator. Test high voltage only by measuring it with an appropriate high voltage meter or other voltage measuring device (DVM. Always connect the test receiver ground lead to the receiver chassis ground before connecting the test receiver positive lead. which should be removed to prevent potential shock reasons prior to applying power to the Copyright © 2007 LG Electronics. 6. 10% (by volume) Acetone and 90% (by volume) isopropyl alcohol (90%-99% strength) CAUTION: This is a flammable mixture. -4- LGE Internal Use Only . 2. d. FETVOM. First. Minimize bodily motions when handling unpackaged replacement ES devices. lubrication of contacts in not required. 7. low-wattage soldering iron and appropriate tip size and shape that will maintain tip temperature within the range or 500° F to 600°F. touch the protective material to the chassis or circuit assembly into which the device will be installed. obtain and wear a commercially available discharging wrist strap device. CAUTION: Work quickly to avoid overheating the circuitboard printed foil. Quickly move the soldering iron tip to the junction of the component lead and the printed circuit foil. 2. Inc. circuit board module or any other receiver assembly. 5. Use with this receiver only the test fixtures specified in this service manual. General Servicing Precautions 1. Removing or reinstalling any component. Only for training and service purposes unit under test. Do not remove a replacement ES device from its protective package until immediately before you are ready to install it.SERVICING PRECAUTIONS CAUTION: Before servicing receivers covered by this service manual and its supplements and addenda. 7. Use a grounded-tip. 6. Do not test high voltage by "drawing an arc". 1. Disconnecting or reconnecting any receiver electrical plug or other electrical connection. c. 4. Do not spray chemicals on or near this receiver or any of its assemblies. drain off any electrostatic charge on your body by touching a known earth ground. NOTE: If unforeseen circumstances create conflict between the following servicing precautions and any of the safety precautions on page 3 of this publication. 5. Do not defeat any plug/socket B+ voltage interlocks with which receivers covered by this service manual might be equipped. Do not use freon-propelled spray-on cleaners. c. Use a mall wirebristle (0. or 1. 4. CAUTION: A wrong part substitution or incorrect polarity installation of electrolytic capacitors may result in an explosion hazard. Thoroughly clean the surfaces to be soldered. Such components commonly are called Electrostatically Sensitive (ES) Devices. Connecting a test substitute in parallel with an electrolytic capacitor in the receiver. and hold it there only until the solder flows onto and around both the component lead and the foil. a. Immediately before handling any semiconductor component or semiconductor-equipped assembly. Some solder removal devices not classified as "anti-static" can generate electrical charges sufficient to damage ES devices.25cm) brush with a metal handle. Do not apply AC power to this instrument and/or any of its electrical assemblies unless all solid-state device heat sinks are correctly installed. 6. Keep the soldering iron tip clean and well tinned.5 inch. 5. Closely inspect the solder area and remove any excess or splashed solder with a small wire-bristle brush. (500°F to 600° F) b. Use an appropriate gauge of RMA resin-core solder composed of 60 parts tin/40 parts lead. Immediately before removing the protective material from the leads of a replacement ES device. Alternatively. All right reserved. and observe all other safety precautions. Allow the soldering iron tip to reach a normal temperature (500°F to 600° F) b. Use only a grounded-tip soldering iron to solder or unsolder ES devices. Unless specified otherwise in this service manual. b. a. CAUTION: Be sure no power is applied to the chassis or circuit. 3. Quickly draw the melted solder with an anti-static. etc) equipped with a suitable high voltage probe. aluminum foil or comparable conductive material). (Otherwise harmless motion such as the brushing together of your clothes fabric or the lifting of your foot from a carpeted floor can generate static electricity sufficient to damage an ES device. suctiontype solder removal device or with solder braid. (Most replacement ES devices are packaged with leads electrically shorted together by conductive foam. Do not use freon-propelled chemicals. Use only an anti-static type solder removal device. 8. Unless specified otherwise in this service manual. Electrostatically Sensitive (ES) Devices Some semiconductor (solid-state) devices can be damaged easily by static electricity. Use the following soldering technique. Allow the soldering iron tip to reach normal temperature. Use the following unsoldering technique a. clean electrical contacts only by applying the following mixture to the contacts with a pipe cleaner. Heat the component lead until the solder melts. CAUTION: Work quickly to avoid overheating the circuit board printed foil. Examples of typical ES devices are integrated circuits and some field-effect transistors and semiconductor "chip" components. 2. 3.) General Soldering Guidelines 1. These can generate electrical charges sufficient to damage ES devices. Transistor Device Removal/Replacement 1. to ensure that a hazardous condition will not exist if the jumper wire opens. Remove the defective copper pattern with a sharp knife. The following guidelines and procedures should be followed whenever this condition is encountered. This technique involves the installation of a jumper wire on the component side of the circuit board.IC Remove/Replacement Some chassis circuit boards have slotted holes (oblong) through which the IC leads are inserted and then bent flat against the circuit foil. At Other Connections Use the following technique to repair the defective copper pattern at connections other than IC Pins. Draw away the melted solder with an anti-static suction-type solder removal device (or with solder braid) before removing the IC. Desolder and straighten each IC lead in one operation by gently prying up on the lead with the soldering iron tip as the solder melts. use the standard technique as outlined in paragraphs 5 and 6 above. 1. the following technique should be used to remove and replace the IC. 1. Heat and remove all solder from around the transistor leads. 4. 5. Inspect (on the circuit board copper side) the solder joints of the two "original" leads. 3. 3. (It is not necessary to reapply acrylic coating to the areas). Replacement 1. 4. Replace heat sink. Insert new transistor in the circuit board. Remove defective diode by clipping its leads as close as possible to diode body. Remove the defective transistor by clipping its leads as close as possible to the component body. CAUTION: Maintain original spacing between the replaced component and adjacent components and the circuit board to prevent excessive component temperatures. Circuit Board Foil Repair Excessive heat applied to the copper foil of any printed circuit board will weaken the adhesive that bonds the foil to the circuit board causing the foil to separate from or "lift-off" the board. wrap each lead of the new diode around the corresponding lead on the circuit board. "Small-Signal" Discrete Transistor Removal/Replacement 1. 5. 3. Securely crimp the leads of replacement component around notch at stake top. 2. 2. Carefully crimp and solder the connections. Securely crimp each connection and solder it. and clip off excess lead. 3. 2. Carefully insert the replacement IC in the circuit board. 3. Copyright © 2007 LG Electronics. Bend the two remaining leads perpendicular y to the circuit board. (Use this technique only on IC connections). Solder the connections. 2. Trace along the copper pattern from both sides of the pattern break and locate the nearest component that is directly connected to the affected copper pattern. When working with boards using the familiar round hole. Removal 1. Solder the overlapped area and clip off any excess jumper wire. 2. (Remove only as much copper as absolutely necessary). Inc. Carefully bend each IC lead against the circuit foil pad and solder it. 3. Bend into a "U" shape the end of each of three leads remaining on the circuit board. apply additional solder. Carefully remove the damaged copper pattern with a sharp knife. 2. Connect the replacement transistor leads to the corresponding leads extending from the circuit board and crimp the "U" with long nose pliers to insure metal to metal contact then solder each connection. CAUTION: Be sure the insulated jumper wire is dressed so the it does not touch components or sharp edges. 4. Observing diode polarity. Solder the IC connection. Only for training and service purposes -5- LGE Internal Use Only . When holes are the slotted type. carefully scratch away the solder resist and acrylic coating (if used) from the end of the remaining copper pattern. All right reserved. If they are not shiny. Clip each fuse or resistor lead at top of the circuit board hollow stake. reheat them and if necessary. 6. Remove the heat sink mounting screw (if so equipped). Clean the soldered areas with a small wire-bristle brush. At IC Connections To repair a defective copper pattern at IC connections use the following procedure to install a jumper wire on the copper pattern side of the circuit board. Solder each transistor lead. Bend a small "U" in one end of a small gauge jumper wire and carefully crimp it around the IC pin. 4. Route the jumper wire along the path of the out-away copper pattern and let it overlap the previously scraped end of the good copper pattern. 2. Diode Removal/Replacement 1. Connect insulated 20-gauge jumper wire from the lead of the nearest component on one side of the pattern break to the lead of the nearest component on the other side. 3. Carefully remove the transistor from the heat sink of the circuit board. Remove at least 1/4 inch of copper. Bend into a "U" shape the replacement transistor leads. 2. Fuse and Conventional Resistor Removal/Replacement 1. Power Output. Market NORTH AMERICA 5. 4. 1. Storage Environment 1) Temp : -20 ~ 60 deg 2) Humidity : ~ 85 % Copyright © 2007 LG Electronics. Operating Environment 1) Temp : 0 ~ 40 deg 2) Humidity : ~ 80 % 10. 3. Application Range.3 EMC : FCC. Receiving System ATSC/ NTSC-M 2. 3. 2. CSA. IEC specification 2.SPECIFICATION NOTE : Specifications and others are subject to change without notice for improvement.3 Power Voltage : Standard input voltage (100~240V@ 50/60Hz) • Standard Voltage of each products is marked by models 2. LCD Module LK520D3LZ18 52LG50 V470H1-L03 47LG50 T420HW01-V2 42LG50 LC370WUN-SAA1 37LG50 9.2 Relative Humidity : 65±10% 2. Inc. Specification Each part is tested as below without special appointment 3. Tuning System FS 8. Test method This spec sheet is applied to the 37"/42"/47"/52" LCD TV used LA84A chassis.2 Demanded other specification Safety : UL. IEC specification 3. Screen Size 52 inch Wide(1920 x 1080) 52LG50 47 inch Wide(1920 x 1080) 47LG50 42 inch Wide(1920 x 1080) 42LG50 37 inch Wide(1920 x 1080) 37LG50 6.1 Temperature : 25±5°C(77±9°F). CST : 40±5°C 2.1 Performance : LGE TV test method followed.5 The receiver must be operated for about 20 minutes prior to the adjustment. Only for training and service purposes -6- LGE Internal Use Only . ICES. Input Voltage 1) AC 100 ~ 240V 50/60Hz 4. All right reserved. Aspect Ratio 16:9 7. General Specification(TV) No. Item Specification 1. Available Channel 1) VHF : 02~13 Remark 2) UHF : 14~69 3) DTV : 02-69 4) CATV : 01~135 5) CADTV : 01~135 3. 2.4 Specification and performance of each parts are followed each drawing and specification by part number in accordance with BOM . 272 Y 0.277 Contrast ratio Color Temperature Max 80 GREEN 4.500 7. Item Min White peak brightness 2. Color Distortion.000 11.300 HDMI input Warm 5.150 Y 0.5. Color Killer Sensitivity -80 dBm Copyright © 2007 LG Electronics. All right reserved.0 deg 8.500 85% Full white pattern <Test Signal> 6.600 X 0.060 X 0.000 12.330 X 0. Chrominance & Luminance Specification No 1.0 dB 9. Inc. Color S/N. AM/FM 43.000 Medium 8.500 6. Typ 1000:1 1500:1 8000:1 10000:1 1000:1 1500:1 8000:1 10000:1 1000:1 1500:1 8000:1 10000:1 1000:1 1500:1 52LG50 Full white Typ 52LG50 DCR 47LG50 DCR 42LG50 DCR 37LG50 8000:1 10000:1 DCR Cool 10. Only for training and service purposes -7- LGE Internal Use Only . DG 10.300 9.300 10. Color coordinate RED BLUE WHITE 5.280 Y 0. DP 10. Color Distortion.0 % 7. Brightness uniformity 3.640 Y 0. X Unit Remark 360 450 cd/m2 400 500 cd/m2 47LG50 400 500 cd/m2 42LG50 400 500 cd/m2 37LG50 % Typ 0. 2) Measure average brightness in 9 points. Only for training and service purposes -8- LGE Internal Use Only . All right reserved. impress 30x30 dots White Window Pattern signal . measure peak brightness displayable as much as possible LCD module. The Correct measure specification is followed by IEC61988-2/CD. 1/5(H)x1/5(V) of Window Pattern (white pattern in non-impressed condition) . .Test pattern: in center.Impress test pattern signal in 1/5(H)x1/5(V) White Window of 100%(255Gray Level) . 4) Measure method .Peak & average Brightness & Contrast measure standard specification . locate a source of light on the above 45°of the panel surface. Measure center peak brightness degree Lw of white window . use generally simple test measurement. 1 4 7 2 5 8 3 6 9 Contrast ratio measure specification 1) Test display signal : 30x30 dots White Window signal & all Black Raster signal 2) Dark room measure condition : Using touch type Color analyzer CA-100 Dark room in the non outside light 3) Bright room measure condition : In bright room of 150Lx illumination in the panel surface.measure 3 times brightness of central white window. and mark peak brightness in max brightness degree .measure the same condition in video signal /RGB signal.Impress black Raster signal as contrast ratio measurement signal.SET condition : Contrast & Brightness Level 100% . 3) Pattern Generator : VG-828 or a sort of digital pattern generator (displayable Full White & 1/25 White Window pattern) 4) Measure condition .Environment condition : Dark room in the non outside light . Inc. Average Brightness measure specification 1) Impress 100%(255Gray Level) full white pattern at the same peak brightness measurement. JAPAN EIAJ-2710 Copyright © 2007 LG Electronics.White Peak brightness measure specification 1) In non-impressed condition. 2) Measuring instrument: CA-110 or a sort of Color Analyzer. Contrast ratio = Lw / Lb * If it does not use Prior measurement.In standard test condition.Do heat-run LCD module at 30minutes in normal temperature (25°C) by using full white pattern of 15% signal level(38 gray level). Measure black brightness degree Lb of PDP central Calculate the following numerical formula.Video menu option condition Signal Picture Mode XD Black Level RF NTSC-M USER1 Off N/A AV NTSC-M USER1 Off Low Component 720P USER1 Off N/A RGB 1024x768 USER1 N/A N/A HDMI DTV 720P USER1 Off High 5) Measurement . 640*480 37.476 70.712 60. 800*600 46.500 75.289 74. 1280*720 45. 1280*768 60. 720*480 15.17 EGA 2.75 VESA(XGA) O 13.5 HDTV 1080P O Copyright © 2007 LG Electronics.94 74. 1024*768 56. 1920*1080 33.5 CVT(WXGA) O 14.08 28. 1280*1024 63.156 56.879 60.976 75.97 23.00 74.96 59. 640*480 31.75 60.50 VESA(SVGA) O 10.00 VESA (SXGA) O 17.17 VESA(VGA) O 4. Inc. 720*400 31.00 VESA(SVGA) O 8. 720*480 31.861 72. 1920*1080 33.25 36.939 148. 1920*1080 67.352 HDTV 1080P 11.00 31.015 85.94 27. 1360*768 47.71 29.94 13. 720*480 31.027 SDTV 480P 4.020 108.47 60 27. 1920*1080 33.02 78.25 HDTV 1080P 12.5 SDTV .32 DOS O 3.94 25. Resolution H-freq(kHz) V-freq(Hz) Remark Pixek clock 1. 1280*768 47.50 VESA (WXGA) O 16.25 HDTV 1080I 8. 720*480 15. Only for training and service purposes -9- X LGE Internal Use Only . 1920*1080 27. 1920*1080 33.94 74. All right reserved.00 60.80 31.00 VESA(XGA) O 12.5135 SDTV . 800*600 35.73 60 13.31 40.875 75. 1280*1024 79.00 65.363 60.DVD 480I 2. 1920*1080 26.000 24.893 102.25 CVT(WXGA) O 15.432 59.25 HDTV 720P 6.077 72.469 59.6.000 74.023 75.73 59. 800*600 48.72 59. 1024*768 48.0 SDTV 480P 5.981 60.25 HDTV 1080P 14.000 74. PB. 640*480 37.176 HDTV 1080I 9.50 VESA(VGA) O 6.94 74. 1600*1200 75. Component Video Input (Y. Resolution H-freq(kHz) V-freq(Hz) Pixel clock(MHz) Remark PC DDC 1.176 HDTV 1080P 13.469 70.06 75.18 50. 800*600 37.97 74.00 VESA(XGA) O 11.500 60 148. PR) Specification No.00 60.176 HDTV 720P 7.00 VESA(SVGA) O 9.50 HDTV 1080P 10.5 60 138.025 135 VESA (SXGA) O 18.00 VESA(SVGA) O 7. 1024*768 60.468 70.00 49.00 74. 1280*720 44.50 VESA(VGA) O 5.DVD 480I 3.176 HDTV 1080P 7.870 79.75 30. RGB PC No. 1920*1080 67.47 59.776 59. 640*350 31.00 162 VESA (UXGA) O 19 1920*1080 67.09 25. 94 74.077 72.712 60.31 40.94 74.32 DOS O 3 640*480 31.10 - LGE Internal Use Only .00 162 VESA (UXGA) O 18 1920*1080 67.020 108. HDMI Input (PC/DTV) No.870 79.75 30.00 74.879 60.363 60.352 HDTV 1080P 9 1920*1080 27.96 59.469 59.469 70.00 31.00 VESA(SVGA) O 7 800*600 37.97 74.5 HDTV 1080P O DTV 1 720*480 31.97 23.176 HDTV 1080P 11 1920*1080 33.75 VESA(XGA) O 13 1280*768 47.025 135 VESA (SXGA) O 17 1600*1200 75.25 HDTV 1080P 12 1920*1080 33.5 60 148.00 60.94 25.00 VESA(SVGA) O 8 800*600 48.47 59.000 74.00 VESA(XGA) O 11 1024*768 56.50 HDTV 1080P 8 1920*1080 67.176 HDTV 1080P Copyright © 2007 LG Electronics.00 60.71 29.14 HDTV 1080I 6 1920*1080 33.00 VESA(XGA) O 12 1024*768 60.00 SDTV 480P 3 1280*720 45. Inc.00 74.80 31.023 75. All right reserved.17 EGA X 2 720*400 31.176 HDTV 1080I 7 1920*1080 67. Only for training and service purposes .027 SDTV 480P 2 720*480 31.50 VESA (WXGA) O 15 1280*1024 63.976 75.776 59.25 36.00 VESA(SVGA) O 9 800*600 46.25 HDTV 1080P 10 1920*1080 26.981 60.08 28.500 75.50 VESA(VGA) O 6 800*600 35.5 CVT(WXGA) O 14 1360*768 47.50 VESA(VGA) O 5 640*480 37.432 59.939 148.468 70.06 75.72 59.000 74.500 60 148.75 60.47 60 27.00 65.00 VESA (SXGA) O 16 1280*1024 79.94 74.02 78.8.94 27.476 70.17 VESA(VGA) O 4 640*480 37.25 HDTV 720P 4 1280*720 44.156 56.176 HDTV 720P 5 1920*1080 33.015 85.00 49.000 24.875 75.861 72.50 VESA(SVGA) O 10 1024*768 48.09 25.18 50. Resolution H-freq(kHz) V-freq(Hz) Pixel clock(MHz) Remark PC DDC 1 640*350 31. 7 692. Widt(W) 936.8±2.4±2. 52LG50 No.9 892. Item Product Dimension Before Packing After Packing 2.0 Dimension Copyright © 2007 LG Electronics. Mechanical specification 10-1. 37LG50 No. All right reserved. Inc.7 684. Item Product Length(D) Height(H) mm 293.0 mm 253 665 mm Before Packing Product Only SET 18.5 Kg With BOX TBD Kg After Packing 2.2 mm 411 976 mm Dimension Before Packing Product Only SET 39.0 mm 999 264 874 mm Remark mm Only SET TBD Kg With BOX TBD Kg Content Unit With Stant 10-4.4±1.8±0. 1. Product Content Widt(W) Length(D) Unit Height(H) Remark mm Before Packing mm After Packing mm Only SET Kg With BOX Kg With Stant 10-3.7 342. 1.9.11 - Remark With Stant LGE Internal Use Only . Item Product Dimension 2. 1.0 280.5±0. 47LG50 No. 42LG50 No.3 Kg With BOX 23 Kg After Packing 2. 1. Item Product Unit Widt(W) Length(D) Height(H) mm 1291. Only for training and service purposes 1195 . Content 1386 Remark With Stant 10-2. Product Content Unit Widt(W) Length(D) Height(H) 927±1. All right reserved. LA84A Chassis. select '3. 4) Wait for one second or longer after receiving the signal. 7) If the adjustment is failed. Select "10.7±0. 5) If it is normally adjusted. 2. 50/60Hz. * In this status you can maintain Heat-Run useless any pattern generator Note) If you maintain one picture over 20 minutes (Especially sharp distinction black with white pattern – 13Ch. 802F.3. 2. Only for training and service purposes . the message 'ADC Component1 480i Fail' is displayed.2 Adjustment must be done in the correct order. Horizontal 100% Color Bar Pattern to Comp1 port.3 The adjustment must be performed in the circumstance of 25±5°C of temperature and 65±10% of relative humidity if there is no specific designation. 3.1 ADC 480i Comp1 1) Check the Component1 connection condition from the used device. Application Range 3. 802R) or MSPG925FA Pattern Generator . 1080p . Inc.4 The input voltage of the receiver must keep 100~220V. and press the Enter key to automatically adjust. If the component is not connected. press the ADJ key of the R/C to enter into 'EzAdjust'.3 How to adjust 3. the use of isolation transformer will help protect test instrument. the message 'Not Valid Format'.Image O After Receive 100% Full white pattern (06CH) then process Heat-run (Or 8. check the pattern or the adjustment condition and then readjust LGE Internal Use Only .1 Overview These instructions are applied to all of the LCD TV. Test Pattern condition of Ez – Adjust) O How to make set white pattern A. Adjust ADC(MST3361) 1.1 Because this is not a hot chassis.2 Devices and conditions to use 1) Adjusting remote controller 2) 801GF(802B. or if the input format is not 480i.Pattern name: Horizontal 100% Color Bar Pattern . or Cross hatch pattern – 09Ch) then it can appear image stick near black level Copyright © 2007 LG Electronics. 6) If it is not normally adjusted. Pattern: 65) 3) Set the input to Component1 and select °ÆNormal°Ø as video.ADJUSTMENT INSTRUCTION 3. Press ADJ button of Service remocon. it is not necessary to use an isolation transformer.Pattern level: 0. and then you can see 100% Full White pattern. Press Power ON button of Service Remocon B. 2.5 Before adjustment. Test pattern" and. 3. the message Component1 Not Connected. the message "ADC Component1 Success" is displayed. the message 'Check Signal Status' is displayed for one second. 2. or if there is no input signal. The ADC adjustment automatically sets the optimum black level and the gain and compensates the RGB deviation at the Analog-to-Digital converter 2. (MSPG-925FA => Model: 209. 2) Apply 480i Mode. Notice 2. But it is flexible when its factory local problem occurs. ADC 480i Comp1'. execute Heat-Run for 30 minutes.Resolution: 480i.12 - 3) Use the specified signal cable Note) It should be checked because each equipment may be different from the above pattern due to model and pattern. after select "White" using navigation button.1 Vp-p . However. 5) If it is normally adjusted. D-sub Cable Copyright © 2007 LG Electronics. and press the Enter key to automatically adjust the component1. EDID(The Extended Display Identification Data) / DDC(Display Data Channel) download 4. 4. or if not. press the ADJ or the Exit of the adjustment R/C to exit from the adjustment mode. The error message is same to 6). the message "ADC Component1 Success" is displayed. and then readjust. pattern:65 ) 3) Set the input to Component1 and select °ÆNormal°Ø as video. (Set Auto Detecting) 6) Connect the desired signal cable to the set. the message 'ADC Component1 1080p Fail' is displayed. (MSPG-925 Series => model:225 .EDID DOWNLOAD JIG .13 - LGE Internal Use Only . (EDID Data Write & Read) 3) Go to Model -> Open. 2) Apply 1080p Mode. ADC 1080p Comp1/RGB'. it is automatically switched to the RGB-DTV Mode and the RGT adjustment is started. Only for training and service purposes .HDMI Cable. 6) When adjusting the Component1 is ended. press the ADJ key of the R/C to enter into 'Ez-Adjust'. Function to implement the "Plug and Play" for automatically reconfiguring the user°Øs environment to directly use by exchanging the information with no direct command to the PC or the monitor from the user.PC (S/W included: EDID Data Write & Read) . 7) Make sure that the popup "Proceed to write?" is displayed. 2) Execute the DDC program. 4.2 Device to use . press the ADJ key to exit from the adjustment mode. the message "ADC RGB 1080P Success" is displayed.3 Adjustment wiring diagram (D/L device configuration diagram) USB DVI to HDMI LCD TV SET (or VSC Board) D-SUB Device configuration diagram for HDMI EDID Data input 4.4 How to download 1) Configure the download environment as shown at the adjustment wiring diagram and turn on the PC. 4. 4) Wait for one second or longer after receiving the signal. check the pattern or the adjustment condition. 7) If it is not normally adjusted. 9) After downloading.2 ADC 1080p Comp1/RGB 1) Check the connection condition of Component1 and RGB from the device to use. Inc. 100% Horizontal Color Bar Pattern to Comp1 and RGB port. select '4. 4) Check the item to download from the <Test> item 4-1) HDMI & RGB: Check Digital & Analog 4-2) (Only)HDMI: Check Digital only 5) Press ESC(Cancel Mode) -> F8(Auto Mode). and select the EDID data of the desired model.1 Overview VESA specification.3. All right reserved. 8) Press the Enter key or the space key to download. 8) If the adjustment is ended. If the 7) adjustment is ended.3. If it is normally adjusted. check the OK message and disconnect the connected cable. 5 EDID DATA O HDMI3 EDID (DDC (Display Data Channel) Data Note) Because downloading can be down at the power on mode only.4. if it is not set. Only for training and service purposes 0 00 00 09 01 36 58 58 00 1 FF 11 48 01 00 2C 1F 4C 2 FF 01 4C 01 C4 45 64 47 3 FF 03 AF 01 8E 00 11 20 4 FF 80 CF 01 21 C4 00 54 5 FF 73 00 01 00 8E 0A 56 6 FF 41 31 66 00 21 20 0A 7 00 96 40 21 1E 00 20 20 8 1E 0A 45 50 02 00 20 20 9 6D CF 40 B0 3A 1E 20 20 A 01 74 61 51 80 00 20 20 B 00 A3 40 00 18 00 20 20 C 01 57 81 1B 71 00 00 20 D 01 4C 80 30 38 FD 00 20 E 01 B0 A9 40 2D 00 00 01 F 01 23 40 70 40 30 FC 8A 0 10 20 30 40 50 60 70 0 02 67 6E 16 20 D0 26 00 1 03 03 28 20 E0 8A 36 1A 2 18 0C 55 58 2D 20 80 00 3 F1 00 00 2C 10 E0 A0 00 4 47 30 C4 25 10 2D 70 00 5 84 00 8E 00 3E 10 38 00 6 05 98 21 C4 96 10 1F 00 7 03 25 00 8E 00 3E 40 00 8 02 01 00 21 C4 96 30 00 9 20 1D 1E 00 8E 00 20 00 A 22 00 01 00 21 13 25 00 B 10 72 1D 9E 00 8E 00 00 C 23 51 80 8C 00 21 C4 00 D 15 D0 18 0A 18 00 8E 00 E 07 1E 71 D0 8C 00 21 00 F 50 20 1C 8A 0A 18 00 2F O Analog (RGB) EDID table O HDMI2 EDID (DDC (Display Data Channel) Data 0 10 20 30 40 50 60 70 0 10 20 30 40 50 60 70 .14 - 0 10 20 30 40 50 60 70 0 00 00 09 01 36 58 58 00 1 FF 11 48 01 00 2C 1F 4C 2 FF 01 4C 01 C4 45 64 47 3 FF 03 AF 01 8E 00 11 20 4 FF 18 CF 01 21 C4 00 54 5 FF 73 00 01 00 8E 0A 56 6 FF 41 31 66 00 21 20 0A 7 00 96 40 21 1A 00 20 20 8 1E 0A 45 50 02 00 20 20 9 6D CF 40 B0 3A 1E 20 20 A 01 74 61 51 80 00 20 20 B 00 A3 40 00 18 00 20 20 C 01 57 81 1B 71 00 00 20 D 01 4C 80 30 38 FD 00 20 E 01 B0 A9 40 2D 00 00 01 F 01 23 40 70 40 30 FC F6 0 10 20 30 40 50 60 70 0 02 C4 37 30 00 00 00 00 1 03 8E 00 20 00 00 00 00 2 04 21 C4 25 00 00 00 00 3 00 00 8E 00 00 00 00 00 4 0E 00 21 C4 00 00 00 00 5 1F 1C 00 8E 00 00 00 00 6 00 F1 00 21 00 00 00 00 7 80 27 1C 00 00 00 00 00 8 51 00 26 00 00 00 00 00 9 00 A0 36 0A 00 00 00 00 A 1E 51 80 00 00 00 00 00 B 30 00 A0 00 00 00 00 00 C 40 25 70 00 00 00 00 00 D 80 30 38 00 00 00 00 00 E 37 50 1F 00 00 00 00 00 F 00 80 40 00 00 00 00 BC LGE Internal Use Only . Inc. press the Power ON key of the remote controller to proceed. O HDMI1 EDID (DDC (Display Data Channel) Data 0 10 20 30 40 50 60 70 0 00 00 09 01 36 58 58 00 1 FF 11 48 01 00 2C 1F 4C 2 FF 01 4C 01 C4 45 64 47 3 FF 03 AF 01 8E 00 11 20 4 FF 80 CF 01 21 C4 00 54 5 FF 73 00 01 00 8E 0A 56 6 FF 41 31 66 00 21 20 0A 7 00 96 40 21 1E 00 20 20 8 1E 0A 45 50 02 00 20 20 9 6D CF 40 B0 3A 1E 20 20 A 01 74 61 51 80 00 20 20 B 00 A3 40 00 18 00 20 20 C 01 57 81 1B 71 00 00 20 D 01 4C 80 30 38 FD 00 20 E 01 B0 A9 40 2D 00 00 01 F 01 23 40 70 40 30 FC 8A 0 10 20 30 40 50 60 70 0 02 67 6E 16 20 D0 26 00 1 03 03 28 20 E0 8A 36 1A 2 18 0C 55 58 2D 20 80 00 3 F1 00 00 2C 10 E0 A0 00 4 47 10 C4 25 10 2D 70 00 5 84 00 8E 00 3E 10 38 00 6 05 B8 21 C4 96 10 1F 00 7 03 2D 00 8E 00 3E 40 00 8 02 01 00 21 C4 96 30 00 9 20 1D 1E 00 8E 00 20 00 A 22 00 01 00 21 13 25 00 B 10 72 1D 9E 00 8E 00 00 C 23 51 80 8C 00 21 C4 00 D 15 D0 18 0A 18 00 8E 00 E 07 1E 71 D0 8C 00 21 00 F 50 20 1C 8A 0A 18 00 27 0 00 00 09 01 36 58 58 00 1 FF 11 48 01 00 2C 1F 4C 2 FF 01 4C 01 C4 45 64 47 3 FF 03 AF 01 8E 00 11 20 4 FF 80 CF 01 21 C4 00 54 5 FF 73 00 01 00 8E 0A 56 6 FF 41 31 66 00 21 20 0A 7 00 96 40 21 1E 00 20 20 8 1E 0A 45 50 02 00 20 20 9 6D CF 40 B0 3A 1E 20 20 A 01 74 61 51 80 00 20 20 B 00 A3 40 00 18 00 20 20 C 01 57 81 1B 71 00 00 20 D 01 4C 80 30 38 FD 00 20 E 01 B0 A9 40 2D 00 00 01 F 01 23 40 70 40 30 FC 8A 0 10 20 30 40 50 60 70 0 02 67 6E 16 20 D0 26 00 1 03 03 28 20 E0 8A 36 1A 2 18 0C 55 58 2D 20 80 00 3 F1 00 00 2C 10 E0 A0 00 4 47 20 C4 25 10 2D 70 00 5 84 00 8E 00 3E 10 38 00 6 05 B8 21 C4 96 10 1F 00 7 03 2D 00 8E 00 3E 40 00 8 02 01 00 21 C4 96 30 00 9 20 1D 1E 00 8E 00 20 00 A 22 00 01 00 21 13 25 00 B 10 72 1D 9E 00 8E 00 00 C 23 51 80 8C 00 21 C4 00 D 15 D0 18 0A 18 00 8E 00 E 07 1E 71 D0 8C 00 21 00 F 50 20 1C 8A 0A 18 00 17 Copyright © 2007 LG Electronics. All right reserved. 4 RS-232C Command used for the automatic adjustment RS-232C COMMAND DATA] Meaning * The inner pattern is basically used.Purpose : Adjust the white balance to reduce the deviation of the module. Medium. 7) The adjustment is done at three white balances of Cool.5.2 How to adjust manually 1) The adjustment condition should be set by the Power On key. offset adjustment (wb 00 20-start. 3) Connect the communication cable (RS-232C). possible to communicate with the RS-232C) 3) Adjustment remote controller 4) Video Signal Generator MSPG-925F 720p/216Gray (Model:217. make sure that the back light is turned on by using no signal and the full white pattern or others. How to adjust 5. fix one of the RGB gains to 192 and decrease the remaining two gains to adjust 1) The adjustment condition should be set by the Power On key.Purpose and principle for adjusting the white balance . . 5) Press the ADJ of the R/C to select '7. .key and press the Enter key for 30 minutes or longer to perform the heat run. 4) Select the desired model of the adjustment program and perform the adjustment. Adjusting the White Balance 6. 2) Perform the zero calibration of the Color Analyzer and place the probe close to the display center. Only for training and service purposes * Adjustment environment and reference 1) Environment illuminance Adjust it to 10 LUX or less at the place where the light source such as lamp should be blocked at maximum.White Balance menu and it is set to INNER as default.15 - LGE Internal Use Only .) 6) Fix one of the R/G/B gains to 192 and decrease the remaining two gains to adjust not to exceed 192. wb 00 10 Start of adjust gain (Inner white pattern) wb 00 1f End of gain adjust wb 00 20 Start of offset adjust(Inner white pattern) wb 00 2f End of offset adjust wb 00 ff End of White Balance adjust(Inner pattern disappeared) .PDP: Locate the Color Analyzer (CA-100.White-Balance' of the Ez-Adjust and press the right arrow key(G ) to enter into the adjustment mode. (Warm. All right reserved."jb 00 c0" : -… . 3) Select '10. Cool) 6) Disconnect the probe and the communication cable to end the adjustment. 5."wb 00 00": Start Auto-adjustment of white balance. CA-100+."wb 00 10": Start Gain Adjustment (Inner pattern) . . 5. 4) Perform the zero calibration of the Color Analyzer and fix the sensor with the 10cm or less distance at the center of the LCD module surface when adjusting.Principle: The full dynamic range of the module when the RGB gain on the OSD is 192."wb 00 ff": End of white balance adjustment (inner pattern disappear) Copyright © 2007 LG Electronics. 3) Aging time ."wb 00 1f": End of Adjustment * If it needs. 5) After the adjustment is ended (check the OK sign). check the adjustment condition for each mode of the set. Medium and Warm. wb 00 2fend) . INNER or HDMI can be selected by the bottom option at the Ez Adjust Menu 7.For the LCD. If the adjustment cannot be done by the inner pattern. . .3 Measuring instrument wiring diagram 5.TEST PATTERN' with the CH +/.1 Overview 6. Inc. the screen is entered into the full white inner pattern. 2) Probe location . (As soon as you press 'G '. the adjustment can be done by selecting the HDMI input. In order to adjust the white balance with no saturation of the full dynamic range and the data. 6. and the offset should be adjusted when necessary.2 Device to use 1) Color Analyzer : CA-210 (NCG: CH 9 / WCG: CH12) 2) Computer to adjust (needed for the automatic adjustment. Pattern:78) => Applied only when the inner pattern cannot be used *Use the Color Analyzer with the matrix calibrated by the CS1000 * The adjustment should be started with "wb 00 00" and ended with "wb 00 ff". NONE. select the HDMI to adjust. 2) Press the ADJ of the R/C to enter into 'EZ-ADJUST'. and if it is not possible.Keep the white pattern with the inner pattern for the PDP.LCD: Maintain the Color Analyzer (CA-210) close to the module surface by 10cm or less and keep the probe of the Color Analyzer perpendicular to the module surface (80°~ 100°). [CMD ID wb 00 00 White Balance adjustment start.Keep the power on after the aging start (with no power off) to perform the heat run for 15 minutes or longer. CA210) close to the module surface to measure and adjust .1 How to adjust automatically . it is automatically switched to the resisting pressure test.After completing the final test.2 How to select 1) Press the In-Start key of the R/C and press the red oval OP1(PIP CH-) key to enter into the Factory Option menu. Mexico) 7.0000 WARM 0.002 0.SIGNAL:3KV/min at 100mA O TEST time:1 second O TEST POINT . At this time.313±0.USA.Resisting pressure TEST = between POWER CORD GND and LIVE & NEUTRAL O LEAKAGE CURRENT: Set to 0.002 MEDIUM CA-210 0.276±0.5mArms LGE Internal Use Only .6. which selects the rating related country. Only for training and service purposes .Connect the D-terminal AV JACK tester .276 0.GND:1.002 0.002 7. .MEXICO from the country select according to the destination.16 - 9. Inc. .0000 O Standard color coordinate and white balance when using the CA-210 (CH 10) Color temperature Test Equipment Color Coordination x y COOL CA-210 0.Turn on the automatic (GWS103-4) . press the In-Stop key of the R/C to make sure that the set is turned off.key to adjust Copyright © 2007 LG Electronics.2 Items to manage O TEST voltage . the cord and the A/V completely inserted into the tuner is loaded on the pallet and entered into the automatic test process.002 0. (Disconnect the cord and the A/V from the AV JACK BOX) . and it moves to the next process.Make sure that the power cord is completely inserted into the set. (When it is disconnected or loosened.283±0.1 How to test 1) Preparing for the automatic test on the GND & resisting pressure .313 0.285±0. use the volume +/.If it is OK.The option selection is applied to the North American model only. All right reserved. 2. in order to set the set to the shipping condition. .If it is not good. O Brightness: Full white 216 Gray O Standard color coordinate and white balance when using the CS-1000 Color temperature Color Coordination x y Temp 9.329±0.Applied models: LA84A Chassis applied None USA Model(Canada.293 9300K 0.324 6500K 0.1 Overview .If it is not good.GND TEST = between POWER CORD GND and SIGNAL CABLE METAL GND . 9. the buzzer is operated to notify the test result to the operator. test after inserting it) 2) Perform the automatic test on the GND & resisting pressure .002 WARM CA-210 0.0000 MEDIUM 0. Set the shipping mode (In-stop) . Select the option by country 7.285 0.Perform the resisting pressure test .If it is OK.The set with power cord.3 Reference (White Balance adjustment coordinate and White balance) 8. 2) Select 1.293±0. the buzzer is operated to notify the test result to the operator. .Perform the GND TEST . GND and resisting pressure test UV COOL 0.5KV/min at 100mA .283 11000K 0. the GOOD LAMP is turned and the stopper is moves down.CANADA or 3. Jig Option: Myson . 10.3 Adjustment wiring diagram (Download device configuration diagram) Main B/D Interface B/D 10.PORT: Select the Parallel Port to use (LPT1 in general) 4) Click 'Send Button' *caution: Select the EPP as LPT from the ROM BIAS setting.5 How to adjust (for downloading) 1) fter executing LGE Monitor Tools v1. make sure that the file format is selected as Hex file (*.Transmit Speed: Medium . set the items as follows: .17 - LGE Internal Use Only .10.1 Overview The Micom upgrade via the external port for the service for the customer. Only for training and service purposes . ISP Download (option) 10. (See the figure) 2) When the screen is displayed as shown at the below figure. and select the desired Hex File to download.SDA: D-sub Pin 7 3) Click the Load File Button. All right reserved. click the first icon. Inc.R/W Option: Auto Write(Verify) .Power supply: 5V (P4004 Pin 3) . Copyright © 2007 LG Electronics.4 Adjustment condition (Download condition) .1.hex)) 10.SCL: D-sub Pin 10 . (If no file is displayed.IC name & Circuit number: MYSON MTV416GMF & IC4015 .MCU Select: MTV512M64 .2 Device to use 1) PC 2) B/D for the interface (IIC & ISP) 3) Jig for downloading (for the power supply) 10.Check: blank . 5) When downloading is ended. Until the whole process if completed.02 Press ENTER to start downloading the new software. turning on/off is automatically done. Press EXIT to cancel the upgrade. and press the Enter button of the TV remote controller. 3) Check the current version at [Current TV Software Version Information]. check the S/W version to upgrade at [New Found TV Software Version Information].11.Do not remove the memory card from the slot. . manually perform the power On/Off). remove the USB Memory Stick from the USB jack.01. USB S/W Download (option) 11. make sure that the display screen is turned on.01 [ New Found TV Software Version Information ] MODEL : 42PX3D-UE FILE : homefs-42PX3D-UE-RELEASE-0x0102.2 How to dowunload 1) After turning on the set. please . Reading the file°¶Done Upgrading°¶Done The TV will restart automatically in 0 seconds. Until the whole process if completed. (When the automatic proceeding is not smoothly done.Do not plug off.Do not plug off. 2) When the USB Memory Stick with the upgrade file applied is inserted into the USB jack on the main board. Inc. TV Software Upgrade The software upgrade is now in progress.1 Overview The USB download is for the quick service response via the S/W upgrade and for applying the S/W upgrade necessary for the board adjustment 11. 4) Downloading is proceeded as shown at the below screen.pak HOMEFS(RELEASE) : 00. Only for training and service purposes .Do not remove the memory card from the slot. . 6) Press the IN-START button of the remote controller to check the upgraded S/W version. Copyright © 2007 LG Electronics. the following screen (example) is displayed after several seconds TV Software Upgrade [ Current TV Software Version Information ] HOMEFS(RELEASE): 00.18 - LGE Internal Use Only . All right reserved.01. please . and when it is ended. Only for training and service purposes .19 - LGE Internal Use Only . Inc.TROUBLESHOOTING Copyright © 2007 LG Electronics. All right reserved. Copyright © 2007 LG Electronics. Only for training and service purposes .20 - LGE Internal Use Only . Inc. All right reserved. 21 - LGE Internal Use Only . Only for training and service purposes .Copyright © 2007 LG Electronics. Inc. All right reserved. Inc.22 - LGE Internal Use Only . Only for training and service purposes . All right reserved.Copyright © 2007 LG Electronics. Inc.23 - LGE Internal Use Only . Only for training and service purposes .Copyright © 2007 LG Electronics. All right reserved. 24 - LGE Internal Use Only . Inc.BLOCK DIAGRAM Copyright © 2007 LG Electronics. All right reserved. Only for training and service purposes . Inc.25 - LGE Internal Use Only . Only for training and service purposes .550 500 510 122 120 300 121 901 200 900 802 801 806 803 800 804 530 805 810 520 521 540 820 400 EXPLODED VIEW Copyright © 2007 LG Electronics. All right reserved. 8K ADJ/GND 1 OUTPUT GND R2452 22 Detect +3.3V M15 4.0V +3. A5.1uF 16V R2406 4.7K R138 AM31 DVO_0_1 DVO_3 4.01uF 25V 4:J2. AE23.0V VBR_B DDR1_VREF1 GND_23 H8 P6.1uF C3007 DDR_DATA[29] 62 VSS_3 DDR_DATA[17] 54MHz_XTAL_N L206 2.2/AD2 GND_179 AF20 T27 GPIO_28 REV_SEL1 16V 0.6V_BCM TP2015 2. WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. V10.6V_BCM AB5 M9 AN10 M29 GND_30 H16 Y14 WER. U34.7K R2139 AL30 DVO_0_0 4. R24.1uF 16V CKE A4 DDR_DATA[32] 128MB NC_6 VREF DDR0_DQ[27] DDR_DATA[38] DQ10 VSSQ_3 DDR0_DQ[25] DDR_DATA[27] DDR_DATA[47]128MB 33 VSSQ_4 DQ8 DDR_DATA[25] DDR_DATA[32] DQ14 DQ11 DDR0_DQ[28] DDR_DATA[10] DDR0_ADDR[7] VSSQ_5 DQ12 DDR_DATA[28] DDR_DATA[52] VSS_3 DQ15 DDR0_DQ[30] DDR0_ADDR05 DDR0_DATA06 B10 DDR0_DQ[6] G10 DDR0_DQ[7] D11 DDR0_DQ[9] AR303 33 R3142 DDR0_DQ[31] 33 DDR_DATA[30] DDR0_ADDR04 DDR0_DATA05 E12 DDR0_DQ[5] DDR0_DQ[20] R3139 DDR_DATA[46] DDR0_WEb VSS_1 DDR_DATA[31] DDR0_DATA04 DDR0_DQ[4] AR302 33 DDR0_DQ[21] DDR_DATA[20] DDR0_ADDR03 16V DDR0_DQ[12] 128MB R3118 R3106 DDR0_ADDR[11] A9 A4 R3113 R3101 DDR0_ADDR[12] D2.3V 16V GND_111 16V GND_4 A19 OB_IFVCO_N DVO_0_17 H28 W21 R188 560 GND_110 READY R187 75 GND_3 A16 W20 READY R186 75 GND_109 B32 W19 READY R185 75 GND_2 D30 READY R184 75 GND_108 DVO_0_7 TP1033 G4 R2157 C30 GND_1 A13 OB_I_P G7 TP1032 J6 A1.3VR202 1.3V_BCM EBI_DATA[12] DQ12 45 12 TP1079 EBI_DATA[5] DQ5 46 4 EBI_DATA[13] DQ13 C240 10uF 6. FILRE AND ELECTRICAL SHOCK HAZARDS.01uF C394 A11 DDR0_ADDR[0-12] 300 300 C2602 0. AC34. AD18.6V_BCM VDD_1 DDR_DATA[10] DDR0_ADDR[4] 300 300 DDR0_ADDR02 DDR0_DATA03 E10 0.5:E7 SCL2_3.1uF DDR_DATA[9] DDR0_DQ[9] DDR_DATA[11] DDR0_DQ[11] DDR_DATA[16] DDR0_DQ[16] DDR_DATA[18] DDR0_DQ[18] DDR_DATA[23] DDR0_DQ[23] DDR_DATA[21] 33 DDR0_ADDR[9] A8 DDR0_ADDR[8] A7 DDR0_ADDR[7] A6 DDR0_ADDR[6] A5 DDR0_ADDR[5] DDR0_RASb R3121 R3110 R3122 R3111 DDR0_ADDR[4] DDR0_CASb R3114 R3102 R3126 R3120 R3127 R3123 DDR0_ADDR[8] DDR_DATA[33] DQ13 DDR_DATA[34] VDDQ_5 150 150 R3128 R3124 DDR0_BA0 DDR_DATA[35] DDR0_BA1 DDR_DATA[39] DDR_DATA[38] DQ9 DDR_DATA[37] R3130 R3125 R3131 R3129 DDR0_ADDR[10] R3132 R3134 VDDQ_4 DDR_DATA[36] DDR0_ADDR[0] R3133 R3135 NC_7 DDR0_REF DDR0_CKE L4 DDR0_DQS4 UDQS 150 150 150 150 VSS_2 UDM /CK CK 128MB 150 150 C319 470pF 50V DDR0_CKE NC_5 A12 DDR0_ADDR[12] A11 DDR0_ADDR[11] A9 DDR0_ADDR[9] A8 DDR0_ADDR[8] A7 DDR0_ADDR[7] A6 DDR0_ADDR[6] A5 DDR0_ADDR[5] VSS_1 DDR0_DQ[32] DDR_DATA[34] DDR0_DQ[34] DDR_DATA[39] 128MB DDR_DATA[37] DDR0_DQ[39] DDR_DATA[36] 300 300 DDR0_DQ[44] DDR_DATA[41] 128MB DDR_DATA[43] DDR0_DQ[41] DDR0_DQ[48] DDR_DATA[50] DDR0_DQ[50] DDR_DATA[55] 128MB DDR_DATA[53] DDR0_DQ[55] 33 DDR0_DQ[62] DDR_DATA[60] DDR0_DQ[60] DDR_DATA[57] 128MB DDR_DATA[59] DDR0_DQ[57] DDR0_DQ[3] R3136 R3137 DDR0_ADDR[4] DDR0_DQ[14] B11 DDR0_DQ[15] C11 DDR0_DATA13 DDR0_BA0 DDR0_DATA14 DDR0_BA1 DDR0_DQ[18] D14 DDR0_DQ[19] E14 DDR0_DQ[20] E15 DDR0_DQ[21] B14 DDR0_DQ[22] F14 DDR0_DQ[23] C14 DDR0_DQ[24] E16 DDR0_DQ[25] B16 DDR0_DQ[26] G16 AR309 33 DDR0_DATA15 DDR0_DM0 DDR0_DATA16 DDR0_DM1 DDR0_DATA17 DDR0_DM2 DDR0_DATA18 DDR0_DM3 DDR0_DATA19 DDR0_DM4 DDR0_DATA20 DDR0_DM5 DDR0_DATA21 DDR0_DM6 DDR0_DATA22 DDR0_DM7 DDR0_DATA23 DDR0_DQS0 DDR0_DATA24 DDR0_DQS1 DDR0_DATA25 DDR0_DQS2 DDR0_DATA26 DDR0_DQS3 DDR0_DATA27 DDR0_DQS4 DDR0_DQ[29] D16 DDR0_DATA28 DDR0_DQS5 DDR0_DQ[30] B15 DDR0_DQ[31] D15 DDR0_DATA29 DDR0_DQS6 DDR0_DATA30 DDR0_DQS7 DDR0_DATA31 DDR0_RAS DDR0_DQ[32] B20 DDR0_DQ[33] F20 DDR0_DATA32 DDR0_CAS DDR0_DQ[34] D20 DDR0_DATA33 DDR0_WE DDR0_DQ[35] F21 DDR0_DQ[36] C21 DDR0_DATA34 EXT_DDR0_CLK DDR0_DATA35 DDR0_CLK0 DDR0_DATA36 DDR0_CLK0B DDR0_DQ[37] B21 DDR0_DQ[38] E21 DDR0_DQ[39] E20 DDR0_DQ[40] F23 DDR0_DATA37 DDR0_CLK1 DDR0_DATA38 DDR0_CLK1B DDR0_DATA39 DDR0_CKE DDR0_DATA40 DDR0_CSB0 DDR0_DATA41 DDR0_VREF0 DDR0_DATA42 DDR0_VREF1 DDR0_DATA43 DDR0_BVDD1P2_0 DDR0_DATA44 DDR0_BVDD1P2_1 DDR0_DATA45 DDR0_BVSS_0 DDR0_DATA46 DDR0_BVSS_1 DDR0_DATA47 DDR0_PLL_AIO DDR0_DQ[47] D21 DDR0_DQ[48] B24 DDR0_DQ[49] E24 DDR0_DATA48 DDR0_VDDO2P5_1 DDR0_DQ[50] C24 DDR0_DQ[51] G25 DDR0_DQ[52] C25 DDR0_DQ[53] D24 DDR0_DATA49 DDR0_VDDO2P5_2 DDR0_DATA50 DDR0_VDDO2P5_3 DDR0_DATA51 DDR0_VDDO2P5_4 DDR0_DATA52 DDR0_VDDO2P5_5 DDR0_DATA53 DDR0_VDDO2P5_6 DDR0_DATA54 DDR0_VDDO2P5_7 DDR0_DQ[54] F25 DDR0_DQ[55] B25 DDR0_DQ[8] DDR0_DQ[56] D27 DDR0_DATA55 DDR0_DQ[57] B27 DDR0_DQ[58] C28 DDR0_DATA56 DDR0_VDDO2P5_9 DDR0_DATA57 DDR0_VDDO2P5_10 DDR0_DATA58 DDR0_VDDO2P5_11 DDR0_DATA59 DDR0_VDDO2P5_12 DDR_DATA[22] DDR0_DQ[13] AR310 33 AR311 33 DDR0_DQ[22] DDR0_DATA60 DDR0_VDDO2P5_13 DDR_DATA[19] DDR0_DQ[19] DDR0_DATA61 DDR0_VDDO2P5_14 DDR0_DATA62 DDR0_VDDO2P5_15 DDR0_DATA63 DDR0_VDDO2P5_16 DDR_DATA[17] DDR0_DQ[17] DDR_DATA[26] DDR0_DQ[26] DDR_DATA[24] DDR0_DQ[24] DDR0_DQ[59] B28 DDR0_DQ[60] C26 DDR0_DQ[61] C27 DDR0_DQ[62] D25 DDR0_DQ[63] B26 DDR0_VDDO2P5_8 DDR0_VDDO2P5_17 DDR0_VDDO2P5_18 DDR0_DQ[29] AR312 33 AR313 33 DDR0_DQ[38] DDR0_VDDO2P5_19 DDR0_VDDO2P5_20 DDR0_VDDO2P5_21 DDR0_VDDO2P5_22 DDR_DATA[35] 128MB DDR_DATA[33] DDR0_DQ[35] DDR0_VDDO2P5_23 DDR0_DQ[33] DDR0_VDDO2P5_24 DDR_DATA[42] DDR0_DQ[42] DDR_DATA[40] DDR0_DQ[40] DDR_DATA[45] 128MB DDR0_DQ[45] DDR_DATA[54] AR314 33 AR315 33 DDR0_DQ[54] 300 300 DDR_DATA[51] 128MB DDR_DATA[49] C323 0. AA11. N25.3V F5 TP4087 IR-GND TP4084 JP4005 R2459 TP4066 0 JP4007 8 O TP4049 TP4039 R428 33K 2 EYEQ_SCL C450 5pF READY JP4006 ST_5V TP4086 +3.4:G5.1uF 16V DDR0_ADDR[6] DDR0_DQ[51] DDR_DATA[58] D2.3V BCM3553 JP2007 EBI_DATA[6] DQ6 47 3 TP1081 C239 10uF 6.4/DA3 P18 GND_56 LVDS_TX_AVDDC1P2 HD_DVI_12 AK8 AD28 HD_DVI_11 Y27 U32 TP1134 G9 EBI_DATA[15] PCI_AD11 AG3 R217 4.5:E7 SCL1_5V EBI_ADDR[13] A16 C234 0.01uF 25V C342 1000pF 50V J20 DDR_DATA[29] 75 R3175 DDR_DATA[30] 75 R3165 C343 0. L15.3V50V 4:J3. P10.7K R194 A32 B34 Y9 HSX_CLK K5 A15 TP1088 IC102 CAT24C08WI-GT R193 GND_115 DVO_0_13 TP1037 64MB R102 4. N10.3V) 2 C423 0. L11.7K DVO_14 AD33 AC31 EBI_WEb1 J2 R2112 OPT AC27 R2113 0 AC28 P31 NAND_PB N7 GPIO_49 PCI_REQ1 GPIO_50 PCI_REQ2 GPIO_51 PCI_RST GPIO_52 PCI_SERR GPIO_53 PCI_STOP GPIO_54 PCI_TRDY GPIO_55 PCI_VIO_0 GPIO_56 PCI_VIO_1 GPIO_57 PCI_VIO_2 GPIO_58 EBI_ADDR24 GPIO_59 EBI_ADDR25 GPIO_60 EBI_CS0 GPIO_61 EBI_CS1 GPIO_62 EBI_CS2 GPIO_63 EBI_CS3 SGPIO_00 EBI_CS4 SGPIO_01 EBI_DS SGPIO_02 EBI_RD SGPIO_03 EBI_RW SGPIO_04 EBI_TA2 SGPIO_05 EBI_TA SGPIO_06 EBI_TS SGPIO_07 TP1084 C206 4 .3VST_MICOM M5 R494 100 P5.5:C5 SCL3_3.7uF 6.3VST_MICOM AVCC IC406 C360 C3003 0 .1uF 16V 0 R200TP2016 P200 NC_5 54 3 +5.1uF 16V R12 50V 12pF C229 M34 GND_154 AM6 AC18 HD_DVI_2 D6 EBI_DATA[4] PCI_AD02 USB_DP1 C259 0.L1 DDR_DATA[0-63] 12 DDR_DATA[57] 66 1 AR352 10 DDR0_ADDR[0-12] 50V NC_2 56 DDR_DATA[23] AC9 C232 33pF 50V TP2041 JP2017 R400 0 EJTAG_RSTb 2:A5 50V LDQS 57 11 DQ1 VSSQ_1 DDR_DATA[19] AA34 AE26 DDR0_VTT 50V NC_1 VDDQ_3 L3 DDR0_DQS3 58 10 DDR_DATA[58] VDDQ_5 DQ11 AA26 AB9 R235 620 READY DDR_DATA[0-63] 50V DQ7 9 DQ0 VDDQ_1 DQ12 IN GND_32 H18 Y20 NAND_PB DDR0_DQ[0-63] D2.3V GND_53 AD2 L104 BLM18BD102SN1D L103 BLM18BD102SN1D EBI_DATA[12] GPIO_07 0 DDR1_DATA17 T22 6:E2.1uF 16V K26 U7 AF24 THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.01uF C393 0.1uF A7 EBI_DATA[9] N28 AL12 TP1072 DDR1_ADDR00 M19 L423 UBW2012-121F H12 AA20 LVDS_TX_0_DATA_1_P C130 0.1uF 16V C451 0. AP6.3V I1 25V DQ4 DDR0_DQS1 C225 0.1uF H18 GND_30 AM28 C108 0 .F4.7K R9930 I7 UCOM_TX GND R409 0 J15 G24 1:J8 BCM_TX TP4079 JK402 A9.1uF 16V 6Y A18 J13 16 16V TP4021 6A 13 3 2Y 3A R3146 A15 J12 Y0 Z1 VCC 14 2 2A 0.1uF GPIO_15 6:C7.01uF C376 25V LDQS 9 DDR0_DQ[2] DDR_DATA[7] 75 16V VDDQ_3 L4 DDR0_DQS7 L3 DDR0_DQS2 VSS_2 OC1 8 3 45 23 VSSQ_3 59 DDR0_ADDR[11] DDR_DATA[2] DDR_DATA[3] DDR0_ADDR[0] 0. L10. 0 1 u F C357 2.01uF 25V G17 F17 DDR0_ADDR11 E17 DDR0_ADDR12 C349 0.3V_BCM AA16 CHIP2POD_MDO3 K3 RST_OUTb RESET# C241 47uF 25V 4 GND_128 DVO_0_VSYNC TP1054 TP1100 M32 AG30 54MHz_XTAL_N H6 EBI_DATA[4] DQ4 44 13 JP2009 5 GND_21 F8 H31 AA15 CHIP2POD_MDO2 2:C4 K2 TP1099 JP2008 TP1077 EBI_ADDR[1] GND_127 F33 DVO_0_HSYNC K6 EBI_WEb1 C201 0 .1uF 16V N14 4 H24 GND_33 A1.7K R195 GND_9 B30 DVO_0_14 HSX_DATA C123 0. E34.7K GND_7 DVO_0_9 EBI_ADDR23/PCI_DEVSELb G6 E2 READY R100 4. 2.7K GND_114 DVO_0_11 NC_1 TP1086 EBI_ADDR16/PCI_CBE0 F3 READY R106 2. K15.7K USB_AVDD1P2 AB2 1uF GND_40 AC3 VDAC_0 IC100 BCM3553 LVDS_TX_OUT_PINPORT_TB0+_TO_TXA4- D4 16V DDR1_DATA01 R3 470pF GND_146 LVDS_TX_1_DATA_2_P B4 BCM_RESET DDR1_DATA00 N20 N21 READY GND_39 AN26 TP1146 AB34 LVDS_TX_1_DATA_2_N VDAC_RBIAS C124 0.6V_BCM AA32 PCI_AD04 USB_MONPLLCDR RESET OPTAF2 JP2002 AM8 DDR1_DATA12 TP2027 JP2001 AH11 USB_MONCDR W5 R220 604 N34 GND_49 AN5 AC20 HD_DVI_4 LVDS_TX_OUT_PINPORT_TBC+_TO_TXAC- A6 EBI_DATA[6] EBI_DATA[7] LVDS_TX_OUT_PINPORT_TBC-_TO_TXAC+ C2 AA31 GPIO_03 R246 READY K34 0 TP2025 AD8 DDR1_DATA11 P22 R22 R423 47K N8 GND_155 LVDS_TX_AVSS_1 LVDS_TX_OUT_PINPORT_TAC+_TO_TXBC- C3 EBI_DATA[5] PCI_AD03 AN12 USB_DP2 P13 R13 W4 DDR1_DATA10 P12 C261 10uF 6.01uF 25V V5 OPT C417 J9 GND_141 LVDS_TX_1_DATA_0_P VDAC_AVSS2 D5 NC_2 D3.3V AD5 AE3 4:K9 SDA3_3. K25.4:G5. 7 u F 0 .7uF 6.1uF C3009 C304 2700pF 50V TP2034 AF26 D3. AC11.7uF H15 GND_135 AB1 TP1110 20 22 A4 EBI_ADDR[5] TP1109 LVDS_TX_OUT_PINPORT_TA0+_TO_TXB4- D7 EBI_ADDR[6] A5 TP1108 LVDS_TX_OUT_PINPORT_TA0-_TO_TXB4+ C7 A6 TP1070 CLK54_AVDD1P2 U2 0. L21.1uF DVO_0_28 5 EBI_ADDR[11] 6 C237 0.1uF GND_28 H14 AA21 LVDS_TX_0_DATA_2_N 16V EBI_ADDR[7] EBI_DATA[1] 16V 16V TP1071 DDR1_ADDR01 M20 0 GND_134 CHIP2POD_MOSTRT C132 16V 0.3V_BCM C303 0. AD21.3 GND_83 AG14 R27 GPIO_39 G32 U9 DDR1_VDDO2P5_7 VDDC_23 P6.2/INT0 8 P3.01uF 25V GND_6 A28 TP4103 P20 GND_57 AH9 AE7 C111 HD_DVI_13 U33 EBI_ADDR[2] PCI_AD12 AG2 DDR1_DATA24 TMODE_3 C266 1000pF 50V VDDC_6 P1. 7 u F C205 0 . AP1. J1.1uF 4 .1uF 16V P1.1uF R3117 R3105 300 300 C2603 0. AP12.4:G5.7uF 6.7uF 6. L17. 1 u F 0 .F4.1uF C263 0.1uF GND_123 P4. L13.3V DDR0_VTT DDR_DATA[0-63] 200 R3000 VDD_1 TP2035 M28 AF33 GND_137 Y15 D3.4 TP4096 TP4029 DDC_SDA IR_FINAL F3 R433 R435 L419 R2447 0 R2448 0 TP4072 ST_5V G2 UBW2012-121F 16V TP4083 LED_G TP4031 Led_Non_Breating 3.6V_BCM A1. W24.3V AA4 R424 47K N1 GND_48 AP5 AC19 LVDS_TX_1_CLK_P HD_DVI_3 LVDS_TX_OUT_PINPORT_TAC-TO_TXBC+ E6 AB33 GPIO_02 DDR1_DATA09 C260 0.1uF GND_98 GND_205 GND_99 GND_206 GND_100 GND_207 GND_101 GND_208 GND_102 GND_209 GND_103 GND_210 GND_104 GND_211 GND_105 GND_212 GND_106 GND_213 TP2011 7 C274 0.01uF C395 UDQS IC303 HY5DU561622FTP-D43-C 200 R3001 DQ0 VDDQ_1 1 DDR0_DQ[14] DDR_DATA[12] NC_7 D2.1uF C3010 DQ5 DDR_DATA[30] 6 DDR_DATA[59] VSSQ_5 DQ13 +5. K17.3V C203 2 GND_23 F27 AA17 EBI_ADDR22/PCI_STOPb G8 14 M31 C204 3 GND_129 LVDS_TX_0_DATA_0_N CHIP2POD_MDO4 J2 A21 TP1101 R2152 TP11032.7K R197 GND_12 C4 J29 Y17 DVO_0_20 8 0 GND_118 DVO_0_19 TP1042 G1 1 TP1091 VCC R2101 GND_11 K27 A2. K11.1uF C366 75 75 DDR_DATA[26] 75 DDR_DATA[27] 75 R404 0 TP4011 BCM_RESET 2:C4 Serial Port GND 12 4 11 5 10 6 9 7 8 A27 F9 J11 D2. A17. Y10. AE15.3V DDR1_ADDR02 M21 4. AF34.2V_BCM 1K R219 GND_131 HDMI_HDCP KEY MEMORY J3 TP1074 EBI_DATA[10] DQ10 AH33 TP2003 C125 0.01uF 25V GND_107 GND_214 3 6 4 5 VDDO_3 R20 VDDO_4 R21 VDDO_5 R26 VDDO_6 T1 VDDO_7 T8 VDDO_8 T14 VDDO_9 T15 VDDO_10 T16 VDDO_11 T17 VDDO_12 T18 VDDO_13 T19 VDDO_14 T20 VDDO_15 T21 VDDO_16 T26 VDDO_17 T34 VDDO_18 U8 VDDO_19 U14 VDDO_20 U15 VDDO_21 U16 VDDO_22 U17 VDDO_23 U18 VDDO_24 U19 VDDO_25 U20 VDDO_26 U21 VDDP_1 V14 VDDP_2 V15 VDDP_3 V16 VDDP_4 V17 VDDP_5 V18 AGC_VDDO1 V20 W14 A1. FILRE AND ELECTRICAL SHOCK HAZARDS.5:C5 SDA2_3.3V_BCM D1. AC24.0V TP1031 K8 2. A2. 7 u F 6.7K R2162 GND_125 H27 POD2CHIP_MIVAL TP1130 EBI_ADDR[10] EBI_DATA[7] DQ7 1 JP2006 TP1083 R2147 2.4/T0 10 I S C L / P 7 . U11.3V 4:K9 C3 USB_DP1 TP2040 JP2016 DDR0_VTT ZD204 READY A1 DDR0_ADDR[3] DDR0_ADDR[2] DDR0_ADDR[1] DDR0_ADDR[0] DDR0_ADDR[10] A2 A3 VDD_3 44 24 43 25 42 26 41 27 40 28 39 29 38 30 37 31 36 32 35 33 34 C312 0.01uF 25V 128MB DDR_DATA[27] 66 1 AB4 +3. L12. AP21. D2.3V C103 0. 1 u F 0 .1uF C3004 C310 2700pF 50V 128MB DDR_DATA[25] 2 16V 16V U26 BCM_RX 4 : E 1 AE32 16V 0. W15 E3. AB11.1uF IC101 S29GL128N90TFIR10 DVO_2 OB_AGC 4.01uF 25V J24 C345 1000pF 50V J25 C346 0.1 GND_192 V31 PCI_GNT2 22 DDR1_BVDD1P2_1 DDR1_VDDO2P5_10 GND_131 35 GND_85 J2 J2 AG17 R29 GPIO_41 TP1128 R2127 DDR1_VDDO2P5_9 GND_24 H10 36 GND_191 AG16 R31 PCI_GNT1 G31 HDMI_SEL_0 DDR1_BVDD1P2_0 VDDC_24 21 GND_84 TP1003 EBI_ADDR21/PCI_IRDYb GPIO_40 22 W9 6:F4 DDR1_VDDO2P5_8 GND_130 20 GND_190 TP1002 AG15 PCI_GNT0 R2126 V9 +5. Only for training and service purposes IC408 MC14053BDR2G 0ISTL00024A DDR0_ADDR10 DDR0_BA_0 DDR0_BA_1 DDR0_DQM0 DDR0_DQM1 F11 G11 F15 G15 E22 F22 F26 R3066 75 R3067 75 DDR_DATA[25] R3072 75 75 128MB 75 128MB R3073 75 DDR0_DQM4 DDR0_DQM5 DDR0_DQS5 DDR0_DQS6 DDR0_DQS7 DDR0_RASb DDR0_CASb DDR0_WEb R3210 22 DDR0_CLK0b_L302 R3211 22 R3212 22128MB 2 DDR0_CLK0 3 L302 1 R3213 128MB 4 ACM2012-361-2P-T-002 2 128MB 22 L301 R3057 22 B8 1 DDR0_CLK0b DDR0_CLK1 3 DDR0_CLK1bDDR0_REF 4 ACM2012-361-2P-T-002 DDR0_CKE C4. K12.3VST_MICOM C429 100uF 16V TP4107 33 VSYNC/P1.3V T2 1uF L5 GND_142 LVDS_TX_1_DATA_1_N VDAC_AVSS3 NC_3 31 27 BYP_XTAL_EN C249 0. L34.33uF 16V DDR0_REF 10 DDR0_DQ[5] R401 330 TP4002 25V NC_2 58 DDR0_DQ[7] DDR_DATA[5] R3202 0. 0 1 u F 1000pF 25V 50V C350 0. AD15.1uF C3013 /CAS 52 VDDQ_2 DQ9 AE9 R233 22 C290 0.3V R14 GND_165 EBI_ADDR[3] C126 GPIO_13 C33 TP1116 AF6 AF5 A1. AD10. 1 u F LVDS_TX_0_DATA_4_P EBI_ADDR[2] CE# AP14 U3 7A H22 GND_32 AB15 VDAC_AVDD3P3_2 TP1112 0.2V_BCM M6 B30 42 GND_169 AE29 T31 GPIO_17 PCI_AD18 HDMI_POWER_2 HDMI_HPD_0 W13 GND_116 15 GND_62 HD_DVI_DE AK11 EBI_ADDR[5] PCI_AD17 R2121 TP1117 W12 VDDC_9 GND_9 X1 GND_168 6. H34.7 R412 47K TP4090 A 470pF C387 R3168 J16 DDR0_VTT D3 DDR0_DQM_7 R413 47K 2.L4 K3 DDR0_DQM2 THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. R25.1uF C270 0. 1 u F TP1141AN27 16V LVDS_TX_OUT_PINPORT_TA4+_TO_TXB0- 1:J2 DDR1_BA0 USB_DM2 AM14 0 DDR1_ADDR12 BYP_SYS216_CLK N13 V7 5 GND_144 C107 0.2V_BCM L211 T4 AG33 AG34 VDDC_27 GND_27 W20 R451 0 READY GND_195 N7 +5.1uF READY AB20 29 USB_PWRON1 BYP_SYS175_CLK N12 N18 7B GND_37 AB19 VIO D9 DDR1_ADDR11 M23 C252 0. WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.3V for Power Sequence(BCM 1.1uF D34 VDD GND_73 T14 N1 AA33 PCI_AD29 M8 C211 DDR1_DQS3 C287 0.3V_BCM G8 A18 TP1104 AG32 A3. K13. L23. A29.7uH GND 16V 0.3V_BCM 16V 0.3V J18 J19 C340 0.7K HSCL1/P3. AD20.3V_BCM G9 EBI_RDb TP1067 AK14 V3 6A H21 GND_138 AL27 LVDS_TX_0_DATA_4_N LVDS_TX_OUT_PINPORT_TA2-_TO_TXB3+ TP2021 50V VSS_1 33 25 TP1068 AK15 USB_DM1 B8 B8 USB_DP1 R243 0 READY R244 0 READY DDR1_ADDR06 USB_AVSS1 AK13 R206 3.6V_BCM DQ15 16V L204 MBW3216-501TF AE2 A3.7K GND_14 POD2CHIP_MDI2 A2 7 4. W25.3VST_MICOM R2409 TP4108 TP4127 R496 22 TP4048 C434 0. 3.G7 A1.5 HSDA1/P3. AB24. U24.7 VCC C358 100uF 16V TP4111 INV_ON/OFF TP4128 3.1uF 16V R3208 R3201 R3190 KIA7029AF R410 0 I P404 100 SCL_EYEQ R2450 EYEQ 0 P403 2 SDA_EYEQ GND IR_08P_only_26INCH 4 Key2 5 2 6 GND TP4065 KEY_1 R2458 0 7 4 TP4074 KEY_2 IR 9 10 C452 0.6V_BCM GND_111 A22 HSCL2/P7.2V_BCM GND_15 D10 P6.1uF 16V GND 1000pF C373 R3167 470pF C374 R3174 DDR_DATA[13] 75 75 DDR_DATA[14] 75 R3197 R3186 470pF C375 R3159 DDR_DATA[21] 75 DDR_DATA[22] 75 R3158 DDR_DATA[23] 75 R3160 J17 DDR_DATA[28] 75 C339 10uF 6.1uF 16V R2461 0 LED_R TP4073 R2462 TP4076 0 7:L8 R430 4. AE20.01uF 25V GND_21 F24 W19 R464 U16 GND_186 V33 GPIO_35 PCI_CLK_IN R2117 22 C215 0. L14.1uF DVO_0_CLK_POS CHIP2POD_MDO0 F34 AA9 CHIP2POD_MCLKO J8 48 11 A20 TP1098 49 9 10 A19 TP1097 8 EBI_DATA[14] DQ14 R203 1.F1.4 GND_193 EBI_ADDR20/PCI_PAR AG18 PCI_INT_A0 DDR1_BVSS_1 GND_132 R466 0 GND_86 Y29 GPIO_42 DDR1_VDDO2P5_11 GND_25 R17 G34 0 T5 6:F4 HDMI_SEL_1 E29 DDR1_BVSS_0 VDDC_25 P5. FILRE AND ELECTRICAL SHOCK HAZARDS. WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. AP34 GND R231 OPT TP2045 W8 =========== ========== CUTTING PIN LIST =========== ========== OUT2 OC2 R19 W1 C276 4. FILRE AND ELECTRICAL SHOCK HAZARDS.1uF HD_DVI_CLK_N T32 PCI_AD14 0 DDR1_DATA27 U23 GND_7 SCL3_3. 0 1 u FAK26 AJ27 LVDS_TX_OUT_PINPORT_TA2+_TO_TXB3- B5 TP1066 AL14 TP2023 VCXO_AGND1 C245 0.1uF 16V UDM /CK 128MB DDR0_ADDR[1] DDR0_CLK1b DDR0_CLK1 DDR0_CSBb DDR0_CKE NC_5 A12 2 65 3 64 4 63 5 62 6 61 7 60 8 59 9 58 57 10 11 56 12 55 13 54 53 14 15 52 16 51 17 50 18 49 19 48 47 20 21 46 22 45 23 44 24 43 25 42 26 41 27 40 28 39 29 38 30 37 31 36 32 35 33 34 DDR_DATA[0] DDR_DATA[43] DQ14 DDR_DATA[1] DDR_DATA[42] DQ13 DDR_DATA[2] DDR_DATA[41] DQ15 DQ1 DQ2 VSSQ_1 VDDQ_5 DQ12 DQ0 VDDQ_1 VSSQ_5 DDR_DATA[40] DDR_DATA[3] DQ3 DDR_DATA[7] DDR_DATA[44] DQ10 DDR_DATA[6] DDR_DATA[45] DQ5 DQ9 DDR_DATA[5] DDR_DATA[46] DQ6 DQ11 VSSQ_2 VDDQ_4 DQ8 DQ4 VDDQ_2 VSSQ_4 DDR_DATA[47] DDR_DATA[4] DQ7 NC_1 NC_7 VSSQ_3 L4 DDR0_DQS5 L3 DDR0_DQS0 UDQS VDDQ_3 LDQS NC_2 NC_6 DDR0_REF VDD_2 VREF VSS_2 UDM /CK C316 C317 0.L4 R3007 33 12 +5.3V_BCM 22 R2130 J30 J32 +5.3V_BCM AJ13 AK28 AK30 AL20 AN30 AN33 DVO_1 AN34 DVO_2 AP10 DVO_3 M3 TP1147 AD32 AC30 TP1023 AD34 TP1024 AC29 TP1025 AB28 EBI_RDb AB27 TP1026 TP1148 AB29 TP1029 TP1149 N7 AB30 EBI_TA N32 TP1176 READY R105 2.1uF C3012 DDR0_CASb 16 DDR_DATA[22] 63 DDR_DATA[0] DDR_DATA[48] DDR0_BA_1 DDR_DATA[0] 16V 0.7K R199 C29 J27 Y19 DVO_0_22 J5 2 OPT GND_120 POD2CHIP_MDI1 TP1044 G2 TP1096 WP 4.1uF C3014 DDR0_WEb 53 15 DQ4 VSSQ_4 DQ10 AD9 USB_PWRON1 ZD207 READY GND_139 Y21 D3. K20. K23. U25. C300 100uF 16V K9 TP1017 AN25 GND_136 TP4125 V14 GND_92 J3 PCI_REQ0 EBI_TA G9 VDDC_29 GND_29 Y8 47K R491 V8 GND_198 AG25 T30 GPIO_48 I8 H14 W34 47K R492 GND_91 U21 AG24 PCI_REQ2 PCI_PERR TP1013 AP25 PCI_REQ2 GND_135 R2421 750 GND_197 N7 T28 GPIO_47 TP1011 K33 I8 VDDC_28 GND_28 W26 Power_CTL_1.047uF 25V C330 2700pF 50V C331 470pF 50V DDR0_DQ[58] DDR_DATA[56] DDR0_DQ[56] DDR_DATA[61] 128MB DDR0_DQ[61] AF14 AF25 GND_33 GND_140 H19 VDDC_34 GND_34 GND_141 H20 VDDC_35 GND_35 GND_142 H21 VDDC_36 GND_36 GND_143 H22 VDDC_37 GND_37 GND_144 H23 VDDC_38 GND_38 GND_145 H24 VDDC_39 GND_39 GND_146 H25 VDDC_40 GND_40 GND_147 H26 VDDC_41 GND_41 GND_148 J9 VDDC_42 GND_42 GND_149 J10 VDDC_43 GND_43 GND_150 L5 VDDC_44 GND_44 GND_151 L7 VDDC_45 GND_45 GND_152 L26 VDDC_46 GND_46 GND_153 M8 VDDC_47 GND_47 GND_154 M26 VDDC_48 GND_48 GND_155 M34 VDDC_49 GND_49 GND_156 N1 VDDC_50 GND_50 GND_157 N8 VDDC_51 GND_51 GND_158 N34 VDDC_52 GND_52 GND_159 P8 VDDC_53 GND_53 GND_160 P14 VDDC_54 GND_54 GND_161 P15 VDDC_55 GND_55 GND_162 P16 VDDC_56 GND_56 GND_163 P17 VDDC_57 GND_57 GND_164 P18 VDDC_58 GND_58 GND_165 P19 VDDC_59 GND_59 GND_166 P20 VDDC_60 GND_60 GND_167 P21 VDDC_61 GND_61 GND_168 R8 VDDC_62 GND_62 GND_169 R14 VDDC_63 GND_63 GND_170 R15 VDDC_64 GND_64 GND_171 R16 GND_65 GND_172 GND_66 GND_173 GND_67 GND_174 GND_68 GND_175 GND_69 GND_176 GND_70 GND_177 GND_71 GND_178 GND_72 GND_179 GND_73 GND_180 GND_74 GND_181 GND_75 GND_182 GND_76 GND_183 GND_77 GND_184 GND_78 GND_185 GND_79 GND_186 GND_80 GND_187 GND_81 GND_188 GND_82 GND_189 GND_83 GND_190 GND_84 GND_191 GND_85 GND_192 GND_86 GND_193 GND_87 GND_194 GND_88 GND_195 GND_89 GND_196 GND_90 GND_197 GND_91 GND_198 GND_92 GND_199 GND_93 GND_200 +3. N11.1uF Z0 INH 5A VEE 5Y VSS 4A 1000pF C368 1000pF C369 R3204 1000pF C370 0.047uF 25V 25V DQ1 K1 P26 A3.6V_BCM 200 R3003 DDR_DATA[31] 59 C2 USB_POWER_OUT_1 TP2043 VDDC_32 Y19 EBI_WE1 50V VSSQ_2 60 8 C277 10uF 16V GND_138 Y18 EBI_WE0 50V DQ6 61 7 DDR_DATA[16] DDR_DATA[18] GND GND_31 H17 Y17 EBI_TSIZE1 16V 0.7uF 6.1uF T33 PCI_AD15 HDMI_POWER_1 EJTAG_CE N2 A31 VDDC_8 X2 GND_166 EBI_ADDR[4] GPIO_14 R2114 DDR1_DATA29 V13 P6 DDR1_DATA28 EJTAG_TMS V12 C298 0.4:G5.2V_BCM L100 BLM18BD102SN1D A1 32 G8 EBI_CSb0 AN14 READY R207 R208 DDR1_ADDR07 C244 0.1uF 16V USB_PWRFLT1 C275 0. AP9. AE21.01uF C380 TP4081 UCOM_RX I7 1 5 4 25V SW400 TMUE312GAB 25V 16V 16V 1 3Y R3181 128MB DDR0_DQS4 33 128MB 33 AR356 22128MB 33 1/16W D28 1A TP4016 Y1 BCM_RX 1:J8 D3.3/DA2 P19 GND_163 EBI_ADDR[1-15] EBI_ADDR[1] GPIO_11 AF3 TMODE_2 C265 4.6V_BCM C301 0. R10. AP30.01uF C384 TP4008 0.1uF 16V GND_12 C8 F8 R20 GND_66 EBI_ADDR[9] GPIO_21 R2123 M33 DDR1_DM2 C295 0. AG1.3V R419 0 GND TP4020 ZD403 R416 0 DIN2 10 JP4002 D402 SDC15 A1 C C A2 ROUT2 R417 0 5 50V 220pF D401 SDC15 A1 GND IC404 A2 KCN-DS-1-0088 ST_5V 3.7K R2140 AK29 TP1145 OB_ADCAV1P2 H7 4.3V U6 B_TERMINAL1 H25 GND_140 LVDS_TX_1_DATA_0_N VDAC_AVSS1 C109 AK27 0 . AE22.0V GND DDR_DATA[62] 128MB75 R3173 DDR_DATA[61] 128MB75 R3157 DDR_DATA[60] 128MB75 R3154 DDR_DATA[56] 128MB75 R3155 DDR_DATA[5] 75 DDR_DATA[6] 75 R3164 75 V+ TP4005 1 F4.5 GND GND OPTION FOR LED R423: For 32~52Inch R424: For 26Inch KEY1 C448 0.4 GND_54 AD3 HD_DVI_9 TP1135 E8 EBI_DATA[13] GPIO_08 PCI_AD09 HDMI_POWER_0 DDR1_DATA18 T23 GND_110 A19 1:L9 GND_160 AM7 A7 AA28 PCI_AD08 G27 R2120 RESET_OUT W6 GND_109 VDDC_3 GND_3 SDA3_3. 0 1 u F1uF 10V 50V WP SCL R446 22 IR-GND TP4104 TP4061 R499 TP4114 TP4116 8 1 7 2 6 3 SDA 5 4 A1 A2 R2403 100 X400 24MHz C435 22pF 50V R2404 100 C436 22pF 50V TP4109 R2405 100 R493 68K /W_PROTECT R2400 TP4052 100 TP4124 TP4119 R2408 4. K18. K24.1uF R241 120 A3. AE11.1uF 16V GND C443 0. P11.1uF C364 R3191 DDR0_DQS1 128MB DDR0_DQS0 128MB 33 D9 R3180 R3156 DDR_DATA[32] 128MB 75 R3172 DDR_DATA[33] 128MB 75 R3162 DDR_DATA[34] 128MB 75 DDR_DATA[35] R3183 128MB 75 R3205 DDR_DATA[36] 75 128MB 33 F19 75 DDR_DATA[20] 75 G26 F18 75 DDR_DATA[19] 75 G20 C23 DDR_DATA[18] R3070 R3071 G19 D23 75 DDR_DATA[31] DDR0_CSBb D13 DDR_DATA[17] R3069 DDR0_DQM3 E19 C13 R3179 75 R3068 DDR0_DQM2 DDR0_DQM6 R3049 DDR0_DQM7 E11 33 F12 R3050 33 G14 R3051 33 E25 R3055 E26 R3056 R3195 75 DDR_DATA[16] DDR_DATA[24] D26 F16 R3052 G21 R3053 G22 R3054 75 DDR_DATA[11] O TP4075 NVRAM ST_5V L416 BG2012B800 R3150 C20 D19 DDR0_VTT DDR0_ADDR[12] DDR_DATA[10] 0.01uF C382 C403 0.7K R2145 AP33 DVO_0_4 OB_PLLAVDD1P2 4.6V_BCM 66 1 0.0V J31 H33 H32 L28 L27 AD29 AE31 AE30 AD6 8:E6 SDA0_5V R225 0 R226 0 8:E6 H2.3VST_MICOM AZ1117H-3.33uF 16V 22 NC_7 60 8 DDR_DATA[50] 300 300 75 R3194 25V 46 21 DQ7 NC_1 7 DQ13 R3104 R3116 DDR0_BA1 DDR_DATA[2] 25V 47 AF13 GND A0 48 20 AF12 50V A10/AP 19 DDR_DATA[63] DDR_DATA[20] NC_6 R228 2.2V_BCM D1. AA25. A34.01uF 25V AA5 X200 54MHz M26 GND_47 AL6 AC17 LVDS_TX_1_CLK_N LVDS_TX_OUT_PINPORT_TB4+_TO_TXA0- AB32 AN13 JP2000 AJ10 DDR1_DATA08 C258 1000pF 50V P23 50V 12pF C230 GND_153 GND_46 M8 AC16 HD_DVI_1 F5 EBI_DATA[3] GPIO_01 USB_DM1 C257 4.3V 16V 0.7K C444 0. U10.1uF 16V M14 TP1082 R2148 2. AD11.1uF 16V C422 47uF 16V 3. V25.F1. L22.1uF C292 0.01uF C377 1 25V DDR0_DQ[13] G12 DDR0_DATA12 DDR0_VTT DDR0_ADDR[0-12] D2. K22. 1 u F 0.01uF C392 0. AP27.L1 DDR_DATA[0-63] 25V DDR_DATA[24] 64 C2 54MHz_XTAL_P AB26 IC201 TPS2052BDRG4 AE1 2 C311 470pF 50V 25V DQ2 VSSQ_1 65 3 V26 V34 BCM_TX 4:G2 AC6 16V 0.7K R2146 C31 W18 DVO_0_6 PKT0_CLK B33 BCM3552 A10 OB_I_N DVO_0_10 A33 IC100-*1 BCM3552XKFEB5G DVO_0_5 4.6V. T24. 1 u F C202 0 . V24.1uF C3015 /WE 14 DQ3 DDR_DATA[60] 64 4 DQ15 DDR0_BA_0 K3 DDR0_BA_1 DDR0_BA0 16V 0. F1.1uF C3016 LDM A5. AB10.3V T_TERMINAL2 GND_149 LVDS_TX_1_DATA_4_N EBI_DATA[0] LVDS_TX_OUT_PINPORT_TB2+_TO_TXA3- USB_AVDD2P5 AB3 8 GND_42 VDAC_2 LVDS_TX_OUT_PINPORT_TB2-_TO_TXA3+ B3 AH14 D3.2V_BCM 4.7K R2159 GND_123 POD2CHIP_MDI6 VSS H4 R2151 22 A12 53 4 C236 1000pF 50V M13 EBI_ADDR17/PCI_CBE1 R2153 BYTE# 4.7K R442 4.5:E7 SDA1_5V A9 50 4. 7 u F AB8 VDAC_BGVDD2P5 C6 LVDS_TX_OUT_PINPORT_TA1+_TO_TXB2- A2 35 DQ8 DDR1_ADDR03 CLK54_AVSS M22 E_SPRING H17 GND_136 LVDS_TX_0_DATA_3_N B6 A3 36 AG28 TP2020 CLK54_AVDD2P5 V2 C227 H16 GND_29 AB6 LVDS_TX_0_DATA_2_P CHIP3POD_MOVAL TP1142 TP1143 AL26 LVDS_TX_OUT_PINPORT_TA1-_TO_TXB2+ E7 EBI_ADDR[4] 37 21 AF28 AL13 6.1uF 16V 4. V11. P25.L1 EN2 IC401 74LVC14APW 25V 55 DDR_DATA[14] DDR0_DQ[4] R3138 75 AR353 10 C19 25V 12 DDR_DATA[15] R3141 33 DDR0_DQ[15] DDR0_ADDR00 16V 56 33 DDR0_DATA00 IC400 TP4009 C407 0.1uF C365 16V 8. AA1.5:E7 SDA1_5V H2. R1. AE24. All right reserved.3 INPUT 3 GND L406 MBW3216-501TF R452 100 C424 47uF 16V EYEQ_SDA C425 0. A8.1uF C208 4:A1 C273 47uF 25V VDDC_13 16 R26 GND_67 AF7 V30 EBI_ADDR[10] GPIO_22 HDMI_HPD_2 AL9 EJTAG_RSTb C297 0. WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. 1 u F C279 0. AP18.7K R2158 0 R179 C101 16V D3.3VST_MICOM GND AT24C16AN-10SI-2.1uF 16V TP1038 4.H1 DDR_DATA[0-63] 200 R3002 DQ0 VDDQ_1 DDR_DATA[26] L3 C231 33pF 50V READY Board Configurtion 16V 0.01uF 25V DDR_DATA[37] 128MB75 DDR_DATA[38] 128MB75 DDR_DATA[39] 128MB75 DDR_DATA[53] 128MB75 DDR_DATA[54] 128MB75 DDR_DATA[55] 128MB75 C351 1000pF 50V IR_FINAL JK400 R3005 33 A8 K3 DDR0_DQM_1 DDR0_DQM6 R3043 75 R3017 33 RxD 6 TxD 7 K3 DDR0_DQM3 R3006 33 R3004 33 C353 100uF 16V ROUT1 R406 0 DIN1 R407 0 G1 RXD TP4014 V_SENSE R3041 75 128MB VREF B3 DDR0_DQM_3 K3 DDR0_DQM5 C3 DDR0_DQM_2 K3 DDR0_DQM4 R3018 33 128MB R3019 33 R3042 75 D7 DDR0_DQM_5 C3001 C3002 C355 C356 0 . T25.2V_BCM KJA-UB-4-0004 JK202 GND_22 F24 F30 A3. AD24.2V_BCM L202 EJTAG_TDI U22 VDDC_7 F8 R8 GND_58 C114 HD_DVI_14 AJ11 AE8 C113 PCI_AD13 JP2004 DDR1_DATA26 C268 0.1uF C3006 C308 0. W10.F4.1uF C210 PLL_VAFE_AVDD1P2 N6 AB13 GND_16 39 GND_72 EBI_ADDR16/PCI_CBE0 EBI_ADDR[15] PCI_AD28 M8 BLM18BD102SN1D COMP2_SW 7:C7 AH18 DDR1_DQS2 AB12 VDDC_16 17 GND_178 J1 U30 GPIO_27 REV_SEL0 COMP1_SW 7:A7 PLL_OB_TESTOUT N5 GND_122 P4.3V IC100 BCM3553 IC100 BCM3553 0 R201 TJC2508-4A G7 TP1085 1K GND_16 D10 Y20 DVO_0_26 F2 L9.3 GND_161 AK9 LVDS_TX_AVDD2P5_2 J1 EBI_ADDR[1-15] AA30 GPIO_09 OPTAE6 TP2029 U13 P2 DDR1_DATA20 DDR1_DATA22 Y4 R7 DDR1_DATA19 TMODE_0 U12 R4 DDR1_DATA21 OPTAF1 Y2 VDDC_4 GND_4 HSDA2/P7.0V R28 GPIO_45 L30 H12 P5.1uF 16V C100 THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. AE19.1uF 16V TP4122 C432 OPT C431 0.E4. K19.1uF 16V IR_GND GND VTT R454 TP4047 TP4028 SDA1_5V IR_GND Key1 R3192 IC405 SCL1_5V R2451 22 R457 6. T11.2V. AK1.1uF LVDS_TX_OUT_PINPORT_TB0-_TO_TXA4+ R211 TP2026 4:C2 DDR1_BA1 D3.5K 2 C238 0.1uF NAND_PB G9 AL24 BCM3553_AUD_MCLK AL11 J5 J5 K8 AC7 AD4 REV_SEL0 REV_SEL1 REV_SEL2 G33 D33 RGB_SW 7:L7 REV_SEL2 M8 D3.1uF C4 TXD H7 IC402 TP4000 MAX3232CDR DDR_DATA[42]128MB75 R3163 DDR_DATA[43]128MB75 R3206 R3199 DDR_DATA[48] 128MB75 R3209 DDR_DATA[49] 128MB75 R3196 DDR_DATA[50] 128MB75 DDR_DATA[51]128MB75 R3184 R3185 DDR_DATA[52] 75 128MB R3152 J14 J23 RXD X ST_5V R3182 R3161 R3147 DDR_DATA[47] 128MB 75 DDR_DATA[12] A24 J22 C441 Y 14 EYEQ_SCL A21 J21 TP4078 0.01uF C386 RIN2 16 2 15 3 14 4 13 5 12 6 11 7 10 8 9 C408 0.3V JP4004 3 F5 C447 5pF R2449 EYEQ 0 READY JP4003 12505WS-08A00 3 3. A14. P24. DDR0_ADDR[9] DDR0_ADDR[11] 75 DDR_DATA[59] 128MB75 DDR_DATA[58] 128MB75 DDR_DATA[57]128MB75 R3013 75 C326 100uF 16V DDR0_ADDR09 B19DDR0_ADDR10 DDR0_DQ[49] R3012 75 C322 0.7uF HD_DVI_CLK_P AH12 AE28 016V . AD23. AB25.6V_BCM DDR1_CLK0B AC23 GND_126 P6.7/SOGI 3 RST 4 31 P5. AD22.3V470pF 50V 50V 4 .1uF GND_114 1:L9 R15 GND_59 AK10 AE27 0.01uF 50V TP4024 TP4019 8 RIN1 IR-GND IC304 SC2595STR F3 DDR0_DQM_6 DDR0_VTT R2440 100K 3 470pF C391 D2. A20. 76.7K A1.1uF RESET 16V 0.1uF JP4014 NC GND DDR0_REF 128MB C354 0.1/TXD PWM_LED G3 GND P4.1uF C361 C405 0.1uF 16V C328 0. W11.1uF 16V 128MB C321 0.6:L3 6:D2 A1.1uF 16V C218 H20 GND_31 AB14 VDAC_AVDD3P3_1 EBI_ADDR[3] EBI_DATA[0] OE# 34 24 DQ0 TP1069 CLK54_XTAL_N V4 C219 H19 GND_137 LVDS_TX_0_DATA_3_P TP1111 23 EBI_DATA[8] DDR1_ADDR04 0. AD25. AD12.7uF 6.1uF 16V VDDQ R497 1K TP4121 16 PVCC TP4126 TP4060 TP4120 P6.1uF C363 R3178 AR316 33 J10 DDR0_DQM_4 DDR0_CLK1b F3.7K TP4044 Q400 2SC3875S E G GND L418 UBW2012-121F C449 0. A26.1uF C367 0. AE18. AD19. M25.7K 26 P7.6V_BCM 128MB K3 DDR0_DQM1 B 9 TP4017 470pF C388 IR-GND R3040 75 C352 100uF 16V R411 47K 2 DDR0_VTT 128MB IC403 AT24C512W-10SI-2.6V_BCM R245 0 GND_132 LVDS_TX_0_DATA_1_N CHIP2POD_MDO6 E32 A3.7K A31 DVO_0_12 POD2CHIP_MCLKI E28 Y8 PKT0_DATA A22 TP1087 EBI_ADDR[1-15] H5 READY R101 4.6V_BCM C320 100uF 16V DDR0_ADDR[5] DDR0_ADDR[7] G18 DDR0_ADDR07 AR355 10 DDR0_ADDR[8] E18 DDR0_ADDR08 75 DDR_DATA[9] 3 R405 OPT DDR0_ADDR12 C17 DDR0_ADDR05 C18 DDR0_ADDR06 DDR_DATA[8] 0. AE14.7K GND_19 F7 AA8 DVO_0_CLK_NEG J7 A8 TP1095 EBI_ADDR[9] G7 EBI_ADDR20/PCI_PAR G7 EBI_ADDR21/PCI_IRDYb L9.1uF 16V TP1075 EBI_DATA[3] DQ3 41 16 EBI_DATA[11] DQ11 AR200 1K GND_24 H8 LVDS_TX_0_DATA_0_P CHIP2POD_MDO5 E33 K4 42 AH31 TP2017 54MHz_XTAL_P L201 BLM18BD102SN1D VCC 1 GND_130 E30 TP1056 WP#/ACC TP1102 RY/BY# 43 15 AH32 16V 0.1uF 16V WP NC SCL 470pF C389 470pF C390 R3169 R3176 R3200 IR R3207 50V 220pF GND +3.3V GND_112 P1.3VST_MICOM MAIN & IR GND PART CONNECTION R3170 R3188 SCL2_3.3V 8:J5 U19 GND_81 AG11 N33 GPIO_37 R112 TP1125 P9 VDDC_22 Power_CTL_2. N24.6 Led_Breathing N9 HSYNC/P1. AE10. R11.6V_BCM 2 R2441 0 25V DDR0_ADDR11 DDR0_ADDR[2] AR354 DDR0_ADDR[3] B17 DDR0_ADDR03 10 DDR0_ADDR[4] D17 DDR0_ADDR04 16V DDR0_ADDR10 DDR0_DATA11 DDR0_DQ[45] E23 DDR0_DQ[46] B22 AR308 33 DDR0_DQ[1] DDR_DATA[29] 150 150 DDR0_ADDR09 DDR0_DATA10 DDR0_DQ[10] DDR_DATA[13] 300 300 DDR0_ADDR08 DDR0_DATA09 DDR0_DQ[12] D12 DDR0_DQ[43] B23 DDR0_DQ[44] C22 DDR0_DQ[59] DDR0_DQ[6] DDR0_DATA08 C12 DDR0_DQ[10] E13 DDR0_DQ[11] B12 DDR0_DQ[42] G23 R3140 DDR0_DQ[63] DDR_DATA[62] DDR0_ADDR07 F13 DDR0_DQ[41] D22 DDR0_DQ[52] R3145 DDR_DATA[8] 150 150 150 150 AR307 33 DDR0_DQ[53] DDR_DATA[1] 300 300 AR306 33 DDR0_DQ[43] DDR_DATA[48] DDR0_DATA07 DDR0_DQ[8] DDR0_DQ[27] C16 DDR0_DQ[28] C15 DDR0_DQ[46] DDR_DATA[3] 300 300 AR305 33 R3144 DDR0_DQ[47] DDR_DATA[6] 300 300 AR304 33 DDR0_DQ[36] R3143 DDR_DATA[44] DDR0_ADDR06 DDR0_DQ[16] B13 DDR0_DQ[17] G13 DDR0_DQ[37] 33 DDR_DATA[63] 128MB 33 128MB C318 0. L19.1uF C272 10uF 6.C8. Inc. W17 M1.3 GND_89 AG20 PCI_REQ0 PCI_IRDY L33 M30 J26 A1. W16 K10.33uF 16V VDD_2 VREF 57 11 DDR_DATA[4] VDDQ_5 B9 DDR0_DQ[1] DDR_DATA[4] DDR0_ADDR00 BCM3553 DDR0_DQ[0] C404 0.1uF C264 0.3V GND GND_152 AP4 LVDS_TX_0_CLK_P LVDS_TX_OUT_PINPORT_TB4-_TO_TXA0+ PCI_AD01 DDR1_DATA07 C256 0.6V_BCM L4 DDR0_DQS6 DDR0_REF NC_6 VREF 128MB VSS_2 CK CKE DDR0_ADDR[2] C315 470pF 50V DDR0_DQM_6 J9 C314 0. 5 11 TP4099 K4 IC407 GND LED_R 3.7K GND_18 E9 E27 Y26 F32 SDA A10 7 EBI_DATA[15] DQ15/A-1 51 4.2V_BCM IC100 BCM3553 A2.1uF C3011 /RAS DDR0_RASb 51 DDR_DATA[21] 5 VSSQ_5 IC100 BCM3553 DDR0_BA1 DDR0_ADDR[10] 75 DDR_DATA[1] 16V 0.2V_BCM 0.2V_BCM B29 0 L300 C9 BLM18BD102SN1D D29 A30 A9 A12 0.7K A28 W34 L102 GND_113 BLM18BD102SN1D GND_6 A25 OB_IFVCO_P CHIP2POD_DRX G29 25V GND_112 16V GND_5 A22 DVO_0_8 CHIP2POD_CRX H29 W26 6.0V HD_DVI_HSYNC AH13 EBI_ADDR[6] GPIO_18 6:C4.1uF TP1107 DQ1 P27 TP2019 BSC_S_SDA U4 R242 GND_27 H13 G28 B7 C131 16V 0.1uF C362 R3151 75 DDR_DATA[15] 25V VSSQ_4 DDR_DATA[0-63] D2. AE25.9KC280 16V CLK54_XTAL_P BYP_SYS9_CLK AJ15 C207 100pF DDR1_ADDR05 C243 1000pF 50V C289 0. Y24.1uF AH25 R33 J1 A3. AP24.1uF 16V F8 VDDC_21 P5.1uF TP4117 C438 0.7K R462 P5.1uF C271 0.7K R2161 GND_124 DVO_0_29 POD2CHIP_MISTRT C34 BLM18BD102SN1D C128 0.1uF 16V C327 0.01uF C385 TP4007 TP4003 C1- C2+ C2- V- 0.0V VDDC_31 Y16 EBI_TSIZE0 16V 0.3V GND_94 GND_201 GND_95 GND_202 GND_96 GND_203 AF11 AF27 R229 OPT AG27 L207 BG2012B800 GND_97 GND_204 C291 16V 16V 0.2V_BCM A2.01uF 25V AA2 L208 GND_151 AN4 EBI_DATA[2] LVDS_TX_OUT_PINPORT_TB3+_TO_TXA1- AP13 R213 AJ9 USB_RREF C254 1000pF 50V BLM18BD102SN1D GND_44 AC14 B1 AC33 GPIO_00 DDR1_DATA05 AA3 C418 OPT GND_150 LVDS_TX_0_CLK_N AM5 EBI_DATA[1] LVDS_TX_OUT_PINPORT_TB3-_TO_TXA1+ PCI_AD00 USB_AVDD3P3 AA6 SHIELD_PLATE GND_43 AC5 LVDS_TX_1_DATA_4_P VDAC_3 B2 AC32 DDR1_DATA04 C253 4.1uF C3005 C309 0.3V_BCM R426 10K P15 GND_157 LVDS_TX_AVSS_3 A1.7uF 6. 1 u F 0 .2/HCLAMP 25 24 P6.0/AD0 GND_71 AF19 EBI_ADDR[14] GPIO_26 PCI_AD27 AP8 R2116 AH17 TP2033 AA23 A1.F8. M24.1uF 16V DDR_DATA[44] 128MB 75 DDR_DATA[45] 128MB 75 DDR_DATA[46] 128MB 75 C347 C348 0 .7K R2144 AP32 DVO_0_3 OB_AVSS_2 4. AE12.7K R136 L105 BLM18BD102SN1D AM30 0.1uF 16V L417 UBW2012-121F TP4082 100 TP4032 22 R434 7:L8 TP4100 F1 UCOM_RX UCOM_TX 22 TP4022 TP4093 TP4023 22 R440 22 C445 0.3V1uF 6.3V_BCM GPIO_44 PCI_INT_A2 6:F4 HDMI_SEL_2 GND_133 34 GND_194 TP1004 AG19 PCI_INT_A1 DDR1_PLL_AIO VDDC_26 GND_26 22 GND_87 W28 GPIO_43 DDR1_VDDO2P5_12 H11 P6.3V R2442 X1 TP4077 0TP4080 TP4001 1000pF C372 R3149 DDR_DATA[63] 128MB75 DDR_DATA[7] C1+ DOUT2 DDR0_CLK1 128MB 13 5 C442 47uF 16V 4Y JP4001 JP4000 5 R3009 75 4 0. V1. K21.A5.1uF TP4112 16V TP4055 R420 0 GND GND TP4034 GND AC_DET 1K TP4123 C439 0.3V AE4 TP2042 C3 USB_DM1 TP2039 JP2015 ZD205 READY SCL1_5V USB_POWER_OUT_1 F8 JP2014 TP2012 AD30 SCL0_5V DDR0_ADDR[0-12] 25V DQ3 DDR_DATA[28] 4 D2.7K R198 GND_13 C8 J28 Y18 DVO_0_21 A1 H3 R2102 GND_119 POD2CHIP_MDI0 TP1092 DVO_14 4.1uF 16V GND_113 LED_R P21 GND_164 C112 U31 GPIO_12 6:C1.7K R196 GND_10 B31 C32 Y14 HSX_SYNC H6 TP1090 R2103 GND_116 DVO_0_15 H2 TP1089 4. AD17.7K TP4043 R2402 22 A0 R447 22 F7 DDR0_DQM_4 33K R498 GND TP4050 TP4040 R2401 22 IR-GND C359 1uF 10V RL_ON TP4129 3.6 LVDS_PANEL_CTRL R495 100 TP4059 P7.01uF C383 0.7K GND TP4130 READY READY GND TP4054 F7 KEY2 R2407 750 F7 TP4051 KEY1 C437 0.01uF C378 1Y C401 10uF 16V C332 R3153 75 C397 C333 C334 C335 C336 C337 C2604 0 .0 U15 GND_79 AG9 PCI_CBE03 22 L29 C214 1000pF 50V DDR1_CSB0 VDDC_20 37 U14 GND_185 W33 EBI_ADDR23/PCI_DEVSELb J1 TP1000 AF32 GPIO_34 M27 C213 0.1 T21 GND_183 EBI_ADDR19/PCI_CBE3 GPIO_32 R113 22 TP1122 DDR1_VDDO2P5_3 D3.6V_BCM D2. Y25.3V_BCM C307 0.01uF 25V IC100 BCM3553 C200 4. AA10.1uF TP4069 PWM_LED JP4009 R2460 TP4070 0 LED R IR 11 8 9 12 13 14 EYEQ_RESET R429 100 L422 UBW2012-121F N8 KEY2 ST_5V L421 UBW2012-121F C446 0.0/ET2 T8 GND_68 V29 EBI_ADDR[11] GPIO_23 AP7 AH28 Y22 M5 Y5 PLL_MAIN_MIPS_RPTR_TESTOUT DDR1_DM3 Y13 GND_13 C29 40 T1 GND_174 AF9 PCI_AD23 6:D5 C209 4.V15 V16 V17 V18 V19 V20 V21 W1 W8 W14 W15 W16 W17 GND_199 GND_93 GND_200 GND_94 GND_201 GND_95 GND_202 GND_96 GND_203 GND_97 GND_204 GND_98 GND_205 GND_99 GND_206 GND_100 GND_207 GND_101 GND_208 GND_102 GND_209 GND_103 GND_210 GND_104 GND_211 GND_105 GND_212 GND_106 GND_213 GND_107 GND_214 W27 TP1005 EBI_ADDR22/PCI_STOPb AG26 W31 W32 TP1006 AG29 P29 C127 P28 AG31 Bootstrap AH15 0.F1.6V_BCM C302 0.7K R2143 AP31 C102 4.6V_BCM Y16 DVO_0_18 K7 A0 OPT GND_117 K28 Y15 DVO_0_16 TP1040 H5 D3. L18.6V_BCM P3 DDR1_DM0 N31 TP2032 DDR1_DATA31 V23 A32 43 GND_61 16V 4.F1.6V_BCM G7 39 18 TP1073 C242 33uF 25V D1.3K R456 T15 GND_180 EBI_ADDR17/PCI_CBE1 Y28 GPIO_29 AH19 AB22 C288 0.7K GND_126 C129 0.3V 50V 6.6:L1 EJTAG_TCK EJTAG_TDO AF4 7:E2 DDR1_DATA25 C267 0.7uF 1K GND_17 D34 Y21 DVO_0_27 4 EBI_ADDR[12] A11 VSS_2 52 5 H4 EBI_DATA[0-15] 4. AC10.7 23 P6.1uF C3017 NC_3 I9 DDR0_DQM_3 54 DDR_DATA[56] 65 3 VSS_3 TP4010 DDR0_BA_0 50V VDD_2 55 13 DQ2 2 K3 DDR0_DQ[0-63] DDR0_DQ[0-63] I1 AR301 33 DDR0_DQ[0] 50V H1. L16.7/CLKO2 29 P7.3/INT1 9 MICOM_RESET C B R2425 READY 100 TP4118 28 K3 IR 4.5 R445 OPT GND K4 MTV416GMF ISDA/P3.01uF 25V M7 R236 DDR1_CKE DDR1_VDDO2P5_5 GND_127 38 U8 GND_78 R32 0 AF31 PCI_CBE02 C212 0.2K R403 C A1 D400 KDS184 A2 R402 1K G 3 1 0. A23.01uF C379 0.5:H8 16V 0.2 GND_189 TP1001 PCI_FRAME 22 COMPOSITE1_SW 7 : E 2 VBR_A DDR1_VREF0 GND_129 R465 0 GND_82 AG13 GPIO_38 R2125 T9 USB DOWN STREAM U20 GND_188 AG12 T29 PCI_DEVSEL G30 R9 DDR1_VDDO2P5_6 GND_22 F27 Power_CTL_3. AD14.3V_BCM READY GND_25 H10 AA18 G7 EBI_ADDR19/PCI_CBE3 G7 EBI_ADDR18/PCI_CBE2 J4 40 17 AH34 TP2018 A1.3V TP1131 GPIO_16 0 F28 D2.7uF 6.F8. AD13.1/DA0 GND_64 R16 EBI_ADDR[7] GPIO_19 TP1118 N30 BLM18BD102SN1D TP2037 M3 GND_117 P1.1uF 16V K30 N9 GND_20 19 T34 GND_184 R30 GPIO_33 K32 K31 DDR1_VDDO2P5_4 AB7 F7 18 T26 GND_77 V27 R2100 PCI_CBE01 7:N6 COMPOSITE2_SW AN9 AC1 D2.1uF 16V C341 0.7K H11 AA19 A2.3V C4 C228 1uF 10V C8 TP2046 VDDO_2 V21 R230 1K TP2047 OUT1 R18 V19 AJ32 TP2052 VDDO_1 V8 AF10 READY Y26 AA8 AA9 AA14 AA15 AA16 AA17 AA18 AA19 AA20 AA21 AB1 AB6 AB8 AB14 AB15 AB16 AB17 AB18 AB19 AB20 AB21 AB34 AC3 AC4 AC5 AC14 AC15 AC16 AC17 AC18 AC19 AC20 AC21 AC26 AD2 AD3 AD26 AD27 AD28 AE7 AE8 AE27 AE28 AE29 AE34 AF7 AF9 AF15 AF16 AF17 AF18 AF19 AF20 AF21 AF22 AF23 AF31 AF32 AG9 AG10 AG11 AG12 AG13 AG14 AG15 AG16 AG17 AG18 AG19 AG20 AG21 AG22 AG24 AG25 AG26 AG29 AG31 AH15 AH25 AH26 AH27 AH30 AJ13 AK28 AK30 AL20 AN30 AN33 AN34 AP10 Copyright © 2007 LG Electronics.047uF 25V AC2 L8 D2.7K GND_20 AA14 DVO_0_DE CHIP2POD_MDO1 G9 H1 WE# TP2013 TP2014 D3. M10.01uF C381 GND R3008 75 15 VDD R408 0 READY 3 DDR0_VTT 2 3 Z C402 0.047uF C406 TP4004 25V 1000pF C371 TP4006 0.01uF 25V V6 C220 GND_143 LVDS_TX_1_DATA_1_P VDAC_AVDD1P2 AP26 NC_4 BYP_CPU_CLK C251 1000pF 50V N17 C222 L7 L26 GND_36 AB18 28 LVDS_TX_OUT_PINPORT_TA4-_TO_TXB0+ E5 30 DDR1_ADDR10 C250 4.1uF 16V 16V 0.7K R2142 TP1144 OB_ADCAV2P5 EBI_ADDR24 G8 +5.3V GND_119 VSS R21 GND_173 HD_DVI_VSYNC PCI_AD22 6:D8 M2 C296 0. 1 u F H6 R2149 2.7uF 6. M11.3V_BCM AH26 AH27 EBI_ADDR24 R135 22 P32 AD31 EBI_CSb0 M4 AH30 P30 16V AE33 D3.2uF 50V 10V 16V 16V 16V 8 7 3 6 4 5 1 8 2 7 3 6 4 5 VCC C419 0.01uF 25V C329 0.01uF 25V C4 VDDC_12 LED_G R19 GND_172 V28 PCI_AD21 0 HDMI_HPD_1 M4 C269 1000pF 50V GND_118 TP4105 R18 GND_65 EBI_ADDR[8] GPIO_20 TP1119 R2122 DDR1_DM1 PLL_MIPS_AGND L2 Y12 VDDC_11 GND_11 6.1uF PCI_AD16 JP2005 EJTAG_TRST P4 GND_115 14 GND_167 016V .3V_BCM 2 C400 10uF 16V R3171 R3166 75 DDR0_DQS2 DDR0_DQS3 128MB R3048 0.1/VBLANK LED_G L420 UBW2012-121F 32 27 R444 15K EYE_Q_RESET 2 TP4057 TP4056 7 3. 1 u F C105 4 . USB C305 470pF 50V DDR_DATA[0-63] L1 L9 5:C2.1uF 16V N16 470pF J10 GND_35 AB17 LVDS_TX_OUT_PINPORT_TA3+_TO_TXB1- 26 F8 DDR1_ADDR09 C248 0. AD1. A11.2/DA1 GND_170 W29 PCI_AD19 E31 OPT R218 W22 VDDC_10 GND_10 41 GND_63 AE34 +5.F8. AC25. AE17. LGE Internal Use Only .6V_BCM D2.3V_BCM R209 OPT BCM3553 DDR1_DATA03 N23 6B GND_148 AM25 LVDS_TX_1_DATA_3_P LVDS_TX_OUT_PINPORT_TB1+_TO_TXA2- A3 TP2031 USB_AVDD1P2PLL AA7 C221 GND_41 AC4 VDAC_1 LVDS_TX_OUT_PINPORT_TB1-_TO_TXA2+ E4 AJ14 K29 R212 100K DDR1_DATA02 N22 C223 GND_147 AM26 LVDS_TX_1_DATA_3_N N1 EBI_DATA[0-15] R210 4. AE16.1uF 16V DVO_0_2 OB_AVSS_1 D1.6V_BCM DDR_DATA[11] R3109 R3099 DDR0_ADDR[9] DDR0_ADDR01 DDR0_DATA02 C10 DDR0_DQ[3] DDR0_ADDR[1] 16V DDR_DATA[55] R3119 R3108 IC302 HY5DU561622FTP-D43-C VDDC_33 F8 54 DDR_DATA[51] DQ11 DDR0_DATA01 F10 DDR0_DQ[2] R3198 R3148 D18 DDR0_ADDR01 B18 DDR0_ADDR02 I 16V 13 DQ12 DDR0_ADDR[5] DDR0_ADDR[0-12] A9.01uF 25V VDDC_5 12 GND_55 P16 AD26 HD_DVI_10 G5 EBI_DATA[14] PCI_AD10 R215 TMODE_1 C262 1000pF 50V D2. P34.047uF 25V C324 2700pF 50V C325 470pF 50V C398 0.1/AD1 TP4098 Q419 2SC3875S E 1 P3.1uF 16V TP4068 5V_ST EYEQ_SDA TP4085 JP4008 6 C B TP4027 R458 OPT TP4042 TP4033 DDC_SCL TP4067 3.2V_BCM VDDC_19 GND_19 6:N3 T20 GND_76 J3 AF23 PCI_CBE00 AL10 DDR1_CLK0 AC22 E27 R6 EXT_DDR1_CLK DDR1_VDDO2P5_2 T7 GND_125 MUTE2 T19 GND_182 AF22 V32 GPIO_31 Y1 DDR1_VDDO2P5_1 AC13 VDDC_18 GND_18 MUTE1 T18 GND_75 EBI_ADDR18/PCI_CBE2 PCI_AD31 AM9 DDR1_CAS N7 E9 8:B3 T17 GND_181 J3 GPIO_30 U1 PLL_VAFE_TESTOUT AC12 R5 DDR1_WE P1 AN8 DDR1_RAS P7 GND_124 5V_MNT T16 GND_74 AF21 PCI_AD30 4 .01uF C396 DDR0_ADDR[6] VDD_1 VSS_3 0.16V 1 u F 1uF 470pF 0 .3V uF PLL_VAFE_AVSS AB23 VDDC_17 GND_17 3.7K P5 C294 0.3VST_MICOM 1 R3189 SDA2_3.F4. AE13.5K 6.7K TP4115 6 TP4037 R439 R459 TP4113 P4.6 TP4058 30 P5.1uF 470pF 50V I 9 16V DDR0_DQM_0 DDR0_CLK0b NC_5 DDR0_WEb NC_3 LDM /WE DDR0_CASb /CAS DDR0_CLK0 DDR0_RASb /RAS DDR0_CKE DDR0_CSBb CK CKE J9 DDR0_DQM_5 A12 DDR0_ADDR[12] A11 DDR0_ADDR[11] /CS NC_4 DDR0_BA0 BA0 DDR0_BA1 BA1 A9 DDR0_ADDR[9] A8 DDR0_ADDR[8] A10/AP DDR0_ADDR[10] A7 DDR0_ADDR[7] DDR0_ADDR[0] A0 A6 DDR0_ADDR[6] DDR0_ADDR[1] A1 A5 DDR0_ADDR[5] DDR0_ADDR[2] A2 A4 DDR0_ADDR[4] DDR0_ADDR[3] A3 VDD_3 VSS_1 2 65 3 64 4 63 5 62 6 61 60 7 8 59 9 58 10 57 11 56 12 55 13 54 14 53 15 52 16 51 17 50 18 49 19 48 47 20 21 46 22 45 23 44 24 43 25 42 26 41 27 40 28 39 29 38 30 37 31 36 32 35 33 34 0.0/RXD 22 R436 R2446 4.1uF C3008 VDDQ_2 63 5 IC301 HY5DU561622FTP-D43-C VDD_1 DQ14 6. K14.3VST_MICOM R2463 TP4106 TP4041 GND 12505WS-15A00 IR_15P 1 1 C430 0.7K R137 A1.7K C235 4.1uF 16V GND GND_45 AC15 HD_DVI_0 F6 AB31 AM12 R216 AH10 DDR1_DATA06 USB_AVDD2P5REF C255 0. L24.7K GND_8 PKT0_SYNC L6 R2163 2.0/HBLANK R441 4. Y34.F8 D2.1uF 16V C306 100uF 16V IC300 HY5DU561622FTP-D43-C L4 N26 N27 A9.3V_BCM DVO_1 BCM3553 AK34 4. AJ34.A5.2V 8:G10 GND_90 AG22 PCI_REQ1 PCI_PAR L32 I8 PCI_REQ1 H13 W21 GND GND_196 AG21 N7 R34 GPIO_46 TP1009 PCI_REQ0 GND_134 P5.L1 DDR0_ADDR[0-12] 128MB 10 8 JP4010 C8 K3 DDR0_DQM_0 DDR0_DQM7 7 X0 TP4026 1 DOUT1 LED G K3 DDR0_DQM0 11 VCC 7 R3016 33 6 +5.6V 8:K4 U18 GND_187 P33 PCI_CLK_OUT 22 J34 C217 1000pF 50V GND_128 1K U17 GND_80 AG10 GPIO_36 R2124 C216 0. K16. Y11.01uF 25V U5 T_TERMINAL1 H23 GND_139 AJ26 C106 0 .3V 3.6V_BCM DDR_DATA[40]128MB75 DDR_DATA[41] 128MB75 R3203 0.3/AD3 OPT R438 EYE_Q_RESET R2427 100 READY 5 TP4097 R437 220 TP4030 R431 220 GND R2424 100 READY 4.7:K1 GND_159 LVDS_TX_AVDD2P5_1 HD_DVI_8 AN6 G6 AA27 PCI_AD07 TP1115 S-VIDEO1_SW USB_PWRON_2 Y3 GND_108 GND_2 A16 HDMI_CEC GND_52 AC26 LVDS_TX_AVSS_5 HD_DVI_7 AL8 EBI_DATA[11] TP1132 C1 Y32 GPIO_06 TP1114 DDR1_DATA16 T13 GND_1 A13 VDDC_2 TP4101 GND_158 LVDS_TX_AVSS_4 EBI_DATA[10] PCI_AD06 D31 DDR1_DATA15 USB_PWRON_1 NMI TP2028 R214 JP2003 USB_PWRFLT_2 W3 VDDC_1 47K R448 GND_51 HD_DVI_6 H9 Y33 GPIO_05 R2118 R2119 DDR1_DATA14 T12 D3.6:L2 DDR1_DATA30 V22 GND_8 13 GND_60 016V .1uF 16V UDM C313 J9 470pF DDR0_DQM_7 50V DDR0_DQM_2 DDR0_CLK0b /CK CK CKE DDR0_ADDR[12] A11 DDR0_ADDR[11] DDR0_ADDR[8] A7 DDR0_ADDR[7] A6 DDR0_ADDR[6] A5 /RAS DDR0_CSBb /CS NC_4 DDR0_BA0 BA0 DDR0_BA1 BA1 DDR0_ADDR[10] A10/AP DDR0_ADDR[5] A4 /CAS DDR0_RASb DDR0_ADDR[9] A8 /WE DDR0_CASb DDR0_CLK0 DDR0_CKE A12 LDM DDR0_WEb NC_5 A9 NC_3 DDR0_ADDR[0] A0 DDR0_ADDR[1] A1 DDR0_ADDR[2] A2 DDR0_ADDR[3] DDR0_ADDR[4] A3 VDD_3 VSS_1 53 14 15 52 16 51 17 50 49 18 19 48 20 47 21 46 22 45 23 44 24 43 25 42 26 41 27 40 28 39 29 38 30 37 31 36 32 35 33 34 DDR_DATA[0-63] DQ10 DDR_DATA[54] DQ9 DDR_DATA[53] VDDQ_4 DQ8 DDR0_ADDR[3] DDR_DATA[52] DQ1 DDR_DATA[9] DQ2 VSSQ_1 DDR_DATA[8] DQ3 DDR_DATA[12] DQ4 VDDQ_2 DDR_DATA[13] DQ5 DDR_DATA[14] DQ6 VSSQ_2 DDR_DATA[15] DQ7 NC_1 VDDQ_3 LDQS L3 NC_2 VDD_2 NC_3 LDM DDR0_DQM_1 /WE DDR0_WEb /CAS DDR0_CASb /RAS DDR0_RASb /CS DDR0_CSBb NC_4 BA0 DDR0_BA0 BA1 DDR0_BA1 A10/AP A0 A1 A2 DDR0_ADDR[3] DDR0_ADDR[2] DDR0_ADDR[1] A3 DDR0_ADDR[0] DDR0_ADDR[10] R3115 R3103 300 300 R3112 R3100 R3107 R3098 300 300 300 300 VSSQ_3 VDD_3 66 D2.3V R415 22 TP4036 F8 PEJ024-01 R3177 R3187 R414 22 TP4035 SDA 16V R418 0 9 C410 C409 G1 TXD TP4015 15 2 A1 C 4 IR-GND 1 A0 TP4025 C440 0. L25.1uF 16V C344 0.7K R490 100 READY TP4053 4.2V_BCM CLK54_MONITOR AF30 AF29 A2. AA24.1uF 16V GND_5 A25 44 P17 GND_162 AN7 AD27 LVDS_PLL_AVDDC1P2 AA29 GPIO_10 AE5 OPT TP2030 DDR1_DATA23 C293 0. AD16.7K R2141 AL29 AN31 TP1030 E1 4.2V_BCM Y31 EBI_DATA[9] PCI_AD05 TP1113 22 0 F29 USB_PWRFLT_1 R23 R425 47K P14 GND_50 AL7 AC21 HD_DVI_5 D8 Y30 EBI_DATA[8] GPIO_04 DDR1_DATA13 W2 R432 220 P8 GND_156 LVDS_TX_AVSS_2 A2. 1 u F 16V 16V 6.0V NC_6 R109 GND_122 POD2CHIP_MDI5 TP1016 A13 55 1K GND_15 DVO_0_25 SCL TP1094 EBI_ADDR[14] 56 2 R110 D3 POD2CHIP_MDI4 POD2CHIP_MDI7 D32 L101 DVO_0_24 6 TP1093 EBI_ADDR[15] A14 1 R111 GND_121 DVO_0_23 POD2CHIP_MDI3 G3 3 R2150 22 4. T10.8K R453 R17 GND_171 W30 PCI_AD20 F31 0 PLL_MIPS_AVDD1P2 W23 B31 P1.3V_BCM R2 B_TERMINAL2 GND_145 VDAC_DREG A4 TP2024 RST_OUTb BYP_DS_CLK N19 T_SPRING GND_38 AB21 C110 AM27 0 .0/CLKO1 GND_177 AF18 U29 PCI_AD26 AC8 22 L203 AA22 VDDC_15 5:C5 GND_70 AF17 EBI_ADDR[13] GPIO_25 AD7 R2115 Y6 GND_121 W18 PWM_LED GND_176 AF16 U28 PCI_AD25 TP1121 22 AA13 GND_14 D3 R2423 100 GND_69 EBI_ADDR[12] AF15 GPIO_24 J33 TP1120 N3 W7 DDR1_DQS1 PLL_DS_TESTOUT AJ29 AA12 VDDC_14 100 R455 GND_175 U27 PCI_AD24 L31 AJ28 N4 Y7 DDR1_DQS0 VCXO_PLL_AUD_TESTOUT Y23 GND_120 P1.1uF EBI_ADDR[8] DQ9 N29 M18 T3 TP4063 GND_133 CHIP2POD_MDO7 D2 TP1106 38 19 EBI_DATA[2] L200 BLM18BD102SN1D A10 M17 BSC_S_SCL BCM3553 BCM3553 M12 M16 TP4064 GND_26 H30 TP1105 F4 D1 A17 DQ2 AH29 AM13 R9927 4.3V_BCM A3.2 GND_88 D3.3V_BCM 4. AP15.01uF 25V T6 R232 22 AM10 R2128 22 H15 VDDC_30 Y9 THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.3V_BCM TP1065 VCXO_AVDD1P2 C247 1000pF 50V N15 R_SPRING H26 GND_34 AB16 C5 LVDS_TX_OUT_PINPORT_TA3-_TO_TXB1+ A0 READY USB_PWRFLT1 DDR1_ADDR08 C246 4. L20.7K 50V BA1 DDR0_BA1 49 VSSQ_2 UDQS 1 KIA7029AF 50V BA0 DDR0_BA0 18 DQ6 61 DDR0_ADDR[12] DDR_DATA[49] R3193 50V NC_4 50 DQ5 DDR_DATA[62] 62 6 DQ14 DDR0_ADDR10 DDR0_ADDR10 K3 DDR0_BA0 75 50V /CS DDR0_CSBb 17 DDR_DATA[61] VDDQ_4 DQ8 EN1 TP2044 C226 0.1uF 16V TP4071 GND GND C428 0.L1 C4 ZD206 READY TP2036 16V 0. 0V ZD738 5.7K R516 C540 0.01uF C610 9 25V 0.2V_BCM SW_5 L808 10uH L817 UBW2012-121F C832 47uF 10V C836 33uF 10V C837 0.1uF P_+16V TMDS2_RX2- TMDS0_RX0+ 3 Y3 VCC ZD500 OPT F3 3 GND C566 0.6K R706 C700 [RD]0_SPRING 4C C2668 3.H8 R606 0 10 3 C509 BCM3553_AUD_MCLK 1 F2 E TP6122 BCM_L_OUT1 SDA1 26 12 2 C533 1000pF 50V R510 4.1uF +5.3 Fiber Optic C505 10uF 16V R511 4.A2 6:L5 16V C621 4 .1uF 2SA1504S B AJ30 AK32 AN22 VOUT 6 Q613 2SC3875S AK33 BCM3553 AJ33 0 AK31 0.1V 3E 8 2 R775 GND TP7071 5.2V YIN TP8008 TP8006 C819 10uF 16V C818 0.1uF C8807 47uF 16V TP8036 L814 BG2012B800 R862 15K KA7809ERTM TP8035 TP7038 VIN TP8047 IC811 +5.7K [YL]0_SPRING 3A S-VIDEO1_L GND R701 [YL]1P_CAN 3A 4A 6:H7 0 R745 GND ZD717 ZENER 2A READY R741 100 75 R742 ZD716 [S-VHS]0_SPRING AH22 C622 HDMI_RX_0_DATA1_N SD_C1 SD_INCM_CVBS5 AM23 2SA1504S HDMI_RX_0_DATA0_P SD_L1 AP3 AL2 HDMI_RX_0_DATA0_N SD_INCM_COMP2 SD_INCM_CVBS4 AH21 R3615 HDMI_RX_0_CLK_P SD_INCM_CVBS3 AM24 AN23 R2665 0 AL23 AP23 A2.1uF AL18 E C B TP6067 0 C2667 3.1uF AL28 SPDIF_AVDD2P5 SD_R 5:H8 BCM3553_I2S_LRCLK_IN 5:H9 BCM3553_I2S_SCLK_OUT 5:C4 5:C4 BCM_L_OUT1 AM29 AUD_SPDIF SD_PB2 AP16 R2619 0 AUD_RIGHT_P 5:C5 10 R2637 C680 AN28 AUD_VSSO AUD_RIGHT_N EDSAFE_IF_N SD_INCM_COMP1 AP19 C652 16V 0.1uF 16V 0.7 1/4W 0.7uF 6.1V 15 C805 47uF 16V ADJ 16V C827 F 0.1uF C747 TP7021 TP7044 25V R722 470K READY 5.1uF R2605 34 R2612 34 R3609 30K 10 7:E2 TP6033 N5 VQ COMPOSITE1_IN LOUT3 15 PMJ029-01 C642 TP6032 AN18 0 SPDIF_IN_N SD_G 10 0.1uF 16V G L815 UBW2012-121F C8805 100uF 16V 4 A1[RD] 3 2 2 C 1 C8809 0.1uF 16V +1.5:K3 BCM3553_SPDIF_OUT AJ12 HDMI_RX_0_HTPLG_OUT SD_PB1 0.1V HDMI_POWER_0 DDC_SDA0 R739 470K [RD]1P_CAN AH20 AK23 TP6080 TP7091 TP7099 R7011 0 50V [WH]C_LUG_L 2C TP7075 PEJ024-01 0 50V 5B 3C GND R732 TP7093 HDMI_CEC JK703 6:H8 COMPOSITE1_IN TP7006 GND TP7080 R740 470K [WH]1P_CAN ZD706 [YL]CONTACT 2B R707 0 TP7003 6:M9 MNT_R_OUT JP7008 2A 1:K5 S-VIDEO1_SW OUT IN +5.288MHz R699 TP6030 R3603 1K B IC502 CS5340-CZZR R2643 IC100 BCM3553 R2649 510 L620 7:M6 AV_R_IN_2 R3600 TP6073 BCM_L_OUT N1 SDA_HDMI_2 GND +5.1uF 16V JK707 16 GND C800 0.1uF 16V 3 1 ADJ/GND 2 C821 0.L9.1uF 10V VR601 C591 0.7K R518 FIX_POLE L500 120OHM 54 56 +1. 1 u F B Q615 2SC3875S TP6071 BSS83 Q702 S B D JP7025 JP7024 JP7023 7A R2664 AP20 AM16 E6 AN29 C679 AP29 HDMI_RX_0_HTPLG_IN SD_PR1 BCM3553_I2S_DATA_OUT THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.1uF BCM_R_OUT1 27 R2638 AK12 HDMI_RX_0_CEC_RES SD_CVBS5 AP17 TP6088 0 READY 3.1V ZD702 READY C741 0.01uF 25V 3A R541 C602 0.3 4 28 27 26 25 24 23 22 21 TP5004 19 29 18 30 14 17 31 13 TMDS2_RX1- TMDS0_RXC+ L5 TP6108 EQ_S1 TMDS_RX2-_BCM 32 12 15 L501 120OHM +1.1uF TMDS2_RX1+ R611 0 TMDS0_RX0- D3 SCL1 27 27 BCM3553_SPDIF_OUT C506 10uF 16V C504 0.6V_BCM +12.1uF TP6012 22 D6 TMDS2_RX1+ 1:M5.5M R2610 25 Y1 Z2 VCC_4 Y2 Z3 7:G6 7:G6 COMP1_Pr 16V 0.1uF C659 0.1uF 16V C689 0.1V JP7009 GND TP7018 C732 0.0V_SUB AC_DET INV_ON/OFF 0 JP7006 GND TP7072 VIN EN 0 6.7K ZD739 5.01uF IC807 6 TP8007 C835 4.01uF R504 TMDS0_RX1+ D3 57 B34 READY 1uF C521 BCM3553_I2S_DATA_OUT BCM3553_I2S_LRCLK_OUT BCM3553_I2S_SCLK_OUT SDA2_3.1uF C584 C668 4. FILRE AND ELECTRICAL SHOCK HAZARDS.1V ZD701 TP7000 [GN]O_SPRING [GN]CONTACT [BL]1P_CAN 2B 3A 4A [GN]1P_CAN JP7000 IC702 AT24C02BN-10SU-1.1uF 16V C685 0. FILRE AND ELECTRICAL SHOCK HAZARDS.5M 5 TP6011 IC500 7:M6 AV_L_IN_2 VCC_8 17 OC_S1 TP6077 ADDR HPD2 VCC_2 READY 6 4 10K L514 120OHM SCL SDA2 SDA3 R2606 1.8 TP6099 1:K6 HDMI_SEL_2 2 R538 100 GND_12 12 B14 25V 0.47uF 50V C539 0.2V AZ1117H-1.2V 22 4:N7.5M I2 1 GND BCM_R_OUT D9 Q608 0 C B8 SDA_HDMI_1 TP6056 HDMI_POWER_2 C 4:N7.01uF READY 50V TP7015 C8810 0.47uF 25V C820 THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.0V R820 C882 33uF 10V 1K C8813 0.1uF AUD_LEFT_P SD_INCM_RGB AM20 C649 AUD_LEFT_N EDSAFE_AVDD2P5_1 RGB_VSYNC AL21 C648 AK25 R2635 AL25 R2636 I2S_LR_OUT EDSAFE_DVDD1P2 RGB_HSYNC AJ16 AL15 7:E1 I2S_DATA_OUT E TP6127 BCM3553_I2S_DATA_IN AK24 Q609 2SC3875S C695 100uF 16V BCM3553_I2S_SCLK_IN 5:H9 AJ24 SD_B AM21 7:E1 AH24 SPDIF_AVSS AM22 S-VIDEO1_C I2S_CLK_OUT EDSAFE_AVSS_3 PLL_DS_AGND AK16 AP22 EDSAFE_AVSS_2 PLL_DS_AVDD1P2 AN32 0. 6 B C600 0.1uF R547 4.2V 10 1:K8 0 75 [RD]1P_CAN2 2E [RD]1P_CAN1 2C R753 R761 C718 10uF 16V TP7065 R749 [WH]C_LUG_L 5D 5.6K R705 HPD JP7042 0 C702 100pF READY GND TP7033 1uF R704 470K ZD735 5.1V PVCC_1 TP8016 E C801 0.J1.5M I2 4 C619 0.8K 5:D9 COMP_R_IN_2 5:B9 COMP_L_IN_2 1:K5 COMP2_SW 5.1V R812 TP8015 R842 0 75 TP7095 TP8021 TP8003 READY AS 7 TP7064 TP7059 0 TP7058 0 R787 TP7063 R777 50V TP7062 R776 5. 0 1 u F A2.J2. All right reserved.01uF 25V 1 R2601 1.5M R2609 11 D6 TMDS2_RX0- I3 DDC_SDA1 I3 DDC_SCL1 R613 0 12 K9 C578 0.1uF S-VIDEO1_L C I2S_LR_IN EDSAFE_AVDD2P5_3 AH16 7:H7 I2S_DATA_IN 4:L9 Power_CTL_2.3V 1uF C838 ST_5V GND TP7073 +3.1uF C528 R609 0 6 TMDS0_RXC- D2 2SA1504S R2660 4.6V_BCM D2.5M R619 SCL_HDMI_1 JP6008 R262616V 1.7K R2624 1. WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.7K 5A R2659 6Y 11 C2663 0.1uF 16V 0.1uF 2 1 6 7 8 9 10 11 12 13 14 15 16 17 JP8012 19 JP8002 21 18 C846 C8812 0.0V TP6039 TP6074 18 R502 100 4 : L 9 MUTE1 3.1uF 16V 3.3V_BCM +5.3V HDMI_RX_0_VDD2P5 SD_C3 HDMI_RX_0_PLL_AVDD1P2 HDMI_RX_0_PLL_AVSS SD_CVBS2 HDMI_RX_1_CEC_RES SD_CVBS3 HDMI_RX_1_CEC_DAT HDMI_RX_1_DDC_SCL HDMI_RX_1_DDC_SDA HDMI_RX_1_DATA0_P SD_INCM_SIF1 HDMI_RX_1_DATA1_N SD_INCM_SIF2 HDMI_RX_1_DATA1_P SD_V1_AVSS HDMI_RX_1_DATA2_N SD_V2_AVSS HDMI_RX_1_DATA2_P SD_V3_AVSS HDMI_RX_1_VDD3P3 SD_V4_AVSS HDMI_RX_1_VDD1P2 SD_V5_AVSS HDMI_RX_1_VDD2P5 SD_V6_AVSS HDMI_RX_1_PLL_AVDD1P2 DDC_SDA_BCM AN1 G4 AN2 G4 AM3 G4 AM4 G4 AP2 G4 AN3 G4 R2647 22 R2639 499 TMDS_RXC+_BCM A3.1uF R509 4.2K COMP2_Pr COMP2_Pb COMP2_Y COMP1_Pr COMP1_Y COMP1_Pb TP8037 C830 22uF C831 22uF R826 1K 0.7 1/4W C515 22000pF 50V C512 22000pF 50V 1 1Y TP6094 D B S Q600 BSS83 DA-8580 1S 2S C507 1A PPJ204-06 L508 120OHM L520 1:M5.6V_BCM VO TP8049 GND 0 R7024 0 TP7076 SC1566I5M-2.0V R2620 34 8:D8 HDMI_RX_0_DDC_SCL HDMI_RX_0_DDC_SDA SD_Y2 BCM3553_I2S_LRCLK_OUT 5:K1.5K 7:G1 MNT_L_OUT BCM_L_OUT2 SD_V2_AVDD1P2 SD_V3_AVDD1P2 AK19 SD_V4_AVDD1P2 AK22 C631 HDMI_RX_0_VDD1P2 SD_L3 R2666 SD_V5_AVDD2P5 AJ20 BLM18BD102SN1D HDMI_RX_0_VDD3P3 SD_INCM_LC2 READY SD_V4_AVDD2P5 AJ21 AK20 0.1uF 16V R670 WPTP6045 0 BCM_L_OUT2 G7.L9.0V GND 5 2 3 KIA78R05F SCL_HDMI_0 TP7084 1 L805 NFE31PT222Z1E9L TP8050 C8802 4.3V SCL2_3.3uF 50V R564 1 TP6113 0.1uF 16V GND C829 0.5K TP7011 B_TERMINAL1 JP7043 TP7077 SDA SCL TP7078 NC CEC C735 TP7008 R_SPRING 5 T_SPRING 5:D8 AV_R_IN_1 8 5.1uF 50V 36 NTP3000[8INCH WAFER]35 20 0.3V_BCM AH3 AH4 AJ1 AJ2 AJ3 R2671 AK2 499 AH7 AJ5 A1.1V ZD713 READY R731 82 5.2V ZD722 2B [WH]U_CAN JP7035 TP7067 [RD]O_SPRING JP7033 ZD747 8.7 1/4W 37 6 TP5016 1000pF C501 C544 0.6V_BCM R2667 AL1 A3.8V_NTP C508 33pF 50V R2673 0 56 4 B11 A11 BCC C +5.7K C542 0.H5 BTP7025 6 RF_AGC 1 TP8048 16V C886 0.0V NC_2 C8803 4.7K JP7029 C722 OPT GND JK700 ZD720 8.01uF 22 TMDS2_RX0+ R664 VCC_5 R2615 1.1uF 16V C688 C692 0 .1V 1:K6 C703 100pF READY 5.0V_SUB R857 0 TP8013 IF_AGC JP7038 TP7096 16V C887 0.5M R2617 R531 10K SCL1_5V 1/16W 5% 1:H2.0V GND R771 R763 ZD740 5.C4 VCC 8 R2633 4.3V F2 TMDS2_RX0+ DDC_SCL0 L602 C606 0.3V C826 10 C806 0.1 B L818 7:H3 RGB_L_IN NC3 21 R559 BCM3553_I2S_DATA_IN RGB_VS R869 47K L4 ADDR 0x9A VL NC4 22 RGB_HS 0.34K 1% L800 UBW2012-121F 5C [RD]CONTACT OPT ZD746 8.3V P_+16V +3.47uF 50V TP8051 D3.1V ZD712 READY R728 82 R724 4.1uF GND R867 22 JP8005 B RL_ON 20 1 TP8040 C 16V TP8030 S1 G1 TP8033 GND 16V S_Only_32CMO(HD) R876 C744 0.R695 34 16V 0.0V AUDIO ADC JK701 R3607 BLM18BD102SN1D L615 12 AL16 C633 VA ROUT3 16 14 GND 7:E7 COMP_R_IN_2 R5 17 13 ROUT2 6:L5 R4 20 10 14 4 AL17 16V AP28 10 470K R2641 L5 3 16V 0.1uF GND PPJ218-01 14 13 12 15 5 10 4 9 8 2 3 11 7 1 6 TP7068 8.1uF C503 IC501 7 C548 0.0V 50V 27pF C708 L702 SGMI2012GR27KTF R729 0 READY 50V 27pF C706 50V 27pF C707 R727 0 50V 27pF C705 READY 50V 27pF C704 L701 SGMI2012GR27KTF TP7041 L700 SGMI2012GR27KTF R714 0 READY TP7037 +5.4:G5 C583 1uF 50V +5.01uF C605 DC1R019WDH GND B9 TEA6420_L_OUT C554 100uF 16V D8 C8 C8 C9 C9 C9 TMDS1_RX0+ TMDS1_RX173 B23 A23 GND_9 8 B13 3.0V 6:G6 6:G6 RGB_G 6:G6 0 R730 0 R725 TU1 TDVF-H051F R736 75 TP7051 RGB_R R733 75 TP7050 0 R735 R726 75 TP7049 0 R720 0 R715 0 R710 R721 75 TP7040 6:G6 R718 75 TP7039 6:G6 6:E6 6:E6 6:E6 R711 75 C8804 0.3V R543 1K K1.1uF NC NC1 R3 23 E TP6090 C656 4.1uF 16V AK7 HDMI_RX_1_PLL_AVSS C2664 10uF 16V C684 0.1uF C582 TP6103 1.0V_SUB C897 100uF 16V 10 10K 13 VTU C871 C803 0.1uF 16V SIF IF_AS TP8058 R815 C828 47uF 16V +3.J3.1uF 16V R669 WPTP6044 0 AT24C02BN-10SU-1.1uF +5V_HPD 22 TP7082 HDMI_HPD_0 TP7094 TP7031 OUT R703 470K 8 16V 0.2V ZD723 KCN-DS-1-0089 R748 75 C724 OPT ZD748 8.2V 2A [YL]U_CAN JP7034 3B [WH]C_LUG GND 8.1uF 74 B33 7 GND READY TMDS1_RX1+ TMDS1_RX2- TMDS1_RX2+ R649 READY A33 54 6 TP6084 17 C510 33pF 50V 75 76 B24 GND_14 VCC_11 A24 77 HPD1 VCC_7 55 5 0 R646 R507 3.1uF VC L3 24 M0 1K R698 16V C628 VIN 7:B7 COMP_L_IN_1 5 0 IF_AGC L619 R563 MCLK : 12.01uF 25V A2[GN] I C8811 0.8TRE1(EH13A) L804 BG2012B800 AZ1117H-3. WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.5M R696 R546 C568 16V C567 22uF 0.6K R793 R782 15K R754 15K 50V 27pF C715 50V 27pF C713 C R702 1K 50V 27pF C714 L706 SGMI2012GR27KTF R2702 0 READY 50V 27pF C712 L705 SGMI2012GR27KTF R2701 0 50V 27pF C711 READY 50V 27pF C710 L704 SGMI2012GR27KTF R2700 0 5:D8 COMP_R_IN_1 5. 0 1 u F 1uF 25V 10V 35 Z1 GND_6 L6 0.1uF L810 BG2012B800 C804 27pF 50V JP7039 ZD750 5.01uF 2F 50V 1000pF C532 2A TP6004 C547 R522 3.288MHz R500 TP5000 14 2 R642 L502 120OHM 0.3 +1.3V_TMDS_SW C529 0.1V 5C TP7014 [GN]CONTACT 3A RCA-517HA-00A-01 4A JP7015 [GN]1P_CAN JP7014 JP7013 JP7020 R760 1uF C739 1uF R738 470K R755 TP7016 JP7018 2A JP7010 TP7055 C740 OPT 9 R784 R781 470K R773 10K R774 1K 8 C872 0.3V C8808 0.1uF HDMI_RX_0_DATA2_N 0 AL5 SD_V2_AVDD2P5 AJ19 4.1uF 10V VR604 C590 0. 1 u F 16V GND AINR 11 16V 0.1uF 16V C839 33uF 10V GND C811 1000pF READY R800 0 4:L9 GND 20 READY 0 COUT TP8019 Power_CTL_1.7K 100 TMDS0_RX2- 20 C530 0. 7 u F R3611 1K TP6069 R3608 BCM_R_OUT THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.1uF 16V 50V I5 READY 1.7uF 6.7K 59 GND_1 BCM_L_OUT E7 TP6128 Q607 B TP6101 60 TMDS_RX2+_BCM 11 LFM A3 33 F2 D2 C608 0.1V ZD707 READY 5.1u 16V F C655 R2602 34 0 C2665 3.0V IC701 TP7100 GND JP8003 13 DC1R019NBH GND CB4532UK121E L803 22 R7013 CB4532UK121E R788 1K VR702 10V VR700 22 R7016 TP7083 TMDS0_RXC+ JP7016 JP7004 JP7003 C644 C624 L601 P_+16V 19 17 JP8014 7A GND JP7002 +5V_POWER DDC/CEC_GND SCL_HDMI_0 TP7088 TP7007 JP7005 4.3V_TMDS_SW C589 0.3V C824 100uF 16V PVCC_3 VIDEO_OUT 1K TP8063 LD803 OUTPUT L807 MBW3216-501TF 6:I5 Vcc filter for Soft start 17 READY R844 4.01uF 25V 4 L509 120OHM C545 C564 100pF 4. 0 IN 0 R2627 C665 10 0.1uF D1.8K B A0 R759 1K R717 6.01uF 25V 2 L7 IIC CH4 0x54 10 R519 7 +3.1uF 16V +5. WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Only for training and service purposes TP8059 TP8055 INPUT 3 1 2 C815 0.3uF 50V 1.1uF C884 0.0V C JK702 THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.1uF 16V C851 C813 10uF 25V 12 +5.3V C630 R3604 470 FILT+ AM32 AL22 M1 15 L605 AM34 C672 7:H7 0.1V 4E GND R752 5.1u TP8060 A3.01uF PVCC_2 R808 OPT TP8010 R809 470 C834 0.01uF I2S_CLK_IN DS_AGCI_CTL EDSAFE_AVDD2P5_2 AM15 C2666 3.0V L609 J7 Tu_CVBS_INCM1 BLM18BD102SN1D L614 DC1R019WDH C581 1uF 10V TP6106 M6 0.6K TP7057 1uF SCL R813 100 8 JP7026 SDA BST 1:K6 16 16V C885 0.1V GND 0 GND OPT R751 OPT 3E R772 12 READY R789 GND RGB_SW TP7092 GND R762 [RD]O_SPRING 5.7uF C654 0.3 R602 1K 19 R540 75 R641 READY 22 TP6001 R539 120 G GND JK500 C562 0.8V_NTP TP5002 55 1uF C500 100pF Coaxial Out(LG50) L510 120OHM L521 DA-8580 1:K7.5M R2600 OUTPUT1 SDA_HDMI_1 SCL_HDMI_1 TP6002 L512 VS SCL2 B31 47 0 TP6086 1:K6 HDMI_SEL_1 1 CAPACITANCE 64 A31 48 14 TMDS_RX1+_BCM 1:K6 HDMI_SEL_0 20 C555 22uF 16V GND_11 49 13 TMDS2_RX2+ R692 2K TP6124 +5.J1.1uF 7:C5 COMP2_Y 7:E5 7:D5 COMP2_Pr COMP2_Pb R529 100 I6 TEA6420_L_OUT LOUT1 R530 100 N6 TEA6420_R_OUT ROUT1 19 11 18 12 LOUT2 13 5 VD 7:H2 RGB_R_IN R560 BCM3553_I2S_SCLK_IN 6:L5 ROUT4 R561 BCM3553_I2S_LRCLK_IN LOUT4 REF_GND 22 SCLK 22 LRCK 6 7 8 C585 0.1uF AJ25 AUD_VDDO2P5 EDSAFE_IF_P SD_Y1 AN21 0.6K R792 5.1V 0 JACK_GND SDA_HDMI_0 DDC_SCL0 GND TP7029 ZD705 5.7K R548 270 R545 C569 16V 22uF C570 47pF 8 2 OP AMP 27 62 46 16 16V 16V 16V INPUT1+ 150 1 15 +5. FILRE AND ELECTRICAL SHOCK HAZARDS.1uF 16V C864 0. FILRE AND ELECTRICAL SHOCK HAZARDS.2V 0 DDC_SDA R821 6.6K R797 1uF DATA1_SHIELD R2709 0 DATA1+ R2710 0 DATA2- TMDS0_RX2- DATA2_SHIELD TMDS0_RX2+ R2711 0 +5.3V 26 61 SCL3 45 R2603 1.0V +5V_HPD R863 8.1uF AM11 C677 AN11 C678 HDMI_RX_0_RESREF HDMI_RX_0_CLK_N A2.1uF 4.3V_TMDS_SW READY 4.1:L9.1uF C657 0.1uF 16V 0.K9 C2662 0.1uF 50V R608 0 10V VR600 40 2F JST1223-001 JK501 41 3 1F 2S F2 GND 8 1 2 1S C525 1uF TMDS2_RXC+ 0 D2 4 42 9 TJC2508-4AW 2 43 44 45 46 47 48 49 52 53 51 50 1 R607 P501 4.1uF C666 READY DS_AGCT_CTL EDSAFE_AVSS_4 AJ31 16V BLM18BD102SN1D L604 C629 R3606 R558 A1.7K R878 +12.01uF 25V C823 4.7K R550 4.1V ZD708 ZD709 [RD]CONTACT [RD]1P_CAN2 2E [WH]C_LUG_L 5D [WH]1P_CAN JP7012 2D [RD]C_LUG_L [RD]1P_CAN1 2C [BL]C_LUG_L JP7011 4E 5.6K R796 GND R2705 0 CLK+ R2706 0 DATA0DATA0_SHIELD TMDS0_RX0+ C734 TP7009 T_TERMINAL2 6B CLKCLK_SHIELD R2707 0 DATA0+ R2708 0 DATA1- TMDS0_RX1JP7017 B_TERMINAL2 7B TMDS0_RX0- 5:D9 RGB_R_IN TP7070 1uF 50V 4 R2704 0 SHIELD_PLATE 5:B9 RGB_L_IN TP7005 TMDS0_RX1+ 5.01uF 25V C812 1000pF 50VR827 TP8014 R806 12K C833 0.5K 7:G1 MNT_R_OUT BCM_R_OUT2 SD_V6_AVDD1P2 C694 OPT C697 OPT 11 10 S_Only_47CMO(FHD) R819 TP8000 8 TP8001 4 5V_MNT TP8002 A1 B TP7074 /W_PROTECT 0 R835 3 RL_ON 8 E A2 WRITABLE GND GND PROTECT 2 7 3 6 4 5 TP7085 TP8027 C847 0.01uF 25V 5 3 A2.1V [S-VHS]C_LUG_L2 C653 TP6035 AP11 HDMI_RX_0_CEC_DAT SD_CVBS4 AN24 AN20 Q616 C E R3610 15K PPJ200-07 TP7026 5.7K C543 R517 0.1uF 16V TP7017 TP7012 5C ZD700 5.5M R2625 TMDS1_RX0+ 5 SCL TP6042 A0 R2658 1K 3.6V_BCM TP6027 6 C614 OPT C650 0.1uF 16V READY 0.3uF 50V R3613 GND GND TP7081 VR701 10V 4.1uF C579 TMDS_RXC-_BCM TMDS_RXC+_BCM L6 TMDS_RX0-_BCM C635 7:H6 L515 120OHM 16V 0.2V_BCM AH5 AJ6 AH8 HDMI_RX_1_AVSS C682 0.1uF C518 0. LGE Internal Use Only .8V_NTP C588 +9V 3.1uF 16V AG7 AJ4 C2601 10uF 16V C683 0.1uF C580 22 R661 22 DDC_SDA_BCM 25V 25V C636 C639 COMP1_Pb TP6078 16V 0.1uF 16V READY D1_1 S2 3 6 D2_2 G2 4 5 D2_1 TP8044 C899 0.3V 3.1uF GND MUTE2 4:L9 0 C2600 0.1uF E Q614 0 R2648 C662 0.5M 8 C546 0.7:H5.1uF HDMI_RX_0_DATA2_P SD_C2 C699 C698 0 .01uF E GND TP8034 +5.1uF C646 0 .6K R795 5.1V 4A TP7001 R700 ZD737 5.6:J3. Copyright © 2007 LG Electronics.3 C592 0.3K R501 C524 22000pF 50V 39 4 TP5003 LFM C541 0.3V F3 TMDS0_RX1- D3 A34 GND_2 TP6075 R612 0 2 SPDIF OUT C523 C527 22000pF 330uF 50V 35V F3 TMDS2_RX2+ D3 58 GND_5 VINPUT C526 0.1uF 16V C841 33uF 10V R823 365 IC812 3 OUT GND R822 430 ADJ GND 6 2.1uF TP6089 R3605 8:E7 IF_P 8:E7 IF_N 0.7:K1 78 L2 R630 1:K5 79 15 3 TP6009 HDMI_HPD_2 22 TP6018 80 3 L2 R629 23 4A SCL_HDMI_2 TP6008 21 5Y 9 SDA_HDMI_2 TP6005 16 U_CAN 0.7uF 6.1V TP7002 1uF R7017 E_SPRING GND C701 TP7010 0 TMDS0_RXC3 COMPOSITE1_SW ZD734 5.8TR O 6:G6 RGB_B DIGITAL_IF1 C802 27pF 50V TP8012 DIGITAL_IF2 100 L802 1:L9 SCL0_5V 1:L9 IF_P 6:J5 IF_N 6:J5 IF_AGC 0 6:I8 R807 10K SIF 2SA1504S Q800 B 25V R802 2K +5.47uF 50V TMDS2_RX0- DDC_SDA0 D2 10V VR606 38 5 3.1uF TP6114 SD_V5_AVDD1P2 AK18 R2642 1.01uF 1/10W 1% K9 MC33078_L_OUT 120OHM 7:E2 AV_L_IN_1 C8 A14 GND_3 1.0V 4 COMPOSITE2_SW +9V TP7046 TP7045 3 6:H8 COMPOSITE2_IN 5:B8 +5.1V TP7066 ZD721 8.6:L5 34 9 +3. Inc.6V 9 SDOUT 22 R2646 5.1uF PWM_MOD/AMP MICOM_RESET C9 C9 +1.M1 A1 AT24C02BN-10SU-1.6V_BCM SD_PR2 L606 C687 0.2V_BCM TMDS_RX1-_BCM TMDS_RX1+_BCM TMDS_RX2-_BCM TMDS_RX2+_BCM AG8 AJ8 C681 0.1uF C634 4.01uF 4.1V 25V 22 /W_PROTECT KRC102S E ZD719 8.5M 0 A1 2SA1504S C TP6116 Q610 2SC3875S BCM_R_OUT2 1:M5.1uF 16V R769 R7027 15K B 1K R814 NC_3 GND A2 TP7036 R779 6.1uF 16V C816 47uF 16V INPUT ADJ/GND C822 0.1V C737 R719 82 1uF R716 82 JP7001 2A C736 R713 82 R709 4.7uF 16V 10V ZD749 5.2V_BCM BCM_R_OUT2 R3612 470 20 R874 TP7004 100K D701 R7009 MMBD301LT1G G 82 R746 READY 62 R708 READY 6A T_TERMINAL1 5:B8 AV_L_IN_1 TP7032 5.1V ZD711 [BL]C_LUG_L 5B C717 10uF 16V [WH]1P_CAN 2D [BL]1P_CAN 2B JP7019 C716 10uF 16V [RD]C_LUG_L [GN]O_SPRING JP7021 C720 22pF R786 470K ZD729 5.3 TP6010 22 HDMI_CEC 4:J5.3V L806 BG2012B800 VO GND +5.01uF 25V VCC_3 8 READY F2 DDC_SCL2 24 7 F2 DDC_SDA2 22 TP6081 Y4 GND R631 R640 0 TP6064 R603 0 14 TP6006 R520 3.1uF 50V 3 2Y GND 0.1uF 0.3VST_MICOM 5B R791 0 L708 LCF41P060-TM READY ZD718 7C 7D 5.0V TP6053 TP6043 TP6034 I2 TMDS1_RX2- A2 GND 16V TMDS1_RX1+ E R2631 1.0V DATA2+ 18 POWER PIN MAP INVERTER MAIN P11 <-> P21 P12 <-> P20 P13 <-> P22 P14 <-> P17 16 15 14 C808 100pF 50V R689 1K R690 1K R666 A2 A1 C 47K R681 47K R678 Q612 KRA102S E C A2 A1 C 47K R682 B SCL_SINK 1K HPD_SINK SDA_SINK GND_7 1K R2657 READY 25V 0.0V_SUB TP8025 0 R805 +5.7uF ZD600 3.1uF L801 BG2012B800 6:I6 RGB_VS 100 Q700 C GND C719 22pF TP7061 TP7056 TP7069 GND TP7020 R780 10K 10K R768 R767 100 75 5 C730 SDA 50V 100pF 5.3V R872 0 READY GND SDA_HDMI_0 R7020 C743 0 OPT C745 OPT TP7087 4 IN GND 1 READY 2 C840 47uF 10V TP8061 +9V 4 5 +5.0V_SUB A3.8K GND 22 JP8007 TP8031 S_Common_without_32CMO(HD)_42AUO_52Sharp(FHD) R877 VBR_A TP8038 C848 0.3V_TMDS_SW C603 0.8V_NTP 16 TP5046 L511 120OHM R610 0 5 C534 1000pF 50V 0.5M READY VEE 7 R549 4.3V_TMDS_SW 1 10V VR605 100 TMDS0_RX2+ 21 1/10W 1% R505 D3 +9V R553 4.1V 7 3 R766 75 ZD710 5.5M READY TP6007 R554 270 R634 D6 PROTECT HPD3 1:K5 HDMI_HPD_1 TP6022 R604 0 13 MC33078_R_OUT 22 D6 TMDS2_RX1- WRITABLE 1.1V ZD724 5.0V Q605 KRC102S R2622 1.1uF 3.0V L618 7:E3 AV_R_IN_1 R2 M6 L600 R1 TP6068 B5 TP6057 R676 C616 0 OPT TP6061 GND L616 L617 0 DDC_SCL_BCM 1.6:L5 BCM3553_SPDIF_OUT D603 MMBD301LT1G C517 0.7K B9 TMDS_RX0+_BCM TP6093 L6 TP6092 L6 R652 TMDS_RX1-_BCM R651 0 TP6091 L7 0 TP6029 R557 OPT DDC_SCL2 READY TP6102 L7 R614 0 8 R556 C577 10K 22uF 16V D5 7 3 TP6040 READY 9 D5 TMDS2_RXC- A2 R2616 1.1uF IC503 TC74VHC04FT 50V 1000pF C531 10V VR607 R506 3.1uF C638 R3601 30K 4 L2 34 33 32 31 30 29 28 R663 READY C626 R694 34 R693 34 SDA 5 B E TP6060 BCM_R_OUT2 F9.L3 HDMI_POWER_1 R601 1K 16 +9V 28 65 A13 VCC_1 L7 JP6001 3 1 66 VCC_6 JP6004 C575 100uF 16V C573 0. 6 7:M6 TP6111 AG23 TP6065 9 0.1V ZD714 [RD]CONTACT ZD715 C725 15pF 50VGND 11 4.7:K7 TP6037 B /W_PROTECT 3.7uF SD_INCM_LC1 SD_V1_AVDD2P5 AJ22 C623 HDMI_RX_0_DATA1_P SD_CLKTST AJ18 C643 C647 GND2 50V ZD704 5.0V GND GND GND B5 L610 C637 C627 TP6028 C625 C 16V 0.0V HDMI_POWER_1 IC601 AT24C02BN-10SU-1.7uF 6.1V 0 7 14 +5.2V PGND_3 CIN 19 CVOUT TP8018 R817 TP8009 6:I7 Tu_CVBS TP8026 PGND_2 R810 18 PGND_1 6 R801 0 VCC 18 3 YOUT TP8017 BD9132MUV IC803 17 7 R824 15K 1% EN 16V R816 0 8 2 100 R811 R804 820 [YL]O_SPRING 4A 5A [YL]CONTACT 1 TP8023 ASEL C881 0.1V R758 ZD742 5.1V LCF41P060-TM L703READY R7007 READY GND TP7028 4.3V_BCM IC809 L811 UBW2012-121F GND C842 0.8 C733 10uF 16V READY 25V +5.1uF 16V C8806 10uF 16V D1_2 7 JP8009 TP8029 R859 TP8011 8 2 0 R834 S_Common_without_47CMO(FHD) JP8008 TP8032 R831 6.M3 TP6126 TP6098 BLM18BD102SN1D L603 I2 4 R2679 TP6119 Q611 2SC3875S L608 TMDS1_RX2+ KDS184 D602 GND TP6050 TP6117 BLM18BD102SN1D R620 0 GND SCL 0 C R662 A2.1uF 16V C686 0.1uF 7:A5 7:B5 7:B5 7 3 2K GND 470K R2644 I2 2 R2677 B TP6118 E R2678 C620 0.33uF 16V 16 GND GND 6:I6 TP7047 Q712 2SC3875S R757 E 22 RGB_HS B R783 1K TP7035 Q711 2SC3875S R756 E 22 1 VCC C728 100pF C727 47uF 16V C726 0.3V C865 47uF 16V OUTPUT C863 47uF 16V C817 0.7K R744 75 5.01uF 25V 5 3Y 110 C601 0.3V JP6002 K3.7uF READY AK17 C673 0.3V AL32 0.1uF R870 470 8 1:K7.3V_BCM GND VCC 10K R764 +5.1uF 16V C671 GND1 NC2 7:D7 COMP_L_IN_2 TEA6420D 7 BCM3553_AUD_MCLK 7:C7 COMP_R_IN_1 MCLK 22 AL31 AM33 0.1uF BLM18BD102SN1D RGB_B R2680 TP6125 SCL_HDMI_2 R675 0 TP6046 TP6120 2K L607 RGB_G COMP1_Y 21 JK601 16V 0.01uF C611 40 39 38 37 36 READY AK21 4.1uF 16V IC808 FMS6400CS1X TP8004 4C C723 OPT JP7041 JP7032 GND 0 ZD743 5.1uF READY C3 VCC 13 1K 4. 1 u F MC33078_L_OUT R565 0 AM18 AM17 R2661 0 AL19 TP6070 1uF MC33078_R_OUT C587 AINL RST COMPOSITE2_IN 16V 0.1uF C640 +5.1:L9.2V_BCM AN15 TP6031 C TP6079 R3602 15K 16 200 TP6062 EDSAFE_AVSS_1 AL34 0.1uF R639 100K 6A 11 0 C502 0.1uF 16V 9 ZD725 5.1uF C663 0.01uF R523 3.5M 0 R616 0 R617 D5 R2654 0 8:E7 GND 7 D5 DDC_SDA2 READY R552 4.7uF 6.1uF C8801 1uF 100uF C898 16V Q803 2SC3875S R868 TP8039 1K C895 47uF C896 1uF C8800 0.1V JP7031 JK705 R750 TP7098 JP7030 GND TP7048 ZD730 5.2V_BCM GND 11 5 ADJ 12 4 SW_4 ITH 13 3 SW_3 NC_1 14 2 SW_2 4 5 R825 12K NC_2 15 1 SW_1 READY R818 0 A1.1uF 16V SD_V6_AVDD2P5 SD_V1_AVDD1P2 C693 0.5M R2607 C572 0.1V TP7013 C738 R734 82 5.0V_SUB Q804 SI4925BDY GND S_Only_32CMO(HD) R875 7 100pF 50V C852 JP8000 INV_ON/OFF 9 ST_5V C810 0.6K KDS184 D601 VCC 8 1 C TP6110 I3 TMDS1_RXC- 10 D5 A0 Q604 KRC102S 4:N7.01uF 25V TP6115 R2645 1.6K R794 1uF R723 470K C742 0. 1 u F 0 .8 47K R7021 R7023 1K HDMI_POWER_0 CB4532UK121E L816 C809 100pF 50V P800 SMW200-24C 0 READY R832 5 GND JP8006 VBR_B 6 100uF 16V +5.1uF IC504 MC33078DR2G C519 10uF 16V R537 100 B21 B32 50 TP6072 19 C511 33pF 50V SDA 67 68 A32 51 11 R645 READY +5V_HPD 22 R544 OPT GND TMDS1_RXC- TMDS1_RXC+ TMDS1_RX0- A21 VCC_9 69 B22 70 GND_13 A22 71 72 52 10 25V 0.7:H5.8K TP7022 Q710 2SC3875S R7028 E 22 A1 C C TP7023 R778 6.01uF 0.7uF SD_L2 READY 0 AL3 SD_V3_AVDD2P5 AJ23 0.1uF C520 0.01uF READY 50V 5B TP7034 RCA-517HA-00A-01 READY 50V 27pF C709 5:B8 COMP_L_IN_1 1:K5 COMP1_SW TP7043 +5.1V [S-VHS]C_LUG_L1 7B 0 Tu_CVBS_INCM1 C632 0 . WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.5M I3 TMDS1_RX0- 6 READY READY TMDS1_RXC+ 6 5 GND TP6109 R2621 1.1uF 16V 100uF 16V S_Common_without_32CMO(HD)_47CMO(FHD)_52Sharp(FHD) TP8028 23 24 JK708 R873 R803 0 C843 0.0V 2 L813 BG2012B800 TP8005 AV_L_IN_2 5:D8 AV_R_IN_2 TP7052 TP7053 TP7054 TP7042 1 NC_1 EN Power_CTL_3.3V SC156515M-1.7uF 6.8 R2656 4.6K OC_S3 25 R605 0 13 4Y C604 0.0V ZD703 5.01uF C607 +9V TP6100 TP6085 1:M5.6:J1.6V_BCM 16V 25V AK3 AG4 AF8 R2668 10K AG6 R2669 10K AG5 R2670 10K L613 R2640 499 AH6 AH2 AH1 HDMI_RX_1_CLK_P SD_SIF2 H4 AK5 HDMI_RX_1_CLK_N HDMI_RX_1_DATA0_N AM2 TMDS_RXC-_BCM AJ7 HDMI_RX_1_RESREF SD_SIF1 H4 AK6 HDMI_RX_1_HTPLG_IN SD_INCM_CVBS2 AM1 BLM18BD102SN1D L612 DDC_SCL_BCM I4 AL4 HDMI_RX_1_HTPLG_OUT SD_INCM_CVBS1 I4 AK4 HDMI_RX_0_AVSS SD_CVBS1 A2.01uF DDC_SDA1 18 OC_S0 R2608 16V 16V 16V 16V 16V 16V 1.5M READY R2618 1.1uF 4.1uF C571 0.3V_TMDS_SW 1.0V 6:M9 MNT_L_OUT JP7007 2B GND TP7027 75 R747 [S-VHS]C_LUG_L3 [S-VHS]C_LUG_L4 0 R743 GND IN 6:H7 S-VIDEO1_C TP7030 OUT GND +5.M2 +5.01uF 17 22 18 S3 2 S2 1 CONTACT S1 O_SPRING GND_4 10 6 C565 ZD501 100pF 5 .3 TP8046 TP8020 2C [RD]U_CAN TP7060 JP7022 4:I7 TP7097 ZD751 ZD726 5.1uF 0 READY C586 1uF 50V 16V 0.1uF R2604 34 R2614 8:E9 R2623 0 Tu_CVBS C651 0 .3uF 50V MICOM_RESET 4:N5.0V SDA0_5V TP8024 R858 C80710pF AUDIO_OUT SHIELD JP7040 50V 15pF C721 JP7028 0 R7002 16V C888 0.1uF 50V 1F C522 1uF MCLK : 12.1uF 16V 3.7K 1:H2.5M TEA6420_R_OUT TMDS2_RXC+ 2 TP6052 JP6007 HDMICEC R615 A1 E TP6129 E R686 3.5M 3 OUTPUT2 TP6013 L4 14 C576 22uF 16V R555 150 VCC +3.5M READY C574 47pF INPUT2+ L4 R633 R632 L809 L1 D8 43 19 OC_S2 READY INPUT2- R551 4.3V_TMDS_SW +3.7K 0 R7003 GND 4:I7 DDC_SCL GND C825 0.1V ZD736 5.1uF 0.6K C729 5 R770 1K GND TP7024 R765 SCL C731 1uF 4 JP7045 WP OPT 6 GND GND TP7019 [RD]O_SPRING 5.6:J2.7 1/4W TP5001 TMDS2_RXC- R691 2K TP6123 R685 3.1V [RD]CONTACT AH23 AJ17 A1.1V 5.6V_BCM +B[5V] JP7027 25V R737 470K ZD741 5.3V_TMDS_SW +5.1uF C641 BCM_L_OUT2 0 +5.7K L709 120OHM 16V 0.3V R871 10K READY A2.1uF F3 D2 GND_10 Z4 R542 R521 3.1uF C514 +3.7uF 6.L1 HDMI_POWER_2 TP6066 R508 4.3VST_MICOM +5V_HPD JP6005 HDMICEC C513 330uF 35V C563 0.1uF C661 0.8V_NTP IC802 C814 4.01uF 4:N5.4:G5 SDA1_5V R562 10K C556 0.7K 68K R503 VCC_10 53 B12 A12 IC600 PI3HDMI341ART GND JK600 L513 120OHM L503 120OHM C516 0.7:K7 WRITABLE READY R618 0 4 /W_PROTECT READY I2 TMDS1_RX1- TP6047 IC602 PROTECT R2632 4.01uF 25V TP6095 R648 12 4 3.3V_BCM TMDS_RX0-_BCM TMDS_RX0+_BCM A1.1uF SIF C645 GND L707 LCF41P060-TM READY [S-VHS]GROUND_TER AM19 R2663 SPDIF_IN_P SD_INCM_LC3 AN17 TP6112 R3614 JK704 R790 R2662 0 AN19 AN16 C658 0.7K R2676 B8 TP6059 R673 0 SDA B BCM_L_OUT2 GND TP6049 TP6121 BCM_R_OUT1 L5 R674 C613 C615 0 OPT OPT B TP6038 1.C2 2 C664 0.5K AL33 0.1uF 16V R7019 WPTP7086 0 SDA 4 5 TP8041 L812 UBW2012-121F KDS184 D700 VCC SCL 0 C 1 C 2 3 0 47K R7022 A0 Q701 KRC102S 1 JP8001 A2 1:M5.0V 3 63 15 1.5TRT VBR_B S_Common_without_32CMO(HD)_47CMO(FHD) GND GND IC810 GND S_Only_47CMO(FHD) C878 10uF 16V READY 0 TP8022 C844 0.5M READY R2613 1.1uF C660 0.01uF C609 25V 0.C7 47K R679 EQ_S0 44 TMDS2_RX2- R667 OE 41 D6 1K 42 20 R2611 1.7K R2629 1.3V_TMDS_SW TP6107 RGB_R 0 GND +5.5M R697 INPUT1- AUDIO SWITCH 2 DDC_SCL1 GND_8 R650 TP6087 1. 0V Q901 SI4925BDY 4:N6 R9904 47K C917 1uF 25V TP9002 R9905 47K TP9001 TP9003 C B R900 1K S1 1 8 D1_2 G1 2 7 D1_1 S2 3 6 D2_2 G2 4 5 D2_1 TP9004 L910 UBW2012-121F GND TP9005 READY C922 47uF 16V C918 1uF 16V P901 SMW200-40C FHD GND E TP9006 GND R2905 0 R2906 0 TP9007 GND TP9008 R2907 1 : E 5LVDS_TX_OUT_PINPORT_TB4+_TO_TXA01 : E 4LVDS_TX_OUT_PINPORT_TB3+_TO_TXA11 : E 4LVDS_TX_OUT_PINPORT_TB1+_TO_TXA2- LVDS data format sel HD: PIN9 / FHD: PIN7 High(300) 26"AUO(HD) 32"CMO(HD) 42"AUO(HD) High(4.3V R9906 4.3V 1 : E 4LVDS_TX_OUT_PINPORT_TB2+_TO_TXA3R2932-*1 R2932 300 4.7K S_only_37LPL(FHD) 22 TP9014 Module Selection Low 1 : E 4 LVDS_TX_OUT_PINPORT_TA4+_TO_TXB0R922 1K GND 1 : E 4 LVDS_TX_OUT_PINPORT_TA3+_TO_TXB11 : E 4 LVDS_TX_OUT_PINPORT_TA1+_TO_TXB2- R2914 FHD 0 R2915 R2916 FHD FHD 0 0 1 : E 5LVDS_TX_OUT_PINPORT_TAC+_TO_TXBC1 : E 4 LVDS_TX_OUT_PINPORT_TA2+_TO_TXB31 : E 3 LVDS_TX_OUT_PINPORT_TA0+_TO_TXB4- R2917 R2918 FHD FHD 0 0 R2919 0 READY TP9011 31 32 33 34 35 36 37 38 39 R2927 FHD 0 R2928 R2929 FHD FHD 0 0 LVDS_TX_OUT_PINPORT_TA4-_TO_TXB0+ 1:E4 LVDS_TX_OUT_PINPORT_TA3-_TO_TXB1+ 1:E4 LVDS_TX_OUT_PINPORT_TA1-_TO_TXB2+ 1:E3 LVDS_TX_OUT_PINPORT_TAC-TO_TXBC+ R2930 R2931 40 FHD FHD 0 0 R9908 0 S_Common_without_37LPL(FHD) FRC Select HD:PIN30 / FHD:PIN27 Low: FRC OFF High: FRC ON High 37LPL(FHD) ONLY GND 1:E5 LVDS_TX_OUT_PINPORT_TA2-_TO_TXB3+ 1:E4 LVDS_TX_OUT_PINPORT_TA0-_TO_TXB4+ 1:E3 GND THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. Only for training and service purposes LGE Internal Use Only . FILRE AND ELECTRICAL SHOCK HAZARDS. Copyright © 2007 LG Electronics.+12. All right reserved.7K Module Selection High_300 1 : E 4LVDS_TX_OUT_PINPORT_TB0+_TO_TXA4- Module Selection High_4.7K S_Only_32CMO(HD) TP9013 GND R2921 0 R2922 0 R2923 0 LVDS_TX_OUT_PINPORT_TB4-_TO_TXA0+ 1:E5 LVDS_TX_OUT_PINPORT_TB3-_TO_TXA1+ 1:E4 LVDS_TX_OUT_PINPORT_TB1-_TO_TXA2+ 1:E4 1:E5 LVDS_TX_OUT_PINPORT_TBC-_TO_TXAC+ R2924 R2925 TP9012 R2926 0 FHD 0 LVDS_TX_OUT_PINPORT_TB2-_TO_TXA3+ 1:E4 LVDS_TX_OUT_PINPORT_TB0-_TO_TXA4+ 1:E4 +3.7K R2911 R2912 0 FHD R2913 0 TP9009 22 TP9010 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 +3. Inc.3V R9907 4. WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.7K) 37"LPL(HD) 37"LPL(FHD) 42"AUO(FHD) 47"CMO(FHD) 52"Sharp(FHD) HD Q902 2SC3875S TP9000 LVDS_PANEL_CTRL Low: VESA High: JEIDA P902 SMW200-26C 0 R2908 0 R2909 0 R2910 0 1 : E 5LVDS_TX_OUT_PINPORT_TBC+_TO_TXAC- +3. P/NO : MFL41370002 Feb.. 2008 Printed in Korea .
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