1@Lg 32lg30 Mfl41524403 Chassis La85a Lcd Tv Sm

Internal Use Onlywebsite:http://biz.LGservice.com

LCD TV SERVICE MANUALCHASSIS : LA85A

MODEL : 32LG30CAUTION

32LG30-UA

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

CONTENTS

CONTENTS .............................................................................................. 2 PRODUCT SAFETY ..................................................................................3 SPECIFICATION ........................................................................................6 ADJUSTMENT INSTRUCTION .................................................................9 TROUBLE SHOOTING ...........................................................................15 BLOCK DIAGRAM...................................................................................17 EXPLODED VIEW .................................................................................. 18 REPLACEMENT PARTS LIST ............................................................... 20 SVC. SHEET ...............................................................................................

Copyright 2007 LG Electronics. Inc. All right reserved. Only for training and service purposes

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LGE Internal Use Only

SAFETY PRECAUTIONSIMPORTANT SAFETY NOTICEMany electrical and mechanical parts in this chassis have special safety-related characteristics. These parts are identified by in the Schematic Diagram and Replacement Parts List. It is essential that these special safety parts should be replaced with the same components as recommended in this manual to prevent Shock, Fire, or other Hazards. Do not modify the original design without permission of manufacturer.

General GuidanceAn isolation Transformer should always be used during the servicing of a receiver whose chassis is not isolated from the AC power line. Use a transformer of adequate power rating as this protects the technician from accidents resulting in personal injury from electrical shocks. It will also protect the receiver and it's components from being damaged by accidental shorts of the circuitry that may be inadvertently introduced during the service operation. If any fuse (or Fusible Resistor) in this TV receiver is blown, replace it with the specified. When replacing a high wattage resistor (Oxide Metal Film Resistor, over 1W), keep the resistor 10mm away from PCB. Keep wires away from high voltage or high temperature parts.

Leakage Current Hot Check (See below Figure) Plug the AC cord directly into the AC outlet.Do not use a line Isolation Transformer during this check. Connect 1.5K/10watt resistor in parallel with a 0.15uF capacitor between a known good earth ground (Water Pipe, Conduit, etc.) and the exposed metallic parts. Measure the AC voltage across the resistor using AC voltmeter with 1000 ohms/volt or more sensitivity. Reverse plug the AC cord into the AC outlet and repeat AC voltage measurements for each exposed metallic part. Any voltage measured must not exceed 0.75 volt RMS which is corresponds to 0.5mA. In case any measurement is out of the limits specified, there is possibility of shock hazard and the set must be checked and repaired before it is returned to the customer.

Leakage Current Hot Check circuit

AC Volt-meterBefore returning the receiver to the customer,always perform an AC leakage current check on the exposed metallic parts of the cabinet, such as antennas, terminals, etc., to be sure the set is safe to operate without damage of electrical shock.

Leakage Current Cold Check(Antenna Cold Check)With the instrument AC plug removed from AC source, connect an electrical jumper across the two AC plug prongs. Place the AC switch in the on position, connect one lead of ohm-meter to the AC plug prongs tied together and touch other ohm-meter lead in turn to each exposed metallic parts such as antenna terminals, phone jacks, etc. If the exposed metallic part has a return path to the chassis, the measured resistance should be between 1M and 5.2M. When the exposed metal has no return path to the chassis the reading must be infinite. An other abnormality exists that must be corrected before the receiver is returned to the customer.

To Instrument's exposed METALLIC PARTS

0.15uF

Good Earth Ground such as WATER PIPE, CONDUIT etc.

1.5 Kohm/10W


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SERVICING PRECAUTIONSCAUTION: Before servicing receivers covered by this service manual and its supplements and addenda, read and follow the SAFETY PRECAUTIONS on page 3 of this publication. NOTE: If unforeseen circumstances create conflict between the following servicing precautions and any of the safety precautions on page 3 of this publication, always follow the safety precautions. Remember: Safety First. General Servicing Precautions 1. Always unplug the receiver AC power cord from the AC power source before; a. Removing or reinstalling any component, circuit board module or any other receiver assembly. b. Disconnecting or reconnecting any receiver electrical plug or other electrical connection. c. Connecting a test substitute in parallel with an electrolytic capacitor in the receiver. CAUTION: A wrong part substitution or incorrect polarity installation of electrolytic capacitors may result in an explosion hazard. 2. Test high voltage only by measuring it with an appropriate high voltage meter or other voltage measuring device (DVM, FETVOM, etc) equipped with a suitable high voltage probe. Do not test high voltage by "drawing an arc". 3. Do not spray chemicals on or near this receiver or any of its assemblies. 4. Unless specified otherwise in this service manual, clean electrical contacts only by applying the following mixture to the contacts with a pipe cleaner, cotton-tipped stick or comparable non-abrasive applicator; 10% (by volume) Acetone and 90% (by volume) isopropyl alcohol (90%-99% strength) CAUTION: This is a flammable mixture. Unless specified otherwise in this service manual, lubrication of contacts in not required. 5. Do not defeat any plug/socket B+ voltage interlocks with which receivers covered by this service manual might be equipped. 6. Do not apply AC power to this instrument and/or any of its electrical assemblies unless all solid-state device heat sinks are correctly installed. 7. Always connect the test receiver ground lead to the receiver chassis ground before connecting the test receiver positive lead. Always remove the test receiver ground lead last. 8. Use with this receiver only the test fixtures specified in this service manual. CAUTION: Do not connect the test fixture ground strap to any heat sink in this receiver. Electrostatically Sensitive (ES) Devices Some semiconductor (solid-state) devices can be damaged easily by static electricity. Such components commonly are called Electrostatically Sensitive (ES) Devices. Examples of typical ES devices are integrated circuits and some field-effect transistors and semiconductor "chip" components. The following techniques should be used to help reduce the incidence of component damage caused by static by static electricity. 1. Immediately before handling any semiconductor component or semiconductor-equipped assembly, drain off any electrostatic charge on your body by touching a known earth ground. Alternatively, obtain and wear a commercially available discharging wrist strap device, which should be removed to prevent potential shock reasons prior to applying power to theCopyright 2007 LG Electronics. Inc. All right reserved. Only for training and service purposes

unit under test. 2. After removing an electrical assembly equipped with ES devices, place the assembly on a conductive surface such as aluminum foil, to prevent electrostatic charge buildup or exposure of the assembly. 3. Use only a grounded-tip soldering iron to solder or unsolder ES devices. 4. Use only an anti-static type solder removal device. Some solder removal devices not classified as "anti-static" can generate electrical charges sufficient to damage ES devices. 5. Do not use freon-propelled chemicals. These can generate electrical charges sufficient to damage ES devices. 6. Do not remove a replacement ES device from its protective package until immediately before you are ready to install it. (Most replacement ES devices are packaged with leads electrically shorted together by conductive foam, aluminum foil or comparable conductive material). 7. Immediately before removing the protective material from the leads of a replacement ES device, touch the protective material to the chassis or circuit assembly into which the device will be installed. CAUTION: Be sure no power is applied to the chassis or circuit, and observe all other safety precautions. 8. Minimize bodily motions when handling unpackaged replacement ES devices. (Otherwise harmless motion such as the brushing together of your clothes fabric or the lifting of your foot from a carpeted floor can generate static electricity sufficient to damage an ES device.) General Soldering Guidelines 1. Use a grounded-tip, low-wattage soldering iron and appropriate tip size and shape that will maintain tip temperature within the range or 500F to 600F. 2. Use an appropriate gauge of RMA resin-core solder composed of 60 parts tin/40 parts lead. 3. Keep the soldering iron tip clean and well tinned. 4. Thoroughly clean the surfaces to be soldered. Use a mall wirebristle (0.5 inch, or 1.25cm) brush with a metal handle. Do not use freon-propelled spray-on cleaners. 5. Use the following unsoldering technique a. Allow the soldering iron tip to reach normal temperature. (500F to 600F) b. Heat the component lead until the solder melts. c. Quickly draw the melted solder with an anti-static, suctiontype solder removal device or with solder braid. CAUTION: Work quickly to avoid overheating the circuit board printed foil. 6. Use the following soldering technique. a. Allow the soldering iron tip to reach a normal temperature (500F to 600F) b. First, hold the soldering iron tip and solder the strand against the component lead until the solder melts. c. Quickly move the soldering iron tip to the junction of the component lead and the printed circuit foil, and hold it there only until the solder flows onto and around both the component lead and the foil. CAUTION: Work quickly to avoid overheating the circuit board printed foil. d. Closely inspect the solder area and remove any excess or splashed solder with a small wire-bristle brush.

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IC Remove/Replacement Some chassis circuit boards have slotted holes (oblong) through which the IC leads are inserted and then bent flat against the circuit foil. When holes are the slotted type, the following technique should be used to remove and replace the IC. When working with boards using the familiar round hole, use the standard technique as outlined in paragraphs 5 and 6 above. Removal 1. Desolder and straighten each IC lead in one operation by gently prying up on the lead with the soldering iron tip as the solder melts. 2. Draw away the melted solder with an anti-static suction-type solder removal device (or with solder braid) before removing the IC. Replacement 1. Carefully insert the replacement IC in the circuit board. 2. Carefully bend each IC lead against the circuit foil pad and solder it. 3. Clean the soldered areas with a small wire-bristle brush. (It is not necessary to reapply acrylic coating to the areas). "Small-Signal" Discrete Transistor Removal/Replacement 1. Remove the defective transistor by clipping its leads as close as possible to the component body. 2. Bend into a "U" shape the end of each of three leads remaining on the circuit board. 3. Bend into a "U" shape the replacement transistor leads. 4. Connect the replacement transistor leads to the corresponding leads extending from the circuit board and crimp the "U" with long nose pliers to insure metal to metal contact then solder each connection. Power Output, Transistor Device Removal/Replacement 1. Heat and remove all solder from around the transistor leads. 2. Remove the heat sink mounting screw (if so equipped). 3. Carefully remove the transistor from the heat sink of the circuit board. 4. Insert new transistor in the circuit board. 5. Solder each transistor lead, and clip off excess lead. 6. Replace heat sink. Diode Removal/Replacement 1. Remove defective diode by clipping its leads as close as possible to diode body. 2. Bend the two remaining leads perpendicular y to the circuit board. 3. Observing diode polarity, wrap each lead of the new diode around the corresponding lead on the circuit board. 4. Securely crimp each connection and solder it. 5. Inspect (on the circuit board copper side) the solder joints of the two "original" leads. If they are not shiny, reheat them and if necessary, apply additional solder. Fuse and Conventional Resistor Removal/Replacement 1. Clip each fuse or resistor lead at top of the circuit board hollow stake. 2. Securely crimp the leads of replacement component around notch at stake top. 3. Solder the connections. CAUTION: Maintain original spacing between the replaced component and adjacent components and the circuit board to prevent excessive component temperatures.Copyright 2007 LG Electronics. Inc. All right reserved. Only for training and service purposes

Circuit Board Foil Repair Excessive heat applied to the copper foil of any printed circuit board will weaken the adhesive that bonds the foil to the circuit board causing the foil to separate from or "lift-off" the board. The following guidelines and procedures should be followed whenever this condition is encountered. At IC Connections To repair a defective copper pattern at IC connections use the following procedure to install a jumper wire on the copper pattern side of the circuit board. (Use this technique only on IC connections). 1. Carefully remove the damaged copper pattern with a sharp knife. (Remove only as much copper as absolutely necessary). 2. carefully scratch away the solder resist and acrylic coating (if used) from the end of the remaining copper pattern. 3. Bend a small "U" in one end of a small gauge jumper wire and carefully crimp it around the IC pin. Solder the IC connection. 4. Route the jumper wire along the path of the out-away copper pattern and let it overlap the previously scraped end of the good copper pattern. Solder the overlapped area and clip off any excess jumper wire. At Other Connections Use the following technique to repair the defective copper pattern at connections other than IC Pins. This technique involves the installation of a jumper wire on the component side of the circuit board. 1. Remove the defective copper pattern with a sharp knife. Remove at least 1/4 inch of copper, to ensure that a hazardous condition will not exist if the jumper wire opens. 2. Trace along the copper pattern from both sides of the pattern break and locate the nearest component that is directly connected to the affected copper pattern. 3. Connect insulated 20-gauge jumper wire from the lead of the nearest component on one side of the pattern break to the lead of the nearest component on the other side. Carefully crimp and solder the connections. CAUTION: Be sure the insulated jumper wire is dressed so the it does not touch components or sharp edges.

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SPECIFICATIONNOTE : Specifications and others are subject to change without notice for improvement.

1. Application RangeThis spec sheet is applied to the 26"/32" LCD TV used LA85A chassis.

3. Test method1) Performance : LGE TV test method followed. 2) Demanded other specification - Safety : UL1492, CSA C22.2 No.1 - EMC : FCC Class B, IC Class B

2. SpecificationEach part is tested as below without special appointment 1) Temperature : 20 5C 2) Relative Humidity : 65 10% 3) Power Voltage : Standard input voltage (100-240V@ 50/60Hz) Standard Voltage of each products is marked by models 4) Specification and performance of each parts are followed each drawing and specification by part number in accordance with BOM. 5) The receiver must be operated for about 20 minutes prior to the adjustment.

4. General Specification(TV)No. 1. 2. Receiving System Available Channel Item Specification ATSC/ NTSC-M 1) VHF : 02~13 2) UHF : 14~69 3) DTV : 02-69 4) CATV : 01~135 5) CADTV : 01~135 3. 4. 5. 6. 7. 8. 9. 10. Input Voltage Market Screen Size Aspect Ratio Tuning System LCD Module Operating Environment Storage Environment 1) 100- 240V~, 50/60Hz NORTH AMERICA 26 inch Wide (1366 x 768) 32 inch Wide (1366 x 768) 16:9 FS T260XW003 V3(26inch) V315B 1-L07(32inch) 1) Temp : 0 ~ 40 deg 2) Humidity : ~ 80 % 1) Temp : -20 ~ 60 deg 2) Humidity : 0 ~ 85 % AUO CMO Mark : 110V, 60Hz Remark


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5. Chroma & BrightnessNo 1 2 3 4 Item White peak brightness (Center 1-point / Full White Pattern) White average brightness Brightness uniformity Color coordinate RED GREEN BLUE WHITE 5 6 7 Color coordinate uniformity Contrast ratio Color Temperature Cool Standard Warm 8 9 10 11 Color Distortion, DG Color Distortion, DP Color S/N, AM/FM Color Killer Sensitivity 43.0 -80 700:1 1200:1 10,000 8,300 5,500 800:1 1500:1 11,000 9,300 6,500 12,000 10,300 7,500 10.0 10.0 % deg dB dBm X Y X Y X Y X Y 80 0.642 0.333 0.285 0.597 0.146 0.065 0.280 0.290 Min. 400 400 Typ. 500 500 Max. Unit cd/m cd/m %2

Remark 26LG30-UA 32LG30-UA N/A Full white 0.03 0.03 0.03 0.03 0.03 0.03 0.03 0.03 N/A 26LG30-UA 32LG30-UA HDMI input, 85% Full white pattern

cd/m22

6. Component Video Input (Y, PB, PR)No. 1 2 3 4 5 6 7 8 9 10 Specification Resolution 720*480 720*480 720*480 720*480 1280*720 1280*720 1920*1080 1920*1080 1920*1080 1920*1080 H-freq(kHz) 15.73 15.73 31.47 31.47 45.00 44.96 33.75 33.72 67.5 67.432 V-freq(Hz) 59.94 60.00 59.94 60.00 60.00 59.94 60.00 59.94 60 59.939 Pixel clock 13.5135 13.5 27.027 27.0 74.25 74.176 74.25 74.176 148.50 148.352 Remark SDTV ,DVD 480I SDTV ,DVD 480I SDTV 480P SDTV 480P HDTV 720P HDTV 720P HDTV 1080I HDTV 1080I HDTV 1080P HDTV 1080P


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7. RGB input (PC)No. Resolution PC 1. 2. 3. 4. 5. 6. 7. 8. 640*350 720*400 640*480 800*600 1024*768 1280*768 1360*768 1366*768 31.469 31.469 31.469 37.879 48.363 47.776 47.720 47.13 70.08 70.08 59.94 60.31 60.00 59.87 59.799 59.65 25.17 28.32 25.17 40.00 65.00 79.50 84.75 72 DOS DOS VESA(VGA) VESA(SVGA) VESA(XGA) CVT(WXGA) CVT(WXGA) O O O O O O Specification H-freq(kHz) V-freq(Hz) Pixel clock(MHz) DDC Remark

8. HDMI input (PC/DTV)No. PC 1. 2. 3. 4. 5. 6. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 640*480 800*600 1024*768 1280*768 1360*768 1366*768 DTV 720*480 720*480 1280*720 1280*720 1920*1080 1920*1080 1920*1080 1920*1080 1920*1080 1920*1080 1920*1080 1920*1080 31.50 31.47 45.00 44.96 33.75 33.72 67.500 67.432 27.000 26.97 33.75 33.71 60 59.94 60.00 59.94 60.00 59.94 60 59.939 24.00 23.976 30.00 29.97 27.027 27.00 74.176 74.25 74.25 74.176 148.50 148.352 74.25 74.176 74.25 74.176 HDTV 1080P HDTV 1080P HDTV 1080P HDTV 1080P SDTV 480P SDTV 480P HDTV 720P HDTV 720P HDTV 1080I HDTV 1080I HDTV 1080P 31.469 37.879 48.363 47.776 47.720 47.13 59.94 60.31 60.00 59.87 59.799 59.65 25.17 40.00 65.00 79.50 84.75 72 VESA(VGA) VESA(SVGA) VESA(XGA) CVT(WXGA) CVT(WXGA) Resolution H-freq(kHz) V-freq(Hz) Pixel clock(MHz) Remark DDC O O O O O


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ADJUSTMENT INSTRUCTION1. Application ObjectThese instructions are applied to all of the LCD TV, LA85A.

3-3. Adjustment(1) ADC 480i Component1 adjustment 1) Check the Component1 connection condition from the used device. 2) Apply 480i Mode, Horizontal 100% Color Bar Pattern to Comp1 port.(MSPG-925FA => Model: 209, Pattern: 65) 3) Set the input to Component1 and select Normal as video. 4) Wait for one second or longer after receiving the signal, press the ADJ key of the R/C to enter into 'Ez-Adjust', select '3. ADC 480i Comp1', and press the Enter key to automatically adjust. 5) If it is normally adjusted, the message "ADC Component1 Success" is displayed. 6) If it is not normally adjusted, the message 'ADC Component1 480i Fail' is displayed. If the component is not connected, the message Component1 Not Connected, or if the input format is not 480i, the message 'Not Valid Format', or if there is no input signal, the message 'Check Signal Status' is displayed for one second. 7) If the adjustment is failed, check the pattern or the adjustment condition and then readjust (2) ADC 1080p Component1 / RGB adjustment 1) Check the connection condition of Component1 and RGB from the device to use. 2) Apply 1080p Mode, 100% Horizontal Color Bar Pattern to Comp1 and RGB port. (MSPG-925 Series => model:225 , pattern:65 ) 3) Set the input to Component1 and select Normal as video. 4) Wait for one second or longer after receiving the signal, press the ADJ key of the R/C to enter into 'Ez-Adjust', select '4. ADC 1080p Comp1/RGB', and press the Enter key to automatically adjust the component1. 5) If it is normally adjusted, the message "ADC Component1 Success" is displayed, or if not, the message 'ADC Component1 1080p Fail' is displayed. 6) When adjusting the Component1 is ended, it is automatically switched to the RGB-DTV Mode and the RGT adjustment is started. If it is normally adjusted, the message "ADC RGB 1080P Success" is displayed. 7) If it is not normally adjusted, check the pattern or the adjustment condition, and then readjust. The error message is same to 6). 8) If the adjustment is ended, press the ADJ key to exit from the adjustment mode. If the 7) adjustment is ended, press the ADJ or the Exit of the adjustment R/C to exit from the adjustment mode.

2. Notes(1) Because this is not a hot chassis, it is not necessary to use an isolation transformer. However, the use of isolation transformer will help protect test equipment. (2) Adjustments must be done in the correct order. (3) The adjustments must be performed in the circumstance of 205C of temperature and 6510% of relative humidity if there is no specific designation. (4) The input voltage of the receiver be must kept 220V, 60Hz when adjusting. (5) The receiver must be operational for about 15 minutes prior to the adjustments. (6) Perform preliminary operation after receiving 100% White Pattern (06CH). (Or 3. White Pattern status of Ez-Adjust) (7) White Pattern entry method 1) Enter into Ez-Adjust by pressing the ADJ key on the adjustment R/C. 2) 100% FULL WHITE PATTERN appears if pressing the OK (A) key after selecting the 3.WHITE PATTERN with the CH + / - KEY. * It is possible to heat run the set without a separate signal generator in this mode. Caution : Care must be taken as afterimage phenomena may occur about the black level part of screen If leaving pause image turned on for more than 20 minutes (especially inner digital pattern (13 CH), Cross Hatch Pattern (09CH) with significant black/white contrast).

3. ADC-Set Adjustment3-1. SynopsisADC-set is Gain and Black level setting at Analog to Digital converter, and compensate the RGB deviation.

3-2. Test Equipment1) Service R/C 2) 801GF(802B, 802F, 802R) or MSPG925FA Pattern Generator - Revolution : 480i, 1080i - Pattern name : Horizontal 100% Color Bar Pattern - Pattern level : 0.70.1Vp-p) - Image


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4. EDID (The Extended Display Identification Data)/ DDC(Display Data Channel) Download4-1. SummaryIt is established in VESA, for communication between PC and Monitor without order from user for building user condition. It helps to make easily use realize "Plug and Play" function.

4-4. EDID DATA for LA73E* It is possible to download on only POWER ON MODE.O

HDMI-1 [C/S : 8A27] EDID Block 0 table =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 0 10 20 30 40 50 60 70 00 00 09 01 36 58 58 00

4-2. Required Test Equipment1) PC (with S/W : EDID Data write & Read) 2) EDID DOWNLOAD JIG 3) HDMI Cable, D-Sub cable

EDID Block 1 table =0 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 10 20 30 40 50 60 70 02 67 6E 16 20 D0 26 00

4-3. Connection diagram(Setting of DL device)

O

1) Set devices as above and turn on the PC and JIG. 2) Operate the DDC program.(EDID data write & read). 3) In menu, enter to model -> open and select EDID Data


0 0 10 20 30 40 50 60 70 00 00 09 01 36 58 58 00

4-4. How to download1) Configure the download environment as shown at the adjustment wiring diagram and turn on the PC. 2) Execute the DDC program. (EDID Data Write & Read) 3) Go to Model -> Open, and select the EDID data of the desired model. 4) Check the item to download from the item 4-1) HDMI & RGB: Check Digital & Analog 4-2) (Only)HDMI: Check Digital only 5) Press ESC(Cancel Mode) -> F8(Auto Mode). (Set Auto Detecting) 6) Connect the desired signal cable to the set. 7) Make sure that the popup "Proceed to write?" is displayed. 8) Press the Enter key or the space key to download. 9) After downloading, check the OK message and disconnect the connected cable.

EDID Block 1 table =0 0 10 20 30 40 50 60 70 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

O


0 0 10 20 30 40 50 60 70 00 00 09 01 36 58 58 00


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EDID Block 1 table =0 0 10 20 30 40 50 60 70 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 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 07Signal Source * Not used when the inner pattern of the TV set is used Probe

Co lo r AnalyzerRS -232C

Co m p ut erRS -232C RS -232C

Pat t ern Generat o r

Connection Diagram of Automatic Adjustment

O

RGB [C/S : F6BC] EDID Block 0 table =0 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

5-3. Adjustment command (Protocol)(1) ProtocolLEN CMD VAL CS

0 10 20 30 40 50 60 70

00 00 09 01 36 58 58 00

- LEN : Number of Data Byte - CMD : Command - VAL : Value of FOS Data - CS : Checksum - A : Acknowledge Ex) [Send: JA_00_DD] / [Ack: A_00_okDDX} (2) RS-232C Command(Automatic adjustment) RS-232C COMMAND [CMD wb wb wb wb wb wb ID 00 00 00 00 00 00 DATA] 00 10 1f 20 2f ff Meaning White Balance adjustment start. Start of adjust gain (Inner white pattern) End of gain adjust Start of offset adjust(Inner white pattern) End of offset adjust End of White Balance adjust(Inner pattern disappeared)

EDID Block 1 table =0 0 10 20 30 40 50 60 70 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

5. White Balance5-1. The Purpose and Principal of Color Temperature Adjustment(1) Purpose: to reduce the difference in color temperature among modules (2) Principal: A module is in full dynamic range when RGB Gain on OSD is 192. To adjust the white balance without causing full dynamic range and full data, fix one of RGB Gains at 192 and control the other two by reducing them from 192.

Ex) wb 00 00 : Start Auto-adjustment of white balance. wb 00 10 : Start Gain Adjustment (Inner pattern) ja 00 ff : Adjustment data jb 00 c0 : wb 00 1f : End of Gain adjustment * (wb 00 20(start), wb 00 2f(end)) -> In the case of Offset adjustment wb 00 ff : End of white balance adjustment

5-2. Required Equipment(1) Color Analyzer : CA-210 (NCG : CH 9 / WCG : CH12) (2) Automatic adjuster (with automatic adjustment necessity and the RS-232C communication being possible) (3) Remote control for adjustment (4) Video Signal Generator MSPG-925F 720p, 216Gray (Model : 217, Pattern 78)=> Applied only when the inner pattern cannot be used *Use the Color Analyzer with the matrix calibrated by the CS1000


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(3) Adjustment MapITEM Command Data Range (Hex.) Cmd 1 Cool R-Gain G-Gain B-Gain R-Cut G-Cut B-Cut Medium R-Gain G-Gain B-Gain R-Cut G-Cut B-Cut Warm R-Gain G-Gain B-Gain R-Cut G-Cut j j j d e f 00 00 00 C0 C0 C0 j j j a b c 00 00 00 C0 C0 C0 j j j Cmd 2 g h i Min 00 00 00 Max C0 C0 C0 TBD TBD TBD TBD TBD TBD TBD TBD TBD TBD TBD TBD TBD TBD TBD Defaulta (Decimal)

* The inner pattern is basically used, and if it is not possible, the adjustment can be done by selecting the HDMI input. NONE, INNER or HDMI can be selected by the bottom option at the Ez Adjust Menu 7.White Balance menu and it is set to INNER as default. If the adjustment cannot be done by the inner pattern, select the HDMI to adjust. * 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. 2) Probe location : 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). 3) Aging time - Keep the power on after the aging start (with no power off) to perform the heat run for 15 minutes or longer. - Make sure that the back light is turned on by using no signal and the full white pattern or others.

5-6. Reference(1) Brightness: Full white 216 Gray (2) Standard color coordinate and white balance when using the CS-1000Mode Color Coordination x COOL MEDIUM WARM 0.276 0.285 0.313 y 0.283 0.293 0.324 11000K 9300K 6500K 0.0000 0.0000 0.0000 Temp UV

5-4. Adjustment of White Balance(Automatic Adjustment) 1) The adjustment condition should be set by the Power On key. 2) Perform the zero calibration of the Color Analyzer and place the probe close to the display center. 3) Connect the communication cable (RS-232C). 4) Select the desired model of the adjustment program and perform the adjustment. 5) After the adjustment is ended (check the OK sign), check the adjustment condition for each mode of the set. (Warm, Medium, Cool) 6) Disconnect the probe and the communication cable to end the adjustment. * The adjustment should be started with "wb 00 00" and ended with "wb 00 ff", and the offset should be adjusted when necessary.

(3) Standard color coordinate and white balance when using the CA-210 (CH 10)Mode Color Coordination x COOL MEDIUM WARM 0.2760.002 0.2850.002 0.313+0.002 y 0.2830.002 0.2930.002 0.3240.002 11000K 9300K 6500K 0.0000 0.0000 0.0000 Temp UV

5-5. Manual white Balance1) The adjustment condition should be set by the Power On key. 2) Press the ADJ of the R/C to enter into 'EZ-ADJUST'. 3) Select '10.TEST PATTERN' with the CH +/- key and press the Enter key for 30 minutes or longer to perform the heat run. 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. 5) Press the ADJ of the R/C to select '7.White-Balance' of the Ez-Adjust and press the right arrow key(G) to enter into the adjustment mode. (As soon as you press 'G', the screen is entered into the full white inner pattern.) 6) Fix one of the R/G/B gains to 192 and decrease the remaining two gains to adjust not to exceed 192. 7) The adjustment is done at three white balances of Cool, Medium and Warm.

6. Select the option by country6-1. Overview1) The option selection is applied to the North American model only, which selects the rating related country. 2) Applied models: LA84A Chassis applied None USA Model(Canada, Mexico)

6-2. How to select1) 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. 2) Select 1.USA, 2.CANADA or 3.MEXICO from the country select according to the destination. At this time, use the volume +/- key to adjust


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7. Set the shipping mode (In-stop)- After completing the final test, in order to set the set to the shipping condition, press the In-Stop key of the R/C to make sure that the set is turned off.

9-3. Adjustment wiring diagram (Download device configuration diagram)Pin301 Interface B/D Main B/D

PC

8. GND and resisting pressure test8-1. How to test(1) Preparing for the automatic test on the GND & resisting pressure - Make sure that the power cord is completely inserted into the set. (When it is disconnected or loosened, test after inserting it) (2) Perform the automatic test on the GND & resisting pressure 1) The set with power cord, the cord and the A/V completely inserted into the tuner is loaded on the pallet and entered into the automatic test process. 2) Connect the D-terminal AV JACK tester 3) Turn on the automatic (GWS103-4) 4) Perform the GND TEST 5) If it is not good, the buzzer is operated to notify the test result to the operator. 6) If it is OK, it is automatically switched to the resisting pressure test. (Disconnect the cord and the A/V from the AV JACK BOX) 6) Perform the resisting pressure test 7) If it is not good, the buzzer is operated to notify the test result to the operator. 8) If it is OK, the GOOD LAMP is turned and the stopper is moves down, and it moves to the next process.

9-4. Adjustment condition (Download condition)1) IC name & circuit number: MYSON MTV416GMF & IC4015 2) Power supply: 5V (P4004 Pin 3) 3) SCL: D-sub Pin 10 4) SDA: D-sub Pin 7

9-5. How to adjust (for downloading)1) fter executing LGE Monitor Tools v1.1, click the first icon. (See the figure)

8-2. Items to manage(1) TEST voltage - GND:1.5KV/min at 100mA - SIGNAL:3KV/min at 100mA (2) TEST time:1 second (3) TEST POINT - GND test = between Power cord GND and Signal cable metal GND - Resisting pressure test = between Power cord GND and Live & Neutral (4) LEAKAGE CURRENT: Set to 0.5mArms

2) When the screen is displayed as shown at the below figure, set the items as follows: - MCU Select: MTV512M64 - R/W Option: Auto Write(Verify) - Jig Option: Myson - Transmit Speed: Medium - Check: blank - PORT: Select the Parallel Port to use (LPT1 in general) * caution: Select the EPP as LPT from the ROM BIAS setting.

9. ISP Download (option)9-1. OverviewThe Micom upgrade via the external port for the service for the customer.

9-2. Device to use1) PC 2) B/D for the interface (IIC & ISP) 3) Jig for downloading (for the power supply)

3) Click the Load File Button, and select the desired Hex File to download. (If no file is displayed, make sure that the file format is selected as Hex file (*.hex))


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Do not plug off.

4) Click 'Send Button

Press EXIT to cancel the upgrade.

10. USB S/W Download (option)10-1. OverviewThe 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

10-2. How to dowunload1) After turning on the set, make sure that the display screen is turned on. 2) When the USB Memory Stick with the upgrade file applied is inserted into the USB jack on the main board, the following screen (example) is displayed after several seconds

Do not plug off. Press EXIT to cancel the upgrade.

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], and press the Enter button of the TV remote controller. 4) Downloading is proceeded as shown at the below screen, and when it is ended, turning on/off is automatically done. (When the automatic proceeding is not smoothly done, manually perform the power On/Off). 5) When downloading is ended, remove the USB Memory Stick from the USB jack. 6) Press the IN-START button of the remote controller to check the upgraded S/W version.


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TROUBLESHOOTING1. TV/CATV doesnt display.Check TU1 Pin 16 (Video out put). Can you see the normal signal? No Could you measure voltage of TU1 & IIC lines? Are they all normal? Yes Yes You should replace TUNER. No No You should check power line & IIC lines

Check the input (Pin 1) of LPF (IC808). Can you see the normal waveform? Yes Check the output (Pin 1) of LPF(IC808). Can you see the normal waveform? Yes Check the input (PinAN16) of BCM355x (IC100). Measure waveform at C658 because it;s more easy to chek. Can you see the normal waveform?

After checking video signal line & the Power of LPF you should decide to replace item or not.

No

After checking Power of LPF you should decide to replace item or not.

No

This board has big problem because Main chip (BCM355x) have some troubles. After checking throughly all path once again, You should dicide to replace BCM355x or not.

2. Video doesnt display.Check JK701, JK707. Can you see the normal waveform? Yes Check the input (PinAN17, AM19) of BCM355x (IC100). Measure waveform at C651 because its more easy to check. Can you see the normal waveform? No This board has big problem because Main chip (BCM355x) have some troubles. After checking throughly all path once again, You should dicide to replace BCM355x or not. No JK701, JK707 may have problem. Replace this Jack.


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3. Component doesnt display.Check JK700, JK702. Can you see the normal waveform? Yes Check the input and output of BCM355x (IC100). Especially you should check the H,V sync and clock. Can you see the normal waveform? No This board has big problem because Main chip (BCM355x) have some troubles. After checking throughly all path once again, You should dicide to replace BCM355x or not. No JK700, JK702 may have problem. Replace this Jack.

4. RGB_PC doesnt display.Check JK705. Can you see the normal waveform? Yes Check the input and output of BCM355x (IC100). Especially you should check the H,V sync and clock. Can you see the normal waveform? No This board has big problem because Main chip (BCM355x) have some troubles. After checking throughly all path once again, You should dicide to replace BCM355x or not. No JK705 may have problem. Replace this Jack.

5. HDMI doesnt display.Check the input connect JK601, JK602, JK708. Can you see the normal waveform? Yes No Check DDC communication lines.(IC601,IC603, IC701) Yes No Check HDCP communication lines. (IC102) Yes Check the input and output of BCM355x(IC100). Especially you should check the H,V sync and clock. Can you see the normal waveform? No This board has big problem because Main chip (BCM355x) have some troubles. After checking throughly all path once again, You should dicide to replace BCM355x or not. After checking the Powerof th chip, you should decide to replace this or not. After checking the Powerof th chip, you should decide to replace this or not. No JK601, JK602, JK708 mayhave prolbem Replace this Jack.


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AGC CTL (From BCM) DDR (128MB)X200 X-tal(54 MHz )

LG30: HD LG50: FHD

AT/NT TunerIF(AT) 74LVC14APWSIF

Flash (16MB)NVRAM 24C512

DDR(32MB) DDR(32MB) DDR(32MB) DDR(32MB) DDR(32MB) DDR(32MB) DDR(32MB) DDR(32MB) (4x16x4) (4x16x4) (4x16x4) (4x16x4) (4x16x4) (4x16x4) (4x16x4) (4x16x4) 64Bit I/F

CVBS

Reset VSB/QAM/NTSC/SIF

Buffer

Buffer

AV1CVBS/Y/C CVBS Y/ Cb/Cr Y/ Cb/Cr R/G/B

Digital outWXGA(768P) HD/SD Video Encoder

Copyright 2007 LG Electronics. Inc. All right reserved. Only for training and service purposesSingle LVDS Connector (HD) Dual LVDS Connector (FHD)

AV2

COMP1

Digital out

Full HD(1080P)

COMP2

Video Front End

BLOCK DIAGRAM

- 17 BCM3552(HD) BCM3553(FHD)Audio DSP I2S PI3HDMI341ATR (3x1,S/W) I2S I2S Audio Input CS5340 (A/D)Audio L/R Buffer

RGB

SDA SCL

H/V Sync EEPROM

MCLK

To Micom

NTP3000 (D-AMP)24C16

HDMI1 HDMI2 HDMI3MCLK

Dual HDMI Rx

HDMI CEC

EEPROM EEPROM EEPROM

HDMI CEC(To Micom)

MTV416 ( Micom) USB2.0 RS-232CUSB

IR & Local KEY

AV1 AV2 COMP1 MC33078 (AMP)

COMP2

TEA6420D (Audio SW)

Dead IC when Standby X400 X-tal(24 MHz)

RGB

Audio L/R

MNT out (L/R)

SPDIF OUT

Coaxial OUT (LG50)

Alive IC when Standby


EXPLODED VIEW

401

400

521

822

530

540

821

820

550

910

904 901

830

804

803

800

802

801

805

200

120

122

902

905

510

121


300

500

- 18 -


900

903

A2.6V_BCM 0 A1.2V_BCM 0.1uF 16V C100 A1.2V_BCM L105 HB-1M1608-102JT C101 16V 0.1uF TP1145

IC100 BCM3553DVO_1 BCM3553 DVO_2 DVO_0_0 DVO_0_1 DVO_0_2 DVO_0_3 DVO_0_4 DVO_0_5 DVO_0_6 DVO_0_7 DVO_0_8 DVO_0_9 DVO_0_10 PKT0_CLK PKT0_DATA PKT0_SYNC HSX_CLK HSX_DATA HSX_SYNC CHIP2POD_CRX CHIP2POD_DRX POD2CHIP_MCLKI POD2CHIP_MDI0 POD2CHIP_MDI1 POD2CHIP_MDI2 POD2CHIP_MDI3 POD2CHIP_MDI4 POD2CHIP_MDI5 POD2CHIP_MDI6 POD2CHIP_MDI7 POD2CHIP_MISTRT POD2CHIP_MIVAL CHIP2POD_MCLKO CHIP2POD_MDO0 CHIP2POD_MDO1 CHIP2POD_MDO2 CHIP2POD_MDO3 CHIP2POD_MDO4 CHIP2POD_MDO5 CHIP2POD_MDO6 CHIP2POD_MDO7 CHIP3POD_MOVAL VDAC_BGVDD2P5 VDAC_AVDD3P3_1 VDAC_AVDD3P3_2 VDAC_AVSS1 VDAC_AVSS2 VDAC_AVSS3 VDAC_AVDD1P2 VDAC_DREG VDAC_RBIAS VDAC_0 VDAC_1 VDAC_2 VDAC_3 HD_DVI_0 HD_DVI_1 HD_DVI_2 HD_DVI_3 HD_DVI_4 HD_DVI_5 HD_DVI_6 HD_DVI_7 HD_DVI_8 HD_DVI_9 HD_DVI_10 HD_DVI_11 HD_DVI_12 HD_DVI_13 HD_DVI_14 HD_DVI_CLK_N HD_DVI_CLK_P HD_DVI_DE HD_DVI_HSYNC HD_DVI_VSYNC +5.0V 0.1uF 0.1uF 0.1uF 0.1uF 16V 16V 16V 16V 4 . 7 u F 6.3V TP1131 C111 C112 C113 C114 C126 LVDS_TX_0_DATA_0_N LVDS_TX_0_DATA_0_P LVDS_TX_0_DATA_1_N LVDS_TX_0_DATA_1_P LVDS_TX_0_DATA_2_P LVDS_TX_0_DATA_3_N LVDS_TX_0_DATA_3_P LVDS_TX_0_DATA_4_N LVDS_TX_0_DATA_4_P LVDS_TX_1_DATA_0_N LVDS_TX_1_DATA_0_P LVDS_TX_1_DATA_1_N LVDS_TX_1_DATA_1_P LVDS_TX_1_DATA_2_N LVDS_TX_1_DATA_2_P LVDS_TX_1_DATA_3_N LVDS_TX_1_DATA_3_P LVDS_TX_1_DATA_4_N LVDS_TX_1_DATA_4_P LVDS_TX_0_CLK_N LVDS_TX_0_CLK_P LVDS_TX_1_CLK_N LVDS_TX_1_CLK_P LVDS_TX_AVSS_1 LVDS_TX_AVSS_2 LVDS_TX_AVSS_3 LVDS_TX_AVSS_4 LVDS_TX_AVSS_5 LVDS_TX_AVDD2P5_1 LVDS_TX_AVDD2P5_2 LVDS_PLL_AVDDC1P2 LVDS_TX_AVDDC1P2 DVO_0_11 DVO_0_12 DVO_0_13 DVO_0_14 DVO_0_15 DVO_0_16 DVO_0_17 DVO_0_18 DVO_0_19 DVO_0_20 DVO_0_21 DVO_0_22 DVO_0_23 DVO_0_24 DVO_0_25 DVO_0_26 DVO_0_27 DVO_0_28 DVO_0_29 DVO_0_CLK_NEG DVO_0_CLK_POS DVO_0_DE DVO_0_HSYNC DVO_0_VSYNC H7 E1 K8 J6 G4 E2 F3 L6 K5 H2 H6 H5 K7 G1 H3 G2 J5 G3 F2 H4 J7 J8 H1 K6 K2 K3 J2 K4 J3 J4 G8 G7 F4 D2 D1 B7 C7 D7 E7 B6 C6 B5 C5 D5 E5 A4 B4 D4 E4 A3 B3 B2 B1 F6 F5 D6 E6 C3 C2 A6 D8 H9 G6 C1 A7 E8 G5 G9 TP1134 EBI_ADDR[1-15] TP1135 L103 HB-1M1608-102JT L104 HB-1M1608-102JT J1 EBI_ADDR[1-15] C130 0.1uF LVDS_TX_OUT_PINPORT_TA0-_TO_TXB4+ LVDS_TX_OUT_PINPORT_TA0+_TO_TXB4LVDS_TX_OUT_PINPORT_TA1-_TO_TXB2+ LVDS_TX_OUT_PINPORT_TA1+_TO_TXB2LVDS_TX_OUT_PINPORT_TA2-_TO_TXB3+ LVDS_TX_OUT_PINPORT_TA2+_TO_TXB3LVDS_TX_OUT_PINPORT_TA3-_TO_TXB1+ LVDS_TX_OUT_PINPORT_TA3+_TO_TXB1LVDS_TX_OUT_PINPORT_TA4-_TO_TXB0+ LVDS_TX_OUT_PINPORT_TA4+_TO_TXB0LVDS_TX_OUT_PINPORT_TB0-_TO_TXA4+ LVDS_TX_OUT_PINPORT_TB0+_TO_TXA4LVDS_TX_OUT_PINPORT_TB1-_TO_TXA2+ LVDS_TX_OUT_PINPORT_TB1+_TO_TXA2LVDS_TX_OUT_PINPORT_TB2-_TO_TXA3+ LVDS_TX_OUT_PINPORT_TB2+_TO_TXA3LVDS_TX_OUT_PINPORT_TB3-_TO_TXA1+ LVDS_TX_OUT_PINPORT_TB3+_TO_TXA1LVDS_TX_OUT_PINPORT_TB4-_TO_TXA0+ LVDS_TX_OUT_PINPORT_TB4+_TO_TXA0LVDS_TX_OUT_PINPORT_TAC-TO_TXBC+ LVDS_TX_OUT_PINPORT_TAC+_TO_TXBCLVDS_TX_OUT_PINPORT_TBC-_TO_TXAC+ LVDS_TX_OUT_PINPORT_TBC+_TO_TXACA2.6V_BCM A1.2V_BCM N1 EBI_DATA[0-15] EBI_DATA[0] EBI_DATA[1] EBI_DATA[2] EBI_DATA[3] EBI_DATA[4] EBI_DATA[5] EBI_DATA[6] EBI_DATA[7] EBI_DATA[8] EBI_DATA[9] EBI_DATA[10] EBI_DATA[11] EBI_DATA[12] EBI_DATA[13] EBI_DATA[14] EBI_DATA[15] EBI_ADDR[1] EBI_ADDR[2] EBI_ADDR[3] EBI_ADDR[4] EBI_ADDR[5] EBI_ADDR[6] EBI_ADDR[7] EBI_ADDR[8] EBI_ADDR[9] EBI_ADDR[10] EBI_ADDR[11] EBI_ADDR[12] 4.7K R194 4.7K R195 4.7K R196 4.7K R197 4.7K R198 4.7K R199 4.7K EBI_ADDR[13] EBI_ADDR[14] EBI_ADDR[15] R193 C131 16V u F 0.1 C132 16V u F 0.1 16V A2.6V_BCM A3.3V_BCM TP1056 TP1054 VSS 4 5 SDATP1130

D3.3V_BCM

R179

AK34 AM30 AL30 AK29 AM31 AL29 AN31

OB_AGC OB_ADCAV1P2 OB_ADCAV2P5 OB_AVSS_1 OB_AVSS_2 OB_PLLAVDD1P2 OB_I_N OB_I_P OB_IFVCO_N OB_IFVCO_P

DVO_3 TP1030 TP1031 TP1032 TP1033 +5.0V G7 G8 EBI_ADDR24 TP1086 G6 EBI_ADDR16/PCI_CBE0 TP1087 H5 TP1037 TP1038 TP1040 A0 TP1042 DVO_14 A1 TP1044 A2 2 7 WP R2150 22 R2151 22 1 8 VCC TP1096 4.7K R136 4.7K R137 4.7K R138 C123 0.1uF 16V EBI_ADDR[1-15] TP1088 TP1089 EBI_ADDR[15] TP1090 EBI_ADDR[14] D3.3V_BCM TP1091 EBI_ADDR[13] TP1092 TP1093 EBI_ADDR[12] EBI_ADDR[11]

IC101 S29GL128N90TFIR10NC_1 A22 A15 A14 A13 A12 A11 A10 A9 A8 A19 A20 WE# RESET# A21 WP#/ACC TP1102 RY/BY# A18 A17 EBI_ADDR[8] EBI_ADDR[7] EBI_ADDR[6] EBI_ADDR[5] EBI_ADDR[4] EBI_ADDR[3] EBI_ADDR[2] A7 A6 A5 A4 A3 A2 A1 NC_6

TP1084

D1.2V_BCM A2.6V_BCM A1.2V_BCM D1.2V_BCMTP2015

EBI_ADDR23/PCI_DEVSELb 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 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 C234 0.1uF 16V C235 4.7uF 6.3V C236 1000pF 50V C237 0.01uF 25V C238 0.1uF 16V C239 10uF 6.3V C240 10uF 6.3V C241 47uF 25V C242 33uF 25V

IC100 BCM3553BCM3553 M12 M13 M14 M15 M16 M17 M18 M19 M20 M21 M22 M23 N12 N13 N14 N15 N16 N17 N18 N19 A10 VDDC_1 VDDC_2 VDDC_3 VDDC_4 VDDC_5 VDDC_6 VDDC_7 VDDC_8 VDDC_9 VDDC_10 VDDC_11 VDDC_12 VDDC_13 VDDC_14 VDDC_15 VDDC_16 VDDC_17 VDDC_18 VDDC_19 VDDC_20 VDDC_21 VDDC_22 VDDC_23 VDDC_24 VDDC_25 VDDC_26 VDDC_27 VDDC_28 VDDC_29 VDDC_30 VDDC_31 VDDC_32 VDDC_33 VDDC_34 VDDC_35 VDDC_36 VDDC_37 VDDC_38 VDDC_39 VDDC_40 VDDC_41 VDDC_42 VDDC_43 VDDC_44 VDDC_45 VDDC_46 VDDC_47 VDDC_48 VDDC_49 VDDC_50 VDDC_51 VDDC_52 VDDC_53 VDDC_54 VDDC_55 VDDC_56 VDDC_57 VDDC_58 VDDC_59 VDDC_60 VDDC_61 VDDC_62 VDDC_63 VDDC_64 VDDO_1 VDDO_2 VDDO_3 VDDO_4 VDDO_5 VDDO_6 VDDO_7 VDDO_8 VDDO_9 VDDO_10 VDDO_11 VDDO_12 VDDO_13 VDDO_14 VDDO_15 VDDO_16 VDDO_17 VDDO_18 VDDO_19 VDDO_20 VDDO_21 VDDO_22 VDDO_23 VDDO_24 VDDO_25 VDDO_26 VDDP_1 VDDP_2 VDDP_3 VDDP_4 VDDP_5 AGC_VDDO1 A13 A16 A19 A22 A25 A28 A31 A32 B30 B31 C4 C8 C29 D3 D10 D34 E9 E27 F7 F8 F24 F27 H8 H10 H11 H12 H13 H14 H15 H16 H17 H18 H19 H20 H21 H22 H23 H24 H25 H26 J9 J10 L5 L7 L26 M8 M26 M34 N1 N8 N34 P8 P14 P15 P16 P17 P18 P19 P20 P21 R8 R14 R15 R16 R17 R18 R19 R20 R21 R26 T1 T8 T14 T15 T16 T17 T18 T19 T20 T21 T26 T34 U8 U14 U15 U16 U17 U18 U19 U20 U21 V8 V14 V15 V16 V17 V18 V19 V20 V21 W1 =========== ========== CUTTING PIN LIST =========== ========== W8 GND_1 GND_2 GND_3 GND_4 GND_5 GND_6 GND_7 GND_8 GND_9 GND_10 GND_11 GND_12 GND_13 GND_14 GND_15 GND_16 GND_17 GND_18 GND_19 GND_20 GND_21 GND_22 GND_23 GND_24 GND_25 GND_26 GND_27 GND_28 GND_29 GND_30 GND_31 GND_32 GND_33 GND_34 GND_35 GND_36 GND_37 GND_38 GND_39 GND_40 GND_41 GND_42 GND_43 GND_44 GND_45 GND_46 GND_47 GND_48 GND_49 GND_50 GND_51 GND_52 GND_53 GND_54 GND_55 GND_56 GND_57 GND_58 GND_59 GND_60 GND_61 GND_62 GND_63 GND_64 GND_65 GND_66 GND_67 GND_68 GND_69 GND_70 GND_71 GND_72 GND_73 GND_74 GND_75 GND_76 GND_77 GND_78 GND_79 GND_80 GND_81 GND_82 GND_83 GND_84 GND_85 GND_86 GND_87 GND_88 GND_89 GND_90 GND_91 GND_92 GND_93 GND_94 GND_95 GND_96 GND_97 GND_98 GND_99 GND_100 GND_101 GND_102 GND_103

IC100 BCM3553BCM3553 GND_108 GND_109 GND_110 GND_111 GND_112 GND_113 GND_114 GND_115 GND_116 GND_117 GND_118 GND_119 GND_120 GND_121 GND_122 GND_123 GND_124 GND_125 GND_126 GND_127 GND_128 GND_129 GND_130 GND_131 GND_132 GND_133 GND_134 GND_135 GND_136 GND_137 GND_138 GND_139 GND_140 GND_141 GND_142 GND_143 GND_144 GND_145 GND_146 GND_147 GND_148 GND_149 GND_150 GND_151 GND_152 GND_153 GND_154 GND_155 GND_156 GND_157 GND_158 GND_159 GND_160 GND_161 GND_162 GND_163 GND_164 GND_165 GND_166 GND_167 GND_168 GND_169 GND_170 GND_171 GND_172 GND_173 GND_174 GND_175 GND_176 GND_177 GND_178 GND_179 GND_180 GND_181 GND_182 GND_183 GND_184 GND_185 GND_186 GND_187 GND_188 GND_189 GND_190 GND_191 GND_192 GND_193 GND_194 GND_195 GND_196 GND_197 GND_198 GND_199 GND_200 GND_201 GND_202 GND_203 GND_204 GND_205 GND_206 GND_207 GND_208 GND_209 GND_210 GND_211 GND_212 GND_213 GND_214 W18 W19 W20 W21 W26 W34 Y8 Y9 Y14 Y15 Y16 Y17 Y18 Y19 Y20 Y21 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

NC_5 A16 R2153 BYTE# 4.7K VSS_2 DQ15/A-1 DQ7 DQ14 DQ6 DQ13 DQ5 DQ12 DQ4 VCC DQ11 DQ3 DQ10 DQ2 DQ9 DQ1 DQ8 DQ0 OE# VSS_1 CE# A0 NC_4 VIO TP1066 TP1065 EBI_ADDR[1] G8 EBI_CSb0 EBI_DATA[11] EBI_DATA[3] EBI_DATA[10] EBI_DATA[2] EBI_DATA[9] EBI_DATA[1] EBI_DATA[8] EBI_DATA[0] TP1067 TP1075 TP1074 TP1073 TP1072 TP1071 TP1070 TP1069 TP1068 G9 EBI_RDb C125 0.1uF 16V A1.2V_BCM EBI_DATA[15] EBI_DATA[7] EBI_DATA[14] EBI_DATA[6] EBI_DATA[13] EBI_DATA[5] EBI_DATA[12] EBI_DATA[4] TP1077 TP1079 D3.3V_BCM 4 JP2009 TP1083 TP1082 TP1081 3 JP2008 TP1085 G7 EBI_ADDR17/PCI_CBE 1 H4 EBI_DATA[0-15] 1 JP2006 2 P200 SMW250-04

+5.0V

0 R200 TP2016 0 R201 C200 4.7uF R202 6.3V 1.5K

TP1144 C103 0.1uF 16V C102 4.7uF 6.3V

AP31 AP32 AP33 A33 B33 C31 C30 D30 B32 H28 H29 G29 E28 B34 C32 K28 K27 J29 J28 J27

IC102 CAT24C08WI-GT

IC100 BCM3553R203 1.5KTP2013

16V

IC100-*1 BCM3552XKFEB5GBCM3552 A10 A13 A16 A19 A22 A25 A28 A31 A32 B30 B31 C4 C8 C29 D3 D10 D34 E9 E27 F7 F8 F24 F27 H8 H10 H11 H12 H13 H14 H15 H16 H17 H18 H19 H20 H21 H22 H23 H24 H25 H26 J9 J10 L5 L7 L26 M8 M26 M34 N1 N8 N34 P8 P14 P15 P16 P17 P18 P19 P20 P21 R8 R14 R15 R16 R17 R18 R19 R20 R21 R26 T1 T8 T14 T15 T16 T17 T18 T19 T20 T21 T26 T34 U8 U14 U15 U16 U17 U18 U19 U20 U21 V8 V14 V15 V16 V17 V18 V19 V20 V21 W1 W8 W14 W15 W16 W17 GND_1 GND_2 GND_3 GND_4 GND_5 GND_6 GND_7 GND_8 GND_9 GND_10 GND_11 GND_12 GND_13 GND_14 GND_15 GND_16 GND_17 GND_18 GND_19 GND_20 GND_21 GND_22 GND_23 GND_24 GND_25 GND_26 GND_27 GND_28 GND_29 GND_30 GND_31 GND_32 GND_33 GND_34 GND_35 GND_36 GND_37 GND_38 GND_39 GND_40 GND_41 GND_42 GND_43 GND_44 GND_45 GND_46 GND_47 GND_48 GND_49 GND_50 GND_51 GND_52 GND_53 GND_54 GND_55 GND_56 GND_57 GND_58 GND_59 GND_60 GND_61 GND_62 GND_63 GND_64 GND_65 GND_66 GND_67 GND_68 GND_69 GND_70 GND_71 GND_72 GND_73 GND_74 GND_75 GND_76 GND_77 GND_78 GND_79 GND_80 GND_81 GND_82 GND_83 GND_84 GND_85 GND_86 GND_87 GND_88 GND_89 GND_90 GND_91 GND_92 GND_93 GND_94 GND_95 GND_96 GND_97 GND_98 GND_99 GND_100 GND_101 GND_102 GND_103 GND_104 GND_105 GND_106 GND_107 GND_108 GND_109 GND_110 GND_111 GND_112 GND_113 GND_114 GND_115 GND_116 GND_117 GND_118 GND_119 GND_120 GND_121 GND_122 GND_123 GND_124 GND_125 GND_126 GND_127 GND_128 GND_129 GND_130 GND_131 GND_132 GND_133 GND_134 GND_135 GND_136 GND_137 GND_138 GND_139 GND_140 GND_141 GND_142 GND_143 GND_144 GND_145 GND_146 GND_147 GND_148 GND_149 GND_150 GND_151 GND_152 GND_153 GND_154 GND_155 GND_156 GND_157 GND_158 GND_159 GND_160 GND_161 GND_162 GND_163 GND_164 GND_165 GND_166 GND_167 GND_168 GND_169 GND_170 GND_171 GND_172 GND_173 GND_174 GND_175 GND_176 GND_177 GND_178 GND_179 GND_180 GND_181 GND_182 GND_183 GND_184 GND_185 GND_186 GND_187 GND_188 GND_189 GND_190 GND_191 GND_192 GND_193 GND_194 GND_195 GND_196 GND_197 GND_198 GND_199 GND_200 GND_201 GND_202 GND_203 GND_204 GND_205 GND_206 GND_207 GND_208 GND_209 GND_210 GND_211 GND_212 GND_213 GND_214 W18 W19 W20 W21 W26 W34 Y8 Y9 Y14 Y15 Y16 Y17 Y18 Y19 Y20 Y21 Y26 AA8 AA9 AA14 AA15 HB-1M1608-102JT AA16 AA17 L102 AA18 AA19 AA20 6.3V 16V AA21 AB1 AB6 AB8 AB14 16V AB15 AB16 AB17 AB18 AB19 AB20 AB21 AB34 R188 560 READY R184 75 READY R185 75 READY R186 75 READY R187 75 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 C107 0.1uF READY A1.2V_BCM L100 HB-1M1608-102JT A3.3V_BCM L101 HB-1M1608-102JT C128 0.1uF C129 0.1uF A2.6V_BCM

BCM3553 M32 M31 AH32 AG30 16VTP2017 TP2014

D1.2V_BCM DDR1_ADDR00 DDR1_ADDR01 DDR1_ADDR02 DDR1_ADDR03 DDR1_ADDR04 DDR1_ADDR05 DDR1_ADDR06 DDR1_ADDR07 DDR1_ADDR08 DDR1_ADDR09 DDR1_ADDR10 DDR1_ADDR11 DDR1_ADDR12 DDR1_BA0 DDR1_BA1 DDR1_DATA00 DDR1_DATA01 DDR1_DATA02 DDR1_DATA03 DDR1_DATA04 DDR1_DATA05 DDR1_DATA06 DDR1_DATA07 DDR1_DATA08 DDR1_DATA09 DDR1_DATA10 DDR1_DATA11 DDR1_DATA12 DDR1_DATA13 DDR1_DATA14 DDR1_DATA15 DDR1_DATA16 DDR1_DATA17 DDR1_DATA18 DDR1_DATA19 DDR1_DATA20 DDR1_DATA21 DDR1_DATA22 DDR1_DATA23 DDR1_DATA24 DDR1_DATA25 DDR1_DATA26 DDR1_DATA27 DDR1_DATA28 DDR1_DATA29 DDR1_DATA30 DDR1_DATA31 DDR1_DM0 DDR1_DM1 DDR1_DM2 DDR1_DQS0 DDR1_DQS1 DDR1_DQS2 DDR1_DQS3 DDR1_RAS DDR1_CAS DDR1_WE EXT_DDR1_CLK DDR1_CLK0 DDR1_CLK0B DDR1_CKE DDR1_CSB0 DDR1_VREF0 DDR1_VREF1 DDR1_BVDD1P2_0 DDR1_BVDD1P2_1 DDR1_BVSS_0 DDR1_BVSS_1 DDR1_PLL_AIO T3 U4 U2 V2 V4 V3 U3 U5 U6 V5 T2 V6 V7 R2 R3 AB2 AA7 AB3 AA6 AA3 AA2 AA5 AA4 W5 W2 W4 W3 Y3 W6 Y2 Y4 R4 R7 P2 P5 N2 P4 P6 P3 M6 M3 L2 M4 M2 M5 N4 N3 Y6 Y5 N5 N6 Y7 W7 P7 N7 T7 R5 R6 M7 R236 T5 T4 U7 L208 T6 AC2 L1 AB5 L4 C227 C218 AB4 L3 K1 4.7uF 0.1uF 0.1uF 0 1uF 16V 16VTP2035 TP2034

JP2007 C201 0 . 1 u F C202 0 . 1 u F H6 H6 A1.2V_BCM 54MHz_XTAL_N 54MHz_XTAL_P L201 HB-1M1608-102JTTP2018

BSC_S_SCL BSC_S_SDA CLK54_AVDD1P2 CLK54_AVDD2P5 CLK54_AVSS CLK54_XTAL_N CLK54_XTAL_P CLK54_MONITOR VCXO_AGND1 VCXO_AVDD1P2 BYP_XTAL_EN BYP_CPU_CLK BYP_SYS175_CLK BYP_SYS216_CLK BYP_DS_CLK BYP_SYS9_CLK USB_AVSS1 USB_AVDD1P2 USB_AVDD1P2PLL USB_AVDD2P5 USB_AVDD3P3 USB_RREF USB_AVDD2P5REF USB_DM1 USB_DP1 USB_DM2 USB_DP2 USB_MONCDR USB_MONPLLCDR USB_PWRFLT_1 USB_PWRFLT_2 USB_PWRON_1 USB_PWRON_2 RESET_OUT RESET NMI TMODE_0 TMODE_1 TMODE_2 TMODE_3 EJTAG_TCK EJTAG_TDI EJTAG_TDO EJTAG_TMS EJTAG_CE EJTAG_TRST PLL_MIPS_AVDD1P2 PLL_MIPS_AGND VCXO_PLL_AUD_TESTOUT PLL_DS_TESTOUT PLL_OB_TESTOUT PLL_VAFE_AVDD1P2 PLL_VAFE_AVSS PLL_VAFE_TESTOUT DDR1_VDDO2P5_1 DDR1_VDDO2P5_2 DDR1_VDDO2P5_3 DDR1_VDDO2P5_4 DDR1_VDDO2P5_5 DDR1_VDDO2P5_6 DDR1_VDDO2P5_7 DDR1_VDDO2P5_8 DDR1_VDDO2P5_9 DDR1_VDDO2P5_10 DDR1_VDDO2P5_11 DDR1_VDDO2P5_12

TP1094 EBI_ADDR[10] TP1095 EBI_ADDR[9] TP1097 TP1098 TP1099 TP1100 TP1101 R2152 2.7K TP1103

3

6

SCL

TP1016

L9;4:G5;5:E7 SCL1_5V L9;4:G5;5:E7 SDA1_5V G7 EBI_ADDR20/PCI_PAR G7 EBI_ADDR21/PCI_IRDYb G9 2:C4 EBI_WEb1 RST_OUTb

AH31 AH33 AH34 AG32 AF30 AF29 AH29 N29 N28

C289 0.1uF 16V

C243 1000pF 50V

C244 0.01uF 25V

C245 0.1uF 16V

C246 4.7uF 6.3V

C247 1000pF 50V

C248 0.01uF 25V

C249 0.1uF 16V

C250 4.7uF 6.3V

C251 1000pF 50V

C252 0.01uF 25V

EBI_ADDR22/PCI_STOPb G8

16V 0.1uF C203 4 . 7 u F 6.3VTP2003

C204

P27 AF28 AG28 AM13 AL12

D3.3V_BCM

N20 N21 N22 N23 P12 P13 P22 P23 R12 R13 R22 R23 T12 T13 T22 T23 U12 U13 U22 U23 V12 V13 V22 V23

A3.3V_BCM A2.6V_BCM

HDMI_HDCP KEY MEMORY

D32 C34 F32 H27 F34 F33 H31 F30 E30 E33 E32 H30 G28

TP1105 TP1106 TP1107 TP1108 TP1109 TP1110 TP1111 TP1112

C205 0 . 1 u F

C206 4 . 7 u F

C279 0.1uF

G7 EBI_ADDR19/PCI_CBE3 G7 EBI_ADDR18/PCI_CBE2

TP1104

L200 HB-1M1608-102JT

TP2019

AL13 AJ15 AK13

16V 16V

C253 4.7uF 6.3V

C254 1000pF 50V

C255 0.01uF 25V

C256 0.1uF 16V

C257 4.7uF 6.3V

C258 1000pF 50V

C259 0.01uF 25V

C260 0.1uF 16V

C261 10uF 6.3V

6.3V

TP2020

AK15 AK14 AP14 AN14 AL14 AM14 AJ14 AH14 AP13 AM12 AN13 0 0 TP2025 AN12 AD8 K29 R212 100K D3.3V_BCM R213 R214 R215 R216TP2027

C207 100pF

TP2021 50V

R206 3.9K C280 16V

0.1uF R241 120 A3.3V_BCM R9927 4.7K

USB_DM1 B8 B8 USB_DP1 R243 0 READY R244 0 READY R207 R208 F8 READYTP2023

D3.3V_BCM

CHIP2POD_MOSTRT LVDS_TX_0_DATA_2_N

R245 0

TP1142 TP1143 AL26 AM28 AL27 AJ26 C109 AK27 AK26 0.01uF AJ27 25V AP26 C110 AM27 0 . 1 u F TP1141 AN27

NC_2 NC_3

D3.3V_BCM

READY USB_PWRFLT1 USB_PWRON1TP2024 TP2026

READY

D2.6V_BCM

C108 0 . 1 u F C105 4 . 7 u F C106 0 . 1 u F

D9

C262 1000pF 50V C294 0.1uF C298 0.1uF

C263 0.01uF 25V

C264 0.1uF 16V

C265 4.7uF 6.3V

C266 1000pF 50V

C267 0.01uF 25V

C268 0.1uF 16V

AR200 1K

IC100 BCM3553BCM3553 AC32 AC33 AB31 AB32 AB33 AA31 AA32 Y30 Y31 Y33 Y32 AA27 AA28 AA30 AA29 Y27 U32 U33 U31 T32 T33 T31 W29 W30 V28 V30 V29 U27 U28 U29 U30 T27 AA33 Y28 V32 V27 R2100 0 R30 R32 W33 V33 P33 N33 T29 R27 R31 R29 V31 Y29 W28 PCI_AD00 PCI_AD01 PCI_AD02 PCI_AD03 PCI_AD04 PCI_AD05 PCI_AD06 PCI_AD07 PCI_AD08 PCI_AD09 PCI_AD10 PCI_AD11 PCI_AD12 PCI_AD13 PCI_AD14 PCI_AD15 PCI_AD16 PCI_AD17 PCI_AD18 PCI_AD19 PCI_AD20 PCI_AD21 PCI_AD22 PCI_AD23 PCI_AD24 PCI_AD25 PCI_AD26 PCI_AD27 PCI_AD28 PCI_AD29 PCI_AD30 PCI_AD31 PCI_CBE00 PCI_CBE01 PCI_CBE02 PCI_CBE03 PCI_CLK_IN PCI_CLK_OUT PCI_DEVSEL PCI_FRAME PCI_GNT0 PCI_GNT1 PCI_GNT2 PCI_INT_A0 PCI_INT_A1 PCI_INT_A2 PCI_IRDY PCI_PAR PCI_PERR PCI_REQ0 PCI_REQ1 PCI_REQ2 PCI_RST PCI_SERR PCI_STOP PCI_TRDY PCI_VIO_0 PCI_VIO_1 PCI_VIO_2 EBI_ADDR24 EBI_ADDR25 EBI_CS0 EBI_CS1 EBI_CS2 EBI_CS3 EBI_CS4 EBI_DS EBI_RD EBI_RW EBI_TA2 EBI_TA EBI_TS EBI_TSIZE0 EBI_TSIZE1 EBI_WE0 EBI_WE1 NAND_PB GPIO_00 GPIO_01 GPIO_02 GPIO_03 GPIO_04 GPIO_05 GPIO_06 GPIO_07 GPIO_08 GPIO_09 GPIO_10 GPIO_11 GPIO_12 GPIO_13 GPIO_14 GPIO_15 GPIO_16 GPIO_17 GPIO_18 GPIO_19 GPIO_20 GPIO_21 GPIO_22 GPIO_23 GPIO_24 GPIO_25 GPIO_26 GPIO_27 GPIO_28 GPIO_29 GPIO_30 GPIO_31 GPIO_32 GPIO_33 GPIO_34 GPIO_35 GPIO_36 GPIO_37 GPIO_38 GPIO_39 GPIO_40 GPIO_41 GPIO_42 GPIO_43 GPIO_44 GPIO_45 GPIO_46 GPIO_47 GPIO_48 GPIO_49 GPIO_50 GPIO_51 GPIO_52 GPIO_53 GPIO_54 GPIO_55 GPIO_56 GPIO_57 GPIO_58 GPIO_59 GPIO_60 GPIO_61 GPIO_62 GPIO_63 SGPIO_00 SGPIO_01 SGPIO_02 SGPIO_03 SGPIO_04 SGPIO_05 SGPIO_06 SGPIO_07 AJ9 AH10 AJ10 AH11 AM8 F29 D31 G27 C33 F28 E31 F31 AL9 AP7 L31 J33 AD7 AC8 AP8 AN8 AM9 AL10 AN9 K32 K30 M27 K31 L29 J34 G30 G32 G31 E29 L30 AG33 AG34 L33 M30 L32 K33 AP25 AN25 AM10 AL24 AL11 AN10 M28 M29 AF33 AE32 AC6 AE1 AC7 AD4 AE2 G33 D33 J30 J32 J31 H33 4.7K R2139 4.7K R2140 2.7K R2141 2.7K R2142 4.7K R2143 4.7K R2144 4.7K R2145 4.7K R2146 H32 L28 L27 AD29 AD30 AE31 AE30 AD6 AD5 AE4 AE3 R2130 22 RGB_SW 7 : L 7 REV_SEL2 M8 D3.3V_BCM BCM_RX 4 : E 1 BCM_TX 4:G2 J5 J5 K8 R2128 22 BCM3553_AUD_MCLK 5:C2;5:H8 TP1013 TP1017 TP1009 TP1011 TP1125 R2125 R2126 TP1128 R2127 22 22 22 22 22 22 R2117 R2124 R112 COMPOSITE1_SW 7 : E 2 VBR_A VBR_B HDMI_SEL_0 HDMI_SEL_1 HDMI_SEL_2 6:F4 4.7K R2158 4.7K R2159 6:F4 R2157 6:F4 +5.0V TP1122 22 R113 COMPOSITE2_SW 7:N6 TP1120 TP1121 22 22 M8 M8 R2115 R2116 COMP W 7:A7 1_S COMP W 7:C7 2_S TP1113 TP1114 TP1115 TP1116 TP1117 TP1118 TP1119 22 0 0 0 0 0 0 R2118 R2119 R2120 R2114 R2121 R111 1K R110 1K 1K R2122 R2123 HDMI_HPD_0 HDMI_HPD_1 HDMI_HPD_2 6:D2 6:D8 6:D5 S-VIDEO1_SW 7 : E 2

C124 0.1uF

1:J2 4:C2 R210 4.7K

RST_OUTb BCM_RESET

R246 READY K34 R211

16V

C293 0.1uF

AF2 OPT OPT AF1 AE6 OPT OPT AE5 AG3 AF3 AG2 AF4 AF6 AF5

D2.6V_BCM A1.2V_BCMTP2037

W12 W13 W22 W23 Y12

TP2031

TP2028 TP2029

16V

16V

R209 OPT

TP1146

AN26 AM26 AM25 AM5 AN4 AP4 AL6 AM6 AP5 AN5 AL7 AL8 AN6 AM7 AK9 AN7 AK8 AH9 AJ11 AK10 AH12 AK11 AH13

TP2030

JP2000 JP2001 JP2002 HDMI_POWER_0 HDMI_POWER_1 HDMI_POWER_2 6:C1;6:L1 6:C7;6:L2 6:C4;6:L3 JP2003 JP2004 JP2005 OPT R218 R109 1K R219 R217 4.7K A1.2V_BCM L202 HB-1M1608-102JT 16V 0.1uF C208 L203 HB-1M1608-102JT 16V 0.1uF C210 C209 4.7uF 6.3V

C292 0.1uF

C295 0.1uF

C296 0.1uF

C297 0.1uF

C269 1000pF 50V

C270 0.01uF 25V

C271 0.1uF 16V

C272 10uF 6.3V

C273 47uF 25V

Y13 Y22 Y23 AA12 AA13 AA22

TP2032

N31 N30 M33 AH28 AJ28 AJ29TP2033

A1.2V_BCM

AA23 AB12 AB13 AB22 AB23 AC12 AC13 AC22 AC23 G34 J26

TP1132

EJTAG_RSTb 4:A1

PLL_MAIN_MIPS_RPTR_TESTOUT DDR1_DM3

C287 0.1uF

C288 0.1uF

AH17 AH18 AH19

REV_SEL0 REV_SEL1

C211 4.7uF 6.3V

D1.2V_BCM 0 L211 A1.2V_BCM HB-1M1608-102JT R232 22 50V 12pF C229

D3.3V_BCM

P1 U1 Y1 D2.6V_BCM AC1 AB7 C212 0.1uF 16V C213 0.01uF 25V C214 1000pF 50V C215 0.1uF 16V C216 0.01uF 25V C217 1000pF 50V N9 P9 R9 T9 U9 V9 4.7K R2161 4.7K R2162 W9 4.7K

K9 K26 L8 L9 M9 R220 604 C231 33pF 50V READY N26 P26 U26 54MHz_XTAL_P 54MHz_XTAL_N C2 C2 V26 V34 X200 54MHz L206 2.7uH AA26 AA34 AB9 AB26 R235 620 READY 50V 12pF C230 C232 33pF 50V AC9 AD9 AE9 AE26 R233 22 AF12 AF13 AF14 AF24 D2.6V_BCM AF25 AF26 N27

C219

C220

C222

C221 1uF6

J1 N1 J3 J3

EBI_ADDR16/PCI_CBE0 EBI_ADDR17/PCI_CBE1 EBI_ADDR18/PCI_CBE2 EBI_ADDR19/PCI_CBE3

PCI_REQ0 PCI_REQ1 PCI_REQ2 EBI_TA NAND_PB

I8 I8 I8 G9 G9

EBI_ADDR23/PCI_DEVSELb J1 TP1000

TP1001 TP1002 J2 J2 TP1003 EBI_ADDR21/PCI_IRDYb EBI_ADDR20/PCI_PAR TP1004 +5.0V R2101 R2102 OPT 0 D3.3V_BCM N7 N7 N7 PCI_REQ0 PCI_REQ1 PCI_REQ2

R242

470pF

6.3V 50V

470pF

.3V 50V

C223

Board Configurtion+3.3V

AF10 +3.3V A3.3V_BCM C290 0.1uF R228 2.7K R229 OPT READY C291 16V 16V1 u F 0. L207 HB-1M2012-800JTTP2052

AF11 AF27 AG27 AJ32

R28 R34 T28 T30 W27 W31 W32 P29 P28 P30 R33

R2147 2.7K

R2148 2.7K

R2149 2.7K

KJA-UB-4-0004 JK202

J3

TP1005 EBI_ADDR22/PCI_STOPb TP1006 C127

REV_SEL0 REV_SEL1 REV_SEL2

L204 MBW3216-501TF 1 JP2014 R225 0 JP2015 R226 0TP2040 TP2039

USB_POWER_OUT_1 F8 +5.0V C277 10uF 16VTP2043

IC201 TPS2052BDRG4GND

Bootstrap J1 A3.3V_BCM M4 EBI_ADDR24 EBI_CSb0

0.1uF

16V R135 22

C3 USB_DM1 C3 USB_DP1 C225 0.01uF 25V

TP2042

2

1

8

OC1

TP2011

R230 1K TP2047 USB_PWRFLT1

C274 0.1uF 16V C4

C275 0.01uF 25V

C276 4.7uF 6.3V

USB DOWN STREAM

+5.0V

3

P32 AD31 AE33

USB_POWER_OUT_1

JP2016

IN

2

7

OUT1

TP2046

C8

C228 1uF 10V

GND

D3.3V_BCM R2103 OPT TP1023 TP1024 TP1025 TP1026 TP1029 N7 TP1176 R2163 2.7K READY R105 2.7K READY R106 2.7K EBI_TA

AD32 AC30 AD34 AC29 AB28 AB27 AB29 AB30 N32 AD33 AC31 R2112 R2113 OPT AC27 AC28 0 P31

JP2017

4

TP2041

SCL0_5V SDA0_5V SCL1_5V SDA1_5V

8:E6 8:E6 H2;4:G5;5:E7 H2;4:G5;5:E7 4:J2;5:C5 4:J3;5:C5 4:K9 4:K9

READY R100 4.7K

READY R101 4.7K

64MB R102 4.7K

AK30 AL20 AN30 AN33 AN34 AP10 DVO_1 DVO_2 DVO_3 DVO_14

ZD204 READYTP2012 TP2036

ZD206 READYZD207 READY

5

C4

TP2044

EN1

3

6

OUT2

USB_PWRON1 C226 0.1uF 16V GND

TP1147 TP1148 TP1149

M3

EBI_RDb

ZD205 READY

EN2

4

5

OC2

TP2045

R231 OPT READY

SCL2_3.3V SDA2_3.3V SCL3_3.3V SDA3_3.3V

W14 GND_104 A1, A2, A5, A8, A11, A14, A17, A20, A23, A26, A29, A34, W15 GND_105 E3, E34, F1, H34, J1, W16 K10, K11, K12, K13, K14, K15, K16, K17, K18, K19, K20, K21, K22, K23, K24, K25, GND_106 L10, L11, L12, L13, L14, L15, L16, L17, L18, L19, L20, L21, L22, L23, L24, L25, L34, W17 GND_107 M1, M10, M11, M24, M25, N10, N11, N24, N25, P10, P11, P24, P25, P34, R1, R10, R11, R24, R25, T10, T11, T24, T25, U10, U11, U24, U25, U34, V1, V10, V11, V24, V25, W10, W11, W24, W25, Y10, Y11, Y24, Y25, Y34, AA1, AA10, AA11, AA24, AA25, AB10, AB11, AB24, AB25, AC10, AC11, AC24, AC25, AC34, AD1, AD10, AD11, AD12, AD13, AD14, AD15, AD16, AD17, AD18, AD19, AD20, AD21, AD22, AD23, AD24, AD25, AE10, AE11, AE12, AE13, AE14, AE15, AE16, AE17, AE18, AE19, AE20, AE21, AE22, AE23, AE24, AE25, AF34, AG1, AJ34, AK1, AP1, AP6, AP9, AP12, AP15, AP18, AP21, AP24, AP27, AP30, AP34

J2 N7

EBI_WEb1 NAND_PB

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

LA84A/LA85ABoot STRAP & FLASH

2007.10.25 1 9

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.OWER, USB

LA84A/LA85ABCM PO, USB

2007.10.25 2 9

D2.6V_BCM

D2.6V_BCM D3.3V_BCM D3.3V_BCM

D3.3V_BCM C307 0.1uF 16V A3;H1 DDR_DATA[0-63] A3;L1 DDR_DATA[0-63] A9;A5;F1;F4;F8 DDR_DATA[0-63] DDR0_VTT DDR0_VTT D400 KDS184 A2 C 8.2K R403 R400 0TP4010

C300 100uF 16V

C301 0.1uF 16V

C302 0.01uF 25V

C303 0.047uF 25V

C304 2700pF 50V

C305 470pF 50V

C306 100uF 16V

C308 0.01uF 25V

C309 0.047uF 25V

C310 2700pF 50V

C311 470pF 50V

RESETR2441 0 TP4075 IC401 74LVC14APW D3.3V_BCM BCM_RX 1:J8TP4081

IC408MC14053BDR2G 0ISTL00024AY1 VDD

ST_5VL416 HB-1M2012-800JTTP4078

NVRAM+5.0V +5.0V

DDR_DATA[0-63] D2.6V_BCM

DDR_DATA[0-63] D2.6V_BCM

DDR0_VTT

DDR0_ADDR[0-12] I1 DDR0_DQ[0-63] AR352 10 K3 AR301 33 DDR0_DQ[0-63] DDR0_DQ[0-63] I1 DDR0_DQ[0] DDR0_DQ[2] DDR0_DQ[7] DDR0_DQ[5] 33 DDR0_DQ[4] R3138 R3141 DDR0_DQ[15] DDR0_DQ[14] DDR0_DQ[12] DDR0_DQ[9] DDR0_DQ[11] DDR0_DQ[16] DDR0_DQ[18] DDR0_DQ[23] DDR0_DQ[21] 33 DDR0_DQ[20] R3139 R3142 DDR0_DQ[31] DDR0_DQ[30] DDR0_DQ[28] DDR0_DQ[25] DDR0_DQ[27] DDR0_DQ[32] DDR0_DQ[34] DDR0_DQ[39] DDR0_DQ[37] 33 DDR0_DQ[36] R3143 R3144 DDR0_DQ[47] DDR0_DQ[46] DDR0_DQ[44] DDR0_DQ[41] DDR0_DQ[43] DDR0_DQ[48] DDR0_DQ[50] DDR0_DQ[55] DDR0_DQ[53] 33 DDR0_DQ[52] R3145 R3140 DDR0_DQ[63] DDR0_DQ[62] DDR0_DQ[60] DDR0_DQ[57] DDR0_DQ[59] AR308 33 AR307 33 AR306 33 AR305 33 AR304 33 AR303 33 AR302 33 DDR0_DQ[0] B9 DDR0_DQ[1] F10 DDR0_DQ[2] C10 DDR0_DQ[3] E10 DDR0_DQ[4] E12 DDR0_DQ[5] B10 DDR0_DQ[6] G10 DDR0_DQ[7] D11 DDR0_DQ[8] F13 DDR0_DQ[9] C12 DDR0_DQ[10] E13 DDR0_DQ[11] B12 DDR0_DQ[12]D12 DDR0_DQ[13]G12 DDR0_DQ[14] B11 DDR0_DQ[15] C11 DDR0_DQ[16] B13 DDR0_DQ[17]G13 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 DDR0_DQ[27] C16 DDR0_DQ[28] C15 DDR0_DQ[29]D16 DDR0_DQ[30] B15 DDR0_DQ[31]D15 DDR0_DQ[32] B20 DDR0_DQ[33] F20 DDR0_DQ[34]D20 DDR0_DQ[35] F21 DDR0_DQ[36] C21 DDR0_DQ[37] B21 DDR0_DQ[38] E21 DDR0_DQ[39] E20 DDR0_DQ[40] F23 DDR0_DQ[41]D22 DDR0_DQ[42]G23 DDR0_DQ[43] B23 DDR0_DQ[44] C22 DDR0_DQ[45] E23 DDR0_DQ[46] B22 DDR0_DQ[47]D21 DDR0_DQ[48] B24 DDR0_DQ[49] E24 DDR0_DQ[50] C24 AR309 33 DDR0_DQ[51]G25 DDR0_DQ[52] C25 DDR0_DQ[53]D24 DDR0_DQ[54] F25 DDR0_DQ[55] B25 DDR0_DQ[56]D27 DDR0_DQ[57] B27 DDR0_DQ[58] C28 DDR0_DQ[59] B28 DDR0_DQ[60] C26 DDR0_DQ[61] C27 DDR0_DQ[62]D25 DDR0_DQ[63] B26 DDR0_DATA00 DDR0_DATA01 DDR0_DATA02 DDR0_DATA03 DDR0_DATA04 DDR0_DATA05 DDR0_DATA06 DDR0_DATA07 DDR0_DATA08 DDR0_DATA09 DDR0_DATA10 DDR0_DATA11 DDR0_DATA12 DDR0_DATA13 DDR0_DATA14 DDR0_DATA15 DDR0_DATA16 DDR0_DATA17 DDR0_DATA18 DDR0_DATA19 DDR0_DATA20 DDR0_DATA21 DDR0_DATA22 DDR0_DATA23 DDR0_DATA24 DDR0_DATA25 DDR0_DATA26 DDR0_DATA27 DDR0_DATA28 DDR0_DATA29 DDR0_DATA30 DDR0_DATA31 DDR0_DATA32 DDR0_DATA33 DDR0_DATA34 DDR0_DATA35 DDR0_DATA36 DDR0_DATA37 DDR0_DATA38 DDR0_DATA39 DDR0_DATA40 DDR0_DATA41 DDR0_DATA42 DDR0_DATA43 DDR0_DATA44 DDR0_DATA45 DDR0_DATA46 DDR0_DATA47 DDR0_DATA48 DDR0_DATA49 DDR0_DATA50 DDR0_DATA51 DDR0_DATA52 DDR0_DATA53 DDR0_DATA54 DDR0_DATA55 DDR0_DATA56 DDR0_DATA57 DDR0_DATA58 DDR0_DATA59 DDR0_DATA60 DDR0_DATA61 DDR0_DATA62 DDR0_DATA63 16V DDR0_BA_1 DDR0_ADDR10 0.1uF C361 SW400 TMUE312GAB DDR0_BA_0 K3 DDR0_BA0 DDR0_BA1 75 75 75 75 25V DDR0_BA_0 DDR_DATA[0] DDR0_BA0 DDR0_BA1 DDR0_ADDR[10] DDR0_ADDR[0] DDR0_ADDR00 C19 AR353 10 DDR_DATA[15] DDR_DATA[8] DDR_DATA[9] DDR_DATA[10] DDR_DATA[11] DDR_DATA[16] DDR_DATA[17] DDR_DATA[18] DDR_DATA[19] DDR0_VTT DDR_DATA[20] DDR_DATA[1] DDR_DATA[2] DDR_DATA[3] DDR_DATA[4] 75 R3193 R3194 R3202 R3198 16V 25V R3148 R3151 75 16V 75 75 75 75 75 75 75 75 R3178 R3195 R3179 16V 25V R3180 R3191 R3171 25V 16V R3181 R3166 75 R3150 16V DDR0_ADDR10 DDR0_BA_0 DDR0_BA_1 DDR0_DQM0 DDR0_DQM1 DDR0_DQM2 DDR0_DQM3 DDR0_DQM4 DDR0_DQM5 DDR0_DQM6 R3049 DDR0_DQM7 33 33 33 33 33 128MB 128MB 33 128MB 33 AR356 22 128MB 33 1/16W R3066 R3067 R3068 R3069 R3070 R3071 R3072 R3073 75 75 75 75 75 75 128MB 75 128MB 75 128MB 128MB DDR0_DQS0 DDR0_DQS1 DDR0_DQS2 DDR0_DQS3 DDR0_DQS4 DDR0_DQS5 DDR0_DQS6 DDR0_DQS7 DDR0_CSBb DDR0_RASb DDR0_CASb DDR_DATA[24] DDR_DATA[25] DDR_DATA[26] DDR_DATA[27] DDR_DATA[31] 0.1uF C366 0.01uF C381 16V C403 0.1uFTP4000

IC300 HY5DU561622FTP-D43-C1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 VSS_3 DQ15 VSSQ_5 DQ14 DQ13 VDDQ_5 DQ12 DQ11 VSSQ_4 DQ10 DQ9 VDDQ_4 DQ8 NC_7 VSSQ_3 UDQS NC_6 VREF VSS_2 UDM /CK CK CKE NC_5 A12 A11 A9 A8 A7 A6 A5 A4 VSS_1

R402 1K

D2.6V_BCM

IC301 HY5DU561622FTP-D43-CVDD_1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 VSS_3 DQ15 VSSQ_5 DQ14 DQ13 VDDQ_5 DQ12 DQ11 VSSQ_4 DQ10 DQ9 VDDQ_4 DQ8 NC_7

A1

EJTAG_RSTb 2:A5

1

16

C442 Y0 2 15 Y RXD 16V Z1 3 14 X R2442 0 TP4080 C4 TXD 0.1uF C441 47uF 16V

D2.6V_BCM

DDR0_ADDR[0-12]

IC400

KIA7029AF 1 3TP4002

VDD_1 DDR_DATA[27] DQ0 VDDQ_1 DDR_DATA[26] DDR_DATA[25] DQ1 DQ2 VSSQ_1 DDR_DATA[24] DDR_DATA[28] DQ3 DQ4 VDDQ_2 DDR_DATA[29] DDR_DATA[30] DQ5 DQ6 VSSQ_2 DDR_DATA[31] DQ7 NC_1 VDDQ_3 L3 DDR0_DQS3 H1;L1 DDR_DATA[0-63] NC_3 I9 DDR0_DQM_3 DDR0_WEb DDR0_CASb DDR0_RASb DDR0_CSBb LDM /WE /CAS /RAS /CS NC_4 BA0 DDR0_BA0 DDR0_BA1 BA1 A10/AP A0 A1 A2 DDR0_ADDR[10] DDR0_ADDR[0] DDR0_ADDR[1] DDR0_ADDR[2] DDR0_ADDR[3] A3 VDD_3 LDQS NC_2 VDD_2

DDR_DATA[16]

5

DDR_DATA[59]

DQ0 VDDQ_1

DDR_DATA[48] DDR0_ADDR[12] DDR_DATA[49] DDR_DATA[50] DDR0_ADDR[11] R3104 R3116 300 300

DDR_DATA[0] DDR_DATA[2] DDR_DATA[7] DDR_DATA[5] DDR_DATA[4]

IC100 DDR0_BA_1 BCM3553 DDR0_ADDR10 K3BCM3553 DDR0_ADDR00 DDR0_ADDR01 DDR0_ADDR02 DDR0_ADDR03 DDR0_ADDR04 DDR0_ADDR05 DDR0_ADDR06 DDR0_ADDR07 DDR0_ADDR08 DDR0_ADDR09 DDR0_ADDR10 DDR0_ADDR11 DDR0_ADDR12 DDR0_BA0 DDR0_BA1 DDR0_DM0 DDR0_DM1 DDR0_DM2 DDR0_DM3 DDR0_DM4 DDR0_DM5 DDR0_DM6 DDR0_DM7 DDR0_DQS0 DDR0_DQS1 DDR0_DQS2 DDR0_DQS3 DDR0_DQS4 DDR0_DQS5 DDR0_DQS6 DDR0_DQS7 DDR0_RAS DDR0_CAS DDR0_WE EXT_DDR0_CLK DDR0_CLK0 DDR0_CLK0B DDR0_CLK1 DDR0_CLK1B DDR0_CKE DDR0_CSB0 DDR0_VREF0 DDR0_VREF1 DDR0_BVDD1P2_0 DDR0_BVDD1P2_1 DDR0_BVSS_0 DDR0_BVSS_1 DDR0_PLL_AIO DDR0_VDDO2P5_1 DDR0_VDDO2P5_2 DDR0_VDDO2P5_3 DDR0_VDDO2P5_4 DDR0_VDDO2P5_5 DDR0_VDDO2P5_6 DDR0_VDDO2P5_7 DDR0_VDDO2P5_8 DDR0_VDDO2P5_9 DDR0_VDDO2P5_10 DDR0_VDDO2P5_11 DDR0_VDDO2P5_12 DDR0_VDDO2P5_13 DDR0_VDDO2P5_14 DDR0_VDDO2P5_15 DDR0_VDDO2P5_16 DDR0_VDDO2P5_17 DDR0_VDDO2P5_18 DDR0_VDDO2P5_19 DDR0_VDDO2P5_20 DDR0_VDDO2P5_21 DDR0_VDDO2P5_22 DDR0_VDDO2P5_23 DDR0_VDDO2P5_24

0.01uF C376

UCOM_RX I7 14 VCCTP4021

R401 330

TP4009

I

1 2

3

O

TP4016

1A

1

+3.3V1:J8 BCM_TX I7 UCOM_TX 2.7K R9930 R413 47K

0.1uF C362

R405 OPT

DDR_DATA[17] DDR_DATA[18]


DQ1 DQ2 VSSQ_1

0.01uF C377

G C400 10uF 16V



DQ3 DQ4 VDDQ_2

DDR_DATA[51] DDR_DATA[55] DDR0_ADDR[9]

R3109 R3099

300 300 25V 0.01uF C392 25V

DDR_DATA[15] DDR_DATA[14] DDR_DATA[12] DDR_DATA[9] DDR_DATA[11] DDR_DATA[16] DDR_DATA[18] DDR_DATA[23] DDR_DATA[21] DDR_DATA[20]

33

DDR0_ADDR[1] D18 DDR0_ADDR01 DDR0_ADDR[2] B18 DDR0_ADDR02 AR354 DDR0_ADDR[3] B17 DDR0_ADDR03 10 DDR0_ADDR[4] D17 DDR0_ADDR04 DDR0_ADDR[5] C17 DDR0_ADDR05 DDR0_ADDR[6] C18 DDR0_ADDR06 DDR0_ADDR[7] G18 DDR0_ADDR07 AR355 10 DDR0_ADDR[8] E18 DDR0_ADDR08 G17 DDR0_ADDR09 DDR0_ADDR[9] DDR0_ADDR[11] DDR0_ADDR[12] DDR0_ADDR10 B19 F17 DDR0_ADDR11 E17 DDR0_ADDR12 C20 D19 F11 G11 F15 G15 E22 F22 F26 D26 E11

C401 10uF 16V

1Y

2

13

6A

C402 0.1uF 16V

2

4

Z

4

13

X1

TP4077

2A

0.1uF C363

0.01uF C378TP4011

25V

3

12

6Y

Z0

5

12

X0

TP4079

R412 47K

IC403 AT24C512W-10SI-2.7A0 VCC C419 0.1uF 16V R414 22 SCL2_3.3V SDATP4036

R404 0

2Y

4

11

5A

INH

6

11

A

TP4090

R411 47K B R2440 100K

TP4024

1

8

0.1uF C364

0.01uF C379

3A

5

10

5Y

VEE

7

10

TP4025

A1

2

7

WP



DQ5 DQ6 VSSQ_2


DDR0_ADDR[4]

R3115 R3103

300 300

3Y 0.1uF C365 0.01uF C380

GND

DDR0_ADDR[3] DDR_DATA[52]

7

8

4Y R408 0 READY

GND

4

5

R415 22 SDA2_3.3V

DDR_DATA[20]

DDR_DATA[63]

DQ7 NC_1 VDDQ_3

75 16V OPT C417 75 75 R3182 R3203 R3161

VSSQ_3 UDQS NC_6 VREF VSS_2 UDM 128MB /CK CK CKE NC_5 A12 A11 A9 A8 A7 A6 A5 A4 VSS_1 L4 DDR0_DQS6 DDR0_REF 128MB 128MB C315 470pF 50V DDR0_DQM_6 J9 DDR0_CLK1b DDR0_CLK1 DDR0_CSBb R3118 R3106 150 150 DDR0_ADDR[2] R3113 R3101 300 300

C418 OPT

LDQS NC_2 VDD_2

25V

L3 DDR0_DQS2 DDR0_REF

DDR_DATA[30] 0.01uF C396 C2602 0.1uF DDR_DATA[28] DDR_DATA[25] DDR_DATA[27] DDR_DATA[32] DDR_DATA[34] DDR_DATA[39] 128MB DDR_DATA[37] DDR_DATA[36] 128MB DDR_DATA[47] 128MB 33 DDR_DATA[46] DDR_DATA[44] DDR0_RASb R3121 R3110 150 150 DDR_DATA[41] 128MB DDR_DATA[43] DDR_DATA[48] DDR_DATA[50] DDR0_WEb R3122 R3111 150 150 DDR_DATA[55] 128MB DDR_DATA[53] DDR_DATA[52] DDR0_CASb R3114 R3102 150 150 128MB DDR_DATA[63] 128MB 33 DDR_DATA[62] DDR0_ADDR[5] R3119 R3108 300 300 DDR_DATA[60] DDR_DATA[57] 128MB DDR_DATA[59]

5V_MNT

C312 0.1uF 16V

C313 J9 470pF 50V DDR0_DQM_7 DDR0_WEb DDR0_CASb DDR0_RASb DDR0_CSBb

LDM /WE /CAS /RAS /CS NC_4

C407 0.33uF 16V

50V

25V

200 R3002

DDR0_ADDR[1]

200 R3000

R3117 R3105

300 300

C2603 0.1uF

50V

DDR0_ADDR[0-12] DDR0_ADDR[12] DDR0_ADDR[11] DDR0_ADDR[9] DDR0_ADDR[8] DDR0_ADDR[7] DDR0_ADDR[6] DDR0_ADDR[5] DDR0_ADDR[4]

E19 G19 G20 G26 C13 D13 D23 C23 F18 F19 B8 B29 D9 D28 C9 D29 A30 A9 A12 A15 A18 A21 A24 A27 F9 J11 J12 J13 J14 J15 J16 J17 J18 J19 J20 J21 J22 J23 J24 J25 G24 C343 0.1uF 16V C344 0.01uF 25V C339 10uF 6.3V C340 0.1uF 16V D2.6V_BCM

B_TERMINAL1

B_TERMINAL2

T_TERMINAL1

T_TERMINAL2

F8

R_SPRING

E_SPRING

25V

DDR0_ADDR[9] DDR0_ADDR[8] DDR0_ADDR[7] DDR0_ADDR[6] DDR0_ADDR[5] DDR0_ADDR[4]

DDR0_BA1

BA1

DDR0_ADDR[1] DDR0_ADDR[2] DDR0_ADDR[3]

A1 A2 A3 VDD_3

6:E2;7:K1

1000pF C372

50V

470pF C387

50V

R452 100

R454 100

GND50V 1000pF C373 50V

HDMI_CEC

C424 47uF 16V

C425 0.1uF 16V

R2423 100

DDR0_ADDR[0]

A0

TP4001

C422 47uF 16V

3

4

5

7B

6A

7A

6B

8

OUTPUT

GND

L406 MBW3216-501TF

TP4103

TP4105

DDR0_ADDR[10]A10/AP

DDR0_ADDR[0-12] A9;F1;F4;F8;L1

DDR_DATA[0-63]

DDR_DATA[0-63]

DDR0_ADDR[6] R3126 R3120

R426 10K

P1.0/ET2

P1.4/DA3

P1.3/DA2

P1.2/DA1

P1.1/DA0

D2.6V_BCM

D2.6V_BCM

DDR0_ADDR[7] D2.6V_BCM R3127 R3123

DDR_DATA[10] 300 300 DDR_DATA[8] DDR_DATA[13]

DDR_DATA[14] DDR_DATA[21] DDR_DATA[22] DDR_DATA[23]

DDR0_DQ[10] DDR0_DQ[8] DDR0_DQ[13] AR310 33 AR311 33 DDR0_DQ[22] DDR0_DQ[19] DDR0_DQ[17] DDR0_DQ[26] DDR0_DQ[24] DDR0_DQ[29] AR312 33 AR313 33 DDR0_DQ[38] DDR0_DQ[35] DDR0_DQ[33] DDR0_DQ[42] DDR0_DQ[40] DDR0_DQ[45] AR314 33 AR315 33 DDR0_DQ[54] DDR0_DQ[51] DDR0_DQ[49] DDR0_DQ[58] DDR0_DQ[56] DDR0_DQ[61]

75 75 75 75

R3159 R3158 R3160 R3168

470pF C375

470pF C390

IR_GND KIA7029AF

R425 47K

IC302 HY5DU561622FTP-D43-C1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 VSS_3 DQ15 VSSQ_5 DQ14 DQ13 VDDQ_5 DQ12 DQ11 VSSQ_4 DQ10 DQ9 VDDQ_4 DQ8 NC_7 VSSQ_3 UDQS NC_6

IC303 HY5DU561622FTP-D43-CD2.6V_BCM VDD_1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 VSS_3 DQ15 VSSQ_5 DQ14 DQ13 VDDQ_5 DQ12 DQ11 VSSQ_4 DQ10 DQ9 VDDQ_4 DQ8 NC_7 VSSQ_3 UDQS NC_6 VREF VSS_2 UDM /CK CK CKE DDR0_CKE NC_5 A12 A11 A9 A8 A7 A6 A5 A4 VSS_1 DDR0_ADDR[12] DDR0_ADDR[11] DDR0_ADDR[9] DDR0_ADDR[8] DDR0_ADDR[7] DDR0_ADDR[6] DDR0_ADDR[5] DDR0_ADDR[4] 128MB 128MB C319 470pF 50V DDR0_REF DDR_DATA[36] DDR_DATA[38] DDR_DATA[37] DDR_DATA[35] DDR_DATA[39] DDR_DATA[33] DDR_DATA[34] DDR_DATA[32]

DDR_DATA[1]

50V

50V

DDR0_DQ[1]

DDR_DATA[13]

R3197 R3186

EYEQ_SDA

SDA1_5V

P4.2/AD2

R459

4.7K

TP4125

300 300


DDR0_DQ[6] DDR0_DQ[3]

EYEQ_SCLDDR_DATA[12] 75 75 R409 0

R2452 22 R2451 22

TP4101

DDR0_WEb R3210 22 DDR0_CLK0 2 3 DDR0_CLK0b_L302 R3211 22 L302 DDR0_CLK0b 1 4 128MB ACM2012-361-2P-T-002 R3212 22 DDR0_CLK1 2 3 128MB R3213 22 DDR0_CLK1b DDR0_REF 1 4 L301 ACM2012-361-2P-T-002 128MB DDR0_CKE R3057 22 R3149 DDR_DATA[63] C4;C8;E4;F8;G7 75 128MB A1.2V_BCM DDR_DATA[62] 75 128MB R3048 R3173 DDR_DATA[61] 75 128MB L300 0 DDR_DATA[60] 75 R3157 128MB DDR_DATA[56] 75 R3154 HB-1M1608-102JT 128MB R3155 C397 C333 C334C335 C336 C337 C2604 DDR_DATA[5] C332 75 DDR_DATA[6] 75 R3164 0 . 1 u F 16V7 u F0 16VF1uF 6.3V 50V 50V 16V DDR_DATA[7] 4. . 1 u 6.3V1uF 470pF 470pF 75 R3167 0.1uF R3174

1000pF C371

0.01uF C386

A2RIN2 8 9 ROUT2

A2

KCN-DS-1-0088

INPUT C423 0.1uF 16V

3 2

1

ADJ/GND

GND

50V

DDR0_ADDR[11]

7

10

C

C

T_SPRING

DDR0_BA0

BA0

DOUT2

DIN2

F8

DDR0_ADDR[12]

DDR_DATA[42]128MB 75 R3163 DDR_DATA[43] 75 R3206 128MB R3199 DDR_DATA[48] 75 128MB R3209 DDR_DATA[49] 75 128MB DDR_DATA[50] 75 R3196 128MB DDR_DATA[51] 75 R3184 128MB R3185 DDR_DATA[52] 75 128MB R3152

1000pF C370

0.01uF C385

TP4003

V-

AZ1117H-3.3

3.3K R456

D401 SDC15 A1

D402 SDC15 A1

SHIELD_PLATE

6

11

DIN1

R407 0

TP4015

G1 TXD

50V 50V 220pF 220pF

10

3.3VST_MICOM

JP4002

ST_5V

LED_R

GND

25V

5

12

TP4014

5

LED_G

DDR0_CLK0 DDR0_CKE

DDR0_CKE

E25 R3055 E26 R3056

DDR_DATA[40]128MB 75 DDR_DATA[41] 75 128MB

C405 0.33uF 16V

F16 R3052 G21 R3053 G22 R3054

R3147 DDR_DATA[47] 128MB75 R3204

1000pF C369

TP4006

C1-

0.01uF C384

3

14

DOUT1

TxD

7 3

TP4020

GND

TP4008

C2+

4

13

RIN1

8 4

R416 0 R417 0

ZD403

TP4007

C2-

ROUT1

R406 0

G1 RXD

C409

C410

9

IC404

8:B3

DDR0_DQM_2 DDR0_CLK0b

128MB R3146

GND

F12 R3050 G14 R3051

TP4005

V+

2

15

GND

C408 0.1uF 16V

1

RxD

6 2

GND

R419 0

GND

1K

NC_3

C314 0.1uF 16V

75 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

0.1uF C367

25V

L4 DDR0_DQS7

0.01uF C395

25V

DDR_DATA[31]

33

0.01uF C382

IC402MAX3232CDRC1+ 1 16 VCC

H7 JP4000 JP4001

IR_FINAL

IR

F8

3.3VST_MICOM +3.3VC440 0.1uF

JK400

TP4017 TP4019

C404 0.33uF 16V

0.01uF C383

R418 0

R464

1000pF C368

0.047uF C406 TP4004 25V

50V

25V

16V

F8

0.01uF C394

25V

R3153 75

ST_5V

PWM_LED

25V

R3112 R3100 R3107 R3098

300 300 300 300

0.01uF C393

Serial Port

BCM_RESET 2:C4

6

9

4A

VSS

8

9

CTP4026

NC

3

6

SCL

TP4035

Detect +3.3V for Power Sequence(BCM 1.2V, 2.6V, 3.3V)

R457 6.8K

3.3VST_MICOMR2463TP4049

6.8K R453

TP4106

470pF C388

TP4041

JK40250V 50V 470pF C374 470pF C389

MAIN & IR GND PART CONNECTIONSCL1_5V

3.3VST_MICOM

100 R455

PEJ024-01

4.7K

R458 OPT C428 0.1uF 16V C429 100uF 16V

GND

3.3VST_MICOM

TP4047

TP4107

R2446 4.7K R462 4.7K

IC405

TP4039

TP4028

R428 33K

TP4042 TP4044

GND R2424 100 READYR2427 100 READY R2425 READY 100TP4122

EYE_Q_RESET

MICOM_RES ETC Q419 2SC3875S E

TP4033

TP4113

TP4115

TP4118

B

CTP4027

P5.0

P5.1

P5.2

VDD_1 DDR_DATA[11] DQ0 VDDQ_1 DDR_DATA[10] DDR_DATA[9] DQ1 DQ2 VSSQ_1 DDR_DATA[8] DDR_DATA[12] DQ3 DQ4 VDDQ_2 DDR_DATA[13] DDR_DATA[14] DQ5 DQ6 VSSQ_2 DDR_DATA[15] DQ7 NC_1 VDDQ_3 L3 LDQS NC_2 VDD_2 NC_3 LDM DDR0_DQM_1 DDR0_WEb DDR0_CASb DDR0_RASb DDR0_CSBb /WE /CAS /RAS /CS NC_4 BA0 DDR0_BA0 DDR0_BA1 BA1 A10/AP A0 A1 A2 DDR0_ADDR[10] A3 DDR0_ADDR[0] DDR0_ADDR[1] DDR0_ADDR[2] DDR0_ADDR[3] VDD_3

1 2 G

3

50V

DDR_DATA[0]

DDR_DATA[43]

DQ0 VDDQ_1

DDR0_ADDR[8] R3128 R3124

300 300

DDR_DATA[22] DDR_DATA[19] DDR_DATA[17] DDR_DATA[26]

36

35

44

43

42

41

40

39

38

DDR_DATA[2]

DDR_DATA[41]

DQ2 VSSQ_1

R423 47K

16V 0.1uF C3010

16V 0.1uF C3011

TP4063

DDR0_BA0 DDR0_BA1



DQ3 DQ4 VDDQ_2

TP4064

R3130 R3125 R3131 R3129

150 150 150 150


C341 0.01uF 25V

C342 1000pF 50V

75

C345 1000pF 50V

75 R3165 R3169 DDR_DATA[37] 75 128MB DDR_DATA[38] 75 R3176 128MB DDR_DATA[39] 75 R3200 128MB R3177 DDR_DATA[30]

12505WS-15A00 IR_15P 1 SCL_EYEQ

GND GND GNDLed_Breathing Led_Non_Breating R433 100TP4100

37

DDR_DATA[29]

R3175

34

DDR_DATA[1]

DDR_DATA[42]

DQ1

DDR_DATA[28]

470pF C391 75

IR_GND

P404IR-GNDR2450 EYEQ0 F5TP4086

C430 0.1uF 16V

VDD

IR-GND

R410 0

I

O

B E

P5.3

Q400 2SC3875S

C431 0.1uF 16V

C432 OPT

GND

R429 100R494 L 100 LVDS_PANEL_CTRTP4056 TP4126

GND

JP4003 16V 0.1uF C3004 16V 0.1uF C3012

DDR_DATA[38] DDR_DATA[35] 128MB DDR_DATA[33] DDR0_ADDR[10] R3132 R3134 DDR0_ADDR[0] R3133 R3135 DDR0_CKE L4 DDR0_DQS4 R3136 R3137 300 300 DDR_DATA[42] DDR_DATA[40] DDR_DATA[45] 128MB 300 300 150 150 DDR_DATA[54] DDR_DATA[51] 128MB DDR_DATA[49] DDR_DATA[58] DDR_DATA[56] DDR_DATA[61] 128MB J10 DDR0_DQM_4 DDR0_CLK1b F3;L4 F4;L4 DDR0_CLK1 A9;A5;F1;F4;L1 DDR0_ADDR[0-12]

P40312505WS-08A00 IR_08P_only_26INCH Key1

2

SDA_EYEQ

C447 R2449 5pF EYEQ0 READY

EYEQ_SCLF5TP4087

HSYNC/P1.5 1 VSYNC/P1.6 2 P1.7/SOGI 3 RST 4

33 32 31 30 29 28 27 26 MTV416GMF 25 24 23 14 15 VSS 16 P4.0/AD0 17 P6.0/CLKO1 18 P 6 . 1 19 P 6 . 2 20 P 6 . 3 21 P 6 . 4 22

P5.4 P5.5 P5.6 P5.7/CLKO2 P7.0/HBLANK P4.1/AD1 P7.1/VBLANK P7.2/HCLAMPTP4120

TP4057

R495 100 R497 1K R496 22

L423 UBW2012-121F



DQ5 DQ6 VSSQ_2

C346 C347 C348 0 . 1 u F 0 . 0 1 u F 1000pF 16V 25V 50V

DDR_DATA[4]

DDR_DATA[47]

DQ7 NC_1 VDDQ_3

16V 0.1uF C3006

16V 0.1uF C3014

L3 DDR0_DQS0

L4 DDR0_DQS5

GND DDR_DATA[59] 128MB75 DDR_DATA[58] 128MB75 DDR_DATA[57] 128MB75 3 R3208 R3201 R3190 ST_5V 4 GND 5 16V 0.1uF C3007 16V 0.1uF C3015 IR 6 LED G 7 16V 0.1uF C3008 16V 0.1uF C3016 LED R 8 9 11 10 9 8 7 6

KEY_2

JP4005 R2459 TP4066 0 JP4006

TP4084

C449 0.1uF 16VTP4085

L422 UBW2012-121F C448 0.1uF 16V

R432 220

C349 0.1uF 16V

C350 0.01uF 25V

C351 1000pF 50V

DDR_DATA[44] 128MB75 R3187 DDR_DATA[45] 128MB75 R3207 DDR_DATA[46] 128MB75 R3170 DDR_DATA[53] 75 128MB DDR_DATA[54] 75 R3188 128MB DDR_DATA[55] 75 R3189 128MB R3192

R424 47K

JP4004 3 GND

+3.3V

C450 5pF READY

EYEQ_SDA

OPTION FOR LED R423: For 32~52Inch R424: For 26Inch

TP4031

TP4058

TP4127

16V 0.1uF C3005

16V 0.1uF C3013

1 Key2 2

4

GND R2458 0

ST_5V 7:L8 DDC_SCLR430 4.7K 7:L8

TP4032

R434 R435TP4029

22 22

TP4096

IR-GNDL418 UBW2012-121F N9

GND KEY1N8

HSCL1/P3.0/RXD 5 P4.

1@Lg 32lg30 Mfl41524403 Chassis La85a Lcd Tv Sm

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