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MTNC040520C1 HDTV MONITOR PT-53X54J GN1P 2004 Matsushita Electric Industrial Co., Ltd. All rights reserved. Unauthorized copying and distribution is a violation of law. 1. Safety precautions General guidelines...
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An isolation transformer should always be used during the servicing of a receiver whose chassis is not isolated from AC power line. Use a transformer of adequate power rating as this protects the technician from accidents resulting in personal injuryfrom electrical shocks. It will also protect the receiver from being damaged by accidental shorting that may occur during servicing.
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rechecked before it is returned to the customer. Hot check circuit Insulation test Connect an insulation tester between an exposed metallic part and A.C. line. Apply 1080VAC/ 60Hz for 1 second. Confirm that the current measurement is 0.5mA ~ 2.0mA. Repeat test with other metallic exposed parts.
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CAUTION - Pb free solder has a higher melting point than standard solder. Typically the melting point is 50 ~ 70 °F (30 ~ 40 °C) higher. Please use a high temperature soldering iron and set it to 700 ± 20 °F (370 ±...
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3. Important safety tests Measuring H.V. The anode caps are cemented to the CRTs. To gain access for high voltage measurement, remove the red CRT’s anode lead from the flyback transformer distributor. Grasp the anode lead protective cap at its bottom and squeeze it against thelocking cap body inside, rotate 1/4 turn counter clockwise and pull the anode lead sleeve out of the FBT distributor.
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pin 1 on D-Board H.V. measurement 4. Connect a H.V. meter (static type, class 0.1) with high voltage leads to high voltage distributor on FBT. DVM and power supply connection 5. Connect the 15 ~ 25 V DC variable power supply positive lead to D34 or IC802 pin 2 (D Board) and negative lead to heat sink of Q551 or D825 Procedures:...
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4. Service notes NOTE These components are affixed with glue. Be careful not to break or damage any foil under the component or at the pins of the ICs when removing. Usually applying heat to the component for a short time while twisting with tweezers will break the component loose. Leadless chip component (surface mount) Chip components must be replaced with identical chips due to critical foil track spacing.
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with a 30 watt iron until solder flows. Do not apply heat for more than 3 seconds. How to replace flat ic (required tools) 1. Remove the solder from all of the pins of a Flat IC by using a desolder braid 2.
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4. Position the new Flat IC in place (apply the pins of the Flat IC to the soldering pads where the pins need to be soldered). Properly determine the positions of the soldering pads and pins by correctly aligning the polarity symbol 5.
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chassis. Connect the test equipment to the proper ground(HOT or COLD) when servicing, or incorrect voltages will be measured. WARNING This receiver has been designed to meet or exceed applicable safety and x-ray radiation protection as specified by government agencies and independent testing laboratories.
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6. Receiver feature table FEATURE/MODEL PT-53X54J CHASSIS AP832 MICRO 256K MENU LANGUAGE ENGLISH/SPANISH/FRENCH CLOSED CAPTION V-CHIP (USA/CANADA) CHANNEL INFO BANNER VIDEO INPUT SKIP SKIP CHANNEL COUNT CHANNEL COUNT PIP (1T), 2T PIP (2T), 2T SPLIT 2T SPLIT REMOTE CONTROL (W/LIGHT)
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FEATURE/MODEL PT-53X54J BASS/BALANCE/TREBLE CONTROL AI SOUND SURROUND SPATIALIZER/BBE A/V IN (REAR/FRONT) 4(3/1) A/V PROGRAM OUT AUDIO OUT (FAO: F, VAO:V) COMPONENT INPUT (Y, Pb, Pr) S-VIDEO INPUT (REAR/FRONT) HDMI/HDCP INPUT Note: Specifications are subject to change without notice or obligation.
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8. Location of controls (EUR7603ZF0 remote) Note: For additional information for this remote please refer to the owner’s manual section remote operation, listed on the parts list section. 9. Auto diagnosis feature This receiver incorporates a self diagnosis feature. With this feature it will be easier for the technician to detect failures.
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This PTV has a feature that allows to clone convergence from main EEPROM data adjustments from a PTV to other by connecting a jig to the PTV set, or can be used to back-up data before making adjustments. A jig part number TXFJIG01SER, is availablethrough Matsushita/Panasonic Services.
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Procedure to copy convergence: 1. Enter to service mode and display service menu 2. Select “FINE” DAC and press ACTION on remote. 3. Press “8” on remote. 4. Select from and then press ACTION on remote: - INT to copy data from internal EEPROM to jig - EXT to copy from jig to internal EEPROM.
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13. Disassembly for service NOTE: Board ground wires may have to be disconnected to disassemble some boards. All ground wires must be reconnected using jumper leads, if necessary, before power is applied to PTV for service. Speaker grille removal Speaker grille, is secured to the cabinet of the PTV with 1 velcro dot and 2 screws at the bottom. Take the screws out and grip panel from the bottom, pull slightly backward and at the same time pull down to uncouple the 4 tabs.
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Front cover replacement 1. Remove the speaker grille. 2. Remove the cabinet front board by removing the 2 screws in the middle section. 3. Remove the screws from the middle section (4) of the front panel and both side panels (3 in each side from the back, see picture). 4.
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PT-53X54J models. Also check part list whenordering. Part number Replace Description with EAST16P51A6 EAST16P51A6 Speaker Woofer EAST6PH08P6 E AST6PH08P6 S peaker Tweeter TAS2AA0027 TAS2AA0027 Speaker Woofer TAS2AA0022 TAS2AA0022 Speaker...
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At this point the keyboard, A/V inputs and convergence sensors, must be disconnected from K-board and G-board, otherwise the cables and connectors could get damaged. Screen assembly 1. Remove the screen frame. See screen frame removal procedure above. 2. Place screen frame face down on a soft surface. 3.
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upward and release it fromthe screen frame. Back panel removal 1. The back panel is fastened to the cabinet by 12 screws. See picture for screw location. Back panel removal Main chassis block 1. After removing the screen frame and front cover, remove the side panel from each side (each side panel is fastened by 7 screws, 4 at front and 3 in the back).
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2. Remove the 2 screws from the cabinet body that holds the upper cabinet cover and carefully remove it. 3. The main chassis block is secured to the main body cabinet by 4 screws on the top (see picture). Chassis removal Mirror removal The mirror is attached inside the cabinet cover.
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A/V BACK COVER ASSEMBLY This assembly is secured to H-Board by 8 screws. H-Board 1. H-Board is connected to DG-board with H1 connector. 2. Pull carefully to the right to disconnect. DG-Board 1. Plugs onto A-Board at A13 and A14 connectors (DG3 and DG4 respectively).
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Some tie wraps that secure the wire dressings may need to be unfastened for chassis removal. 3. Remove plug connector in A6 that goes to G-Board (G1). 4. Remove plug connectors in A7, A8 that goes to K-board (K1) and R -board (R1).
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13.2. Disassembly for CRT replacement To facilitate CRT replacement, the complete CRT mounting chassis does not need to be removed. 1. Remove the main chassis block from the cabinet. 2. Remove the optical bracket metal cover (front side x-ray shield) by removing 3 screws on top.
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Focus pack location 8. Release CRT anode lead from CRT chassis wire clamp and all other wires from holders. 9. Loosen a screw that secures the DY and remove it from the CRT neck. Caution: To insure protection against x-ray radiation, the lens must be mounted in place at all times when power is applied to the PTV CRT replacement 1.
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2. Lay CRT face down on a soft cloth. 3. Note position of yoke with centering tabs and remove from defective CRT. 4. Remove CRT DAG ground from defective CRT. Mount it on the replacement CRT exactly as it was on the defective CRT. Note: Replacement CRT is supplied with H.V.
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Please assemble with screws in the order shown and tighten with the same torque. 13.3. PTV screen assemblies Screen assemblies 13.4. Screen assemblies warning When storing or disposing of screen assemblies, be sure not to place them in direct sunlight. These screens may act as a magnifying glass and could cause a fire.
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Preparation: Set the following controls - Picture to Normal - Bright to Normal - Volume to MIN (0) Procedure: 1. Apply a COLOR BAR pattern 2. Connect the negative lead of the digital voltmeter to TPGND1 (cold ground). 3. Connect the positive lead of the digital voltmeter to each test point and confirm the B+ voltages.
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mode option. 2. Select TIMER icon and set SLEEP time for 30 Min. 3. Press “VOL UP ” to exit menus. 4. Tune to the Channel 124. 5. Adjust VOLUME to minimum (0). 6. Press VOL (decrease) on receiver. Red “CHK” appears in upper corner.
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IMPORTANT NOTE Always check that PTV exits the service mode To check colors: Press RECALL on the remote control when in service mode (red “CHK” is displayed) to enter the purity field check mode. Color check 15.3. Service adjustment default values for items DESCRIPTION REGISTER FORMAT...
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DESCRIPTION REGISTER FORMAT NTSC (480i) HD (1080i) VERTICAL TEST POSITION TEST POS V HORIZONTAL TEST TEST POS H POSITION LOW PHASE PHASE LOW HI PHASE PHASE HI HORIZONTAL OSD OSD POS H POSITION VERTICAL OSD POSITION OSD POS V MUTE CONVERGENCE MUTE COARSE ADJ COARS...
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15.5. Instructional flow for service mode (continued...)
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16. CRT Set Up CAUTION: Insure that yoke plugs are reconnected on D-Board before turning the PTV ON to prevent damage to the horizontal output transistor and/or CRTs. 1. Connect test generator to the antenna terminal and set for a monoscope pattern.
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4. Cover replacement CRT lens and static converge the tubes not replaced, if needed. Check size and linearity of pattern and adjust as required 5. Uncover replacement CRT lens and cover other two CRT lenses. Adjust electrical and optical focus (lens), if required. 6.
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H-PAR +390 V-SAW V-PAR 2. Connect the scope probe to R1522 (D30 side), GND to Q551 heat sink. 3. Confirm that level of A is 640 ± 50V, adjust / “H-PAR” DAC to set to specification level. 4. Confirm that voltage level in D30 is similar between point E and F, if not, adjust V-SAW DAC.
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GREEN BLUE Electric focus Optical Focus 2. Set VIDEO “C_OFF” DAC from 00 to 02, and project only red. Adjust red focus VR so that focus is best. Focus pack 3. Adjust red lens focus (mechanical) until focus is best. 4.
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This adjustment is intended to correct the horizontal position of the picture NOTE: 1080i, 480p, 480i pattern can be obtained from Panasonic’s TU-DST51 set-top box DTV decoder. 1. Apply a HD 1080i crosshatch pattern that lets adjust the image to correct vertical size (see above note).
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9. Set VIDEO “C_OFF” DAC from 01 to 00. 17.2. Centering magnets adjustment NOTE: 1080i, 480p, 480i pattern can be obtained from Panasonic’s TU-DST51 set-top box DTV decoder. Procedures: 1. Apply a crosshatch pattern with dots. 2. Set VIDEO “C_OFF” DAC from 00 to 01 to project only green.
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This adjustment is intended to correct curved sides of the picture. NOTE: 1080i, 480p, 480i pattern can be obtained from Panasonic’s TU-DST51 set-top box DTV decoder. Procedure: 1. Apply a 1080i HD crosshatch pattern that lets adjust the image to correct curved sides (see above note).
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8. Set VIDEO “C_OFF” DAC from 01 to 00. 17.4. Trapezoid adjustment (TRAP) NOTE: 1080i, 480p, 480i pattern can be obtained from Panasonic’s TU-DST51 set-top box DTV decoder. Procedure: 1. Apply a 1080i HD crosshatch pattern. 2. Set VIDEO “C_OFF” DAC from 00 to 01 and project only green.
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This adjustment is intended to make the picture vertically proportional (top, center and bottom) NOTE: 1080i, 480p, 480i pattern can be obtained from Panasonic’s TU-DST51 set-top box DTV decoder. 1. Apply a pattern that lets adjust the image to correct vertical linearity (see above note).
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1080i, 480p, 480i pattern can be obtained from Panasonic’s TU-DST51 set-top box DTV decoder. 1. Apply a pattern that lets adjust the image to correct vertical size (see above note). 2. Set VIDEO “C_OFF” DAC from 00 to 01 (to project only green).
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This adjustment is intended to adjust horizontal width of the picture. NOTE: 1080i, 480p, 480i pattern can be obtained from Panasonic’s TU-DST51 set-top box DTV decoder. 1. Apply a pattern that lets adjust the horizontal size. 2. Set VIDEO “C_OFF” DAC from 00 to 01 to project only green.
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4. Adjust DAC “BRIGH” data so that bar 1 becomes near black like bar 0. 5. Apply an HD 1080i signal and repeat this adjustment for HD 1080i mode. 6. To check ABL apply a white pattern and put user bright control (BRIGHTNESS in Picture menu) control to max.
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17.12. White balance adjustment NOTE: Use a 7 gray step pattern in this adjustment. This pattern can be obtained from a NTSC generator applying a bar signal without color. This adjustment requires the service user skills in observing what a screen without color should look like (white picture).
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17.13. Color adjustment (TINT, B-Y_G, R-Y_A) NOTE: 1080i, 480p, 480i pattern can be obtained from Panasonic’s TU-DST51 set-top box DTV decoder. This adjustment requires that the servicer use the skills in observing what a colorbar pattern should looks like.
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- COLOR to center (31) - PICTURE to max (63) - BRIGHT to center (31) - SHARPNESS to min. (0) - TINT to center (31) - NATURAL COLOR to OFF - COLOR TEMPERATURE to COOL Procedure: 1. Apply a color bar pattern 2.
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6. Use a test signal from a VCR or DVD disk that has a pre-recorded close up of a signal that has good flesh tones. 7. The signal from the VCR or DVD player should look normal. Color Check Using a clean RF or video signal, set the color level so that it does not saturate or appear harsh. Make sure that color is not set so that it appears dull and washed out.
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Stereo separation adjustment (SEPAL & SEPAH) Preparation: 1. Connect an RF signal generator to the RF antenna input. 2. Connect an oscilloscope probe to TP17 (R_OUT, A-board). Procedure: 1. Set PTV to Stereo Mode (in the audio menu). 2. Apply the following signal from the RF signal generator: / Video: 100 IRE flat field, 30% modulation.
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Also EEPROM copy jig can be used to back-up the data before to performadjustments. NOTE: 1080i, 480p, 480i pattern can be obtained from Panasonic’s TU-DST51 set-top box DTV decoder. IMPORTANT NOTICE: It is strongly recommended to first read and understand the following section prior to make any...
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adjustment. This PTV uses the scheme described below to correct for misconvergence of the three CRT projection tubes. There are various modes to this operation. Preparation: Place the convergence alignment template (see Convergence alignment template section on this manual) over the PTV screen. Align the center lines of the template with the mechanical center markers on the PTV screen frame.
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pattern disappear). 10. Press “TV/VIDEO” key to enter “DATA_POS” mode 11. Adjust by pressing VOL right - left so that peak of curve is the same position as center of cursor. Symmetrical shape 12. Press “TV/VIDEO” key on remote to enter “OSD_POS” mode. 13.
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(FINE/ secs) COARSE) When “7” is pressed and the data is saved, it will overwrite the factory default. 18.1. Coarse adjustment mode (COARS) NOTE: 1080i, 480p, 480i pattern can be obtained from Panasonic’s TU-DST51 set-top box DTV decoder.
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NOTE: It is strongly recommended to first read and understand the following section prior to make any adjustment. / Convergence adjustment must be performed for 480i_p (same for interlace & progressive), ZOOM 480i and 1080i. Procedure: 1. Enter to “G-SIZE” mode: - Select “COARSE”...
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8. Press “7” then “ACTION” key on remote to save changes. 9. Enter to PIN “G-PIN” mode by pressing “TV/VIDEO” 10. Adjust V_PIN by pressing CH up-down (see figure) 11. Adjust H_PIN by pressing VOL right-left. 12. Press “7” then “ACTION” key on remote to save changes “PIN”...
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17. Adjust by pressing CH up-down (see figure) 18. Press “7” then “ACTION” key on remote to save changes “KEY” mode adjustment NOTE: Confirm that pattern looks like a square and almost overlaps the screen frame, check that vertical and horizontal line center match with the marks on screen frame, if linearity is not good enough, repeat adjustments.
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NOTE: Remember always save data following each adjustment by pressing “7” key on remote, then ACTION. 25. Enter to LINEARITY “R-LINEAR” mode by pressing TV/VIDEO. 26. Adjust Horizontal linearity (see figure) 27. Enter to SIZE “R-SIZE” mode by pressing TV/VIDEO. 28.
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39. Perform all adjustments for blue (B-SKEW, B-LINEAR, B-SIZE, B- PIN, B-CORNER, B-KEY) 40. Display border and cross pattern and confirm that blue overlaps with green pattern, if it is not satisfactory, repeat for blue. 41. Press “1 or 3” key repeatedly on remote until green, red and blue (white), confirm that red and blue overlaps with green pattern.
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“FINE” convergence mode after pressing “4” on remote “FINE” convergence mode after pressing “4” on remote...
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PRESS BUTTON 1(go) or change color view 3(back) change pattern 4 (only FINE change crossed sections mode) overlap save data copy from clear POWER exit RECALL display values R-TUNE cycle colors TV/VIDEO change mode TV/VIDEO (3 switch convergence mode (FINE/ secs) COARSE) When “7”...
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6. In “EASY” mode, the adjustment value changes by 4 steps 7. “EASY” mode allows to move lines horizontally and vertically from the center of cursor “EASY” mode adjustment, possible locations for cursor 8. This mode affects a wide area around the cursor than other adjustment modes, See values on screen by pressing RECALL on remote 9.
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14. Enter to POINT “G-POINT” (for green) mode by pressing TV/ VIDEO. 15. “POINT” mode allows to move line horizontally and vertically from the perimeter of cursor making rounded lines become straight 16. In “POINT” mode, the adjustment data changes by 2 steps, See values on screen by pressing RECALL on remote 17.
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26. Begin adjustment from the center to the edge of the screen (see figure) 27. Adjust to make distribute lines LINE, POINT, ORIG. POINT modes, possible locations for cursor 28. Then press “1 or 3” on the remote until red and green appears. NOTE: Since convergence adjustment will not allow to adjust every single cross section of the grid, it is very important to adjust, so that overall looks best, in “FINE”...
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33. At this point the crosshatch pattern should look white. 34. If the crosshatch pattern is not only white, repeat adjustment for that specific color (red or blue). 35. Once the crosshatch pattern looks only white, perform the adjustments for White only (“POINT”, “ORIG. POINT” & “LINE”), notice that each adjustment must be only for white (red, green,blue) 36.
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Autoconvergence Troubleshoot (ERROR display) When autoconvergence feature is executed and the procedure doesn’t complete accordingly by displaying an error number on screen, check the possible causes in the following order: 1. Make sure convergence and electrical adjustments are properly set. 2.
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Vertical Center Axis and work outwards until the pattern is complete. Pay attention to the actual dimensions of the pattern. Template dimensions: - 53”: 1173.3mm horizontal x 660mm vertical. Single grid dimension: HORIZONTAL VERTICAL 189.22 mm 94.29 mm NOTE: A convergence alignment template, part number TXFQD01FSER is available through Matsushita/ Panasonic Services Convergence template.
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19. Reference of PDF links color 20. Conductor views 20.1. A-Board Printed Circuit ( page 1 of 2 ) 20.2. A-Board Printed Circuit ( page 2 of 2 ) 20.3. D-Board Printed Circuit ( page 1 of 2) 20.4. D-Board Printed Circuit ( page 2 of 2)
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22.2. Notas de los diagramas esquem á ticos...
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22.3. A-Board schematic 1 of 3 22.4. A-Board schematic 2 of 3 22.5. A-Board schematic 3 of 3 22.6. D-Board schematic 1 of 5 22.7. D-Board schematic 2 of 5 22.8. D-Board schematic 3 of 5 22.9. D-Board schematic 4 of 5 22.10.
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22.26. LB-Board schematic 2 of 2 22.27. LG-Board schematic 1 of 2 22.28. LG-Board schematic 2 of 2 22.29. LR-Board schematic 1 of 2 22.30. LR-Board schematic 2 of 2 22.31. Voltages 22.32. Waveforms 23. Parts location 24. Parts list...
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24.1. Description of abbreviations guide 24.2. Parts list...
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Ref. No. Part No. Part Name & Description Remarks CAPACITORS C001 ECA1HM4R7B CAP E 4.7UF-50V C003 ECJ2VC1H101J CAP C 100PF-J-50V C004 ECJ2VF1E224Z CAP C .22UF-Z-25V C006 EEUFC1A471B CAP E 470UF-16V C007 ECA1HM4R7B CAP E 4.7UF-50V C009 ECJ2VC1H101J CAP C 100PF-J-50V C010 ECJ2VF1E224Z CAP C .22UF-Z-25V...
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Ref. No. Part No. Part Name & Description Remarks C331 ECA1HM470B CAP E 47UF-50V C332 ECKR1H103ZF5 CAP C .01UF-Z-50V C333 ECA1HM470B CAP E 47UF-50V C334 ECA2EM470B CAP E 47UF-250V C335 ECCR1H221JC5 CAP C 220PF-J-50V C336 ECA1HM470B CAP E 47UF-50V C337 ECKR1H103ZF5 CAP C .01UF-Z-50V C339...
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Ref. No. Part No. Part Name & Description Remarks C531 ECA160V33UE CAP E 33UF-160V C533 ECKR2H101KB5 CAP C 100UF-K-500V C535 ECA1EM471E CAP E 470UF-25V C601 EEUFC1C331B CAP E 330UF-16V C602 ECJ2VF1H103Z CAP C .01UF-Z-50V C653 ECA1HM010E CAP E 1UF-50V C654 ECA1HM010E CAP E 1UF-50V C701...
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Ref. No. Part No. Part Name & Description Remarks C852 ECA1EM101B CAP E 100UF-25V C853 ECJ2YF1E474Z CAP C .47UF-Z-25V C854 ECA1CM101B CAP E 100UF-16V C855 ECJ2VF1H104Z CAP C .1UF-Z-50V C856 ECJ2VF1H103Z CAP C .01UF-Z-50V C860 ECJ2VB1H103K CAP C .01UF-K-50V C861 ECJ2VF1H103Z CAP C .01UF-Z-50V C862...
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Ref. No. Part No. Part Name & Description Remarks C967 ECA2CM100E CAP E 10UF-160V C968 ECA1CM101B CAP E 100UF-16V C969 ECA1CM101B CAP E 100UF-16V C970 ECA2CM100E CAP E 10UF-160V C971 ECQE2104KFW CAP P .10UF-K-200V C972 ECA1HM220B CAP E 22UF-50V C1303 ECJ2VF1H103Z CAP C .01UF-Z-50V C1304...
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Ref. No. Part No. Part Name & Description Remarks C2344 ECJ3VB1H104K CAP C .1UF-K-50V C2346 ECJ2VB1H471K CAP C 470PF-K-50V C2348 ECJ2VF1C105Z CAP C 1.0UF-Z-16V C2349 ECJ2VF1C105Z CAP C 1.0UF-Z-16V C2352 ECJ2VB1H682K CAP C .0068UF-K-50V C2353 ECJ2VB1H471K CAP C 470PF-K-50V C2356 ECJ2VB1H333K CAP C .033UF-K-50V C2359...
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Ref. No. Part No. Part Name & Description Remarks C3203 ECJ2VB1H152K CAP C .0015UF-K-50V C3331 ECJ2VB1H152K CAP C .0015UF-K-50V C3332 ECJ2VF1C105Z CAP C 1.0UF-Z-16V C3333 ECJ2VB1H152K CAP C .0015UF-K-50V C3334 ECJ2VF1C105Z CAP C 1.0UF-Z-16V C3335 ECJ2VB1H152K CAP C .0015UF-K-50V C3336 ECJ2VF1C105Z CAP C 1.0UF-Z-16V C3337...
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Ref. No. Part No. Part Name & Description Remarks C7065 ECA1VM470B CAP E 47UF-35V DIODES D001 MAZ31500ML DIODE ZENER D002 MAZ31500ML DIODE ZENER D003 MAZ31500ML DIODE ZENER D004 MAZ31500ML DIODE ZENER D081 LN21RCPHL DIODE D082 MAZ40560MF DIODE ZENER D083 MAZ40560MF DIODE ZENER D301 MA2C16700E...
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Ref. No. Part No. Part Name & Description Remarks D511 B0HAHP000014 DIODE D512 B0HALP000002 DIODE FAST RECOVERY D513 MA2C165001VT DIODE D0514 MAZ30300LL DIODE ZENER D515 B0HALP000002 DIODE FAST RECOVERY D516 EU2YXV0 DIODE D519 AU02ZV0 DIODE D520 MA3X152K0L DIODE D634 MA2C165001VT DIODE D650 MAZ41100MF...
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Ref. No. Part No. Part Name & Description Remarks R009 ERJ6GEYJ103V RES M 10K-J-1/10W R010 ERJ6GEYJ103V RES M 10K-J-1/10W R013 ERG1SJ273P RES M 27K-J-1W R015 ERG1SJ273P RES M 27K-J-1W R072 ERDS2TJ101T RES C 100-J-1/4W R073 ERDS2TJ471T RES C 470-J-1/4W R080 ERDS2TJ222T RES C 2.2K-J-1/4W R081...
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Ref. No. Part No. Part Name & Description Remarks R349 ERDS2TJ821T RES C 820-J-1/4W R350 ERG12SJ101P RES M 100-J-1W R351 ERDS1FJ330P RES C 33-J-1/2W R352 ERDS1FJ330P RES C 33-J-1/2W R353 ERG12SJ101P RES M 100-J-1W R354 ERDS2TJ473T RES C 47K-J-1/4W R355 ERDS1FJ103T RES C 10K-J-1/2W R356...
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Ref. No. Part No. Part Name & Description Remarks R464 ERJ6GEYJ102V RES M 1K-J-1/10W R465 ERJ6GEYJ472V RES M 4.7K-J-1/10W R465 ERJ6GEYJ472V ES M 4.7K-J-1/10W R466 ERJ6GEYJ562V RES M 5.6K-J-1/10W R470 ERDS2TJ331T RES C 330-J-1/4W R471 ERDS2TJ331T RES C 330-J-1/4W R472 ERDS2TJ331T RES C 330-J-1/4W R501...
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Ref. No. Part No. Part Name & Description Remarks R815 ERJ6GEYJ301V RES M 300-J-1/10W R816 ERDS2TJ471T RES C 470-J-1/4W R817 ERJ6ENF2001V RES M 2K-F-1/10W R818 ERDS1FJ100T RES C 10-J-1/2W R820 ERDS1FJ470T RES C 47-J-1/2W R822 ERJ6GEYJ222V RES M 2.2K-J-1/10W R833 ERJ6GEYJ101V RES M 100-J-1/10W R835...
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Ref. No. Part No. Part Name & Description Remarks R919 ERDS2TJ472T RES C 4.7K-J-1/4W R920 ERDS2TJ681T RES C 680-J-1/4W R921 ERDS2TJ151T RES C 150-J-1/4W R925 ERDS2TJ151T RES C 150-J-1/4W R926 ERDS2TJ151T RES C 150-J-1/4W R928 ERQ14AJ220P RES F 22-J-1/4W R929 ERDS2TJ101T RES C 100-J-1/4W R940...
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Ref. No. Part No. Part Name & Description Remarks R1329 ERJ6GEYJ101V RES M 100-J-1/10W R1330 ERJ6GEYJ101V RES M 100-J-1/10W R1331 ERJ6GEYJ101V RES M 100-J-1/10W R1332 ERJ6GEYJ101V RES M 100-J-1/10W R1338 ERJ6GEYJ103V RES M 10K-J-1/10W R1502 ERJ6GEYJ222V RES M 2.2K-J-1/10W R1503 ERJ6GEYJ102V RES M 1K-J-1/10W R1504...
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Ref. No. Part No. Part Name & Description Remarks R2334 ERJ6ENF4701V RES M 4.7K-F-1/10W R2336 ERJ6ENF5232V RES M 5.32K-F-1/10W R2337 ERJ6ENF1501V RES M 1.5K-F-1/10W R2339 ERJ12YJ101U RES M 100-J-1/2W R2341 ERJ6GEYJ122V RES M 1.2K-J-1/10W R2342 ERJ6GEYJ122V RES M 1.2K-J-1/10W R2343 ERJ6GEYJ103V RES M 10K-J-1/10W R2344...
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Ref. No. Part No. Part Name & Description Remarks R3306 ERJ6ENF75R0V RES M 75.0-F-1/10W R3307 ERJ6GEYJ184V RES M 180K-J-1/10W R3308 ERJ6ENF75R0V RES M 75.0-F-1/10W R3309 ERJ6ENF75R0V RES M 75.0-F-1/10W R3310 ERJ6ENF75R0V RES M 75.0-F-1/10W R3311 ERJ6ENF75R0V RES M 75.0-F-1/10W R3312 ERJ6ENF75R0V RES M 75.0-F-1/10W R3313...
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Ref. No. Part No. Part Name & Description Remarks R7055 ERJ6GEYJ332V RES M 3.3K-J-1/10W R7058 ERJ6GEYJ332V RES M 3.3K-J-1/10W R7059 ERJ6GEYJ104V RES M 100K-J-1/10W R7060 ERX1SJR27P RES M .27-J-1W R7061 ERJ6GEYJ102V RES M 1K-J-1/10W R7062 ERJ6GEYJ103V RES M 10K-J-1/10W R7063 ERJ6GEYJ103V RES M 10K-J-1/10W R7064...
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Ref. No. Part No. Part Name & Description Remarks TKD2AX2831S INNER BOARD TKU2AC4201S LOWER BACK CABINET EAST6PH08P6 SPEAKER (TWEETER) TAS2AA0022 SPEAKER (TWEETER) EAST16P51A6 SPEAKER (WOOFER) TAS2AA0027 SPEAKER (WOOFER) TKP2AA1101S SPEAKER BASE COVER TKP2AA1052S SPEAKER GRILLE TLH2AH001 DISTRIBUTOR D9ZZ00000079 FOCUS PACK M004 TMX2AX0031 FOCUS BRACKET...