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MTNC030620C1 B19 Canada:B05 Color Television CT-36HL43G / CT-36HL43UG / CT-32HL43G / CT-32HL43UG / CT-32HXC43G / CT-32HXC43UG 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.
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 1500VAC/ 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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Leadless chip component (surface mount) Chip components must be replaced with identical chips due to critical foil track spacing. There are no holes in the board to mount standard transistors or diodes. Some chips capacitor or resistor board solder pads may have holes through the board,however the hole diameter limits standard resistor replacement to 1/8 watt.
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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. Put the iron wire under the pins of the Flat IC and pull it in the direction indicated while heating the pins using a soldering iron.
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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. Solder all pins to the soldering pads using a fine tipped soldering iron 6.
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To maintain original product safety design standards relative to x- ray radiation and shock and fire hazard, parts indicated with the symbol on the schematic must be replaced with identical parts. Order parts from the manufacturer’s partscenter using the parts numbers shown in this service manual, or provide the chassis number and the part reference number.
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3. Connect the ammeter serial from the flyback anode lead to the picture tube anode socket. 4. Prepare HHS jig to be connected between TPD50 and TPD51 on P- Board as shown above. PROCEDURE 1. Open connector A17. 2. Turn power ON and apply a white pattern. 3.
3. About lead free solder (PbF) NOTE Lead is listed as (Pb) in the periodic table of elements. / In the information below, Pb will refer to lead solder, and PbF will refer to Lead Free Solder. / The lead free solder used in our manufacturing process and discussed below is (Sn+Ag+Cu).
Suggested Pb free solder There are several kinds of Pb free solder available for purchase. This product uses Sn+Ag+Cu (tin, silver, copper) solder. However, Sn+Cu (tin, copper), Sn+Zn+Bi (tin, zinc, bismuth) solder can also beused. 4. Receiver feature table...
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FEATURE/MODEL CT-36HL43G/UG CT-32HL43G/UG CHASSIS AP410 AP409 MICRO 256K MENU LANGUAGE ENG/SPAN/FR CLOSE CAPTION V-CHIP (USA/CANADA CHANNEL INFO BANNER VIDEO INPUT SKIP SKIP CHANNEL COUNT PIP (1T), 2T PIP (2T), 2T SPLIT 2T SPLIT REMOTE CONTROL (W/LIGHT) EUR7603Z90 CRT SUPPLIER FLAT 4:3, MDDA...
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FEATURE/MODEL CT-32HXC43G/UG CHASSIS BP409 MICRO 256K MENU LANGUAGE ENG/SPAN/FR CLOSE CAPTION V-CHIP (USA/CANADA CHANNEL INFO BANNER VIDEO INPUT SKIP SKIP CHANNEL COUNT PIP (1T), 2T PIP (2T), 2T SPLIT REMOTE CONTROL (W/LIGHT) EUR7603Z40 (GREY) CRT SUPPLIER FLAT 4:3, MDDA FAMILY COMB FILTER 3 LINE HEC/VEC (X=BOTH)
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7. Location of controls (EUR7603Z90 remote) Note: For additional information about this remote please refer to the owner’s manual section remote...
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operation, listed on the parts list section. 8. Location of controls (EUR7613Z40 remote) Note: For additional information about 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 new self diagnosis feature. With this new feature will be easier for the technician to detect the failures.
This CTV has a feature that allows to clone or back-up main EEPROM data adjustments from a CTV to other by connecting a jig to the CTV set. A jig part number TXFJIG01SER, is available through Matsushita/Panasonic Services. Preparation: To connect this jig, remove the lower back cover as instructed on disassembly for service section on this service manual and insert the jig into A15 connector located on the A-Board by the RF splitter.
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4. To copy data from jig to main EEPROM, select “EX IN” DAC and press ACTION button on remote. 11. Dissasembly for service Back cover Remove all the screws marked with an arrow ( ) from the back of the receiver NOTE Screw configuration, type, and number of screws vary depending on the model of the receiver serviced and the application;...
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D-Board - Deflection The D-Board assembly rest on a chassis tray along with the A-Board. Slide chassis tray out. Gently lift the tray and pull out. Disconnect plug connectors; release wire ties and holders as required for complete chassis removal. 1.
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DV-Board (ONLY FOR HL MODELS) 1. Plugs onto the A-Board at the A5 (DV1) connectors. 2. This board has two Grommet squares, be careful to do not screw too tight, otherwise this grommet screw hole will get stripped. Grommet squares on DV-Board NOTE: This board is non-serviceable.
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Each speaker is secured to a plastic base with 4 screws, and each plastic base is secured to the from cabinet with two screws. For models including subwoofer speaker is assembled within the backcover of the television set by 4 screws Subwoofer NOTE When reassembling speakers be sure to connect the speaker wires to the correct speaker lead (+)
5. Remove the CRT with the degaussing coil and the dag ground braid attached. NOTE To remove the four brackets holding the degauss coil from the corners of the CRT, first remove the CRT from the cabinet, then remove the brackets by pressing the tab on the bracket and pull upwards.
When ordering the CRT, please order CRT and CRT kit also. Please see parts list section for part numbers 12. Back cover removal NOTE: Cabinet appearance and location of the screws may vary depending on the model. 13. Chassis service adjustment procedures All service adjustments are factory preset and should not require adjustment unless controls and/ or associated components are replaced.
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140.0_V B+ voltage check 1. Set the BRIGHT and PICTURE to minimum by using the PICTURE menu. 2. Connect the DVM on TPD144 (D-Board by D2 connector) and cold ground 3. Confirm that B+ voltage is 144.0V ± 1.5V. This voltage supplies B+ to the horizontal output and flyback circuits.
Place the yoke on the CRT neck (do not tighten the clamp). Place the vertical raster shift tabs at 3 o’clock (90° from the purity and convergence tabs Description of rings Initial position of rings Turn the receiver ON. Operate the receiver for 60 minutes using the first purity check field (white screen) to stabilize the CRT.
INITIAL CENTER STATIC CONVERGENCE Connect a dot/cross hatch generator to the receiver and tune in a signal. Observe misconvergence at center of the screen only. Adjust the R&B pole magnets; by separating tabs and rotating to converge blue with red. Adjust the R&B and R&B&G pole magnets: by separating tabs and rotating to converge blue and red (magenta) with green.
higher than necessary to obtain a clear pattern. Converge the red and the blue dots at the center of the screen by rotating the R&B pole static convergence magnets. Align the converged red/blue dots with the green dots at the center of the screen by rotating the R &B&G pole static convergence magnets.
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correct picture. 3. With a driver Adjust VR2 (located in deflection yoke board to obtain a proper corvergence at left and right side of the screen. VR2 adjustment (YH) XV Adjustment (precise adjustment) 1. Apply a crosshatch pattern. 2. Adjust contrast and brightness customer controls to obtain a correct picture.
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This strip is used in some sets to match the yoke and CRT for optimum convergence. If the yoke or CRT is replaced, the strip may not be required. First converge the set without the strip and observe the corners. First converge the set without the strip and observe the corners.
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Other method (DAF adjustment) PREPARATION 1. Picture settings normalized. 2. Picture mode set to VIVID. PROCEDURE 1. Apply a crosshatch pattern. 2. Put a mark in the focus control (on fly-back), so the control can be put back in the original position. 3.
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15. Service mode (electronic adjustments) This receiver has electronic technology using the IC bus concept. It performs as a control function and it replaces many mechanical controls. Instead of adjusting mechanical controls individually, many of the control functions are now performedby using “on screen display menu”.
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ACTION to enter the adjustment. NOTE Some adjustments are available only in some modes (480i, 480p, 1080i); it is needed to apply the format. A 1080i, 480p, 480i pattern can be obtained from Panasonic’s TU-DST51 set-top box DTV decoder. Exiting the service mode: This TV goes out from service mode when it is unplugged or turned OFF.
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IMPORTANT NOTE Always check that the TV exits the service mode. To confirm colors When in service mode (red “CHK” is displayed) press RECALL on the remote control to enter the purity field check mode Entering service mode (open-back method) While the receiver is connected and operating in normal mode, momentarily short test point / FA1 (A15 pin 2) to cold ground (A-Board).
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REGISTER DESCRIPTION FORMAT NTSC 480p (16:9) 1080i (16:9) 1080i ( HWID HORIZONTAL WIDTH PINCUSHION CORRECTION PCCHG PINCUSHION HIGH PCCLG PINCUSHION LOW PCCHS PINCUSHION HIGH PCCLS PINCUSHION LOW TOPG TOP CORNER PINCUSHION BTMG BOTTOM CORNER PINCUSHION TOPSL TOP CORNER PINCUSHION SLICE LEVEL BTMSL BOTTOM CORNER PINCUSHION...
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REGISTER DESCRIPTION FORMAT NTSC 480p (16:9) 1080i (16:9) 1080i ( MTSIN INPUT LEVEL SEPAL LOW LEVEL SEPARATION SEPAH HIGH LEVEL SEPARATION CLOCK CLOCK COLOR COLOR TINT TINT BRIGH SUB-BRIGHTNESS CONT SUB-CONTRAST B-Y_G MAGENTA TINT ADJ CUT G GREEN CUT-OFF 01 65 CUT R RED CUT-OFF 01 85...
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SOSSW ---------------- NOTE: The above table shows the default values for the service items, this values can change depending on the serviced TV. 15.3. Instructional flow chart for service mode...
16. Service adjustments (electronic controls) NOTE Please correlate with available pattern on all adjustments 16.1. (NTSC) Sub-Brightness / Service DAC adjustment (BRIGHT) Adjustment of this control is important for setting proper operation of customer brightness and picture controls. Do not adjust the SCREEN VR after the sub-brightness is set. Preparation 1.
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16.2. (1080i) Sub-Brightness / Service DAC adjustment (BRIGHT) Adjustment of this control is important for setting proper operation of customer brightness and picture controls. Do not adjust the SCREEN VR after the sub-brightness is set. Preparation 1. Normalize picture settings. 2.
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Preparation 1. Apply a colorbar pattern. 2. Set the PICTURE settings to normal. 3. Set color to minimum (no color on picture). 4. Set PICTURE mode to VIVID 5. Connect the oscilloscope to TP47G. Procedure 1. In the service mode, select DAC for brightness adjustment “BRIGH”...
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3. Set PICTURE mode to VIVID 4. Connect the oscilloscope to TP47G. PROCEDURE 1. In the service mode, select DAC for brightness adjustment “BRIGH” to obtain 2.0V between 0 IRE and GND level at TP47G 2. In service mode, select DAC “CONT”, and adjust data to obtain 2.5 ±0.1V between 0 IRE and 100 IRE level at TP47G 16.5.
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5. Connect the oscilloscope to TP47R. 6. In service mode adjust “COLOR” data so that the amplitude “a” is 1.0±0.03V. 7. Connect the oscilloscope to TP47B. 8. In service mode adjust “B-Y G” data so that the amplitude “b” is 1.2±0.03V (between 3rd and 6th peaks).
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12. Apply a studio color bar pattern and confirm that saturation and phase are normal (normal image). 16.6. (NTSC) Color output adjustment / Service DAC adjustment / (COLOR, TINT, B-Y_G) NOTE Color and tint adjustment sets the reference settings for the user controls; It is important to read the procedures.
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16.7. (1080i) Color output adjustment / Service DAC adjustment (COLOR, TINT Make sure that sub-contrast adjustment was finished prior to perform this adjustment PREPARATION 1. Normalize the picture settings. 2. Set picture mode to VIVID 3. Switch NATURAL COLOR to OFF. PROCEDURE 1.
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1. LOW LIGHT areas - In service mode for making electronic adjustments, select CUT R, CUT G, CUT B and adjust the picture for gray. 2. HIGH LIGHT areas - In service mode for making electronic adjustments, select drive R DR, B DR and adjust the picture for warm whites.
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5. Remove the probe from KG. 6. Turn screen clockwise slowly until color is slightly appeared. 7. Then adjust “CUT R” and “CUT B” until line becomes white. 8. Press RECALL button on the remote to restore the raster. 9. Adjust “R DR” and “B DR” so the white seems like white and black like black 10.
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1. Apply a crosshatch pattern. 2. Normalize the picture settings. 3. Set picture mode to VIVID PROCEDURE 1. If horizontal linearity is poor, in service mode, adjust data “H LIN” H-Adjustment 2. Apply a pattern to center the picture. 3. If the horizontal center is not aligned, in service mode adjust “H POS”...
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3. If the v-position is not at the CRT center, adjust / V position “V RAS” DATA again. 4. Adjust H-TRAPEZOID data “HTRAP” so that the upper and lower lines becomes horizontal. 16.9.3. (480i/480p) / V-S, V-Size adjustment PREPARATION 1. Apply a crosshatch pattern 2.
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16.9.4. (480i/480p) / Trapezoid adjustment PREPARATION 1. Apply a crosshatch pattern 2. Normalize the picture settings. 3. Set picture mode to VIVID PROCEDURE 1. Enter service mode, select “TRAP” and adjust DATA so that lines at right and left are vertical like a solid line 16.9.5.
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16.9.6. (480i/480p) / E-W PCC balance adjustment PREPARATION 1. Apply a crosshatch pattern 2. Normalize the picture settings. 3. Set picture mode to VIVID PROCEDURE 1. Enter service mode, select “SIDE” and adjust so that lines at right and left are vertical like solid line. 16.9.7.
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NOTE If side and lower side is imbalanced, adjust “PCCHG” and “PCCLG” so that “PCC” make good balance. 16.9.8. (480i/480p) / Corner PCC adjustment PREPARATION 1. Apply a crosshatch pattern 2. Normalize the picture settings. 3. Set picture mode to VIVID PROCEDURE 1.
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1. Use a pattern that permits centering the image 2. Normalize the picture settings. 3. Set picture mode to VIVID PROCEDURE 1. Adjust “H WID” DATA so that left width and right become in good balance (not too wide or narrow). 16.9.10.
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16.9.11. (480i/480p 16:9 and 480i/480p split) / V-S, V-Size adjustment PREPARATION 1. Apply a 480p pattern 2. Set mode to 16x9 in set-up menu 3. Normalize the picture settings. 4. Set picture mode to VIVID PROCEDURE 1. Enter to service mode 2.
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1. Apply a 480p pattern 2. Set mode to 16x9 in set-up menu 3. Normalize the picture settings. 4. Set picture mode to VIVID PROCEDURE 1. Enter service mode, select “HTRAP” and adjust DATA so that upper and lower edges become horizontal (c=c’ and d=d’) 16.9.13.
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16.9.14. (480i/480p 16:9 and 480i/480p split) / E-W PCC adjustment PREPARATION 1. Apply a 480p pattern 2. Set mode to 16x9 in set-up menu 3. Normalize the picture settings. 4. Set picture mode to VIVID PROCEDURE 1. Enter service mode, select “SIDE” and adjust so that lines at right and left are vertical like solid line.
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16.9.16. (480i/480p 16:9 and 480i/480p split) / Corner PCC adjustment PREPARATION 1. Apply a 480p pattern 2. Set mode to 16x9 in set-up menu 3. Normalize the picture settings. 4. Set picture mode to VIVID PROCEDURE 1. To adjust upper and lower linearity. 2.
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PROCEDURE 1. If horizontal linearity is poor, in service mode, adjust data “H LIN” 2. Apply a pattern to center the picture. 3. If the horizontal center is not aligned, in service mode adjust “H POS” DATA to adjust the horizontal center of the monoscope pattern to the CRT center.
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3. If the v-position is not at the CRT center, adjust again. 16.9.19. (1080i letter and split) / V-S, V-Size adjustment PREPARATION 1. Apply a 1080i pattern 2. Normalize the picture settings. 3. Set picture mode to VIVID PROCEDURE 1. Enter to service mode 2.
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- Adjust “VEAMP” so that width C and D becomes 60mm for 32” and 70mm for 36”. NOTE Repeat until b-a ± 1.5mm 16.9.20. (1080i letter and split) / Trapezoid adjustment PREPARATION 1. Apply a 1080i pattern 2. Normalize the picture settings. 3.
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PROCEDURE 1. Enter service mode, select “PARA” and adjust so that the lines at right and left are vertical like solid line. 16.9.22. (1080i letter and split) / PCC adjustment PREPARATION 1. Apply a 1080i pattern 2. Normalize the picture settings. 3.
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3. Set picture mode to VIVID PROCEDURE 1. To adjust upper and lower linearity. 2. Adjust “TOPG” to straighten upper lines 3. Adjust “BTMG” to straighten lower lines NOTE If TOP-BOTTOM bending point is not so good, adjust “TOPSL” and “BTMSL” of slice level. 16.9.24.
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16.9.25. (1080i letter and split) / H-Width adjustment PREPARATION 1. Use a pattern that permits centering the image 2. Apply a 1080i pattern 3. Normalize the picture settings. 4. Set picture mode to VIVID PROCEDURE 1. Adjust “H WID” DATA so that left width and right become in good balance (not too wide or narrow).
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1. Use a pattern that permits centering the image 2. Apply a 1080i pattern 3. Set mode to 4x3 in set-up menu 4. Normalize the picture settings. 5. Set picture mode to VIVID PROCEDURE 1. Enter service mode, select DAC adjustment / “VRAS” and adjust pattern to center vertical position to the CRT center.
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2. Adjust “VAMP” to correct vertical size. 3. Check a and b sizes, If b-a < -1.5mm (in top and bottom extending case) - Increase “V-S” DATA by one step - Adjust “VEAMP” to correct vertical size. NOTE Repeat until b-a ± 1.5mm 4.
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1. Enter service mode, select “TRAP” and adjust DATA so that lines at right and left are vertical like a solid line 16.9.30. (1080i full) / Parallelogram adjustment PREPARATION 1. Apply a 1080i pattern 2. Set mode to 4x3 in set-up menu 3.
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1. Confirm that trapezoid adjustment is done. 2. Adjust “SIDE” DATA so that the lines at left and right become vertical 16.9.32. (1080i full) / Corner PCC adjustment PREPARATION 1. Apply a 1080i pattern 2. Set mode to 4x3 in set-up menu 3.
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1. Input level adjustment. 2. Stereo separation adjustment. Input level adjustment / Service DAC adjustment (MTSIN) PREPARATION 1. Connect an RMS meter with filter jig as shown in figure to TPA19 (L_OUT) 2. Connect an RF signal generator to the RF antenna input. PROCEDURE 1.
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- Video: 100 IRE flat field, 30% modulation. - Audio: 300Hz, 30% modulation, stereo (left only) (70±5dB, 75 OPEN, P/S 10dB). NOTE After setting 30% modulation with P.L. SW and N.R. SW OFF, turn P.L. SW and N.R. SW 3. In service mode, adjust the MTS Low-Level separation adjustment “SEPAL”...
3. TP96 (A23 pin 21) measurement must have at least four digits of resolution following the decimal point. Example: 000.0000 4. Place the receiver into service mode for making electronic adjustment, select the clock adjustment DAC “CLOCK”. 5. Calculate and set “CLOCK” based on the following formula: NOTE TP96 (A23 pin 21) measurement will not change regardless of the value stored in CLOCK.
1. Adjust the FOCUS control to obtain the sharpest and clearest dot pattern. - F1 focus control adjusts vertically. - F2 focus control adjusts horizontally. - Use this two controls to adjust focus, until best overall picture is obtained. 17. Identification of components 17.1.
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DG-Board top view NOTE: Please ADD “4” to all IC part numbers, EXAMPLE: On board is IC506, then by adding “4” is IC4506 17.6. DG-Board bottom DG-Board bottom view...
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NOTE: Please ADD “4” to all IC part numbers, EXAMPLE: On board is IC525, then by adding “4” is IC4525 17.7. L-Board L-Board view...
19. Conductor Views 19.1. A-Board 1 of 2 19.2. A-Board 2 of 2 19.3. D-Board 1 of 2 19.4. D-Board 2 of 2 19.5. DG-Board top 1 of 4 19.6. DG-Board top 2 of 4 19.7. DG-Board top 3 of 4 19.8.
21.26. G-Board (HL) schematic 1 of 2 21.27. G-Board (HL) schematic 2 of 2 21.28. G-Board (HXC) schematic 1 of 2 21.29. G-Board (HXC) schematic 2 of 2 21.30. Voltages 21.31. Waveforms 22. Parts Location NOTE: Appearance may vary depending on the model 23.
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23.2. Parts list Ref. No. Part No. Part Name & Description Remarks CAPACITORS C038 EEUFC1A471B CAP E 470UF-10V C039 ECA1HM4R7B CAP E 4.7UF-50V C041 ECA1HM2R2B CAP E 2.2UF-50V C042 ECA1VM470B CAP E 47UF/35V C043 ECA1HM4R7B CAP E 4.7UF-50V C045 ECA1HM2R2B CAP E 2.2UF-50V C047 ECA1HM010B...
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Ref. No. Part No. Part Name & Description Remarks C419 EEUNA1A470B CAP E 47UF-125V C420 ECA1CM101B CAP E 100UF/16V C421 ECA1CM101B CAP E 100UF/16V C422 ECA1HM010B CAP E 1UF-50V C434 ECA1HM100B CAP E 10UF/50V C438 ECQB1H102JF3 CAP P 1000PF-J-50V C439 TCJ2VB1H103K CAP C .01UF-K-50V C440...
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Ref. No. Part No. Part Name & Description Remarks C713 ECKR1H221KB5 CAP C 220PF-K-50V C714 ECA1HM2R2B CAP E 2.2UF-50V C759 ECQM2104KZW CAP P .1UF-K-200V C801 ECQU2A104BN9 CAP P .10UF-B-250V C802 ECQU2A823BN9 CAP P .082UF-B-250V C803 ECQU2A823BN9 CAP P .082UF-B-250V C804 ECQU2A823BN9 CAP P .082UF-B-250V C805...
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CAP P .010UF-K-200V C1024 TCJ2VF1H103Z CAP C .01UF-Z-50V C1025 ECA0JM222B CAP E 2200UF-6.3V C1051 ECJ2VF1H103Z CAP C .01UF-Z-50V / CT-32HL43G/UG, / CT-36HL43G/UG C1051 TCJ2VB1H103K CAP C .01UF-K-50V / CT-32HXC43G/UG C1052 ECA1AM470B CAP E 47UF-10V / CT-32HL43G/UG / CT-36HL43G/UG C1052 ECA1HM470B...
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Ref. No. Part No. Part Name & Description Remarks C2203 ECEA1HKA4R7B CAP E 4.7UF-50V C2204 AP106K016CAE CAP T 10UF/16V C2205 ECA1HM010B CAP E 1UF-50V C2206 ECQB1H223JF3 CAP P .022UF-J-50V C2207 AP335K016CAE CAP T 3.3UF/16V C2208 ECJ2VB1C104K CAP C .1UF-K-16V C2209 ECJ2VB1C104K CAP C .1UF-K-16V C2210...
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ECJ2VB1C104K CAP C .1UF-K-16V C3017 ECJ2VB1C104K CAP C .1UF-K-16V C3018 ECEA1CKA100B CAP E 10UF-16V C3020 ECJ2VF1C105Z CAP C 1.0UF-Z-16V / CT-32HL43G/UG, CT-36HL43G/UG C3021 ECJ2VF1C105Z CAP C 1.0UF-Z-16V / CT-32HL43G/UG, CT-32HL43G/UG C3031 TCJ2VB1H152K CAP C 1500PF-K-50V C3032 ECJ2VF1C105Z CAP C 1.0UF-Z-16V...
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ECJ2VF1C105Z CAP C 1.0UF-Z-16V C3115 ECJ2VF1C105Z CAP C 1.0UF-Z-16V C3117 ECJ2VF1C105Z CAP C 1.0UF-Z-16V C3121 ECJ2VF1C105Z CAP C 1.0UF-Z-16V / CT-32HL43G, CT-32HXC43G/UG / CT-36HL43G/ C3126 ECJ2YB1A105K CAP C 1.0UF-K-125V C3127 ECJ2YB1A105K CAP C 1.0UF-K-125V C3128 ECJ2YB1A105K CAP C 1.0UF-K-125V C3129 ECJ2YB1A105K CAP C 1.0UF-K-125V...
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ECEA1CN220UB CAP E 22UF-16V C4920 ECJ2VF1H104Z CAP C .1UF-Z-50V C4921 ECA1CM470B CAP E 47UF/16V C4922 ECJ2VB1C104K CAP C .1UF-K-16V / CT-32HL43G/UG, CT-36HL43G/UG C4922 ECQB1H104JF3 CAP P .10UF-J-50V / CT-32HXC43G/UG C4923 ECA1VM470B CAP E 47UF/35V C4924 ECA1VM470B CAP E 47UF/35V C4925 ECQB1H104JF3 CAP P .10UF-J-50V...
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R421 ERJ6ENF1602V RES M 16K-F-1/4W Ref. No. Part No. Part Name & Description Remarks R422 ERJ6ENF2001V RES M 2K-F-1/10W R423 ERJ6GEYJ103V RES M 10K-J-1/10W R424 ERJ6GEYJ472V RES M 4.7K-J-1/10W R425 ERDS1FJ1R0P RES C 1.0-J-1/2W R426 ERJ6GEYJ123V RES M 12K-J-1/10W R427 ERJ6GEYJ102V RES M 1K-J-1/10W R428...
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Ref. No. Part No. Part Name & Description Remarks R532 ERDS1FJ1R0P RES C 1.0-J-1/2W R533 ERDS1FJ1R0P RES C 1.0-J-1/2W R534 ER0S2THF9102 RES M 91K-F-1/4W R535 ERJ6GEYJ562V RES M 5.6K-J-1/10W R536 ERDS2TJ101T RES C 100-J-1/4W R538 ERJ6GEYJ101V RES M 100-J-1/10W R540 ERJ6GEYJ272V RES M 2.7K-J-1/10W R541...
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Ref. No. Part No. Part Name & Description Remarks R818 ERDS2TJ220T RES C 22-J-1/4W R819 ERDS1FJ820T RES C 82-J-1/2W R820 ERDS1FJ120T RES C 12-J-1/2W R821 ERX12SJ1R8P RES M 1.8-J-1/2W R822 ERX12SJ1R8P RES M 1.8-J-1/2W R823 ERDS2TJ102T RES C 1K-J-1/4W R824 ERDS2TJ153T RES C 15K-J-1/4W R825...
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ERJ6GEYJ102V RES M 1K-J-1/10W R1060 ERJ6GEYJ470V RES M 47-J-1/10W R1061 ERJ6GEYJ101V RES M 100-J-1/10W R1062 ERJ6GEYJ182V RES M 1.8K-J-1/10W / CT-32HL43G/UG, CT-36HL43G/UG R1062 ERJ6GEYJ331V RES M 330-J-1/10W / CT-32HXC43G/UG R1501 ERJ6GEYJ102V RES M 1K-J-1/10W R1503 ERJ6GEYJ222V RES M 2.2K-J-1/10W R1504...
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Ref. No. Part No. Part Name & Description Remarks R2206 ERJ6GEYJ102V RES M 1K-J-1/10W R2207 ERJ6GEYJ102V RES M 1K-J-1/10W R2221 ERJ6GEYJ101V RES M 100-J-1/10W R2301 ERJ6GEYJ102V RES M 1K-J-1/10W R2302 ERJ6GEYJ392V RES M 3.9K-J-1/10W R2303 ERJ6GEYJ271V RES M 270-J-1/10W R2304 ERJ6GEYJ473V RES M 47K-J-1/10W R2305...
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RES M 680-J-1/10W R3029 ERJ6GEYJ681V RES M 680-J-1/10W R3030 ERJ6ENF68R0V RES M 68-F-1/10W R3031 ERJ6ENF1500V RES M 150-F-1/10W / CT-32HL43G/UG, CT-32HXC43G, / CT-36HL43G R3031 ERJ6ENF68R0V RES M 150-F-1/10W / CT-32HXC43UG R3032 ERJ6ENF1500V RES M 150-F-1/10W / CT-32HL43G/UG, CT-32HXC43G, / CT-36HL43G R3032 ERJ6ENF68R0V...
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Ref. No. Part No. Part Name & Description Remarks R3111 ERDS2TJ221T RES C 220-J-1/4W R3112 ERJ6GEYJ221V RES M 220-J-1/10W R3113 ERDS2TJ221T RES C 220-J-1/4W R3114 ERDS2TJ221T RES C 220-J-1/4W R3115 ERJ6GEYJ221V RES M 220-J-1/10W R3116 ERJ6GEYJ221V RES M 220-J-1/10W R3117 ERDS2TJ221T RES C 220-J-1/4W R3118...
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RES C 1K-J-1/4W R4950 ERDS1FJ391T RES C 390-J-1/2W R4951 ERX12SJR47P RES M .47-J-1/2W R4952 ERX12SJR68P RES M .68-J-2W R4953 ERDS1FJ391T RES C 390-J-1/2W R5013 ERDS1FJ1R0T RES C 1.0-J-1/2W R519A ERQ1CZKPR22S RES F .22-K-1W SWITCHES S001 EVQPBD05R SWITCH / CT-32HL43G/UG, CT-36HL43G/UG...
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SUB PB PBOUT2 VIN1 C-IN SUB PR R3121 SC_M PROUT2 VIN2 DV-BOARD IC5102 CONVERTER MAIN CC SUB CC RIN GIN BIN CVBS1 CVBS0 IC4002 IOR IOG IOB IC5001 CONTROLLER RX0- RX0+ RX1- RX1+ RX2- RX2+ VIDEO BLOCK DIAGRAM CT-36HL43G/UG, CT-32HL43G/UG, CT-32HXC43UG...
Main Signal Processing UV0,UV1 255-256 VIN3 RO 0-9 4-11 VIN1 VIN2 ROUT RGB DRIVER GOUT BOUT B OSD G OSD R OSD MAIN CC SUB CC CVBS1 CVBS0 OSD B OSD G IC4002 OSD R VIDEO BLOCK DIAGRAM CT-36HL43G/UG, CT-32HL43G/UG, CT-32HXC43UG...
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154-145 Global Core Sub Signal Processing UV IN/OUT UV IN/OUT UVIN 0-9 UVOUT 0-9 24-33 168-159 YUV OUT YUV OUT YUV 0-9 UV0,UV1 255-256 190-181 RO 0-9 4-11 DG-BOARD ROUT GOUT BOUT R OSD VIDEO BLOCK DIAGRAM CT-36HL43G/UG, CT-32HL43G/UG, CT-32HXC43UG...
OUT B R3184 IC2451 SOUND IC3002 PROCESSOR R3185 A/V SWITCH R3178 C2451 R2452 L OUT 1 OUT A VAO L R3172 R3173 R2324 C2330 R2325 C3174 C3172 R2342 C2332 R2348 VAO R JACKS V-BOARD AUDIO BLOCK DIAGRAM CT-36HL43G/UG, CT-32HL43G/UG, CT-32HXC43UG...
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IN R MUTE OUT R IC2302 AUDIO OUT R2335 C2375 R2452 L2332 Q2451 IN L OUT L R2333 R2338 R2325 IC2304 H-BOARD R2348 VAO MUTE FROM MPU AUDIO MUTE CIRCUIT AUDIO MUTE FROM MPU AUDIO BLOCK DIAGRAM CT-36HL43G/UG, CT-32HL43G/UG, CT-32HXC43UG...