gpf16du chassis -...
TRANSCRIPT
© Panasonic Corporation 2013. Unauthorized copying and distribution is a violation of law.
ORDER NO.MTNC130227CEB34 Canada: B62
55 inch Class 1080p Plasma HDTVModel No. TC-P55ST60GPF16DU Chassis
For detailed troubleshooting information and circuit explanations, refer to the "QSM/Service Hints/Troubleshooting Information(TI)" and Seminar/Training Manual/Technical Guide(TG) documents posted on the TSN web site.For information about this model, type TC-P2013 in the model box under "Direct Search".
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TABLE OF CONTENTSPAGE PAGE
1 Safety Precautions -----------------------------------------------31.1. General Guidelines ----------------------------------------3
2 Warning --------------------------------------------------------------42.1. Prevention of Electrostatic Discharge (ESD)
to Electrostatically Sensitive (ES) Devices ----------42.2. About lead free solder (PbF) ----------------------------5
3 Service Navigation------------------------------------------------63.1. PCB Layout --------------------------------------------------6
4 Specifications ------------------------------------------------------75 Technical Descriptions------------------------------------------8
5.1. Specification of KEY for DTCP-IP, WMDRM and Widevine------------------------------------------------8
6 Service Mode -------------------------------------------------------96.1. How to enter into Service Mode ------------------------96.2. Option - Mirror--------------------------------------------- 116.3. Service tool mode---------------------------------------- 116.4. Hotel mode------------------------------------------------- 126.5. Data Copy by USB Memory --------------------------- 13
7 Troubleshooting Guide---------------------------------------- 168 Service Fixture & Tools --------------------------------------- 17
8.1. SC jig -------------------------------------------------------- 179 Disassembly and Assembly Instructions --------------- 18
9.1. Disassembly Flow Chart for the Unit ---------------- 189.2. Disassembly Procedure for the Unit----------------- 19
10 Measurements and Adjustments -------------------------- 2510.1. Adjustment ------------------------------------------------- 25
11 Block Diagram --------------------------------------------------- 2711.1. Main Block Diagram ------------------------------------- 2711.2. Block (1/4) Diagram ------------------------------------- 2811.3. Block (2/4) Diagram ------------------------------------- 2911.4. Block (3/4) Diagram ------------------------------------- 3011.5. Block (4/4) Diagram ------------------------------------- 31
12 Wiring Connection Diagram --------------------------------- 3312.1. Caution statement.--------------------------------------- 3312.2. Wiring (1) --------------------------------------------------- 3312.3. Wiring (2) --------------------------------------------------- 3412.4. Wiring (3) --------------------------------------------------- 3512.5. Wiring (4) --------------------------------------------------- 3612.6. Wiring (5) --------------------------------------------------- 36
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1 Safety Precautions1.1. General Guidelines
1. When conducting repairs and servicing, do not attempt to modify the equipment, its parts or its materials.2. When wiring units (with cables, flexible cables or lead wires) are supplied as repair parts and only one wire or some of the
wires have been broken or disconnected, do not attempt to repair or re-wire the units. Replace the entire wiring unit instead.3. When conducting repairs and servicing, do not twist the Fasten connectors but plug them straight in or unplug them straight
out.4. When servicing, observe the original lead dress. If a short circuit is found, replace all parts which have been overheated or
damaged by the short circuit.5. After servicing, see to it that all the protective devices such as insulation barriers, insulation papers shields are properly
installed.6. After servicing, make the following leakage current checks to prevent the customer from being exposed to shock hazards.
1.1.1. Leakage Current Cold Check1. Unplug the AC cord and connect a jumper between the
two prongs on the plug.2. Measure the resistance value, with an ohmmeter,
between the jumpered AC plug and each exposed metallic cabinet part on the equipment such as screwheads, connectors, control shafts, etc. When the exposed metallic part has a return path to the chassis, the reading should be between 1Mohm and 5.2Mohm.When the exposed metal does not have a return path to the chassis, the reading must be .
1.1.2. Leakage Current Hot Check (See Figure 1.)
1. Plug the AC cord directly into the AC outlet. Do not use an isolation transformer for this check.
2. Connect a 1.5kohm, 10 watts resistor, in parallel with a 0.15μF capacitors, between each exposed metallic part on the set and a good earth ground such as a water pipe, as shown in Figure 1.
3. Use an AC voltmeter, with 1000 ohms/volt or more sensitivity, to measure the potential across the resistor.
4. Check each exposed metallic part, and measure the voltage at each point.
5. Reverse the AC plug in the AC outlet and repeat each of the above measurements.
6. The potential at any point should not exceed 0.75 volts RMS. A leakage current tester (Simpson Model 229 or equivalent) may be used to make the hot checks, leakage current must not exceed 1/2 milliamp. In case a measurement is outside of the limits specified, there is a possibility of a shock hazard, and the equipment should be repaired and rechecked before it is returned to the customer.
Figure 1
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2 Warning2.1. Prevention of Electrostatic Discharge (ESD) to Electrostatically
Sensitive (ES) DevicesSome 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 electrostatic discharge (ESD).
1. Immediately before handling any semiconductor component or semiconductor-equipped assembly, drain off any ESD on your body by touching a known earth ground. Alternatively, obtain and wear a commercially available discharging ESD wrist strap, which should be removed for potential shock reasons prior to applying power to the 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 solder removal device. Some solder removal devices not classified as [anti-static (ESD protected)] can
generate electrical charge 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 ham less motion such as the
brushing together of your clothes fabric or the lifting of your foot from a carpeted floor can generate static electricity (ESD) sufficient to damage an ES device).
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2.2. 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).That is Tin (Sn), Silver (Ag) and Copper (Cu) although other types are available.
This model uses Pb Free solder in it's manufacture due to environmental conservation issues. For service and repair work, we'd suggest the use of Pb free solder as well, although Pb solder may be used.
PCBs manufactured using lead free solder will have the PbF within a leaf Symbol PbF stamped on the back of PCB.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 ± 10 °C).
• Pb free solder will tend to splash when heated too high (about 1100 °F or 600 °C).If you must use Pb solder, please completely remove all of the Pb free solder on the pins or solder area before applying Pb solder. If this is not practical, be sure to heat the Pb free solder until it melts, before applying Pb solder.
• After applying PbF solder to double layered boards, please check the component side for excess solder which may flow onto the opposite side. (see figure below)
Suggested Pb free solderThere 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 be used.
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3 Service Navigation3.1. PCB Layout
Board Name FunctionP Power SupplyA Main AV input, processingK Remote receiver, Power LED, C.A.T.S sensor
C1 Data Driver (Lower Right)C2 Data Driver (Lower Center)C3 Data Driver (Lower Left)SC Scan DriveSS Sustain Drive
SS2 Sustain out (Lower)SU Scan out (Upper)
Non serviceable.SU-Board should be exchanged for service.
SD Scan out (Lower)Non serviceable.SD-Board should be exchanged for service.
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4 Specifications TV
Wireless LAN
Bluetooth
3D Eyewear
NoteDesign and Specifications are subject to change without notice. Mass and Dimensions shown are approximate.
Power Source AC 120 V, 60 Hz Power Consumption
Rated Power 382 W Standby Power 0.2 W
Display PanelPanel System Plasma Display panelScreen size 55 inch class (55.1 inches measured diagonally)W × H × Diagonal 48.0 inch × 27.0 inch × 55.1 inch (1,221 mm × 687 mm × 1,401 mm)Number of pixels 1920 × 1080
Speaker Output 20 W [5 W + 5 W + 10 W] (10 % THD)Channel Capability (Digital/Analog) VHF/ UHF: 2 - 69, CATV: 1 - 135Operating Conditions
Temperature: 32 °F - 104 °F (0 °C - 40 °C)Humidity: 20 % - 80 % RH (non-condensing)
Connection TerminalsVIDEO IN RCA PIN (VIDEO, AUDIO-L, AUDIO-R)COMPONENT IN RCA PIN (Y, PB, PR, AUDIO-L, AUDIO-R)HDMI IN 1/2/3 TYPE A Connector (supports [HDAVI Control 5] function)USB 1/2 USB2.0 Type A connector DC 5V, Max. 500 mADIGITAL AUDIO OUT PCM / Dolby Digital, Fiber OpticOTHERS SD card slot, ETHERNET (10BASE-T/100BASE-TX)
Dimensions (W × H × D)Including pedestal 50.6 inch × 32.1 inch × 13.2 inch (1,286 mm × 816 mm × 333 mm)TV Set only 50.6 inch × 30.0 inch × 2.0 inch (1,286 mm × 762 mm × 49 mm)
MassIncluding pedestal 68.4 lb. (31.0 kg) NETTV Set only 59.6 lb. (27.0 kg) NET
Standard Compliance andFrequency Range *1,*2
IEEE 802.11a/n :5.15 GHz - 5.35 GHz, 5.47 GHz - 5.85 GHzIEEE 802.11b/g/n :2.400 GHz - 2.4835 GHz
Security WPA2-PSK (TKIP/AES)WPA-PSK (TKIP/AES)WEP (64bit/128bit)
*1 The frequency and channel differ depending on the country.*2 802.11b/g/n CH1 ~ CH11 only use for United States and Canada.
Standard Compliance Bluetooth® 3.0Frequency Range 2.402GHz~2.480GHz
Battery Coin-shaped lithium battery CR2025Operation time: Approx. 75 hours in continuous use of the battery made by Panasonic
• Use Panasonic 3D Eyewear supporting Bluetooth wireless technology.
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5 Technical Descriptions5.1. Specification of KEY for DTCP-IP, WMDRM and Widevine5.1.1. General information:
1. NAND Flash (IC8900) for spare parts has the seed of KEY for each DTCP-IP for DLNA, WMDRM for Netflix and Widevine for CinemaNow.
2. The final KEY data will be generated by Main IC (IC8000) when SELF CHECK was done and are stored in both Main IC (IC8000) and NAND Flash (IC8900).
5.1.2. Replacement of ICs:When Main IC is replaced, NAND Flash should be also replaced with new one the same time.When NAND Flash is replaced, Main IC is not necessary to be replaced the same time.After the replacement of IC, SELF CHECK should be done to generate the final KEY data.How to SELF CHECK: While pressing [VOLUME ( - )] button on the main unit, press [MENU] button on the remote control for more than 3 seconds.TV will be forced to the factory shipment setting after this SELF CHECK.
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6 Service Mode6.1. How to enter into Service Mode6.1.1. PurposeAfter exchange parts, check and adjust the contents of adjustment mode.
While pressing [VOLUME ( - )] button of the main unit, press [INFO] button of the remote control three times within 2 secondsNote:
Service Mode can not be entered when 3D signal input.Input 2D signal to enter Service Mode.
6.1.2. Key command [1] button...Main items Selection in forward direction [2] button...Main items Selection in reverse direction [3] button...Sub items Selection in forward direction [4] button...Sub items Selection in reverse direction [VOL] button...Value of sub items change in forward direction ( + ), in reverse direction ( - )
6.1.3. How to exitSwitch off the power with the [POWER] button on the main unit or the [POWER] button on the remote control.
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6.1.4. Contents of adjustment mode• Value is shown as a hexadecimal number.• Preset value differs depending on models.• After entering the adjustment mode, take note of the value in each item before starting adjustment.
Main item Sub item Sample Data RemarkADJUST CONTRAST 000
COLOR 3CTINT 00SUB-BRT 800
WB-ADJ R-CUT 80G-CUT 80B-CUT 80R-DRV FFG-DRV FFB-DRV B8ALL-CUT 80ALL-DRV FF
OPTION Boot ROM Factory PresetSTBY-SET 00EMERGENCY ONCLK MODE 00CLOCK 000EDID-CLK HIGHMIRROR 00 (See Option-Mirror)
VSUS LOW See Vsus selectionAGING ALL WHITE Built-in test patterns can be
displayed.MIDDLE BLUE WITH MAGENTA OUTSIDE FRAMEMIDDLE STEP GREENMIDDLE STEP REDLOW STEP WHITEALL BLUEALL GREENALL REDWHITE DIAGONAL STRIPERED DIAGONAL STRIPEGREEN DIAGONAL STRIPEBLUE DIAGONAL STRIPEA-ZONE & B-ZONE1% WINDOWCOLOR BAR9 POINTS BRIGHT MEASURE 2 DOT OUTSIDE FRAMEDOUBLE FIXED 1% WINDOWVERTICAL LINE SCROLLON/OFFR/G/B/W ROTATION WITH COUNT DISPLAYHALF FIXED ALL WHITEALL WHITE WITH COUNT DISPLAY
SRV-TOOL 00 See Service tool mode
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6.2. Option - MirrorPicture can be reversed left and right or up and down.00 : Default (Normal picture is displayed)01 : Picture is reversed left and right.02 : Picture is reversed up and down.
Hint : If the defective symptom (e.g. Vertical bar or Horizontal bar) is moved by selection of this mirror, the possible cause is in A-board.
6.3. Service tool mode6.3.1. How to access
1. Select [SRV-TOOL] in Service Mode.2. Press [OK] button on the remote control.
6.3.2. Display of SOS HistorySOS History (Number of LED blinking) indication.From left side; Last SOS, before Last, three occurrence before, 2nd occurrence after shipment, 1st occurrence after shipment.This indication except 2nd and 1st occurrence after shipment will be cleared by [Self-check indication and forced to factory shipment setting].
6.3.3. POWER ON TIME/COUNTNote : To display TIME/COUNT menu, highlight position, then press MUTE for 3 sec. Time : Cumulative power on time, indicated hour : minute by decimalCount : Number of ON times by decimalNote : This indication will not be cleared by either of the self-checks or any other command.
6.3.4. ExitDisconnect the AC cord from wall outlet or press the [POWER] button on the main unit for 3 seconds to turn off and then turn on automatically.
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6.4. Hotel mode1. Purpose
Restrict a function for hotels.2. Access command to the Hotel mode setup menu
In order to display the Hotel mode setup menu:While pressing [VOLUME (-)] button of the main unit, press [INPUT] button of the remote control three times within 2 seconds.
Then, the Hotel mode setup menu is displayed.
3. To exit the Hotel mode setup menu Switch off the power with the [POWER] button on the main unit or the [POWER] button on the remote control.
4. Explain the Hotel mode setup menu
Item FunctionMode Select hotel mode On/OffInput Select input signal modes.
Set the input, when each time power is switched on.Selection:-,RF,HDMI1,HDMI2,HDMI3,AV
• Off: give priority to a last memory. Channel Select channel when input signal is RF.
Set the channel, each time power is switched on.Selection: Any channel number or [-]. [-] means the channel when turns off.
Volume Adjust the volume when each time power is switched on.Range: 0 to 100
Vol. Max Adjust maximum volume.Range: 0 to 100
OSD Ctrl Restrict the OSD.Selection:Off/Pattern1
• Off: No restriction• Pattern1: restriction
FP Ctrl Select front key conditions.Selection: Off/Pattern1/All
• Off: altogether valid.• Pattern1: only input key is valid.• All: altogether invalid.
Pow Ctrl Select POWER-On/Off condition when AC power cord is disconnected and then connected. Off: The same condition when AC power cord is disconnected. On: Forced power ON condition.
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6.5. Data Copy by USB MemoryNote:
SD card can not be used for Data Copy.
6.5.1. Purpose(a) Board replacement (Copy the data when exchanging A-board):
When exchanging A-board, the data in original A-board can be copied to USB Memory and then copy to new A-board.
(b) Hotel (Copy the data when installing a number of units in hotel or any facility):When installing a number of units in hotel or any facility, the data in master TV can be copied to USB Memory and then copy to other TVs.
6.5.2. PreparationMake pwd file as startup file for (a) or (b) in a empty USB Memory.1. Insert a empty USB Memory to your PC.2. Right-click a blank area in a USB Memory window, point to New, and then click text document. A new file is created by default
(New Text Document.txt).3. Right-click the new text document that you just created and select rename, and then change the name and extension of the
file to the following file name for (a) or (b) and press ENTER.File name:
(a) For Board replacement : boardreplace.pwd(b) For Hotel : hotel.pwd
Note:Please make only one file to prevent the operation error.No any other file should not be in USB Memory.
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6.5.3. Data copy from TV set to USB Memory1. Turn on the TV set.2. Insert USB Memory with a startup file (pwd file) to USB terminal.
On-screen Display will be appeared according to the startup file automatically.3. Input a following password for (a) or (b) by using remote control.
(a) For Board replacement : 2770(b) For Hotel : 4850
Data will be copied from TV set to USB Memory.It takes around 2 to 6 minutes maximum for copying.
4. After the completion of copying to USB Memory, remove USB Memory from TV set. 5. Turn off the TV set.
Note:Following new folder will be created in USB Memory for data from TV set.
(a) For Board replacement : user_setup(b) For Hotel : hotel
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6.5.4. Data copy from USB Memory to TV set1. Turn on the TV set.2. Insert USB Memory with Data to USB terminal.
On-screen Display will be appeared according to the Data folder automatically.3. Input a following password for (a) or (b) by using remote control.
(a) For Board replacement : 2771(b) For Hotel : 4851
Data will be copied from USB Memory to TV set.4. After the completion of copying to USB Memory, remove USB Memory from TV set.
(a) For Board replacement : Data will be deleted after copying (Limited one copy).(b) For Hotel : Data will not be deleted and can be used for other TVs.
5. Turn off the TV set.Note:
1. Depending on the failure of boards, function of Data copy for board replacement does not work.2. This function can be effective among the same model numbers.
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7 Troubleshooting GuideFor detailed troubleshooting information and circuit explanations,refer to the "QSM/Service Hints/Troubleshooting Information(TI)" and Seminar/Training Manual/Technical Guide(TG) documents posted on the TSN web site.For information about this model, type TC-P2013 in the model box under "Direct Search".
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8 Service Fixture & Tools8.1. SC jigPurpose:To find the failure board (SC or SU/SD) when the power LED is blinking 7 times.SC jig:Jumper connector to connect to SC50 connector on SC boardPart number:TZSC09187How to use:Caution: Remove SC jig from SC board after inspection.
1. Remove the 2 VFG screws from SU and SD board.2. Remove all connector between SC board and SU/SD board to isolate SC board from both SU and SD board electrically.
Note: The board will be damaged if all connector is not removed (for example; remove connector only for SU board and stay connecting with SD board. The board will be damaged.)
3. Connect SC jig to connector SC50 at left bottom side of SC board4. Turn on the TV/Display Unit and confirm the power LED blinking.
LED blinking: Possible cause of failure is in SC boardNo LED blinking (Lighting or no lighting): Possible cause of failure is in SU or SD board
5. After inspection, turn off the TV/Display Unit and wait a few minutes to discharge.6. Remove SC jig from SC board.
Remark: This SC jig can be used for all 2013 Plasma TV and Plasma Display.
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9 Disassembly and Assembly Instructions9.1. Disassembly Flow Chart for the UnitThis is a disassembly chart.When assembling, perform this chart conversely.
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9.2. Disassembly Procedure for the Unit9.2.1. Remove the Pedestal stand
1. Remove the Plasma panel section from the servicing stand and lay on a flat surface such as a table (covered by a soft cloth) with the Plasma panel surface facing downward.
2. Remove the screws (×4 )3. Slide the Pedestal stand to the downside and remove the
Pedestal stand.
9.2.2. Remove the Bottom cover1. Remove the screws (×4 ) and remove the Bottom
cover.
9.2.3. Remove the AC cord clamper B1. Remove the screws (×2 ) and remove the AC cord
clamper B.
9.2.4. Remove the Wi-Fi module1. Remove the screw (×1 ) and remove the Wi-Fi
module.
9.2.5. Remove the Bluetooth module1. Remove the screw (×1 ) and remove the Dongle
cover.
2. Remove the Pin guides (×2 ) and disconnect the BT connector.
3. Remove the Bluetooth module.
9.2.6. Remove the Rear cover1. Remove the screws (×33 , ×2 ).2. Remove the M8 caps (×4 ).3. Remove the Rear cover.
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9.2.7. Remove the P-BoardCaution:
To remove P.C.B. wait 1 minute after power was off for discharge from electrolysis capacitors.1. Unlock the hooks and the tapes to free the cables2. Disconnect the connectors (P2, P6, P11 and P35).3. Remove the screws (×5 , ×1 , ×1 ) and remove
the P-Board.
9.2.8. Remove the A-Board1. Unlock the hooks and the tapes to free the cables.2. Disconnect the connectors (A1, A6 and A12).3. Disconnect the USB cable (JK8605).4. Disconnect the flexible cables (A20, A31, A32 and A33).5. Remove the screws (×3 ).6. Remove the Side shield metal and the Bottom shield
metal.7. Remove the A-Board.
8. Remove the screws (×2 ).9. Remove the Heatsink (bottom) and the Thermal pad.
9.2.9. Remove the Control unit assy1. Unlock the tape to free the cables.2. Disconnect the connector (C14).3. Remove the claws (×2 ) and remove the Control unit
assy.
9.2.10. Remove the Speaker SQs1. Unlock the hooks and the tapes to free the cables.2. Disconnect the Relay connector.3. Remove the screws (×2 each) and remove the
Speaker SQs (L, R).
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9.2.11. Remove the Woofer1. Unlock the hooks and the tapes to free the cables.2. Disconnect the Relay connector.3. Remove the screws (×3 ) and remove the Woofer.
9.2.12. Remove the SU-Board1. Disconnect the flexible cables (SU1, SU2, SU3, SU4 and
SU5) connected to the SU-Board.2. Disconnect the flexible cable (SU11-SD11) and the bridge
connector (SC41-SU41).3. Remove the screws (×2 , ×1 ) and remove the SU-
Board.
9.2.13. Remove the SD-Board1. Disconnect the flexible cables (SD1, SD2, SD3, SD4 and
SD5) connected to the SD-Board.2. Disconnect the flexible cable (SU11-SD11) and the bridge
connectors (SC42-SD42 and SC46-SD46).3. Remove the screws (×2 , ×1 ) and remove the SD-
Board.
9.2.14. Remove the SC-Board1. Unlock the tapes to free the cables.2. Disconnect the connector (SC2).3. Disconnect the flexible cable (SC20).4. Remove the screws (×7 ) and remove the SC-Board.
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9.2.15. Work instructions for the Rubber sheet for SC-Board
1. Rubber sheets are put between the board and rear cover for EMC requirement and heat radiation. Confirm rubber sheets were placed at each portion when assembling as shown in figure.
9.2.16. Remove the SS-Board1. Disconnect the connector (SS11).2. Disconnect the flexible cable (SS33).3. Disconnect the flexible cables (SS52 and SS54).4. Remove the screws (×5 , ×3 ) and remove the SS-
Board.
9.2.17. Work instructions for the Rubber sheet for SS-Board
1. Rubber sheets are put between the board and rear cover for EMC requirement and heat radiation. Confirm rubber sheets were placed at each portion when assembling as shown in figure.
9.2.18. Remove the SS2-Board1. Disconnect the flexible cable (SS57).2. Remove the screws (×2 ) and remove the SS2-Board.
9.2.19. Remove the USB cable (A-WiFi)1. Remove the screw (×1 ).2. Remove the USB cable (A-WiFi).
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9.2.20. Remove the Metal bracket bottom1. Remove the screws (×6 , ×2 ) and the Metal
bracket bottom.
9.2.21. Remove the M8 nut metals1. Remove the screws (×2 each) and remove the M8 nut
metals.
9.2.22. Remove the K-Board1. Remove the screws (×2 ) and remove the LED panel
case.
2. Disconnect the connector (K10).3. Remove the claw (×1 ) and remove the K-Board.4. Remove the LED panel.
9.2.23. Remove the Cabinet assy from the Plasma panel section
1. Place the Cabinet assy on a flat surface of a table (covered by a soft cloth) and a cushion.
2. Remove the screws (×19 ).
3. Remove the Cabinet assy from the Plasma panel section.
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9.2.24. Remove the Contact metals1. Remove the screws (×18 ).2. Remove the Contact metal side (L, R).3. Remove the screws (×15 ).4. Remove the Contact metal bottom.
9.2.25. Remove the C1-Board1. Disconnect the flexible cables (CB1, CB2, CB3, CB4 and
CB5).2. Disconnect the flexible cable (C10).3. Disconnect the connectors (C14 and C18).4. Remove the screws (×5 ) and remove the C1-Board.
9.2.26. Remove the C2-Board1. Disconnect the flexible cables (CB6, CB7, CB8, CB9,
CB10 and CB11).2. Disconnect the flexible cables (C20, C21 and C26).3. Disconnect the connectors (C25 and C28).4. Remove the screws (×6 ) and remove the C2-Board.
9.2.27. Remove the C3-Board1. Disconnect the flexible cables (CB12, CB13, CB14 and
CB15).2. Disconnect the flexible cables (C31 and C36).3. Remove the screws (×4 ) and remove the C3-Board.
9.2.28. Replace the Plasma panelCaution:
Place the Plasma panel on a flat surface of a table (covered by a soft cloth) and a cushion.
A new Plasma panel itself without Contact metals is fragile. To avoid the damage to new Plasma panel, carry a new Plasma panel taking hold of the Contact metals.
1. Place a carton box packed a new Plasma panel on the flat surface of the work bench.
2. Open a box and without taking a new Plasma panel.3. Attach the Cabinet assy and each P.C.Board and so on,
to the new Plasma panel.
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10 Measurements and Adjustments10.1. Adjustment10.1.1. Vsus selectionCaution:
When Plasma panel or A-board is replaced, Vsus should be set to LOW or HIGH.Procedure
1. Go into main item [VSUS] in Service Mode. LOW or HIGH will be displayed.2. Press [OK] button to go to TEST stage.
White pattern without On-Screen Display will be displayed during TEST and CONF stage. Press [5] button to display the On-Screen Display.
3. Press [VOL (-)] button to set to LOW.4. In LOW setting
a. If no several dead pixel is visible remarkably in white pattern, press [3] button to go to CONF stage.b. If the several dead pixels are visible remarkably in white pattern, Set to HIGH by press [VOL (+)] button. Press [3] button
to go to CONF stage if the symptom is improved. 5. Press [OK] button in CONF stage to store LOW or HIGH.6. Exit Service Mode by pressing [Power] button.
Notes:Do not overwrite because data is written in NAND Flash after executing adjustment of V-SUS Voltage.
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10.1.2. White balance adjustment
Name of measuring instrument RemarksColor analyzer
(Minolta CS-1000 or equivalent)Procedure Remarks
1. Enter the Service mode.2. Receive the Analog-RF (except for no signal) or set CVBS/YUV/HDMI (no signal is
available).3. Select [WB-ADJ] by using [1] and [2] key in the remote controller.4. Check that the color temp and the picture mode is the values written in table1.5. [INNER PATTERN] is displayed by using [5] key by using [5] key in the remote controller.6. Select [G-CUTOFF] by using the [3] and [4] key in the remote controller, and set the value
to [80] by using the volume [+] and [-] key.Also, [B-CUTOFF] and [R-CUTOFF] set to [80]
7. Set [G-DRIVE] value to the initial data (ex. D0).8. Set the color analyzer and adjust color point to the values written in table1 by using [B-
DRIVE] and [R-DRIVE]9. Increase RGB-DRIVE value so that the maximum drive value of one of R-DRIVE or G-
DRIVE or B-DRIVE should become [FF]([ALL-DRIVE] set to [FF].)
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11 Block Diagram11.1. Main Block Diagram
(LED:6TIMES)
HOTCOLD
(LED:8TIMES)
(LED:7TIMES)
P3.3
V
VDA
DATADRIVER
DATADRIVER
P3.3V
DATADRIVER
VSUS GEN.
C1
SOS7_SC2
DATADRIVER
P3.3
V
DATADRIVER
SD
VSUS
DATA DRIVER (RIGHT)
VID
EO
DA
TA SS2
VAD GEN.
DATA DRIVER (LEFT)
SU
ST
AIN
CO
NT
RO
L
VIDEO DATA
SO
S8_S
S
SS11
C21
SD42
DATADRIVER
VID
EO
DA
TA
DATADRIVER
VE GEN.
P5V
SU
C2
DATADRIVER
SO
S8_S
S
SUSTAIN
DATADRIVER
VIDEO DATA
SU11
OUT
P15V
SC2
DATADRIVER
SCAN DRIVE
SU
ST
AIN
CO
NT
RO
L
VDA
SD46
DATA DRIVER (CENTER)
P3.3V
VD
A
C26
CONTROLPULSE
LOGIC
C25
SC46
SC42
C3
(LOWER)
DATADRIVER
SCANDRIVER
VSCAN GEN.
SS
SOS6_SC1
SCANDRIVER
DATADRIVER
SC
P5V
C31
SUSTAIN DRIVE
SC20
SCAN CONTROL
SU41
P35
ENERGY RECOVERY
SC41
SCAN OUT (LOWER)
P5V
SD11
SCAN OUT (UPPER)
SS33
C36
SC-BOARDENERGY RECOVERYSOS DETECT
DATADRIVER
VSUS
DATADRIVER
DATADRIVER
C18 C28
VIDEO DATA
VDA
KE
YS
CA
N
KE
Y3
POWER SW
KE
Y3
KE
YS
CA
N
OPERATIONKEYS
CONTROL UNIT ASSY
C14P
15V
P15V
P3.3V
P
SOUND15V
P6
VSUS
STANDBYVOLTAGECONVERTER
PANEL_MAIN_ON
RELAY
F15V
POWERFACTORCONTROL
SOUND15V
VSUS
POWER SUPPLY
RECTIFIER
PROCESSVOLTAGECONVERTER
STB5V
AC CORD
SUSTAINVOLTAGECONVERTERF15V
P15V
STB5V
VDAP15V
P11
RECTIFIER
P9
P2VSUS
SC-BOARDSCAN DRIVESOS DETECT
SS-BOARDSUSTAIN DRIVESOS DETECT
C20C10
P3.3V
P3.3
V
(LED:6TIMES)
HOTCOLD
(LED:8TIMES)
(LED:7TIMES)
P
(LED:7TIMES)
(LE
D:1
2T
IME
S) (LED:10TIMES)
(LED:6TIMES)
(LE
D:2
TIM
ES
)
(LED:6TIMES)
(LED:8TIMES)
(LED:10TIMES)
(LED:9TIMES)
SUB3.3V
FFC_OFF_DET
PA
NE
L_M
AIN
_O
N
P15V
SOS7_SC2
A1
A32
VIDEO DATA
TMDS DATA
DIGITAL AUDIO OUT
P2.5V
P3.3
V
SUB1.2V
C.A.T.S_SENSOR
KE
YS
CA
N
R_LED_ON
SPIFLASH
ASPDIF1
REMOTE_RECEIVER
SUB5V
SD CARD DATA
SUB1.5V
COMPONENT
AUDIO OUT
TUNER_POWER_SOS
SCAN CONTROL
STM
KE
Y3
SUB5V
A31
VDDSD18V33V
P5VSUB5V
DIGITAL
HDMI I/F
SD CARD I/F
SUSTAINCONTROL
KE
YS
CA
N
PD6H
PANEL_SOS
F15V
SUB1.2V
DCDC
A20
EU_TU_1.8V
SUB5V
STB3.3V
HDMI1-3
NANDFLASH
AOSDATA0
SUB3.3V
DCDC
P15V
SOS6_SC1
P15V
_D
ET
C.A.T.S_SENSOR
PANEL_MAIN_ON
PA
NE
L_S
OS
K
DCDC
V/YPbPr/RGB
AV IN
LED_R
DCDC
SUB3.3V
POWER LED
LV
DS
I/F
DDR3
P1.2V
SOUND15V
SOS8_SS
ETHERNET
LV
DS
DA
TA
ETHERNET DATA
REMOTE RECEIVER
L/R
EU_TU_1.8V
SD CARD
L/R
IIC2
SUB3.3V
SUB3.3V
VIDEO/
TEMPSENSOR
DCDC
DCDCIN
SO
UN
D_S
OS
P3.3
V
F15V
MAIN AV INPUT,PROCESSING
USB_DP/DN
P15V
DDR3 I/F
ARC(HDMI2)
P5V
P5V
A
P2.5V
SOS6_SC1
TUNER_POWER_SOS
STB5V
USB_DP/DN
WiFi
DCDC
PARAGON USB1-2
P15V
TUNER
SOS8_SS
ANALOG-ASIC
A33
IF_P/N
USB_DP/DN
DCDCDCDC
P1.2V
V/YPbPr/RGB
F15V
STB3.3V
SUB1.5V
P3.3V
REMOTE_IN
ASPDIF0
NAND FLASH I/F
SOS_DCC
SOS7_SC2
K10
P5V
VID
EO
DA
TA
C.A.T.S. SENSOR
STB5V
KE
Y3
STB3.3V
BLUETOOTH
LAN_TX/RX
IF_P/N
USB0-3_DP/DN
SPEAKER(R)
WOOFER
L
AMP2
SPEAKER(L)AUDIO
A12
AUDIO
AMP
WO
R
HDMI3.3V
DCDCHDMI3.3V
A6
(LED:7TIMES)
(LE
D:1
2T
IME
S) (LED:10TIMES)
(LED:6TIMES)
(LE
D:2
TIM
ES
)
(LED:6TIMES)
(LED:8TIMES)
(LED:10TIMES)
(LED:9TIMES)
28
11.2. Block (1/4) Diagram
(LE
D:1
2T
IME
S)
(LE
D:2
TIM
ES
)
(LE
D:1
0T
IME
S)
STB3.3V
D5008
VDDSD18V33V
SUB5V
F15V
DCDCIN
L8752
SUB5V
SUB3.3V
F15V
X8300
SUB1.5V
SUB5V
SUB3.3V
DCDCIN
SUB3.3V
STB5V
P15V
F15V
Q5140
EU_TU_1.8V
SUB3.3V
Q8761
SUB1.8V
PA2000
SOUND15V
D8
77
2
D8
77
3
P15V
DCDCIN
SUB1.2V
Q8760
Q5141
SUB3.3V
SUB3.3V
SUB1.5V
D8
77
1
HDMI3.3V
SOUND15V
F15V
SUB1.2V
PA4900
STB5V
TP2033
TP2032
TP2034
3.3
V
VB
US
3
PD
P_
DR
VR
ST
5
RE
MO
TE
_IN
7
IC8900
RX
2
WOOFER
IIC0
AM
P_
XR
ST
USB2
R_
LE
D_
ON
WO
OF
ER
IFA
GC
DD
C_
IIC
1
L/R
HD
MI_
CE
C
IF_
P/N
DR
VR
ST
DD
C_
IIC
3
AV
DD
1.2
V
SU
B1
.2V
TU
NE
R_
SU
B_
ON
PA
NE
L_
MA
IN_
ON
5
V/YPbPr/RGB
STM_IIC
AX
O
DIGITAL
R
RESET
RE
MO
TE
_IN
RX
3
+5
V
AS
PD
IF1
JK8605JK4703B
ENB
SP
EA
KE
R
SW
_O
FF
_D
ET
TUNER_SUB_ON
JK4701B
AS
PD
IF0
+1.2V
ST
B3
.3V
KE
YS
CA
N
P_
OR
ES
ET
A
DD
C_
IIC
2
IC8602
UART_RX/TX
9
JK8601A
LVDS I/F
SUB3.3V
SPEAKER_R
XRST
FE
_X
RS
T_
T
IC4901
JK8602A
SU
B3
.3V
TUNER_SUB_ONSUB5V
SPEAKER_L
KE
Y3
MAIN AV INPUT,PROCESSING
IC8716
PO
WE
R_
DE
T
14
R(-
)
P1
5V
_D
ET
DIS
PE
N
IC8100
IC2001
TU
NE
R_
PO
WE
R_
SO
S
IC5704
SD CARD
DD
C_
IIC
3
IC8000
NANDFLASH
DDR3
+5
V
AUDIO AMP
HD
MI_
CE
C
WiFi
2
DCDCEN
PA
NE
L_
SO
S
DCDCEN2
F15V
IC8605
P_S1
3.3V
L(+
)
SO
UN
D_
SO
S
9
1
IIC2
IC8705
STB5V_SWON
+5V
RX
1
TEMP SENSOR
PA
NE
L_
VC
C_
ON
DD
C_
IIC
1
27MHz
AUDIO
INIT
_D
ON
E
IIC0
DCDCEN2
10
3
4
INIT
_D
ON
E
+1.8V
AX
I
Power-onsequence
10
P_S0
HD
MI_
5V
_D
ET
2
HD
MI_
CE
C
AR
C
PANEL_MAIN_ON
PD
6H
_X
RS
T_
SY
S
TM
DS
DA
TA
CL
OC
K
PA
NE
L_
SO
S
TM
DS
DA
TA
CL
OC
K
P_
OR
ES
ET
DD
C_
IIC
2
HDMI2
IIC0
2
RE
SE
T
8
PR
KE
Y3
STM
P_ORESET
C.A
.T.S
SOUND15V
1
POWER
PANEL_MAIN_ON
SD
CA
RD
I/F
+5
V
IC5010
C.A
.T.S
_S
EN
SO
R
JK8650A
IFAGC
SD
DA
TA
:4b
it
TU
NE
R_
SU
B_
ON
12
HD
MI3
.3V
STB_POWER_DET
11
SO
S
LVDS DATA
P_S1
PD
6H
_X
RS
T_
SY
S
STB_POWER_DET
SP
EA
KE
RL
(-)
IIC2
IC8603
STB5V
Y/V
EN
B
5
L
P15V
VB
US
1
D3101
P_S0
SW
_O
FF
_D
ET
JK4702B
V/YPbPr/RGB
TM
DS
DA
TA
CL
OC
K
USB1
WO
(+)
P15V_DET
AUDIO AMP2
DD
R3
I/F
HDMI I/F
KE
YS
CA
N
NA
ND
FL
AS
H I
/F
P6
12
64
PA
NE
L_
MA
IN_
ON
OUT
6
11
R_
LE
D_
ON
JK8600
IC4900
IC8704
PB
R(+
)
LO
GO
_O
N
HDMI3
HD
MI_
5V
_D
ET
3
IF_P/N
1.8
V
+1.5V
DIS
PE
N
EN
B
UART_RX/TX
PO
WE
R_
DE
T
HD
MI_
5V
_D
ET
1
PARAGON
A6
STM_IIC
F15V
13
L/R
+3.3V
A12
HDMI1
LO
GO
_O
N
SO
S
SUB1.5V
USB_DP/DN
FE_XRST_T
6
SU
B1
.5V
L_
OU
T
OU
T
ETHERNET
IIC2
HD
MI_
CE
C
VB
US
2
IC8200-2
WO
(-)
PA
NE
L_
VC
C_
ON
SUB1.2V
RE
SE
T
LA
N_
TX
/RX
3
1
3
R_
OU
T
STB5V_SWON
IC8101
AO
SD
AT
A0
AV IN
VIDEO/
JK3001A
COMPONENT
US
B0
-3_
DP
/DN
TUNER
TU6706TER IN
IIC2
[SRV F15V]
[SRV P15V]
[SRV STB5V]
(LE
D:1
2T
IME
S)
(LE
D:2
TIM
ES
)
(LE
D:1
0T
IME
S)
29
11.3. Block (2/4) Diagram
(LED:7TIMES)
(LED:9TIMES)
(LED:6TIMES)
(LED:6TIMES)
(LED:8TIMES)
S
P
D9807
STB3.3V
VJ5000
SUB3.3V
SUB3.3V
VDDSD18V33V
P3.3V
P15V
DCDCIN
STB3.3V
STB5V
P3.3V
STB5V
X9300
VDDSD18V33V
DCDCIN
P5V
L8606
D9802
P1.2V
SUB5V
PA5017
F15V
VJ9006
SUB3.3V
F15V
P15V
P2.5V
SUB_AI3.3V
P3.3V
STB3.3V
P3.3V
SUB5V
SUB9V
D2802A
SUB5V
STB3.3V
C.A.T.S
CN0100
VBUS1RF_LR
FORFACTORYUSE
PD6H_XRST_SYS
R_LED_ON
C.A.T.S SENSOR
P3.3V
PANEL_SOS
54
R_LED_ON
55
SOS7_SC2
DTV15V
PD6H
SOS7
1.2V
POWER LED
DCDC_CTL
9
2
MAIN AV INPUT,PROCESSING
DISPEN
IC9304
DTV_RST
IC9402
FLASH I/F
SOS_DCC
40
3.3V_DET2
P15V
3.3V_DET2
INIT_DONE
54
5
P15V
K
P_S0
10
4
POWER_DET
VIDEO DATA
C21
FFC_OFF_DET
DCDCEN
D_UHZ
16
DRVRST_OUT
2.5V
SUB_AI3.3V
P_S1
1
STB5V_SWON
BUFF_EN
29
1
C31
2
P1.2V
USB_DP/DN
IC5000
GLASS_RF
DISPEN
P15V
XRSTSYS
IC9803
LOGO_ON
SPIFLASH
LVDS DATA
7
SOS_DCC
12
4
DCDCEN2
A33
P15V
SC20
SOS8_SS
X1
SCAN DATABUFFER
REMOTE_IN
DATA DRIVER CONTROL
SOS6_SC1
SUSTAIN CONTROL
IIC0
FFC_OFF_DET
UHZ
1
7
PLASMA AICPGH/V Sync ControlSub Filed Processor
SUB5V
LVDS DATA
SUSTAIN DATABUFFER
UHZ
30
DATA DRIVER CONTROL
P5V
3.3V_DET1
SOS7_SC2
D_UHZ
3.3V_DET1
IC9804
OFF_FLAG
KEYSCAN
RF_LR
SW_OFF_DET
KEY3
2
DRVRST_IN
P3.3V
SCAN CONTROL
A32
IC9005
8
A20
STBRST
SD_VCC
9
IC9400,01
PANEL_SOS
DRVRST
SOS_DCC
INIT_DONE
BLUETOOTH_DN
PANEL_VCC_ON
4
UHZ
P_S0
FFC_OFF_DET
K10
SS33
DISCHARGE CONTROL
C.A.T.S. SENSOR
SCAN CONTROL
SOS6_SC1
C.A.T.S
BLUETOOTH_DP
SUSTAIN CONTROL
+2.5V
SOS8_SS
IC9300
3
P3.3V
RM2800
PDP_DRVRST
3
IIC0IIC2STM_IICUART_RX/TX
4
6
9
SUB9V
VIDEO DATA
SOS7_SC2
5
3
1
VIDEO DATA
DRVRST
+1.2V
KEYSCAN
P15V DET
STB_POWER_DET
5
STB3.3V
DRVRST
SOS6
POWER_DET
RF_LR55
A31
SN2800
SI/SO
LOGO_ON
X0
P15V_DET
SOS8_SS
DATA DRIVER CONTROL
REMOTE_IN
P_S1 P3.3V
XRST
6
REMOTE RECEIVER
SOS8_SS
SC_UHZ
20MHz
3.3V
SOS6_SC1
P5V
5
1
REMOTERECEIVER
KEY3
SOS_DCC
ANALOG-ASIC
STB3.3V
11
P5V
A
A1
1
SC_UHZ
VIDEO DATA
2
FFC_OFF_DET
BLUETOOTH
POWER LED
3
5
4
1
7
10
12
11
USB0_DP
USB0_DN
BUFFER
IC5001
(LED:7TIMES)
(LED:9TIMES)
(LED:6TIMES)
(LED:6TIMES)
(LED:8TIMES)
30
11.4. Block (3/4) Diagram
HOT COLD
COLDHOT
NCNPD
NP
RL1001
2 3
4
4 512
3
F102
D505
D400
R001* *
*
F001
D600
P POWER SUPPLY
RECTIFIER
P15V
D105
AC CORD
Q004
6
9
FILTER
PC502
STB5V
T200
4
10
PHOTO COUPLER
AC DET
STBCONTROL
IC200
MAIN_RELAY_ON
PHOTO COUPLER
VDD
PC400
STB5V_SW_ON
L101
IC400
LF004
F_STBYERRORDET
1
SS11
Q300-Q303
2
1
1
Vsus
14
STB5V
1
P35 C25
P11
LIVE
2
L100
3
T301
Q702
Q101
STB+5V
Q701
IC501
Q502
FETDRIVER
POWER MICOM
Vda
CONTROL
IC502
PFC
Q704,Q705
P+15VERRORDET
GD2
P2
IC300
VSUS_ON
VCC
RESONANCECONTROL OC
P15V
T303
+20V
D100
RT
Q202
VSUS_ON
D700D704
PC500
Vda
IC600
IC100
PHOTO COUPLER
VdaERROR DET
Q600
NEUTRAL
AC_DET
PANEL_MAIN_ON
F15V
5
F_STB_ON
STB5V_ON
P15V_ONS1
F15V_ON
A6P6
Q500
PFC_ON/OFF
F15V
SS
P9
PHOTO COUPLER
D302
PC700
GD1
Q102
PC701
Q103
PHOTO COUPLER
PC501
S0
PHOTO COUPLER
Q602
12
Q601
Vda
VR251
T302
IC700
Vsus
VsusERROR DET
Vsus Adj
Vsus
Q707,Q706
Q100
Vsus
Q501,Q503
SC2
F15V
VsusERROR DET
Q003
SOUND+15V
TUNER_SUB_ON
RESONANCE
PANEL_MAIN_ON
POWER_SOS
FILTERLF002ALF001A
LF003
Q507
L N
HOT COLD
COLDHOT
31
11.5. Block (4/4) Diagram
(LED:8TIMES)
(LED:6TIMES)
(LED:7TIMES)
SRV_P3.3V
SRV_P3.3V
SRV_P3.3V
SRV_VF5V
SRV_P15V
SRV_VF5V
TPSS1
ZA14952
D16728
D16255
D16583
TPVFG
SRV_VFO
TPSOS6
TPVAD
ZA
16
11
6
D16618
TPVE
TPSC1
SRV_P15V
SRV_P5V
ZA
16
10
6
SRV_VSUS
D16254A
D16352
TPSOS7
TPVSUS
SVR_VSUS
ZA14901
ZA16422
D16477
TPSOS8
ZA16411
D16825
SRV_VF5V
SRV_VFO
TPVSUS
SRV_P5V
D16285
CONTROL DATA
40
C10 C20
2
2
KEYSCAN
12
CB11
C3
C25
DATA DRIVER
CB13
CB2
VD
A
2
40
C18
1
VD
A
CB3
C26
32
16
1
P35
VID
EO
DA
TA
34
CB10
10
CO
NT
RO
L D
AT
A
C36
VID
EO
DA
TA
VDA
P3.3V
P3
.3V
55
33
CB7CB6
8
1
33
VID
EO
DA
TA
3.3V_DET2
52
KE
Y3
C21
KE
YS
CA
N
37
40
VDA
2
CB8
C14
CB15
KE
YS
CA
N
3
CB14
1
OPERATIONKEYS
POWER SW
CB4 CB5
PLASMA PANEL
VIDEO DATA
C1
P3.3V
1
14
A31
4
40
39
DATA DRIVER (LEFT)P3
.3V
30
9
2
39
11
CONTROL UNIT ASSY
CB1
KE
Y3
DATA DRIVER (CENTER)
CB12
54
3.3
V_
DE
T2
39
55
27
A32 CO
NT
RO
L D
AT
A
1
2
VID
EO
DA
TA
DATA DRIVER
2
P3
.3V
P3
.3V
54
P3.3V
C31
C2
3651
3.3
V_
DE
T1
1
401
C28
1
DATA DRIVER (RIGHT)
CB9
3.3V_DET1
KEY3
CONTROL DATAVIDEO DATA
UML
MAIN L
BUFFER
Q16191Q16192
8
2
21
9
Q16602
VFO
IC16563
NCEL
PANEL SCAN
IC16152
7
1
7
SU11
UEH
SU
D16713
13
Vsus
CSH
MID
Q16441
Q16042
SIU
SUSTAIN H
IPD CIRCUIT
CLK
IPD OVPDETECT
Q16660
NCRC2
3
BUFFER
SD11
CELR
VSCN_F
IC16725
SCAN OUT (UPPER)
1
IC16522
13
SC46
BUFFER
INVERTER
IC14801-03
RECOVERY H
IC16241
SEL
VFO
SS57IPD CIRCUIT
SD42
NCPH
1
25
5
2
RECOVERY L
Q16452
CSH
9
VE GEN.
6
RECOVERY H
A20
28
AND
22
NCRC1
5
BUFFER
NCVSET2
Q16402
OC2
BUFFER
SUSTAIN DRIVE
CPH
P15V
UMH
CEL
P5V
PANELSUSTAINELECTRODE
NCRC2
VAD2
IC16921
Q16421
IC16151
USH
SD
P2
SC42
UHZ
Vsus
UML
CIS
T16471
F5V
IC16131
SC20
PLASMAPANEL
1
Q16422
BUFFER
CML
BUFFER
IC16304,12
Reference VoltageVad = 200 5V(VFG_BASE)
IC16795
USL
LOGIC IC
9
VAD
IC16521
CSL Q16820
BUFFER
NCVSET2
PDP SCAN
LED(G)
DRIVER
CELR
SC
SU41
SOS8_SS
CSH
VSCN-F
SEL
CPH
1
Q16403
PC16301
NCVSET2
Q16661
USH
30
SUSTAIN CONTROL
NCRC1
RECOVERY L
IC16784,85
13
F15V
SUSTAIN OUT
VFG
SS54
IC14901,02
(LOWER)
2
Q16021Q16023
1
20
17
VFG
9
SHUNT REG
SCAN OUT (LOWER)
IGBT CONTROL
SS
SIU
2
DRIVER
IC16600
VSCN GEN.
CLK
F5V
1
Q16623
PDP SCAN
SS11
DRIVER
BUFFER
2
IC14804-06
SUSOUT
PC16723
2
6
SEPA
OC1
3
UEH
SC50
CEL
CH
A
SC JIG
2
NCEL
IC16501
PDP SCAN
1
2
SHUNT REG
DRIVER
VF
G
1
SS52
PDP SCAN
UHZ
MAIN_STOP0
SUSTAIN L
SS2
VSCN-F
16
LED(G)
P15V
SCAN DRIVE
IC16502
CIS
SCAN_PRO
T16472
SOS7P15V
BUFFER
IC14604-06
IC16786,87
IPD CIRCUITA33
OC2
CMH
F5V
8
P15V
ELECTRODE
Q16001Q16002
VFG
Q16052
8
IC16603
USL
6
SOS6
SHUNT REG
P11
2
UMH
CML
Q16601
CSL
IC16132
CHA
VOL
BUFFER
PLASMA PANEL
MAIN H
SCAN CONTROL
19
P5V
SU1-SU5
ERM
IC14601-03
1
Q16101Q16102
SD46
SCN_PRO
8
CMH
OC1
VAD GEN.
FPC PROTECTOR
SCANCONTROL
CSH
PC16897
1
IC16561
6
SS33
BUFFER
SD1-SD5
NCPH
D16714
SC41
SC2
Q16624
Reference VoltageVsus Lo : 210VVsus Hi : 215V
Reference VoltageVsus Lo : 210VVsus Hi : 215V
Reference VoltageVe = 135V
Reference VoltageVscn = 147 3V(VFG_BASE)
DATA DRIVER
ZA
16
11
2Z
A1
61
02
ZA
16
10
1Z
A1
61
11
Q16451
(LED:8TIMES)
(LED:6TIMES)
(LED:7TIMES)
33
12 Wiring Connection Diagram12.1. Caution statement.Caution:
Please confirm that all flexible cables are assembled correctly.Also make sure that they are locked in the connectors.Verify by giving the flexible cables a very slight pull.
12.2. Wiring (1)