panasonic_th-42pz85u_ch_gpf11du.pdf
DESCRIPTION
panasonic plasma service manualTRANSCRIPT
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2008 Matsushita Electric Industrial Co., Ltd. Allrights reserved. Unauthorized copying and distribu-tion is a violation of law.
ORDER NO. MTNC080203CEB34 Canada: B07
42 inch Class 1080p Plasma HDTVModel No. TH-42PZ85UGPF11DU Chassis
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21 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 Faston 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 metal-lic cabinet part on the equipment such as screwheads,connectors, control shafts, etc. When the exposed metal-lic part has a return path to the chassis, the readingshould 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 (SeeFigure 1.)
1. Plug the AC cord directly into the AC outlet. Do not usean isolation transformer for this check.
2. Connect a 1.5kohm, 10 watts resistor, in parallel with a0.15F capacitors, between each exposed metallic parton 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 sensi-tivity, to measure the potential across the resistor.
4. Check each exposed metallic part, and measure the volt-age at each point.
5. Reverse the AC plug in the AC outlet and repeat each ofthe above measurements.
6. The potential at any point should not exceed 0.75 voltsRMS. A leakage current tester (Simpson Model 229 orequivalent) may be used to make the hot checks, leakagecurrent must not exceed 1/2 milliamp. In case a mea-surement is outside of the limits specified, there is a pos-sibility of a shock hazard, and the equipment should berepaired and rechecked before it is returned to the cus-tomer.
Figure 1
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32 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 Elec-trostatically Sensitive (ES) Devices. Examples of typical ES devices are integrated circuits and some field-effect transistors andsemiconductor [chip] components. The following techniques should be used to help reduce the incidence of component damagecaused by electrostatic discharge (ESD).
1. Immediately before handling any semiconductor component or semiconductor-equipped assembly, drain off any ESD on yourbody 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 alumi-num 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 compara-ble conductive material).
7. Immediately before removing the protective material from the leads of a replacement ES device, touch the protective materialto 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 brush-
ing together of your clothes fabric or the lifting of your foot from a carpeted floor can generate static electricity (ESD) sufficientto damage an ES device).
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42.2. 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 its manufacture due to environmental conservation issues. For service and repair work, wedsuggest 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. Pleaseuse 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 sol-der. 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 theopposite 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. How-ever, Sn+Cu (tin, copper), Sn+Zn+Bi (tin, zinc, bismuth) solder can also be used.
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53 Service Navigation3.1. Service Hint
Board Name Function Board Name FunctionP Power Supply C1 Data Driver (Lower Right)A DC-DC Converter
Speaker out, Sound ProcessorAV Terminal, AV SwitchDigital Signal Processor, Micon, HDMI InterfacePeaks Lite 2p
C2 Data Driver (Lower Left)SC Scan DriveSU Scan out (Upper)SD Scan out (Lower)SS Sustain Drive
D Format Converter, Plasma AI, Sub-Field Processor GH HDMI3 inK Remote receiver, Power LED G Side TerminalS Power Switch PB Fan control
GS SD Card Slot, Key Switch
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63.2. Applicable signals* Mark: Applicable input signal for Component (Y, PB, PR) and HDMI
Note Signals other than those shown above may not be displayed properly. The above signals are reformatted for optimal viewing on your display.
horizontal frequency (kHz) vertical frequency (Hz) COMPONENT HDMI PC525 (480) / 60i 15.73 59.94 * *525 (480) /60p 31.47 59.94 * *750 (720) /60p 45.00 59.94 * *1,125 (1,080) /60i 33.75 59.94 * *1,125 (1,080) /60p 67.43 59.94 *1,125 (1,080) /60p 67.50 60.00 *1,125 (1,080) /24p 26.97 23.98 *1,125 (1,080) /24p 27.00 24.00 *640 400 @70 31.47 70.08 *640 480 @60 31.47 59.94 *Macintosh13 inch (640 480) 35.00 66.67 *640 480 @75 37.50 75.00 *852 480 @60 31.47 59.94 *800 600 @60 37.88 60.32 *800 600 @75 46.88 75.00 *800 600 @85 53.67 85.08 *Macintosh16 inch (832 624) 49.73 74.55 *1,024 768 @60 48.36 60.00 *1,024 768 @70 56.48 70.07 *1,024 768 @75 60.02 75.03 *1,024 768 @85 68.68 85.00 *Macintosh 21 inch (1,152 870) 68.68 75.06 *1,280 1,024 @60 63.98 60.02 *1,366 768 @60 48.36 60.00 *
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74 Specifications
Power Source AC 120 V, 60 Hz Power Consumption
Maximum 573 W Standby condition 0.2 W
Plasma Display panelDrive method AC type Aspect Ratio 16:9Visible screen size 42 inch class (41.6 inches measured diagonally)(W H Diagonal) 36.2 inch 20.4 inch 41.6 inch (922 mm 518 mm 1,057 mm)(No. of pixels) 2,073,600 (1,920 (W) 1,080 (H))[5,760 1,080 dots]
SoundAudio Output 20 W [ 10 W + 10 W ] ( 10 % THD )
PC signals VGA, SVGA, XGA, WXGA, SXGAHorizontal scanning frequency 31 - 69 kHzVertical scanning frequency 59 - 86 Hz
Channel Capability (Digital/Analog) VHF/ UHF: 2 - 69, CATV: 1 - 135 Operating Conditions
Temperature: 32 F - 104 F (0 C - 40 C)Humidity: 20 % - 80 % RH (non-condensing)
Connection TerminalsVIDEO IN 1-2 VIDEO: RCA PIN Type 1 1.0 V [p-p] (75 )
S-VIDEO: Mini DIN 4-pin Y: 1.0 V [p-p] (75 ) C: 0.286 V [p-p] (75 )AUDIO L-R: RCA PIN Type 2 0.5 V [rms]
COMPONENT INPUT 1-2 Y: 1.0 V [p-p] (including synchronization)PB, PR: 0.35 V [p-p]AUDIO L-R: RCA PIN Type 2 0.5 V [rms]
HDMI 1-3 TYPE A Connector 3This TV supports [ HDAVI Control 3 ] function.
PC D-SUB 15PIN: R,G,B / 0.7 V [p-p] (75 )HD, VD / 1.0 - 5.0 V [p-p] (high impedance)
AUDIO L-R: Stereo Mini Jack ( 3.5 mm) 1Card slot SD CARD slot 1 AV PROG OUT VIDEO: RCA PIN Type 1 1.0 V [p-p] (75 )
AUDIO L-R: RCA PIN Type 2 0.5 V [rms] DIGITAL AUDIO OUT PCM / Dolby Digital, Fiber Optic
FEATURES 3D Y/C FILTERCLOSED CAPTION V-ChipPhoto Viewer HDAVI Control 3
Dimensions (W H D)Including pedestal 41.9 inch 28.3 inch 12.9 inch (1,064 mm 718 mm 327 mm)TV Set only 41.9 inch 26.4 inch 3.7 inch (1,064 mm 669 mm 92 mm)
MassIncluding pedestal 70.5 lb. (32 kg) TV Set only 66.1 lb. (30 kg)
Note Design and Specifications are subject to change without notice. Mass and Dimensions shown are approximate.
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85 Service Mode5.1. How to enter into Service Mode
While pressing [VOLUME ( - )] button of the main unit, press [INFO] button of the remote control three times within 2 seconds.
5.1.1. 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 ( - )
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95.1.2. 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.
5.1.3. How to exitSwitch off the power with the [POWER] button on the main unit or the [POWER] button on the remote control.
Main item Sub item Sample Data RemarkADJUST CONTRAST 000
COLOR 3CTINT 03SUB-BRT 800
WB-ADJ R-CUT 80G-CUT 80B-CUT 80R-DRV FCG-DRV F8B-DRV D9ALL-CUT 80ALL-DRV FC
OPTION BOOT ROM Factory PresetSTBY-SET 00EMERGENCY ONCLK MODE 00CLOCK 000
AGING RGBWCOUNT ALL WHITEALL REDALL GREENALL BLUEON/OFFRAMP WHITERAMP REDRAMP GREENRAMP BLUE1% WINDOWCOLOR BARA-ZONE B-ZONE/4 TRIOSCROLLWHITE FLAME
RM-SET CODE A Fixed
SRV-TOOL - See next
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5.2. Service tool mode5.2.1. How to access
1. Select [SRV-TOOL] in Service Mode.2. Press [OK] button on the remote control.
5.2.2. 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 ship-ment setting].
5.2.3. POWER ON TIME/COUNTNote : To display TIME/COUNT menu, highlight position, then press MUTE for (3sec).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.
5.2.4. Exit1. Disconnect the AC cord from wall outlet.
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5.3. 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, pleaseenter the following command (within 2 second). [TV] : Vol. [Down] + [REMOTE] : TV/VIDEO (3 times)
Then, the Hotel mode setup menu is displayed.
3. To exit the Hotel mode setup menu Disconnect AC power cord from wall outlet.
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 isswitched on.Selection:-/RF/COMP1/COMP2/HDMI1/HDMI2/HDMI3VIDEO1/VIDEO2/PC
Off: give priority to a last memory. Channel Select channel when input signal is RF.
Set the channel, each time power is switchedon.Selection: Any channel number or [-]. [-] means the channel when turns off.
Volume Adjust the volume when each time power isswitched 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. Pattern: only input key is valid. All: altogether invalid.
Pow Ctrl Select POWER-ON/OFF condition when ACpower cord is disconnected and then con-nected. OFF: The same condition when AC powercord is disconnected. ON: Forced power ON condition.
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6 Troubleshooting GuideUse the self-check function to test the unit.
1. Checking the IIC bus lines2. Power LED Blinking timing
6.1. Check of the IIC bus lines6.1.1. How to accessSelf-check indication only:Produce TV reception screen, and while pressing [VOLUME ( - )] button on the main unit, press [OK] button on the remote controlfor more than 3 seconds.Self-check indication and forced to factory shipment setting:Produce TV reception screen, and while pressing [VOLUME ( - )] button on the main unit, press [MENU] button on the remotecontrol for more than 3 seconds.
6.1.2. ExitDisconnect the AC cord from wall outlet.
6.1.3. Screen display
6.1.4. Check PointConfirm the following parts if NG was displayed.
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6.2. Power LED Blinking timing chart1. Subject
Information of LED Flashing timing chart.2. Contents
When an abnormality has occurred the unit, the protection circuit operates and reset to the stand by mode. At this time, thedefective block can be identified by the number of blinks of the Power LED on the front panel of the unit.
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6.3. No PowerFirst check pointThere are following 2 states of No Power indication by power LED.
1. No lit2. Red is lit then turns red blinking a few seconds later. (See 6.2.)
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6.4. No Picture
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6.5. Local screen failurePlasma display may have local area failure on the screen. Fig-1 is the possible defect P.C.B. for each local area.
Fig-1
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7 Disassembly and Assembly Instructions7.1. Remove the Rear cover
1. See Service Hint (Section 3)
7.2. Remove the Rear cover bottom1. Remove the screws (9 ).2. Remove the Rear cover bottom.
7.3. Remove the Fan unit1. Unlock the cable clampers to free the cable.2. Remove the screws (3 ).3. Remove the relay connectors and remove the Fan unit.
4. Remove the screw (1 ) on the back side.5. Remove the Fan.
7.4. Remove the PB-Board1. Unlock the cable clampers to free the cable.2. Remove the screws (2 ).3. Remove a short-jumper connectors (PB31 and PB32)
and re-use for new PB-Board.4. Disconnect the connectors (PB30, PB33, PB34, PB35,
PB36 and PB37)5. Remove the PB-Board.
6. Remove the screws (2 ).7. Remove the PB-Board metal frame.
8. Remove the molding props (3 ).9. Remove the barrier (PB).
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7.5. Remove the P-BoardCaution:
To remove P.C.B. wait 1 minute after power was off for dis-charge from electrolysis capacitors.1. Unlock the cable clampers to free the cable.2. Disconnect the couplers (P2, P6, P7, P9, P11, P12 and
P25).3. Remove the screws (6 ) and remove the P-Board
unit.
4. Remove the molding props (2 ).5. Remove the barrier (P).
6. Remove the screws (20 ) on the back side.
7. Remove the screws (7 ).8. Remove the molding props (13 ).
9. Remove the P-Board.
Note:When assembling the P-Board, the position of each hole ofthe insulation sheets (A and B) is set to the position of eachhole of the P-Board, then assemble them. ( marks indi-cate setting positions.)
7.6. Remove the Rear Terminalcover
1. Remove the screws (4 , 2 ).2. Remove the Rear Terminal cover.
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7.7. Remove the A-Board unit1. Unlock the cable clampers to free the cable.2. Disconnect the connectors (A1, A3, A5, A6, A7, A11, A12,
A30, A51 and A52).3. Remove the screws (4 ) and remove the A-Board
unit.
7.8. Remove the A-Board1. Remove the A-Board unit. (See section 7.7.)2. Remove the screws (8 ) and remove the A-Board.
7.9. Remove the Side control unitassy
1. Disconnect the connectors (A52). (See section 7.7.)2. Remove the screws (4 ) and remove the Side control
unit assy.
7.10. Remove the GS-Board and theControl button
1. Remove the Side control unit assy. (See section 7.9.)2. Remove the screws (2 ).3. Disconnect the connectors (GS52) and remove the GS-
Board.
4. Remove the screws (2 )5. Remove the Side control mount metal from Side control
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metal frame.
6. Remove the screws (2 ) and remove the Side controlpanel bottom and the Control button.
7.11. Remove the Side terminal unitassy
1. Unlock the cable clampers to free the cable.2. Disconnect the connectors (GH11 and G51).3. Remove the screws (3 ) and remove the Side termi-
nal unit assy.
7.12. Remove the G-Board and theGH-board
1. Remove the Side terminal unit assy. (See section 7.11.)2. Remove the screws (2 ) from back side.3. Remove the Side terminal shield.
4. Remove the Side terminal panel bottom.5. Remove the screws (2 ,2 ).
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6. Remove the G-Board and the GH-board.
7.13. Remove the SU-Board1. Remove the flexible cables (SU1, SU2, SU3 and SU4)
connected to the SU-Board.2. Remove the flexible cable (SU11-SD11) and the bridge
connector (SC41-SU41).3. Remove the screws (4 ) and remove the SU-Board.
7.14. Remove the SD-Board1. Remove the flexible cables (SD1, SD2, SD3 and SD4)
connected to the SD-Board.2. Remove the flexible cable (SU11-SD11) and the bridge
connectors (SC42-SD42 and SC46-SD46).3. Remove the screws (4 ) and remove the SD-Board.
7.15. Remove the SC-Board1. Remove the SU-Board and SD-Board. (See section 7.13.
and 7.14.)2. Unlock the cable clampers to free the cable.3. Disconnect the connector (SC2).4. Disconnect the flexible cable (SC20).5. Remove the screws (8 ) and remove the SC-Board.
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7.16. Remove the SS-Board1. Unlock the cable clampers to free the cable.2. Disconnect the connectors (SS11, SS12, SS33 and
SS35).3. Remove a short-jumper connector SS34 and re-use for
new SS-Board.4. Disconnect the flexible cables (SS61, SS63, SS64 and
SS66).5. Remove the screws (6 ) and remove the SS-Board.
7.17. Remove the Stand brackets1. Remove the Plasma panel section from the servicing
stand and lay on a flat surface such as a table (covered)with the Plasma panel surface facing downward.
2. Remove the Stand brackets (L, R) fastening screws (4each) and remove the Stand brackets (L, R).
7.18. Remove the D-Board1. Remove the A-Board unit. (See section 7.7.)2. Disconnect the connectors (D3, D5 and D25).3. Disconnect the flexible cables (D20, D31, D32 and D33).4. Remove the screws (4 ) and remove the D-Board.
7.19. Remove the C1-Board1. Remove the A-Board unit. (See section 7.7.)2. Remove the Side control unit assy. (See section 7.9.)3. Remove the Stand bracket L. (See section 7.17.)4. Remove the screws (3 ) and Remove the Cabinet
mount metal.
5. Remove the DD-Heat-sink holder fastening screws (16 ).
6. Remove the DD-Heat-sink (8).
7. Disconnect the flexible cables (CB1, CB2, CB3, CB4,CB5, CB6, CB7 and CB8).
8. Disconnect the flexible cables (C10, C11 and C12).
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9. Remove the screws (5 ) and remove the C1-Board.
7.20. Remove the C2-Board1. Remove the A-Board unit. (See section 7.7.)2. Remove the Side terminal unit assy. (See section 7.11.)3. Remove the stand bracket R. (See section 7.17.)4. Remove the screws (3 ) and Remove the Cabinet
mount metal.
5. Remove the DD-Heat-sink holder fastening screws (14 ).
6. Remove the DD-Heat-sink (7).
7. Disconnect the flexible cables (CB9, CB10, CB11, CB12,CB13, CB14 and CB15).
8. Disconnect the flexible cables (C20 and C21).9. Disconnect the connectors (C23 and C25).
10. Remove the screws (5 ) and remove the C2-Board.
7.21. Remove the Speakers1. Disconnect the relay connectors2. Remove the screws (4 each) and remove the
Speaker (L, R).
7.22. Remove the Plasma panel sec-tion from the Cabinet assy(glass)
1. Remove the stand brackets (left, right) fastening screw(1 each).
2. Remove the cabinet assy and the plasma panel fasteningscrews (4 , 6 ).
3. For leaving the plasma panel from the front frame, pull the
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bottom of the cabinet assy forward, lift, and remove.
4. Remove the spacers and spacer rings (6 ).
7.23. Remove the K-Board and S-Board
1. Remove the Cabinet assy. (See section 7.22.)2. Remove the screws (2 ) and remove the K and S-
Board shield.
3. Remove the screws (3 ) and remove the K and S-Board unit.
4. Disconnect the connector (S2).5. Remove the screws (2 ) and remove the S-Board.
6. Disconnect the connector (K1).7. Remove the screws (1 ) and remove the K-Board.
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7.24. Remove the plasma panel (fin-ished)
1. Place the new plasma panel (finished) on the flat surfaceof the table (covered by a soft cloth), with the plasmapanel surface facing downward.
2. Attach the C1-Board and the C2-Board, connect the flexi-ble cables (15) from the plasma panel to the C1-Boardand the C2-Board, and fit the flexible cable holders.
3. Attach the Hooks (left, right) and fit the stand brackets (L,R) to the new plasma panel.
4. Place the plasma panel section on the servicing stand.5. Attach the cabinet assy and each P.C.Board and so on, to
the new plasma panel.*When fitting the cabinet assy, be careful not to allow any debris, dust or handling residue to remain between the front glass and plasma panel.
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8 Measurements and Adjustments8.1. Adjustment Procedure8.1.1. Driver Set-up8.1.1.1. Item / Preparation
1. Input a white signal to plasma video input.2. Set the picture controls as follows.
Picture menu: VividNormal: SetAspect: Full
Caution1. First perform Vsus adjustment.2. Confirmation of Vscn voltage should be performed after
confirmation of Vad adjustment.When Vad= -140V, Voltage of Vscn is 8V 1V.
8.1.1.2. AdjustmentsAdjust driver section voltages referring the panel data on thepanel data label.Check or adjust the following voltages with the multimeter.
*See the Panel label.
Name Test Point Voltage Volume RemarksVsus TPVSUS
(SS)Vsus 2V VR251 (P) *
Ve TPVE (SS) Ve 1V VR16000(SS)
*
Vset TPVSET(SC)
330V 7V Fixed
Vad TPVAD (SC) -140V 1V VR16600(SC)
Vscn TPVSCN(SC)
Vad+148V 1V Fixed
Vda TPVDA (SS) 75V + 1V, -2V Fixed
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8.1.2. Initialization Pulse Adjust 1. Input the White signal to plasma video input.2. Set the picture controls as follows.
Picture menu : VividNormal : SetAspect : Full
3. Connect Oscilloscope to TPSC1 (SC).Check the voltage (T2) at 100 us period on the down slop.
8.1.3. P.C.B. (Printed Circuit Board) exchange8.1.3.1. Caution
1. To remove P.C.B. , wait 1 minute after power was off for discharge from electrolysis capacitors.
8.1.3.2. Quick adjustment after P.C.B. exchangeAdjust the following voltages with the multimeter.
*See the Panel label.Caution:
Absolutely do not reduce Vsus below Ve not to damage the P.C.B.
Test point Volume LevelT2 TPSC1 (SC) VR16602 (SC) 250 V 10 V
P.C.B. Name Test Point Voltage Volume RemarksP Board Vsus TPVSUS (SS) Vsus 2V VR251 (P) *SC Board Vad TPVAD (SC) -140V 1V VR16600 (SC)SS Board Ve TPVE (SS) Ve 1V VR16000 (SS) *A, D Board White balance and Sub brightness for NTSC, PAL, HD, PC and 625i signals
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8.1.4. Adjustment Volume Location
8.1.5. Test Point Location
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8.2. Adjustment8.2.1. White balance adjustment
Name of measuring instrument Connection Remarks W/B pattern Color analyzer
(Minolta CA-100 or equivalent)
Component input Panel surface
Procedure Remarks Ensure aging is adequate. Make sure the front panel to be used on the final set is fitted. Make sure a color signal is not being shown before adjustment. Put the color analyzer where there is little color variation.
1. Output a white balance pattern. 2. Check that the color temperature is [Cool].3. Set to serviceman mode, WB-ADJ.4. Set [R-CUT] [G-CUT] [B-CUT] the values written in table 1. 5. Attach the sensor of color analyzer to the center of highlight window.6. Fix G drive at C0h and adjust [B-DRV] and [R-DRV] so x, y value of color analyzer
become the [Color temperature High] in table 2.7. Increase RGB together so the maximum drive value in RGB becomes FC. That is,
set [ALL DRIVE] to FC.Execute adjustment again. When that, the maximum value of R/G/B DRV should be FC,and either R/G/B DRV should be FC.
8. Set color temperature to [Normal].9. Set [R-CUT] [G-CUT] [B-CUT] the values written in table 1.
10. Attach the sensor of color analyzer to the center of highlight window.11. Fix G drive at C0h and adjust [B-DRV] and [R-DRV] so x, y value of color analyzer
become the [Color temperature Mid] in table 2.12. Increase RGB together so the maximum drive value in RGB becomes FC. That is,
set [ALL DRIVE] to FC.Execute adjustment again. When that, the maximum value of R/G/B DRV should be FC,and either R/G/B DRV should be FC.
13. Set color temperature to [Warm].14. Set [R-CUT] [G-CUT] [B-CUT] the values written in table 1. 15. Attach the sensor of color analyzer to the center of highlight window.16. Fix G drive at C0h and adjust [B-DRV] and [R-DRV] so x, y value of color analyzer
become the [Color temperature Low] in table 2.17. Increase RGB together so the maximum drive value in RGB becomes FC. That is,
set [ALL DRIVE] to FC.Execute adjustment again. When that, the maximum value of R/G/B DRV should be FC,and either R/G/B DRV should be FC.
18. Set color temperature to [Cool].
- adjustment of [Normal] [Warm] by data shift from [Cool] adjust. -For [Normal] [Warm] adjustment, set values that the adjusted value of [Cool] plus the figures wrote below.
19. Copy values adjusted by HD pattern to the NTSC data area of EEPROM.
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9 Block Diagram9.1. Block Diagram (1/6)
SLOT
FAN SOS DET
PROCESSOR
POWER LED
REMOTERECEIVER
AUDIO AMP
to D5
SD CARD DATA
TUNER
A6
+3.3V(S)
A51
FAN SOS
+5V(S)
FRONT TERMINAL
POWER LED(R)
+5V(S)
OPTICAL OUT
SUB+5V
SD CARD SLOT
DCDC+15V(SND)
KEYSCAN3
PB30
DVB VIDEO R/G/B_24bit
+5V(S)
ON
TUNER SOS
+1.8V(S)
REMOTE RECEIVER
L,R
RESET
SUPPORTCARD SLOT
A30
+3.3V(S)
HDMI2
DTV_V
DCDC
A52
POWER
PB31PB32PB34PB36PB37
PAMEL SOS
AI SENSOR
S
A3
RESET
V
V,Y,C
PB FAN CONTROL
PANEL STB_ON
GS
A11
OPTICAL
FSTB+15V
SOUND SOS
PANEL STATUS
PC
EEPROM
AI SENSOR
+9/7.2V
STB MCU
+3.3V(S)
CPU BUS I/F
G
DIGITAL VIDEO DATA
SD CARD
to D3
HDMI3GH
LED(R)
+15V(FAN)
SOUND SOS
DTV AUDIO
L,R
A11
VIDEO1
OUT
L,R
S1
MONITOROUT
SUB+5V DET
SUB+3.3V
Y,PB,PR
SUB+9V DET
L,R
AUDIO SW
VIDEO2
+15V(SND)
SPEAKER(R)
+1.2V(S)
OPTICAL OUT
OSD_16bit
+5V(STB)
+9V(S)
Y,C,V
Y,PB,PR
CLKGEN
DCDC
RESET
AUDIO
from P7
HDMI AUDIO
SD BOOTSBO2SBI2
+30V(BT)
DIGITAL SIGNAL PROCESSOR
DVB VIDEO R/G/B_24bit
AI SENSOR
L,R
FAN POWER
SD CARD DATA
HDMI1
+3.3V(S)
DCDC
HDMIEQUALIZER
VIDEO SW
+3.3V(STB)
TUNER SOS
GS52
K
OSD_6bit
FSTB+15V
A7
R,G,B
L,R
TUNER SOS DETCIRCUIT
FSTB+15V
FAN CONT
FRONT ENDPROCESSOR
V,Y,C
HDMI3 IN
SUB+1.8V
K1
FPGA
+5V(S)
HDMI I/FRECEIVER
+3.3V(S)
+15V(FAN)
L,R
POWER SWITCH
R/G/B
G51
A12
A5
+3.3V(S)
CH0 DATA
+15V(S)
+15V(FAN)
COMP2
V
P6
A
SUB+9V
LVDS DATA
Peaks Lite2p
SOUND SOS DETCIRCUIT
GH11
10bit A/D
IIC1
L,R
DDR2
FAN_A-E
FAN CONT
SPEAKER(L)
+5V(S)
L,R
+9V(S)
COMP1
DTV AUDIO
from
MONITORL,R
+9V(S)
LVDS DATA
CIRCUIT
PWM AUDIO OUT
A1
CH0 DATA
SUB+3.3V DET
SUB+1.2V
FAN SOS
SOUND OPTICAL OUT
SWITCH
GenX5
+3.3V(STB)REMOTE IN
KEY SWITCH
KEYSCAN1
KEY SWITCH
BT+30V+9V(S)
+3.3V(STB)
+30V(BT)
STB+3.3V+5V(STB)
+5V(S)
(LED:11TIMES)
(LED:10TIMES)
(LED:10TIMES)
(LED:12TIMES) (LED:12TIMES)
TH-42PZ85UBlock (1/6) Diagram
TH-42PZ85UBlock (1/6) Diagram
-
32
9.2. Block Diagram (2/6)
(LED:7TIMES)
(LED:2TIMES)(LED:3TIMES)
(LED:8TIMES)
(LED:5TIMES)
(LED:4TIMES)
(LED:6TIMES)
(LED 4 TIME)(LED 7 TIMES)
(LED 6 TIMES)
(LED 8 TIME)
HOTCOLD
M
A
I
N
S
W
2
+
5
V
(
P
)
M
A
I
N
S
W
1
+5V(STB)
+3.3V(P)
S
O
S
8
_
S
S
+5V(P)
to
P11
SC2
C20C10
+15V(P)
+15V(P)
+15V(P)
A3,A5
+5V(P)VSUS
SOS8_SS
+3.3V
SOS8_SS
FLASH
+1.2V(P)
SS11+15V(P)
+5V(P)
C21
Vda
+2.5V(P)
SOS7_SC2
Vda
DCDC
+1.2V(P)
P
A
N
E
L
S
O
S
+
5
V
(
P
)
SS34
MEMORY
SOS6_SC1
P2
EEPROM
P
A
N
E
L
R
E
A
D
Y
+15V(P)
P9
+5V(P)
P
A
N
E
L
S
T
B
_
O
N
P12
D5
SS12
DDR+15V(P)
SOS6_SC1
Vda
S
O
S
8
_
S
S
C11
+3.3V(P)
C12
V
S
U
S
+5V(P)
SOS7_SC2
Vda
P25
+5V(STB)
D3 D33
VSUS
+
5
V
(
P
)
V
I
D
E
O
D
A
T
A
MAIN SW1
D20
+
5
V
(
P
)
MAIN SW2
DCDC+15V(P)
Vda
to/from
SOS6_SC1D25
SOS8_SS
D31
SS35
+
5
V
(
P
)
C25
A6,A7
VSUS
+3.3V(P)
SS33
+
5
V
(
P
)
SC20
+5V(STB)
+
5
V
(
P
)
C23
+2.5V(P)
D32
S
O
S
8
_
S
S
+3.3V(STB)
+
5
V
(
P
)
V
d
a
DCDC
+15V(P)
L
V
D
S
D
A
T
A
(
3
6
b
i
t
)
(
3
0
b
i
t
)
(
3
0
b
i
t
)
VSUS
S
O
S
8
_
S
S
+
5
V
(
P
)
+
5
V
(
P
)
+
5
V
(
P
)
+
5
V
(
P
)
S
O
S
8
_
S
S
V
d
a
RESET
RESET(STB)
SOS4_PS
A
L
L
O
F
F
+
5
V
(
S
T
B
)
SCANDRIVER
SU11
SD11
SD42
SU41 SC41
SC42
SCANDRIVER
FSTB+15V
+15V(SND)
P7
P6
FSTB+15V
+15V(FAN)
+5V(STB)
+5V(P)
+15V(P)+5V(STB)
SOS7_SC2
+15V(P) DET
GenX6
+3.3V(P) DET
PANEL MICOM
+5V(P) DET
POWER SOS
CONTROL SIGNAL
DISCHARGE CONTROL
STANBYVOLTAGERECTIFIER
LINEFILTER
LINEFILTER
RECTIFIER
RECTIFIER
STANBYVOLTAGECONTROL
SUSTAINVOLTAGECONTROL
SUSTAINVOLTAGERECTIFIER
PROCESSVOLTAGERECTIFIER
POWERFACTORCONTROL
PROCESSVOLTAGECONTROL
POWER MICOM
PS SOS
ON/OFF CONTROL
P-BOARDSOS DETECT
V
I
D
E
O
D
A
T
A
V
I
D
E
O
D
A
T
A
SUSTAINCONTROL
VOLTAGEGENERATOR
CONTROLPULSE
SCANPULSE
SUSTAINPULSE
SC-BOARDFLOTING PARTSOS DETECT
SC-BOARDENEGRY RECOVERYSOS DETECT
PANEL MAIN ON
SOS4_PS
V
I
D
E
O
D
A
T
A
V
I
D
E
O
D
A
T
A
V
I
D
E
O
D
A
T
A
S
U
S
T
A
I
N
C
O
N
T
R
O
L
V
I
D
E
O
D
A
T
A
SUSTAIN CONTROL SUSTAIN CONTROL
VIDEO DATA
S
U
S
T
A
I
N
C
O
N
T
R
O
L
S
U
S
T
A
I
N
C
O
N
T
R
O
L
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
DATADRIVER
SS-BOARDSOS DETECT
ADDRESSVOLTAGE(VE)
ERASEPULSE
SUSTAINPULSE
SCAN CONTROL
SU SCAN OUT (UPPER)
SC SCAN DRIVE
P POWER SUPPLY
SUSTAIN DRIVESS
C2 DATA DRIVER (LEFT)C1 DATA DRIVER (RIGHT)
SCAN OUT (LOWER)SD
AC CORD
PLASMA AI PROCESSORFORMAT CONVERTER,D
H/V SYNC CONTROL
PLASMA AI
CPG with SS
SUB-FIELD PROCESSOR
LVDS RX
DATA DRIVER
SD46 SC46
(LED:7TIMES)
(LED:2TIMES)(LED:3TIMES)
(LED:8TIMES)
(LED:5TIMES)
(LED:4TIMES)
(LED:6TIMES)
(LED 4 TIME)(LED 7 TIMES)
(LED 6 TIMES)
(LED 8 TIME)
HOTCOLD
TH-42PZ85UBlock (2/6) Diagram
TH-42PZ85UBlock (2/6) Diagram
-
33
9.3. Block Diagram (3/6)
CH0DATA
+1.2V(S)
+5V(S)
Q5604
+30V(BT)
+3.3V(S)
D5613
+5V(S)
D2301
L4001
D5615
5V(S)
+3.3V(S)
D4006 L4000
D4007 9V(S)Q4016
3.3V(STB)
+3.3V(S)
D5692
5V(STB)
Q5603+30V(BT)
+1.8V(S)
D5614
+3.3V(S)
FSTB+15V
+5V(S)
+9V(S)
+15V(SND)
L
OSD_6bit
AUDIO SW
V2_V
VIDEO
GS52
AFT
+3.3V(S)
ON/OFF
STB3.3V
V1_V
V2_L
STB
I/F
L/R
Y/C
9
V2_V
DIGITALDEMODULATOR
PC
D2
IC5601
RESET
SPDIF-OUT
+1.8V
SUB MONOL+R
PC_R
HDMI-SPDIF
VIDEO4
JK3701
L_OUT
V2_R
+5V(S)
L(-)
SUB+3.3V
IC4000
TV_V
SUBOUT
FSTB+15V DET
FRONT END PROCESSOR
L/R
Y/PB/PR
4bit
AFT
IC2008
A52CONTROL
R(+)
D1
AUDIOPROCESS
HDMI-SDIN
MONITOR
Peaks
D2
V1_C
VIDEO4
+9V
1
SD DATA
2
STB+3.3V
IIC2
PC_H
PC_R
V2_V
VIDEO2
IIC1
FSTB+15V
D1_PB
CLOCK
NOR FLASH
SPDIF-IN
TV
L/R
+9V
D1_PR
R
COMP2
V2_YIC2106
ANT IN
V
SBI2
HS/VS
IC8001
VIDEO2
V1
AV L/R
PC_V
IC8503
+1.2V(S)
L/R
DTV_R
IFD_OUT1
L/R
+3.3V
7
MON
D2_L
OUT
KEYSCAN3
TV
+3.3V(STB)
3
L/R
IC2301
D1_Y
VIDEO1
IIC_TU
CLOCK GEN
DTV_L/R
R(-)
DIGITAL SIGNAL PROCESSOR
L(+)DTV_L
EEPROM
DTV1
D2_Y
SD CARD
COMP1
HDMI SOUND
A
IC8300
MON
SOUND SOS
V1_L
V2_R
PC_HS/VSOUT
A12
RESET
AV_L/R
SPEAKER
V2_C
AUDIO
TV
TV_L
+1.2V(S)
R_OUT
COMP1Y/PB/PR
VIDEO3
IC3017
R/G/B_24bit
2
D1
DTV2
SPDIF-OUT
IC8502
ERROR DET
SOUND PROCESSOR
OSD_6bit
Q2301
DDR I/F
OPTICAL
TV
Y/PB/PR
+9V(S)
(TERRESTRIAL RECEIVER)
+1.8V
L/R
Y/C/V
RESET
MAINOUT
+3.3V
SD CARD SLOT
55
7
+1.8V(S)
MON_R
+1.2V
Lite2p
Y/PB/PR
VIDEO2
3
D3005
IIC2
IC5600
SD CARD
13
9
IC3001
STB_RESET
R/G/B_30bit
HS/VS
+30V(BT)
Y/C/V
IF_AGC
DTV_V
V2_L
+3.3V
SD DATA
D2_R
OSDPROCESS
DTV-SDIN
VIDEOPROCESS
IF_AGC
COMP2
SPEAKER
DTV_V
IC8002,03 2
CPU BUS I/F
PC
IIC_IF
1
+1.8V
DTV1R/G/B/H/V
RGB_CVBS
1
IIC3
PC_L
VIDEO SW
D
T
V
R
E
S
E
T
D1_R
FRONT TERMINAL
AUDIO AMP
IC2107
D2_PR
ANALOG ASIC
4
SOUNDSOSDET
SUB+1.2V
A51
11
MAIN L/R
V2_C
KEYSCAN1
V1
IC8004
PC_G
TV_R
+3.3V(S)
V2
11
IIC2
L/R
GS
IIC_TU
COMP1
TRANSPORTDECODER
OUT
V2
DTV-SDIN
IC5606
VIDEO1
IFD_OUT2
RESET
IIC0
PCAUDIO
MON_L
+15V
KEY SWITCH
Y/PB/PR
COMP2
V2_L
Y/C
L/R
JK7701
V
+3.3V(S)
DDR2 #0/#1
V2_C
G51
3
SOS
L/R
VIDEO3
SPDIF-IN
4
MUTE
SPEAKER_R
+5V
+5V(S)
V1_R
G
VIDEO1
4
(TS)
R/G/B_30bit
PC_B
STB_RESET
SUB+1.8V
AUDIO
+3.3V(S)
D1_L
V1_Y
R/G/B_24bit
V2_R
IIC2
SPEAKER_L
K
E
Y
S
C
A
N
1
V2_Y
SBO2
V2_Y
D2_PB
13
+30V(BT)
+15V(SND)
MON_V
PC
JK3000
JK3001
KEY SWITCH
PWM
SOUNDPROCESSOR
CONV.
OUT
CONV.
OUT
CONV.
OPTICAL
D/A
D/A
A/D
MONITOROUT
JK3000
TU8300 TUNER
13
6
14
2
7
5
12
10
11
4
8
3
9
1
(LED:12TIMES)
TH-42PZ85UBlock (3/6) Diagram
TH-42PZ85UBlock (3/6) Diagram
-
34
9.4. Block Diagram (4/6)
PC2501
+3.3V(S)
D5522
PA5600
D3813
Q5522
D3814+5V(S)
D2520A
+5V(STB)
D1107
D5521
+3.3V(S)
D861
D860
TPF0S
IIC1
HDMI I/F RECEIVER
DRIVER
1
+
5
V
(
H
D
M
I
)
A3
DIGITAL SIGNAL PROCESSOR
4
FAN CONT
FSTB+15V
POWER SWITCH
1
+15V(FAN)
+15V(SND)
12
R/G/B_30bit
+
5
V
(
H
D
M
I
)
D
E
T
31
Y/PB/PR
I/P CONV.
6
H
D
M
I
_
C
E
C
STB RESET
TV SUB ON
Q3802
6
IC3801
VOLTAGE
+3.3V
10
+5V(S)
OSDSYNTHETIC
HS/VS
IC4511 EEPROM
26
+1.8V
FAN SOS
2
DDCB_IIC
+5V(HDMI)
HDMI3 IN
HDMI EQUALIZER
PIXEL CONV.
Q
4
5
0
3
HDMI IN 2
ON
1
18
K1
ECO ON
22
AC GOOD
4
IIC2
DDCA_IIC
FPGA
+
5
V
(
H
D
M
I
)
FAN CONT
IIC1
+15V(SND)
IC1101
AI SENSOR
+3.3V
+30V(BT)
+3.3V(STB)
AI GAMMA
S
10bit A/D
SUB+9V DET
HDMI SOUND
TV SUB N
TUNER SOS TUNER SOS
HDMI_SPDIF
AFT
IC5401
SOUND SOS
D5
IIC3
ECO ON
7
IC4800
1
RM2501
7
IIC_DATA1
FAN SOS
D
E
T
_
1
VIDEO
RGB MATRIX
FAN SOS
KEYSCAN3
AI SENSOR
LVDS DATA
TMDS DATACLOCK
+1.8V
REMOTE IN
+15V(SND)
10
AC GOOD
+5V
PROCESS
PANEL SOSSD LED
+3.3V(S)
POWER LED
TEMP SENSOR
PANEL STATUS
D
E
T
_
2
AI SENSOR
1
HDMI5V DET
IIC1
12
FSTB+15V
+1.8V
IIC_DATA2
D3+
3
.
3
V
+
5
V
DDC IIC
T
M
D
S
D
A
T
A
C
L
O
C
K
SUB+5V DET
11
11
PANEL STATUS
DDCC_IIC
GH10
LED R
SW2500
TUNER SOS
+
5
V
JK4500
DET_3
FAN CONTROL
7
2
SBI2
+9V
H
D
M
I
_
C
E
C
PANEL STB_ON
8
IC4510
4
H
D
M
I
_
C
E
C
1
A5
IC5400
IIC1
Y/PB/PR
P7
R/G/B_24bit
HV ENHANCE
REMOTE IN
OSD_6bit
TV SUB ON
G(10bit)
PANEL SOS
PB
+9V(S)
S2
ECO ON
D
D
C
I
I
C
D
D
C
I
I
C
AI SENSOR
18
FAN CONT
FSTB+15V
22
+5V(S)
8
STB MCU
5
IIC1Q
4
5
0
2
POWER
IIC_CLK2
A6
TV SUB ON
JK4501
IIC0
HDMI IN 1 HDMI IN 3
3
9
+1.8V
Q4014,15
+5V(STB)
6
9
AFT
DTV RESET
7FSTB+15V +5
V
ERROR DET
9
IIC3
H
D
M
I
_
C
E
C
26
20
GH
LVDS
HDMI_SD
R(10bit)
IC3802
T
M
D
S
D
A
T
A
C
L
O
C
K
IIC_CLK1
3
SERIAL SW
REMOTE RECEIVER
P6
GenX5
3
H
D
M
I
_
C
E
C
_
P
U
_
O
N
DROP
PANEL STATUS
KEYSCAN1
+3.3V(STB)
IC4200
+5V(S)
IC1100
TH-42PZ85UBlock (4/6) Diagram
TH-42PZ85UBlock (4/6) Diagram
+15V(SND)
SOUND SOS
2
FAN CONT1
B(10bit)
+3.3V(S)
7
GH11
+15V(FAN)
FSTB+15V
PANEL STB_ON
+3.3V(S)
A7
20
TV SUB ON
KEYSCAN1
PANEL SOS
IC4512
IC4513
POWER LED(R)
+5V(STB)
A
A30
DTV RESET
DDC IIC
FSTB+15V
+30V(BT)
+3.3V(STB)
2
LVDS DATA
+5V(S)
K
2
POWER LED
SWITCH
A11
HDMI_CEC
A1
REMOTERECEIVER
TMDS DATA
IC4013
SD LED
KEYSCAN3
K
E
Y
S
C
A
N
3
EEPROM
+9V(S)
SUB+3.3V DET
STB RESET
+9V(S)
5
ECO ON
I/F
PANEL STB_ON
OSD
SBO2
FAN SOS
+15V(FAN)
+5V(S)
2
A18
A17 FOR FACTORY USE
FOR FACTORY USE
1
PB30
FAN A-E
1
FAN A
1 +9/7.2V
3
FAN STOP
3
PB31PB32PB34PB36PB37
+9/7.2VFAN D
3IC850
OVENVOLTAGE
SOS DET
D851D852D853
5
IIC
HDMIAUDIO
HDCP KEY
HDMI PROCESSOR
DECODEVIDEO
INTERFACE
INTERFACE
A/D CONV.
H/V
SW
3
9
7
14
11
6
10
1
12
13
2
8
4
5
(LED:12TIMES)
(LED:10TIMES)
(LED:10TIMES)
(LED:11TIMES)
(LED:11TIMES)
-
35
9.5. Block Diagram (5/6)
D505
F
6
0
1
D402
F501
F201
D352
F
6
0
2
F301
D506
D551
(LED:6TIMES)
(LED:8TIMES)
(LED:2TIMES)
(LED:3TIMES)
(LED:5TIMES)
(LED:4TIMES)
(LED:7TIMES)
1
+5V(P)DDR I/F
A3
IIC1
EEPROM
67
IC9013
FLASHMEMORY
6
BUS SW
12
IC9806
SOS4_PS
SOS6_SC1
C12
(RIGHT)
8
IIC_CLK2
SOS6_SC1
+2.5V
IC9400
SOS8_SS
(LEFT)
IC9803D3
IC9802
28
+3.3V
15
IIC2
Q9805,06
1
IIC_DATA2
IC9805
+1.2V
68
+5V(P)
+3.3V
LVDS DATA
+1.2V
IIC2
SOS7_SC216
48
A5
11
2
3
13
62
D31
B
U
F
F
E
R
5
29
IC9019
+15V(P)
D33
4+15V(P)
D32
SOS8_SS
66
DDR(L)MEMORY
IIC2
IIC1
IC9300
RESET
IC9500
2
D5
IC9401
IIC_CLK1
IC9303
IIC1
+5V(P)
D6
+3.3V
C11
+2.5V
IC9011SC20
IIC_DATA1
C21
D20
10
68
+5V(P)
DDR(R)MEMORY
IIC2
2
IIC2
DDR I/F
IC9001
66
9
66
D25
31
11
68
IIC2
56
7
67
+3.3V
IIC2
+1.2V
IC9301
2
+3.3V(STB)
67
1
SOS7_SC2
56
IIC2
2
+15V(P)30
+2.5V
FORMAT CONVERTER,PLASMA AI PROCESSOR
D
SCAN CONTROL
CONTROL DATADISCHARGECONTROL SUSTAIN CONTROL
FLASH I/F
VIDEO DATA
VIDEO DATA
VIDEO DATA
VIDEO DATA
IIC2 IC9002TENP SENSOR
RESET
+3.3V(P) DET
+15V(P) DET
PANEL SOS
+3.3V(STB)
+5V(P) DET
PANEL STATUS
POWER SOSPOWER ON/OFF
GenX6PANEL MICOM
IC9003
VIDEO/PANEL CONTROL
VIDEO DATA
VIDEO DATA
CONTROL DATASUSTAIN CONTROL
CONTROL DATA
CONTROL DATA
VIDEO DATA
SCAN CONTROL
PANEL SOSPANEL STATUS
PANEL STB_ON
FACTORYFOR
USE
H/V SYNC CONTROL
PLASMA AI
CPG with SS
SUB-FIELD PROCESSOR
LVDS RX
LVDS DATA
DATA DRIVER
DISCHARGE CONTROL
VDATA_DETPANEL MAIN ON
2
2
CONTROL SWITCH
Vsus
+5V(P)5
V
_
O
N
V
d
a
_
O
N
VDA_DET
3
PC201
BAIS_ON
MC451
6
+5V
FSTB+15V
P6
IC501
HOT
SS11
T501
P2
IC352
7
VsusERROR DET
MC201
T301
Vda
1
IC251
PC202
E
C
O
O
N
SC2
Q402
Q301,302
5V_OUT
T
V
S
U
B
O
N
S
T
B
5
V
_
O
N
BIAS
Q403
15V_ON
VR401
Vsus_ON15V_0CL
P9
5
S
T
B
5
V
_
O
U
T
Vda OUT
+5V(P)
+15V(SND)
D251
MC601
AC IN
+15V(P)
K601
+5V(STB)
Q351
K602
1
5
V
_
I
N
+
1
5
V
(
P
)
2 1
A7
M
U
L
T
I
_
O
N
7
+
5
V
(
P
)
5
T
V
S
U
N
O
N
+15V(P)P25
MC602
Vsus
12
1
3
RF601
11
PFC
A
C
D
E
T
P
O
W
O
N
+15V(SND)FSTB+15V
MC603
D501
MC203
PC301
COLD
AC CORD
1PC302
PC501
P11
Vda_ON
50/60Hz
+5V(P)
PC401
AC100V
MC301Q401
AC INLET
9
Vsus
9
1Vsus GEN.
T201
D401
MC35215VON
13
L601,L602
MC502
HOT
+
5
V
(
S
T
B
)
+15V(P)
COLD
8
E
C
O
O
N
6
SS12
P7
Vda
10
10
P12
VDATA_DET
+
1
5
V
(
P
)
PC502
MC401
Vda
MAIN SW
4
IC5551
1
MC701
MC552
SUS OUT
VR251
FILTER
M
A
I
N
R
E
L
A
Y
(
H
)
R
U
S
H
R
E
L
A
Y
(
H
)
POWER MICOM
PANEL MAIN ONPOWER SOS
PANEL MAIN ONPOWER SOS
CONTROL
BIAS/SUS/MULTI
PHOTOCOUPLER
PHOTOCOUPLER
PHOTOCOUPLER
PHOTOCOUPLER
PHOTOCOUPLER
Vsus POWERCONTROL
PFCCONTROL
IPD
PHOTOCOUPLER
RECTIFIER
R
U
S
H
R
E
L
A
Y
M
A
I
N
R
E
L
A
Y
PHOTOCOUPLER
+15VERROR DET
VsusPOWER SUPPLY
VdaCONTROL
POWERCONTROL
POWER SUPPLY
STBERROR DET
STB_PS
+12V
POWER SUPPLYP
RECTIFIER
POWERCONTROL
A6
(LED:6TIMES)
(LED:8TIMES)
(LED:2TIMES)
(LED:3TIMES)
(LED:5TIMES)
(LED:4TIMES)
(LED:7TIMES)
TH-42PZ85UBlock (5/6) Diagram
TH-42PZ85UBlock (5/6) Diagram
-
36
9.6. Block Diagram (6/6)
D16255
TPSOS8
TPVDA
TPSS1D16253
D16280
TPVSUS
TPVE2
TPVE
D16821
TPSOS7
D16717
D14721
TPVSCN
D16583
D16585
TPVAD
VF_GND
TPSOS6
D16718
D16480
D16872
D16725
TPVSET
TPSC1
D16791
D16820
TPVSUS
5V5V
(LED:8TIMES)
(LED:7TIMES)
(LED:6TIMES)
3
SS63
CB1
IC17102
LED(G)
27
Q16280
SS11
SS35
C23
CB7
+
5
V
(
P
)
SOS8_SS
CB2
BUFFER
29 3 1
+
5
V
(
P
)
CB4
Vda
SS35
P12
CB12
13
SS66
CB11
SS33
13
D31
1
Vda
C25
C12
1
C21
IC16151
USL
2
+5V(P)
1
D32
Vsus
1
CB3 CB10
Q16042
S
O
S
8
_
S
S
2
USH
2
2
SS64
Vda
+
5
V
(
P
)
31 7
CB6
1
Vda
CB8
Q16002-04
SOS8_SS
1
2
1
1
8
IC16131
+5V(P)
21
CB5
Vda
8
C23
2
C25
13
1
CB14
SS61
SS34
CB13
10
8
1
Q16021-24
IC16251
SS12
1
2
D33
CB15
31
Vda
Q16051
17
CB9
P11
24
1Vda
13
30
2
C10
4
16
7
13
C11
3
28
C20
SS33
15
UMH,UML
USH,USL
UML
UMH
UEH,UML
7
2
UELUEH
USHUSL
UMHUML
41678114163 35395
+
5
V
(
P
)
D
E
T
811
14
13 18
17
+
5
V
(
P
)
D
E
T
5
30 1+5V(P)DET
4167 31
Vda
2
+
5
V
(
P
)
+
5
V
(
P
)
3
+
5
V
(
P
)
13339 5
+
5
V
(
P
)
D
E
T
915
7
2
3339
C
L
O
C
K
+
5
V
(
P
)
13
+
5
V
(
P
)
+
5
V
(
P
)
2
IC17101 IC17103
IC17202IC17204
IC17201,03
1819
IC16241
Q16104
Q16331
Q16339
+15V
IC16302IC16301
T16301A
D16282
IC16191Q16102
Q16442
Vsus
CEL
CEL
SOS6_SC1
16V_F
LED(G)
Q16875,79
Q16876
(SC1)
D16871
IC16561-63
VSCN
F_5V_B
SOS7_SC2
IC16752Q16452
PC16705
CMH
CPH
Q16622-25
D20
IC16784
CML
Q16791,94
IC16501
IC16581
IC16788,89
D16873
5V-F_A
VSET
Q16601
+5V(P)
Q16661
1
PC16710
16V-F
VSET OUT
21
IC16786
Q16647-50
5V_F_A
IC16521
Vscn
+15V(P)
+15V(P)
IC16472
+5V(SC2)
IC16724
CPH2
Q16423
VSET
+5V
PC16480
Q16421
IC16772
IC16725
IC16791
8
6
P2
CSH
CSL
F_5V_A
7
Q16401
ERROR DET
SC20
16V_F
35
SC2
(15V_F)
+15V(P)
+15V(P)
20
Q16403Q16404
Q16424Q16604
Q16627-29Q16634
Q16641-44
1
1
SC46
IC14951-54
IC14955-58
SD46
IC14961-65
SU11
SD11
VSCN-F
SU1-SU4
20
7
6
SD1-SD4
9
Vfo
9
SD42
15
1
SC30
IC14905-08
SU41
7
Vfo
15
IC14901-04
6
SC42
20
SC41
1
1818
IC16564
IC16801IC16792
VSET2,6
D16859D16860
DRIVERVE Gen.
DRIVERVSUS Gen.
RECOVERYENERGY
IPD
ERROR DET
TRANS
ERROR DET
BUFFER
ELECTRODEPANEL SUSTAINPLASMA PANEL
SUSTAIN CONTROLSUSTAIN CONTROL
+15V(P)STB_PS
12V
STB_PS12V
DRIVER
ERROR DET
BUFFER
ENERGY
VSUS Gen.
AND GATE
RECOVERY
PHOTO COUPLER
PHOTO COUPLER
ERROR DET
ERROR DET
ERROR DET
PHOTO COUPLER
DRIVERVAD SEPA
CONVERTER
DRIVERVSET SEPA
DC/DC
SCAN CONTROL SCANCONTROL
ERROR DET
VOLTAGEDROP
SCAN CONTROL
VAD
VSCN
GEN.
GEN.
DRIVERSCAN
SCAN
DRIVER
SCAN
SCAN
DRIVER
DRIVER
PLASMA PANELPANEL SCANELECTRODES
S
C
A
N
D
A
T
A
BUFFER
SCAN CONTROL
VSET2,6
V
I
D
E
O
D
A
T
A
C
O
N
T
R
O
L
D
A
T
A
BUFFER BUFFER
V
I
D
E
O
D
A
T
A
C
O
N
T
R
O
L
D
A
T
A
PANEL DRIVER PANEL DRIVERPLASMA PANEL
V
I
D
E
O
D
A
T
A
C
L
O
C
K
CONTROL DATA
VIDEO DATA
C
L
O
C
K
C
O
N
T
R
O
L
D
A
T
A
V
I
D
E
O
D
A
T
A
S
U
S
T
A
I
N
C
O
N
T
R
O
L
BUFFERBUFFER BUFFER SUSTAIN CONTROL
SCAN OUT (UPPER)SU
SD SCAN OUT (LOWER)
SC SCAN DRIVE
SUSTAIN DRIVESS
DATA DRIVER (RIGHT)C1
C2 DATA DRIVER (LEFT)
FACTORYFOR
USE
(LED:8TIMES)
(LED:7TIMES)
(LED:6TIMES)
TH-42PZ85UBlock (6/6) Diagram
TH-42PZ85UBlock (6/6) Diagram
-
37
10 Wiring Connection Diagram10.1. 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.
10.2. Wiring (1)
-
38
10.3. Wiring (2)
-
39
11 Schematic Diagram11.1. Schematic Diagram Note
-
40
11.2. P-Board (1/2) Schematic Diagram
C
32
B
A
E
65 7
D
1 4
F
8 9
TH-42PZ85UP-Board (1/2) Schematic Diagram
TH-42PZ85UP-Board (1/2) Schematic Diagram
TOAC CORD
! P-BOARD ETX2MM702MF (1/2)
PFC CONTROL
RECTIFIER
PFC
-
41
11.3. P-Board (2/2) Schematic Diagram
PO
WE
R C
ON
TRO
L
C
32
B
A
E
65 7
D
1 4
F
8 9
TH-42PZ85UP-Board (2/2) Schematic Diagram
TH-42PZ85UP-Board (2/2) Schematic Diagram
TOSC-B
OA
RD
(SC2)TOSS
-BO
AR
D(SS11)
TOSS-B
OA
RD
(SS12)
TOA-BO
AR
D(A6)
TOA-BO
AR
D(A6)
TOA-BO
AR
D(A25)
COLD
HOT
COLD
HOT
COLD
HOT
COLD
HOT
PO
WE
R M
ICO
M
CONTROL SWITCH
IPD
BIAS/PFC/MULTICONTROL
POWER CONTROL
Vsus P
OW
ER
CO
NTR
OL
Vda C
ON
TRO
L
VsusPOWERSUPPLY
15VON
+5V(P)
+15V ERROR DET
Vsus E
RR
OR
DE
T
! P-BOARD ETX2MM702MF (2/2)
-
42
11.4. PB-Board Schematic Diagram
+
+
9V
C869
470u25V
C85925V
0.1u
C86225V
0.1u
PB37
1
2
3
L852G0C101KA0167
D862MAZ80330LL
R8564.7k
D
8
6
1
M
A
2
J
1
1
1
0
0
L
C860
470u25V
R874470
C0DBAZF00003IC850
1
V
i
n
2
V
o
u
t
(
s
w
)
3
G
N
D
4
V
a
d
j
5
O
N
/
O
F
F
TP853
D854MA2J11100L
TP850
D859B0JCME000037
R8524.7k
C85825V
0.1u
R8574.7k
PB34
1
2
3
PB32
1
2
3
R8592k
D851MA2J11100L
R8670
R8544.7k
PB36
1
2
3
D856MA2J11100L
PB31
1
2
3
R8514.7k
R87113k
PB30
1 2 3 4 5
C861
0.1u25V
R8614.7k
D852MA2J11100L
TP852
R8691k
D860MAZ81100ML
R872845TP851
D857MA2J11100L
9V
G
N
D
FAN_SOS
+B FOR FAN
GND FOR FAN
D
R
1
5
V
F
A
N
C
O
N
T
F
A
N
S
O
S
M
A
I
N
9
V
C
1 6 854 7
A
3
B
D
E
2
TOA-BOARD(A30)
TOFAN
PB-BOARD TNPA4243AHS!
+9/7.2V
TH-42PZ85UPB-Board Schematic Diagram
TH-42PZ85UPB-Board Schematic Diagram
-
43
11.5. G, GS, K and S-Board Schematic Diagram
P
U
S
H
B
A
L
L
A
N
B
A
L
L
A
N
B
A
L
L
A
N
R VL
Y
C
+
D.SW
W.P.
VC
C
GN
D
OU
T
S2 1 2
SW2500K0F122A00172
D
3
7
0
1
M
A
Z
8
1
4
0
0
M
L
D
3
7
0
2
M
A
Z
8
1
4
0
0
M
L
F
L
3
7
1
0
J
0
Z
Z
A
0
0
0
0
0
9
1
1 2
34
ZA3702K4CZ01000027
F
L
3
7
1
2
J
0
Z
Z
A
0
0
0
0
0
9
1
1 2
34
R371739k
R
3
7
2
1
1
0
k
R371639k
D
3
7
0
9
M
A
Z
8
0
5
1
0
L
L
D
3
7
1
1
M
A
Z
8
1
4
0
0
M
L
F
L
3
7
1
1
J
0
Z
Z
A
0
0
0
0
0
9
1
1 2
34
D
3
7
1
0
M
A
Z
8
0
5
1
0
L
L
G51
123456789
1
0
ZA3701K4CZ01000027
JK3701K4AK13B00002
C Y G C
Y
-
G
GR
-
S
W
R R
-
G
L L
-
G
V
-
S
W
V V
-
G
R77310
R7705 33
S
W
3
7
5
1
E
V
Q
P
C
1
0
5
K
C
7
7
1
0
5
0
V
1
0
p
C7702
47u16V
R7795 0
C
7
7
2
6
5
0
V
3
3
p
C
7
7
2
7
5
0
V
3
3
p
S
W
3
7
5
7
E
V
Q
P
C
1
0
5
K
C7729
10u6.3V
R37521.74k
ZA7701K4CZ01000027
ZA7702K4CZ01000027
R37542.32k
C
7
7
0
5
1
6
V
0
.
1
u
R7703 33
C
7
7
0
1
5
0
V
3
3
p
R37531.62k
R7796 0
R77020
R7706 0
GS52
1
2
3
4
5
6
7
8
9
10
11
12
13
14
S
W
3
7
5
6
E
V
Q
P
C
1
0
5
K
S
W
3
7
5
4
E
V
Q
P
C
1
0
5
K
R7704 33
C770816V0.1u
S
W
3
7
5
5
E
V
Q
P
C
1
0
5
K
R37516.65k
R375014.3k
JS77010
R7793 0
C
7
7
0
9
1
6
V
0
.
1
u
S
W
3
7
5
8
E
V
Q
P
C
1
0
5
K
R7710100
C7730
10u6.3V
R7792 0
S
W
3
7
5
3
E
V
Q
P
C
1
0
5
K
JK7701
1
2
3
4
5
6
7
8
9
10
11
12
R7709 68
R7713J0JCC0000100
C3750
1000p50V
R7794 0
R7701 33
R37560
C
7
7
0
3
5
0
V
3
3
p
R37583.16k
R7791 0
C251550V
0.01u
R251747
Q25102SD0601A0L
C25126.3V10u
R
2
5
5
7
5
.
6
k
Q25112SD0601A0L
D2512MAZ80430LL
D2520ALN1271RALTR
C2521
0.01u50V
R252422k
K1 1 2 3 4 5 6 7 8 9
1
0
1
1
1
2
C2522
0.1u16V
R25135.6k
R254247k
PC2501B3JB00000046
R2520220k
RM2501PNA4701M07TV
R251622k
R2525820
1 2
C
E
A
7
D
65
B
3 84
POWER SW
S-BOARD TNPA4499S
A
V
3
_
Y
_
G
N
D
A
V
3
_
C
A
V
3
_
C
_
G
N
D
A
V
3
_
V
A
V
3
_
V
_
G
N
D
G-BOARD TNPA4503SA
V
3
_
V
_
G
N
D
A
V
3
_
C
A
V
3
_
S
_
D
E
T
G
N
D
A
V
3
_
R
A
V
3
_
C
_
G
N
D
A
V
3
_
L
A
V
3
_
Y
_
G
N
D
A
V
3
_
V
A
V
3
_
Y
AV3_S_DET
A
V
3
_
L
A
V
3
_
R
A
V
3
_
Y
TOA-BOARD(A51)
VOL.UP TV/VTR VOL.DN CH.DN CH.UP
GS-BOARD TNPA4504S
OK
+/ F-/SD CARD SLOT
STRTV/AV
MENU
TOA-BOARD(A52)
GND
USA
SDDTC
SDWP
KEYSCAN1
GND
SDDAT2
SDDAT1
3.3V
GND
SDCMD
SDDAT3
SDCMD
GND
GND
SDDAT1
SDCLK
GND
SDDAT0
3.3V
SDDAT2
SDCLK
SDDAT0
SDDAT3
G
N
D
K
E
Y
S
C
A
N
3TOA-BOARD(A1)
CATS
REMOTE RECEIVER
K-BOARD TNPA4502S
G
N
D
K
E
Y
S
C
A
N
3
A
I
_
S
E
N
S
O
R
R
_
L
E
D
_
O
N
POWER LED
G
N
D
S
T
B
3
.
3
V
G
N
D
S
U
B
5
V
R
M
_
I
N
D
3
7
1
1
!
!
!
!
TH-42PZ85UG, GS, K and S-Board Schematic Diagram
TH-42PZ85UG, GS, K and S-Board Schematic Diagram
-
44
11.6. GH-Board Schematic Diagram
ZA3801K4AD01D00005
ZA3802K4AD01D00005
*R385410k
R3830 2.7
D
3
8
0
2
E
Z
A
E
G
2
A
5
0
A
X
R3825 2.7
0.1u16V
C3807
D3811EZJZ0V80008B
Q38012SD0601A0L
R
3
8
0
9
1
k
R3831 2.7
D
3
8
0
1
E
Z
A
E
G
2
A
5
0
A
X
0.1u16V
C3814
R
3
8
0
7
1
0
L3801J0JHC0000078
C3823
0.1u16V
R384010
D
3
8
0
8
E
Z
J
Z
0
V
8
0
0
0
8
B
R381210k
C381716V
0.01u
0.1u16V
C3810
C3806
0.1u16V
R
3
8
0
8
1
0
R3826 2.7
TP3801
L3805J0JHC0000078
R38033.3k
R
3
8
3
2
4
.
7
k
R38054.7k
D
3
8
0
7
E
Z
J
Z
0
V
8
0
0
0
8
B
C3801
0.1u16V
C3804
0.1u16V
D3814B0HCMM000014
C
3
8
1
8
1
6
V
0
.
0
1
u
R
3
8
1
0
1
k
L3804J0JHC0000078
D
3
8
1
0
E
Z
A
E
G
2
A
5
0
A
X
R3824 2.7
TP3802
R380110k
D3815EZJZ0V120JA
R
3
8
1
4
4
.
7
k
R3829 2.7
0.1u16V
C3808
C3802
0.1u16V
C381516V
0.01u
D3813B0HCMM000014
C382016V
0.01u
R380210k
D
3
8
0
3
E
Z
A
E
G
2
A
5
0
A
X
R381810k
TP3805
R382133
R3827 2.7
R38114.7k
C38136.3V10u
R38221k
C381916V
0.01uD
3
8
0
6
E
Z
A
E
G
2
A
5
0
A
X
TP3803
IC3802TVRP820S
1
E
0
2
E
1
3
E
2
4
V
S
S
5
S
D
A
6
S
C
L
7
W
C
8
V
C
C
C381616V
0.01u
D
3
8
0
5
E
Z
A
E
G
2
A
5
0
A
X
R
3
8
4
5
4
.
7
k
C3803
1u10V
R3828 2.7
D
3
8
0
9
E
Z
A
E
G
2
A
5
0
A
X
0.1u16V
C3809
Q38022SD0601A0L
R
3
8
4
7
0
C1AB00002835IC3801
1
T
E
S
T
2
V
C
C
3
D
N
4
D
P
5
G
N
D
6
S
C
L
3
7
S
D
A
3
8
D
D
C
G
N
D
9
I
P
A
C
T
R
L
1
0
O
P
A
C
T
R
L
1
1
V
C
C
1
2
REXT
13
ZP
14ZN
15GND
16YP
17YN
18VCC
19VCC
20XP
21XN
22GND
23WP
24
W
N
2
5
C
E
2
6
V
C
C
2
7
H
P
D
2
8
D
D
C
5
V
2
9
D
D
C
G
N
D
3
0
S
D
A
5
3
1
S
C
L
5
3
2
G
N
D
3
3
A
N
3
4
A
P
3
5
V
C
C
3
6
RXTM
37
VCC
38VCC
39BN
40BP
41 GND42
VCC43
VCC44 GND45 CN46 CP47
VCC48
V
C
C
0.1u16V
C3812
R384110
D
3
8
0
4
E
Z
A
E
G
2
A
5
0
A
X
0
.
1
u
1
6
V
C
3
8
1
1
C3829
1u10V
R
3
8
0
4
4
.
7
k
R
3
8
0
6
4
7
k
Q38042SD0601A0L
R38150
GH11
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
GH10K1FA119E0013
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
DDCG
Main2_3.3V
Main2_3.3V
SDA
D0-
D2+
7
A
D2+
D
CEC
HDMI_CE1
CEC
D1-
D2G
HDMI_5V_DET3
SCL
N.C.
HDMI IN 3
HPDT
WP
CLK-
D1+
D0+
Main5V
TOA-BOARD(A11)
HPD3
SCL
DDC5V
D2-
CLK+
D1-
CLK-
D0-
D0+
CLKG
D1+
+5V
D2-
D0G
CLK+
D1G
SDA
SDA
SCL
SDA
SCL
8
HDMI EQUALIZER
EEPROM
4
!
65
B
1 32
GH-BOARD TNPA4506S
C
E
TH-42PZ85UGH-Board Schematic Diagram
TH-42PZ85UGH-Board Schematic Diagram
-
45
11.7. A-Board (1/12) Schematic Diagram
S
S
C80306.3V
1u
C802816V
0.1u
C807216V
0.1u
C802016V
0.1u
C807416V
0.1u
C80156.3V1u
C80166.3V1u
C807716V
0.1u
C808016V
0.1u
C800616V
0.1u
C801816V
0.1u
C802116V
0.1u
C802716V
0.1u
C807916V
0.1u
C806716V
0.01u
C805716V0.1u
C801316V
0.1u
C8009
10u10V
C807616V
0.1u
C80754V
22u
C801116V
0.1u
C806816V0.1u
C8024
10u10V
C801416V
0.1u
C802616V
0.1u
C807016V
0.1u
C80316.3V1u
C802516V
0.1u
C8034
16V0.1u
C805616V
0.1u
C807316V
0.1u
C8033
16V0.1u
C80051u6.3V
C807116V
0.1u
C80226.3V1u
C80026.3V
1u
C800116V0.1u
C8023
10u10V
C8032
10u10V
C80526.3V1u
C8017
10u10V
C801916V
0.1u
C8058
10u10V
C8010
10u10V
C801216V
0.1u
C8003
1u6.3V
C800816V
0.1u
C800716V
0.1u
C807816V
0.1u
C802916V
0.1u
C805316V
0.01u
C80041u6.3V
IC8001 A1 VSS
IC8001 N2 XNMIRQ
IC8001 U2 EA6
IC8001 AB8 SBT0
IC8001 D24 TSTAIO
IC8001 P15 VSS
IC8001K21CK27
IC8001 AF26 VDDIO
IC8001 D4 VSS
IC8001 Y4 XERE
IC8001 AE25 VSS
IC8001 AA18 VSS
IC8001 AF7 RXD0
IC8001 AC18 VDDIO
IC8001 A12 DACVSS2
IC8001 T2 EA1
IC8001 M3 VI2P29
IC8001 AD3 XNFWE
IC8001 N5 SCL1
IC8001 L6 VI2P21
IC8001 AD13 SDCD
IC8001 AC3 XECS4
IC8001 AB25 VDDIO
IC8001 AB22 VDDIO
IC8001 K13 VSS
IC8001 R17 VDDR
IC8001 A10 IECOUT0
IC8001 AB2 ERXW
IC8001 T25 VDDIO
IC8001 E14 DACVDD2
IC8001 F21 LVVDD
IC8001 D9 VSS
IC8001 L4 VSS
IC8001 P14 VSS
IC8001 AD4 XNFRE
IC8001 K10 VSS
IC8001 E13 VSS
IC8001 E21 VDD33
IC8001 M6 VI2P27
IC8001 N17 VDDR
IC8001 AB19 VDDIOIC8001 F20 VDD33
IC8001 AC14 VDD12
IC8001 AB1 ECLK
IC8001 AE11 CH0VAL
IC8001 E23 LVVDD
IC8001 P23 VSS
IC8001 AB3 XEWE1
IC8001 AD7 XCTS0
IC8001 W4 ED9
IC8001 N6 VDD33
IC8001 U5 ED0
IC8001 R3 TDO
IC8001 Y22 VDDIOCK
IC8001 D26 TC1P
IC8001 E24 VSS
IC8001 H1 VI2P15
IC8001 AA5 XECS0
IC8001 K5 VI2P16
IC8001 K14 VSSIC8001 N10 VDD12
IC8001 AB13 SDDAT2
IC8001 B26 TA1P
IC8001 AD15 VDDR
IC8001 U16 VDDR
IC8001 AC15 VDDR IC8001 K15 VSS
IC8001 T16 VSS
IC8001 AD10 CH1CLK
IC8001 R10 VDD12
IC8001 B11 MVIREF
IC8001 G25 TE1N
IC8001 AD9 SMTCLK0
IC8001 T22 VSS
IC8001 AB14 VDD12
IC8001 L3 VI2P25
IC8001 N15 VSS
IC8001 Y2 ED11
IC8001 P11 VSS
IC8001 AD8 SMTCLK1
IC8001 L5 VI2P23
IC8001 AF5 IS1DATA
IC8001H25CLK74
IC8001 AE21 VDDIO
IC8001 AD14 VDD12
IC8001 B2 VSS
IC8001 AB6 NFCLE
IC8001 L2 VI2P26
IC8001 D23 SBO0
IC8001 W3 ED8
IC8001J22VC27
IC8001 V6 ED7
IC8001 A26 VDD33
IC8001 M12 VSS
IC8001 T11 VDD12
IC8001 R4 VDD33
IC8001 N24 VDDIO
IC8001 H5 VI2VSYNC
IC8001 AF9 SMTCMD0
IC8001 R15 VSS
IC8001 N4 XIRQ1
IC8001 P10 VDD12
IC8001 AB5 XEXDMK0
IC8001 AD5 IS1CLK
IC8001 V25 VSS
IC8001 T3 EA3
IC8001 V4 VSS
IC8001 U15 VDDA
IC8001 F12 VDD33
IC8001 F22 LVVSS
IC8001 F26 TD1P
IC8001 U14 N.C.(DPAVDD12)
IC8001 AA9 VDD33
IC8001 AD17 VDDIO
IC8001 AF1 VSSIC8001 N12 VSS
IC8001 D11 MVCOMP
IC8001 V3 ED4
IC8001 AF8 SMTCMD1
IC8001 L10 VSS
IC8001 AA11 SMTD0
IC8001 M17 VDDAIC8001 W6 VSS
IC8001 D16 VDD33
IC8001 AC22 VSS
IC8001 AE13 SDDAT1
IC8001 G21 LVVSS
IC8001 G1 VI2P10
IC8001 T15 VDDR
IC8001 AF13 SDCLK
IC8001 B25 TA1N
IC8001 AA25 VSS
IC8001 AB4 XECS2
IC8001 AA22 VSS
IC8001 T13 VDD12
IC8001 A11 SVCOMP
IC8001 H22 TCPOUT
IC8001 AE1 XECS7
IC8001 P3 AGAVDD
IC8001 K1 VI2P24
IC8001 L15 VSS
IC8001 AF15 VDDR
IC8001 AE22 VSS
IC8001 T6 EA2
IC8001 L1 VI2P28
IC8001 U13 VDD12
IC8001 AC20 VSS
IC8001 J1 VI2CLK2
IC8001 F11 VDD33
IC8001 K6 VDD33
IC8001 AC10 VDD33
IC8001 A24 SBI2
IC8001 K16 VSS
IC8001 AB11 SMTSEL0
IC8001 U17 VSS
IC8001 B24 VDD33
IC8001 AD23 VSS
IC8001 D18 VSS
IC8001 AB17 VSS
IC8001 C11 DACVSS1
IC8001 W26 VDDIO
IC8001 AA2 ED15
IC8001 G4 VDD33
IC8001 U12 VDD12
IC8001 K26 VDDIO
IC8001 AD12 SDCMD
IC8001 U6 VDD33
IC8001 H21 MVAVDD
IC8001 AF24 VSS
IC8001 K2 VI2P22
IC8001 AE6 XRTS0
IC8001 C13 DACCK0
IC8001 D21 XRST
IC8001 D10 VSS
IC8001 AD26 VSS
IC8001 AD1 XECS3
IC8001 AF20 VDDIO
IC8001 L14 VSS
IC8001 Y5 XEDK
IC8001 K4 VI2P18
IC8001 AA10 SMTRST1
IC8001 W1 ED5
IC8001 L24 VSS
IC8001 P1 XIRQ3
IC8001 F15 USBVDD
IC8001 G22 LPFOUT
IC8001 A25 VDD33
IC8001 P6 VDD33
IC8001 R21 VDDIO
IC8001 R12 VDD12
IC8001 AA6 VSS
IC8001 AA3 XEWE0
IC8001 N14 VSS
IC8001 AD2 XECS6
IC8001 AA7 VSS
IC8001 H3 VI2P12
IC8001 P5 AVCOIN
IC8001 J6 VDD33
IC8001 R11 VDD12
IC8001 AE10 CH1PSYNC
IC8001 M11 VSS
IC8001 Y1 ED10
IC8001 T14 VSS
IC8001 AF2 XNFWP
IC8001 L13 VSS
IC8001 AA1 ED14
IC8001 AB9 XDCD0
IC8001 G5 VI1P1
IC8001 AE5 IS1VAL
IC8001 C23 VDD33
IC8001 C24 SBI0
IC8001 Y24 VDDIO
IC8001 AC4 XECS5
IC8001 H4 VDD33
IC8001 AC11 VDD33
IC8001 K17 LVVDD12
IC8001 AA21 VDDIO
IC8001 D15 DAUDIO
IC8001 M10 VSS
IC8001 C26 TB1P
IC8001 J2 VI2P19
IC8001 K12 VSS
IC8001 D19 VSS
IC8001 E6 VI2P4
IC8001 AA14 VDD12
IC8001 AE9 SMTRST0
IC8001 H6 VI1P20
IC8001 AC1 ESZ1
IC8001 K11 VSS
IC8001 C12 DACVDD1
IC8001 E26 TCLK1P
IC8001 AE12 SDWP
IC8001 E25 TCLK1N
IC8001 A13 DMIX0
IC8001 M1 SDA0
IC8001 AC9 XRI0
IC8001 AD6 SBT2
IC8001 U3 EA7
IC8001 F24 VSS
IC8001 M5 RMCO
IC8001 T5 TDI
IC8001 AF23 BOOTSWAP
IC8001 V22 VDDIO
IC8001AD24CK27D
IC8001 E5 VSS
IC8001 F25 TD1N
IC8001 N11 VSS
IC8001 J21 MVAVSS
IC8001 P25 VDDIO
IC8001 W21 VSS
IC8001 B12 MVDACO1
IC8001 AD11 CH0PSYNC
IC8001 AC2 XECS1
IC8001 P13 VSS
IC8001 AE4 IS0PSYNC
IC8001 M23 VDDIO
IC8001 AE16 VDDIO
IC8001 G24 VSS
IC8001 P17 VSS
IC8001 R16 N.C.(DPAVSS)
IC8001 R5 ATCPOUT
IC8001 AE15 VDDR
IC8001 R26 VSS
IC8001 T12 VDD12
IC8001 T4 VDD33
IC8001 N22 VSS
IC8001 E22 LVVDD
IC8001 R6 TCK
IC8001 AD19 VSS
IC8001 R24 VSS
IC8001 M13 VSS
IC8001 AF3 IS0CLK
IC8001 AC6 NANDRYBY
IC8001 H2 VI2P14
IC8001 AF6 XDSR0
IC8001 AB12 SDDAT0
IC8001 V2 ED2
IC8001 AA13 SDDAT3
IC8001 W2 ED6
IC8001 M21 VDDIO
IC8001 AE14 VDD12
IC8001 AA15 VSS
IC8001 AF4 IS0DATA
IC8001 AC7 IS1PSYNC
IC8001 AA8 VDD33
IC8001 R13 VDD12
IC8001 AF14 VDD12
IC8001 L16 VSS
IC8001 W24 VSS
IC8001 AA12 CH1VAL
IC8001 AC8 XDTR0
IC8001 AC5 XNFCE
IC8001 AD22 VDDIO
IC8001 AE8 SMTD1
IC8001 F13 MVDACO2
IC8001 P2 AGAVSS
IC8001 AB7 IS0VAL
IC8001 N16 VSS
IC8001 V1 ED1
IC8001 N3 SDA1
IC8001 U24 VDDIO
IC8001 G23 LPFIN
IC8001 AF21 VSS
IC8001 U4 EA4
IC8001 AE24 DTCPOUT
IC8001 M14 VSS
IC8001 G3 VI2ENBIC8001 D13 USBDP
IC8001 AF11 CH0DATA
IC8001 W5 ED12
IC8001 AD25 VDDIO
IC8001 H24 AUDCLK
IC8001 AC23 VDDIO
IC8001 M2 SCL0
IC8001 D25 TC1N
IC8001 Y23 VSS
IC8001 AB15 VDDR
IC8001 H23 VSS
IC8001 M25 VSS
IC8001 L17 VSS
IC8001 R1 TMS
IC8001 J3 VI2P17
IC8001 Y3 ED13
IC8001 R14 VSS
IC8001 L12 VSS
IC8001 Y6 VSS
IC8001 D14 USBDM
IC8001 D8 VDD33
IC8001 AE18 VSS
IC8001 U11 VDD12
IC8001 D22 VDD33
IC8001 AC16 VSS
IC8001 M15 VSS
IC8001 V5 ED3
IC8001 AE7 TXD0
IC8001 AF12 CH0CLK
IC8001 P4 GTCPOUT
IC8001 U1 EA5
IC8001 M4 VSS
IC8001 AE2 XEXDMR0
IC8001 T1 EA0
IC8001 AC13 VSS
IC8001 D17 VDD33
IC8001 U10 VDD12
IC8001 M16 VSS
IC8001 J5 VI2P11
IC8001 T17 VDDA
IC8001 N1 XIRQ2
IC8001 B23 SBO2
IC8001 K3 VI2P20
IC8001 C25 TB1N
IC8001 G7 VSS
IC8001 F6 VSS
IC8001 AB21 VSS
IC8001 L22 VSS
IC8001 J4 VI2P13
IC8001 F1 VI2HSYNC
IC8001 R2 TRST
IC8001 P16 DPAVDD
IC8001 AB23 VSS
IC8001 L11 VSS
IC8001 D12 MVDACO3
IC8001 E12 VVREF
IC8001 AA4 ESZ0 IC8001 AF10 CH1DATA
IC8001 AB10 SMTSEL1
IC8001 T10 VDD12
IC8001 P12 VSS
IC8001 K23 VDDIO
IC8001 G26 TE1P
IC8001 AC25 VSS
IC8001 J25 VSS
IC8001 C3 VSS
IC8001 B13 SRCK0
IC8001 F23 LVVSS
IC8001 A7 VI1P26
IC8001 C5 VI1P28
IC8001 A2 VI1P16
IC8001 A4 VI1P29
IC8001 B5 VI1P9
IC8001 C7 VI1P5
IC8001 A9 VI1P22
IC8001 B6 VI1P7
IC8001 E2 VI1CLK2
IC8001 B9 VI1P23
IC8001 E1 VI1P11
IC8001 D1 VI1HSYNC
IC8001 A3 VI1P14
IC8001 A8 VI1CKOUT
IC8001 B8 VI1P24
IC8001 C6 VI1P27
IC8001 B4 VI1P12
IC8001 B1 VI1P17
IC8001 C1 VI1P19
IC8001 D2 VI1VSYNC
IC8001 F2 VI1P21
IC8001 E3 VI1ENB
IC8001 C9 VI1CLK
IC8001 C4 VI1P13
IC8001 A5 VI1P8
IC8001 B3 VI1P15
IC8001 B7 VI1P4
IC8001 C10 VI1P3
IC8001 C8 VI1P25
IC8001 G6 VI1P0
IC8001 B10 VI1P2
IC8001 F3 VI1P10
IC8001 C2 VI1P18
IC8001 A6 VI1P6
IC8001 A16 VOP10
IC8001 B21 VOP4
IC8001 D20 VOP8
IC8001 A23 MVCLK
IC8001 F16 VOP11
IC8001 C21 VOP6
IC8001 B18 VOP28
IC8001 B16 VOP0
IC8001 A21 VOP3
IC8001 B17 VOP24
IC8001 F19 VOP5
IC8001 E17 VOP22
IC8001 C17 VOP25
IC8001 C20 VOP2
IC8001 C15 VOP21
IC8001 E20 MVSYNC
IC8001 A19 VOP13
IC8001 C22 MHSYNC
IC8001 B19 VOP14
IC8001 E18 VOP29
IC8001 F18 VOP15
IC8001 A20 VOP17
IC8001 B20 VOP19
IC8001 E19 VOP18
IC8001 C16 VOP1
IC8001 H26 VOUTENB
IC8001 A22 VOP7
IC8001 C18 VOP12
IC8001 B22 VOP9
IC8001 C19 VOP16
IC8001 A18 VOP26
IC8001 F17 VOP27
IC8001 E16 VOP20
IC8001 A17 VOP23
IC8001 E4 VI2P7
IC8001 A14 ADIN
IC8001 E9 VI1CVBS0
IC8001 E8 VI1CK208F
IC8001 D3 VI2P8
IC8001 A15 LCSCK
IC8001 B14 ADCCK
IC8001 D5 VI2P5
IC8001 F7 VI2P2
IC8001 E7 VI2P1
IC8001 D6 VI2P3
IC8001 E11 VI1CVBS3
IC8001 B15 LCSID
IC8001 F10 VI1CVBS1
IC8001 F9 VI1CK204F
IC8001 F8 VI2P0
IC8001 F5 VI2P6
IC8001 F4 VI2P9
IC8001 C14 DSRCK
IC8001 E15 SLRCK
IC8001 E10 VI1CVBS2
IC8001 AE3 NFALE
IC8001 D7 VDD33
IC8001 G2 VI2CLK
IC8001 AC12 VSS
IC8001 N13 VSS
IC8001 F14 LRCK0
C0ZBZ0001030IC8004
1 X1
2 S0
3 S1
4 VIN
5 VDD
6 GND
7 74M
8 COMM 927M
104.9152M
1124.576/33M
12GND
13VDD
14S2
15VDD
16X2
L8001J0JHC0000045L8002
J0JHC0000045
L
8
0
0
7
J
0
J
H
C
0
0
0
0
0
4
5
L8010J0JHC0000045
L8005J0JHC0000045
L8008J0JHC0000045
L8004J0JHC0000045
L8003J0JHC0000045
L8009J0JHC0000045
SUB3.3V
SUB1.2V
SUB1.2V
SUB3.3V
SUB1.8VSUB3.3V
1.8V_DDRI/F
SUB3.3V
SUB3.3V
SUB1.2V
SUB3.3V
SUB3.3V
R8764VJUMP1005-S
R8003VJUMP1608-S
TP8000 TP8001
AG_SD_BOOT_STS
EA3
SDDAT1
VI2P22
ED10
VI2P20
VI1CLK
VI1P11
VI1P29
VI1P10
VI1P9
XECS5
VI1P14
VI1P3
VI2P29
XIRQ1
SDWP
XERE
MVDACO1ESZ1
VI2P18
XECS2
VI1ENB
SBI0
ED3
VI1P22
MVDACO3
VI1P18
VI1P15
VI2P27
VI1P2
VI1P5
VI1P19
VI1P13
VI2P17
XECS3
SRCK0
VI2P12
EA4
XECS0
VI1P21
IECOUT0
VI1P4
VI1P26
EA7
VI1P7
VI1P6
VI1P8
VI1P1
XECS6
VI2P16
ED5
VI1P24
VI1CLK2
SDCD
VI1P27
SDA0
VI1P23
SDA1
VI1P25
VI1P12
VI1P17
VI1P0
VI2P19
AG_DTV_VOUTENB
SBO0
VOP9
ED2
ED7
VOP28
SDCMD
VOP5
SBT0
EA5
VOP19
VOP21
VOP29
VI2P24
TDI
VOP26
TMS
VOP23
ED0
VI2P13
VOP24
VOP12
ED4
VI2CLK2
VI1P28
VI2P23
SBI2
TRST
XIRQ2
VI2P26
DMIX0
ADIN
ED11
SDDAT3
VOP20
VI2P15
VOP17
VOP1
VOP10ED15
VI2ENB
VOP16
VOP15VI1HSYNC
VOP11
VOP13
CH0CLK
VOP8
ED14
VOP4
VOP3
VOP22
MVSYNC
VOP27
EA1
VOP18
SBT2
VI2P14
VOP14
SDCLK
ED12
MHSYNC
MVCLK
VI1P16
VOP2
VOP7
LRCK0
VI1CKOUT
EA6
VI