Panasonic Th-103pf9uk Th-103pf9ek Ch Gpf9d
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© 2006 Matsushita Electric Industrial Co., Ltd. All rights reserved. Unauthorized copying and distribution is a violation of law. TH-103PF9UK TH-103PF9EK GPF9D Chassis High Definition Plasma Display Specifications Power Source (UK) 240 V AC, 50 / 60Hz Power Source (EK) 220 V - 240 V AC, 50 / 60Hz Power Consumption Power on (UK) 1,550 W Power on (EK) 1,500 W Stand-by condition Save OFF 1.5 W, Save ON 1.3 W Power off condition 0.5 W Plasma Display panel Drive method: AC type 103-inch, 16:9 aspect ratio Screen size 89.5” (2,269 mm) (W) × 50.5” (1,277 mm) (H) × 103” (2,604 mm) (diagonal) (No. of pixels) 2,073,600 (1,920 (W) × 1,080 (H)) [5,760 × 1,080 dots] Operating condition Temperature 32 °F - 104 °F (0 °C - 40 °C) Humidity 20 % - 80 % Applicable signals Color System NTSC, PAL, PAL60, SECAM, Modified NTSC Scanning format 525 (480) / 60i 60p, 625 (575) / 50i 50p, 750 (720) / 60p 50p, 1125 (1080) / 60i 60p 50i 50p 24p 25p 30p 24sF .... SMPTE274M, 1250 (1080) / 50i PC signals VGA, SVGA, XGA, SXGA, UXGA ..... (compressed) Horizontal scanning frequency 15 - 110 kHz Vertical scanning frequency 48 - 120 Hz Connection terminals DVI-D Video Input DVI-D 24 Pin × 1 compliance with DVI Revision 1.0 Audio Input Stereo mini jack (M3) × 1 0.5Vrms Content Protection Compatible with HDCP 1.1 COMPONENT / RGB Y / G (BNC) Y or G with / sync 1.0 Vp-p (75-ohm) ORDER NO. ITD0610074CE B34 Canada:D10
Transcript of Panasonic Th-103pf9uk Th-103pf9ek Ch Gpf9d
© 2006 Matsushita Electric Industrial Co., Ltd. Allrights reserved. Unauthorized copying anddistribution is a violation of law.
TH-103PF9UKTH-103PF9EKGPF9D Chassis
High Definition Plasma Display
SpecificationsPower Source (UK) 240 V AC, 50 / 60Hz
Power Source (EK) 220 V - 240 V AC, 50 / 60Hz
Power ConsumptionPower on (UK) 1,550 W
Power on (EK) 1,500 W
Stand-by condition Save OFF 1.5 W, Save ON 1.3 W
Power off condition 0.5 W
Plasma Display panel Drive method: AC type 103-inch, 16:9 aspect ratio
Screen size 89.5” (2,269 mm) (W) × 50.5” (1,277 mm) (H) × 103” (2,604 mm) (diagonal)
(No. of pixels) 2,073,600 (1,920 (W) × 1,080 (H)) [5,760 × 1,080 dots]
Operating conditionTemperature 32 °F - 104 °F (0 °C - 40 °C)
Humidity 20 % - 80 %
Applicable signalsColor System NTSC, PAL, PAL60, SECAM, Modified NTSC
Scanning format 525 (480) / 60i 60p, 625 (575) / 50i 50p, 750 (720) / 60p 50p, 1125 (1080) / 60i 60p 50i 50p24p 25p 30p 24sF .... SMPTE274M, 1250 (1080) / 50i
PC signals VGA, SVGA, XGA, SXGA,
UXGA ..... (compressed)
Horizontal scanning frequency 15 - 110 kHz
Vertical scanning frequency 48 - 120 Hz
Connection terminalsDVI-D Video Input DVI-D 24 Pin × 1
compliance with DVI Revision 1.0
Audio Input Stereo mini jack (M3) × 1
0.5Vrms
Content Protection Compatible with HDCP 1.1
COMPONENT / RGB Y / G (BNC) Y or G with / sync 1.0 Vp-p (75-ohm)
ORDER NO. ITD0610074CEB34 Canada:D10
1 Applicable signals 4 2 Safety Precautions 5
2.1. General Guidelines 5
3 Prevention of Electro Static Discharge (ESD) toElectrostatically Sensitive (ES) Devices 6
4 About lead free solder (PbF) 7 5 Service Hint 8 6 Disassembly 10
6.1. Rear Cover and Board 10
6.2. Location of Rear Cover screws 11
6.3. Removal of Side Angle (L), (R) 14
6.4. Removal of HA-Board 15
6.5. Removal of HDD-Board 15
6.6. Removal of DS-Board 15
6.7. Removal of HX-Board 16
6.8. Removal of DN-Board 17
6.9. Removal of PB-Board 17
6.10. Removal of H5-Board 17
6.11. Removal of D-Board 18
6.12. Removal of P-Board (MULTI_1), (MULTI_2) 18
6.13. Removal of P-Board (SUS_1), (SUS_2) 19
6.14. Removal of F-Board 19
6.15. Removal of PC-Board 19
6.16. Removal of SU-Board 20
6.17. Removal of SM-Board 21
6.18. Removal of SD-Board 21
6.19. Removal of SC-Board 22
6.20. Removal of SC2-Board 22
PB / B (BNC), PR / R (BNC) 0.7 Vp-p (75-ohm)
AUDIO IN (RCA PIN JACK × 2) 0.5 Vrms
PC (HIGH-DENSITY Mini D-SUB 15PIN) Y or G with / sync 1.0 Vp-p (75-ohm)
Y or G without / sync 0.7 Vp-p (75-ohm)
B / PB / CB:0.7 Vp-p (75-ohm)
R / PR / CR:0.7 Vp-p (75-ohm)
HD / VD:1.0 - 5.0 Vp-p (high impedance)
VBS (use HD port) with / picture 1.0 Vp-p (high impedance)
without / picture 0.3 Vp-p (high impedance)
AUDIO IN (M3 JACK) 0.5 Vrms
SERIAL EXTERNAL CONTROL TERMINAL (D-SUB 9PIN) RS-232C COMPATIBLE
AUDIO OUT RCA PIN JACK × 2 (L / R)
OUTPUT LEVEL : VARIABLE (- - 0 dB)
[INPUT 1KHz / 0dB, 10Kohm Load]
Accessories SuppliedRemote Control Transmitter(UK)
EUR7636070R
Remote Control Transmitter(EK)
EUR7636090R
Batteries (UK) 2 × AA Size
Batteries (EK) 2 × R6 Size
Fixing bands (TMME203 or TMME187) × 2
Dimensions (W × H × D) 95.0” (2,414 mm) × 56.0” (1,421 mm) × 5.0” (129 mm) (141 mm when including protruding portion ofslots)
Mass (weight)main unit only (UK) approx. 485.0 lbs
main unit only (EK) approx. 220.0 kg net
Notes: · Design and specifications are subject to change without notice. Mass and dimensions shown are approximate.
· This equipment complies with the EMC standards listed below. EN55022, EN55024, EN61000-3-2, EN61000-3-3. (TH-103PF9EK)
CONTENTS Page Page
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6.21. Removal of S1-Board 23
6.22. Removal of SS2-Board 23
6.23. Removal of SS3-Board 24
6.24. Removal of SS-Board 24
6.25. Removal of Fan 25
6.26. Removal of C1-Board 26
6.27. Removal of C2-Board 26
6.28. Removal of C3-Board 27
6.29. Removal of C4-Board 28
6.30. Removal of C5-Board 28
6.31. Removal of C6-Board 29
6.32. Removal of C7-Board 30
6.33. Removal of C8-Board 30
6.34. Removal of C9-Board 30
6.35. Removal of CX-Board 31
6.36. Removal of CY-Board 32
6.37. Removal of CZ-Board 32
6.38. Removal of DR1-Board (A) 33
6.39. Removal of DR1-Board (B) 33
6.40. Removal of DR2-Board (A) 34
6.41. Removal of DR2-Board (B) 34
6.42. Removal of CD-Board 34
6.43. Removal of AC Inlet 36
6.44. Removal of Escutcheon and Front Glass 36
6.45. Removal of V1-Board and V3-Board 39
7 Removal of Plasma Panel 40 8 Location Lead Wiring 47
8.1. Lead Wiring (1) 47
8.2. Lead Wiring (2) 48
8.3. Lead Wiring (3) 49
8.4. Lead Wiring (4) 50
8.5. Lead Wiring (5) 51
8.6. Lead Wiring (6) 52
8.7. Lead Wiring (7) 53
8.8. Lead Wiring (8) 54
8.9. Lead Wiring (9) 55
9 Adjustment Procedure 56 9.1. Driver Set-up 56
9.2. Initialization Pulse Adjust 57
9.3. P.C.B. (Printed Circuit Board) Replacement 58
9.4. Adjustment Volume Location 59
9.5. Test Point Location 59
10 Service mode 60 10.1. CAT (computer Aided Test) mode 60
10.2. IIC mode structure (following items value is sample data)
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11 Adjustment 65
11.1. RGB white balance adjustment 65
11.2. HD white balance adjustment 67
11.3. Power control adjustment 69
12 Troubleshooting guide 70 12.1. Self Check 70
12.2. No Power 72
12.3. No Picture 72
12.4. Local screen failure 73
13 Option Setting 74 14 Interconnection and Block Diagram 77
14.1. Diagram Note 77
14.2. Interconnection (1 of 8) Diagram 78
14.3. Interconnection (2 of 8) Diagram 79
14.4. Interconnection (3 of 8) Diagram 80
14.5. Interconnection (4 of 8) Diagram 81
14.6. Interconnection (5 of 8) Diagram 82
14.7. Interconnection (6 of 8) Diagram 83
14.8. Interconnection (7 of 8) Diagram 84
14.9. Interconnection (8 of 8) Diagram 85
14.10. Main (1 of 2) Block Diagram 86
14.11. Main (2 of 2) Block Diagram 87
14.12. P-Board (1 of 2) and F-Board Block Diagram 88
14.13. P-Board (2 of 2) Block Diagram 89
14.14. HA, HX, PC, PB, V1, V2 and V3-Board Block Diagram 90
14.15. HDD-Board Block Diagram 91
14.16. DS-Board (1 of 2) and H3-Board Block Diagram 92
14.17. DS-Board (2 of 2) Block Diagram 93
14.18. DN-Board (1 of 3) Block Diagram 94
14.19. DN-Board (2 of 3) Block Diagram 95
14.20. DN-Board (3 of 3) Block Diagram 96
14.21. D-Board (1 of 2) Block Diagram 97
14.22. D-Board (2 of 2) Block Diagram 98
14.23. C1, C2, CY and CZ-Board Block Diagram 99
14.24. C2, C3, CX and CY-Board Block Diagram 100
14.25. C4, C5, C8 and C9-Board Block Diagram 101
14.26. C5, C6, C7 and C8-Board Block Diagram 102
14.27. SC2 and S1-Board Block Diagram 103
14.28. SC-Board Block Diagram 104
14.29. SU, SM and SD-Board Block Diagram 105
14.30. SS, SS2 and SS3-Board Block Diagram 106
14.31. DR1, DR2 and CD-Board Block Diagram 107
15 Parts Location 109 15.1. Exploded View 109
15.2. Cable and Fan 112
15.3. Board and Fuse 112
15.4. Packing summary 113
16 Replacement Parts List 120
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1 Applicable signals
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2.1.1. Leakage Current Cold Check 1. 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 cabinetpart on the equipment such as screwheads, connectors,control shafts, etc. When the exposed metallic part has areturn path to the chassis, the reading should be between1MΩ and 5.2MΩ.When the exposed metal does not have a return path to
the chassis, the reading must be .
Figure 1
2.1.2. Leakage Current Hot Check (SeeFigure 1.)
1. Plug the AC cord directly into the AC outlet. Do not use anisolation transformer for this check.
2. Connect a 1.5kΩ, 10 watts resistor, in parallel with a 0.15µFcapacitors, between each exposed metallic part on the setand a good earth ground such as a water pipe, as shown inFigure 1.
3. Use an AC voltmeter, with 1000 ohms / volt or moresensitivity, to measure the potential across the resistor.
4. Check each exposed metallic part, and measure thevoltage at each point.
5. Reverse the AC plug in the AC outlet and repeat each of theabove measurements.
6. The potential at any point should not exceed 0.75 voltsRMS. A leakage current tester (Shimpson Model 229 orequivalent) may be used to make the hot checks, leakagecurrent must not exceed 1 / 2 milliamp. In case ameasurement is outside of the limits specified, there is apossibility of a shock hazard, and the equipment should berepaired and rechecked before it is returned to thecustomer.
2 Safety Precautions2.1. General Guidelines 1. 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. 2. After servicing, see to it that all the protective devices such as insulation barriers, insulation papers shields are properly
installed. 3. After servicing, make the following leakage current checks to prevent the customer from being exposed to shock hazards.
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3 Prevention of Electro Static Discharge (ESD) toElectrostatically Sensitive (ES) Devices
Some semiconductor (solid state) devices can be damaged easily by static electricity. Such components commonly are calledElectrostatically 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 electro static 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 asaluminum 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 Remove device. Some solder Remove 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 comparableconductive 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 hamless 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 todamage an ES device).
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4 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’dsuggest 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 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 Pbsolder. 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 ontothe 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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5 Service Hint
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Board Name Function Board Name FunctionD Digital Signal Processor,
Format Converter,Plasma AI ProcessorSub-Field Processor
CX Data Drive (X)CY Data Drive (Y)CZ Data Drive (Z)H5 Audio Out
DS Slot Interface (Audio / Video / Sync InputSwitch),SYNC Processor, Audio Processor,Speaker Out Amplifier,DC-DC Converter
S1 Power SwitchSS2 Sustain Out (Upper)SS3 Sustain Out (Lower)V1 LED_G, R
SS Sustain Drive V2 Key ScanSC Scan Drive V3 Remocon ReceiverSC2 DC-DC Converter For Scan Drive PB Fan ControlSU Scan Out (Upper) P(SUS_1/2) Power SupplySM Scan Out (Middle) P(MULTI_1/2) Power SupplySD Scan Out (Lower) F Line FilterC1 Data Drive (1) PC Power ControlC2 Data Drive (2) HX PC / RS-232CC3 Data Drive (3) HA BNC Component VideoC4 Data Drive (4) DN Digital Signal Processor, MiconC5 Data Drive (5) HDD DVI-D TerminalC6 Data Drive (6) CD C-Board / D-Board ConnectionC7 Data Drive (7) DR1 Energy Data RecoveryC8 Data Drive (8) DR2 Energy Data RecoveryC9 Data Drive (9)
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6 Disassembly6.1. Rear Cover and Board
Rear Cover required to remove for each board exchange.Board Name Rear Cover
D-Board DDS-Board BSS-Board FSC-Board A , B , CSC2-Board A , CSU-Board ASM-Board ASD-Board AC1-Board AC2-Board A , BC3-Board B , DC4-Board B , DC5-Board D , FC6-Board FC7-Board FC8-Board E , FC9-Board C , ECX-Board C , ECY-Board A , CCZ-Board AH5-Board BS1-Board ASS2-Board FSS3-Board FV1-Board A , B , C , D , E , FV2-Board AV3-Board A , B , C , D , E , FPB-Board BP-Board (MULTI_1) EP-Board (SUS_1) E
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6.2. Location of Rear Cover screws
Board Name Rear CoverP-Board (MULTI_2) CP-Board (SUS_2) CF-Board EPC-Board DHX-Board BHA-Board BDN-Board BHDD-Board BCD-Board (A) BCD-Board (B) DCD-Board (C) DCD-Board (D) DCD-Board (E) DCD-Board (F) BDR1-Board (A) ADR1-Board (B) FDR2-Board (A) ADR2-Board (B) F
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6.2.1. Removal of Rear Cover ( A )Remove the hooks and then remove 2 Covers.
(Note)Be careful not to break the hooks.
1. Remove screws (×21 , ×2 ) and then remove the RearCover ( A ).
6.2.2. Removal of Rear Cover ( B ) 1. Remove screws (×21 , ×9 ) and then remove the Rear
Cover ( B ).Tighten screw first in order of , and whenmounting the Rear cover B .
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6.2.3. Removal of Rear Cover ( C ) 1. Remove screws (×19 ) and then remove the Rear Cover
( C ).Tighten the screw first in order of and whenmounting the Rear Cover C .
6.2.4. Removal of Rear Cover ( D ) 1. Remove screws (×21 ) and then remove the Rear Cover
( D ).Tighten screw first in order of and when mountingthe Rear cover D .
6.2.5. Removal of Rear Cover ( E ) 1. Remove screws (×25 ) and then remove the Rear Cover
( E ).Tighten screw first in order of and when mountingthe Rear cover E .
6.2.6. Removal of Rear Cover ( F )Remove hooks and then remove 2 Covers.
(Note)Be careful not to break the hooks.
1. Remove screws (×21 ) and then remove the Rear Cover( F ).
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6.3. Removal of Side Angle (L), (R) 1. Remove Side Angle (L), (R) beforehand when remove the
following Boards.
Board name Side AngleSU-Board Side Angle (R)SM-Board Side Angle (R)SD-Board Side Angle (R)SC-Board Side Angle (R)C1-Board Side Angle (R)CZ-Board Side Angle (R)
SS2-Board Side Angle (L)SS3-Board Side Angle (L)SS-Board Side Angle (L)C6-Board Side Angle (L)C7-Board Side Angle (L)
6.3.1. Removal of Side Angle (L) 1. Remove 4 screws (G) of the Plate.
2. Remove 19 screws and then remove the Side Angle (L).
6.3.2. Removal of Side Angle (R) 1. Remove 4 screws and then remove the Customer Control
Unit. 2. Disconnect a connector (S34).
3. Remove 4 screws (F) of the Plate.
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4. Remove 19 screws and then remove the Side Angle (R).
6.4. Removal of HA-Board 1. Remove 4 screws (H) and then pull HA-Terminal Block out
to forward. 2. Remove 4 screws (J) and remove Shield Plate. 3. Remove 2 screws (K) and then remove HA-Board.
6.5. Removal of HDD-Board 1. Remove 4 screws (L) and then pull HDD-Terminal Block out
to forward. 2. Remove 4 screws (M) and remove Shield Plate. 3. Remove 2 Hexagonal-Head screws (N) and then remove
HDD-Board.
6.6. Removal of DS-Board
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1. Disconnect the connectors (DS1, DS2, DS4, DS6, DS7,DS8, DS9, DS10, DS14, DS15, DS30).
2. Remove 4 screws and then remove the Slot Block Case.
3. Remove 8 screws and then remove DS-Board.
6.7. Removal of HX-Board
1. Remove the HA Terminal Block and the HDD TerminalBlock.(Refer to Removal of HA-Board and HDD-Board)
2. Remove 4 screws and then remove the Slot Block Case.(Refer to Removal of DS-Board)
3. Remove 4 Hexagonal-Head screws (P) and 2 screws onHX-Board, and then remove HX-Board.
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6.8. Removal of DN-Board
1. Remove the flexible cables from the connectors (DN1,DN6).
2. Disconnect the connectors (DN2, DN3, DN51). 3. Remove 4 screws and then remove DN-Board.
6.9. Removal of PB-Board
1. Disconnect the connectors (PB30, PB31, PB51, PB53,PB54, PB56, PB59, PB61, PB62, PB64, PB66, PB69,PB71).
2. Remove 4 screws and then remove PB-Board.
6.10. Removal of H5-Board
1. Disconnect a connector (H51). 2. Remove 2 screws and then remove H5-Board Block.
3. Remove 3 screws (Q) and then remove H5-Board.
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6.11. Removal of D-Board
1. Remove the flexible cables from the connectors (D31, D32,D33, D34, D35, D36).
2. Disconnect the connectors (D3, D5, D20, D25). 3. Remove 4 screws and then remove D-Board.
6.12. Removal of P-Board(MULTI_1), (MULTI_2)
The fuses are not included in P-Board for the repair. 1. Disconnect the connectors (P5, P12, P25, P51, P53, P55). 2. Remove 9 screws and then remove P-Board (MULTI_1).
3. Disconnect the connectors (P5, P10, P12, P23, P25, P51,P53, P55).
4. Remove 9 screw and then remove P-Board (MULTI_1).
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6.13. Removal of P-Board (SUS_1),(SUS_2)
The fuses are not included in P-Board for the repair. 1. Disconnect the connectors (P2, P9, P52, P54, P56). 2. Remove 10 screws and then remove P-Board (SUS_1).
3. Disconnect the connectors (P2, P9, P11, P52, P54, P56). 4. Remove 10 screws and then remove P-Board (SUS_2).
6.14. Removal of F-Board
The fuses (F900, F901, F903, F904) are not included in F-Board for the repair. 1. Disconnect the connectors (F1, F8, F9). 2. Remove 2 screws and then remove F-Board.
6.15. Removal of PC-Board 1. Disconnect the connectors (PC201, PC202, PC203,
PC204, PC205). 2. Remove 2 screws and then remove PC-Board.
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6.16. Removal of SU-Board
1. Remove the Side Angle (R).(Refer to Removal of the Side Angle (L), (R) )
2. Remove 6 screws and then remove the ReinforcementAngle (A).
3. Disconnect the Fan relay couplers. 4. Remove 4 screws and then remove the Fan Block (A), (B).
5. Remove the flexible cables from the connectors (SU1, SU2,SU3, SU4).
6. Disconnect the connectors (SU45, SU55).
7. Remove 9 screws. 8. Slide the SU-Board to the upper direction to remove the
SU-Board from the connectors (SU41, SU42).Take out so as not to damage SU-Board.
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9. Remove SU-Board.
6.17. Removal of SM-Board
1. Remove 2 screws and then remove the Fan Block (A).
2. Remove the flexible cables from the connectors (SM1,SM2, SM3, SM4).
3. Disconnect the connectors (SM50, SM51, SM55, SM56).
4. Remove 8 screws. 5. Slide SM-Board to the left direction to remove SM-Board
from the connectors (SC43, SC46).
6. Remove SM-Board.
6.18. Removal of SD-Board
1. Remove 6 screws and then remove the ReinforcementAngle (B).
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2. Remove the flexible cables from the connectors (SD1, SD2,SD3, SD4).
3. Disconnect the connectors (SD52, SD56).
4. Remove 9 screws. 5. Slide SD-Board to the bottom direction to remove SD-Board
from the connectors (SC47, SC48).Take out so as not damage SD-Board.
6. Remove SD-Board.
6.19. Removal of SC-Board
1. Remove SU-Board.(Refer to Removal of SU-Board)
2. Remove SM-Board.(Refer to Removal of SM-Board)
3. Remove SD-Board.(Refer to Removal of SD-Board)
4. Disconnect the connectors (SC2, SC20, SC23, SC80,SC81).
5. Remove 16 screws and then remove SC-Board.
6.20. Removal of SC2-Board
1. Disconnect the connectors (SC12, SC13, SC14, SC34,SC80, SC81, SC82).
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2. Remove 4 screws and then remove SC2-Board.
6.21. Removal of S1-Board
1. Remove the Customer Control Unit.(Reference to Removal of the Side Angle (L), (R))
2. Remove 2 screws (R). 3. Remove 1 screw (S). 4. Disconnect a connector (S34) and then remove S1-Board.
6.22. Removal of SS2-Board
1. Remove the Side Angle (L).(Refer to Removal of the Side Angle (L))
2. Remove 6 screws and then remove the ReinforcementPlaste (E).
3. Remove the flexible cables from the connectors (SS51,SS52, SS53, SS54).
4. Disconnect the connectors (SS29, SS30, SS31, SS32). 5. Remove 6 screws and then remove SS2-Board.
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6.23. Removal of SS3-Board
1. Remove the Side Angle (L).(Refer to Removal of Side Angle (L))
2. Disconnect the relay connector of the Speaker Terminal (L). 3. Remove 6 screws and then remove the Reinforcement
Plate (F).
4. Remove the flexible cables from the connectors (SS59,SS60, SS61, SS62).
5. Disconnect the connectors (SS36, SS37, SS38, SS39). 6. Remove 6 screws and then remove SS3-Board.
6.24. Removal of SS-Board
1. Remove the Side Angle (L).(Refer to Removal of Side Angle (L))
2. Remove 4 screws and then remove the Fan Block (F), (G).
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TH-103PF9UK / TH-103PF9EK
3. Remove the flexible cables from the connectors (SS55,SS56, SS57, SS58).
4. Disconnect the connectors (SS2, SS12, SS21, SS22,SS23, SS24, SS25, SS26, SS27, SS28, SS35, SS42,SS44).
5. Remove 13 screws and then remove SS-Board.
6.25. Removal of Fan 1. Disconnect the Fan relay connector. 2. Remove each 4 screws of Fan Block (A), (B), (C), (D), (E),
(F), (G), (H), (J), (K) and then remove the Fan Blocks.
3. Remove each screws and then remove Fans.
Note: · The Sponge (of Fans) is not re-useable.
Please use a new one when Fan exchange.
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6.26. Removal of C1-Board
1. Remove the Side Angle (R).(Refer to Removal of Side Angle (R))
2. Remove the Reinforcement Angle (A).(Refer to Removal of SU-Board)
3. Remove 4 screws of the flexible cable. 4. Disconnect the coupler (C14). 5. Remove the flexible cables from the connectors (CA1, CA2,
C11).
6. Remove 4 screws and then remove C1-Board.
6.27. Removal of C2-Board
1. Remove 5 screws and then remove the Rear Cover Angle(A).
2. Remove the Reinforcement Angle (A).(Refer to Removal of C1-Board)
3. Remove 6 screws of the flexible cable. 4. Remove the flexible cables from the connectors (CA3, CA4,
CA5, C20, C21, C23). 5. Disconnect the connectors (C22, C24).
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6. Remove 6 screws and then remove C2-Board.
6.28. Removal of C3-Board
1. Remove 5 screws and then remove the Rear Cover Angle(C).
2. Remove 6 screws and then remove the ReinforcementAngle (C).
3. Remove 6 screws of the flexible cable. 4. Remove the flexible cables from the connectors (CA6, CA7,
CA8, C31, C32). 5. Disconnect a connector (C34).
6. Remove 5 screws and then remove C3-Board.
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6.29. Removal of C4-Board
1. Remove 5 screws and then remove the Rear Cover Angle(C).(Refer to Removal of C3-Board)
2. Remove 6 screws and then remove the ReinforcementAngle (C).(Refer to Removal of C3-Board)
3. Remove the 6 screws of the flexible cable. 4. Remove the flexible cables from the connectors (CA9,
CA10, CA11, C40, C41, C42). 5. Disconnect the connectors (C43, C44).
6. Remove 5 screws and then remove C4-Board.
6.30. Removal of C5-Board
1. Remove 8 screws ( ) and then remove the Fan Block (C),(D).
2. Remove 5 screws ( ) and then remove the Rear CoverAngle (E).
3. Remove 6 screws and then remove the ReinforcementAngle (E).
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4. Remove 6 screws of the flexible cable. 5. Remove the flexible cables from the connectors (CA12,
CA13, CA14, C50, C51, C53). 6. Disconnect the connectors (C52, C54).
7. Remove 6 screws and then remove C5-Board.
6.31. Removal of C6-Board
1. Remove the Side Angle (L).(Refer to Removal of Side Angle (L))
2. Remove the Fan Block (D).(Refer to Removal of Fan)
3. Remove the Reinforcement Angle (E).(Refer to Removal of C5-Board)
4. Remove 4 screws of the flexible cable. 5. Remove the flexible cables from the connectors (CA15,
CA16, C61). 6. Disconnect the connector (C64).
7. Remove 4 screws and then remove C6-Board.
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6.32. Removal of C7-Board
1. Remove the Side Angle (L).(Refer to Removal of the Side Angle (L))
2. Remove the Reinforcement Angle (F).(Refer to Removal of SS3-Board)
3. Remove 4 screws of the flexible cable. 4. Remove the flexible cables from the connectors (CB15,
CB16, C71). 5. Disconnect the connector (C74).
6. Remove 4 screws and then remove C7-Board.
6.33. Removal of C8-Board
1. Remove 6 screws of the flexible cable. 2. Remove the flexible cables from the connectors (CB12,
CB13, CB14, C80, C81, C83). 3. Disconnect the connectors (C82, C84, C88).
4. Remove 6 screws and then remove C8-Board.
6.34. Removal of C9-Board
1. Remove 5 screws and then remove the Rear Cover Angle
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TH-103PF9UK / TH-103PF9EK
(D).
2. Remove 6 screws and then remove the ReinforcementAngle (D).
3. Remove 6 screws of the flexible cable. 4. Remove the flexible cables from the connectors (CB9,
CB10, CB11, C90, C91, C93). 5. Disconnect the connectors (C92, C94).
6. Remove 5 screws and then remove C9-Board.
6.35. Removal of CX-Board
1. Remove the Rear Cover Angle (D).(Refer to Removal of C9-Board)
2. Remove the Reinforcement Angle (D).(Refer to Removal of C9-Board)
3. Remove 6 screws of the flexible cable. 4. Remove the flexible cables from the connectors (CB6, CB7,
CB8, CX1, CX2). 5. Disconnect a connector (CX4).
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6. Remove 5 screws and then remove CX-Board.
6.36. Removal of CY-Board
1. Remove the Reinforcement Angle (B).(Refer to Removal of SD-Board)
2. Remove 6 screws of the flexible cable. 3. Remove the flexible cables from the connectors (CB3, CB4,
CB5, CY0, CY1, CY3). 4. Disconnect the connectors (CY2, CY4).
5. Remove 6 screws and then remove CY-Board.
6.37. Removal of CZ-Board
1. Remove the Side Angle (R).(Refer to Removal of Side Angle (R))
2. Remove the Reinforcement Angle (B).(Refer to Removal of SD-Board)
3. Remove 4 screws of the flexible cable. 4. Disconnect the connector (C4). 5. Remove the flexible cables from the connectors (CB1, CB2,
CZ1).
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6. Remove 4 screws and then remove CZ-Board.
6.38. Removal of DR1-Board (A)
1. Remove 4 screws and then remove the Fan Block (B).
2. Disconnect the connectors (DR1, DR2, DR3, DR4, DR5).
3. Remove 5 screws and then remove the DR1-Board (A).
6.39. Removal of DR1-Board (B)Attaching short jumper to connector (DR6).Attach Short Jumper to the connector (DR6) when replacingDR1-Board.
1. Disconnect the connectors (DR1, DR2, DR3, DR4, DR5). 2. Remove 5 screws and then remove DR1-Board (B). 3. Remove Short Jumper attaching to the connector (DR6) on
DR1-Board you removed and attach it to the connector(DR6).
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6.40. Removal of DR2-Board (A)
1. Disconnect the connectors (DR11, DR12, DR13, DR14,DR15).
2. Remove 5 screws and then remove DR2-Board (A).
6.41. Removal of DR2-Board (B)Attaching short jumper to connector (DR16).Attach Short Jumper to the connector (DR16) when replacingDR2-Board.
1. Disconnect the connectors (DR11, DR12, DR13, DR14,DR15).
2. Remove 5 screws and then remove DR2-Board (B). 3. Remove Short Jumper attaching to the connector (DR16)
on DR2-Board you removed and attach it to the connector(DR16).
6.42. Removal of CD-Board
6.42.1. Removal of CD-Board (A) 1. Remove the flexible cables from the connectors (CD1,
CD2). 2. Remove 2 screws and then remove CD-Board (A).
6.42.2. Removal of CD-Board (B) 1. Remove the flexible cables from the connectors (CD1,
CD2).
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2. Remove 2 screws and then remove CD-Board (B).
6.42.3. Removal of CD-Board (C) 1. Remove the flexible cables from the connectors (CD1,
CD2). 2. Remove 2 screws and then remove CD-Board (C).
6.42.4. Removal of CD-Board (D) 1. Remove the Fan Block (H).
(Refer to Removal of the Fan) 2. Remove the flexible cables from the connectors (CD1,
CD2). 3. Remove 2 screws and then remove CD-Board (D).
6.42.5. Removal of CD-Board (E) 1. Remove 2 screws and then remove the Angle.
2. Remove the flexible cables from the connectors (CD1,CD2).
3. Remove 2 screws and then remove CD-Board (E).
6.42.6. Removal of CD-Board (F) 1. Remove the Fan Block (F).
(Refer to Removal of Fan) 2. Remove the flexible cables from the connectors (CD1,
CD2). 3. Remove 2 screws and then remove CD-Board (F).
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6.43. Removal of AC Inlet 1. Disconnect a connector (F1). 2. Remove 3 screws and then remove the AC-Inlet.
6.44. Removal of Escutcheon andFront Glass
6.44.1. Removal of Front Glass 1. Remove 4 screws and then remove the Customer Control
Unit. 2. Disconnect a connector (S34).
3. Disconnect a connector (DS15). 4. Remove 36 screws and then remove the Escuchon with
front glass.
(Note) · When removing the Escutcheon with Front
Glass, take care not to damage the flexible cableof the Plasma Panel circumference.
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TH-103PF9UK / TH-103PF9EK
5. Remove 26 screws ( ) (left and right side) and 18 screws( ) (top and bottom side) and then remove the FixedAngles (A), (B), (C), (D).
6. Remove the Front Glass.
(Note) · When removing the Front Glass from Escutcheon,
there is a risk of the glass center bending damage. · Be sure to lift the instruction six positions of the
figure, when remove the Front Glass.
Note: When replacing the Front Glass · The sponges for the Front Glass cannot be recycled. · When replacing the Front Glass, use the new sponges.
6.44.2. Removal of Escutcheon (A) 1. Remove 9 screws ( ) and then remove the Fixed Angles
(A).
2. Remove each 5 screws ( ). 3. Remove each 2 screws ( ) and then remove the
Connection Angles (A), (AS), (B), (BS).
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6.44.3. Removal of Escutcheon (B) 1. Remove 9 screws ( ) and then remove the fixed Angles
(B).
2. Remove each 5 screws ( ). 3. Remove each 2 screws ( ) and then remove the
Connection Angles (A), (AS), (B), (BS).
6.44.4. Removal of Escutcheon (C) 1. Remove 13 screws and then remove the fixed Angles (C).
2. Remove each 5 screws ( ) 3. Remove each 2 screws ( ) and then remove the
Connection Angles (A), (AS), (B), (BS).
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6.44.5. Removal of Escutcheon (D) 1. Remove 13 screws and then remove the fixed Angles (D).
2. Remove each 5 screws ( ). 3. Remove each 2 screws ( ) and then remove the
Connection Angles (A), (AS), (B), (BS).
6.45. Removal of V1-Board and V3-Board
1. Remove 1 screw (T) and then remove V1-Board. 2. Remove 1 screw (U) and then remove V3-Board.
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7 Removal of Plasma Panel 1. Remove the Rear Covers.
(Refer to Removal of Rear Cover.) 2. Remove 4 screws and then remove the Customer Control
Unit. 3. Disconnect a connector (S34).
4. Disconnect a connector (DS15). 5. Remove 36 screws and then remove Escuchon with front
glass.(Refer to Removal of Escutcheon.)
6. Remove 4 screws (F) of the Plate.
7. Remove 4 screws ( ) and then remove the Angles. 8. Remove each 3 screws ( ) and then remove the Rear
Cover Angle (B), (C).
9. Disconnect the each Fan relay connectors. · Remove each 2 screws and then remove the Fan
Blocks (A), (B). · Remove each 4 screws and then remove the Fan
Blocks (C), (D), (E), (F), (G), (H), (J), (K).
10. Disconnect the connectors (D3, D5, D20, D25). 11. Remove the flexible cables from the connectors (D31, D32,
D33, D34, D35, D36). 12. Remove each 4 screws ( ) and then remove the Core
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Holder (upper), (bottom). 13. Remove 4 screws ( ) and then remove D-Board.
14. Remove the flexible cables from the connectors (DN1,DN6).
15. Disconnect the connectors (DN2, DN3, DN51). 16. Remove 4 screws and then remove DN-Board Block.
17. Disconnect the connectors (DS2, DS4, DS7, DS8, DS10,DS15, DS30).
18. Remove 5 screws and then remove the Slot Block.
19. Remove 2 screws and then remove H5-Board Block. 20. Disconnect a connector (H51).
21. Disconnect the connectors (DR1, DR2, DR3, DR4, DR5). 22. Remove 5 screws and then remove DR1-Board (A).
23. Disconnect the connectors (DR11, DR12, DR13, DR14,
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DR15). 24. Remove 5 screws and then remove DR2-Board (A).
25. Disconnect the connectors (P2, P5, P9, P12, P25, P51,P53, P55).
26. Remove 19 screws and then remove P-Board (MULT_1),(SUS_1).
27. Disconnect the connectors (P2, P5, P9, P10, P11, P12,P23, P25, P51, P53, P55).
28. Remove 19 screws and then remove P-Board (MULT_2),(SUS_2).
29. Disconnect the connectors (SC12, SC13, SC14, SC34,SC80, SC81, SC82).
30. Remove 4 screws and then remove SC2-Board.
31. Remove each 1 screw and then remove the FlexibleHolders (3 places).
32. Remove 4 screws and then remove the Fixed Angle (shapeof L).
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33. Disconnect a connector (C20) connected with C2-Board. 34. Remove 2 screws and then remove CD-Board (A).
35. Remove each 1 screw of the Flexible Holder and thenremove the Flexible Holders (4 places).
36. Remove 6 screws and then remove the Fixed Angle.
37. Disconnect a connector (CY0) connected with CY-Board. 38. Remove 2 screws and then remove CD-Board (F).
39. Disconnect the connectors (F1, F8, F9). 40. Remove 2 screws and then remove F-Board.
41. Remove each 1 screw and then remove the FlexibleHolders (4 places).
42. Remove the flexible cables from the connectors (C40, C50).
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43. Remove 4 screws and then remove CD-Board (B), (C).
44. Remove each 1 screw ( ) and then remove the FlexibleHolders (6 places).
45. Remove each 6 screws ( ) and then remove the FixedAngles (2 places).
46. Remove the flexible cables from the connectors (C80, C90). 47. Remove 4 screws and then remove CD-Board (D), (E).
48. Remove the connectors (PC201, PC202, PC203, PC204,PC205).
49. Remove 2 screws and then remove PC-Board.
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50. Remove the connectors (DR1, DR2, DR3, DR4, DR5). 51. Remove 5 screws and then remove DR1-Board (B).
52. Remove the connectors (DR11, DR12, DR13, DR14,DR15).
53. Remove 5 screws and then remove DR2-Board (B).
54. Remove 3 screws and then remove the AC-Inlet.
55. Remove the Plasma Panel.
(Note) · When replacing the Plasma Panel, use a hanging
device (machine) such as cranes, because the PlasmaPanel is too heavy.
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Structure of replacement Plasma Panel (Spare Parts)
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8 Location Lead Wiring8.1. Lead Wiring (1)
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8.2. Lead Wiring (2)
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8.3. Lead Wiring (3)
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8.4. Lead Wiring (4)
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8.5. Lead Wiring (5)
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8.6. Lead Wiring (6)
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8.7. Lead Wiring (7)
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8.8. Lead Wiring (8)
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8.9. Lead Wiring (9)
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9 Adjustment Procedure9.1. Driver Set-up
9.1.1. Item / Preparation 1. Set Aging pattern 0 (Vset adjustment pattern) by IIC mode. 2. Set the picture adjustment items as follows.
· Picture menu : Standard · Color temperature : Normal · Picture : 25 · Aspect : Full
Caution 1. First perform Vsus voltage adjustment. 2. Confirmation of Vscn voltage should be performed after confirmation of Vad voltage adjustment.
When Vad = -85V, Voltage of Vscn is 55V ± 4V.
9.1.2. AdjustmentsAdjust driver section voltages.(Refer to the panel data on the panel label)Check or adjust the following voltages with the multimeter.
Name Test Point Voltage Volume RemarksVsus TPVSUS (SS) Vsus ± 0.5V VR251 (P_SS side) *Vsus TPVSUS (SC) Vsus ± 0.5V VR251 (P_SC side) *Ve TPVE (SS) Ve ± 1V VR6000 (SS) *Ve2 TPVE2 (SS) 5 ± 1V (Fixed)Vad TPVAD (SC2) -85V ± 1V VR6600 (SC2)Vscn TPVSCN (SC2) Vad + 140 ± 4V VR6605 (SC2)Vset TPVSET (SC2) 240 ± 1V VR6604 (SC2)Vset2 TPVSET2 (SC) Vad + 8 + 1V, -0V VR6603 (SC)Vbk TPVBK (SC2) 150 ± 1V VR6351 (SC2)Vda TPVDA (DR1) 75 ± 1V (Fixed) (P_SC side)Vda TPVDA (DR2) 75 ± 1V (Fixed) (P_SC side)Vda TPVDA (DR1) 75 ± 1V (Fixed) (P_SS side)Vda TPVDA (DR2) 75 ± 1V (Fixed) (P_SS side)Vc TPVC (DR1) 45 ± 0.5V VR600 (DR1_SC)Vc TPVC (DR2) 45 ± 0.5V VR650 (DR2_SC)Vc TPVC (DR1) 34.5 ± 0.5V VR600 (DR1_SS) D6 connector
should beattached.
Vc TPVC (DR2) 34.5 ± 0.5V VR650 (DR2_SS) D16 connectorshould beattached.
*See the Panel label.
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9.2. Initialization Pulse Adjust 1. Set Aging pattern 0 (Vset adjustment pattern) by IIC mode. 2. Set the picture adjustment items as follows.
· Picture menu : Standard · Color temperature : Normal · Picture : 25 · Aspect : Full
3. Connect Oscilloscope to TPSC1 and adjust VR6601 for 190V ± 7V. 4. Connect Oscilloscope to TPSC1 (T2) and adjust VR6602 for 165 ± 10µ Sec.
Test point Volume LevelTPSC1 (SC) VR6601 (SC) 190V ± 7V
T2 TPSC1 (SC) VR6602 (SC) 165 ± 10µ Sec
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9.3. P.C.B. (Printed Circuit Board) Replacement9.3.1. Caution 1. To remove P.C.B., wait 1 minute after power was off for discharge from electrolysis capacitors.
9.3.2. Quick adjustment after P.C.B. Replacement.
Adjust the following voltages with the multimeter.
P.C.B. Name Test Point Voltage Volume RemarksP Board (SUS) Vsus TPVSUS (SS) Vsus ± 0.5V VR251 (P_SS side) *
Vsus TPVSUS (SC) Vsus ± 0.5V VR251 (P_SC side) *SC2 Board Vad TPVAD (SC2) -85V ± 1V VR6600 (SC2)
Vscn TPVSCN (SC2) Vad + 140V ± 4V VR6605 (SC2)Vset TPVSET (SC2) 240V ± 1V VR6604 (SC2)Vbk TPVBK (SC2) 150V ± 1V VR6351 (SC2)
SS Board Ve TPVE (SS) Ve ± 1V VR6000 (SS) *DR1 Board Vc TPVC (DR1) 45 ± 0.5V VR600 (SC side)
34.5 ± 0.5V VR600 (SS side) D6 connector shouldbe attached.
DR2 Board Vc TPVC (DR2) 45 ± 0.5V VR650 (SC side)34.5 ± 0.5V VR650 (SS side) D16 connector
should be attached.D, DS Board White balance and Sub brightness for NTSC, PAL, HD, PC and 625i signalsDN Board Set Market Select Number to correct destination by Ms mode (See chap. 10.1.4)
*See the Panel label.Caution:
Absolutely do not reduce Vsus voltage below Ve not to damage the P.C.B.
58
9.4. Adjustment Volume Location
9.5. Test Point Location
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10 Service mode10.1. CAT (computer Aided Test) mode
To exit the CAT mode, access the ID mode and switch off the main power.
10.1.1. IIC modeSelect the IIC mode by Up / Down button on the remote control at the front page of CAT mode and then press the Action buttonon the remote control.
Subject and item are mentioned on “IIC mode structure”.
To exit the IIC mode, press the R button on the remote control.
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10.1.2. CD modeSelect the CD mode by Up / Down button on the remote control at the front page of CAT mode and then press the Mute buttonon the remote control more than 5 seconds.
Micom software version (IC9702), this version can be upgrade by 1. replace of new version IC 2. Loading the new version software from loader tool, TZSC07036.Memory data change
To exit the CD mode, press the R button on the remote control.
10.1.3. SD modeSelect the SD mode by Up / Down button on the remote control at the front page of CAT mode and then press the Action buttonon the remote control.
To exit the SD mode, press the R button on the remote control.
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10.1.4. MS modeSelect the MS mode by Up / Down button on the remote control at the front page of CAT mode and then press the Mute buttonon the remote control more than 5 seconds.
To exit the MS mode, press the R button on the remote control.
Caution:Market Select should be set after exchange of DN-Board.
Destination numberNumber Destination Number Destination
0 Japan 14 Thailand (Hotel)1 North America 15 --2 Europe 16 Mexico3 Others 17 Mexico (Hotel)4 Britain 18 China5 Taiwan 19 China (Hotel)6 Thailand 20 --7 -- 21 --8 Japan (Hotel) 22 --9 North America (Hotel) 23 --
10 Europe (Hotel) 24 --11 Others (Hotel) 25 --12 Britain (Hotel) 26 --
Default settingNumber Destination
1 North America
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10.1.5. ID modeSelect the ID mode by Up / Down button on the remote control at the front page of CAT mode and then press the Mute buttonon the remote control more than 5 seconds.
To exit the ID mode, press the R button on the remote control.
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10.2. IIC mode structure (following items value is sample data)
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11 Adjustment11.1. RGB white balance adjustment
Instrument Name Connection Remarks · RGB VGA W / B pattern
· Color analyzer
(Minolta CA-100 or equivalent)
PC inputPanel surface
User setting: Normal(Picture menu: Standard)
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. Set COMPONET / RGB-IN SELECT to RGB.
2. Select the IIC mode “PANEL W / B Adj.” item.
3. Check that the color temperature is “COOL (High)”.
4. Output a white balance pattern.
5. Touch the signal receiver of color analyzer to the highlight window’s center.
6. Fix G drive at E0h and adjust B drive and R drive so x, y become the “Color temperatureHigh” in the below table.
7. Increase R / G / B together so the maximum drive value in R / G / B becomes FCh.
8. Set color temperature to “NORMAL (Medium)”.
9. Fix G drive at E0h and adjust B drive and R drive so the highlight window’s x, y becomesthe “Color temperature Medium” in the below table.
10. Increase R / G / B together so the maximum drive value in R / G / B becomes FCh.
11. Set color temperature to “WARM (Low)”.
12. Set G drive to E0h and adjust B drive and R drive so the highlight window’s x, y becomethe “Color temperature Low” shown in the below table.
13. Increase R / G / B together so the maximum drive value in R / G / B becomes FCh.
14. Copy the R drive, G drive and B drive data in NTSC, PAL DVI region.
Adjustment target
Hi-light: x ± 0.003 y ± 0.003
Hi-light is target of the number at drive adjustment in the hi-light windows.
Therefore, it is not target of the hi-light number at after adjustment white balance.
Picture Menu: StandardPicture: 25Aspect: FullPosition and size: Normal
· Highlight section Signal amplitude 75%
· Cutoff standard G: 80h
· Drive standard G: E0h
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11.2. HD white balance adjustmentInstrument Name Connection Remarks
· HD W / B pattern (COMPONENT Output)
· Color analyzer
(Minolta CA-100 or equivalent)
PC inputPanel surface
User setting: Normal(Picture menu: Standard)
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. Set COMPONENT / RGB-IN SELECT to COMPONENT
2. Select the IIC mode "PANEL W / B Adj.” item.
3. Check that the color temperature is “COOL (High)”.
4. Output a white balance pattern.
5. Touch the signal receiver of color analyzer to the highlight window’s center.
6. Fix G drive at E0h and adjust B drive and R drive so x, y become the "Color temperatureHigh" in the below table.
7. Increase R / G / B together so the maximum drive value in R / G / B becomes FCh.
8. Set color temperature to “NORMAL (Medium)”.
9. Fix G drive at E0h and adjust B drive and R drive so the highlight window´s x, y becomesthe "Color temperature Medium" in the below table.
10. Increase R / G / B together so the maximum drive value in R / G / B becomes FCh.
11. Set color temperature to "WARM (Low)".
12. Set G drive to E0h and adjust B drive and R drive so the highlight window´s x, y becomethe “Color temperature Low” shown in the below table.
13. Increase R / G / B together so the maximum drive value in R / G / B becomes FCh.
14. Copy the R drive, G drive and B drive data in YUV1_525ip, YUV3_625ip region.
Adjustment target
Hi-light: x ± 0.003 y ± 0.003
Hi-light is target of the number at drive adjustment in the hi-light windows.
Therefore, it is not target of the hi-light number at after adjustment white balance.
Picture Menu: StandardPicture: 25Aspect: FullPosition and size: Normal
· Highlight section Signal amplitude 75%
· Cutoff standard G: 80h
· Drive standard G: E0h
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11.3. Power control adjustmentInstrument Name Connection Remarks
· PC (RGB) signal generator
(Leader: VGA / No.9 signal)
· Wattmeter
· PC input
· Connect the AC power of theadjustment set to the wattmeter.
Set “RGB” at ‘COMPONENT / RGB-INSELECT’ in Setup Menu.
Procedure Remarks[condition] · Make sure the set is aged for 30 minutes or more before adjustment.
· Voltage 120V 50 / 60Hz (variation within 1%)
· Volume at minimum and screen size at full
· PC input and picture menu at normalized Dynamic
1. Connect the set’s AC power to the wattmeter.
2. Receive the VGA No.9 signal from Leader.
3. Select the PWRCTL item in Panel APL / ABL in the IIC mode.
4. Adjust PWRCTL so the set´s power consumption is description below.
Adjust to shift large to small for DAC.
Factory adjustment with OSD
103" 1350+10W / -30W
BUSCON without OSD
103" 1350+10W / -30W
No.9 SignalTop half: Full color barBottom half: Horizontal 10 steps bar
Notes: 1. When passing through factory
adjustment mode, the power fewwatts which goes down is theconsideration being completed.
2. Adjust the large number for DACwhen they have 2 adjustmentpoints.
69
TH-103PF9UK / TH-103PF9EK
12.1.1. Display Indication 1. Self-check is used to automatically check the bus line
controlled circuit of the Plasma display. 2. To get into the Self-check mode, press the volume down
button on the customer controls at the side of the set, at thesame time pressing the OFF-TIMER button on the remotecontrol, and the screen will show.
If the CCU ports have been checked and found to be incorrect.Or not located then " - - " will appear in place of " OK ".“ 01 “ in the line of the “ PTCT ” means the number of blinks ofthe Power LED is 1. (Reference to 11.1.2)“ H09 “ in the line of the “ PTCT ” is the error code.Note:
The line of the “ PTCT ” displays when you get into the Self-check mode for the first time only after the Power LEDblinks.
12 Troubleshooting guide12.1. Self Check
70
TH-103PF9UK / TH-103PF9EK
12.1.2. Power LED Blinking timing chart 1. Subject
Information of LED Blinking 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.
71
TH-103PF9UK / TH-103PF9EK
12.2. No PowerFirst check point
There are following 3 states of No Power indication by power LED. 1. No lit. 2. Green is lit then turns red blinking a few seconds later. 3. Only red is lit.
12.3. No Picture
72
TH-103PF9UK / TH-103PF9EK
12.4. 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
73
TH-103PF9UK / TH-103PF9EK
13 Option Setting
74
TH-103PF9UK / TH-103PF9EK
Option Menu for GPF9DJ series
GPH9DJ chassis series have special function and operation setting facility called Option Menu. This Option Menu is useful forspecial function required customers. This should be set at the installation stage.
Option menus default setting ContentsOff-timer function Enable Off-timer operation Enable / Disable.Onscreen display On Enable / Disable to display input mode indication after power on and no
signal indication.Initial INPUT Off Sets the initial input mode when the power is turned on. Allow input mode
selection while power is on.Initial VOL level Off Sets the initial volume level when the power is turned on. Allow Volume
control while power is on.Maximum VOL Level Off Sets the maximum volume to desired level. Volume cannot exceed this level.INPUT lock Off Fixes the input mode to AV, Component / RGB or PC. Can not change input
mode by input selection key.Studio W / B Off Set warm mode color temperature to 3,200 Kelvin.Advanced PIP Off Off : Sets normal two screen display mode.
On : Sets Advanced PIP mode.Display size Off Adjusts the image display size on screen.
On : Sets the image display size approximately 95% of the normal imagedisplay.
Button lock Off Enable / Disable bottom operation buttons (Input, Menu, Enter and / orvolume up / down)
Remocon User Level Off Remote key invalidation.Off : Valid key is all key of remote.User1 : Valid key are only Stand-by (ON / OFF), Input, Direct input, Status,Surround, Sound mute On / Off, and volume adjustment.User2 : Valid key is only Stand-by (ON / OFF).User3 : All keys are null and void
ID select 0 Set ID number from 0 to 100.Remote ID Off Remote ID function On / Off.
(While the Remote ID on, standard remote function can not control the unit.)Serial ID Off Serial ID function On / OffSlot power Off Sets the slot power mode while the power is turned on.
Allow Optional Terminal Board insert Slots while power is on.V. Installation Off V. Installation function On / Off
Note: Turn up the power switch for the upward direction when you set displayvertically.
Rotate Off The image rotates 180 degrees (up-down)Serial Slot Select Slot1 Selects the slot which communicates serial.
Note :When both main unit buttons and remote control are disabled due to the “Button lock”, “Remocon User level” or “RemoteID”adjustments, set all the values “Off” so that all the buttons are enabled again.Press the “Volume down” button on main unit together with “R“ button on the remote control and hold for more than 5 seconds.The “SHIPPING” menu is displayed and the lock is released when it disappears.
75
TH-103PF9UK / TH-103PF9EK
NOTE
76
TH-103PF9UK / TH-103PF9EK
13.1. Diagram Note13 Interconnection and Block Diagram
TH-103PF9UK / TH-103PF9EK
77
13.2. Interconnection (1 of 8) Diagram
B-5
9
17
A-3
A-11
A-17
B-20
5
Y/G
B-15
A-23
LAN+15V
A-14
PC/232C
B-22
A-2
B-11
SOS
10
TX
D
B-33
B-22
B-18
TXG+
10
GN
D
2
A-13
B-37
B-2
B-6
2
A-29
B-26
SOS
3
77
A-30
A-13
A-19
A-20
TO DN6
B-21
B-16
16
S_CLOCK3
15
B-11
A-27
3
B-40
2
A-1
B-13
14
DS1
B-32
B-20
B-17
B-9
B-36
20
B-14
A-21
12
+5
V
B-8
A-21
B-9
68
A-20
A-3
B-13
2
B-3
A-28
A-13
7
S_CLOCK1
B-23
6
A-31
74
A-24
B-40
63
3
B-20
A-37
TXC+
B-4
A-35
A-3
B-37
A-30
A-31
B-1
26
B-18
B-30
B-26
B-21
61
14
B-7
S_DATA1
B-29
A-9
78
9
B-8
B-25
B-39
13
RS-232C
TXC-
A-21
A-7
A-4
4
A-33
A-17
14
A-38
6
SLOT+3.3V
24
A-28
TX0-
18
TX3-
A-6
69
A-4
4
TX0+
1
B-37
LAN+15V
A-27
1
SLOT+3.3V
B-23
A-22
A-27
B-33
11
B-1
B-31
DS14
GND
64
B-18
A-24
B-25
6
HX1
B-27
23
A-25
A-38
A-16
29
TX0+
5
B-25
5
A-25
TX0-
1
B-3
B-9
73
A-37
SLOT+5V
B-31
A_
OA
+
A-18
12
B-38
9
A-33
PC
-B
TX3+
B-6
DS
10
B-5
DS3
B-10
A-31
PC
-G
SLOT+9V
B-16
A-26
B-36
A-10
PC
-R
B-34
A-8
B-26
PC
-VD
TXD
8
A-23
A-29
B-2
B-12
A-38
A-12
TX1-
PC
-RX
D
A-28
4
A-16
RXD
A-18
B-2
A-22
B-17A-17
B-35
B-36
1
TX1+
A-34
TXC+
A-29
A-8
PC
-Rs
A-12
B-17
A-7
PC
-B
A-26
B-15
B-30
B-35
4
B-39
TXG+
A-23
A-32
5
A-32
B-5
A-12
AUDIO IN L
B-4
V15
A-35
A-2
RT
S
B-24
SLOT+9V
2
B-31
PR/R
PC
-TX
D
A-39
B-32
A-19
PC
-HD
B-38
B-16
RX
D
7
B-21
B-28
PC
-G
B-23
B-15
1
A-1
8
B-4
PR/R
B-8
7
LAN+15V
B-10
A-39
30
13
A-25
B-29
B-10
A-11
A-1
B-14
8
B-19
STB+5V(S)
B-40
DS
4
A-9
B-38
B-32
A-40
31 7
B-7
A-40
28
A-15
4
SRQ
B-34
70 5
S_DATA3
B-19
12
DS13
B-27
SLOT+5V
DS11(SLOT1)
76
VD
21
B-28
72
DS12
B-1
3
A-37
DS11
B-29
1
A-30
7
B-7
TX1-
STB+3.3V
A-32
13 4
LAN+15V
1
B-19
B-22
B-30
DS15
11
S2 DETECT A-36
A-24
B-13
8
10
B-6
A-5
A-20
A_
OA
-
2
RESET
S_DATA2
6566
A-15
A-26
A-39
Y/G
A-19
A-7
B-27
TXC-
A-6
25 3
CT
S
B-39
19
A-36
6 10
A-40
A-22
75 9
B-24
KEYSCAN
6
TX3+
B-11
TX1+
67
A-36
<TNPA4217>
PB/B
A-15
A-16
15
A-14
1
A-18
A-10
15
DS
A-4
2
A-5
GND
STB+5V(S)
B-35
A-2
B-3
S_CLOCK2
A-33
27
PB/B
A-9
22
HDD
STB+5V(S)
3
B-34
<TNPA4052>
A-6
TXG-
A-35
A-34
H1
TXG-
5
A-8
HD
B-33
B-12
HX
A-5
B-28
B-24
11
LAN+15V
62
A-14 B-14
B-12
A-34
71
A-10
TX3-
A-11
SRQ
GND
STB+5V
WP(Config)
SLOT_DATA
SLOT_CLOCK
DPMS_HD
13
15
11
17
DPMS_VD
19
SOS
S_
DATA
S_
CL
OC
K
DS9
2
14
2
3
<TNPA4103>FAN (80)
PB30
2
3
PB69
1
PB64
35
FAN (80)
2
FAN (120)
1
3
1
PB66
PB
+5V
FAN_SOS3
1
GND
5 FAN_CONT
2
4
+15V
DS30
SLOT1 SLOT2 SLOT3
FOR FACTRY USE
JK3001 JK3501
RXD
TXD
RXD
TXD
PC
-Ls
JK3513JK3511 JK3509
PC
-HD
PC
-VD
TO DN3
GND
RXD_TU
21
28
19
STB+3.3V
29
GND
9
+5V
TXD_TU
STB+5V
30
8
13
24
3
2
RXD_PC
16
TXD_PC
IIC_CONT
S DATA1
20
11
7
S DATA3
4
17
26
12
18
22
14
5
6
25
S CLOCK1 27
15
S CLOCK3 23
1
10
33
34
31
35
32
30
8
13
24
3
2
16
20
11
4
17
26
12
18
22
7
14
5
6
25
27
21
15
28
23
1
10
19
29
9
LA
N+
15
V
LA
N+
15
V
P+
15
V
P+
15
V
P+
15
V
P+
15
V
P+
15
V
P+
15
V
2 111 25 63 4 53 68 10 19 47
6 GND
GND
FAN (120)
FAN_SOS
FAN+12V
3
2
1
PB623
PB
54
FA
N (
120)
FA
N (
120)
1 232 31
PB
53
FA
N (
120)
21
PB
51
TX9+
TX8-
TX8+
TX7+
TX7-
TX6-
TX6+
TX5-
TX4+
TX5+
TX4-
TX9- TX9-
TX8+
TX5-
TX7-
TX8-
TX6+
TX4+
TX5+
TX4-
TX9+
TX7+
TX6-
SRQ
DS12(SLOT2) DS13(SLOT3)
DVI-D IN
JK3001 JK3002
Y PrPb
HA
H1
<TXNHA10RBS>DVI_DATA
DVI_CLOCK
6
SL
OT
+9
V
7
GN
D
9
GN
D
11
GN
D
PC
-R
8
1 5 6 7 11 12 154 103 9 142 138
A_
OB
+
A_
OB
-
A_
OC
+
A_
OC
-
A_
OD
+
A_
OD
-
A_
OE
+
A_
OE
-
A_
CL
K-
A_
CL
K+
7980 60 5054 43454656 52 44 414755 51 424857 4959 58 53
A_
EA
+
A_
EE
-
A_
EC
+
A_
EB
+
A_
EB
-
A_
EE
+
A_
EC
-
A_
ED
+
A_
ED
-
A_
EA
-
37 3438 3236 35 333940
B_
EC
-
GN
D
B_
OA
+
B_
EE
+
B_
EE
-
B_
CL
K+
B_
OE
-
B_
EA
+
B_
EA
-
GN
D
B_
EB
-
B_
EB
+
B_
EC
+
B_
ED
-
B_
OC
+
B_
OB
+
B_
OB
-
B_
OE
+
B_
OC
-
B_
CL
K-
B_
OD
+
B_
OD
-
B_
ED
+
B_
OA
-
804729181611 40 7020 41 44 57397 7448 53338 52134 56 6326 353 36 42 65 661715 321 6038 76312112 7258 641410 3427 6122 46 51196 372824 674525 759 43 7159555 49 62232 6830 7769 7954 787350
7
8
4
3
1
10
6
9
5
2
12
14
16
18
20 1
9
7
18
4
16
19
8
3
20
13
15
6
14
5
17
12
10
2
11
33
34
31
35
32
39
40
36
38
37 37
39
40
36
38
TO DN1
DS
6
<L6FAYYYH0031>
<L6FAYYYH0031>
<L6FAYYYH0030>
<L
6FA
YY
YH
00
31
>
<TSXL584>CABLE
<TSXL585>
3
4
1
8
WP(EDID)9
2
7
6
5
3
H0
PB
56
FA
N (
120)
1 32
<TNPA4085>
V1
<TNPA4086>
V2
<TNPA4087>
V3
1
3
2
H51
2
3
4
AUDIO OUT
<TNPA4058>
H51
3
4
5
2
7
6
3
V1
2
1
LED_R3
2 LED_G
GND5
3
2
1
V3 DS2
TO P10(SC SIDE)TO P5(SC SIDE)
<L6FAYYYH0030>
FAN (80)
1
PB71
3
2
<L6FAYYYH0031>
<L6FAYYYH0031>
FAN (120)
3
2
1
3
PB59
2
1
PB61FAN (120)
<L6FAYYYH0030>
<L
6FA
YY
YH
00
31
>
<L
6FA
YY
YH
00
31
>
<L
6FA
YY
YH
00
31
>
+15V1
TO P5(SS SIDE)
6
PB31
3
4
5
2
8
10
9
+15V
+15V
6 11
7
JK8501
AUDIO
1
OUT
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
FAN_SOS
FAN+12V
GND
FAN+12V
FAN_SOS
GND
FAN+12V
FAN_SOS
FAN+12V
FAN_SOS
GND
GND
FAN_SOS
FAN+12V
FAN_SOS
FAN+12V
GND
FA
N_
SO
S
FA
N+
12
V
GN
D
FA
N+
12
V
FA
N_
SO
S
GN
D
GN
D
FA
N+
12
V
FA
N_
SO
S
FA
N+
12
V
GN
D
FA
N_
SO
S
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GNDGND
GND
GND
GND
SLOT+3.3V
SLOT+5V SLOT+5V
SLOT+3.3V
SLOT+9V SLOT+9V
R LINE OUT
L LINE OUT
GND
GND
GND
GND
REMOCON
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
AUDIO IN R
VD
AUDIO IN L
AUDIO IN R
HD
PLUG DET PLUG DET
REMOTE REMOTE
S2 DETECT
RESET
GND
PWR_STATUS
COMPONENT VIDEO INAUDIO INDVI-D AUDIO IN
PC AUDIO IN PC IN
GND
GND
GND
GND
GND
GND
GND
SLOT+3.3V
GND
GND
GND
GND
SLOT+5V SLOT+5V
GND
GND
SLOT+9V SLOT+9V
SLOT+3.3V
GND
GND
GND GND GND
Y/G
GND
PB/B
GND
AUDIO IN R
GND
GND
GND
GND
GND
AUDIO IN L
HD
LAN+15V
GND
PR/R
VD
S2 DETECT
SRQ
RESET
GND
PLUG DET
REMOTE
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
G/Y_M
B/PB_M
VD_M
R/PR_M
HD_M
GND
GND
GND
GND
GND
RTC_INT
REMOCON_OUT
SOUND_MUTE
FAN_SOS
POWER_STAT
CABLE_DET
RESET
KEY_SW
GND
STB_ON
GND
GND
GND
+5V_M
REMOCON
LED_R
LED_G
GND
KEY_DET
GND
GND
GND
GN
D
GN
D
GN
D
GN
D
FAN CONTROL!
(Exchange board only)
KEY SCAN
REMOCON RECEIVER
!
(Exchange board only)
(Exchange board only)
!
(Exchange board only)
!
!
(Exchange board only)
SOUND PROCESSORSYNC PROCESSORSLOT INTERFACE
(Exchange board only)
!
DVI-D IN
(Exchange board only)
COMPONENT VIDEO!!
(Exchange board only) (Exchange board only)
!
CABLE
<TZTNP01YLTW>
LED_G,R
TH-103PF9UK/EKInterconnection (1 of 8) Diagram TH-103PF9UK/EK Interconnection (1 of 8) Diagram
TH-103PF9UK / TH-103PF9EK
78
13.3. Interconnection (2 of 8) Diagram
8
1
20
18
TO D5
S_
DATA
2
19
RX
D
ST
B+
5V
3 1211
S_
DATA
1
PD
BO
LE
D_
R
S_
CL
OC
K2
LE
D_
G
S_
CL
OC
K1
15
18
13
15
2
10
13
1
5
8
16
15
9
4
4
7
PB
US
Y
6
TX
D
DN2
5
IIC
_IN
T
3
PD
B1
24
6
25
21
7
12
P+
15
V
11
14
19
PS
TB
14
17
16
PS
LC
T
17
20
13
1 9
ST
B+
3.3
V
DN11
TO D3
21
GN
D
8
19
16
6
14
30
28
29
27
E+LVDS1
26
23
9
18
12
10
21
4
22
7
20
DN51
DN
TO DS3
17TO DS1
10
IIC
_C
ON
T
11
2
2
5
3
3
1
24
25
10
4
22
21
20
12
30
28
29
27
26
23
11
8
19
14
9
16
18
7
17
15
6
13
2
5
2 43 5 14131 107
GN
D
121196 8
GN
D
DN4
S_
DATA
1
TX
D
S_
DATA
3
IIC
_C
ON
T
ST
B3
.3V
S_
CL
OC
K2
S_
CL
OC
K3
RX
D
IIC
_IN
T
ST
B+
5V
S_
CL
OC
K1
S_
DATA
2
18
1
9
7
4
18
11
1
4
20
16
19
8
15
3
2
5
20
DN1
3
13
12
15
17
6
7
6
14
5
14
10
17
12
10
16
2 19
8
11
13
9
37
34
39
40
35
36
31
33
38
32
43
TD
O
6
GN
D
5
TM
S
2
TD
I
1
TC
K
73
80
B_
OC
-
47
775251 69
29
A_
EC
-
18 16
4 15 44 63
1140
24
B_
OE
+
B_
OA
+
70
74
B_
EB
-
20414457
37
39 7
7849
74
1 2 6 36 43 802810 25
48
A_
OA
+
53
20 55
A_
EE
+
16 46 76
33
8
8
18
B_
OB
-
52
237
13
72
456
B_
EA
-
63
19
26
679
35
A_
EE
-
A_
CL
K+
B_
OB
+
4730
3
3926
36
59
42
383 57
65
13
66
27
17 15
34 50
A_
OE
-
32
66
1
70
60
B_
OC
+
38
56 65
76 31 21
6211
12
42
72 58
60
64
B_
EA
+
71
14
B_
OE
-
A_
EA
+
1034
33 7931
A_
EA
-
75
27
12
61
40
A_
EB
-
22
B_
ED
-
4651
35
19 637 28
A_
EB
+
A_
EC
+
2467 45
58
A_
ED
-
2575
B_
EC
+
9
5
43
14 29
71
22 54
B_
OA
-
21 48
59
B_
ED
+
61
55 5
17
49
A_
OC
+
62
A_
OB
+
23 2
A_
OB
-
53
A_
OE
+
A_
OC
-
B_
CL
K+
A_
CL
K-
68
B_
EC
-
A_
OD
+
68
A_
OD
-
B_
EB
+
3077
B_
OD
-
B_
OD
+
32
69
45
B_
EE
-
A_
ED
+
64
A_
OA
-
79 5478
41
B_
CL
K-
73 50
B_
EE
+
37
34
39
40
35
36
31
33
38
32
E-LVDS1
E+LVDS0
E-LVDS0
E+LVDS2
E-LVDS2
E+LVDS4
E+LVDS3
E-LVDS3
E-LVDS4
E-LVDSCLK
E+LVDSCLK
O+LVDSCLK
O-LVDSCLK
LVDS_DET
30
29
26
25
24
28
27
23
22
31
O+LVDS2
O+LVDS1
O-LVDS1
O+LVDS0
O+LVDS3
O-LVDS3
O-LVDS4
O+LVDS4
O-LVDS0
O-LVDS2
1
20
19
16
15
6
14
25
30
4
31
22
9
23
29
18
28
17
13
26
10
12
11
21
7
2
5
24
27
3
8
DN10
4
1
RXD
13
30
21
10
26
P+15V
29
7
11
22
3
2
S CLOCK1
8
S CLOCK2
PANEL_STBY_ON
IIC_CONT
9
ALL_OFF
20
TXD
17
25
14
19
6
S DATA1
PSLCT
PDB1
23
27
S DATA2
IIC/INT
16
PSTB
18
28
PDB0
PBUSY
15
24
5
12STB+5V
29
18
28
17
13
26
10
12
11
21
7
2
5
1
24
20
27
19
3
16
8
15
6
14
25
30
4
22
9
23
TO DS6
DN6
<TSXL585>
P+5V
GND
VD_M
R/PR_M
GND
HD_M
GND
GND
B/PB_M
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
G/Y_M
LED_G
GND
DPMS_HD
RXD_PC
SOUND_MUTE
RTC_INT
KEY_DET
TXD_PC
IIC_CONT
S DATA1
FAN_SOS
GND
REMOCON_OUT
+5V
S CLOCK1
TXD_TU
STB+5V
S DATA3
GND
GND
POWER_STAT
RXD_TU
CABLE_DET
RESET
KEY_SW
GND
STB_ON
GND
GND
GND
+5V_M
REMOCON
LED_R
STB+3.3V
GND
DPMS_VD
GND
S CLOCK3
FOR FACTRY USE FOR FACTRY USEFOR FACTRY USE
RE
MO
CO
N
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
READY
GND
INEXCH
GND
FSTB
GND
ALARM
ECO_ON
GND
DISPEN
GND
GND
GND
GND
GND
GND
GND
GND
! DIGITAL SIGNAL PROCESSOR/MICOM
(Exchange board only)
<TSXL584>CABLE
CABLE
<TZTNP01YLTU>DN3
TH-103PF9UK/EKInterconnection (2 of 8) Diagram
TH-103PF9UK/EKInterconnection (2 of 8) Diagram
TH-103PF9UK / TH-103PF9EK
79
13.4. Interconnection (3 of 8) Diagram
Vf
Vfo
<TNPA4030>
Vf
10
12
SID
5
13
Vfo
Vf
38
PROM
Vf
Vf
Vf
4
Vf
CEL
5 5
30
33
Vf
37
4
Vfo
Vf
Vf
CML
Vf
33
Vf
Vf
Vf
Vf
Vf
B1-B40
6
Vf
A1-A40
20
Vf
19
Vf+5V
26
GNDVf
32
Vsus
27
36
Vf
Vf
CMH
19
Vfo
Vf
20
29
6
Vf
28
1
40
Vf
27
SIU
24
Vfo
13
2
Vfo
CLK
2
Vf
9
8
Vf
6
15
P+15V
3
Vfo
9
Vf 4
36
7
3
2
1
12
1
6
36
Vf
7
2
30
11
5
11
CEL2
P+5V
8
Vf
Vf
Vf
3
<TNPA4033>
Vf
Vf
2
3
27
29
3
26
SC46(SC46-SM46)
31
Vf
20
Vf
2
FCLM
Vf
27
Vf
11
20
12
Vf
39
6
7
18
25
14
Vf
28
Vf
20
SC41
Vscn
SU41
24
18
Vf
Vf
Vf
17
30
DRV_RST0
35
SC42(SC42-SU42)
15
Vf+
5V
Vf
Vf+
5V
Vf
Vf
8
Vf
7
Vf
Vf
14
CSL
1
9
34
40
24
Vf
Vf
Vf
2
Vf
Vf
CSK
PR
OU
Vf
9
Vf
Vf
Vf
Vf
21
9
SC23
18
Vf
13
FC
LK
U
Vf
16
Vf
10
29
17
Vf
Vf
5
Vf
8
Vf
Vf
34
Vfo
Vscn
18
SC
Vf
Vfo
18
6
15
16
19
9
7
FCLKM
Vf
Vf
38
Vscn
Vfo
6
4
SM51
2
Vfo
17
13
8
GND
Vf
SCSU
Vf
8
30
1
FSIM
6
Vf
Vf
Vf
3
Vf
15
7
20
Vf
2
Vf
Vfo
Vf
37
6
16
3
9
7
12
8
28
25
40
16
Vf
33
Vf
4
14
18
Vf
32
1
Vf
Vfo
10
Vf
2
9
4
CL
2
38
19
15
3
Vf
Vf
Vscn
17
10
38
5
2
1
CSH
26
SC49
33
39
22 Vfo
SC2
14
25
12
22
SU49
Vf
Vf
31
Vf
P+15V
Vf
6
Vf
7
35
2
Vf
Vf+5V
28
34
(SC SIDE)
Vf
36
Vf
3
SC20
Vf
Vf
12
Vf
31
35
8
FS
IU
26
17
Vf
4
CPH
25
Vf
32
34
11
Vf
24
11
Vf
8
23 Vf
23
Vf
21
17
23
5
Vf
1
21
9
10
1
11
Vf
19
7
9
32
1
1
4
14
3
Vf
16
23
Vfo
13
5
SOS6_SC1
Vf
SU
Vf
3
19
3
10
5
15
14
13
Vf
40
1
22
4
Vf+5V
39
29
Vf
Vf
SC51
3
22
Vf
35
Vf+5V
31
Vf
4
2
Vf+5V
39 Vf
Vf+5V
Vf
16
37
Vf
5
21
FC
LU
Vf
1
Vfo
7
37
3
8
Vf
TO D20
1
SU42
B1-B40A1-A40SC42
21
Vf
Vf
10
28
35
29
Vf
35
Vf
17
39
31
8
Vf
Vf
6
34
Vf
30
Vf
24
26
2
31
19
27
14
Vf
3
2Vf
40
18
Vf
25
Vf
Vf
29
B
10
28
32 Vf
34
5
Vf
5
7
Vf
15
17
27
Vf
Vf
36
Vf
1
11
Vf
13
Vf
26
25
Vf
Vf
24
Vf
Vf
6
Vf
Vf
Vf
4
33
11
SC41(SC41-SU41)
8
Vf
40
38
Vf+5V
9
Vf
Vf
Vf+5V
30
14
3
18
Vf
32
Vf
Vf
7
Vf+5V
Vf+5V
16
Vf
Vf
Vf
Vf
16
4
15
Vf
37
Vf
37
Vf
39
23 Vf
Vf
A
13
Vf
Vf
19
Vf
12
Vf
21
38
Vf
Vf
Vf
23
Vf
Vf
Vf
20
9
Vf
1
Vf
Vf
12
33
20
22
36
22
B41-B80B1-B40
SC46
SM43
SM46
A41-A80A1-A40
SC43
1
31
29
17
Vf
Vfo
Vf
Vf
Vf
38
Vscn
14
525 25
40
28
12
Vf
31
2
Vscn Vf
Vf
26
17
Vf
9
4
11
7
Vf
SC43(SC43-SM43)
Vscn30
Vfo
3
34
Vf
1
Vfo Vf
10
33
Vf
26
Vf
Vfo
27
3
Vf24
Vf
34
Vf
Vf
32
11
37
12
Vf
16
24
14
Vfo
Vfo37
Vf
32
Vf
2
Vf
7
19
27
Vfo
40
Vfo
Vf
Vf
Vf
13
Vf
Vf
Vf
18
Vf
36
Vf
16
28
Vf
20
6
Vfo
Vf
8
Vf
Vfo
21
15
22
35
30
9
Vf
Vf
33
4
18
Vfo
21
19
Vfo
Vf
8
Vfo
Vf
2323
Vscn
Vf
29
Vf
Vf
Vfo38
Vf
13
Vf
6
Vf
Vfo
15
Vf
Vf
39
10
Vf
Vfo
36
Vf
Vf
Vf
22
Vf
20
Vf
35
5
39
Vf
Vf
SU1
SU4
B1-B54
SU3
A1-A54
A1-A54
A1-A54
A1-A54
B1-B54
B1-B54
B1-B54
SU2
A1-A54
B1-B54
A1-A54
B1-B54
SD2
A1-A54
B1-B54
SD3
SD4
B1-B54A1-A54
SD1
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
SU41(SC41-SU41)
SM46(SC46-SM46)
69
63
62
80
68
76
66
71
67
74
64
79
65
77
72
61
73
70
78
75
C
Vfo
VfoVfo
Vfo
59
51
41
53
46
48
42
43
56
52
55
58
60
54
50
45
49
44
47
57
SU42 (SC42-SU42)
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
VfVf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vfo
Vfo
Vfo
Vfo
VfVf
Vf Vf
SM43 (SC43-SM43)
SM1
SM4
B1-B54
SM3
A1-A54
A1-A54
A1-A54
A1-A54
B1-B54
B1-B54
B1-B54
SM2
13
50
28
34
Vf Vf
8
59
Vf
24
34
20
57
51
39
Vf
Vf
41
53
36 25Vf
46
48
37
32
Vf
42
40
Vf
32
11
Vf+5V
Vf
43
35
1939
21
37
56
29
Vf
33
12
52
23 Vf
30
Vf Vf
55
22
Vf
38
16
27
16
Vf
35
24
34
37
Vf
69
24 Vf
63
14
39
13
SC48(SC48-SD48)
Vf
62
Vfo
Vf
28
Vf
80
Vfo
6
36
Vf 68
37
20
Vf
Vf
26 Vf
Vf
76
Vf
Vfo
Vf
31
Vf
66
32
15
37
Vf
71Vf
31
Vf
21
Vf
Vf
67
2
Vf
38
33
Vf
74
5
Vf
39
30
2
Vf
64
7
10
38
Vf
79
19 Vf
25
Vf
65
27
6
Vfo
32
Vf
15
77
Vfo36
69 Vf
72
40
Vf
5
7
63
Vf
Vf
61
Vfo
Vf
18
62
Vf
73
Vf
Vf
180
Vfo 70
Vf
22
68
Vfo
78Vf
Vf
Vf
40
76
Vfo
75
13
16
20
66
28
Vf
Vfo
VfVf
21
11
33
71
Vf
9
Vf
35
Vf
67
Vf
SD47(SC47-SD47)
Vf
Vf
4
5
8
74
36
Vf
18
SD48(SC48-SD48)
39
Vf
64
Vf
Vf
Vf
19
79
30
36
Vf
Vf
Vf
65
32
Vf
35
26
77
Vf
16
Vf
72
Vf
24
61
1328 73
10
Vf
10
Vf
Vf
70
8
20
Vf
Vf
78
2
6 75
Vf
Vf
9
16
Vfo
21
4
40
12
Vf
Vf+5V
29
15
8
27
Vf
38 3
Vf
6
5
Vfo
26
17
21
17
10
9
15
1
4
22
Vf
25
7
35
Vf14
Vf
19
7
13
37
18
30
35
Vf
18
11
9
Vf
Vf
29
1
Vf
Vf
Vf
34
Vf+5V
Vf
6
VfVscn
14
33
Vf
Vf
Vf
8
20
Vf
4 24
Vf
59
18
26
Vf
51
22
Vfo
33
31
17
23
39
41
21
Vf
Vf
Vf
53
19
9
1
3
46
Vfo
4
31 11
14
12
48
Vf
11
29
25
Vf
Vf
42
3
8
7
12
17
Vf
43
Vfo
Vf
Vf
56
Vf
SC47(SC47-SD47)
Vfo
23
52
23
Vscn
Vf
55
30
23
Vf
58
Vfo
Vscn
Vf
60
3
Vf
14
38
54
34
29
15
Vscn
50
Vf
Vf
18
14
45
1
Vf
20
5
49
Vfo
10
25
15
44
Vf
Vfo
38
6
25
47
Vf
Vf
Vf
1
Vf
34
40 Vf
32
57
10
Vf
17
28
9 29
33
30
5
12
4 17
23
2
Vf
Vf
7
22
45
22
26
31
Vf
2
49
40
Vf
2
3
Vf+5V
44
27
28
Vfo
16
47
36
27
12
58
26
3
19
60
31
Vf
Vf
Vf
11
54
27
24
13
21
28
29
35
39
25
24
40
38
33
36
22
30
26
37
31
27
32
23
34
17
10
1
6
4
11
8
20
18
9
14
7
3
16
15
2
19
13
12
5
24
40
38
33
21
36
22
30
26
37
31
27
32
23
34
28
29
35
39
25
69
63
62
80
68
76
66
71
67
74
64
79
65
77
72
61
73
70
78
75
17
10
1
6
4
11
8
20
18
9
14
7
3
16
15
2
19
13
12
5
59
51
41
53
46
48
42
43
56
52
55
58
60
54
50
45
49
44
47
57
21
28
29
35
39
25
24
40
38
33
36
22
30
26
37
31
27
32
23
34
69
63
62
80
68
76
66
71
67
74
64
79
65
77
72
61
73
70
78
75
17
10
1
6
4
11
8
20
18
9
14
7
3
16
15
2
19
13
12
5
59
51
41
53
46
48
42
43
56
52
55
58
60
54
50
45
49
44
47
57
23
21
33
36
22
27
28
37
30
26
29
35
39
25
32
31
24
40
38
34
69
63
62
80
68
76
66
71
67
74
64
79
65
77
72
61
73
70
78
75
17
10
1
6
4
11
8
20
18
9
14
7
3
16
15
2
19
13
12
5
59
51
41
53
46
48
42
43
56
52
55
58
60
54
50
45
49
44
47
57
<TNPA4031>SM
SD <TNPA4032>
SD48
SC47SC48
SD47
Vf
5
Vf+
5V
5
FC
LK
D
6
Vf+
5V
92 7
4
4
7
Vf
8
PR
OD
SC52
SD523 82
3 61
1
FC
LD
Vf
FS
ID
9
C41-C80C1-C40
D41-D80D1-D40
1913125 17101 64 118 20189 1473 16152
FS
14
2221 23
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
Vf
19
Vf
Vf
Vf
Vf
5 2217101 64 1211
Vf
8 20 21 2313 189 1473 16152
FS
14
Vf
Vf
211 914 7 316 8152021 19 52223 17 13 1018 16 412
211 914 6 412 7 316 8152021 19 52223 17 13 1018 1
SU55
SM55
SM56
SD56
C41-C80C1-C40
D41-D80D1-D40
B1-B40A1-A40
B1-B40A1-A40
4
5
4
Vf+5V
5
7
FCLKM
Vf
66
8
PROM
1
Vf+5V9
SC50
2
1
7
SM50
3 FCLM
8
Vf
2
FSIM
3
9
Vf
5
16
10
18
2
8
12
+15V
17
7
19
9
7
11
Vset
18
17
13
15
3
2
15
20
12
6
TO SC83
13
1
11
4
SC80
4
9
10
8
20
14
19
6
14
3
16
1
5+15V
+16V_F2
+16V_F2
+16V_F
+16V_F
Vset
Vscn
Vscn
22 22
21 21
VAD
VAD
1
16
14
3
10
14
5
VBK
11
7
SC81
4
2
4
16
VBK
13
10
9
6
2
15
13
9
15
8
1
7
11
TO SC84
5
VCENT
3
12
8
6
12
VBK
VBK
D41-D80D1-D40
C41-C80C1-C40
VCENT
VCENT
VCENT
BA BA
D D D D C CC
B BAA B BAA
C CCC D D D D
BA
B BAA B BAA
D D DC C DCC
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
TO P2
(SC SIDE)TO P23
!
!
!
SCAN OUT (UPPER)
SCAN OUT (LOWER)
SCAN OUT (MIDDLE)
(Exchange board only)
(Exchange board only)
(Exchange board only)
!
(Exchange board only)
SCAN DRIVE
BRIDGE CONNECTOR
BRIDGE CONNECTOR<K1LA23BA0003>
<K1LA23BA0003>
TH-103PF9UK/EKInterconnection (3 of 8) Diagram
TH-103PF9UK/EKInterconnection (3 of 8) Diagram
TH-103PF9UK / TH-103PF9EK
80
13.5. Interconnection (4 of 8) Diagram
4
17
10
5
15
17
P+15V
8
1
3
2
5
STB_IN
1
3
20
12
P+
15
V
SC12
8
5
8
6
9
2
4GND
7
P+
15
V
4
LA
N+
15
V
P12
13
3
15
1
2
1
9
4
P23
TO DS10
6
ALL_OFF
1
P+
15
V
ST
B P
S
4
2
20
2
7
19
6
P53
P52
2
9 10
P56
5
19
3
P51
7
<ZTXMM641MG1>
7
10
P2
AC100V
F_STBY_ON
P+
15
V
6
1
1
6
2
3
P+
15
V
16
2
4
P(SUS) POWER SUPPLY
3
3
2
P+5V
9
1
3
1
7
11
P54
3
6 42
13
6
P+
15
V
P+15V
(SC SIDE) 2
P+5V
4
(SC SIDE)
4
4
8
14
8
18
7
Vd
a+
75
V
Vsus OUT
1
2
5
2
8
LINE
2
10
PFC_ON
VSUS_VCC
P+
15
V
P+
15
V
5 8
1
GND
1
1
P9
P10
12
P533
3
AC100V
3
2
9
13
Vsus ON/OFF
3
TO F9
P(MULTI) POWER SUPPLY
STB+5V
P+5V
10
11
6
LA
N+
15
V
14
3
Vsus
P55
Vsus
NEUTRAL
1
2
GN
D
TO PC20311
2
3
1
5
LA
N+
15
V
P25
P57
1
7
Vd
a+
75
V
16
1
5
4
P11
ST
B+
12
V
18
3
TO SC23
P+
15
V
<ZTXMM641MG2>
2
52 31 64
2
1
3
3
1
2
13
1
11
4
SC83
4
9
10
8
20
12
14
+15V
19
17
6
7
14
19
3
9
16
7
1
11
5
Vset
+15V
18
17
+16V_F2
13
+16V_F2
15
3
2
15
20
12
6
TO SC80
5
16
10
18
2
8
+16V_F
+16V_F
Vset
Vscn
Vscn
2222
2121
VAD
VAD
SC84
4
2
4
16
VBK
13
10
9
6
2
15
13
9
15
8
1 1
16
14
7
3
11
10
TO SC81
14
55
VBK
3
11
12
8
6
12
VBK
VBK
7
P+
75
V(V
da
)
2
4
Vd
a_
RU
(+7
8V
)
13
10
2 5
DS
HR
63
10
12
2 9
7
9
4
3
8
6
6
47
10
6
DS
LR
5
4
(SC SIDE)
DR
2
5
P+75V(Vda)
DR1
10
7
Vd
a_
RU
(+7
8V
)
4
6
14
11
1
4
DR3
12
Vda_RU(+78V)
Vda_RU(+78V)
13
9
DR1
P+
5V
<TNPA4039>
14
7
4
P+
5V
7
38 13
11
P+
75
V(V
da
)
15
15
8
Vda_RU(+78V)
Vda_RU(+78V)
DR
5
15
8
10
P+75V(Vda)
8
P+75V(Vda)
12
3
Vd
a_
RU
(+7
8V
)
15
7
6
2
2
2
14
9 14
1
Vda_RU(+78V)
9
1
1 3
Vda_RU(+78V)
9
TO C24
DM
HR
8
DR
4
1
8
P+
75
V(V
da
)
3
Vd
a_
RU
(+7
8V
)
1 5
TO C22
P+
75
V(V
da
)
DR
V_
SO
S7
Vd
a_
RU
(+7
8V
)
1
10
5
3
6 11
7
2
Vd
a_
RU
(+7
8V
)
13
DM
LR
11
5
5
P+75V(Vda)
12
9 15
Vd
a_
RU
(+7
8V
)
6 12
92
TO C34
11
11
14
P+
75
V(V
da
)
Vd
a_
RU
(+7
8V
)
7
127
10
Vd
a_
RU
(+7
8V
)
6
Vd
a_
RU
(+7
8V
)
85
P+
75
V(V
da
)
3 5
P+
75
V(V
da
)
15
13
1 13
8
Vd
a_
RU
(+7
8V
)
P+
75
V(V
da
)
Vd
a_
RU
(+7
8V
)
10
4
3 144
1 2
TO C14
7
13
5
Vda_RD(+78V)
DR
12
2
9
1 3
6
3
9
TO CZ4
15
4
3
Vd
a_
RD
(+7
8V
)
86 12 1
12
69
2
2
TO CX4
7
11
14
1
4
DS
LR
DR
V_
SO
S7
15
10
11
3
12
14
Vda_RD(+78V)
9
11
7
P+
75
V(V
da
)
Vd
a_
RD
(+7
8V
)
P+
75
V(V
da
)
7
15
7 3 13
Vda_RD(+78V)
DR
14
15
12
Vd
a_
RD
(+7
8V
)
P+75V(Vda)P+
75
V(V
da
)
7
4
10
Vd
a_
RD
(+7
8V
)
10
Vd
a_
RD
(+7
8V
)
124
96 3
P+
75
V(V
da
)
Vd
a_
RD
(+7
8V
)
58
7
DM
HR
13
Vda_RD(+78V)
Vd
a_
RD
(+7
8V
)
Vd
a_
RD
(+7
8V
)
P+75V(Vda)
10
5
10
14
P+75V(Vda)
66
P+
75
V(V
da
)
DR13
TO CY2
11
P+75V(Vda)
GN
D
3
8
5 2
1
8
4
P+
5V
P+
75
V(V
da
)
10
GN
D
5
10
15
13
8
14
P+
5V
2
13
DR
15
1 13
8 5
Vd
a_
RD
(+7
8V
)
P+
75
V(V
da
)
Vd
a_
RD
(+7
8V
)
P+
75
V(V
da
)
Vd
a_
RD
(+7
8V
)
7
9
DS
HR
11
515
DM
LR
1
Vd
a_
RD
(+7
8V
)
10
9
14
2
4 8
Vda_RD(+78V)
5
4
23 14
11
4
TO CY4
6
Vda_RD(+78V)
8
69
1
12
1 2
AC CORD
AC INLET
F1
3
4
2
1
2
3
1
3
NEUTRAL
LINE
1
2
LINE
NEUTRAL
TO P9(SC SIDE)
3
1
2
LINE
1
4
2 TO P9(SS SIDE)
3
NEUTRAL
<TNPA4055>
F LINE FILTER
F9 F8
3
Vsus
2
3
1
2
GND
1
SC82
TO P11(SC SIDE)
TO SC2
TO SC82
2
Vda+75V 3
Vda+75V
1
6
5
4
7
Vda+75V
8
Vda+75V
+15V
3
7
Vda+75V
5
Vda+75V
8
2
6
8
Vda+75V 4
DR11
3
+15V 6
7
2
1
4
Vda+75V
1
5
SC13
SC14
<TNPA4034>
SC2
VCENT
VCENT
VCENT
VCENT
<TNPA4084>
1
S1 POWER SW
3
2
3
2
SC34
SC30
STB+12V
STB PS
S34
1
9 1075 83 621 114
TO DS4
<K2AHYH000009>
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GND
GND
GND
GND
GND
GND
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
PANEL_MAIN_ON
VDA_LOW
GND
GND
GND
GND
GND
GND
SOS4_PS
(Exchange board only)
(Exchange board only)
(Exchange board only)
(Exchange board only)
DC-DC CONVERTER
(Exchange board only)
!
!
!
!
!
!
(Exchange board only)
(SC SIDE)
<TNPA4100>(Exchange board only)
!
!
FOR SCAN DRIVE
ENERGY DATA RECOVERY
ENERGY DATA RECOVERY! DR2
GN
D
GN
D
GN
D
GND
GND
GND
GND
5 732 641
VA
D
SO
S7
VS
CA
N
GN
D
5 732 641
LIN
E_
1
LIN
E_
2
NE
UT
RA
L_
1
NE
UT
RA
L_
2
TH-103PF9UK/EKInterconnection (4 of 8) Diagram
TH-103PF9UK/EKInterconnection (4 of 8) Diagram
FOR FACTRY USE
FOR FACTRY USE
UK : <K2CG3YY00011>
EK : <K2CN3YY00003><K2CT3YY00002>
UK : AC 240V, 50 / 60HzEK : AC 220-240V, 50 / 60Hz
TH-103PF9UK / TH-103PF9EK
81
13.6. Interconnection (5 of 8) Diagram
57
45
DOUTUB[24]
40
18
37
DOUTUC[22]
9
24
41
DOUTDA[22]
DOUTDB[30]
46
DOUTUA[28]
25
66
DOUTDC[31]
DOUTUC[25]
68
10
DOUTDC[30]
59
50
38
16
3
DOUTUA[25]
11
56
1
19
58
13
54
39
50
7
27
16
29
45
DOUTDA[24]
37
64
24
PCDY
25
DOUTDA[25]
68
DOUTDB[23]
43
5
59
LEDY
51
32
53
20
DOUTDC[23] 36
DOUTUC[27]
15
DOUTUA[30] DOUTUC[23]
60
61
52
DOUTUC[31]
6
65
DOUTUB[27]
DOUTUC[24]
14
63
43
4
51
55
8
53
30
DOUTUA[29]
34
60
DOUTDC[27]
22
17
DOUTUC[26]
28
23
44
DOUTDB[27]
35
2
DOUTDA[30]
DOUTDB[31]
39
67
DOUTUB[30]
CLKD6(+)
27
+5V_DET
42
DOUTUA[23]
29
DOUTDA[28]
61
CY0
DOUTUC[28]
DOUTDA[23]
6
21
DOUTUA[27]
14
DOUTUB[26]
31
DOUTDB[28]
+5V_DET
DOUTUA[24]4
DOUTDA[27]
DOUTDB[26]
CLKU7(-)
DSLR
CLKU6(+)
8
DOUTDB[24]
DOUTUA[31]
ODEDY
DOUTUB[28]
DOUTUB[23]
LEU1
DOUTDB[22]
CLRU1
DOUTUB[29]
DOUTUB[22]
PCU1
DOUTUC[30]
ODEU1
DOUTUB[31]
DOUTDA[26]
DOUTDB[25]
DOUTDA[29]
DOUTUA[26]
CLRDY
CLKD7(-)
DOUTDC[28]
40
9
38
3
DOUTUA[22]
1
34
13
22
26
62
48
49
48
12
49
33
12
46
33
DOUTDB[29]
5
DOUTDC[26]
32
56
CA2
28
58
35
DOUTDC[29]
DOUTDC[24]
11
47
CA1
19
57
54
18
7
41
17
66
44
2
DOUTDA[31]
C20
67
10
42
21
52
65
31
DOUTDC[25]
63
64
26
55
62
20
DOUTDC[22]
30
36
DOUTUB[25]
23
47
DOUTUC[29]
15
CA5CA4CA3
C32C23
DMHR
DSHR
DMLR
P+
75
V(V
da
)
Vd
a_
RU
(+7
8V
)
5
8 10
7
TO DR3(SC SIDE)
15122
8
11
14
14
4 15
6
P+
75
V(V
da
)
137
P+
75
V(V
da
)
1 13
5V
da
_R
U(+
78
V)
Vd
a_
RU
(+7
8V
)
3
P+
75
V(V
da
)
11
Vd
a_
RU
(+7
8V
)
1 4
10
C14
6 9
Vd
a_
RU
(+7
8V
)
9V
da
_R
U(+
78
V)
1232
54
17
16
52
37
P+5V
46
C21
11
43
7
CLKU[6](+)
48
18
49
32
1
Vda_RU(+78V)
19
4
PCU1
25
29
313
P+75V_R(Vda)
22
CLKU[7](-)
9 51
12
Vda_RU(+78V)
34
15
26
P+75V_R(Vda)
P+75V_R(Vda)
21
P+75V_R(Vda)
4430
53
8
13
LEU1
24
Vda_RU(+78V)
5541
P+75V_R(Vda)
Vda_RU(+78V)
10
47
35
39
5
28
38
ODEU150
Vda_RU(+78V)
45
P+5V
33
14
+5V_DET
20
CLRU1
36
23
2
40
42
P+5V27
6
P+75V_R(Vda)
9
1
P+
75
V(V
da
)
1 1512
6
Vd
a_
RU
(+7
8V
)
6
P+
75
V(V
da
)
8
2 3
P+
75
V(V
da
)
Vd
a_
RU
(+7
8V
)
127
TO DR5(SC SIDE)
4 9
2 11
13 14
14
C24
11
Vd
a_
RU
(+7
8V
)
5
13
10
Vd
a_
RU
(+7
8V
)
4 5
8
7
Vd
a_
RU
(+7
8V
)
10
P+
75
V(V
da
)
Vd
a_
RU
(+7
8V
)
3
15
DOUTUA[28]
DOUTUB[28]
DOUTUC[28]
DOUTUC[31]
DOUTUB[30]
DOUTUA[31]
DOUTUB[29]
DOUTUB[31]
DOUTUC[29]
DOUTUA[30]
DOUTUA[29]
DOUTUC[30]
DSLL
DSLR
DMLR
DSHR
DMHR
DMLL
DMHL
DSHL
CY3 CX2
1-68
CB3
1-68
CB4
1-68
CB5
DR
V_
SO
S7
6
1076
C2
2
53
UM
HR
UM
LR
TO DR2(SC SIDE)
3
92
5 91
4
DS
LR
71
8
10
P+
5V
8
DS
HR
42
P+
5V
2
4
9
3
3
5
6
DM
LR
8
P+
5V
5 7
DM
HR
4
6
DS
LR
1
DS
HR
P+
5V
7 82
TO DR12(SC SIDE)
9
DR
V_
SO
S7
1 10
CY
2
10
C20
D31
CD2
CD1
CD1
CD2
D36
CY0
12
Vd
a_
RD
(+7
8V
)
7 149 11
P+
75
V(V
da
)
Vd
a_
RD
(+7
8V
)
1
4
8
1131
Vd
a_
RD
(+7
8V
)
P+
75
V(V
da
)
13
6
4
13
Vd
a_
RD
(+7
8V
)
10
9
5
Vd
a_
RD
(+7
8V
)
Vd
a_
RD
(+7
8V
)
3P
+7
5V
(Vd
a)
CY
4
TO DR14(SC SIDE)
8
2 15
5 1410
6
P+
75
V(V
da
)
7 12 152
C11 C21
<TNPA4019>
C2 DATA DRIVER (2)
C1 DATA DRIVER (1)
<TNPA4018>
PCDZ
12
Vda_RD(+78V)
3 DOUTDA[30]
51
13
14
46
P+75V_R(Vda)
22
31 +5V_DET
38
44
DOUTDC[31]
30
11
15
53
26
Vda_RD(+78V)
DOUTDB[28]
20 48
CLKD[7](+)
33
P+5V
DOUTDC[30]
9
54
41
DOUTDB[30]
55
29
8
23 DOUTDC[28]
21
CLRDZ
17
P+75V_R(Vda)
LEDZ
DOUTDB[29]
5
43
P+75V_R(Vda)
40
6
45
24
Vda_RD(+78V)
16
42
35 49
36
DOUTDA[28]
1
Vda_RD(+78V)
37
DOUTDB[31]
47
P+5V
DOUTDC[29]
34
7
32
DOUTDA[31]
10
2
P+75V_R(Vda)
19
50
Vda_RD(+78V)
4
27
18
DOUTDA[29]
25 39
P+5V
52
CLKD[6](-)
P+75V_R(Vda)
P+75V_R(Vda)
ODEDZ
28
CZ1 CY1
12
Vd
a_
RD
(+7
8V
)
7 149 11
P+
75
V(V
da
)
Vd
a_
RD
(+7
8V
)
GN
D
1
4
8
1131
Vd
a_
RD
(+7
8V
)
P+
75
V(V
da
)
13
6
4
13
Vd
a_
RD
(+7
8V
)
10
9
5
GN
D
Vd
a_
RD
(+7
8V
)
Vd
a_
RD
(+7
8V
)
GN
D
3
P+
75
V(V
da
)
CZ
4
TO DR13(SC SIDE)
8
2 15
5 1410
6
P+
75
V(V
da
)
7 12 152
CB1
1-68
CB2
1-68
24
11
18
ST
B+
3.3
V
12
20
PS
TB
5
28
3
11
19
14
1
8
21
10
27
25
25
7
4
26
30
24
4
3
E- LVDS1
29
22
S D
ATA
1
18
216
20
15
D6
9
O+ LVDS0
2
30
24
201 14
S C
LO
CK
2
O- LVDS0
10T
XD
13
5
7O- LVDS4
E+ LVDSCLK
17
27
16
16
RX
D
GN
D
11
23
O+ LVDS3
12
E- LVDS2
15
5
RE
MO
TE
25
3
E+ LVDS0
1984
IIC
_C
ON
T
PB
US
Y
E+ LVDS3
E+ LVDS2
18
E- LVDSCLK
E- LVDS4
O+ LVDS1
E- LVDS3
GN
D
7
IIC
_IN
T
P+
15
V
TO DN51
PD
B1
17
9
E+ LVDS1
15
O- LVDS3
6
O+ LVDSCLK
23
14
27
31
19
2
5
3
16
22
8
6
17
26
9
13
13
10
12
1
PS
LC
T
29
4
24
D5
18
20
19
28
11
E+ LVDS4
14
12
28
21
25
11
PD
B0
7
ST
B+
5V
30
4
O+ LVDS2
22
O+ LVDS4
21
9
S C
LO
CK
1
22
15
6
6
15
23
23
E- LVDS0
27
LVDS_DET
9
19
2
LE
D_
R
2
28
O- LVDS2
5
18
20
3
8
O- LVDS1
LE
D_
G
29
1
16
S D
ATA
2
14
8
31
17
O- LVDSCLK
30
26
21
10
13
13
10
2
7
12
17
1
26
29
16
12
13
5 5
13
6
7
11
3
20
17
15
14
2
18
16
10
8
18
19
9
7
4
8
1
15
20
16
12
6
11
17
9
10
19
1
4
14
3
2
D20
CPH
CSH
CEL2
P+5V
CLK
SOS6_SC1
SIU
SCSU
DRV_RST0
CMH
CML
CSL
SID
CSK
CEL
CL
TO SC20
TO DN2
CY1
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
ALL_OFF
TXD
STB+5V
S DATA1
PSLCT
PDB1
READY
GND
GND
INEXCH
GND
FSTB
GND
ALARM
P+5V
GND
S DATA2
IIC/INT
PSTB
RXD
PDB0
ECO_ON
GND
P+15V
DISPEN
S CLOCK1
S CLOCK2
PANEL_STBY_ON
IIC_CONT
PBUSY
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
FOR FACTRY USE
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND GND
GND
GNDGND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
(Exchange board only)
(Exchange board only)
!
(Exchange board only)<TNPA4028>
CY DATA DRIVER (Y)!
(Exchange board only)<TNPA4029>
CZ DATA DRIVER (Z)!
(Exchange board only)
DIGITAL SIGNAL PROCESSOR
PLASMA AI
SUB-FIELD PROCESSOR
FORMAT CONVERTER
D!
!
<TNPA4040>
CDCONNECTION
(Exchange board only)
C-BOARD/D-BOARD
!
<TNPA4040>
CDCONNECTION
(Exchange board only)
C-BOARD/D-BOARD
<TSXL518>
CABLECABLE
<TSXL518>
CABLE
<TSXL518>CABLE
<TSXL518>
<TSXL569>
CABLE
<TSXL568>
CABLE
<TSXL578>
CABLE
<TSXL579>
CABLE
<TZTNP02YLTJ>
1-68 1-68 1-68 1-68 1-68
!
TH-103PF9UK/EKInterconnection (5 of 8) Diagram
TH-103PF9UK/EKInterconnection (5 of 8) Diagram
D3
TH-103PF9UK / TH-103PF9EK
82
13.7. Interconnection (6 of 8) Diagram
CLKD5(-)
DOUTUA[19]
20
DOUTDA[19]
ODED9
DOUTDB[21]
DOUTUC[11]
P+5V
DOUTDA[17]
DOUTUB[21]
DOUTDB[15]
CLKD3(-)
CLKU2(+)
58
DOUTDA[11]
53
CLKU4(+)
39
DOUTDA[16]
DOUTDC[18]
60
DOUTUC[19]
27
DOUTDC[15]
DOUTDB[18]
61
63
29
DOUTUA[18]
DOUTDA[13]
55
6
C90
30
DOUTUA[12]
DOUTDC[21]
14
15
DOUTUA[15]
DOUTDB[10]
45
4 DOUTDC[19]
40
DOUTUC[13]
+5V_DET
37
9
10
DOUTUA[10]
24
38
52
DOUTDB[11]
PCU2
3
65
DOUTDB[12]
CLRU2
DOUTUA[11]
1
63
DOUTUB[13]
55
30
ODEU2
P+5V 19
54
DOUTUA[21]
7
DOUTUC[21] DOUTUB[17]
17
DOUTUB[16]
DOUTUC[17]
44
28
DOUTUB[18]
2 DOUTUA[20]
35
CLKD4(+)
CLKU5(-)
DOUTDA[14]
DOUTUC[18]
P+5V
DOUTUB[11]
DOUTDB[14]
21
34
31
22
DOUTDC[16]
DOUTDC[20]
26
23
DOUTDC[14]
62
48
DOUTDB[19]
25
21
49
DOUTDA[20]
68
31
59
26
DOUTUB[12]
28
DOUTUA[13]
62
14
35
CLKU3(-)
48
4
DOUTUC[10]
8
36
DOUTUB[14]
47
46
DOUTUC[12]
15
57
DOUTUB[10]
40
1
9
DOUTUA[14]
45
56
13
38
37
DOUTUA[16]
50
3
24
DOUTUC[16]
16
25
11
68
59
18
DOUTUC[14]
41
P+5V
66
10
DOUTUA[17]
52
65
LEU2
+5V_DET
DOUTUC[15]
8
DOUTDC[10]
67
47
56
DOUTDC[11]
DOUTUB[19]
42
58
57
DOUTUB[15]
39
18
DOUTDC[12]
P+5V
64
27
DOUTUC[20]
41
CLKD2(+) DOUTDB[16]
29
LED9
64
66
DOUTDA[21]
C40
DOUTDC[17]
DOUTDA[15]
DOUTDB[20]
PCD9
43
P+5V
DOUTDC[13]
51
7
13
DOUTDA[12]
50
17
16
44
12
33
11
2
34
5
CA9
46
19
67
22
32
CA10
54
42
23
20
36
DOUTDA[10]
43
DOUTDA[18]
51
DOUTDB[17]
53
CLRD9
60
61
DOUTDB[13]
6
49
12
33
5
DOUTUB[20]
32
CA11
C40
CD2
D32
CD1
C31 C41
1-68
CB9 CB10
1-68
CB11
1-68
12
4 111
P+
75
V(V
da
)
6 13
Vd
a_
RD
(+7
8V
)
7 149 11
P+
75
V(V
da
)
Vd
a_
RD
(+7
8V
)
1 8
3
Vd
a_
RD
(+7
8V
)
134
Vd
a_
RD
(+7
8V
)
CX
4
TO DR15(SC SIDE)
8
2 15
5 1410
6
P+
75
V(V
da
)
7 12 152
10
9
5
Vd
a_
RD
(+7
8V
)
Vd
a_
RD
(+7
8V
)
3
P+
75
V(V
da
)
TO DR4(SC SIDE)
P+
75
V(V
da
)
2
Vd
a_
RU
(+7
8V
)
8 9
C3
4
5 11
41 1412 158 10
6
Vd
a_
RU
(+7
8V
)
Vd
a_
RU
(+7
8V
)
15
Vd
a_
RU
(+7
8V
)
2 11
1 10
P+
75
V(V
da
)
139
Vd
a_
RU
(+7
8V
)
7 12
P+
75
V(V
da
)
3
3
Vd
a_
RU
(+7
8V
)
13
P+
75
V(V
da
)
76
4 14
5
40
32
50
27
43
Vda_RU(+78V) CLRU3
36
28
23
17
29
19
5
6
37
54
Vda_RU(+78V)
45
20
16
55
P+75V_R(Vda)
P+75V_R(Vda)
PCU3
13
42
7
P+5V
34
18
P+75V_R(Vda)
21
P+75V_R(Vda)
24
Vda_RU(+78V)
4
41
3
53
30
P+75V_R(Vda)
49
12
10
15
47
26
P+75V_R(Vda) 35
C32
2
48
ODEU3
P+5V
P+5V
22
51
39
38
44
Vda_RU(+78V)
1
14
52
33
P+5V
25
8
46 LEU3
3111
9
Vda_RU(+78V)
Vda_RU(+78V)
Vda_RU(+78V)
Vda_RU(+78V)
Vda_RU(+78V)
Vda_RU(+78V)
Vda_RU(+78V)
DRV_SOS7U_R DRV_SOS7U
DRV_SOS7D
CD1
D35
C90
CD2
C91CX1
P+75V_R(Vda)
8
P+75V_R(Vda)39
20
P+5V
49
43
7
28
DRV_SOS7D_R
LEDX
PCDX
DSHL
DSLL
DMLL
DMHL
55
40
32
23
48
ODEDX 34
P+5V
P+75V_R(Vda)
18
11
50
P+75V_R(Vda)
35
21
CLRDX
P+5V
51
P+75V_R(Vda)41
24
3
33
CX2
12
6
19
54
222
25
10
1
4
15
16
29
13
P+5V
9
47
46
17
26
31
36
5 45
P+75V_R(Vda)
27
37
52
53
44
14
42
30
38
Vda_RD(+78V)
Vda_RD(+78V)
Vda_RD(+78V)
Vda_RD(+78V)
Vda_RD(+78V)
Vda_RD(+78V)
Vda_RD(+78V)
Vda_RD(+78V)
Vda_RD(+78V)
Vda_RD(+78V)
Vda_RD(+78V)
35
P+5V
34
C41
18
2
48
21
P+5V
24
P+5V
22
4
51
41
40
39
3
38
53
44
30
1
49
14
5212
33
10
P+5V
15
25
47
8
26 46
3111
9 DRV_SOS7U_R
32
50
27
43
36
28
23
17
29
19
5
6
37
54
45
20
16
55
13
42
7
+5V_DET
DOUTUC[18]
DOUTUB[17]
DOUTUA[18]
DOUTUB[19]
DOUTUC[17]
DOUTUB[20]
DOUTUA[17]
DOUTUB[18]
DOUTUA[19]
DOUTUA[20]
DOUTUC[19]
DOUTUB[21]
DOUTUC[20]
DOUTUA[21]
DOUTUC[21]
DOUTUB[16]
DOUTUA[16]
DOUTUC[16]
CLKU4(+)
CLKU5(-)C23 C32
C91
12
34
42
8
DRV_SOS7D_R
P+5V
10
11
1
DSHL
14
35
40
21
22
23
P+5V
41
24
3
33
44
50
26
27
37
6
30
13
31
38
P+5V
36
19
54
P+5V
51
20
DMLL
4
15
7
DSLL
2
25
43
55
32
48
DMHL
9
47
18
28
29 49
46
17
52
5
53
45
16
39
CLKD5(-)
CLKD4(+)
DOUTDB[20]
DOUTDB[19]
DOUTDA[21]
DOUTDA[20]
DOUTDC[18]
DOUTDC[19]
DOUTDA[19]
DOUTDA[18]
DOUTDB[21]
DOUTDB[18]
DOUTDC[21]
DOUTDC[20]
DOUTDA[17]
DOUTDC[17]
DOUTDA[16]
DOUTDB[17]
DOUTDC[16]
DOUTDB[16]
+5V_DET
CY3 CX2
<TNPA4040>
CA8CA7CA6
1-68
CB7
1-68
CB6
1-68
CB8
GND
GND
GND
GND
GND
GND
GND
GND
GND
GN
D
GN
D
GN
D
GND
GND
GND
GND
GND GND
GND
GND
GND
GND GND
GND
GND
GNDGND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GN
D
GN
D
GN
D
GND
GND
GND
GND
GND GND
GND
GND
GND
GND GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
<TNPA4020>
C3 DATA DRIVER (3)!
(Exchange board only)
<TNPA4021>
C4 DATA DRIVER (4)!
(Exchange board only)
!
(Exchange board only)<TNPA4026>
C9 DATA DRIVER (9)
(Exchange board only)<TNPA4027>
CX DATA DRIVER (X)!
D
SUB-FIELD PROCESSOR
DIGITAL SIGNAL PROCESSOR
FORMAT CONVERTER
PLASMA AI
!
(Exchange board only)
C-BOARD/D-BOARD CONNECTIONCD
(Exchange board only)
!
!
<TNPA4040>
CD C-BOARD/D-BOARD CONNECTION
(Exchange board only)
CABLE
<TSXL518>
CABLE
<TSXL518>
CABLE
<TSXL518> <TSXL518>
CABLE
<TSXL576>
CABLE
<TSXL577>
CABLE
<TSXL571>
CABLE
CABLE
<TSXL570>
<TZTNP02YLTJ>
1-68 1-68 1-68 1-68 1-68 1-68
TH-103PF9UK/EKInterconnection (6 of 8) Diagram
TH-103PF9UK/EKInterconnection (6 of 8) Diagram
TH-103PF9UK / TH-103PF9EK
83
13.8. Interconnection (7 of 8) Diagram
DOUTDB[7]
41
12
66
DOUTUC[6]
33
10
5
52
32
DOUTDA[4]
8
20 GND
47
36
53
UMH
57
60
UEH
18
61
DOUTDA[5]
DOUTDC[8]
41
6
DOUTDA[6]
66
14
DRV_SOS8
4
USH
DOUTDC[0]
10 52
65
DOUTDB[6]
63
DOUTDA[9]
5513
DOUTDB[9]
30
50 64
DOUTDC[6]
16
11
43
19
51
54
DOUTUC[0]
34
22
29
DOUTUB[9]
22
23
C50
23
21
DOUTUC[5]
CB12
31
35
DOUTUA[9]
26
46
38
62
DOUTUA[2]
CB13
48
3
DOUTUB[8]
49
1
CB14
12
13
33 50
5
DOUTUB[5]
DOUTDB[8]
+5V_DET
DSLL
61
DOUTDB[1]
DOUTDC[1]
6
DOUTDC[4]
14
DOUTUC[9]
DOUTDA[2]
4
DOUTDB[0]
DOUTDA[8]
8
DOUTDC[9]
37
47
CLKD0(+)
24
34
25
68
28
58
44
59
2
35
39
28
67
45
27
42
37
29
24
C80
1-68
64
25
68
1-68
59
1-68
7
DOUTUA[1]
USL
UML
17
DOUTUA[0]
GND44
DOUTDB[4]
DOUTUA[7]
2
32
21
DOUTDB[3]
31
67
20
DOUTDA[0]
DOUTUB[0]
26
DOUTDC[7]
42
36
DOUTDC[2]
62
DOUTDC[5]
15
48
40
49
CLKU0(+)
9 DOUTUA[5]
DOUTDA[7]
16
15
DOUTDA[1]
11
40
DOUTUA[4]
19
DOUTDB[2]
9
54
38
7
DOUTUA[6]
3
17
CLKD1(-)
DOUTUB[4]
1
DOUTUC[3]
DOUTDB[5]
DOUTUB[2]
NUEL
DOUTUC[7]
DOUTDC[3]
DOUTUB[3]
DOUTUC[8]
DOUTDA[3]
DOUTUA[3]
56
58
39
27
DOUTUA[8]
65
DOUTUC[4]
63
DOUTUC[2]
55
DOUTUB[7]
46
30
+5V_DET
DOUTUB[6]
45
DOUTUB[1]
CLKU1(-)
43
56
DOUTUC[1]
51
53
57
60
18
C42 C53
8
2 15
5 1410
6
P+
75
V(V
da
)
7
9
12 152
10
9
DR
V_
SO
S7
51
Vd
a_
LD
(+7
8V
)
10
Vd
a_
LD
(+7
8V
)
C8
2
3
10
P+
75
V(V
da
)
12
42
4
1119
3
3
5
6
P+
75
V(V
da
)
DM
LL
8
P+
5V
65 7
DM
HL
134
Vd
a_
LD
(+7
8V
)
76
DS
LL
1
DS
HL
P+
5V
7 8 142 9 11
P+
75
V(V
da
)
Vd
a_
LD
(+7
8V
)
1 8
3
Vd
a_
LD
(+7
8V
)
134
Vd
a_
LD
(+7
8V
)
C8
4
TO DR2(SS SIDE) TO DR5(SS SIDE)
C51 C61
C71C81
TO DR14(SS SIDE)
P+
75
V(V
da
)
DS
LL
9 22
Vd
a_
LU
(+7
8V
)
8
5
9
C5
4
9
5 11
41 1 14
4
12 158
71
8 10
6
Vd
a_
LU
(+7
8V
)
10
Vd
a_
LU
(+7
8V
)
15
Vd
a_
LU
(+7
8V
)
2 11
1
P+
5V
8 10
P+
75
V(V
da
)
DS
HL
13942
Vd
a_
LU
(+7
8V
)
7 12
P+
5V
DR
V_
SO
S7
6
1076
C5
2
5
P+
75
V(V
da
)
33
3
DM
HL
Vd
a_
LU
(+7
8V
)
DM
LL
TO DR12(SS SIDE)
3
13
P+
75
V(V
da
)
76
4 14
5
CA13 CA14CA12
13
42
7
34
18
P+75V_L(Vda)
21
P+75V_L(Vda)
P+75V_L(Vda)
24
Vda_LU(+78V)
4
PCU6
41
3
53
30
P+75V_L(Vda)
49
Vda_LU(+78V)
12
10
15
47
26Vda_LU(+78V)
P+75V_L(Vda) 35
C53
2
48
ODEU5
P+5V
P+5V
22
51
39
38
44
Vda_LU(+78V)
1
14
52
33
P+5V
25
8
46 LEU5
3111
9
40
32
50
27
43
Vda_LU(+78V) CLRU5
36
28
23
17
29
19
5
6
37
54
Vda_LU(+78V)
45
20
16
55
P+75V_L(Vda)
Vda_LU(+78V)
Vda_LU(+78V)
Vda_LU(+78V)
Vda_LU(+78V)
Vda_LU(+78V)
PCU5
P+5V
C50
CD2
203 15
DR
V_
SO
S8
4
UM
L
8
12
UM
H
16
18
20
17
1 4
C8
8
5 14
13109
3
2
198 10
P+
5V
11
12
17
11
13
UE
L
14
UE
H
19
72
166
US
L
1
1815
US
H
6
TO SS44
7
9
5
TO DR15(SS SIDE)
P+
75
V(V
da
)
2
Vd
a_
LU
(+7
8V
)
8 9
C4
4
5 11
41 1412 158 10
6
Vd
a_
LU
(+7
8V
)
Vd
a_
LU
(+7
8V
)
15
Vd
a_
LU
(+7
8V
)
2 11
1 10
P+
75
V(V
da
)
139
Vd
a_
LU
(+7
8V
)
7 12
P+
75
V(V
da
)
3
3
Vd
a_
LU
(+7
8V
)
13
P+
75
V(V
da
)
76
4 14
5
10
76
Vd
a_
LD
(+7
8V
)
11
2
TO DR4(SS SIDE)
12 139 14
3
P+
75
V(V
da
)
Vd
a_
LD
(+7
8V
)
8
Vd
a_
LD
(+7
8V
)
Vd
a_
LD
(+7
8V
)
91
P+
75
V(V
da
)
12
32
14
4 8
11
Vd
a_
LD
(+7
8V
)
P+
75
V(V
da
)
6 13
5
157
C9
4
1 15
Vd
a_
LD
(+7
8V
)
5
10
4
P+
75
V(V
da
)
Vda_LD(+78V)
Vda_LD(+78V)
Vda_LD(+78V)
23
ODED8
Vda_LD(+78V)
P+75V_L(Vda)
Vda_LD(+78V)50
35
CLRD8
P+5V
41
3
C83
54
22
25
1
53
Vda_LD(+78V)
42
30
38
P+75V_L(Vda)
P+75V_L(Vda)
P+75V_L(Vda)
8
39
20
P+5V
49
43
7
28
LED8
PCD8
55
40
32
48
34
P+5V
18
11
P+75V_L(Vda)21
Vda_LD(+78V)
51
P+75V_L(Vda)
24
33
12
6
19
Vda_LD(+78V)
Vda_LD(+78V)
2
10
4
15
16
Vda_LD(+78V)
29
13
P+5V
9
47
46
17
26
Vda_LD(+78V)
31
36
5 45
27
37
52
44
14
4
C9
2
42 31
P+
5V
1 2 3
P+
5V
TO PC205
DRV_SOS7D_L
DSHL
DSLL
DMLL
DMHL
PCD7
8
20
(SS SIDE)
19
14
9 9
4
33
15
1
13
16
1717
18
13
18
10
2
11
7 7
11
12
20
6
14
2
8
16
5
12
5
PC202
4
10
19
6
15
1
20
10 18
19
97 178
P+
15
V
P+
5V
1
1
P+
5V
146
16
TO P25(SC SIDE)
13 14
3
4
13
2
P+
15
V
119 12
19
PC
20
3
10
5
178 18
15 20
15
4 11 16
3
12
5 7
ST
B+
5V
2
6
PC
20
5
42 31
P+
5V
1 2 3
P+
5V
TO C92
4
8
20
D25
19
14
99
4
3 3
15
1
13
16
17 17
18
13
18
10
2
11
77
11
12
20
6
14
2
8
16
5
12
5
PC201
4
10
19
6
15
1
C80
CD2
C93 C83
P+
5V
TO C43
3
3
1
1
2
P+
5V
4
PC
20
4
2
4
C4
3
42 31
P+
5V
1 2 3
P+
5V
TO PC204
4
D33
CD1
CD1
D34
DRV_SOS7U_L
PC
<TNPA4041>
GN
D
GN
D
GN
D
GN
D
GN
D
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GN
D
GN
D
TO P25
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
PANEL_MAIN_ON
F_STBY_ON
GND
STB+5V
P+5V
VDA_LOW
P+5V
P+15V
P+15V
SOS4_PS
GND
GND
GND
GND
GND
ALL_OFF
P+15V
P+15V
SOS4_PS
GND
GND
GND
GND
F_STBY_ON
GND
STB+5V
P+5V
VDA_LOW
GND
ALL_OFF
PANEL_MAIN_ON
P+5V
GN
D
GN
D
VD
A_
LO
W
AL
L_
OF
F
PA
NE
L_
MA
IN_
ON
SO
S4
_P
S
F_
ST
BY
_O
N
C4 DATA DRIVER (4)!
(Exchange board only)<TNPA4021> !
(Exchange board only)<TNPA4022>
C5 DATA DRIVER (5)
C8 DATA DRIVER (8)!
(Exchange board only)<TNPA4025>
C9 DATA DRIVER (9)!
(Exchange board only)<TNPA4026>
D
FORMAT CONVERTER
SUB-FIELD PROCESSOR
DIGITAL SIGNAL PROCESSOR
(Exchange board only)
!
PLASMA AI
<TNPA4040>
CD C-BOARD/D-BOARD CONNECTION
(Exchange board only)
!
<TNPA4040>
CD C-BOARD/D-BOARD CONNECTION
(Exchange board only)
!
CABLE
<TSXL518>
CABLE
<TSXL518>
CABLE
<TSXL518>
CABLE
<TSXL518>
<TSXL571>
CABLE
<TSXL572>
CABLE
<TSXL575>
CABLE
<TSXL574>
CABLE
POWER CONTROL!
(Exchange board only)
<TZTNP02YLTJ>
1-68 1-68 1-68
TH-103PF9UK/EKInterconnection (7 of 8) Diagram
TH-103PF9UK/EKInterconnection (7 of 8) Diagram
P+5V
P+5V
P+5V
TH-103PF9UK / TH-103PF9EK
84
13.9. Interconnection (8 of 8) Diagram
2
41
P23
1
8
ST
B P
S
DOUTDA[2]
15
3
2
ODED7
19
12
14
4
3
5
5
2
2
2
6
DOUTDC[1]
3
AC100V
3
17
1
ST
B+
12
V
18
10
4
STB PS
33
SS29
22
5
51
P56
5
3
7
SUSTAIN DRIVE
3
4
23
21
13
STB+12V
9
9
10
43
8
10
Vd
a_
LD
(+7
8V
)
6
15
7
2
4
1
5
SS55
6
52
1-13
10
45
DOUTDA[0]
5
6
3
11
46
8
DS
HL
P+15V4
14
1
11
1-19
49
13
10
6
9
1
CLKD[0](+)
29
11
P52
P+
75
V(V
da
)
7
7
19
DOUTDB[0]
Vda_LU(+78V)
14
P+
15
V
8
1
9
1
12
3
15
34
3
DOUTDA[1]
Vda_LU(+78V)
17
47
17
13
8
2
2
25
1-13
10
SS12
11
9
12
SS53
11
3
P2
DR
V_
SO
S7
31
SS52
UMH
53
5
4
3
4
5
15
2
3
P+
15
V
DOUTDC[0]
8
1
9
1-13
1-68
13
P+
5V
1
5
44
4
CLRD7
SS54
7
11
P+
75
V(V
da
)
CABLE
LEU6
P+75V(Vda)
P+
75
V(V
da
)
15
DOUTUC[3]
10
C71
Vd
a_
LU
(+7
8V
)
10
9
36
1-13
Vd
a_
LU
(+7
8V
)
ODEU6
9
4
DOUTUC[1]
33
6
4
DR
12
P+5V
1-13
3
2
<TSXL518>
LA
N+
15
V
7
23
6
2
39
SS27
6
4
7
52
Vd
a_
LD
(+7
8V
)
SS
8P54
46
3
11
CLKU[0](+)
38
3
DOUTUB[0]
1
8
DOUTUA[1]
26
6
10
SS61
14
25
31
P+5V
9
13
SS60
CLRU6
36
3
P+
75
V(V
da
)
P+5V
1
2
11
1-13
3
3
5
DOUTDB[2]
1
7
13
1
4
SS62
Vda_LD(+78V)
12
42
DR
4
39
11
38
8
CA15
3
1-13
19
P+5V
P+5V
9
6
4
10
1-13
DOUTUB[2]
Vda_LD(+78V)
20
<TNPA4035>
42
6
SS59
2
6
16
3
PCD7
4
DR
V_
SO
S7
AC100V
Vda_LD(+78V)
P+5V
<TNPA4036>
8
11
15
2
12
P+
15
V
5
5
15
UEL
4
1
5
Vda_LU(+78V)
PCU6
DOUTDB[3]
4
2
1
P9
9
10
14
15
1
Vd
a_
LD
(+7
8V
)
11
8
Vda_LD(+78V)
2
7
P+
15
V
10
24
1
Vda_LU(+78V)
Vd
a_
LD
(+7
8V
)
24
5
5
8
6
50
Vda_LU(+78V)
5
10
Vda_LD(+78V)
P+
15
V
7
3
9
12
P+
75
V(V
da
)
+5V_DET
3
20
Vd
a_
LD
(+7
8V
)
50
11 6
15
2
5
7
54
DOUTUA[3]
15
16
4
DR
2
Vda_LD(+78V)
10
13
6
14
12
7
P+75V_L(Vda)
18
+5V_DET
32
15
15
DOUTUB[1]
19
7
3
20
Vda_LD(+78V)
8
13
2
AC100V
10
54
1
55
1
10
2
DOUTDC[3]
8
2
P+75V_L(Vda)
P12
Vd
a_
LD
(+7
8V
)
2
9
9 9
7
P+
75
V(V
da
)
16
Vda+75V
11
P113
CB15
10
5
37
C51
DOUTDC[2]
1-13
12
7
SS35
2
4
2
3UEH
8
18
3
16D
ML
L
2
Vd
a_
LU
(+7
8V
)
CLKU[1](-)
2
STB_IN
2
32
4
3
12
1
Vd
a_
LU
(+7
8V
)
30
10
1
4
DOUTDB[1]
5
Vda+75V
Vsus
Vd
a_
LD
(+7
8V
)
1
6
8
3
15
19
12
28
USL
DM
HL
1
Vd
a+
75
V
3
3
2
CLKD[1](-)
USH
14
1
4
12
7
5
P+
75
V(V
da
)
C61
3
40
5
30
27
8
SS37
17
DR
5
17
Vd
a+
75
V
6
12
P+
75
V(V
da
)
2
6
4
43
6
Vda_LU(+78V)
6
8
SS36D
ML
L
4
DOUTUC[2]
P+75V(Vda)
9 14
28
CA16
P+75V_L(Vda)
SS30
CB16
8 11
12
16
8 11
26
P+75V_L(Vda)
2
1
1-19P
+5
V
16
SS2 SUSTAIN OUT(UPPER)
10
5
55
P+75V_L(Vda)
SS57
P+
15
V
5
P+
75
V(V
da
)
1
Vd
a_
LD
(+7
8V
)
21
P+75V_L(Vda)
P+75V_L(Vda)
7
6
7 6
8
6
8
P+
15
V
DM
HL
13
10
35
Vd
a_
LD
(+7
8V
)
P10
134
Vd
a_
LU
(+7
8V
)
Vd
a_
LU
(+7
8V
)
7
TO C82
15
7
2
6 7
P+75V(Vda)
DOUTUA[0]
27
5
TO C94
13
2
DS
LL
14
7
3
UML
9
8
P5
9
TO C84
1
DS
HL
9
2
14
17
12
TO F8
P+
5V
11
11
4
P+75V_L(Vda)
14
1
3
20
TO SS12
7
P51
9
AC100V
P+
75
V(V
da
)
1
Vda_LD(+78V)
2
P+
15
V
C61
DOUTUA[2]
13
10
DS
LL
8
P+5V
2
Vd
a_
LU
(+7
8V
)
6
14
7
6
9
5
9
Vd
a_
LD
(+7
8V
)
DR1
8
12
34
1
14
6
1-68
SS44
1
1
15
P+75V(Vda)
5
19
2
8
8
4
8
1
Vda+75V
C64
(SS SIDE)
7
3
1
TO C52
P55
SS42
DR13
37
TO C88
Vda+75V
Vd
a_
LU
(+7
8V
)
SS25
TO C54
8
2
14
10
9
5
Vda+75V
2
13
Vda+75V
13 4
3
TO PB31
4
20
7
+15V
9
P+75V_L(Vda)
Vda+75V
P+75V_L(Vda)
11
Vd
a_
LU
(+7
8V
)
P+
75
V(V
da
)
1
TO C44
P+
75
V(V
da
)1
P+75V_L(Vda)
P+
75
V(V
da
)
7
1
P+
5V
DR
15
7
13
SS21
SS56
6
22
6
1-13
Vd
a_
LU
(+7
8V
)
DOUTUB[3]
P+5V
4
18
5
P+75V(Vda)
1
1
51
SS58
4
P+75V(Vda)
P+
75
V(V
da
)
1-13
SS23
7
P+75V(Vda)
3
12
9
8
5
1-13
Vda+75V
P+75V(Vda)
5
1-68
DR3
8
15
45
3
LA
N+
15
V
Vda+75V
13
49
DOUTUC[0]
1-68
P+
15
V
5
+15V
Vda_LD(+78V)
48
48
2
10
C81
3
10
11
3
41
P+
75
V(V
da
)29
1
2
TO PC202
1
6
4
2
Vda_LU(+78V)
4
6
C74
15
Vda_LU(+78V)
40
P53
Vda_LD(+78V)
53
4
Vd
a_
LD
(+7
8V
)
6
2
2
5
Vd
a_
LD
(+7
8V
)
5
5
1-19
47
35
4
1
14
1
2
7
3
2
10
4
1
8
Vsus
4
6
8
7
2
3
4
9
3
14
LA
N+
15
V
GN
D
1-19
P+
75
V(V
da
)
Vda_LU(+78V)
44
3
16
5
7
Vda_LU(+78V)
Vd
a_
LU
(+7
8V
)
18
LED7
13
15
12
7
4
10
6
VSUS_VCC
SS2
DR11
3
DRV_SOS8
9
Vda_LU(+78V)
Vda+75V
Vd
a_
LU
(+7
8V
)
DOUTDA[3]
DR
14
Vda_LD(+78V)
18
3
20
12
SS51
14
10
14
13
C71
NO USE
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
NO USE
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GND
GND
GND
TO P12
P+5V
P+15V
P+15V
SOS4_PS
GND
GND
GND
GND
F_STBY_ON
GND
STB+5V
P+5V
VDA_LOW
GND
ALL_OFF
PANEL_MAIN_ON
GND
GND
NO USE
(SS SIDE)
<TNPA4039>
(Exchange board only)
<TNPA4100>(Exchange board only)
(SS SIDE)
(Exchange board only)<TNPA4023>
C6 DATA DRIVER (6)!
<TNPA4024>
C7 DATA DRIVER (7)!
(Exchange board only)
P(SUS) POWER SUPPLY
(SS SIDE)
(Exchange board only)
!
<ZTXMM641MG2>
<ZTXMM641MG1>
(SS SIDE)
P(MULTI) POWER SUPPLY
(Exchange board only)
!
!
(Exchange board only)
!
(Exchange board only)
!
<TNPA4037>(Exchange board only)
SS3 SUSTAIN OUT(LOWER)
<TSXL518>
CABLE
DR2 ENERGY DATA RECOVERY!
DR1! ENERGY DATA RECOVERY
Vsus ON/OFF
GND
PFC_ON
GND
GND
Vsus OUT
GND
TH-103PF9UK/EKInterconnection (8 of 8) Diagram
TH-103PF9UK/EKInterconnection (8 of 8) Diagram
P575 732 641
LIN
E_
1
LIN
E_
2
NE
UT
RA
L_
1
NE
UT
RA
L_
2
FOR FACTRY USE
P25
TH-103PF9UK / TH-103PF9EK
85
13.10. Main (1 of 2) Block Diagram
COLDCOLD HOHOTCOLD HOT
S34STB_PS
SC23
Vda
15V
STB_PS
SC20
SOS6
V115V
STB_PS_ON
P23
P10
HX1
P2
F_STB_15V
15V
STB_PS_ON
S1
+15V
P9
P5
SC2
P12
RS-232C
HX PC/232C
+15V(s)
VSUS
POWER SW
SC
DS14DS13DS11 DS12
DS
RL
DS2
DS9
AMP_R
VD
AMP_L
SOUND+15VHD
DS10
DS15
+15VDS4
LAN+15V
DN
DS1
FANx11
PB71
PB
PB30
+15V
FAN
PB51AVR
CONTROL
FAN_SOSDS30
+15V
DS3
DN6 DN1 DN3
DN51
SYNC PROCESSOR
LVDS TXDDR
MEMORY
FLASH
CONTROL
DS6
L
H1
R G
HA
B R
DVI-D
LVDS
CONT
R
DVI-D
H1
IN
HDDL
DVI-DDVI
30S.R
SU
30S.R
30S.R
30S.R
S.R30
30S.R
30
30
30S.R
S.R
S.R
30S.R
S.R
S.R30
30
30S.R
S.R
S.R
30
30
S.R
S.R
S.R
S.R
30
30
S.R
30
SM
30
30
30
30
30
S.R
30S.R
S.R
S.R
S.R
30
30
S.R
30
S.R
30S.R
S.R
S.R
S.R
S.R
S.R
30
30
S.R
SD
30
30
30
30
30
30
S.R
S.R
R
L
D.D. D.D.
DR11
CX4
CY CX
D.D.
DR2
D.D.D.D.
Vda DET
CY2
DR12
DR15
CZDR13
DR14
CZ4
CY0CY4
CZ1
D.D. D.D.
+78V(Vda)
D.D.
V1
V2
V15
V3
V3
P+75V(Vda)
P+75V(Vda)
Vda_LD(+78V)
Vda_LD(+78V)
D.D.
C34
C3
D.D. D.D.
C11
D.D. D.D.D.D.
C14
C20C24 C22
D.D. D.D.
C2C1
Vda_LU(+78V)
P+75V(Vda)
DR1
Vda DET
DR2
DR4
DR3
DR5
+78V(Vda)
C21 C23 C32 C31
CY1 CY3 CX2 CX1
PB31
P11VSUS
ON/OFF+5V
P25
SC81 SC84 Vbkadj
Vscn
SC80 SC83
Vad
SC12
15V
SC82
SC14
F16VF16V15V
AUDIOH51
H5 AUDIO OUT
SC13
SC34
SOS(PS/Vda)
CD1
CD2
CD
15
V
Vd
a
15V
DR1
+15V
ST
B_
PS
ST
B_
PS
_O
N
Vd
a,1
5V
VSUS
VSUS
SOS7
SOS7
Vda_CONT
P+75V(Vda)
Vda_LD(+78V)
Vda_LU(+78V)
P+75V(Vda)
COMPONENT
CONVERTERDC-DC
SC2
SELECT
COMPONENT
SOUND
SELECT
CONTROL
SOUND
SYNC
SELECT
R
L
OUT
SIGNALPROCESSOR
DIGITAL
DATA DRIVER(1) DATA DRIVER(2)DATA DRIVER(3)
DATA DRIVER(X)DATA DRIVER(Y)DATA DRIVER(Z)
VIDEO INCOMPONENTAUDIO
INPC AUDIO IN PC
SYNC
SEPA/SW
FAN_CONT
FAN_CONT
FAN_SOS
REMOCON RECEIVER
KEY SCAN
STAND_BY LED_R
POWER LED_G
KEY SCAN
LED_G,R
REMOCONRECEIVER
GENE
GENE
TX
LVDS RX
PROCESSOR
DIGITALSIGNAL
10bit
MCU
Vda_CONT
CONTROLPULSE
VOLTAGE
SUSTAIN
SCANPULSE
PULSE
GENE.
SCANDRIVE
SCAN OUT
SCAN OUT
SCAN OUT
/SOUND PROCESSOR
SLOT INTERFACE/SYNC PROCESSOR
VOLTAGE
POWERRECTIFIERSTB5V
CONTROL
5V
15V
VOLTAGE
VOLTAGE
RECTIFIER
FILTER
RELAY
SUSTAINRECTIFIER
RECTIFIER
STANDBY
RECTIFIER
FILTER
CONTROL
12V
PROCESS
SUSTAIN
VOLTAGE
STANDBY
LINE
VOLTAGE
CORRECTOR
CONTROL
STB15V
VDA
PROCESS
FACTOR
VOLTAGE
LINE
1
2
3
5
7
4
6
8
9
10
11
16
17
18
12
13
14
15
SUPPLY(SC SIDE)
POWERP
ENERGYRECOVERY
ENERGYRECOVERY
AUDIO IN
TH-103PF9UK/EKMain (1 of 2) Block Diagram
TH-103PF9UK/EKMain (1 of 2) Block Diagram
TH-103PF9UK / TH-103PF9EK
86
13.11. Main (2 of 2) Block Diagram
COLDCOLD HOHOTCOLD HOT
Vda
SS35
SOS8
SS2
SUS
SS
SS44
Vda
SS2
Vda
SS25
15VSS21
SS3
SS36
SS30
SS12
VSUS
SS29
SS27
SS23
SS37
+78V(Vda)
Vda DET
SS42
DR4
DR2
DR5
DR3
DR1
DR1
Vda_RD(+78V)
C7
D.D.D.D.
C71 C74
D.D. D.D.D.D.
C8C84C82
PROM
D5 D35 D34
D
FLASH
D20
SOS7
D31
EEPROM
MEMORY
CLK
SCAN CONTROL
D33
D36
DDR
SUS
D32
C9
D.D.
C94
D.D.D.D.
P+75V(Vda)
C90
C81C83C93 Vda_RD(+78V)
P+75V(Vda)
C80 C88
C91
Vda_RU(+78V)
D.D.D.D.
DR11
P+75V(Vda)
Vda_RU(+78V)
C40 C50C44
C5C4
D.D.
DR2
D.D.
C41
D.D.
Vda DET
C52
DR12
DR15
C6
DR13
DR14
C64C51
C54
C61
D.D.
C53
D.D.
+78V(Vda)
C42
P+75V(Vda)
D.D.
C43
C92
15V
15V
15V
SOS8
SUS
15V
SUS
SOS8
PC202
STB3.3V
(1.2V)3.3V1.5V
PC201
204PC
AND
OR
SW
F9 F8
AC IN
F1
F LINE FILTER
PC205
PC203
SOS(PS/Vda)
+15VSTBY5V
+5V
SOS(PS/Vda)
+5V
ON/OFF
ON/OFF
SOS(PS/Vda)
+5V
+5V
+5V
STBY5V+15V
ON/OFF
D25
CD2
CD1
CD
CD2
CD1
CD
CD2
CD1
CD
CD1
CD2
CD
CD1
CD2
CD
SOS6
(NO USE)
Vda_CONT
+5V
SO
S7
SOS8Vda_CONT
SOS7
SOS7
SOS7
Vda_RU(+78V)
P+75V(Vda)
Vda_RD(+78V)
P+75V(Vda)
PC
DATA DRIVER(4) DATA DRIVER(5) DATA DRIVER(6)
DATA DRIVER(7)DATA DRIVER(8)DATA DRIVER(9)
GENE
GENEVda_CONT
Vda_CONT
PANEL POWERCONNECTION
MICOM CONTROLSUB-FIELD PROCESSORPLASMA AI
DATA DRIVER
FORMAT CONVERTERRGB PROCESSOR
LVDS RECEIVER
DISCHARGE CONTROL
FPGA CONTROL
SYNC PROCESSING
FLASH CONTROL
FORMAT CONVERTERPLASMA AI PROCESSOR
CONVERTERDC/DC
VOLTAGE
SUPPLY
POWERRECTIFIER
P2
+15V
STB5V
CONTROL
5V
15V
P12
VOLTAGE
P5
VSUS
VOLTAGE
RECTIFIER
FILTER
RELAY
P25ON/OFF
SUSTAIN
Vda
P11
RECTIFIER
RECTIFIER+15V
(SS SIDE)
F_STB_15V
STANDBY
+5V
P23
RECTIFIER
FILTER
15V
P10
CONTROL
12V
15V
SOS(PS/Vda)
15V
PROCESS
SUSTAIN
VOLTAGE
STANDBY
POWER
LINE
VOLTAGE
CORRECTOR
CONTROL
STB15V
VDA
P
STBY5V
P9
PROCESS
FACTOR
VOLTAGE
LINE
SUSTAIN DRIVE
ERASE
VOLTAGE
PULSE
(VE)
PULSESUSTAIN
ADDRESS
(NO USE)
(NO USE)
LINEFILTER FILTER
LINE
1
17
16
12
14
15
13
18
11
2
8
6
7
43
10
9
5
SUSTAINOUT
OUTSUSTAIN
RECOVERYENERGY
ENERGYRECOVERY
TH-103PF9UK/EKMain (2 of 2) Block Diagram
TH-103PF9UK/EKMain (2 of 2) Block Diagram
TH-103PF9UK / TH-103PF9EK
87
13.12. P-Board (1 of 2) and F-Board Block Diagram
L.F L.F L.F
+
L.F L.F
L.F L.F
VsusVsusVsus
D1601
F1601
F1602
D1602
L1601 L1602 L1603
R1607
R1605
R1606
R1608
Q1
60
2
G
D
S
Q1
60
3
G
D
S
Q1
60
7
G
D
S
Q1
60
6
G
D
S
D1606
R1635
R1636
R1631
C1620
R1639
R1638
R1637
R1633
R1632
D1605 D1609
ZD1602
F201
R1644 R1642
R1643
R219R221R222 R220
Q203G
D
S
Q204G
D
S
Q202G
D
S
Q201G
D
S
LF905
1*
2*
3*
4*
LF906
1*
2*
3*
4*
F901
F903
LF902
1*
2*
3*
4*
F900
F904
LF903
1*
2*
3*
4*
(+4.7V)
K1601
3
P9K1602
1
RF1601 3A
AC+
AC-
+AC
-AC
L1604
PFC
OVP
9ON/OFF
4
Q1608Q1609
1
+SOCL
3
(IDET)
7
11 GATE
6 GND
Q1604Q1605
MC1601PFC MODULE
MAIN
7
RUSH
8
RELAY RELAY
6
BIAS-PFC
(VCC-OUT)
PFC-SUS
15
Q206
Q205
2
VDD
V+
9
I+
SH
24
0V
25
SLGL
12
VCCSG
IRS
13
GH
BIAS
Vsus
5 10
ON/OFF
I+
6
VCO
STOP
22
23
1
P1
P2
P2
T201
P1
Zero VoltageSwitching Controller
MC201
POWER SUPPLYVsus
R278
P11
C255
R260
S1
D251
Vsus
R282
R279 R261
Vsus
R264
S2
R267
1
D252
R277
S2
P2
R257
R262
T2
R266
S1
VR251
T1
D255
R281
D253
D254
VSUS
R280
C256
R268
R254
1
R265
PC201
PC202PFC ON/OFF
Vsus ON/OFF
RELAY/PFC CONTROL MODULE
MC202
(18V)VCC
10
VIN(VDET)
H:ON
L:ON
3
SUS
ON/OFFPFC
11ON/OFF
2
ON/OFF
BIAS
L:ON
4
P52
1
1
P54
1 VCC-IN
5
TIMING
4
-GND
CAP
BIAS
GND
P56
PFC_ON
Vs_STOP
7
1
5Vc_OUT
2
6
TO P55
Vs_OUT
8
HV(SUS)_ON
STB_IN5Q251
AC_N
AC_L
VSUS_VCC
COLDHOT
COLDHOT
TO P51
TO P53
D1603 D1604
ZD251ZD252
ZD253ZD254
ZD255ZD256
TO SS2
TO SC2
TO SC82TO F9(SC SIDE)TO F8(SS SIDE)
(SS SIDE)
(SC SIDE)
(SS SIDE)
(SC SIDE)NO USE
NEUTRAL
3
4
TO P9(SC SIDE)
1
1
TO P9(SS SIDE)
1
F9
4LIVE
NEUTRAL
F1
F8
LIVE
AC240V 5A
NEUTRAL
LIVE
AC240V 5A
P(SUS) POWER SUPPLY
(Exchange board only)
!
<ZTXMM641MG2>
<TNPA4055>
F LINE FILTER
(Exchange board only)
!
!
!
UK : <K2CG3YY00011>
EK : <K2CN3YY00003><K2CT3YY00002>
<K2AHYH000009>
AC CORD
AC INLET
UK : AC 240V, 50 / 60HzEK : AC 220-240V, 50 / 60Hz
<K5D103BMA001>
<K5D103BMA001>
!
!
TH-103PF9UK/EKP-Board (1 of 2) and F-Board Block Diagram
TH-103PF9UK/EKP-Board (1 of 2) and F-Board Block Diagram
TH-103PF9UK / TH-103PF9EK
88
13.13. P-Board (2 of 2) Block Diagram
L.F L.F
+
+5V+5V+18V+18V
Vda+75VVda+75V
+15V+15V
+5V+18V
Vda+75V
+15V
F1702
D1701
L1701F1701 L1702
R515
R509
L502
R514F501
R511 R512
R510
L504
D1702
R1708
D1704
R1706Q1702
G
D
S
D1711
R1704
Q1701G
D
S
R1705
D1705
F301
R1732R1727
C1715
R1729
R1750
R1761
R1731
R1728R1733
R1740
R1742
R529
R581
R528
R530
R1741
Q301
G
D
S
Q302
G
D
S
R1751
K1701 K1702
1
P51
4
RF1701 3A
DIS
CH
G
AC
_L
5
1
S1A
16
D502
5
S2A D551
6 2
Source
Drain IC501Control
4
IPD
B5
3
P2
B6
20
GN
D
S1B
CO
NT
RO
L
Q501
7
B2
P53
1
17
D504
4
P1
T501
VB
ias
D503
B4
Q502
18
DISCHARGE
B3
D511
ST
B+
5V
B1
GN
D
GN
D
ST
B+
5V
AC
_N
19
D508
S2B
AC DET
AC-
AC+
D501
PG-STB
RECTIFIER
(STB)
D1703
AC-
RECTIFIER
AC+
10
L1705
GND
Q1703Q1704
MC1703PFC MODULE
(VDET)(18V)
PFC_15V
OVP 4
1
VINVCC +SOCL
3
(IDET)
7
11 GATE
6
P1
P2
S2
S1
D351
D402T301
D403
D404
D405
D352
S5
S4B
S3
S4A
Q303
Q304
MAIN
7
RUSH
8
RELAY
4
RELAY
5
GND TIMING
RELAY/
MC502
PFC CONTROL MODULE
6
VCC_OUT
Q1707Q1708
14
VCC-IN
1
PGC_ON/OFF 3
13Fsw_Low
1215V_ON/OFF
ON/OFF
9
I+
9
SH
2
GH
61
GL
11
Fsw-ON
13
ON/OFF BIAS
12 22
V+VCC
25
VR35115V
AC_DET
20
15
V_
OU
T
PF
C_
ON
325 14
Vd
a_
ON
(VD
D)
10
MC701
15
Vd
a_
LO
W
12
2
15
V_
IN
SU
S_
ST
OP
BIA
S_
ON
Vd
a_
OU
T
22 24
SW
_M
AIN
56
5V
C_
OU
T
21 17 8
11
26
SU
S_
ON
18
F1
5V
_O
UT
9
GND
ST
B_
OU
T
PA
NE
L_
ON
SU
S_
OU
T
AL
L_
OF
F
F_
ST
B_
ON
PS
_S
OS
ST
B_
IN
4
POWER MCU MODULE
7
POWER CONTROL
MC601
MODULE
MC301Vda/STB POWER CONTROL MODULE
HOT COLD
BAIS ON/OFF
PC505
PFC ON/OFF
PC506
Q1706
Q06
VO
UT
Q02
Q01
11 10
Vda
L401
ZD401
6
D401
MC401 Vda CONTROL MODULE
78
IC01Q04
Q406Q405
FB
1
PG SG
9
VIN
5 3 2
OC
L
Q404
VR401
Q03
Q05
L402
1
STB+5V
1
P12
+15V
16
8
4
+15V
7
F STB+15V
P25
2
1
10
Vda+75V
17
18
SW_MAIN
4
D358
P+5V
+15V
PS_SOS
P+5V
PANEL_ON
Vda_Low
ALL_OFF
P10
7
10
3
+15V
2
1
Vda+75V
P+15V
F STB+15V
F_STB_ON
2
F STB+15V
1
2
13
STB PS
20
+15V
8
P+15V2
+15V
+15V
P+15V
+15V
9
P5
P23
6
P55
STB_IN
Vs_OUT
8
HV(SUS)_ON
6
PFC_ON
1
5Vc_OUT
5
2
Vs_STOP
7
Q553
BIAS_ON/OFF 2
PC507Vda ON/OFF
Q352
Q354
Q353
Q551
Q351
Q552
ZD353
13
F1
5V
_O
N
16
15
V_
ON
ZD351
1
ST
B_
ON
D554
15V_ON
5V
C_
ON
19
D555
D556
STB_ON/OFF
5V_ON
F STB+15V ON/OFF
(+15V)(+15V)
D355
TO P52
TO P54
AC_N
AC_L
VSUS_VCC
HOT COLD
FORP57
1
7
3
5
ZD504ZD505ZD506ZD507
ZD510ZD511
ZD508ZD509
FACTORYUSE
TO P56
(SS SIDE)
(SC SIDE)NO USE
TO SC23
(SS SIDE)
(SC SIDE)TO DS4
TO PB31
(SC SIDE)TO SC12
(SS SIDE)TO SS12
TO PC203
(SS SIDE)
(SC SIDE)TO PC202
NO USE
TO DS10
(SS SIDE)
(SC SIDE)
<ZTXMM641MG1>
P(MULTI) POWER SUPPLY
(Exchange board only)
!
<K5D502BNA007>
<K5D502BNA007>
!
!
TH-103PF9UK/EKP-Board (2 of 2) Block Diagram
TH-103PF9UK/EKP-Board (2 of 2) Block Diagram
TH-103PF9UK / TH-103PF9EK
89
13.14. HA, HX, PC, PB, V1, V2 and V3-Board Block Diagram
VCC
GND
OUT
Y
Pb
Pr
R
G
RM001
IC30021
A0
2A1
3A2
4GND
5SDA
6SCL
7WP
8VCC
JK3001
G
Y
G
G
G
Pb
G
G
G
Pr
G
G
D879
JK3511
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
D1550
D872
D864
D884
JK3002
D876
+5V
JK3509
1
2
3
4
5
8
9
6
7
D877
IC850
+9V
D867
D885
+5V
D874
JK3513
D869
D887
D882
Q850
VDA_LOW_R
3
3
9
PB71
RE
LA
Y
15V
1
1
2
2
6
2
Y
5
3
PC G
1
TXD
PB59
1
3
7
2
R
2
2
8
PC B
2
15
PC204
TO P5
3
RXD
RXD
DR15V
3
2
WC
9V
PC202
PB31
1
PB54
17
EEPROM
3
1
1TO P25
HX1
2
DR15V
15V_L
9V
2
3
F_STBY_ON_L
36
3
2
REMOCON
1
8
PC203
1
STB3.3V
16
3
1
1
H1
5V_L
V3
2
3
10
TO DS2
17
RE
LA
Y
2
R
PB64
2
A21
2
1
RE
LA
Y
3
5V_L
PB62
DR15V
PB69
18 3
1
VIDEO IN
DS14
20
RE
LA
Y
L
PC AUDIO IN
13
RE
LA
Y
AMP
A28
RE
LA
Y
A26
Q3002
PC R
PB51
8
7
1
R AMP
VDA_LOW_L
Pb
3
Q3532
9
PB56
STB5V
2
15V_L
5
AMP
TO P25
DDC EEPROM
PC205
COMPONENT
(P-BOARD SC SIDE)
L
TO C92
L
Pr
6
1
PANEL_MAIN_ON_L
A36
3
SOS4_PS_L
LED
TERMINAL BOARD
2
FAN SOS
ALL_OFF_L
AUDIO IN
3
LED_G
PC IN
LED 11 TIMES
2
5V
3
3
Q3001
4
PC201
12
1
LED_R
VCC
R
3
3
PC Rs
SOS BLINKING TIMES:
16
13
RE
LA
Y
FAN CONT
1
RS-232C
5V
9V
2
2
SCL
17
INFORMATION
1
VOLTAGE
SDA
1
14
3
IC3502
5V
2 1
1
DS13
V1
+5V
2
3
18
TO DS30
2
20
2
SOS4_PS
CONTROL
2
TO DS2
ALL_OFF
FAN SOS
1
10
REGULATOR
1
KEY_SW
B25
FAN CONTROL
SW1554
L AMP
10
PB30
4
2 4
STR
Q3531
9
VOL.UP
VCC
5
SW1551
P+5V
IC201
B24
5
TO C43
SW1552
OR GATE
2
P+5V
AND GATE
VOL.DOWN
Q202
A22
1
1
VCC
1
STBY5V
TRIGGER
F
RE
LA
Y
13
2
Q204
TV/VTR
1
7
1STBY5V ON
1
SW1550
RE
LA
Y
VDA_LOW
P+5V
3
5V ON
RE
LA
Y
P+5V
9
SW1553
3
PB66
PB61
V15
15V
11
TO D25
TO DS15
IC202
13
PANEL_MAIN_ON
12
215V
20 5
1
F_STBY_ON
(P-BOARD SS SIDE)
IC203
Q1540
3
15V
2
3.3V AVR
4
3
1
AMP/SW
TXD
F_STBY_ON_R
3
Q203
SCL
1
PB53
PANEL_MAIN_ON
3
TRIGGER
VD
VIN
RE
LA
Y
SOS4_PS_R
VOUT
PC Ls
2
10 AMP/SWA38
1
STBY5V_R
Q201
SDA
2
1
1
A34
16
HD
5V_R
1
5V_R
13
7
POWER CONTROLPC
<TNPA4041>
!
(Exchange board only)
!
<TNPA4085>
(Exchange board only)
(Exchange board only)
REMOCON RECEIVER
KEY SCAN
V1
<TNPA4086>
V2
<TNPA4087>
V3
LED_G,R
!
!
(Exchange board only)
(Exchange
<TNPA4103>
!
FAN CONTROL
PB
board only)
HA COMPONENT VIDEO!
(Exchange board only)
! PC/232CHX
(Exchange board only)
<L6FAYYYH0031>
FAN (120)
<L6FAYYYH0031>
FAN (120)
<L6FAYYYH0031>
FAN (120)
<L6FAYYYH0031>
FAN (120)
<L6FAYYYH0031>
FAN (120)
FAN (120)<L6FAYYYH0031>
<L6FAYYYH0031>
FAN (120)
<L6FAYYYH0031>
FAN (120)
<L6FAYYYH0030>
FAN (80)
FAN (80)<L6FAYYYH0030>
<L6FAYYYH0030>
FAN (80)
<TZTNP01YLTW>
<TXNHA10RBS>
<PNA4701M05TV>
REMOCON RECEIVER
TO
TO
TH-103PF9UK/EKHA, HX, PC, PB, V1, V2 and V3 Block Diagram
TH-103PF9UK/EKHA, HX, PC, PB, V1, V2 and V3 Block Diagram
TH-103PF9UK / TH-103PF9EK
90
13.15. HDD-Board Block Diagram
RX0+
RX2-
RX2+
RX1-
RX1+
RX0-
119
64
41
60
76
11
81
9
86
78
47
61
93
75
104
51
71
8054
63
99
3
35
32
83
53
58
70
40
72
19
21
39
17
40
16
56
121
57
36
98
47
5
2
JK3001
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
11
+5V
46
8
65
12049
55
22
14
54
27
33
62
43
77
20
44
74 69
79
52
53
44
38
124
15
86
52
3
85
STB+5V
30
51
JK3501
34
123
48
99
94
+3.3V
+9V
106
66
20
14
59
10
41
122
37
LAN15V
73
60
48
56
31
63
74
13
97
1
42
50
12
46
25
4
37
90
45
77
55
24
126
10
23
75
30
27
34
92
59
96
26
127
91
128
B14
STB+5V
8
B11
LEVEL SHIFT
1
7
EVEN_G0-G7
A9
DVI_SDA
C_SDA
ODD_B5
TX
EC
5
EVEN_G6
TX2+
15
TX9+
B8
TX9+
5
TCLKOUT-
WP
H1
TX3+
TXEB0
TX
OC
3
TXEE+
3
14
SCL_EQ
LEVEL SHIFT
TX
EC
3
TXED1
TXC-
EVEN_B0-B7
B1
EEPROM
TX5-
B24
A13
TX0+
PW
DD
NB
Q3511
TX
EC
1
TX
EC
6
SLOT SCL
IC3103
8
TXOA-
OD
D_
R7
TXEA6
1
7
IC3901
LAN+15V
INTERFACE
-
EV
EN
_B
1
TMDS_RX2+
LVDS_PD
OD
CK
2
B2
TX1+B6
MO
DE
0
TXEA+
DVI_SDA
-
3
TX
EC
2
STB+5V(3.3V <-> 5V)
EVEN_G1
SDA_EQ
TMDS_RX1-
6
OD
D_
R2
TX3-
DATA RECOVERY
PR
ES
ET
11
TX
OC
0
TX2-
TX7+
TX5+
TX
EB
6
SLOT9V
TXEC+
TX5+
B2
A14
TXOC+
OD
D_
R3
8
7
STB5V
EV
EN
_B
3
SCL
TX7-
TX8-
C_SCL
OD
D_
R0
TX4-
SDA1
TX6+
TX
ED
4
A2TXEE- TX4-
TXOE-
OD
D_
R4
VCC
TX0-
TX8-
IIC BUS REPEATER
TX6-
EV
EN
_B
4
LVD
S_
PD
6
DVI_SDA
OD
D_
R1
A22
ODD_G7
8
TX1-
TX0-
TMDS_RX1+
LAN+15V
+
STB 5V
B15
TXC-
DVI_SCL
SC
DT
EVEN_G3
OD
D_
R6
IC3902
DVI_SCL
SLOT5V
TXOD1
PRESET
SDA
16
TXOE+
SLOT5V
DE
(3.3V <-> 5V)
TX8+
TX
OD
5
+5V
DVI_SDA
VS
YN
C
OD
D_
R5
SLOT3.3V
ODD_G6
LATCH
SLOT_SCL
A2
TMDS
Q3501
4
3
TX2+
A17
A12
TX9-
TX
OD
4
IC3201
B25
6
HS
YN
C
SLOT_SDA
EEPROM
VCC
SCL
TX
EC
4
TXC+
EVEN_G4
TXOB+
EV
EN
_B
7
TX0+
/OE2
TX
EB
5
5
A19
IC3001
+
B23
SYNCHRONIZATION
TX5-
SRQ
6
TXOD3
TXEA5
FHD:H
-
C_SCL
SDA
TXC+
TMDS_RX0+
A26
TMDS_RXC-
A4
VCC
EV
EN
_B
0
VS
YN
C
5
LEVEL SHIFT
6
TX3+
B12
A8
Q3100,Q3101
TXOD-
EVEN_G7
P2
5
DECODER
VS
YN
C
DE
VCC
B9
TX4+
B17
ODD_G2
TX4-
TXEA4
TX2-
DE
DVI RECEIVER/HDCP
RE
SR
VD
B39
AND
IC3105
2
EV
EN
_B
2
TX
EC
0
TXEC-
(3.3V <-> 5V)
SYNC_DET
B21
ODD_G5
IC3102
-
EV
EN
_B
6
VCC
TXOB5
PANEL
SDA1
FHD/SD,HD
ODD_G1
OD
CK
SRQ
TXOD+
PLUGDET
AUDIO IN L
ODD_R0-R7TX8+
7
6
IC3101 TX6-
TX7-
SLOT3.3V
EVEN_G2
ODD_G4
SCL_HDCP
AUDIO_R
SLOT_SCL9
8
+3.3V
7
TXEA0
DVI_SCL
B3
EVEN_B1
7
TXOC-
EV
EN
_B
5
7
ODD_B7
A7
B2
ODD_G3
L
TMDS_RX0-
B19
TO DS12
TX5+EVEN_B5
TXOB0
TX7+
SDA_HDCP
A28
B1 FHD:H
TXED0
TX4+
TXOB-
R
AUDIO_L
TX3+
A21
TXC-
ODD_B2
EVEN_B6
A1
TX6+
WP(CONFIG)
B5
TXED2
ODD_G0
TX7+
BUFFER+3.3V
EVEN_B2
5
LATCH TX6+
TX1-
WP
ODD_B3
HS
YN
C
TXOA+
TX9+
ODD_G0-G7
EVEN_B0
TX5-
TX9-
AUDIO_L
6
TX8-
AUDIO IN R
TX7-
A23
TX6-
TXED-
LATCH
EVEN_B3
SCL0
ODD_B0
DVI-D IN
5
2
TX1-
TXOA5
TMDS_RXC+
SCL1
TXED3 TX0-
TX1+
TXEA-
SLOT SDA
A10TX2+
A40
+
SDA0
ODD_B4
EVEN_B4
TXEB+
TXED+
DVI-D AUDIO IN
TXOA0
A1
TXC+
TX0+
EVEN_G5
SCL
P6
H0
TXOD2
LVDS TX
DVI_SCL
TX
OB
6
ODD_B0-B7
TX9-
SLOT9V
3
AUDIO_R
EVEN_B7
OD
CK
TX8+
ODD_B1
+5V
DDC+5V
TXEB-
B40
SDA
TX
ED
5
2
TX3-
IC3906
A2
TX4+
WP(EDID)
TX3-
P3
PLL
TMDS_RX2-
TX2-
A3
A15
TX
OB
5
TXOD0
TC
LK
IN
C_SDA
SCL1
EVEN_R0-R7
+
EVEN_G0
+5V
TCLKOUT+
ODD_B6
SLOT_SDA
HS
YN
C
TX1+
A5
8
(Exchange board only)
HDD!
<TNPA4052>
DVI-D IN
TH-103PF9UK/EKHDD-Board Block Diagram
TH-103PF9UK/EKHDD-Board Block Diagram
TH-103PF9UK / TH-103PF9EK
91
13.16. DS-Board (1 of 2) and H3-Board Block Diagram
12V
SLOT5V
9V_2
5V_M
STB3.3V
D_3.3V
A_3.3V
A_1.8V
A_3.3V
FAN5V
9V_2
SLOT3.3V
D_3.3V
SOUND15V
D_3.3V
A_5VA_1.8V
P5V
D_1.8V
SLOT9V
D_1.8V
A_5V
JK8501L
L-G
R
R-G
VIN
L OUT
TONE
AVR 9V
5
1
6
AVR 5V
2
RESET
AVR 3.3V
IC2303
A
G
C
TO P5
BAL
VINSW
4
5
5
VIN
VIN
32
5
DS9
VDD
8
6
SOUND MUTE
CE
IC803
AUDIO R
2
2
AVR 1.8V
7
1
+15V
DS4
IC8100
EQUALIZER
AMP
2
3
SOUND CONTROL
37
IIC ON/OFF
R OUT
73
71
2
VOUT
7
SDA
L
4
SCL
VCC OUT
SDA3
1
SCL3
1
IC802
338PHASE2
1
5
IC804
3
7
1
IC2305
8
LPF
2
1
SW
VOL
VIN
IC3008
SHIFT1
2
67
3
8
S_DATA3
AUDIO L
27
D2303
SOUND+15V
RSTB
+15V
S_CLOCK3
+15V
SOUND+15V
VINSW
6
R
8
1
IC801
AVR 12V
Q2372MUTE SW
SOUND+15V
Q2503Q2501
Q2502
D2302
AUDIO OUTL LINE OUT
3
1
R LINE OUT R
H51
L
DS
SOUND PROCESSOR<TNPA4217>
!
SYNC PROCESSOR
(Exchange board only)
SLOT INTERFACE
AUDIO OUT
<TNPA4058>
H5!
(Exchange board only)
(P-BOARD SC SIDE)
TH-103PF9UK/EKDS-Board (1 of 2) Block Diagram
TH-103PF9UK/EKDS-Board (1 of 2) Block Diagram
TH-103PF9UK / TH-103PF9EK
92
13.17. DS-Board (2 of 2) Block Diagram
PC
_R
XD
TXD11
SL
OT
_T
XD
IIC_SW
DAC1
IIC
_C
ON
T
TXD12
SL
OT
_R
XD
KE
Y_
SW
RE
MO
TE
_O
UTL
ED
_G
P_
STAT
US
SLOT1_DET
LE
D_
R
VD_2
RE
MO
CO
N
KE
Y_
DE
T
DAC0
RE
MO
CO
N
L_4
SDA3
DP
MS
_H
D
VD_3
SCL3
HD_4
DP
MS
_V
DVD_1
ST
B_
ON
SOS_ALL
HD_2
HD_3
SD
A1
SC
L3LE
D_
R
LE
D_
G
TXD13
R_4
HD_1
VD_4
RXD11
IIC_SW
SLOT2_DET
RXD12
SD
A3
RXD13
PB_M
PC
_T
XD
SC
L1
Y_M
KE
Y_
DE
T
SLOT3_DET
PR_M
LAN15V
SLOT9V
STB3.3V
SLOT3.3V
STBY5V_S
9V_2
STB5V
STB5V_S
STB5V_S
SLOT9V LAN15V
STB3.3V
5V_M
STB5V_S
STBY5V_S
+15V
12V
SL
OT
3.3
V
SLOT9V
STB5V_S
LA
N1
5V
5V_M
P5V
STB5V_S
SLOT5V
STB5V_S
9V_2
STBY5V_S
9V_2
STB3.3V
9V_2
SL
OT
5VSLOT3.3V
ST
B5
V_
S
5V
9V_2
STB5V_S
SL
OT
9V
LAN15V
9V_2
STB3.3V
5V_M
P5V
SLOT5V
5V_M
TXG-
5
SCL3
A19
Y_2
B31
IC3152
B_EB+
6
VD_M
TX3-
B5
8
A40
OUT1
Q8181
27
PB
/B
A12
Green
B3
SL
OT
3.3
V
3.3V<=>5V
Q8010,Q8011
SLO
T3_D
ET
PB_1
3
10
AUDIO IN L
B30
TX9+
A12
KE
Y_
SW
A22
RESET
IIC_CLOCK
Q8182
2
TXG-
TX
8-
RX
D
RX
D
B23
DS-BOARD SOSLED BLINKING:10TIMES
TO DN6
RXD_11
S2_3
LE
D_
G
LEVEL SHIFT
13
G/Y_M
B14B28
HD_4
B_EA+
HD
A2
TXD
SR
Q
TX
D_
PC
TXD4
TX
3G
ST
B5
V
8bit DAC(CS(M))
SYNC SWITCH
TX0-
TX
D
INVERTER
TX
4+
15
SDA_S1
3
SLO
T2_D
ET
STB_ON TX7-
B25
B_OE-
AUDIO SELECT
3
SR
Q
1
SD
A_S
3
TX7+
KE
Y_
DE
T
PLUG DET
4
TX4-
IIC_DATA
TX8+
30
5
B3
SDA_S2
A38
TXC+
AUDIO IN R
IC3007
TX4+
IC8003
A4
B21
SCL_S1
1
TX
D13
1
LAN15V(F_STBY)
SL
OT
5V
TX3G
RE
SE
T
9
A_EB+
2
SCL
42
Y/G
S2
DE
TE
CT
SDA_S1
A22
A_EA+
TX6+
TX0-
B12
VD_4L
SR
Q
IC3002
Y_1
S2
DE
TE
CT
15
B24
IC8009
TX2G
TX0+
B10
HD_M
29
2
IC8014
TXG+
Q8183
4
R_2
B_OD-
A13
TX0+
5
DS
DS3
SC
L_S
3
6
TX
0G
IIC
_S
DA
2
H
2
TX
8+
26
TX
0-
LAN+15V
OUTPUT PORT
B27
RE
MO
CO
N
A28
IC3006
24
RE
SE
T
3
8bit DAC(FAN CONT)
66
A38
A11
SLOT1
3
SRQ
18
A_OE-
3.3V<=>5V
5
ET
X_
G3
TX4+
B12
B19
SL
OT
3.3
V
SLOT5V
26
16
B_EC-
Yout1
ST
B5
V
TX1+
A10
4
3
A36
27
LEVEL SHIFT
RE
MO
TE
8bit ADC(SYNC INH(M))
RE
MO
TE
OU
T
A40
TX6-
1
12
B17
3
1
Q8002
B15
10
B_OA+
CABLE DET
2
65
IIC
_D
ATA
SCL_S3B/PB_M
A_OD+
4
LEVEL SHIFT
SL
OT
3.3
V
TX8-
SLOT9V
S2DETECT
24
OUTPUT PORT(SW0)
57
PR
_2
A1
L
A_OC+
PRout1
RE
MO
CO
N_
OU
T
B35
REMOTE OUT
A34
B_EA-
TX
0+
S2_3
6
27
16
9
8bit DAC3
PB_3
B11
S0
6
62
B24
SOS OUT
1
39
6
1
TX
G+
TX0G
A5
B25
TXC+
TX
D
SCL_S2
13
SLOT3.3V
1
17
6
Q8017
16RXD4
TX0-
DS6
B8
38
PR_1
B40
Q8016
B
SDA3
TO V15
21
78
SD
A1
14
5V
SCL3
B13
SOS
SO
S
SL
OT
5V
HD/Green
MAIN
PR_4
B31
RESET
A9
SW
0
L_2
SCL3
1
A_CLK-
A40
A_ED+
KE
Y_
SW
HD SWITCH
23
L
TXC-
SLOT9V
A_EC+
18
CS(M)
8
IIC ON/OFF
TXC+
Y_1
2
SEPA
8
LA
N+
15
V
COMPONENT SELECT
H
IC8001
B32
15
15
FAN_CONT
7
L
TX5-
A7
RTC INT
IIC CONT.
TO V3
6
S2_2
A
33
72
LE
D_
R
A
TX
G-
18
A1
TX5-
R
EXT_G2
ST
B3
.3V
PL
UG
DE
T
Q8012,Q8013
A_OC-
10
TX0+
TX7-
TX1G
1
1
CS(M)
SCL3
VD
4
S2_1 Q8019
4
5
TXC-
PB_1
TO DN3
SOS_ALL
A14
B21
DP
MS
_H
D
S_CLOCK3
A34
TO P10
ST
B3
.3V
PR_4
53
7
PR/R
TO PB30
SLOT1
21
HD_HX
DS2
RX
D_12
H
5V
_M
A_EE+
A36
Y/G
7
A34
A_OB-
PBout1
B30
12
SD
A3
8
69
5V
OUT2
1
A36
B_OD+
TX
2G
TXG-
10
B19
6
TX5+
TX
6-
SYNC_INH
B_CLK-
A15
TXG+
B5
38
TX8+
IIC
_C
ON
T
SDA
SLOT1_DET
17
VD
TXC-
TX9-
A3
B14
TXD_11
B_ED-
A_CLK+
SDA3
B7
SDA3
15V
PB/B
60
TX9+
SCL3
LAN+15V
PO
WE
R_
STAT
A22
A_OE+
IC3004
TXCG
6
A_EA-
STB5V
SL
OT
5V SLOT3
DP
MS
_V
D
H
L
VCC
SY
NC
_IN
H
TX9-
B25
8
B_OC+
15
B24
VD
A28
37
A30
OUTPUT PORT
42
A21
9V
46
A32
38
IIC
_D
ATA
56
16
B23
PR
/R
B36
TX1+
59
A26
HD_1
A9
REMOTE
TIME CLOCK
PBout2
A26
FA
N_
SO
S
51
H Sync
TX
7-
VD_1
B_CLK+
B1
29
TX5+
32
A2
B21
PR_M
19
3
SDA
2
68
B_OB+
ETX_G1
30
TX8-
IC3001
TX6+
S2_1
TX1-
IC3005
SCL3
OUTPUT PORT
SL
OT
3.3
V
TX8+
5V
B17
A_EB-
40
PR_1
IC3150
A30
TX1-
B_OA-
50
Q8018
DA
C2
R
TO HX1
SRQ
IC8181
8bit DAC4
14
TX4-
TX3+
RXD1
SERIAL SELECT
RX
D_
TV
PB_M
IC8016
31
REMOTE
11
TX4+
AUDIO L
33
3.3V<=>5V
34
SCL3
B
SCL3FAN
Y_M
OUTPUT PORT(SW2)
36
B9
10
3
RE
MO
TE
14
B7
B_OE+
B2
B9
20
OUTPUT PORT
8
S_DATA3
SO
UN
D_
MU
TE
SL
OT
9V
Yout2
L
TX9-
TX4-
POWER_STATUSRESET
B_OB-
SDA3
HD
Q8200-Q8202
34
A8
A19
10
FAN_SOS
SYNC SELECT
TX7+
32
TX
6+
CONT.
SDA3
B4
16
2
8
PR_3
7
5V
13
SC
L3
48
TX9+
12
SW0
A_EE-
SW1
TX3-
RE
MO
CO
N
14
DPMS_VD
HD
TX5+
RXD
2
5
DS1
TX7-
SLOT3.3V
TX5-
17
L
12
B26
3
12
SDA3
SYNC SIGNAL
TXG+
SLOT1_DET
21
B23
AUDIO R
L
2
SLOT2
PR_2
A8
LEVEL SHIFT
TX6+
48
TX6-
HD
DS13
A_OB+
HD_M
B8
B10
3
15
VD
TX
1+
A_ED-
A21
A_OA+
A11
PB/B
SCL3
TX3-
B35
75
47
13
SDA3
17
71
B_OC-
PB
_2
PB_4
63
TX
D_
TV
SLOT3
SL
OT
9V
B26B40
A4
SLOT3
RE
SE
T
TX
1-
OUTPUT PORT(SW1)
A7
IC3151
74
15
TXD
A6
3.3V<=>5V
TX6-
41
3
14
PC SYNC INVERTER
ETX_G3
2
13
B_EE-
13
54
B11
TXD1
RE
MO
TE
DA
C1
SL
OT
9V
A_EC-
TX
D_12
13
22
10
R_4
SR
Q
B26
6
8
TX7+
B27
AU
DIO
IN
R
Y_4
VD
3.3V<=>5VDPMS_HD
11
A_OA-
ST
B_
ON
SLOT2
6
SO
S
S1
R1
77
23
L
Y/G
20
R2
B31
5
19
2
RE
SE
T
A26
TX
1G
14
13
30
5
RX
D_
PC
TX
5-
9
B27
VD
IIC
14
KE
Y_S
WQ3001
PL
UG
DE
T
B36
SL
OT
5V
CONT.
B36
A19
Y_2
B_EE+
SC
L1
B40
A3A17
35
B19
36
3.3V<=>5V
B1
A6 A17
4
VCC
LA
N+
15
V
A15
EX
T_
G2
HD
_2
S2_2
R3
B17
SO
S
CS(M)
L3
A38
16
PROCESSOR
ET
X_
G1
A28
PB
_3
DS
1
SOUND MUTE
B2
B29
15
B28
ASPECT DET
8
L_4
23
22
4
L
15
7
B6
9
5
PR
_3
2
B4
L1
4
Y_4
8bit DAC1
LEVEL SHIFT
B13
L21
TX
3+
9
5
TX
C+
TX
4-
AU
DIO
IN
L
TX
9+
DS
44
SDA3
TX3+
HD
_3
SDA_S3
VD
_2
IIC
_C
LO
CK
TO DN1
PR/R
LE
D_
G
LAN15V(F_STBY)
A10
RS232C
IIC
_S
CL
VD_HX
SCL
Y/G
SW
1
4
TX
C-
A_OD-
A21
SUBS
LO
T9
V
AC_CS(M)
SOS
TX8-
B15
SLOT2
SO
S
4
Q8184
R_1
PRout2
TX
3-
4
DS11
V Sync
10
OP
T
8bit DAC0
30
1
IC8007
3
DS
RXD
SYNC SIGNAL
LE
D_
R
B_ED+
A32
TX3+
A13
1
A5
SCL_S1
11
LA
N+
15
V
R_3
B28
DS12
LEVEL SHIFT
SEPA
TX1+
DRIVER
S0/S1
B6
TX
5+
12
L_1
VD_M
A17
3.3V<=>5V
RT
C_
INT
OUTPUT PORT(SW3)
36
AU
DIO
IN
R
RX
D13
TX
CG
A32
EX.I/O(IIC SW)
P_STATUS
Y_3
IC8005
TX
7+
VCC
16
L_3
IC3003
RE
SE
T
IIC
B35
PB_4
A14
X8181
B30
B_EB-
ST
B5
V
PB_2
PR
/R
16
EX.I/O(SLOT DET IIC CONTROL)
IIC
_C
LO
CK
8bit DAC(LPF(M))
HD
TX
9-
PB
/B
TX1-
SOS
RE
MO
TE
VD
_3
EX I/O(VIDEO/AUDIO SELECT)
SDA3
19
SLOT1
LEVEL SHIFT
AU
DIO
IN
L
A30
B_EC+
LA
N+
15
V
HD
SLOT5V
7
R/PR_M
HD in
Y_3
! SLOT INTERFACEDS
SOUND PROCESSOR
(Exchange board only)
SYNC PROCESSOR
<TNPA4217>
<TSXL584>CABLE
CABLE<TSXL585>
(P-BOARD SC SIDE)
TO V1
TH-103PF9UK/EKDS-Board (2 of 2) Block Diagram
TH-103PF9UK/EKDS-Board (2 of 2) Block Diagram
TH-103PF9UK / TH-103PF9EK
93
13.18. DN-Board (1 of 3) Block Diagram
3V_SDA1
OSD-HDIN
RX
D
VD
OSD-HDO
NRST
3V_SDA1
3V_SCL3
P3V_SDA2
IIC_CONT
PS
TB
FAN_SOSP
DB
0
3V_SCL1
LED_R
PLLH
5VRXD_TU
SCL1
P3V_SCL2
RXD_PC
P3
V_
SD
A2
P3V_SCL2
KEY_INPUT
3V_SCL3
CL
P
VD-M
PLLV
IIC
_IN
T
5VTXD_TU
DPMS_HD
P3
V_
SD
A2
LED_R
PS
TB
3V_SCL1
PD
B1
IIC
_C
ON
T
3VTXD_TU
5VRXD_TU
OSD-CLKIN
PB
US
Y
SOUND_MUTE
3V
_S
CL
1
NRST
SD
A2
PANEL_STBY_ON
STB_ON
RXD_PC
IIC
_IN
T
3VRXD_TU
DPMS_VD
TXD_PC
DISPEN
POWER_STATUS
UART_SW
3V
_S
CL
3
IIC_CONT
STB_ON
TX
D_
PC
REMOCON_OUT
3V_SCL1
NRST
RXD_PC
DPMS_HD
3V
_S
DA
1
RE
MO
CO
N
TXD_PC
3V_SCL3
UART_SW3V_SDA3
REMOCON
REMOCON_OUT
HD
LED_G
CABLE_DET
SC
L1
LE
D_
G
IIC_INT
5VTXD_TU
3V_SDA1
P3V_SCL2
SD
A1
PD
B1
TXD_PC
IIC
_C
ON
T
OSD_YS
IIC
_IN
T
KEY_INPUT
PB
US
Y
RX
D_
PC
ALARM
LED_G
PS
LC
T
OSD0-15
IIC
_C
ON
T
CABLE_DET
LE
D_
R
3V_SDA3
AC_GOOD
TX
D
OSD_YM
SD
A1
SOUND_MUTE
SD
A2
DPMS_VD
P3V_SDA2
PD
B0
FAN_SOS
3V
_S
DA
3
RTC_INT
IIC_CONT3V_SCL1
3V_SDA1
SC
L2
P3V_SDA2
P3
V_
SC
L2
RXD_PC
LED_R
SC
L2
RTC_INT
LED_G
PB
LC
T
P3
V_
SD
A2
IIC_CONT
READY
IIC_INT
TXD_PC
SC
L1
ALLOFF
3V_SDA3
HD-M
SDA1
POWER_STATUS
P3
V_
SC
L2
REMOCON
P3
V_
SC
L2
OSD-VDO
+3.3V
STB+5V
STB+3.3V
+3.3V
P+5V
+1.5V
STB+5V
2.5V
Q4710
STB+5V
Q4709
D4708
P+15V
STB+3.3V
P+15V
STB+3.3V
P5V
2.5V
P+15V
D4712
D4713
STB3.3V
+3.3V
P+5V
5V_M
STB+3.3V
STB+1.5V
STB+5V
STB+3.3V
D4710
+3.3V
STB+3.3V
Q4706
+1.5V
STB+3.3V
STB3.3V
STB5V
+1.8V
Q4707
+2.5V
+3.3V
STB+3.3V
+3.3V
STB+5V
+3.3V
IC4703
43
22
8
CLP
HD-M
57
A_OE+
119
SOUND_MUTE
1
55
EA- - EE-
B
IIC_BUS
+3.3V SOS
2
B_CLK+
RX
D
LVDS
A_EC-
Q4716
BE0-9(10bit)
NRST
10
OA+ - OE+
7
B_OB+
PARALLEL
6
28
30
G9
46
B_EA-
Q5401,Q5402
122
TO DS6
FPGA_DCLK
B_EC-
7
37
FPGA_DCLK
1
ST
B3
.3V
DN6
CLP
SDA1
121
5
REMOCON OUT
9
IC5002
2
3
CLK+
B_OC-
DATA
8BIT
VCC
WE
8
TTLIC5406
B_EE+
IIC_BUS
OE
2
SD
A2
101
EC
O O
N
A_EB+
25
9
92
ST
B5
V
IIC
_C
LK
2
35
A_OD+
4
21
21
157
A_EA0-6,A_EB0-6
SOS BLINKING TIMES
PB
LC
TFOR
29
DN4
RXD_PC
CE2
25
A_EC0-6,A_ED0-6
B_OE0-6
18
10
A_CLK+
5V
B_EA0-6,B_EB0-6
3
RXD_TU
A_EB-
36
61
10
15
SD
A3
IIC
_C
LK
1
69
4
A_OB+
5
RE
AD
Y
23
40
P+3.3V SOS
B_OB-
FAN SOS
+3.3V SOS:LED 3TIMES
27
5
5V<-3.3V
A_OD-
STB_ON
SOUND MUTE
P1
5V
[ODD]
LEVEL CONVERTER
8
HDA,VDA
BOUTO0-9
SCL3
132
1
34
10
HD,VD
SDA0B
SC
L1
5
SD
A2
B_OD-
A/D
IIC_INT
SDA1
HSYNC
Voltage
1
DPMS_VD
IC5101
B_OC+
LVDS ODD
A/D CONVERTER(MAIN)
[B]
27
21
CLP
LVDS PWDN/EN
G
B_OA+
PLLH,PLLV
6
4
B_EA+
14
18
LVDS PWDN/EN
NRST
SBO0
Pr/R IN
PD
B0
IIC_CONT
STB_ON
B_ED-
R
5
EA+ - EE+
9
19
CLK1/CLK_M
LE
D_
R
MICOM
TXD_PC
32
13
12
EVEN
CABEL_DET
7
DPMS_HD
42
4
45
FIELD_OUT
VDO_O
B_OD+
B_OE+
VCC
34
X2CLK_OUT
4
CLKOUT_O
11
104
43
AL
AR
M
A_EE-
IIC
_C
ON
T
G05
VIDEO BUFFER
87
57
HDO_O
+1.8V SOS
6
52
R04
ROUTO0-9
43
ALARM
11
115
20
POWER STATUS
VSYNC
SD
A
SC
L1
2
24
Y/G IN
RESET
R00
SC
L
RTC_INT
ST
B5
V
1
R9
2
25
CL
AM
P
Q4713,Q4712
11
Low
LVA_CLK
33
VCC
A0
DQ1-DQ15
EA+ - EE+
9
VoltageDifferential
LVA-PWDN,OEN,EEN
LVDS CLK
P+15V SOS
DIS
PE
N
D0
HD-M/VD-M
WE,CE,OE
42
6
12
[A]
6
RECEIVER
LVDS ODD
Low
B_OE-
Y
5V<-3.3V
Differential
120
B_ED+
49
+2.5V SOS
MC
DATA
RECEIVER
41
IIC_BUS
Q4714
A0-A18,CE,OE,WE,CE2
1
A_ED+
16
MC
CL
K
LVDS RX
4
HDO,VDO,CLKO
CONFIGURATION
HDO_E
TXD_TU
12 1
DRV_MUTE
IIC_BUS
FPGA_NCONFIG
ROUTE0-9
B_EC+
LE
D_
G
IIC
_D
ATA
2
LVDS CLK
16
READY
Q4702
161
B_CLK-
LVDS EVEN
WC
8
SD
A
SDA
IC4707
SDA0A
CB
CL
K_
A
27
65
SCL1
ODD
61
DPMS_HD
A_ED-
OSDKXI
38
8
EVEN
RX
D
139
SCL0B
B_EE-168
5
8
P+5V SOS
IIC
_D
ATA
1
PD
B0
19
A_CLK-
LED_R
SDA
4
REMOCON INH
[EVEN]
70
63
SCL
GOUTO0-9
AL
L_
OF
F
3
A_EA-
8M FLASH MEMORY
VOUT
AC_GOOD
22
HD_ADD,VD_ADD
7
21
B_EE0-6
P1
5V
HDA,VDA
A_OC-
IC5402
B_OA0-6,B_OB0-6
CB
CL
K_
B
NRST
2
X2
CB
CL
K_
A
11
IC4701
28
Pb/B IN
26
Q4704
DN2
P+5V SOS:LED 5TIMES
PB
US
Y
VDD
PS
LC
T
2
RXD_TU
B0
21
73
FAN_SOS
B
IIC_BUS
CLK-
SC
L3
4
B_EC0-6,B_ED0-6
6
TTL
TV_ON/OFF
SDA2
B9
B_OC0-6,B_OD0-6
IIC_BUS
51
SC
L2
FLASH_DATA_DIR
Q4719
15
SCL2
AVR 1.8VPLLVDD
IC4705
IC4704
IIC
/IN
T
EEPROM_WP
FPGA_CONFDONE
131
63
14
54
B
6
R0
2
84
24
TX
D
5V<-3.3V
18
Q4711
TXD_PC
RMIN
LEVEL CONVERTER
RO0-9
23
RESET
IIC_BUS
G00
HDE,VDE,CLKE
7
LED_R
33
OR GATEB00
6
RXD_PC
38
PD
B1
PB
US
Y
LED_G
X2
CB
CL
K_
B
KEY_INPUT
IIC_CONT
PA
NE
L_
ST
BY
_O
N
P+15V SOS
12
GE0-9
Q4715
KEY_INPUT
RGB OUT(ODD/EVEN)
19
SCL1
BE0-9
68
FPGA_DATA0
SDA3
DATACK
33
97
+1.5V SOS
FPGA_NSTATUS
1
MCDATA
171
8
NRST
MCCLK
14
NR
ST-
FP
RE
MO
CO
N
IC5401
RX
D
IIC
_C
ON
T
YMOUT
169
17
42
170
OA- - OE-
90
OSD
2
VCC
DATA
B04
A
[A]
DN11
ST
BY
3.3
V
16
OA- - OE-
134
CLKOUT_E
D15
16
VDO_E
129
2
DN3
7
1HD-A/VD-A
23
39
5V->3.3V
G0
Signaling
TO DS1
5V->3.3V
REMOCON OUT
SERIAL SWICTH
VDD
ODD
12
VD-M
REMOCON
28
MC
LD
VCC
LEVEL CONVERTER
G/Y-M
14
SC
L
Q4701
SC
L2
A_OB-
ADC
DN1
PD
B1
6
LVB_CLK
A_EC+
A0-A18
LVB-PWDN,OEN,EEN
162
RTC INT
FOR FACTORY USE
CE
36
64
FLD
2
58
18
44
MCLD
4
4
D0-D15
STB3.3V
POWER STATUS
ICHIPS_RST
ALLOFF
10
A_OA+
95
IC4711
39
166
VCLKOUTA
TO D3
37
26
10
69
CLK-
CLKM_20MHz
94
5
30
56
PS
TB
31
CABEL_DET
PARALLEL
OSD_72MHz
76
VDD
15
VSYNC
Q4703
4
26
31
46
DPMS_VD
IC4702
NRST_FP
B_EB-
89
RESET
34
VS
YN
CA_EE+
FPGA1
86
B
9
MICOMCOMMU
IIC
_IN
T
51
A_OA0-6,A_OB0-6
Q4705
48
SCL
HSYNC
A_OC0-6,A_OD0-6
TX
D
IC4708
A_OE-
IICCONT
LVDS EVEN
BO0-9
YSOUT
A_OE0-6
B_OA-
118
OUT
165
71
CLKBUFFER
HDI,VDI
GO0-9
19
A_EE0-6
SYNCSEPA
SD
A1
60
SD
A1
30
67
61
NRST
45
LED_G
88
LVDS INPUT
CLK+
22
IIC
_C
ON
T
162
LVDS INPUT
[3]
AVR 1.8VAVDD
3
TO DS3
6
FACTORY USE
IC5405
13
66
22
TXD_TU
IC500113
SCL0A
PS
TB
A_OA-
STB5V
LVDS RX
8
GOUTE0-9
140
P_ON/OFF
R/PR-M
BOUTE0-9
IIC
_IN
T/B
OO
T
11 110M
LVDS_PD
R
UART_SW
A
EA- - EE-
17
130
96
GE0-9(10bit)
54
A18
OA+ - OE+
A_EA+
70
109
HOUTA
CLK2X_E
79
Signaling
VCC
G
110
RE0-9
B_EB+
RESETN
OUT
P+15V SOS:LED 2TIMES
LVDS
RE0-9(10bit)
25
IC5403,IC5404
Y
TX
DA_OC+
48
4
57
HS
YN
C
ST
BY
5V
EEPROM
29
158
27
B/PB-M
82
7
54
37
DN DIGITAL SIGNAL PROCESSOR/MICOM
(Exchange board only)
!
<TZTNP01YLTU>
<TSXL584>CABLE
<TSXL585>CABLE
TH-103PF9UK/EKDN-Board (1 of 3) Block Diagram
TH-103PF9UK/EKDN-Board (1 of 3) Block Diagram
TH-103PF9UK / TH-103PF9EK
94
13.19. DN-Board (2 of 3) Block Diagram
P3V_SCL2
P3V_SCL2
P3V_SDA2
P3V_SDA2
P3V_SCL3
P3V_SDA3
P3
V_
SD
A2
P3
V_
SC
L2
STB+3.3V
+3.3V+1.5V +2.5V
+3.3V
+1.5V
+3.3V
STB+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
+2.5V
+3.3V
+3.3V
MCCLK
PORT1_HS,_VS,_CLK
8
PORT1_ROUT0-9
2
[ODD]
A0-A18
26
BUFFER
2
XT
BO0-9
1
FPGA3 OUTPUT
RO0-9
SD RAM2 DATA
XTN
GO0-9
20
DDR-SDRAM I/F
HDO,VDO,CLKO
4
DQ0-DQ31
PORT1_GOUT0-9
6
PORT1_BOUT0-9
FPGA_DATA0
7
ADDR0-11
5
FPGA_NSTATUS
CPLD(FPGA ROM)
FLD
DQ1-DQ31
(90MHz)
LCLK1
FPGA_NCONFIG
CLK2X_E
OSD_72MHz
SDAT
PORT2_ROUTE0-9
ICHIPS-RST
7
RE0-9
PORT2_GOUTE0-9
(30bit)HDE,VDE,CLKE-57
RVIA0-9
FLASH
(30bit)
BUIA0-9
DATA0-15
DEV-OE
POCLK
FLASH
MCLK
LSI57Plus
GOUT0-9
RGB OUT
IC4906
RV,GY,BUBOUT0-9
SD-RAM
VCC
IC4501
XIN
X2CBCLK_A
SD-RAM1 DATA
1
SO
1LCLK2
FPGA_BINE0-9
SI
8
FPGA_RINE0-9
PI1CLK
FPGA_GINE0-9
WE,CE,OE
PI1FLD,PI1ACTB
FPGA_HDE,VDE,CLKE
RE
FC
K
CONFIG-OE
CLKM_20MHz
OC
KR
EF
ADDR0-18
CLK7425
P1_Y/G0-9
NWE,NCE,NOE
P1_PR/R0-9
LSI57-HP,-VP,-CLK
8M FLASH MEMORY
IIC_BUS
IC4902
CLK3
14
57_R0-9
DQ1-DQ15
(39.5MHz)
RESET
CLK4
57_B0-9
WE,CE,OE
LSI57_GIN0-9
VCC
IC5103
BE0-9
LSI57 INPUT
12
8
GE0-9
CLK6
NR
ST
OE1
TDO
D0,D5-D7,D12-D15
X5701
TDI
PORT1_FLD,_ACT
SD_RAM2
ADDR0-11
PORT2_BOUTE0-9
VCC IC5503DQ1-DQ31
VDD
LCLK2
P1_FLD,_ACT
WE,CAS,RAS
32M DDR SDRAM
CBCLK_A
RVIB0-9
P2_Y/GO0-9
FPGA2
(4.25MHz)
1
BUIB0-9
IC5201
CLK7
FP
GA
-TM
S
XIN
SCLKB
VCC
7
FP
GA
-TC
K
RSTB
I-CHIPS PORT1 OUTPUT
CPG
4
IC5701
RGB IN PORT2
POHSB,POVSB
8
(60bit)
RESET
POFLD,POAVTB
IIC_BUS
7
IIC_CLKCLKM_20MHz
NRST-FP
(74.25MHz)
OSD_72MHz
ADDRESS
9
BUFFER
POD_0-POD_59
BUFFER
FPGA_FLD
(72MHz)
CLK2X_E
13
FPGA_DCLK
SCLK
P2_PR/RE0-9
FPGA_DCLK
1
6
VCC
RGB IN PORT1P1_PB/B0-9
5
IC4908
P1_HS,_VS,_CLK
3
CLOCK BUFFER
PI2HSB,PI2VSB,
CLK5
IC5103
PI2CLK
OCK_90MHz
10
24
11
CLK INPUT
23
IC4904
9
CPU I/F
22
FP
GA
-TD
I
FPGA_DCLK
GCLK2
FPGA_DCLK
IC4302
FACTORY USE
GYIB0-9
2
DHB,DVB,DCKB
(FPGA ROM WRITER)
I-CHIPS PORT2 OUTPUT
(30bit)
PORT2_GOUTO0-9
FPGA_DATA0
I-CHIPS
FPGA_NSTATUS
GYIA0-9
BUFFER
IIC_SDA
DHA,DVA,DCKA
(30bit)
BUFFER
IIC_SCL
[EVEN]
[EVEN]
FPGA_BINO0-9
PO_HS,_VS
VDD
[ODD]
GN
D
[ODD]
FPGA_RINO0-9
PO_RO0-9,PO_GO0-9,PO_BO0-9
8
IC4903
3
SD_RAM1
PORT2_BOUTO0-9
DN10
VCC
WE,CAS,RAS
PORT2_ROUTO0-9
SCLK
FOR
IIC_BUS
NR
ST
DIR
OE1
RE
FC
K_
39
.5M
Hz
IC4907
SC
KR
EF
PO_CLK
OE1
FP
GA
-TD
O
MC
KR
EF
CLK2
VCC
X2CBCLK_B
5
OC
K-9
0M
Hz
(40MHz)
VCC
FPGA_GINO0-9
5
FPGA1 INPUT
DIR
FPGA_HDO,VDO,CLKO
VCC
A0-A2,A16,A19,CE2,OE
IC5502
REFCK39.5MHz
A3-A7,A17,A18WE
CLK7425-1
PI1DO_0-PI1D_29
IC5501
VCC
PI1HSB,PI1VSB,
INTERFACE
21
IC4905
25
27
RESET
1
FPGA_CONFDONE
NRST
FPGA_CONFDONE
VOUT
[EVEN]
IIC_SDA
VDD
IIC_SCLCONFIGURATION
TMS
FPGA_NCONFIG
P2_PR/RO0-9
TCK
PI2DO_0-PI2D_29
6
P2_FLD,_ACT
HP,VP,OCKO
PI2FLD,PI2ACTB
CLOCK BUFFER
ROUT0-9 LSI57_RIN0-9
OSD_CLKO
P2_HS,_VS,_CLK
P2_PB/BE0-9
LSI57_BIN0-9
PORT2_FLD,_ACT
OSD_CLKI
ADRS0-ADRS11
P2_PB/BO0-9
P2_Y/GE0-9
PORT2_HS,_VS,_CLK
CBCLK_B
PO_FLD,_ACT
I2CSDA
IC4502
CLK1
LCLK1
PO_RE0-9,PO_GE0-9,PO_BE0-9I2CSCL
57_G0-9
(2088MHz)
(60bit)
57_HD,57_VD,57_CLK
SDAT
MCDATA-0
D1-D4,D8-D11 D1-D15
IIC_BUS
ICHIPS-SI
A8-A15
A0-A18
DN DIGITAL SIGNAL PROCESSOR/MICOM
(Exchange board only)
!
<TZTNP01YLTU>
TH-103PF9UK/EKDN-Board (2 of 3) Block Diagram
TH-103PF9UK/EKDN-Board (2 of 3) Block Diagram
TH-103PF9UK / TH-103PF9EK
95
13.20. DN-Board (3 of 3) Block Diagram
P3V_SCL2
P3V_SDA2
P3
V_
SD
A2
P3
V_
SC
L2
STB+5V
+1.2V +3.3V
P5V_DC2
P+15V
+2.5V
STB+5V STB+1.5V
P5V_DC
+3.3V
+1.2V
Q4718
P5V_DC1
Q4717
+1.8V
+3.3V
STB+3.3V
18
TB+
59
O-LVDS1
TT
L
20
G1
O+LVDS0
VO
E-LVDS3
O-LVDS0
TC-
VOUT
TCLK+
VDD
IC4309
9
22
OUT2
E+LVDS0
17
VO
21
G2
D2
33
LVD
S
O+LVDS4
E-LVDS4
16
NRST
O-LVDS4
4
GOE0-9
26
21
31
(SE
RIA
L)
31
22
19
GC_CLKIN
13
31
GC_HSIN
D2
GC_VSIN
8
13
52
6
OUT1
VOUT
19
57
D2
14
STB 3.3V
E+LVDS4
1
TA-
VOUT
CTL
12
38
DC-DC CONVERTER
E-LVDS0
38
5
PA
RA
LL
EL
25
CL
K7
42
5
S1
54
VOUT
NR
ST-
FP
FB
TCLK-
IC4004
LVD
S-P
D
VIN
40
FHQCKIN
33
S1
VCOIN
61
16
29
TC-
+1.8V
16 OUT2
9
ROE0-9
+2.5VQ4306
30
FHQCIN0-9
[EVEN]
D1
P+15V
5
LVD
S
PO
_F
LD
9
62
9
VCC
P+15V
PO
_R
E0
-9
-INC
46
VIN
[ODD]
D1
S2
CB
44
5
DATA
TD-
TB-
TE-
AVR 5V
Q4303
VDD
DN51
D1
24
19
4
O-LVDS2
O+LVDS3
HSYNC
28
D1
IC4303
LVDS OUT[ODD]
5
CLKIN
24
P+15V
LVDS OUT[EVEN]
VCC
D2
CTL
21
42
4
63
E+LVDS3
VCC
E-LVDS2
11
23
19
CTL
23
LX
LVDS TRANSMITTER(10bit)
23
5
48
6418
30
IC4304
-INC
22
IIC_BUS
59
CL
KM
_2
0M
Hz
1.2V REG
62
10Bit LVDS
ROUT
CL
K7
42
5-1
VIN
VDD
TC4
VSYNC
LX
50
TE+
CLK_O
G2
VOUT
48
55
S1
21
9 CTL
PA
RA
LL
EL
8
VDD
15
OUT2
27
G1
1
-INC
P_
ON
/OF
F
GC5 PROCESOR
GC_HD
FPGA_NCONFIG
21
26
18
28
FHQYIN0-9
IC4001
GC_CLK
FPGA_DCLK
IC4307
IIC_BUS
20
8
GC_RGB IN
FPGA_DCLK
DATA
44
55
21
19
HSYNC
25
SC
L
20
O+LVDS2
24
/PDWN
D1
VDD
GOUT
AVR 5V
CLK_O
CONFIGURATION
D1
5
BOUT
+1.5V
VSYNC
1
GC_GIN0-9
VO
LVDS TRANSMITTER(10bit)
GC_RIN0-9
VIN
ROUT
18
OUT1
VSOE
GC_BIN0-9
PORT-FHQ
54
BOUT
IC4305
DC-DC CONVERTER
CLKOE
PO
_G
O0
-9
(GC3E & HQ1)
GOUT
24
PO
_B
O0
-9
20
4
PO
_R
O0
-9
50
24
17
21
18
IC5802
9
1
16
5
10Bit LVDS
G1
52
IC4306
D2
Q4301
PO
_V
S
E+LVDSCLK
PORT-E
/PDWN
TD-
[EVEN]
20
11
6
PO
_H
S
RGB 30bit OUT
PO
_G
E0
-9
PO
_A
CT
E-LVDS1
TA-
PO
_B
E0
-9
TC5
D2
BOE0-9
1
5
TC+
G2
E-LVDSCLK
HSOE
IC4308
CL
K3
FB
13
OUT2
NR
ST
LX
23
STB 1.5V
TE-
VDD
20
SD
A
DC-DC CONVERTER
24
TB-
GC_YO0-9
46
20
S2
VO
GC_CO0-9
FHQHIN
13
FPGA_DATA0
GC_VD
23
23
-INC
FHQVIN
OUT1
IC5801
TO D5
FPGA_NSTATUS
6
FPGA_CONFDONE
D1
TC5
S2
19
TB+
24
63
13
OSD IN
57
+3.3V
O-LVDS3
G1
D1
OSD_HDO
O+LVDS1
P+15V
OSD_VDO
CLKIN
15V->2.5V
VDD
[ODD]
G2
29
11
O+LVDSCLK
13
TC+
1
15V->1.8V
64
I-CHIPS RGB IN
17
IC5301
1
S1
15V->1.5V
FPGA3
TA+
29
17
23
TD+
25
5
17
23
TCLK-
CB
24
15V->3.3V
CB
10
TD+
DC-DC CONVERTER
S2
CL
K1
OSD-HD
21
CL
K0
7
TE+
+1.5V
OSD_DATA0-15
42
E+LVDS1TT
L
TA+
PO
_C
LK
12
30
+2.5V
CB
GC_YC OUT
OUT1
VIN
5
+3.3V
2
61
5
9
TC4
FB
18
IC4301
VCC
D2
40
12
LXD2
18
VIN
Q4302
(SE
RIA
L)
OSD_YS
25
OSD_YM
FB
28
TCLK+
O-LVDSCLK
E+LVDS2
OSD_CLK
DIGITAL SIGNAL PROCESSOR/MICOM! DN
(Exchange board only)
<TZTNP01YLTU>
TH-103PF9UK/EKDN-Board (3 of 3) Block Diagram
TH-103PF9UK/EKDN-Board (3 of 3) Block Diagram
TH-103PF9UK / TH-103PF9EK
96
13.21. D-Board (1 of 2) Block Diagram
ALARM
READY
PANEL_MAIN_ON
REMOCON
LED_R
TUNER_SUB_ON
TXD_PC
ECO_ON
TUNER_SUB_ON
ECO_ON
IIC_CONT
SOS4_PS
RXD_PC
TXD_PC
VDATA_DET
IIC_INT
LED_G
RXD_PC
ALL_OFF
AC_GOOD
ALL_OFF
LED_G
LED_R
READY
ALARM
PANEL_MAIN_ON
SOS8_SS
SOS6_SC1
STB_SCL01
SOS7_DRV
STB_SDA01
IIC_INT
IIC_CONT
RXD_PC
STB_SDA02
REMOCON
TXD_PC
VDATA_DET
STB_SCL02
IIC_CONT
IIC_INT
SOS4-PS
D9035
D9804
RA_E+/-,RB_E+/-,RC_E+/-,RD_E+/-,RE_E+/-E+LVDS2(RX_TC+) 6
RCLK_E+/-
E-LVDSCLK(RX_TCLK-)
E+LVDS0(RX_TA+)
10
D5
2E-LVDS0(RX_TA-)
TO DN51
14E+LVDSCLK(RX_TCLK+)
E-LVDS2(RX_TC-)
E-LVDS1(RX_TB-)
12
11
LVDS_DET
15
E+LVDS3(RX_TD+)
7
5
9
16
E+LVDS4(RX_TE+)
E-LVDS3(RX_TD-)
E+LVDS1(RX_TB+)
1
E-LVDS4(RX_TE-)
4
LED_R
PDB1
PDB0
17
14
P5V
14
12
22
16
18
VDATA_DET
LED_G
2
D3
18
TO DN2
P5V
16
STB5V_M7
D25
P5V
+5V
30
2
STBY3.3V
REMOCON
ALARM
DISPEN
IIC_CONT
IIC_INT
1
11
P3V_SCL1
P3V_SDA1
PSLCT
PBUSY
STB3.3V
SDA2
9
TXD
D6
18ALL OFF
26
STB5V
8
SCL1
FORFACTORY
SCL2
10
23
STBY5V
4
12
P15V
15
21
USE
29
7
STB_SCL02
STB_SDA02
21
P15V
PANEL_STBY_ON 11
17
TO P25
15
P15V
STB5V
IIC_DATA1
F_STBY_ON
+15V
STBY5V
15
IIC_CLK1
RXD
+5V
6
20
20
P3V_SCL1
TUNER_SUB_ON
8
Q9044
6
TXD
1
7 STB_SDA02
10
STB_SCL02
SDA1
ALL OFF
P3V_SDA1
27
PDB0
ECO_ON
19
READY
9
SOS4_PS
13
ECO_ON
PSLCT
PSTB
+15V
4
16
STBY5V-F
3IIC_CLK2
IIC_DATA2
PSTB
PANEL_MAIN_ON
IIC/INT
IIC_CONT
13
19
P15V
RXD
1
PDB1
5
2
25PBUSY
19AC GOOD
TEMPERATURE
VO
RESET
13
12
23
73
VO
15
IC9001
FB
G2
76
P15V
Voltage
6
24
D2
50
10
VCC
SOS7_DRV
25
EEPROM
5
LX
P15V
D1
SDA
VCC
51
15V->2.5V
SENSOR
6
24
SCL
26
STB 3.3V/RESET
FB
5
Q9058
PROM(FPGA)
P_ON/OFF
Q9057
S2
20
DC-DC CONVERTER
XRST
74
DRVMUTE
65CTL
Q9051
CB
NRST
D2
Control DATA(D)
P5V
20
SOS6_SC1
16
P3.3V
D2
23
VO
21
Q9050
NCS
LED_R
VDD
70
OUT1
REM_IN
OUT1
G1
23
X9000
DRV_RST
LDO_5V
Q9800
1
S1
SOS3_3V
D2
9.216MHz
CTL
19
SOS2_15V
CB
DATA
SDA
P3V_SDA1
69
15V->3.3V
ADSI
IC9011
LXD2
LX
P15V
24
R10-R19(R)
P2.5V
DATA DRIVER
STB3.3V
G10-G19(R)
21
OUT2
IIC1_SCL
VIN
13
CONTROL
IC9807
VDD
G2
3
SOS9_CONF
ALARM
34
DC-DC CONVERTER
9
SS PULSE
VD
D1
LVDS
Differential
7
LVDS
18S2
SYNC PROCESSING
DRVRST
WB ADJ
66
16
SCL
DISCHARGE CONTROL
D2
SCAN OUT
21
P1.2V
24
OUT1
P15V
1
VOUT
2
VOUT
FLASH CONTROL
67
RESET
SOS4-PS
Q9801
FB
SC PULSE
P15V
Q9201
VDATA_DET
IC9806
5
LDO_5V
Signaling
6
3
IIC2_SDA
IC9800
RECEIVER
4
S2
-INC
14
Q9200
9
21
68
AVR 5V
IC9500
NCS5
22
LDO_5V
VIN
FPGA,ASIC
ADD1
VDD
CE
LSI_RST
VDD
XRST
36
G2
137
XRST
VDD
P3V_SCL1
ADD0
IC9003
6
DC-DC CONVERTER
S1
STB5V
15V->1.2V
19
1
MICOMEEP_WR_CTL
P3V_SDA02
18
XIN
ASDIO
B10-B19(R)
17
38
XOUT
Q9805
WP
Q9806
P3V_SCL02
17
G1
5
Q9046
9
D1
STB3.3V
D1D1
HD
-INC -INC
OUT2
DCK
S1
16
PICTURE
P3.3V
OUTPUT<R>
18
TXD1
17
IC9002
9
DCLK
27
RESET
RXD1
5
STB_SDA02
IIC_CONT
20
STB_SCL02
DATA0
IIC_INT
CTL
16
19
DCLK
CB
LVDS INPUT
READY
Q9803
VIN
R 10bit
71
DIGITAL
LDO_5V
SOS5_5V
5
IIC1_SDA
23 Q9054
28
G 10bit
IC9809
Low
Q9053
20
39
SOS8_SS
IC9007
B 10bit
FPGA CONTROL
Q9052
IIC2_SCL
13
5
LED_G
VCC
Q9100
29
72
OUT2
G1
PANEL_MAIN_ON
D1
DCK
PICTUREOUTPUT<L>
R10-R19(L)
G10-G19(L)
R 10bit
VD
G 10bit
B 10bit
B10-B19(L)
HD
JTAG
DISCHARGE
CONTROL
FLASH CONTROLXCE-L,XOE
DC
LK
DATA
0
NC
S
AS
DIO
FPGA
IIC
SC
L
SD
A
FPGA
XRST
PLL_RST2XRST2
DC-DC ON
Control DATA(U)
CLKM-IN
PRCKI
XWE
BYTE
BUS SW
K-DONE
12
13
3
11
16
9
10
6
5
15
8
1
7
2
20
21
18
17
19
DISCHARGE CONTROL
VD
HD
DCK
4
JTAG
FLASH CONTROL
BUS SW
VD
HD
DCK
14
SFRST,SFVRST,LATCHFPCLK,FPDAT0,FPDAT1
TD0,TD1,TMS,TCK
SS PULSE
SC PULSE
Control DATA(U)
SS PULSE
Control DATA(D)
SC PULSE
SOS9_C0NF
DRV_RST
SOS6,7,8
P+15V SOS / LED BLINKING : 2 TIMESP+3.3V SOS / LED BLINKING : 3 TIMES
P+5V SOS / LED BLINKING : 5 TIMES
DATA POWER
RECOVERY
78AVCC
13VCC
STB3.3V
8 VCC
STB3.3V
D9110
STB5V-M
ST
BY
3.3
V-O
N
D
FORMAT CONVERTER
SUB-FIELD PROCESSOR
DIGITAL SIGNAL PROCESSOR
(Exchange board only)
!
PLASMA AI
<TZTNP02YLTJ>
TH-103PF9UK/EKD-Board (1 of 2) Block Diagram
TH-103PF9UK/EKD-Board (1 of 2) Block Diagram
TH-103PF9UK / TH-103PF9EK
97
13.22. D-Board (2 of 2) Block Diagram
CLRU1
PCU1
LEU1
SOS6_SC1
ODEU1
FREE_RUN
CLKM_IN
PC
D6
OD
ED
6
CLR
D6
LE
D6
CLK
D2
CLK
D1
CLR
D5
PC
D5
LE
D5
CLK
D3
OD
ED
5
CLK
D0
LEU2
PCU2
CLRU2
CLKU1
CLKU0
ODEU2
CLKU3
CLKU2
CLKU3
CLKU2
CLKU1
CLKU0
CLKD0
CLKD1C
LK
D3
CLK
D2
LED
SOS7_DRV
X9500
TP
9681
TP9533
B 10bitst-r
IC9400
CONVERTER
XRST
CTI/TINT
WB-ADJ
I/P
CONVERTER
COLOR
XRST2
SFVRSTLATCH
CONTRAST
FORMAT
SFRST
Video DATA 48bit DA00-DC11<D/R>
FORMAT CONVERTER/RGB PROCESSOR<R>
IC9401
DATA
ROMDATA00-03 DA14,DA15-DC15<R>
DDR SDRAM<R>(128M)
PCK OCK
SUB-FIELD
PLASMA AI/SUB FIELD PROCESSOR/DATA DRIVER<R>
R 10bit
JTAGDCK
R 10bit
ROMDATA04-15 UA12-UC15<R>PLASMA AIG 10bit NEW
DRVCLKU0-U3,DRVCLKD0-D3<R>
HD
G 10bit
B 10bit
VD
PROCESSOR DRIVER
PD1-M<RIGHT>
B 10bitst-r
IC9300
CONVERTER
XRST
CTI/TINT
WB-ADJ
I/P
CONVERTER
COLOR
FPCLKFPDAT0FPDAT1
XRST
SFVRSTLATCH
CONTRAST
FORMAT
SFRST
Video DATA 48bit DA00-DC15<D/L>
FORMAT CONVERTER/RGB PROCESSOR<L>
IC9301
DATA
ROMDATA00-03 DA14,DA15-DC15<L>
DDR SDRAM<L>(128M)
SUB-FIELD
PLASMA AI/SUB FIELD PROCESSOR/DATA DRIVER<L>
R 10bit
JTAG
DCK
R 10bit
ROMDATA04-15 UA12-UC15<L>
PLASMA AIG 10bit NEW
DRVCLKU0-U3,DRVCLKD0-D3<L>
HD
G 10bit
B 10bit
VD
PROCESSOR DRIVER
PD1-M<LEFT>
TO C10
64
R-UPD31
32
30
PCU1(R)
60
28
CLKU6(+)
LEU1(R)
CLKU7(-)
58
6
ODEU1(R)
CLRU1(R)
59
61
Q9300 5VDET
52
38
SCANDATA
1
SOS6-SC1
P5V
11
TO SC20D20
P5V
Video DATA 48bit UA00-UC15<U/L>
Video DATA 48bit UA00-UC11<U/R>
DMHR56
55 DSHR
DMLR54
36 DSLR
30bit UA06-UC15<R>
Q9306
IC9504LEVEL CONVERTER
3.3V 5V
IC9505LEVEL CONVERTER
3.3V 5V
IC9503LEVEL CONVERTER
3.3V 5V
IC9802,03
3.3V 5V
LEVEL CONVERTER
CLOCK GENE.CLK712
CLK5
CLK6
14
13
7 CLK1
XT 1
20XTN
IC9200
IC930416M FLASH MEMORY
RESET45 VOUTVCC
IC9602RESET
P3.3V
DQ4-DQ15
A0-A19
DQ0-DQ3
IC9402
BUSSWITCH
BUS SW
ODED5,ODED6,PCD5,PCD6,LED5,LED6,CLRD5,CLRD6
UMH,UML,USH,USL,UEH,NUEL
CL,CLK,SIU,SID,SCSU,CEL2,CPH,CEL,DVR_RST_0,CSL,CSH,CML,CMH
Sustain Control DATA 6bit
Scan Control DATA 13bit
ODEU1,ODEU2,PCU1,PCU2,LEU1,LEU2,CLRU1,CLRU2
PCK OCK XCE-L
BYTE
XWE
XOE
R10-R19,G10-G19,B10-B19 UA05-UC12,UC13,UA15<L>
DA14,DA15-DC15<L>
UA12-UC12,UC13,UA15
UA05-UC11
DA14,DA15-DC15<L>
UA12-UC15<L>
UA05-UC10,UB11,UC11<L>
XCE-L
20MHz
84MHz
39.5MHz
60MHz
VD
HD
DCK
DISCHARGE CONTROL
BUS SW
JTAG
FLASH CONTROL
VD
HD
DCK
3
11
16
9
10
6
5
15
8
1
7
2
20
21
18
17
19
4
12
13
14
Control DATA(D)
Control DATA(U)
SS PULSE
SC PULSE
TD0,TD1,TMS,TCK
SOS9_C0NF
DRV_RST
SOS6,7,8
DMHR,DSHR,DSLR,DMLR,DMHL,DSHL,DMLL,DSLL
Data power recovery DATA 8bit
12
20
2
9
DOUTU31C
DOUTU22A
P5V
P5V
P5V
P5V
IIC
SCL SDA
P3V_SCL02
P3V_SDA02
SCL
IIC
P3V_SDA02
SDA
P3V_SCL02
IC9603BUS SWITCH
XCE-L
D36
30bit D
A06-D
C15<
R>
OD
ED
6(R
)
Q9
30
4
DO
UT
D31C
64
PC
D6(R
)
TO C60
58
CLK
D7(-
)
CLK
D6(+
)
60
LE
D6(R
)
DO
UT
D22A
59
CLR
D6(R
)
5V
DE
T
34 6136 34 30
CLK
D3(-
)
32
CLK
D4(+
)
LE
D5(L
)
58
P5V
64
L/R-DOWN
D35 60
TO C54
28 59
CLK
D2(+
)
68
P5V
362 61
OD
ED
5(L
)
CLR
D5(L
)
56 38
CLK
D5(-
)
66
18bit D
A10-D
C15<
L>
Q9
30
5
PC
D5(L
)
5V
DE
T
18bit D
A00-D
C05<
R>
DO
UT
D10A
DO
UT
D21CR-DOWN
28 63852 56
DM
LL
55
DS
HL
54
DM
HL
32
DS
LL
30
DS
LR
DM
HR
4
DM
LR
3
DS
HR
2
56
38
66
DOUTU21C
DOUTU16A
DOUTU10A
DOUTU15C
LEU2(L)
TO C24
58
CLKU5(-)36
P5V
P5V
64
L/R-UPD32
2
ODEU2(L)
CLRU2(L)
59
34 CLKU4(+)
CLKU3(-)32
61
PCU2(L)
18bit UA10-UC15<L>
Q9301 5VDET
30 CLKU2(+)
18bit UA00-UC05<R>
68
60
28
DSHL
TO C25
2
5VDET
30bit UA00-UC09<L>
DMLL
4 DMHL
D33
3
L-UP
34
30
36
64
DSLL
Q9302
CLKU0(+)
CLKU1(-)
6
52
38
28
DOUTU9C
DOUTU0A
5VDET
SOS8-SS
48
30
38
64
DOUTD9C
CLKD0(+)
62
32
30bit DA00-DC09<L>
L-DOWND34
Q9303
TO C55
28
2
CLKD1(-)
DOUTD0A
54
60SUSTAIN
DATA
CBK
62 DRV_SOS7
62
DR
V_S
OS
7
CBK
D DIGITAL SIGNAL PROCESSOR/FORMAT CONVERTER
(Exchange board only)
!
PLASMA AI/SUB-FIELD PROCESSOR
<TSXL576>(D35-CD1)
<TSXL571>
<TSXL572>
<TSXL570>
<TSXL568>(D31-CD1)
CABLE
<TSXL571>
<TSXL574>
<TSXL578>(D36-CD1)
<TSXL569>(C20-CD2)
CABLE
<TSXL575>
<TSXL577>(C90-CD2)
CABLE
<TSXL579>(CY0-CD2)
CABLE
CABLE
CABLE
(D34-CD1)
(C80-CD2)
(D33-CD1)
(C50-CD2)
(C40-CD2)
(D32-CD1)
<TZTNP02YLTJ>
TH-103PF9UK/EKD-Board (2 of 2) Block Diagram
TH-103PF9UK/EKD-Board (2 of 2) Block Diagram
TH-103PF9UK / TH-103PF9EK
98
13.23. C1, C2, CY and CZ-Board Block Diagram
P75V_R
P+5V
P75V_R 78V_RU
78V_RU
P75V_R
78V_RU
P75V_R
78V_RU
R7128P+5V
R7127
78V_RU
P75V_R
P+5V
P+5V
P75V_R
78V_RU
P75V_R
78V_RU
P75V_R
78V_RU
78V_RD
78V_RU
P75V_R
P+5V
P+5V
P75V_R
P75V_R
P+5V
78V_RD
P75V_R
P+5V
78V_RU
P75V_R
P75V_R
R7685
P75V_R
78V_RU
78V_RD
78V_RU
P75V_R
78V_RD
R7686
DATA
BUFFER
CA2
IC7102
4bit
CA1
UC28-UC29UA30-UC31
UA28,
VCC
6bit
4bit
6bit
DATA
IC7103
8bit
PANEL DATA DRIVER
C11
TO DR3
2bit
6bit
1
6bit
Vd
a_
75
VUB28
4
VCC
Vd
a_
75
V
UA28
BUFFER
6bit
UC28-UC29
ODEU1
CLKU7CLKU6
LEU1-LEU2
LE
U1
PC
U1
CL
KU
6
CL
KU
7
CLRU1
BUFFER
IC7101
PCU1
CL
RU
1
OD
EU
1
VCC
6
Vd
a_
RU
(78
V)
11
Vd
a_
RU
(78
V)
(DR1-BOARD SC SIDE)
CLKU7(-)11
9
8
7
13 CLKU6(+)
6
CLRU1
PCU1
LEU1
ODEU1
29
15
C14
Vda_RU(78V)
Vda_75V
42
55
Vda_75V
51 Vda_RU(78V)
47
+5V_DET31
P+5V3
P+5V1
DOUTUC31
DOUTUA28
25
53
C21
5
9
27
41
45
47
48
14
49
1
43
50
55
TO D31
C20
(Via CD-BOARD)
5
+5
V_
DE
T
LEU1
ODEU1
CLKU1-6
CLRU1
PCU1
CLKU1-7
VCC
CL
KU
7
8bit
UA24-UC25
VCC
CL
KU
7(-
)
UC23
CL
KU
6
LE
U2
6bit
CA3
9
IC7156
57
PC
U2
BUFFER
IC7153
UA22-UC23
4bit
UA27
BUFFER
UA22
VCC
DO
UT
UC
14
DATA
UA26-UA27
2bit
DO
UT
UA
17
6bit
8bit
UB27
23,30,31
UC27
4717
DOUTU31C - DOUTU22A
DATA
63
8bit
29,43
DO
UT
UC
25
DATA
PANEL DATA DRIVER
6bit
UA26
10
VCC
DO
UT
UA
30
DO
UT
UC
23
UA30
CA5
DO
UT
UA
24
DO
UT
UC
31
DATA
DO
UT
UA
22
6bit
UC31
6bit
41,42,49
UC25
55
IC7155BUFFER
VCC
IC7154BUFFER
8bitUA24
UC28-UC29
IC7152BUFFER BUFFER
6bit 6bit 6bit
LEU2PCU3
CLKU2-6,7
CL
KU
6(+
)
VCC
37
4bit
IC7158
UA30-UC31
39
6bit
CA4
11
CL
RU
2
IC7151BUFFER
CLRU1ODEU1
VCC
OD
EU
1O
DE
U2
8
CL
RU
1
LE
U2
PC
U2
UB28,UA30-UC31
UA28,UB28 CLKU1-6,7
CLKU21-6,7
UB27UC27
DO
UT
UB
27
DO
UT
UC
27
25
DO
UT
UC
28
DO
UT
UC
29
UC28
UC29
UA28,UB28
DO
UT
UB
28
DO
UT
UA
28
CLRU3ODEU3
LEU1PCU1
CLRU2ODEU2
LEU3PCU2
LEU5LEU4
DO
UT
DA
29
CLKD7
P+5V
DA27
CL
RD
6
(DR2-BOARD SC SIDE) D
OU
TD
C2
9
DB28,
BUFFER
OD
ED
Y
P+5V
CB5
CLKD7(-)
VCC
DC28
DA22
11
DO
UT
DA
24
DA29-DC29
VCC
DOUTDC31
DO
UT
DC
31
6bit
DB28,
35
DOUTDA28
DATA
4bit
VCC
DC28
4bit
DO
UT
DA
22
DO
UT
DA
26
6bit
DO
UT
DC
28
IC7608
DATA
DA24-DC25
DO
UT
DB
28
DA30-DC31DA26-DC26
DATA
DA28CLRDX
33
2bit
IC7651
IC7607
ODEDX
DO
UT
DA
28
8bit
LEDZ
BUFFER
PANEL DATA DRIVER
PCDZ
BUFFER
CZ1
6bit
TO DR13
DC28,
CZ4
2bit
Vda_RD(78V)
DA30-DC31
6bit
Vda_RD(78V)
Vda_75VDB28,DC28
1
6bitCLKD1-6,7
6bit
+5V_DET
CB4
CLKD11-6,7Vda_75V
8
DA27
Vd
a_
75
V
CL
RD
Y
DC28
DB27
LED3
IC7603
4
PCDY
BUFFERVCC
LED5
Vd
a_
75
V
LED4
6bit
IC7601
6bit
BUFFER
LEDX
VCC
PCDX
IC7602
CLKD2-6,7
BUFFER
CL
KD
6(+
)
8bitDA26-DC26
9
CL
KD
7
VCC
CLRDZ
DO
UT
DA
30
BUFFER
DO
UT
DC
23
IC7653
DA30-DC31
PCUZ
CLKD6(+)
CLRDZ
VCC
6bit
CL
KD
7
8bit
6bit
DA24-DC25
42,41,31
VCC
CL
KD
7(-
)
27
DC23
CL
KD
6
PC
D6
6bit
LE
DY
CB3
PC
DY
CY1
CL
RD
Z
OD
ED
Z
27
VCC
6
41
Vd
a_
RD
(78
V)
11
8bit
DATA
DO
UT
DC
25
10
DATA
IC7605
PANEL DATA DRIVER
23
6bit
LE
D6
BUFFER
IC7604
TO D36
CY0
BUFFER
(Via CD-BOARD)
6bit
CB2
5
8bit
IC7652
+5
V_
DE
T
DA27
4bit
LEDZ
CB1
DB27
ODEDZ
DA28-DA29
PCDZ
CLKD2-6
LEDZ
CLRDZ
DA30-DC31
ODEDZ
PCDZ
CLKD6
29
CLKD2-7
LED1
15
OD
ED
6
LE
DZ
PC
DZ
DB28
CL
KD
6
BUFFER
6bit
DO
UT
DA
27
CLRDZ
DOUTD31C - DOUTD22A
DO
UT
DB
27
DA28-DA29
DA22-DC23 ODEDZ
DATA
ODEDZ
DC27
VCC
Vd
a_
RD
(78
V)
17
DATA 12bit UA28-UC31 DATA 12bit UA28-UC31
DATA 12bit DA28-DC31 DATA 12bit DA28-DC31
5
49
1
9
43
50
55
45
47
25
48
53
14
8
7
13
51
6
9
1
11
47
42
3
55
31
LED2
63 54
DO
UT
DC
27
DO
UT
DC
26
4353
DA29-DC29
4bit
2
1
<TNPA4018>(Exchange board only)
C1 DATA DRIVER (1)
(Exchange board only)<TNPA4029>
CZ DATA DRIVER (Z)!
(Exchange board only)<TNPA4028>
CY DATA DRIVER (Y)!
(Exchange board only)
!
<TNPA4019>
C2 DATA DRIVER (2)
<TSXL569>(C20-CD2)
CABLE
<TSXL518>
CABLE<TSXL568>(D31-CD1)
<TSXL518>
CABLE
<TSXL579>(CY0-CD2)
CABLE<TSXL578>(D36-CD1)
!
TH-103PF9UK/EKC1, C2, CY and CZ-Board Block Diagram
TH-103PF9UK/EKC1, C2, CY and CZ-Board Block Diagram
TH-103PF9UK / TH-103PF9EK
99
13.24. C2, C3, CX and CY-Board Block Diagram
CLRU3
PCU3
LEU3
LE
U3
CL
RU
3
PC
U3
OD
EU
3
ODEU3
P+5V
P75V_R 78V_RU
P+5V
P+5V
P+5V
78V_RU
P75V_R
78V_RU
P75V_R
P+5V
P75V_R 78V_RU
78V_RU
P75V_R
78V_RU
P75V_R
78V_RU
P75V_R
R7026
P+5V R7027
P+5V
P+5V
P75V_R
78V_RD P+5VP+5V R7599
P75V_R
78V_RU
P+5V
P75V_R
P+5V
78V_RU
P75V_R
P75V_R
P+5V
P75V_R
P+5V
78V_RD
78V_RD P75V_R 78V_RU
R7598
78V_RD
13
IC7157BUFFER
33
VCC
DS
LR
DM
LR
15
DS
HR
DM
HR
14
DS
HR
DM
HR
DS
LR
DM
LR
TO DR2
C22
(DR1-BOARD SC SIDE)
DS
LR
DM
LR
6
DS
HR
DM
HR
3
DM
HR
DS
HR
54
DS
LR
DM
LR
2
P+
5V
1
P+
5V
Vd
a_
75
V
TO DR5
1
Vd
a_
75
V
4C24 6
Vd
a_
RU
(78
V)
11
Vd
a_
RU
(78
V)
(DR1-BOARD SC SIDE)D
RV
SO
S7
9
1
4
C23
7
11
12
10
9ODEU3
LEU3
CLRU3
PCU3
ODEU3
P+5V
6bit6bit
CA8
CLKU4
CLKU5
VCC
IC7204VCC
IC7205BUFFER
DRVSOS7
BUFFER
6bitDATA
UA16-UC17
P+5V
PCU3
UA20-UC21
6bit
44
6bit
6bit
CA6
CLRU3
45
6bit
46
ODEU3
PCU3
IC7201VCC
LEU3VCC
IC7203
55
VCC
52
IC7202
49
C32
CA7
BUFFER
6bit
BUFFER
DATA
BUFFER
6bit
6bit
DATA
UA18-UC19
6bit6bit
CLRU3
PANEL DATA DRIVER
47
1
45 Vda_RU(78V)
41
20
15
Vda_RU(78V)
Vda_75V
11
36
55
Vda_75V
C34 6
TO DR4
Vd
a_
RU
(78
V)
11
Vd
a_
RU
(78
V)
Vd
a_
75
V
1 4
Vd
a_
75
V
(DR1-BOARD SC SIDE)
CLRU5-
CLKU4+
9
11
DOUTUC2113
35 DOUTUA16
7 DRVSOS7U_R
+5V_DET37
P+5V4
P+5V1
C31 TO C41
DS
LR
49 DRVSOS7D_R
+5V_DET14
P+5V52
P+5V
Vd
a_
75
V
55
1
CX1
4
TO C91
IC7555
Vd
a_
75
V
BUFFER
(DR2-BOARD SC SIDE)
DRVSOS7
BUFFER
2bitDATA
DB16,DC16
P+5V
CLRD5-
DA19,
CLKD4+
40LEDX
42
VCC
DOUTDC21
IC7553
16
1
38
DATA
VCC
DOUTDA16
DA17-DC18
DB19
6bit
4
6bit
IC7552
CLRDX
PANEL DATA DRIVER
17
55
11 Vda_RU(78V)
15
DS
HR
36
66
55
DM
LR
52
65
CY3
49
4bit
LEDX
CB6
CLRDX
41
CLRDX
PCDX
42
15
40
6bit
39
16
ODEDX
ODEDXODEDX
4
2bit
DA20-DC21
CY4
7
DC19
6
CX2
DA18-DC18
Vd
a_
RD
(78
V)
CB7
PCDX
112
Vd
a_
RD
(78
V)
8bit
P+
5V
(DR2-BOARD SC SIDE)
BUFFER
1
DR
VS
OS
7
DATA
P+5V
P+
5V
9
BUFFER
6bit
Vd
a_
75
V
8bit
6bit
TO DR14
CB8
6bit
1
Vd
a_
75
V
CLKD4
CLKD5
VCC
TO DR12
IC7554
CY2
VCC
(DR2-BOARD SC SIDE) D
SH
R
DS
LR
DM
HR
3
DM
LR
DM
HR
6
DS
HR
54
DS
LR
41
Vda_RU(78V)
DM
LR
Vda_75V PCUDX
45
DA19,DB19
20
1
Vda_75V
DB16
CX439
DC16
IC7606
6
14
BUFFER
TO DR15
2bit
67
Vd
a_
RD
(78
V)
6bit
VCC
11
DA16
DM
LR
Vd
a_
RD
(78
V)
37 14
DS
LL
13
DM
LL
DM
HL
15
DS
HL
DMLL
46DSHL
47
DSLL12
10DMHL
9
45
44
11
DSHL
DMLL
DMHL
DSLL
DSHL
DMLL
DMHL
DSLL
CLRDX
PCDX
ODEDX
LEDX
CL
RD
X
PC
DX
OD
ED
X
LE
DX
DM
LL
DS
HL
DM
HL
DS
LL
46DSHL
DMLL
DMHL45
44
DSHL
DMLL
DMHL
DSLL
47
DSLL
DA20-DC21
CLKD4CLKD5CLKD1-4CLKD1-5
4bit
DA17-DC17
DA16
DC19
DS
HR
DM
LR
DM
LR
DS
LL
DM
LL
DM
HL
DS
HL
DS
LR
2
1
CLKU4CLKU5CLKU1-4CLKU1-5
LED6LED7LED8
UA16-UC17UA18-UC19UA20-UC21
LEU8
LEU6LEU7
(Exchange board only)<TNPA4028>
CY DATA DRIVER (Y)!
(Exchange board only)
!
<TNPA4019>
C2 DATA DRIVER (2)
<TNPA4020>
C3 DATA DRIVER (3)!
(Exchange board only)
(Exchange board only)<TNPA4027>
CX DATA DRIVER (X)!
CABLE
<TSXL518>
CABLE
<TSXL518>
<TSXL518>
CABLE
CABLE
<TSXL518>
TH-103PF9UK/EKC2, C3, CX and CY-Board Block Diagram
TH-103PF9UK/EKC2, C3, CX and CY-Board Block Diagram
TH-103PF9UK / TH-103PF9EK
100
13.25. C4, C5, C8 and C9-Board Block Diagram
LEU5
PCU5
ODEU5
CLRU5
PCU6
P+5V
P+5V
78V_LU
P75V_L
78V_LU
P75V_L
78V_LU
P75V_L
P+5V
78V_LU
P+5V
78V_LU
P75V_L
P+5V
P75V_L
P75V_L 78V_LU
P+5V
78V_LU
P75V_L P75V_L
78V_LU
P75V_L
78V_LUP+5V
P+5V
78V_LD
P+5V
P+5V
78V_LU
78V_LD
P75V_L
P+5V
P+5V
P+5V
P+5V
P75V_L
P75V_L
P+5V
P+5V
P75V_L P75V_L
78V_LD 78V_LD
P75V_L P75V_L
78V_LD
P75V_L
78V_LD
P75V_L 78V_LD
78V_LD
45
47
C41
CLRU5-
TO C31
DOUTUC21 43
CLKU4+
DRVSOS7U_R
DOUTUA16
19
P+5V
21
49
+5V_DET
52
P+5V 55
TO D32
C40
(Via CD-BOARD)
1 3 5
5V
_D
ET
P+
5V
P+
5V
7
DR
VS
OS
7
Q7250
CL
KU
5
39
CL
KU
5(-
)
CL
KU
3
35
CL
KU
4(+
)
VCC
BUFFER
CLKU2
CL
KU
3(-
)
CL
KU
2(+
)
CLKU1-2
33
CL
KU
2
IC7251
37
CL
KU
4
CLKU4
CLKU5
VCC
BUFFER
IC7257
DO
UT
UA
20
DO
UT
UA
19
UA20
DO
UT
UB
19
UB19
DO
UT
UC
21
UC21
UA19,
19,22,2313
DOUTUC21 - DOUTUA10
8bitDATA
CLKU3CLKU1-3
UA19,UB19
UA20-UC21
UC18
UA16
IC7256
DO
UT
UC
18
UA16
UA17-UC18
DO
UT
UC
19
DATA8bit
21,25
UA17
DO
UT
UA
16
DO
UT
UA
17
VCC
BUFFER
19,22
UC16
UC15UB16
IC7258
DO
UT
UB
16
UB16,UC16
DO
UT
UC
16
DATA8bit
49
UC14
DO
UT
UC
14
DO
UT
UC
15
VCC
BUFFER
41,42,45
2bitUC198bit
UC19
IC7253BUFFER
UA14,UB14
VCC
2bit
6bit
CA9
6bit 6bit6bit
CA10
6bit6bit
CA11
6bit
6bit
IC7254
UC11
DATA
61
BUFFER
DO
UT
UC
11
UA10-UC11
67
DO
UT
UA
10
UA10
VCC VCC
IC7252BUFFER
VCC
IC7255BUFFER
59
UA12DATA
UB14
DO
UT
UB
14
DO
UT
UA
12
8bit
50
6bit
UA12-UC13
6bit
UC14-UC15
CLRU5
ODEU5
CLRU5
PCU5
9 ODEU5
PCU511
LEU5LEU5
12
10
PCU614PCU6
55
Vda_75V
45
P+5V
Vda_LU(78V)
1
1
4
Vda_75V
11
36
55
P+5V
41
20
52
15
Vda_LU(78V)
108
CL
RU
2
11
OD
EU
2
CL
RU
4
LE
U2
PC
U4
9
PC
U2
LE
U4
OD
EU
4
C44 6
TO DR15
Vd
a_
LU
(78
V)
11
Vd
a_
LU
(78
V)
Vd
a_
75
V
1 4
Vd
a_
75
V
(DR2-BOARD SS SIDE)
C43
P+
5V
21
P+
5V
C42
7 DRVSOS7U_R
45
47
C53
46
44
49
42
2bit6bit
17 26
DO
UT
UC
9
IC7301
UB7,UC7
BUFFER
DATA
UA8-UC9
UC9
UB7
DO
UT
UB
7
VCC
8bit
6bit6bit
CA12
IC7302
6bit
27 45
BUFFER
4bitUA6-UA7
UA7
DO
UT
UC
4
4bit
UC4
VCC
DO
UT
UA
7
CA13
DATA
6bit
8bit
UC4-UC5
IC7303
6bit
46 55
BUFFER
6bit
UA4,UB4
UB4
DO
UT
UA
2
2bit
UA2
VCC
DO
UT
UB
4
CA14
DATA
6bit
8bit
UA2-UC3
C50
PANEL DATA DRIVERPANEL DATA DRIVER
VCC
DO
UT
DC
18
IC7504 PCD8
(Via CD-BOARD)
2bit
DA16
DO
UT
DA
5
DO
UT
DA
20
40
6bit
DA17-DC18 DA5-DC5
DO
UT
DA
19
LED8
CB9
DO
UT
DC
19
DA2-DC2
DA20-DC21
6bit
DATA
VCC39
DO
UT
DB
19
6bit
6bit
DO
UT
DC
5
41
6bit
DB19
59-55,49-45
CB14
PCD7
DO
UT
DC
21
UB16
DATA
37
DO
UT
DA
17
DO
UT
DA
16
6bit
DA19
VCC
8bit
4
67-61,54,53
BUFFER
DA2-DC2
BUFFER
CLKD2
UC19
14
CL
KU
3(-
)
DOUTDC21 - DOUTDA10
16
CL
KU
2(+
)
8bit
DA17-UC18
C91
CLKD1-2
DATA
IC7506CLRD5-
39
DO
UT
DB
16
TO CX1
CL
KD
2
DB16,DC16
IC7502
DO
UT
DC
16
35
DATA
CL
KD
4
8bit
CLKD4
CLKD5
DA16
DO
UT
DC
14
VCC
6bit
6bit
C80
IC7507
7
19
DATA
6bit
19-13
BUFFER
67
DO
UT
DC
11
61
PANEL DATA DRIVER
DA10-DC11
DO
UT
DC
9
IC7454
CB10
DO
UT
DA
10
6bit
DA10-DC11
BUFFER
6bit
DATA
DOUTDC21
CB11
DA8-DC9
40
CLKD4+
DRVSOS7D_R
DA8-DC9
DO
UT
DA
8
VCC
6bit
6bit6bit
PANEL DATA DRIVER
CB12
Vda_75V
IC7453
11
6bit
P+5V
59
Vda_LD(78V)
50
55
BUFFER
VCC
52
2bit
VCC
55
DA6-DC7
IC7501
Vda_75V
DA6-DC7
1
BUFFER
1
45
8
DO
UT
DA
6
4
VCC
3
20C
LR
D5
6bit
Vd
a_
75
V
IC7503
5
1
11
DB4
(DR1-BOARD SS SIDE)
BUFFER
5V
_D
ET
P+5V
OD
ED
5
VCC
C92
P+
5V
15C
LR
D9
DO
UT
DC
7
P+
5V
DA12-DB14
P+
5V
36L
ED
5
CB13
2
DATA
7
1P
CD
9
DATA
1
DR
VS
OS
7
41
9
6bit
P+
5V
DO
UT
DB
14
Q7500
Vda_LD(78V)
PC
D5
8bit
DO
UT
DC
15
C93D
OU
TD
A1
2
CL
KD
5
10
LE
D9
VCC
DOUTDA16
49
8bit
33
BUFFER
OD
ED
9
42
DRVSOS7D_R
42,41,27-21
CL
KU
5(-
)
51,50,43,31-29 C94
P+5V
16
6bit
CL
KD
3
CLKD3
6
2bit
18
14
DA12-DC13 DB4,DC4DC14-DC15
CLKD1-3
TO DR4
37
DC19
7
IC7452
C83
6bit
CLRD8
CL
KU
4(+
)
8bit
DA19,DB19
Vd
a_
LD
(78
V)
6bit
+5V_DET
15
49
VCC
UC16
11
4
DA20-DC21
17
41,31
IC7508
Vd
a_
LD
(78
V)
P+5V
BUFFER
Vd
a_
75
V
1
BUFFER
DC14-DC15
DC3
TO D35
42
DA14,DB14
IC7505
DA4
BUFFER
C90
ODED810DSHL
DMLL
DMHL11
12
DSHL
DMLL
DMHL
DSLL
9
DSLL
4bit4bit
DC3DA4DA5-DC5
DC4
DO
UT
DC
4D
OU
TD
B4
DO
UT
DC
3D
OU
TD
C2
DO
UT
DA
2
DO
UT
DA
4
DOUTDC9 - DOUTDA0
DOUTUC9 - DOUTUA0
46DSHL
DMLL
DMHL45
44
DSHL
DMLL
DMHL
DSLL
47
DSLL
DMLL
12
DSHL
DMHL
9
DSLL
11
10
CLRD8
PCD7
PCD8
LED8
ODED8
CLRD8
PCD7
PCD8
LED8
ODED8
(Via CD-BOARD)
TO D34
(Via CD-BOARD)
TO D33
PCU6PCU5LEU5
CLKU5
ODEU5
CLKU4
ODEU4
PCD7
LED8
CLKD8
ODED9PCD8CLKD9
ODED8
PCD9LED9LED10LED11
16
14
15
13
11
12
17
18
TO PC204
TO PC205
8bit
PCU4LEU9LEU10LEU11
<TNPA4021>
C4 DATA DRIVER (4)!
(Exchange board only)
!
(Exchange board only)<TNPA4026>
C9 DATA DRIVER (9)
!
(Exchange board only)<TNPA4022>
C5 DATA DRIVER (5)
C8 DATA DRIVER (8)!
(Exchange board only)<TNPA4025>
<TSXL571>(C40-CD2)
CABLE<TSXL570>(D32-CD1)
CABLE
<TSXL571>(C50-CD2)<TSXL572>(D33-CD1)
CABLE
<TSXL575>(C80-CD2)<TSXL574>(D34-CD1)<TSXL576>(D35-CD1)
<TSXL577>(C90-CD2)
CABLE
<TSXL518>
CABLE
<TSXL518>
CABLE<TSXL518>
CABLE
CABLE
<TSXL518>
TH-103PF9UK/EKC4, C5, C8 and C9-Board Block Diagram
TH-103PF9UK/EKC4, C5, C8 and C9-Board Block Diagram
TH-103PF9UK / TH-103PF9EK
101
13.26. C5, C6, C7 and C8-Board Block Diagram
P+5V
P+5V78V_LUP75V_L
78V_LU
R7387
P75V_L
P+5V
78V_LU
P75V_L 78V_LU
P+5V P+5VR7388
P75V_L
P75V_L
78V_LU78V_LU
P75V_L
P75V_L
78V_LD
78V_LD
P75V_L
78V_LD
P+5V
P+5V
P75V_L
R7436
78V_LD
P+5V
78V_LD
P75V_L
R7435
78V_LD
P+5V
P75V_L P75V_L
P+5V
VCC
BUFFER
IC7304VCC
BUFFER
IC7305VCC
BUFFER
IC7307 IC7306VCC
BUFFER
DATA6bit
57
UA0
DO
UT
UC
1
UC1
DO
UT
UA
0
63 C5259
P+
5V TO DR12
2
(DR1-BOARD SS SIDE)DR
VS
OS
7
DM
LL
4
DS
LL
1
P+
5V
6
DS
HL
DM
HL
3
(DR2-BOARD SS SIDE) Vd
a_
75
V
6-11
Vd
a_
LU
(78
V)
TO DR14
Vd
a_
LU
(78
V)
C54 1-4
Vd
a_
75
V
DA0-DC1
VCC
3
+5V_DET 25
P+5V 53
VCC
Vd
a_
75
V
UA2
BUFFER
DA2-DC2
ODEU6
CLKU1CLKU0
LEU16
LE
U6
PC
U6
CL
KU
0
1
CL
KU
1
CLRU6
BUFFER
IC7353
DOUTUA0
PCU6
DOUTUC3
31
13
ODEU6
LEU6
6
4bit
1
6bit
DATA
IC7352
8bit
PANEL DATA DRIVER
C61
TO DR13
2bit
1-4
51
9
C51
Vda_LU(78V)
47
41
Vd
a_
75
V
UB2
14
11
8
LEU6
ODEU6
29
9
15
C64
45
Vda_LU(78V)
47
Vda_75V
5
48
42
49
CLKU1-0
55
43
Vda_75V
CLKU0(+)
27
DATA
CLRU6
50
PCU6
BUFFER
CLRU6
CL
RU
6
CLKU1-1
PCU6
OD
EU
6
7
VCC
IC7351
6-11
4bit
Vd
a_
LU
(78
V)
Vd
a_
LU
(78
V)
(DR2-BOARD SS SIDE)
CLKU1(-)
UC2-UC3
P+5V
UA0-UC1
55
LEU15
66 65
DM
LL
39
DS
HL
DS
LL
DM
HL
675
5V
DE
T
CL
KU
7
CL
KU
0(+
)
35 33
CL
KU
6
CL
KU
1(-
)
6bit
CA16
6bit6bit6bit
CA15
OD
EU
5
LE
U6
CL
RU
5
PC
U5
PC
U6
DATA 12bit DA0-DC3DATA 12bit DA0-DC3
6-11
P+5V
4bit
Vd
a_
LD
(78
V)
VCC
Vd
a_
75
V
Vd
a_
LD
(78
V)
DA3
CLKD1-0
(DR1-BOARD SS SIDE)
BUFFER
CLKU1(-)
UC2-UC3
DA2-DC2DC3
ODED7
CLKU0(+)
P+5V
DATA
VCC
C88
TO SS44(DR1-BOARD SS SIDE)
1
P+
5V
CB15
DATA 12bit UA0-UC3
6bit
DATA
(DR1-BOARD SS SIDE)
IC7401
Vd
a_
75
V
8bit
6-11
PANEL DATA DRIVER
Vd
a_
LD
(78
V)
C71
TO DR3
DA0-DC1
2bit
1-4
LED15
CLKD1
BUFFER
5 13
CLKD0
C81
IC7451
5V
DE
T
10
LED16
Vda_LD(78V)
VCC
CL
KD
1
UE
H
LE
D7
BUFFER
CL
KD
0(+
)
11
IC7457
PC
D7
39
UM
L
Vd
a_
75
V
VCC
CL
KD
6
37
US
H
DB3
BUFFER
CL
KD
0
US
L
IC7455
CL
KD
7
CL
KD
1(-
)
9
LE
D8
CLRD7
IC7458
6bit
PC
D7
CL
RD
5
BUFFER
VCC
CB16
DATA 12bit UA0-UC3
PC
D8
IC7403BUFFER
6bit
DATA
DOUTUA0
6bit
8bit
PCD7
6bit
31
DOUTUC3
DA0-DC1
DO
UT
DC
1
DB3
ODED7
DO
UT
DA
0
LED7
21
4bit
OD
ED
5
CLRD7
Vd
a_
LD
(78
V)
PCD7
C84
LED7
BUFFER
ODED7
CLRD7
1-4
CL
RD
7
Vd
a_
75
V
CLKD1-1
UA0-UB2
PCD7
C74
VCC
OD
ED
7
Vda_LD(78V)
VCC
+5V_DET
IC7402
43
55
27
45
5
1
41
53
50
48
25
47
49
29
55
15
9
7
6
31
51
13
11
3
1
8
Vda_75V
479
4214
Vda_75VPCD7
LED7
PCU6
LEU6
PCU6LEU12LEU13LEU14
LED14
PCD8
LED13LED12
DMHLDSLL
DSHLDMLL
CLRD8ODED8
CLRU5ODEU6CLKU6
ODEU5CLRU1-0CLRU1-1
CLRU2-0CLRU2-1CLRU21-0CLRU21-1
UA0-UC1
6bit
CLRD2-1CLRD2-0
CLRD21-1
DA0-DC1
CLRD21-0
CLRD1-0
DA3 CLRD1-1
DB38bit
DM
LL
DS
LL
4
TO DR2
DS
HL
2
DM
HL
C82
P+
5V
9
DR
VS
OS
7
6 5
P+
5V
13
P+
5V
3
P+
5V
2
P+
5V
1
UM
H
14
UE
L
15
DR
V_
SO
S8
7
VCCIC7456 BUFFER
4
US
L
US
H
UM
H
UE
H
65
UE
L
3 8
UM
L
7
DR
V_
SO
S8
9
DMHLDMLLDSLL DSHL
DS
LL
DM
HL
DS
HL
DM
LL
DA3
DO
UT
DA
3D
OU
TD
B3
15
17
18
16
14
11
13
12
DC3 DA3,DB3
TO DR5
!
(Exchange board only)<TNPA4022>
C5 DATA DRIVER (5)
<TNPA4025>
C8 DATA DRIVER (8)!
(Exchange board only)
(Exchange board only)<TNPA4023>
C6 DATA DRIVER (6)!
<TNPA4024>
C7 DATA DRIVER (7)!
(Exchange board only)
<TSXL518>
CABLE
CABLE
<TSXL518>
TH-103PF9UK/EKC5, C6, C7 and C8-Board Block Diagram
TH-103PF9UK/EKC5, C6, C7 and C8-Board Block Diagram
TH-103PF9UK / TH-103PF9EK
102
13.27. SC2 and S1-Board Block Diagram
COLDCOLD FLOFLOATING GNDTING GND
COLDCOLD FLOFLOATING GNDTING GND
+
+
PUSH
+16V_F+15V
D6806
VR6600
1
2
3
VSUS
VSUS
T6602
D6841
+15V
SOS7-SC2
VR6605
12
3
+15V +16V_F2
+15V
SW061
Q6352
Q6351
VR6351
1
2
3
+15V
VSET0 VSET
VSCN Gen.
COUPLER
2 4
4
6
IC6801
TPVAD
K
TO P12
PHOTO
VSET Gen.
FOR
12
S
2
K
2
195V
Vin
VIN
GND
Q6841,Q6842
10
4
+15V
10
6
1
IC6791
Vsus
VOUT
USE
SC82
TPVSET
Vda 75V
PC6801
SC30
REF
IC6841
A
OCP
D
REF
A
Q6821,Q6822
STB_PS
Q6803
REF
12
TPVSCN
7
VAD Gen.( 85V)
A
5
15
FACTORY
K
85V(Vad)
1
1
POWER OSC
IC6821
IC6803
Vda 75V
(+140V)
8
COM
11
13
SC
STB+12V
DC/DC CONV.
8
TPF16V
VSET:240V
D6804
R6803
R6804
85V
1
Vset
TO SC80
Vset
SC83
2
(SC-BOARD)
5
6 +15V
+15V
11
12 +16V-F2
+16V-F2
VSCN
17
21
VAD
VSCN
22
13
VAD
14
18
+16V-F
+16V-FD6859
VIN
GND COM TPF16V-2
VOUT
85V(Vad)
DC/DC CONV.
IC6792
STB PS 1
34
3
1
3
SC
STB_12V
S34
1
TO SC81
VBK
SC84
2
3
4
15
V_CENT 13
16
14
VBK
VBK
VBK
V_CENT
V_CENT
V_CENT
VbkAdj.
(152V-181V)
K
A
IC6351
REF
Q6353Vbk
+15V
3
6
(DR1-BOARD SC SIDE)
1
2
13
4
SC
Vda75V
TO DR1
Vda75V
Vda75V
Vda75V
TO DR11SC
6
2
Vda75V
Vda75V
+15V
3
(DR2-BOARD SC SIDE)
Vda75V
14
4
1 Vda75V
(SC-BOARD)
(P-BOARD SC SIDE)
TO P11(P-BOARD SC SIDE)
(Exchange board only)
DC-DC CONVERTER!
<TNPA4034>
SC2(Exchange board only)
!
<TNPA4084>
S1 POWER SW
POWER SW
FOR SCAN DRIVE
COLD FLOATING GND
COLD FLOATING GND
TH-103PF9UK/EKSC2 and S1-Board Block Diagram
TH-103PF9UK/EKSC2 and S1-Board Block Diagram
TH-103PF9UK / TH-103PF9EK
103
13.28. SC-Board Block Diagram
CEL2
CL
CEL
CPH2
CLK
FCLU
SIDSIU
FSID
FSIU
FCLD
CEL2
CLK
SIU
FCLKD
PROU
PROD
SID
CPH2
SCSU
CL FCLKU
SCSU
CEL
CBK
D6721
D6872
D6480
D6620
VR6602
12
3
+16V_F
+15V
R6600
+15V
D6862
D6760
R6602
+15V_F
+5V
D6791
15V_F
+5V
+15V
D6478
R6601+15V_F
D6583
+16V_F2
D6871
VSUS
+5V
D6616
D6585
D6610
+15V
D6619
D6612
16V_F
+5V
D6825
Q6824
+5V
+5V+5V
+5V
+15V
VSUS
D6354
+15V
D6826
D6861
R6615 R6614R6630
+16V_F2
D6792
+16V_F2+15V +16V_F
+5V
+16V_F
VR6602
12
3
COLDCOLD FLOFLOATING GNDTING GND
2
IC6521
RATOR
3
HIN
(SC3)
GND
IC6472
VAD SEPARATE
IN
DRIVER
Vf
PC6871
VSET SLOPE
TPVSUS
OUTFET
IC6721
Vscn SOS
COUPLER
FSID
HO
IC6802
3
PC6704
Vad( 85V)
VSET
CLK
6
VF_GND
17
Q6682Q6687Q6688
19
R6662
CEL2
VAD CONT
GND
PHOTO
IC6601
VAD
R6663
OUTFET
1
VCC
DRIVER
INIT-F
FCLU
HO
VF_GND VF_GND
Q6742
B10
A1
FETOUT
CEL2
B11
2
FET
Vscn(VAD+140V)
(SC3)
185V
BUFFER
D
FCLKD
2
FET
B36
Vsus
COUPLER
A33
TPSCI
Vf+5V
AVR
K
A11
COMPA-
G
A40
COUPLER
OUT
SIU
IC6501
G
+5V
L6402Q6441-Q6443,Q6445-Q6447
INVERTER
PHOTO
12
(0-430V)
Q6451-Q6453Q6455-Q6457
Vf
A34
Q6621Q6631Q6633
BUFFER
VSCN SUPERIMEPOSED
PC6702
16V SOS
COM
FET
OUTFET
FET
S
BUFFER
+5V(SC3)SOS
IC6561,IC6562
IC6773
A10
PHOTO
2G-
VF_GND
+5V
ENERGY RECOVERY SOS DET
(0-300V)
FET
3
CLK
7
8
18
BUFF
VAD SLOPE
VCC
B1
VF_GND
CMH
IC6722
BUFF
D
A34
VCC
SC
11
SIU
CEL2
TPVSET2
B12
LO
VCC
COUPLER
K
S
Vscn
GND
VF_GND
L6415
B40
3
VCC
Q6661
COMPARATOR
COUPLER
Vfo SOS
PC6861 A40
Q6791
SC80
REF
Q6422-Q6432
Vf
IC6753L6413
52
SCSU
OUTFET
2
D
ERROR DET
TO D20
COM
+5V(SC2)
Q6602
1
LO
6
(SC1)
A35
A36
1
+5V(SC3)
Q6521-Q6528
Vsus Gen.
COMPA-
FSIU
PHOTO
4
FCLKD
B33
Q6762
D
20
B35
CSL
A1
SC42
Vf+5V
PROU
COUPLER
GND
Q6662
+5V
SC2
PHOTO
INVERTER
SC
7
B13
GND
CPH
G
FET
IC6671
8
SID
PHOTO
FCLKU
20
IC6751
FSIU
COUPLER
FETOUT
S
IC6610
FSID
13
HO
+5V(SC1)SOS
(Vfo)
5
VCC
(5-10V)
PROD
Vf+5V
Vf+5V
HIN
23
IC6471
SC
8
VF_GND
B35
GND
(335V)
VCC
DRIVER
IC6871
1
IC6602
Vf+5V
DRVRST_0
FETOUT
1
9
49
CEL
+5V(SC3)
+5V(SC1)
COUPLER
A36
3
BUFFER
2 OUT
FCLU
Vfo
A40
VSET2 Gen.
GND
IC6752
LO FET
A
LO
BUFFER
5
B34
Vf
SC47
VF_GND
IC6771
Vf
Q6501-Q6508
9
G
3
PC6703
ENERGY RECOVERY
Vf
Q6671-Q6674Q6676-Q6678
Vf
D
5
RATOR
1
-
Q6401-Q6412
CSH
+15V
Vfo
OUT
DRIVER
TPVAD
R6661
CML
Vfo
B1
PHOTO
R6858
TO SC83
VCC
BUFFERDRIVER
VSET2
FCLD
B36
G
+15V
Vf
PHOTO
IN
S
TPSOS6
B33
LIN
PROD
FET
(Vscn)
S
B34
2
COUPLER
VCC
D
Q6601
IC6774
AVR
1
3
CPH2IN
LED(G)
PC6610
Vf
VSUSFCLKU
COUPLER
PC6701
CML
BUFF
VSET SEPARATE
14
1
SC
A
Q6743
DRIVER
PHOTO
TPVSET
Q6531-Q6534
GND
LO
Q6551-Q6554
Q6611-Q6615Q6641-Q6650Q6651-Q6660
VCC
IC6581
PC6760
+5V(SC1)
LED BLINKING : 6 TIMES
L6421
Vscn
Q6663
CL
DRIVER
G
D
SID
Vset SOS
LO
CSL
A12
Vf+5V
REF
IC6681
Q6781-Q6786
VF_GND
BUFFER
A13
FET
GFET
HO
PC6480
AVR
+
Vf+5V
VCC
IC6725
SC41
AMP
VF_GND
TPSC1 SIGNAL WAVE
FET
P+5V
IC6726
GND
S
1
A1
SOS6_SC
7
IC6772
Q6679
A35
TPV15V
IN
COMPA-
Vf+5V
IC6682
VCC
PC6705
D
PHOTO
LIN
Q6680
Vf
9
A33
IN
BUFFER
FET
AVR
CL
11
S
CMH
PROU
OUT
B1
1
VBK
VSCN
BUFF
B40
B40
FCLD
HO
RATOR
G
Q6744 S
IC6861
+5V(SC1)
BUFF
+5V(SC3)
CSH
BUFF
2
Q6581
(SC2)+5V
TO SU49
TO SU42
TO SD52
TO SD47
FSIU
FSID
FCLUFCLU
Vf
FCLKD
A1
B10
A40
A1
SC46
B11
Vf+5VPROU
7
Vf
A29
FCLKU
TO SM51
7
SC
5
Vf+5V
B13
B30
8
B1
FCLKU
9
Vfo
9
3
A31
FSIU
FCLKD
Vf
Vf
FSID
Vscn
PROU
A11
5
B12
1
Vf+5V
A40
PROD
3
B1
Vf
Vscn
Vf+5V
TO SM46
FCLD
B40
SC
A12
8
Vf+5V
Vf
B40
A30
B29
A13
Vfo
51
FCLD
B28
A10
1
50TO SM50
B31
Vf+5V
PROD
A28
SC43 TO SM43
B11
Vfo
A40A10
TO SD48
SC48
Vfo
A12A1
Vf
Vscn
B40B1 B10
Vf
Vscn
B12 B13
A13A11
VSET SOS DET
R6833-R6836
12CBK1
2
VCC
IC6564NOR GATE
YB
A
VCC
1
NOR GATE
IC6566
2
4
1
2
AND GATE
IC6565
VCC
IC6563AND GATE
4
VCC
3
1
2
HOLIN
Q6567,Q6368
Q6361-Q6363
IC6352
HIN
DRIVER
VCC
Q6364-Q6366
OUTFET
OUTFET
FET
Q6465,Q6466
VBK Gen.
OUTFET
Q6462-Q6464
OUTFET
Q6459-Q6461
4
3
VBK
81
13
V_CENT
14
16
V_CENT
SC
VBK
V_CENT
VBK
V_CENT
2
TO SC84
15
VBK
1
VCC
-
COMPARATORQ6554
+
IC6353
CPH
CSH
CMH
CPH1
VF_GND
-97V
-90V
L6424
L6426
VSET SOS OPERATIONat 210V or less
Vse
t
Vse
t
+1
5V
+1
5V
+1
6V
_F
2
+1
6V
_F
2
VS
CN
VS
CN
1413 17
+1
6V
_F
+1
6V
_F
18
VA
D
21 22
VA
D
TO SU41
Q6681Q6685Q6686
INIT-R
Q6825
BUFF
Q6826
BUFF
Q6691
BUFF
(SC2-BOARD)
TO P2
TO P23(P-BOARD SC SIDE)
(P-BOARD SC SIDE)
(SC2-BOARD)
SC FLOATING PART SOS DET
<TNPA4033>
SC!
(Exchange board only)
SCAN DRIVE
COLD FLOATING GND
TH-103PF9UK/EKSC-Board Block Diagram
TH-103PF9UK/EKSC-Board Block Diagram
TH-103PF9UK / TH-103PF9EK
104
13.29. SU, SM and SD-Board Block Diagram
7
FCLU
D74
D41
Vf+5V
D35
IC6901
FSIU
SO
Vf+5V
D34
SI
30bit
GND
S/P
Vf+5V
VDD
30bit
GND
Vf
5
VDDH
Vf D73
SI
CLK
S/P
360LINE
VDD
Vf
PRO
30
D76
Vscn
IC6907
PRO
VDD
CLK
PRO
Vfo
30
CLK
SU41
GND
Vf
CL
Vf
SI
SI
VDD
C12
GND
SO
SO
CLK
IC6903
VDD
SI
SU42
Vfo
30bit
SO
(UPPER)
D40
30bit
PRO
VDDH
30bit
PROU
C53
CL
Vf+5V
CLK
FCLKU
CL
PRO
S/P
PRO
30bitS/P
8
30
CL
C41
IC6904
C51
TO SC49
TO SC41
TO SC42
VDDH
CLK
SO
SU1
LINE
1
C40
D36
D1
D33
CLK
SO
SO
IC6906
GND
PRO
VDD
SCAN
9
SI
C11
30bit
IC6902
IC6905
VDD
90
CL
ELECTRODES
C10
S/P
SI
C13
VDDH
PRO
VDD
C80
VDDH
S/P
30bit
SI
C52
D80
IC6909
VDDH
Vf
IC6951
Vscn
3
GND
CLK
S/P
S/P
C1
GND
S/P
VDDH
CL
SI
VDDH
CLK
30bit
IC6908
VDD
GND
VDDH
GND
D75
SO
CL
PROCL
C50
CL
PANEL
30
30
30
SU2
LINE90
30
30
30
SU3
LINE90
CLCLK
CL
VDD
SI
S/P
VDDH
PRO
IC6910
CLK
VDDH
SO
SI
CLK
GND
30bitS/P
IC6912
SI
30
S/P
30
30
PRO
SU4
SO
GND
LINE
VDD
90IC6911
30bit
VDD
CL
VDDH
30bitGND
PRO
SO
SO
SU55
1FS
TO SM55FS14
SU49
VCC
Vscn Voltage
Vscn Out
High Voltage Floeting GND
SO
CL
High Voltage Floeting GND
Vf+5V
CL
Vscn Out
CL
CLK
PRO
23
CLKM
IC6924
CL
FS
CL
TO SU55
PRO
D48
S/P
S/P
CL
D5
PRO
30bit
VDD
VDDH
S/P
8
30
30bit
VDDH
CL
Vfo
PRO
D80
PANEL
C71
PRO
IC6916
VDD
SI
D47
TO SC50
CLK
S/P
360LINE
TO SC43
VDD
TO SC46
Vf
D41
IC6923
PRO
30
VDDH
30
C68
30
Vscn
S/P
PRO
VDD
IC6919
CLK
LINE90
VDDH
PRO
30bit
Vf
SO
30
SI
CLK
30
CL
30bit
CLK
VDD
SM43
Vf+5V
GND
C30
CLK
SI
D46
30bit
C41
SI
SO
Vf
GND
SM1
GND
S/P
GND
CL
CL
S/P
IC6921
GND
LINE
Vf+5V
VDDH
VDD
VDDH
CLK
SO
Vf
30bit
GND
PRO
SO
Vfo
SI
30bit
D1
5
Vf
C28
SI
IC6922
VDD
IC6952
CLK
SI
C40
VDDH
SM2
Vscn
D6
3
C31
GND
30
GND
LINE
CLK
90
CLK
SO
30
S/P
30
VDDH
SO
VDD
30
IC6918
SO
S/P
GND
D40
PRO
SM3
SO
GND
LINE
VDD
30
S/P
90
CLK
VDDH
SCAN
IC6915
PRO
9
SIMD
CL
SI
VDD
Vscn Voltage
SI
VDDH
D7
SI
CLK
30bit
S/P
SM46
30bit
SM4
IC6914
Vf
Vf+5V
IC6920
IC6917
30bit
VDD
C29
VDD
SM55
90
IC6913
7
SO
(MIDDLE)
GND
CLM
CL
C1
C70
VCC
VDDH
C80
ELECTRODES
30
30bitGND
PRO
D8
SI
VDDH
C69
S/P
SO
SO
30bit
PROM
D45
SI
SM50
VCC
PROM
9
TO SD56
5
IC6952
Vf+5V
SM56
7
3
SM51
TO SC51
Vf+5V
23
CLKM
FS
8
CLM
SO
CL
High Voltage Floeting GND
Vf+5V
CL
Vscn Out
CL
CLK
PRO
1
FCLKD
IC6936
CL
FS
CL
TO SM56
PRO
C50
S/P
S/P
CL
C13
PRO
30bit
VDD
VDDH
S/P
8
30
30bit
VDDH
CL
Vf
PRO
C41
PANEL
C76
PRO
IC6928
VDD
SI
C51
TO SC52
CLK
S/P
360LINE
TO SC47
VDD
TO SC48
Vf
C80
IC6935
PRO
30
VDDH
30
C73
30
Vscn
S/P
PRO
VDD
IC6931
CLK
LINE90
VDDH
PRO
30bit
Vfo
SO
30
SI
CLK
30
CL
30bit
CLK
VDD
SD47
Vf+5V
GND
C35
CLK
SI
C52
30bit
C41
SI
SO
Vf
GND
SD1
GND
S/P
GND
CL
CL
S/P
GND
IC6933
LINE
Vf+5V
VDDH
VDD
VDDH
CLK
SO
Vf
30bit
GND
PRO
SO
Vf
1
SI
30bit
C40
5
Vf
C33
SI
IC6934
VDD
IC6954
CLK
SI
C40
VDDH
SD2
Vscn
C12
3
C36
GND
30
GND
LINE
CLK
90
CLK
SO
30
S/P
30
VDDH
SO
VDD
30
IC6930
SO
S/P
GND
C1
PRO
SD3
SO
GND
LINE
VDD
30
S/P
90
CLK
VDDH
SCAN
IC6927
PRO
9
FS14
CL
SI
VDD
Vscn Voltage
SI
VDDH
C11
SI
CLK
30bit
S/P
SD48
30bit
SD4
IC6926
Vfo
Vf+5V
IC6932
IC6929
30bit
VDD
C34
VDD
SD56
90
IC6925
7
SO
FSID
(LOWER)
GND
FCLD
CL
C1
SD52
C75
VCC
VDDH
C80
ELECTRODES
30
30bitGND
PRO
C10
SI
VDDH
C74
S/P
SO
SO
30bit
PROD
C53
SI
SU
<TNPA4030>
! SCAN OUT (UPPER)
(Exchange board only)
SM
<TNPA4031>
! SCAN OUT (MIDDLE)
(Exchange board only)
<TNPA4032>
! SD SCAN OUT (LOWER)
(Exchange board only)
BRIDGE CONNECTOR<K1LA23BA0003>
BRIDGE CONNECTOR<K1LA23BA0003>
BRIDGE CONNECTOR<K1LA23BA0003>
BRIDGE CONNECTOR<K1LA23BA0003>
TH-103PF9UK/EKSU, SM and SD-Board Block Diagram
TH-103PF9UK/EKSU, SM and SD-Board Block Diagram
TH-103PF9UK / TH-103PF9EK
105
13.30. SS, SS2 and SS3-Board Block Diagram
RE
F
KA
+
G
D
S
G
D
S
5V
G
D
S
G
D
S
G
D
S
D6255
G
D
S
G
D
S
G
D
S
+5V
D6253
D6261
D6273
IC6281
15V
VR6000
1
2
3 G
D
S
G
D
S
15V
G
D
S
G
D
S
D6045D6046
D6043D6044
HIN
L6002-L6013
UEH
TO P12
HO
Vd
a7
5V
SS30
L6302-L6311
ST
B1
2V
Vda75V
Q6107,Q6103,Q6291Q6108,Q6104,Q6292
USL
2
FET DRIVER
FET
UEL
Q6146-Q6149
FET DRIVER
SUSTAIN
(DR2-BOARD SS SIDE)
FET
6
Vda75V
VCC
UMH
(DR1-BOARD SS SIDE)
SS
42
LO
6
1
TO P2
OUTPUT
Q6171-Q6174
IC6131
TPSS1 WAVEFORM
Q6141-Q6144
TPVDA
+5V
Ve2
COMPARATOR
6
+1
5V
USL
TO C88
TP15V
FET
FET
IC6211
3
HIN
OUTPUT
SS58
+15V
VCC
LIN
FET
Vsu
s
Vd
a7
5V
OUTPUT
BUFFER
LO
UML
TPSOS8
SS51
FET
UEH
Q6181-Q6184
USH
LED(G)
OUTPUT
UMH
UML
2
IC6261
5
VCC
IC6191
UEL
OUTPUT
Q6112,Q6114,Q6161,Q6118,Q6120
UMH
1
(+5V)
SS_SOS8
UEH
DRV(SS)_SOS8
UEL2
Q6021-Q6026
+15V
Q6001-Q6006
1
SS37
FET
8
4
Vda75V
12
OUTPUT
UEL
7
FET DRIVER
3
BUFFER
HIN
Vda75V
1
VCC
BUFFER
SS25
44
LED BLINKING : 8 TIMES
Q6101,Q6105,Q6109Q6102,Q6106,Q6290
SS55
VCC
Ve Gen.
VSUS
USH
TPVSUS
8
1
Q6191,Q6192
ST
B P
S
4
OUTPUT
VE
IC6151
LIN
HOLIN
PANEL
ENERGY RECOVERY SOS DET
2
SS57
BUFFER
LO
Vsus Gen.
ELECTRODE
COMPARATOR
VCC
HO
FET DRIVER
USL
USH
Q6051-Q6053
9
Q6111,Q6113,Q6115,Q6117,Q6119,Q6121
SS
3
IC6251
UML
35
Q6045-Q6047
4
2
ENERGY RECOVERY
IC6241
SS
SS
SS
FET
VCC
IN
SS62
OUTPUT
BUFFER
TPSS1
4
Ve2 Gen.
10
SS56
BUFFER
SS21
TO DR11
Vda75V
Vda75V
TO DR1
Vda75V
Vda75V
VE SOS DET
Q6261
D6061-D6069
Q6041-Q6043
Operates at 97V or more and 44V or less/
BUFFER
Q6193,Q6194
BUFFERHO
BUFFER
Q6213,Q6214
Q6211,Q6212
Q6055-Q6057
Ve2 Det
TPVe2
BUFFER
Q6281,Q6282
D6221-D6223
TPVe2
Ve:150VD6228
OUTPUT
Q6221
Q6222
FET DRIVEROUTPUT
VCC
IN LOFET
HO
FET
IC6221
DCDC CONVERTER
EA IN
EA OUT VOUT
VCC
IC6222
Ve2Push-PLLAVR(10V)
FETOUTPUT
Q6156-Q6159
Q6151-Q6154
Q6027-Q6032
Q6007-Q6012
BUFFER
OUTPUT
BUFFER
FET
SS52
SS53
SS54
SS61
SS60
SS59
SS29
SS27
SS36
SS23
LED(G)
Q6271
LED(G)
LED(G)LED(G)
CA
BL
E D
ET
CA
BL
E D
ET
(P-BOARDSS SIDE)
(P-BOARDSS SIDE)
R6288
R6289
!
(Exchange board only)
SUSTAIN DRIVE
<TNPA4035>
SS
SS2 SUSTAIN OUT!
(Exchange board only)<TNPA4036>
!
<TNPA4037>(Exchange board only)
SS3 SUSTAIN OUT
TH-103PF9UK/EKSS, SS2 and SS3-Board Block Diagram
TH-103PF9UK/EKSS, SS2 and SS3-Board Block Diagram
TH-103PF9UK / TH-103PF9EK
106
13.31. DR1, DR2 and CD-Board Block Diagram
D7853
+5V
5V
G
D
S
G
D
S
G
D
S
G
D
S
+5V
G
D
S
G
D
S
G
D
S
D7928
5V
G
D
S
+5V+5V
G
D
S
VR650
1
2
3
+15V
+15V
5V 5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
BUFFER
TPSOS7
HIN
5
Q7901-Q7904
6
DATA RECOVERY
DSLR
HIN
OUTPUT
DSHRVda75V
2
LIN
+5V
DMLR
DSLR
DMHR
LIN
IC7852
78V Gen.
VCC
IC7851
COMPARATOR
Q7984-Q7988
FET DRIVER
Q7955-Q7958
FET3
Q7905-Q7908
DSHR
FET
Q7950-Q7953
+5V
DMLR
VCC
DMHR
L7880-L7882
DMLR
BUFFER
DMHR
IC7854
FET DRIVER
L7885-L7887HO
DR1
1
OUTPUT
DSLR
2
4
3
Q7870,Q7873
Vda75V
BUFFER
1
BUFFER
OUTPUT
SS_SOS7
HO
Q7989-Q7993
VCC
DATA RECOVERY SOS DET
OUTPUT
LO
9DRV_SOS7
4
IC7853
FET
VCC
BUFFER
FET
LO
DR2
DSHR
(SS SIDE)
Q7866,Q7869
6
+15V
Vda75V
Vda75V
TPVDA
TP15V TPCVDA
D7871-D7873
D7874-D7876
2
4
1
3
Vda75V(P75V)
DR3
Vda75V(P75V)
Vda75V(P75V)
Vda75V(P75V)
7
6
8
9
10
11
9
8
10
2
DR4
1
Vda75V(P75V)
3
Vda75V(P75V)
7
4
11
Vda75V(P75V)
6
Vda75V(P75V)
9
8
10
2
DR5
1
Vda75V(P75V)
3
Vda75V(P75V)
7
4
11
Vda75V(P75V)
6
Vda75V(P75V)
1
Vda75V(P75V)
OUTPUT
OUTPUT
DSLR
9
Vda75V(P75V)
2
4
TPVDA
Vda75V
8
Vda75V(P75V)
LO
1
Vda75V(P75V)
2
DR14
L7960,L7961
Q7941,Q7944
Vda75V
6
HO
10
3
3
Q7945,Q7948
Vda75V
2
BUFFER
Q7980-Q7983
TP15V
3
8
DSHR
+15V
DR13
6
DMHR
7
Vda75V(P75V)
DATA RECOVERY
IC7929
DSLR
D7946-D7948
DMLR
BUFFERVCC
TPSOS7
HIN
5
1
7
4
Vda75V(P75V)
IC7853DRV_SOS7
Vda75V(P75V)
3FET
VCC
4
IC7927
Vda75V(P75V)
7
LIN
Q7955-Q7958
78V Gen.
FET
VCC
4
DMHR
D7949-D7951
1
L7956,L7957
Q7984-Q7988
3
DMLR
Vda75V(P75V)
BUFFER
SS_SOS7
BUFFER
DSHR
OUTPUT
Vda75V
HO
FET DRIVER
2
TPVC
Q7989-Q7993
BUFFER
FETLO
IC7926
10
DR12
COMPARATOR
Q7976-Q7979
6
1
+5V
FET DRIVER
9
DMHR
DSHR
DMLR
10
LIN
VCC
4DSLR
DR15
HIN
11
FET
OUTPUTVda75V(P75V)
Q7950-Q7953
DR11
+5V
6
2
9
11
Vda75V(P75V)
8
6
9
11
Vda75V(P75V)
AND GATE
IC7932
VCCVCC
NOR GATE
IC7931Q650
D652
L650-L652
IC7930
ENHANCE
IN(+)VIN
OUT
RASE VOLTAGE
TPDR
TPDR
CH4_B
CH2_B
GND
GND
P5V
GND
GND
GND
CH5_A
GND
CH5_B
DIN_CLK1
GND
CH1_B
CH8_B
DRV_SOS7D
P5V
CH8_A
P5V
CH8_C
CH9_B
CH9_A
CH9_C
CH10_B
GND
GND
CH10_A
CH10_C
CH11_B
CH11_A
CH11_C
CH3_C
CH12_B
CH5_C
CH12_A
CH12_C
CH13_B
CH13_A
CH13_C
GND
CH14_B
CH14_A
CH14_C
CH3_A
GND
GND
CH3_B
CH2_C
GND
NC
PC
ODE
CH4_A
CLR
LE
CH1_A
DIN_CLK2
CH4_C
DIN_CLK3
DIN_CLK4
GND
CH1_C
GND
GND
CH2_A
5V_DET
GND
GND
CH4_C
CH12_B
CH5_C
CH12_A
CH9_A
CH2_C
CH8_A
GND
CH13_A
GND
CH10_C
GND
CH4_B
GND
GND
GND
GND
CH10_A
CH11_A
CH1_B
CH11_C
GND
CH14_B
CH12_C
CH2_B
GND
CH5_A
GND
CH4_A
CH13_C
CH3_A
CH8_B
CH13_B
CH3_C
GND
CH3_B
CH10_B
GND
P5V
GND
P5V
GND
P5V
NC
CH5_B
CH2_A
CH9_C
CH14_A
CH1_A
GND
CH9_B
CH14_C
CH11_B
CH1_C
5V_DET
CH8_C
PC
CLR
LE
ODE
DIN_CLK2
DIN_CLK3
GND
DIN_CLK4
GND
DIN_CLK1
GND
4
2
1
6
9
7
3
8
10
5
11
18
20
15
16
19
17
13
14
12
21
28
30
25
26
29
27
23
24
22
31
38
40
35
36
39
37
33
34
32
41
48
50
45
46
49
47
43
44
42
51
58
60
55
56
59
57
53
54
52
61
68
65
66
67
63
64
62
1
34
55
12
49
39
21
63
26
48
59
54
52
60
56
47
29
25
30
8
17
10
36
20
31
65
51
15
27
24
50
5
40
38
64
68
11
45
18
66
28
42
33
44
58
53
32
37
6
9
67
7
3
13
23
19
61
41
22
46
4
35
2
57
16
62
43
14
TO
CD1 CD2
BUFFER
IC9707VCC
IC9702VCC
BUFFER
VCC
BUFFER
IC9704
VCC
BUFFER
IC9703
VCC
BUFFER
IC9706
VCC
BUFFER
IC9705
IC9709VCC
BUFFER
IC9708VCC
BUFFER
IC9701VCC
BUFFER
TO C14(SC SIDE)C74(SS SIDE)
TO CX4(SC SIDE)C44(SS SIDE)
TO CZ4(SC SIDE)C64(SS SIDE)
LED BLINKING : 7 TIMES
LED BLINKING : 7 TIMESDATA RECOVERY SOS DET
DRV_SOS7
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
78V(Vda-RD/LU)
TO C34(SC SIDE)C94(SS SIDE)
TO C24(SC SIDE)C84(SS SIDE)
TO CY4(SC SIDE)C54(SS SIDE)
DR1
<TNPA4039>
!
(Exchange board only)
DR2!
<TNPA4100>(Exchange board only)
<TNPA4040>
CD C-BOARD/D-BOARD CONNECTION
(Exchange board only)
!
ENERGY DATA RECOVERY
ENERGY DATARECOVERY
D36D35D34D33D32D31
CY0
C50
C20C40
C90C80
TO
(SC SIDE)
TOSC13
SS42
C82(SS SIDE)
C22TO
(SC SIDE)
(SS SIDE)
SC14TO
(SC SIDE)SS35
(SS SIDE)
CY2TO
(SC SIDE)C52
TH-103PF9UK/EKDR1, DR2 and CD-Board Block Diagram
TH-103PF9UK/EKDR1, DR2 and CD-Board Block Diagram
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
78V(Vda-RU/LD)
TH-103PF9UK / TH-103PF9EK
107
NOTE
TH-103PF9UK / TH-103PF9EK
108
15 Parts Location15.1. Exploded View15.1.1. The main mechanical parts relation
109
TH-103PF9UK / TH-103PF9EK
15.1.2. Customer Control part location enlarged view
15.1.3. Escutcheon part location enlarged view
110
TH-103PF9UK / TH-103PF9EK
15.1.4. Fan part location enlarged view
15.1.5. Rear cover location enlarged view
111
TH-103PF9UK / TH-103PF9EK
15.2. Cable and Fan
15.3. Board and Fuse
112
TH-103PF9UK / TH-103PF9EK
15.4. Packing summary
113
TH-103PF9UK / TH-103PF9EK
114
TH-103PF9UK / TH-103PF9EK
115
TH-103PF9UK / TH-103PF9EK
116
TH-103PF9UK / TH-103PF9EK
117
TH-103PF9UK / TH-103PF9EK
118
TH-103PF9UK / TH-103PF9EK
119
TH-103PF9UK / TH-103PF9EK
Ref.No.
Part No. Part Name &Description
Pcs Remarks
1 EUR7636070R REMOTE CONTROLLER 1 UK
1 EUR7636090R REMOTE CONTROLLER 1 EK
J0KD00000096 FERRITE CORE 3
2 J0KF00000021 NOISE FILTER 1
K1LA23BA0003 BRIDGECONNECTOR(SU-SM/SM-SD)
2
3 K2AHYH000009 AC INLET 1
4 K2CG3YY00011 AC CORD 1 UK
4 K2CN3YY00003 AC CORD (ROUNDPIN)
1 EK
4 K2CT3YY00002 AC CORD(RECTANGULAR BLAD)
1 EK
5 L6FAYYYH0030 FAN UNIT (80mm) 3
6 L6FAYYYH0031 FAN UNIT (120mm) 8
7 MD103F09A1J PLASMA DISPLAYPANEL
1
8 TBMA209 PANASONIC BADGE 1
9 TBXA46703A 5 RANGE BUTTON 1
10 TBXA50001 POWER BUTTON 1
TESA031 SPRING 1
11 TESD031 SPRING 1
THEA068N SCREW 6
12 THEA154J M16 BOLT 4
THEL0239 SCREW 12
THEL027N SCREW 29
THEL0429 SCREW 7
THTA0419 HOOK SCREW 8
THTD011J SCREW 4
THTD013N SCREW 28
THTF011N SCREW 704
13 TKEA16401 ESCUTCHEON TOP 1
14 TKEA16501T ESCUTCHEON BOTTOM 1
15 TKEA16601 ESCUTCHEONLEFT/RIGHT
2
16 TKGA5314 FRONT GLASS 1
17 TKKC5213 LED PANEL 1
18 TKKL5266 COVER 1
19 TKKL5370 EYEBOLT COVER 11
20 TKKX0015 HEXAGONAL WRENCH 1
21 TKPA60301 REMOCON RECEIVEPANEL
1
22 TKUX11501 REARCOVER(CENTER/LEFT/U)
1
23 TMKA580 ESCUTCHEON FELTLEFT/RIGH
2
24 TMKA581 ESCUTCHEON FELTTOP/BOTTOM
4
25 TMKG405 SPONGE (FAN) 18
26 TMKG469-1 SPONGE (FAN) 3
27 TMKG732 SPONGE(LEFT/RIGHT)
2
28 TMKG733 SPONGE(UPPER/LOWER)
4
TMM16473-1 CLAMPER 5
TMM17499 CLAMPER 1
TMM25401 CLAMPER 10
TMM6463-1 CLAMPER 10
TMM6496-1 CLAMPER 1
TMM7464-2 CLAMPER 5
TMM7468-1 CLAMPER 10
TMME047 CLAMPER 14
TMME061 CLAMPER 14
TMME088 CLAMPER 6
TMME152 CLAMPER 6
TMME152 CLAMPER 1
TMME185 CLAMPER 6
29 TMME187 CLAMPER 4
TMME199 CLAMPER 4
32 TMME226 AC CORD CLAMPER 1
TMME228 CLAMPER 6
30 TMMJ068 RUBBER(FAN) 32
Ref.No.
Part No. Part Name &Description
Pcs Remarks
31 TMWC016 P BUTTON BRAKET 1
TMXX036 AC CORD CLAMPER B 1 UK
33 TPCC04501 CARTON BOTTOM 1
34 TPCC04601 CARTON TOP 1
35 TPCC04702 CARTON SIDE A 1 UK
TPCC04703 CARTON SIDE A 1 EK
36 TPCC04802 CARTON SIDE B 1 UK
TPCC04803 CARTON SIDE B 1 EK
73 TPDA1038 PROTECTION PAD 4
37 TPDA1416 TOP CUSHION 2
38 TPDA1417-1 BOTTOM CUSHIONLEFT
1
39 TPDA1418-1 BOTTOM CUSHIONRIGHT
1
74 TPDA1419 CUSHION CENTER 2
40 TPDF1744 L PAPER TUBE V 4
41 TPDF1745 L PAPER TUBE H 2
42 TPDF1746 PARTS BOX 1
43 TPDX0007 JOINT 4
TPDX0027 BOTTOM SKID 1
44 TPDX0028 BAND 5
45 TPEH323 PROTECTION BAG 1
46 TPEH324 FRONT PROTECTIONCOVER
2
47 TQBC2122 INSTRUCTIONBOOK(ENGLISH)
1 UK
47 TQBC2123 INSTRUCTIONBOOK(SPANISH)
1 UK
47 TQBC2124 INSTRUCTIONBOOK(FRENCH)
1 UK
47 TQBC2125 INSTRUCTIONBOOK(ENGLISH)
1 EK
47 TQBC2126 INSTRUCTIONBOOK(GERMAN)
1 EK
47 TQBC2127 INSTRUCTIONBOOK(FRENCH)
1 EK
47 TQBC2128 INSTRUCTIONBOOK(ITALIAN)
1 EK
47 TQBC2129 INSTRUCTIONBOOK(SPANISH)
1 EK
47 TQBC2130 INSTRUCTIONBOOK(DUTCH)
1 EK
47 TQBC2131 INSTRUCTIONBOOK(DANISH)
1 EK
47 TQBC2132 INSTRUCTIONBOOK(SWEDISH)
1 EK
48 TSXL518 CABLE(C11-C21/C23-C32/C31-C41/C42-C53/C51-C61/C71-C81/C83-C93/C91-CX1/CX2-CY3/CY1-CZ1)
10
49 TSXL568 CABLE(D31-CD1) 1
50 TSXL569 CABLE(C20-CD2) 1
51 TSXL570 CABLE(D32-CD1) 1
52 TSXL571 CABLE(C40-CD2) 2
53 TSXL572 CABLE(D33-CD1) 1
55 TSXL574 CABLE(D34-CD1) 1
56 TSXL575 CABLE(C80-CD2) 1
57 TSXL576 CABLE(D35-CD1) 1
58 TSXL577 CABLE(C90-CD2) 1
59 TSXL578 CABLE(D36-CD1) 1
60 TSXL579 CABLE(CY0-CD2) 1
61 TSXL584 CABLE(DN6-DS5) 1
62 TSXL585 CABLE(DN1-DS1) 1
63 TTUA1515 REARCOVER(SIDE/LEFT)
1
64 TTUA1518 REARCOVER(CENTER/LEFT/B)
1
65 TTUA1519 REARCOVER(CENTER/RIGHT/U)
1
16 Replacement Parts List
120
TH-103PF9UK / TH-103PF9EK
takahashi
TKGA5314
okb
1
takahashi
1
takahashi
2
Ref.No.
Part No. Part Name &Description
Pcs Remarks
66 TTUA1520 REARCOVER(CENTER/RIGHT/B)
1
67 TTUA1526 REARCOVER(SIDE/RIGHT)
1 UK
67 TTUA1527 REARCOVER(SIDE/RIGHT)
1 EK
68 TUXJ350 ESC(LEFT/TOPRIGHT/BOTTOM)
2
69 TUXJ351 ESC(LEFT/TOPRIGHT/BOTTOM)
2
70 TUXJ370 ESC(RIGHT/TOPLEFT/BOTTOM)
2
71 TUXJ371 ESC(RIGHT/TOPLEFT/BOTTOM)
2
XTV3+10JFJ SCREW 2
XTV3+10JFJ SCREW 1
XTV3+8JFJK SCREW(TUNER COVER) 1
XTW3+8TFJ SCREW 2
72 XVN16FJ EYEBOLT 3
XWB16BVJ M16 SPRING WASHER 4
XYN3+F10FJ SCREW 5
XYN3+F8FJ SCREW 5
XYN3+J12FJ SCREW 230
XYN3+J8FJ SCREW ROHS 20
XYN4+E8FJ SCREW 1
XYN4+F10FJK SCREW 103
XYN4+F32FJ SCREW 35
XYN4+J10FJ SCREW 135
XYN5+F15FJ SCREW 86
XYN5+F30FJK BLACK SCREW 18
XYN8+F20FJK SCREW 24
XZBT6506 POLY BAG 1
F1601.F1602
K5D103BMA001 TIME LAG FUSE HIGH 4
F900.F901.F903.F904
K5D103BMA001 TIME LAG FUSE HIGH 4
F1701.F1702
K5D502BNA007 AC FUSE 4
81 ZTXMM641MG2 CIRCUIT BOARD P(SUS)
2
82 ZTXMM641MG1 CIRCUIT BOARD P(MULTI)
2
83 TNPA4018 CIRCUIT BOARD C1 1
84 TNPA4019 CIRCUIT BOARD C2 1
85 TNPA4020 CIRCUIT BOARD C3 1
86 TNPA4021 CIRCUIT BOARD C4 1
87 TNPA4022 CIRCUIT BOARD C5 1
88 TNPA4023 CIRCUIT BOARD C6 1
89 TNPA4024 CIRCUIT BOARD C7 1
90 TNPA4025 CIRCUIT BOARD C8 1
91 TNPA4026 CIRCUIT BOARD C9 1
92 TNPA4027 CIRCUIT BOARD CX 1
93 TNPA4028 CIRCUIT BOARD CY 1
94 TNPA4029 CIRCUIT BOARD CZ 1
95 TNPA4030 CIRCUIT BOARD SU 1
96 TNPA4031 CIRCUIT BOARD SM 1
97 TNPA4032 CIRCUIT BOARD SD 1
98 TNPA4033 CIRCUIT BOARD SC 1
99 TNPA4034 CIRCUIT BOARD SC2 1
100 TNPA4035 CIRCUIT BOARD SS 1
101 TNPA4036 CIRCUIT BOARD SS2 1
102 TNPA4037 CIRCUIT BOARD SS3 1
103 TNPA4039 CIRCUIT BOARD DR1 2
104 TNPA4040 CIRCUIT BOARD CD 6
105 TNPA4041 CIRCUIT BOARD PC 1
106 TNPA4052 CIRCUIT BOARD HDD 1
107 TNPA4055 CIRCUIT BOARD F 1
108 TNPA4058 CIRCUIT BOARD H5 1
109 TNPA4084 CIRCUIT BOARD S1 1
110 TNPA4085 CIRCUIT BOARD V1 1
111 TNPA4086 CIRCUIT BOARD V2 1
112 TNPA4087 CIRCUIT BOARD V3 1
113 TNPA4100 CIRCUIT BOARD DR2 2
Ref.No.
Part No. Part Name &Description
Pcs Remarks
114 TNPA4103 CIRCUIT BOARD PB 1
115 TNPA4217 CIRCUIT BOARD DS 1
116 TXNHA10RBS CIRCUIT BOARD HA 1
117 TZTNP01YLTU CIRCUIT BOARD DN 1
118 TZTNP01YLTW CIRCUIT BOARD HX 1
119 TZTNP02YLTJ CIRCUIT BOARD D 1
121
TH-103PF9UK / TH-103PF9EK
takahashi
1
takahashi
1
takahashi
1
takahashi
1
takahashi
1
takahashi
1
takahashi
1
takahashi
1
takahashi
1
takahashi
1
takahashi
1
takahashi
1
takahashi
2
takahashi
1
takahashi
1
takahashi
2
takahashi
1
takahashi
1
takahashi
1
takahashi
1
takahashi
1
takahashi
3
