Sk5.1l - Tecnicosaurios

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Colour Television Chassis SK5.1L CA H_17220_000.eps 210607 Contents Page 1. Technical Specifications, Connections, and Chassis Overview 2 2. Safety Instructions, Warnings, and Notes 4 3. Directions for Use 5 4. Mechanical Instructions 6 5. Service Modes, Error Codes, and Fault Finding 8 6. Block Diagrams, Test Point Overview, and Waveforms Block Diagram Chassis 9 Schematic Overview Chassis 10 7. Circuit Diagrams and PWB Layouts Mono Carrier: Power Supply (A1) 11 Mono Carrier: Line Deflection (A2) 12 Mono Carrier: Frame Deflection (A3) 13 Mono Carrier: Tuner IF (A4) 14 Mono Carrier: AV Switch (A5) 15 Mono Carrier: Tone Control (Optional) (A6) 16 Mono Carrier: Audio Amplifier (A7) 17 CRT Board (B) 20 Keyboard Control Panel (D) 21 Side A/V Panel (G) 23 8. Alignments 25 9. Circuit Descriptions, Abbreviation List, and IC Data Sheets 30 Abbreviation List 31 IC Data Sheets 32 10. Spare Parts List 45 11. Revision List 48 18-19 18-19 18-19 18-19 18-19 18-19 18-19 18-19 22 23 © Copyright 2008 Philips Consumer Electronics B.V. Eindhoven, The Netherlands. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, or otherwise without the prior permission of Philips. Published by JY 0864 BU CD Consumer Care Printed in the Netherlands Subject to modification EN 3122 785 17880 EN 2 1. Technical Specifications, Connections, and Chassis Overview SK5.1L CA 1. Technical Specifications, Connections, and Chassis Overview Index of this chapter: 1.1 Technical Specifications 1.2 Connection Overview 1.3 Chassis Overview (Mechanical chassis) Note: Data below can deviate slightly from the actual situation, due to the different set executions. 1.1 Technical Specifications 1.1.1 Vision Display type Screen size Tuning system TV Colour systems Video playback Presets/channels Tuner bands 1.1.2 Connection Overview Note: The following connector colour abbreviations are used (acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy= Grey, Rd= Red, Wh= White, and Ye= Yellow. 1.2.1 Front / Side Connections Side in, Cinch: Video CVBS - In, Audio - In Ye - Video CVBS 1 VPP / 75 ohm Wh - Audio L 0.5 VRMS / 10 kohm Rd - Audio R 0.5 VRMS / 10 kohm jq jq jq : : : : : CRT 29” (72 cm), 4:3 PLL NTSC, PAL M, N NTSC, PAL all versions : 181 channels : VHF : UHF Sound Sound systems Maximum power (WRMS) 1.1.3 1.2 : Stereo, SAP : 2x5 H_17880_001.eps 190308 Miscellaneous Figure 1-1 Rear and Side Connections Power supply: - Mains voltage (VAC) : 100 - 240 - Mains frequency (Hz) : 50 / 60 Ambient conditions: - Temperature range (°C) - Maximum humidity : -5 to +45 : 90% R.H. Power consumption - Normal operation (W) - Stand-by (W) : ≈ 105 : <1 Dimensions (W × H × D mm) : 781 × 586 × 400 Weight (kg) : 40.5 1.2.2 Rear Connections Aerial - In - - F-connector Coax, 75 ohm D Monitor out, Cinch: Video CVBS - Out, Audio - Out Ye - Video CVBS 1 VPP / 75 ohm Wh - Audio L 0.5 VRMS /10 kohm Rd - Audio R 0.5 VRMS / 10 kohm kq kq kq AV1 in, Cinch: Video YPbPr - In Gn - Video Y 1 VPP / 75 ohm Bu - Video Pb 0.7 VPP / 75 ohm Rd - Video Pr 0.7 VPP / 75 ohm Ye - Video CVBS 1 VPP / 75 ohm Wh - Audio L 0.5 VRMS / 10 kohm Rd - Audio R 0.5 VRMS / 10 kohm jq jq jq kq jq jq AV2 in, Cinch: Video CVBS - In, Audio - In Ye - Video CVBS 1 VPP / 75 ohm Wh - Audio L 0.5 VRMS / 10 kohm Rd - Audio R 0.5 VRMS / 10 kohm jq jq jq AV2 in, S-Video (Hosiden): Video Y/C - In 1 - Ground Y Gnd 2 - Ground C Gnd 3 - Video Y 1 VPP / 75 ohm 4 - Video C 0.3 VPPP / 75 ohm H H j j Technical Specifications, Connections, and Chassis Overview 1.3 SK5.1L CA 1. EN 3 Chassis Overview (Mechanical chassis) D CONTROL PANEL B CRT BOARD A1 POWER SUPPLY A2 LINE DEFLECTION A3 FRAME DEFLECTION A4 TUNER MONO CARRIER SIDE AV PANEL Figure 1-2 PWB location A G A5 AV SWITCH A6 AUDIO AMPLIFIER A7 CPU & DECODER I_17880_002.eps 210308 EN 4 2. SK5.1L CA Safety Instructions, Warnings, and Notes 2. Safety Instructions, Warnings, and Notes Index of this chapter: 2.1 Safety Instructions 2.2 Maintenance Instructions 2.3 Warnings 2.4 Notes 2.1 Safety Instructions 1. Perform the “general repair instruction” noted above. 2. Clean the power supply and deflection circuitry on the chassis. 3. Clean the picture tube panel and the neck of the picture tube. 2.3 Safety regulations require the following during a repair: • Connect the set to the Mains/AC Power via an isolation transformer (> 800 VA). • Replace safety components, indicated by the symbol h, only by components identical to the original ones. Any other component substitution (other than original type) may increase risk of fire or electrical shock hazard. • Wear safety goggles when you replace the CRT. • Safety regulations require that after a repair, the set must be returned in its original condition. Pay in particular attention to the following points: • General repair instruction: as a strict precaution, we advise you to re-solder the solder connections through which the horizontal deflection current flows. In particular this is valid for the: 1. Pins of the line output transformer (LOT). 2. Fly-back capacitor(s). 3. S-correction capacitor(s). 4. Line output transistor. 5. Pins of the connector with wires to the deflection coil. 6. Other components through which the deflection current flows. Note: This re-soldering is advised to prevent bad connections due to metal fatigue in solder connections, and is therefore only necessary for television sets more than two years old. • Route the wire trees and EHT cable correctly and secure them with the mounted cable clamps. • Check the insulation of the Mains/AC Power lead for external damage. • Check the strain relief of the Mains/AC Power cord for proper function, to prevent the cord from touching the CRT, hot components, or heat sinks. • Check the electrical DC resistance between the Mains/AC Power plug and the secondary side (only for sets that have a Mains/AC Power isolated power supply): 1. Unplug the Mains/AC Power cord and connect a wire between the two pins of the Mains/AC Power plug. 2. Set the Mains/AC Power switch to the “on” position (keep the Mains/AC Power cord unplugged!). 3. Measure the resistance value between the pins of the Mains/AC Power plug and the metal shielding of the tuner or the aerial connection on the set. The reading should be between 4.5 Mohm and 12 Mohm. 4. Switch “off” the set, and remove the wire between the two pins of the Mains/AC Power plug. • Check the cabinet for defects, to prevent touching of any inner parts by the customer. 2.2 Maintenance Instructions We recommend a maintenance inspection carried out by qualified service personnel. The interval depends on the usage conditions: • When a customer uses the set under normal circumstances, for example in a living room, the recommended interval is three to five years. • When a customer uses the set in an environment with higher dust, grease, or moisture levels, for example in a kitchen, the recommended interval is one year. • The maintenance inspection includes the following actions: Warnings In order to prevent damage to ICs and transistors, avoid all high voltage flashovers. In order to prevent damage to the picture tube, use the method shown in figure “Discharge picture tube”, to discharge the picture tube. Use a high voltage probe and a multi-meter (position VDC). Discharge until the meter reading is 0 V (after approx. 30 s). V E_06532_007.eps 250304 Figure 2-1 Discharge picture tube • • • • All ICs and many other semiconductors are susceptible to electrostatic discharges (ESD w). Careless handling during repair can reduce life drastically. Make sure that, during repair, you are connected with the same potential as the mass of the set by a wristband with resistance. Keep components and tools also at this same potential. Be careful during measurements in the high voltage section. Never replace modules or other components while the unit is switched “on”. When you align the set, use plastic rather than metal tools. This will prevent any short circuits and prevents circuits from becoming unstable. 2.4 Notes 2.4.1 General • • • • Measure the voltages and waveforms with regard to the chassis (= tuner) ground (H), or hot ground (I), depending on the tested area of circuitry. The voltages and waveforms shown in the diagrams are indicative. Measure them in the Service Default Mode (see chapter 5) with a colour bar signal and stereo sound (L: 3 kHz, R: 1 kHz unless stated otherwise) and picture carrier at 475.25 MHz for PAL, or 61.25 MHz for NTSC (channel 3). Where necessary, measure the waveforms and voltages with (D) and without (E) aerial signal. Measure the voltages in the power supply section both in normal operation (G) and in stand-by (F). These values are indicated by means of the appropriate symbols. The semiconductors indicated in the circuit diagram and in the parts lists, are interchangeable per position with the semiconductors in the unit, irrespective of the type indication on these semiconductors. Manufactured under license from Dolby Laboratories. “Dolby”, “Pro Logic” and the “double-D symbol”, are trademarks of Dolby Laboratories. Directions for Use 2.4.2 Schematic Notes • • • • • • 2.4.3 All resistor values are in ohms, and the value multiplier is often used to indicate the decimal point location (e.g. 2K2 indicates 2.2 kohm). Resistor values with no multiplier may be indicated with either an “E” or an “R” (e.g. 220E or 220R indicates 220 ohm). All capacitor values are given in micro-farads (μ = × 10-6), nano-farads (n = × 10-9), or pico-farads (p = × 10-12). Capacitor values may also use the value multiplier as the decimal point indication (e.g. 2p2 indicates 2.2 pF). An “asterisk” (*) indicates component usage varies. Refer to the diversity tables for the correct values. The correct component values are listed in the Spare Parts List. Therefore, always check this list when there is any doubt. 3. Directions for Use You can download this information from the following websites: http://www.philips.com/support http://www.p4c.philips.com 3. EN 5 avoid mixed regimes. If this cannot be avoided, carefully clear the solder-joint from old tin and re-solder with new tin. 2.4.4 Alternative BOM identification In September 2003, Philips CE introduced a change in the way the serial number (or production number, see Figure 2-2) is composed. From this date on, the third digit in the serial number (example: AG2B0335000001) indicates the number of the alternative BOM (Bill of Materials used for producing the specific model of TV set). It is possible that the same TV model on the market is produced with e.g. two different types of displays, coming from two different O.E.M.s. By looking at the third digit of the serial number, the service technician can see if there is more than one type of B.O.M. used in the production of the TV set he is working with. He can then consult the At Your Service Web site, where he can type in the Commercial Type Version Number of the TV set (e.g. 28PW9515/12), after which a screen will appear that gives information about the number of alternative B.O.M.s used. If the third digit of the serial number contains the number 1 (example: AG1B033500001), then there is only one B.O.M. version of the TV set on the market. If the third digit is a 2 (example: AG2B0335000001), then there are two different B.O.M.s. Information about this is important for ordering the correct spare parts! For the third digit, the numbers 1...9 and the characters A...Z can be used, so in total: 9 plus 26 = 35 different B.O.M.s can be indicated by the third digit of the serial number. Lead-free Soldering Due to lead-free technology some rules have to be respected by the workshop during a repair: • Use only lead-free soldering tin Philips SAC305 with order code 0622 149 00106. If lead-free solder paste is required, please contact the manufacturer of your soldering equipment. In general, use of solder paste within workshops should be avoided because paste is not easy to store and to handle. • Use only adequate solder tools applicable for lead-free soldering tin. The solder tool must be able: – To reach a solder-tip temperature of at least 400°C. – To stabilize the adjusted temperature at the solder-tip. – To exchange solder-tips for different applications. • Adjust your solder tool so that a temperature of around 360°C - 380°C is reached and stabilized at the solder joint. Heating time of the solder-joint should not exceed ~ 4 sec. Avoid temperatures above 400°C, otherwise wear-out of tips will increase drastically and flux-fluid will be destroyed. To avoid wear-out of tips, switch “off” unused equipment or reduce heat. • Mix of lead-free soldering tin/parts with leaded soldering tin/parts is possible but PHILIPS recommends strongly to SK5.1L CA 2.4.5 Practical Service Precautions • • It makes sense to avoid exposure to electrical shock. While some sources are expected to have a possible dangerous impact, others of quite high potential are of limited current and are sometimes held in less regard. Always respect voltages. While some may not be dangerous in themselves, they can cause unexpected reactions that are best avoided. Before reaching into a powered TV set, it is best to test the high voltage insulation. It is easy to do, and is a good service precaution. EN 6 4. SK5.1L CA Mechanical Instructions 4. Mechanical Instructions 4.1.1 Index of this chapter: 4.1 Set Disassembly 4.2 Assembly / Board Removal 4.3 Set Re-assembly Warning: disconnect the mains power cord before you remove the rear cover. Note: Figures below can deviate slightly from the actual situation, due to the different set executions. 4.1 Rear Cover Removal 1. Remove all the fixation screws of the rear cover. 2. Now, pull the rear cover backwards and remove it. Set Disassembly Follow the disassemble instructions in described order. I_17880_005.eps 210308 Figure 4-1 Rear Cover removal 4.2 Assembly / Board Removal 4.2.1 Power Switch and Control Panel removal 1. From the mono carrier disconnect the main power and the keyboard circuit cables. Release the main power cord and the keyboard circuit cable from it’s strain reliefs. 2. Then, remove the two fixation screws [1] of the power switch and control panel and remove the board. 1 I_17880_004.eps 210308 Figure 4-2 Power Switch and Control Panel removal Mechanical Instructions 4.2.2 Side I/O Panel removal 1 I_17880_003.eps 270308 Figure 4-3 Side-I/O panel removal 1. Disconnect the side panel cable from the mono carrier and remove the cable from it’s strain reliefs. 2. Then, remove the two fixation screws [1] and remove the board. When defective replace the whole unit. 4.3 Set Re-assembly To re-assemble the whole set, do all processes in reverse order. Be sure that, before the rear cover is mounted: • The mains cord is positioned correctly in its guiding brackets (make sure that the strain reliefs are replaced in its correct position and that it will function correctly!). • All wires/cables are returned in their original positions. SK5.1L CA 4. EN 7 EN 8 5. SK5.1L CA Service Modes, Error Codes, and Fault Finding 5. Service Modes, Error Codes, and Fault Finding 5.1 Index of this chapter: 5.1 Test Points 5.2 Service Modes 5.3 Error Codes 5.4 Fault Finding 5.4.6 Test Points 5.4.7 • • 5.2 5.3 Error Codes Not applicable. 5.4 Fault Finding 5.4.1 Power on Failure Check whether the power supply is working properly and whether the values of voltages normal. If those are correct, check line transistor and transformer are working properly or check fore or back line for defects. 5.4.2 Horizontal Deflection Transistor Defective: No Picture, No Sound. To find the fault for a defect horizontal deflection transistor please check the following items: • Over voltage to breakdown. • Over current to burn. • Horizontal frequency too low. • Horizontal drive inefficient. 5.4.3 Picture Interference • • 5.4.4 Check if the signal line contact is good. Change Tuner if is necessary. Can't find any TV program Checking method: Check the closed circuit from tuner to picture decoder IC to detect whether there are defective components. Or check whether the resistance of R111, R112, R113 and R114 has increased which also could cause the problem. 5.4.5 5.4.8 No Good Picture or Double Image Check the correctness of the signal from IF1/IF2 to Q101 and relevant circuit. In this case the problem can be Q101 and/or SAW101. Picture with Horizontal Bright Line and Sound Remote Control Malfunction Check the voltage on pin 64 of IC101. The normal value should be 5.15 V. If this is correct check front control panels soldering connections. If can't be solved, check the remote control, crystal or transmitting diode of the remote control are in good condition. Service Modes This chassis does not contain a specific Service Mode. Service and Alignment of the TV set can be done via the Factory Mode by the service technician, see further down in this manual. Check the circuit from IC101 to R.G.B. three gun circuit. Check the IC soldering and relevant circuitry on physical damage or check for defective capacitors. Check both supply voltages of vertical IC301 and relevant circuitry on correctness. Also check the vertical synchronizing signal from IC101. See chapter 6 “Block Diagrams, Testpoint Overviews, and Waveforms”. Perform measurements under the following conditions: • Service Default Mode. • Video: colour bar signal. • Audio: 3 kHz left, 1 kHz right. Picture not or incorrect Coloured 5.4.9 No Sound Check power supply of sound IC (IC760, TFA9842) and relevant circuitry. Check as well the BTSC board, check the power supply of IC851 and relevant output signal pins 21 and 27 of this IC. Do not exclude IC801 and/or IC402 to be defective. If needed replace the speakers. 5.4.10 Poor Sound Quality Check the sound system after searching the channel which should set at NTSC or AUTO. If still has problem, check accompany board circuit on chassis good or not. Block Diagrams, Test Point Overview, and Waveforms SK5.1L CA 6. 9 6. Block Diagrams, Test Point Overview, and Waveforms Block Diagram Chassis 5P20 29SL7 DIAGRAM(PHILIPS) EHT TUNER KEYBOARD/ REMOTEL CONTROL KEY REM +8V 33V 11 +5V +33V IF PRE-IF Q1976M Q504 R/G/B Q505 Q506 +5V KG KR Q507 Q508 Q509 BLK SVM 27 V Y U 23/24 7 46 47 48 C 64 51/52/53 50 4 S-VIDEOY AV2 4 AV1 5 SIDE AV FRONT/SIDE AV INTUT IC IC102 24C08 2(SCL) 3(SDA) 2 Q906 SVM IC101 Q907 TDA93XXPS/N2/5I (PAL/NTSC) IC761 HCF4052 BLK 44 2 S-VIDEOINPUT R/G/B_OUT 2.47V 1 TV IN SOURCE SWITCHING 42(Y/CVBSIN) SOUND CONTROL 3 21/22 V_OUT SYNCPROCESSING VIF 40(CVBSIN) RGBPROCESSING AV1 R / YUVR 14 AV1 L / YUVL 5 IC762 AV2 R / S-VIDEOR AV IN/OUT(BACK) X4.5B 11 AV2 L / S-VIDEOL HCF4052 4 SIDE AV R 4 15 SIDE AV L 2 GEOMETRY CONTROL 38(V_OUT) 64K ROM 3/13 OUT 11 V_DEFLECTION 20 Q440 CS630F EW 2K RAM SCL 29 SDA 30 IC740 TDA9850AH 21 27 IC301 5 TDA9365 6/7 VERTIALDRIVE 1/7 H_DEFLECTION YUVINPUT G1 G2 G3 80C51MICROCONTROLLER 28 10 PAGETELETEXT ONSCREEN DISPLAY 33 H_OUT EW N401 D2553 +/-16V T402 FBT H_AMP V OUT EHT I 2C 5V KB SCREEN SCL SDA Q501 Q502 Q503 HEATER AGC +5V ABL SC L OUT 44 (TV AUDIOL\R) R OUT AFC 49 ABL +3.3V +22V +135V +45V +5V 7808 L_OUT KA33V +8V 2 +33V 5 +22V 3 9 2 +12V AC INPUT AC90--260V +19V +110V IC601 (W6556A) MAINPOWER +45V 16(SCL) 17(SDA) IC851 28/30 TDA9859H HI-FI AUDIO 15/18 6 +8V IC L/ R IC760 TDA9842 BTL AUDIOAMP VCC R_OUT 8 1\4 VCC I_17880_009.eps 270308 Block Diagrams, Test Point Overview, and Waveforms SK5.1L CA 6. 10 Schematic Overview Chassis 5 4 3 2 1 CIRCUIT KEYBOARD M001 5 T111 100 100 2 KEY R135 L107 10uH IO1 6 47 7 +8V ZD103 8V2 C152 R713 150K T701 ZD711 8V2 C718 Q703 C1815 R717 T703 C704 ZD704 8V2 R711 10K T704 C703 ZD703 8V2 E MUT CVBSOUT R712 150K TE MU VssA 13 L104 +8V_VC C SECPLL 14 10uH AV OUT T706 L_AVOUT C128 10nF C130 220nF 15 C132 4n7 C131 2200pF 16 C133 IN U YUV + YUVY IN T707 Y IN D 1uF/ 50V C119 10uF/ 16V R13818K 19 EW 20 VDRB 21 VDRA 22 IF 1 4 2 5 23 YUV V IN 3 C721 R721 75 R723 75 C723 R722 75 ZD705 C722 8V2 ZD713 8V2 ZD714 8V2 +8V C135 0. 1uF/63V 15 14 13 12 11 +8V SIDE AV AV1 OUT TV TV2 0. 1uF T711 V IN C770 3 4 5 6 7 VSS AV2 AV1 V/Y 2 VSS OUT 8 R747 1K Q760 A1015 47K T740 1K R143 100 B3 51 R142 50 G 100 14 13 12 11 SIDE AV AV1 OUT TV TV2 10 T746 9 15K E HCF4052B IC762 R763 ) (PWM VOL AV1 V/Y 4 5 7 6 T H. OU 4 C726 0. 1uF Y / G in C725 0. 1uF V / R in T119 BLANK /Y CVBS 390 36 C768 470uF 1 1 2 2 R852 C863 R853 T751Rout T748 T747 47nF R771 10K C760 10uF/16V C865 0.1uF 8RM 6W C866 C876 100pF 8. 2uH R729 1K2 R855100 R769 1K T800 R856100 T801 R770 1K C765 4700PF C766 4700PF C877 C878 In Out Gnd IC852 L7809 T802 10uF 0. 1uF C851 1uF T804 R851 2K2 R857 270K R745 4K7 1uF Q851 C1815 Cs 32 Cw 31 C862 VEI C861 1uF Cnr Cts 30 C860 10uF 4 Cm 29 C809 10uF Cdec D MA 6 AGND L OUT 27 7 DGND C854 0. 22uF C853 4. 7uF 8 SDA CL 25 C874 2. 2uF 9 SCL Vref 24 C868 100uF 10 Vcc SAP 23 5 T807 Csde 22 C858 15nF 21 C871 1uF Cr 20 Css 19 C873 2. 2uF C877 100uF Cph o Cm 18 C856 4. 7uF 16 Cadj CER 17 11 13K 0. 15uF/63V 13 C752 6n8 C_PS2 C_BR1 C_BL1 C_BR2 C_BL2 N.C. 14 16 CN704 ZD02 8V2 T018 RL601 C640 Q625 C1815 10K 220uF 100 C161 470P D603C T603 R600 C603D 4700pF C603 16 NTC 5 T609 C603C C607 4700pF 220uF 450V C461 C460 1nF/ 50V 1nF/ 50V R459 1K8 1000pF T607 R603 C601 0. 22uF/250V VDR601 VDR602 R604 C605 39K 0. 1uF D604 0 SSING DEGAU T606 6K8 R605 R632 D626 BA158 C623 680pF 500V 14 3 13 4<12V> R622 12 5 T608 D605 BA158 11 6 <45V> R621 10 7 0. 22 2W R607 22 7 6 5 4 3 1 C608 10uF T600 04 CN6 (AC FROMKEYBROA D) IC601 6556A STR-W C626 1000uF 16V T625 R649 2K2 R639 Q622 C2230 D620 B RU4 C462 2K2 T615 2. 7 1W 6. 2K T631 ZD621 3V9 0. 18 5W VP3- 4 1 4 3 2 T402 R463 R648 22K D451 Q621 C1815 T633 0.1uF/50V 7 9 C473 0. 1uF FOR FOCUS 3 R408 220 5 T422 R404 T421 R402 0 Q401 C2482 100 R405 5K6 1 4 ! C402 2200pF 500V T423 C403 220pF 500V T401 3 N401 D2553 T424 C436 560pF 2KV C446 0. 1uF ! C432 7n2/2KV +8V ! C435 R441 56K R467 33K T428 Q440 F630 T426 ! ZD440 8V2 CN400 C441 0. 01uF/50V R440 2. 2 2W FLYBACK D430 BY228 ! D431 C433 B 33nF/630V RU4 1K C443 0. 15uF/250V 4148 C409 0. 1uF D403 8V2 T438 2K C410A 10uF/ 16V T432 C464 0. 18uF C440 4. 7uF/ 50V C463 0. 39uF/ 400V T433 L431 160uH 1 OHM (2W) 4.7K 390K (1/6W) (1/6W) C438 1500pF (2000V) C +8V_VC C431 6800pF (2000V) C432 6800pF (2000V) L440 790uH L430 30uH R423 5.6 C433 18nF (630V) R441 75K (1/6W) (2W) C410 22uF/ 16V R432 270 RF Tube R462 R417 R419 (400V) ABL T425 C465 L430 36uH BTSC 0.36uF R424 0. 47uF T430 T429 L4402. 8mH R440 6.8 C435 0 OHM L431 NOT USED L432 NOT USED C464 NOT USED (2W ) C465 NOT USED T434 C442 2200PF T427 T431 R466 39K FOR C431 3n9/2KV D402 L432 790uH 0. 56uF T636 ABL HY ! ! C438 2n7 / 2KV S-VHS TONE -CONTROL C463 R416 1K R420 T437 7 YUV AV OUT SCREEN 3K3 T436 1 R454 33 C404 4. 7uF 63V R417 R433 0. 33 1W D433 BA158 AV1 INPUT AV2 INPUT C472 0. 1uF 10 R401 4K7 3 6 R419 470K FOCUS C437 10uF 250V NTC R464 50K 2 8 TER HEA 6 T420 3 5 R471 68K R418 91K +180V 1K 1W TESTPAD 2 4 FBP +8V_VCC EW 1 EHT SCREEN COLDGROUND C444 T435 39pF/50V 5 T417 STANDBY ING H:WORK L:STANDBY HVTOCRT FUNCTI ONS -16. 2V 470pF C452 2200uF/25V ! B+ R403 NC 15K C634 R409 27K ZD401 8V2 4 R406 T635 T632 R412 27K 22K 2 +48V_VCC T634 R154 R418 NC C407 NC +16. 2V T418 H-out T416 ! T637 R634 10K Q623 C1815 36 BYW C453 2200uF/ 25V T628 1K R450 0. 222W R451 0. 22 2W 470pF - 16. 2V AFC +135V_VCC C632 47uF 250V T402 D450 36 BYW T404 220 2W R462 0. 822W +135V_VCC ZD105 5V1 R422 680 4148 B T410 C114 R114 IC103 T627 47uF 39K 33V R609 C621 100uF 200V 5V1 R627 IC621 SE120 HOTGROUND 1 C908 R922 100uF 16V AFC T624 +33V_BT 5K1 ZD620 T630 OPTO ISOI R610 8. 2M C610 0. 0022uF ZD622 3V9 T414 180 R407 +3.3 V_VCC Q626 C2703 R633 T629 680 +12V_VCC R427 5 NTC T626 +48V_VCC C629 1500uF 50V R631 R630 R650 430 18V T623 R638 22 C641 2200uF T622 T413 R423 5. 6 2W +16. 2V +21V_VCC 10K 0. 51 2W C622 470uF 50V 560pF 2KV IC622 T614 390 +12V Q624 A1013 R647 680pF 500V D621 BA158 8 <135V> TRANSFORMER R608 T3.15A AC250V C T921 R921 56 1W D404 R421 T419 +8V_VCC +5V_VC C R645 R635 22K D OCP/B FB VCC D OLP/SS F601 S/GND 2. 2M 1/2W T601 1 L C609 10nF C625 1000uF 16V C620 T613 T612 18V 9 R601 D622 36 BYW T621 IC104 In Out L7808 Gnd 1 2W 0. 22 2W ZD602 220 C606 470pF D904 4148 C909 10uF 250V X-ray T412 C456 T403 T620 0. 22 2W L604 R606 R912 1K2 C932 470PF 100V Q907 C4793 270 1W C459 R426 5. 1 T619 C628 1000uF 25V 2<20V> R624 15 T611 R602 39K L601 25mH CN603 2 N C627 1000uF 25V T603 C604 BLUE D623 RU4YX 1 T610 0. 22uF/250V N BROW 680pF 500V R413 100K ZD402 T411 T409 T407T408 D452 BA158 T642 C624 T605 0. 1uF/250V T405 C455 R452 5. 6 J058 1K8 T400 0.1uF/ 100V T641 T640 T618 C603B 4700pF D603D 100V R916 1K5 +8V_VCC 5 1/4W 0. 1uF/100V 5. 6 100uF/ 50V 35V 0 C160 470P C639 R643 47uF 47K T616 Rp T916 C906 0. 1uF R453 100 R456 R457 VDRB T617 R644 T604 1 R911 22 CN401 CONNECTTOH502 CN402H ! T401 R460 VDRA 0 D627 4148 RELAY C600 VP1 +17.5 V VP4 -17.5V Vp3 pump INP INN V out 5 6 7 R640 T027 D603B Q905 A1015 17 T415 6 R461 D603A T914 T913 T910 R98 1K C931 0. 01u 100V T917 L604 R916 68K 5n6 TDA4865AJ CN02(FROMCN760) 3 D902 4148 R729 1K2 R903 33K C902 1uF 50V C904 0. 1uF 18 T810 CN402V IC301 C603A 4700pF R902 18K 20 C7460. 15uFR743 13K 19 C748 SDA T809 T406 L603 25mH T905 R OUT T724 B Rs R901 3K3 R910 22 ROL TONECONT R860 10K T024 GND Rin C09 C10 T026 R453 10 1W T920 R91512K 1 R858 270K 2 3 4 T025 T911 Q902 C1815 R928 560 R927 15K T927 CN901 D901 4148 R904 470 Q900 C1815 C902 0. 1u 63V T919 TDA9859 CN03 KERS) (TO SPEA Li n C07 T901 L604 L604 T803 1 R04 1 2 3 T923 R923 180 1W X851 503KHz TDA9850 BTSC Lo GND Ro C08 10uF/16V 21 C_TL SCL 15nF 26 C705 22 C745 68nF LOUT_L LOUT_R 27 C744 T912 3 CN90 R920 T922 2. 7 1W Q906 A1837 R914 68K T909 T907 T906 R917 R919 1K2 56 1W D903 4148 T918 100uF T915 100V R905 150 C901 0. 01uF 63V T902 C741 R906 1K R926 1K 23 N.C. C_TR 15 C743 15nF 24 LI N_L R925 C913 56K 0. 01u T903 63V Q904 C1815 Q903 C1815 Q901 C1815 C912 100uF 16V 25 MAD L MOUT_ LI N_R 1K5 T926 T925 10uF/16V 28 AIN_L R MOUT_ 12 29 C910 10uF 250V R918 L104 10uH 30 L SCOUT_ D GN 10 68nF C753 C_PS1 R SCOUT_ 9 R742 O C_SM V_P 8 C754 AIN_R MIN_R 6 C706 10uF/16V 7 T808 MIN_L T924 C911 100uF 100V T900 CN902 32 31 C741 P2 P1 3 C740100uF/16V 4 C867 0. 1uF 15 C855 10uF T806 820 SCIN_R SCIN_L 2 R153 C872 1uF Cnd 26 R OUT C741 10uF/ 16V 1 R152 820 28 5 11 P COM C86912 Vcap 100uF 13 Cp1 C85214 Cp2 0. 47uF T805 C879 VEO 3 Ctw IC740 1uF 1 2 ! T023 R02 ZD03 8V2 C02 ZD01 8V2 R924 180 1W 1 2 3 4 1K T129 10uF/16V R01 75 R02 C04 47K C06 SVM TV CVBSIN R728 XT145 XT-4.5 T128 100 2 1 CN0 T017 T TV CVBSOU SDA C05 4. 7uF C875 100pF V R L T521 CVBSOU T 100 L103 3 V GND R L C03 8K2 150 C864 10uF SPR C761 1uF/50V C123 10uF/16V C124 10uF/16V Q107 C1815 IC851 S) TVAO(QS 10uF/16V T015 C501 330PF H-out T750 Lout +12V_VCC T014 V IN T013 R504 22 D H502 AFC 34 33 60 CN7 C769 470uF SDA 10uF/16V R503 270 D501 4148 SCREEN 35 D GN T726 T725 T522 X-RAY R127 SCL T012 C711 1uF/16V C755 1uF/16V C507 L501 10uH NC 270 C144 0. 1uF/63V R126 180 C IN T723 R502 2K2 +8V_VCC R147 2K2 37 220K NC Q502 BF421 R505 T516 R125 38 R528 C506 D502 BA158 Q501 C4544 TV CVBS IN 0. 1uF 39 T517 Q503 BF420 R501 IN 22 C116 R507 220 R506 15K 41 T118 T523 T515 C IN 42 T520 270 C503 330PF D505 4148 U / B in 43 SPL R85410 C711 C01 R522 22 R523 270 BCL 02 CN1 SCL ZD707 8V2 C784 1uF/16V T602 5 47 R OUT SIDE AV BOARD CIRCUIT 2 R520 2K2 46 40 Q508 BF421 R524 T511 T120 R5 BL TFA9842AJ 6W +22V_VCC R744 15K P701 T*** T121 D506 BA158 Q507 C4544 22 +8V_VC C 8 T722 10uF/16V R703 75 C767 220uF T745 VSS AV2 3 VSS OUT SIDE IN R TV IN R 2 1 9 R764 10K R OUT C708 EARPHONE CN901 10K +8V_VCC 10uF/16V T719 A T122 R521 ZD501 8V2 C508 1000PF 0. 1uF T127 L out T743 L OUT 2 4 5 3 6 7 1 1 2 3 C727 L OUT ZD706 C712 8V2 15 T718 Q509 BF420 T510 T123 R141 Lo(FROMIC761) R702 C702 R701C701 R704 47K 75 47K 16 +8V C716 IN 601 PTC 9RM GND 48 C140 4. 7uF/ 16V T749 1K Q761 C1815 4148 C122 R746 1K5 10uF/16V T717 T016 R03 47K 1 8RM 6W C764 47uF R137 T742 D761 TE MU C717 R IN 8V2 ZD108 52 IC760 8 7 L in D762 4148 T744 R765 L OUT 10uF/ 16V T716 RI RO R768 100uF/ 16V 100K 6 5 3 1 C728 C707 T715 L IN 8V2 8V2 8V2 ZD104 ZD106 ZD107 1 2 3 4148 R766 4 2 T741 D763 /Y IN CVBS V IN S-VHS R525 22 T512 R425 27K 2 L_AVOUT 1 T722 IN R725 R414 10K 39K R724 33K 100 2 10uF/16V ZD712 C719 8V2 IO 1 Y 100uF 10nF R144 1 R776 C785 R775 C783 R719 75 47K 47K R IN AVL/ REFO 100uF10nF T124 53 T? +8V_VCC T714 AV2 FBISO L/SI FAGC SNDPL 32 T518 R5082K7 T519KB R526 22 3 T713 C EHTO AUDEXT/QSSO GND2 31 T508 R517 2K7 T509KR T513 R527 2K7 T514KG R727 IN L IN C138 180pF R139 2. 7K C139 330pF C137 10uF/16V AV2 E HCF4052B IC761 C773 R IN AV1 C136 56P Vp1 PLL I F DECSDEM/SIF2 30 9 +C150 C149 10uF/16V T712 L IN 10 AV1 SIDE IN P702 16 CVBSINT IFVO/SVO / SIF1 AUDEEM 29 C778 IN GND1 TUNER AGC 28 C502 330PF 44 IN CVBS/Y VSC 27 +C150 C149 45 BLANK IREF 26 T710 IN IF2 25 AGC TVAO T727 IN R / V C CRT G R B 270 + SAW101 T709 V IN YUV G / Y DECBG IF1 24 R151 39K IN B / U GND3 MOUT AUDOUT/A R512 22 D503 1N4148 49 BCL IN D AVL/ EW T708 U IN R OUT BLANKING B VDR R513 270 L106 L106 10uH 10uH 100uF 0. 1uF C14833pF 54 G OUT A VDR BL T504 Q505 BF421 R514 T506 R511 2K2 T502 55 VpE VddA PH1LF 18 R138A100K C14733pF 22 G R T501 Q504 C4544 C +8V_VC VddC PH2LF X101 12MHz 58 57 56 B OUT DECDIG L105 C146 10uH + C145 59 IN nd OscG Vp2 17 + C120 0. 1uF/ 63V R_AV OUT XTAL PAL/NTSC 12 C127 220nF XTAL OUT VOL Vss C/P 10 11 T117 C129 10uF/ 16V KEY BAND 9 T116 68 R out C720 T70510uF/ 16V RESET T503 AV1 +3.3V_VCC 60 R_AVOUT T702 L out + V out 8 AV2 61 R510 B D504 BA158 Q506 BF420 T505 D GN T500 62 AV1 VddP SCART ID T112 T115 R516 220 R515 15K T507 H501 KEY 100 63 AV2 SDA AV3/TUNING R140 T126 T125 64 IRin SCL 3 4 10K T113 Y STANDB 5 CRT BOARD CIRCUIT +5V_VCC EHT AGC T103 R133 R134 R122 T114 IR Q106 C1815 R148 10K FOCUS SCL VIDEOOUT SDA (PWM) VOL +3.3 V_VCC E +193V SDA T102 R116100 SCL 1 TDA9373FORLatam T101 R115 100 SDA T011 1 2 3 T110 10K R149 10K SCL +33V_BT +8V_VCC GND T010 T006 5V Vss R121 T109 STANDBY J002 0 T007 10 T005 CN002 IC101 CN103 RR1 PRO001 SW GND R HEATE T107 C108 C107 100pF 100pF 24C08 IC102 R105 150 R145 R130 R131 R132 22K 3. 3K 3. 3K 3. 3K PRO+ 002 SW LED KEY 100uF/16V 5V1 6 7 100nF SDA C117 SCL ZD102 LED VOL 003 SW 3 2 1 T009 CR1 10uF/ 10V Ro(FROM IC761) R110 180 R102 1K2 R101 75 ZD101 5V1 R108 33 C118 A2 +5V_VCC 10K IF 10nF/50V T108 Q101 C2717 T004 T008 + VOL 004 SW R612 R611 N BLUE BROW CN606 AC IN R120 2. 2K 4 C101 0. 01uF 3 47uF 8 220uF N L Vdd 11 10 9 8 7 6 5 R109 C405 T003 C104 PTC NC C113 601 SW 100uH RD2 2K7 NU ME 100uF WP T333 R113 47K C110 C106 10nF 10nF NC R106 L101 R107 R103 1K 1uH 680 NC C105 5. 6K n. c. C109 10uF/ 16V C103 T106 R112 R111 C111 100 100 100pF 1 R000 T222 T105 C112 100pF R RESISTO IDENT 4 2 3 1 T104 E T002 T001 R1171K +5V_VCC RD1 10 RD3 100 GND 4 +8V_VCC L101 2 IFGND BT +33V 45.75MHz RD4 18K RD5 10K AC OUT (TO CN604) CN605 A101 IF NC BM +5V NC SDA SAS SCL NC AGC R136 3.3K FOR SLIM S SLI M I_17880_010.eps 270308 4 5 A Circuit Diagrams and PWB Layouts SK5.1L CA 7. 11 7. Circuit Diagrams and PWB Layouts Mono Carrier: Power Supply 1 2 3 4 5 6 7 8 9 10 POWER SUPPLY A1 A1 A A R640 0 C640 RELAY Q625 C1815 10K 220uF B T617 R644 C639 47uF T616 R643 47K B 2 3 4 D627 4148 1 RL601 T604 Rs 2 C603A 4700pF L603 25mH 3 D603B D603A PTC601 9RM 1 C T602 T603 R600 NTC 5 D603D C600 C603C 4700pF T609 C607 220uF 450V 15 2<20V> R624 14 C604 T611 R602 39K CN603 R603 D 12 C601 R606 R604 C605 39K 0.1uF D604 0 0.22uF/250V T606 6K8 R605 ZD602 T608 7 6 5 4 3 1 D605 BA158 11 6 <45V> R621 10 7 0.22 2W R607 22 FB VCC D C609 10nF T3.15A AC250V (ACFROM KEYBROAD) 680pF500V D621 BA158 8 <135V> C608 10uF D620 RU4B C462 TRANSFORMER C626 1000uF 16V T625 R649 Q624 A1013 R647 R639 0.51 2W 10K 2K2 T614 IC601 T622 C641 2200uF 2K2 T615 C622 470uF 50V STR-W6556A R610 8.2M HOT GROUND C610 0.0022uF C629 1500uF 50V T6 24 ZD621 3V9 R633 ZD10 5V1 C621 100uF 200V 0.18 5W C632 47uF 250V C114 47uF R648 22K R114 IC103 T627 39K 33V +135V_VCC T637 T628 E T634 1K T629 ZD620 T630 5V1 D +33V_BT 5K1 680 T631 ZD622 3V9 Q626 C2703 5 T635 T632 R627 IC621 SE120 R650 430 R609 R630 OPTOISOI +3.3V_VCC 22 Q622 C1815 C T623 390 R638 T626 +48V_VCC R631 IC622 +8V_VCC +5V_VCC R645 +12V 560pF2KV R608 T600 CN604 C625 1000uF 16V T621 In Out Gnd R635 22K OCP/BD F601 1 L OLP/SS BLUE S/GND 2 N 2.2M 1/2W IC104 L7808 D626 BA158 C620 T613 T612 18V 220 C606 470pF R601 T601 D622 BYW36 5 9 E R632 0.22 2W T607 VDR601 +12V_VCC T620 L604 DEGAUSSING VDR602 T619 C628 1000uF 25V 1 2W 4<12V> R622 13 L601 25mH C627 1000uF 25V C623 680pF500V 3 T603 1000pF BROWN D623 RU4YX 1 0.22 2W 0.22uF/250V 0.1uF/250V T642 +21V_VCC 680pF500V 16 T610 D603C C603D 4700pF C603 T641 C624 T605 Rp T640 T618 C603B 4700pF Q621 C1815 T633 6.2K R634 10K Q623 C1815 R154 STANDBY 15K C634 H:WORKING L:STANDBY 0.1uF/50V T636 COLD GROUND F T*** TEST PAD 1 I_17880_011.eps 270308 2 3 4 5 6 7 8 9 10 F Circuit Diagrams and PWB Layouts SK5.1L CA 7. 12 Mono Carrier: Line Deflection 1 A2 2 3 4 5 6 7 8 9 10 LINE DEFLECTION A2 A A CN401 CONNECT TO H502 +8V_VCC 1 2 3 4 T415 R413 100K B ZD402 CN402V T411 CN402H B X-ray T412 T413 18V T414 180 R422 680 R423 6.2 2W 5 6 T416 D404 R421 4148 R418 NC C407 NC R412 27K ! R409 R407 AFC 22K T419 ! T402 C HVTO CRT C444 39pF/50V +16.2V 27K ZD401 8V2 T435 4 EHT +16.2V -16.2V FUNCTIONS 5 R418 91K 8 R471 68K 9 C473 0.1uF FBP D 2 R408 3.3K SCREEN T420 C437 10uF 250V E 5 T422 R401 4K7 R404 R402 0 T421 Q401 C2482 100 R403 NC R405 5K6 4 C402 2200pF 500V T423 1 C403 220pF 500V ! T401 3 N401 D2553 T424 C436 560pF 2KV ! C432 7n2/2KV C431 3n9/2KV FLYBACK D430 BY228 D402 R420 T437 ABL HY ! ! R454 33 ! ! 0.56uF C463 0.36uF (400V) C438 1500pF (2000V) C431 6800pF (2000V) 1K C443 0.15uF/250V 4148 C409 D403 8V2 0.1uF C432 6800pF (2000V) L440 790uH R424 T438 ABL 2K C410A 10uF/16V C410 10uF/16V L432 790uH C435 SCREEN R416 1K 7 C433 33nF/630V T425 C465 D431 RU4B D (1/6W) (1/6W) +8V_VCC 3K3 T436 1 C438 2n7 /2KV C404 4.7uF 50V R417 R433 0.33 1W D433 BA158 R462 1 OHM (2W) R417 4.7K R419 390K 10 +8V_VCC H-out C446 0.1uF +180V 560 1W BTSC FOR RF Tube FOCUS R406 S-VHS TONE-CONTROL 7 FOCUS 3 B+ +48V_VCC YUV AV OUT C C472 0.1uF ! +135V_VCC 3 6 R419 220K 6 T418 AV2 INPUT 5 HEATER AFC AV1 INPUT 2 4 -16.2V T417 1 L430 30uH R423 5.6 (2W) C433 18nF (630V) R441 75K (1/6W) R440 6.8 (2W) E C435 0 OHM L431 NOT USED 0.47uF L432 NOT USED +8V R441 56K R467 33K F T428 Q440 F630 T426 EW R440 2.2 2W ZD440 8V2 CN400 C441 0.01uF/50V T430 L430 36uH T432 C440 4.7uF/50V ! NTC R464 50K T429 L440 2.8mH C463 0.39uF/ 400V T433 C464 0.18uF L431 160uH C464 NOT USED R432 270 C465 NOT USED T434 F C442 2200PF T427 T431 R466 39K FOR SLIM S? ? ?? FOR SLIM G G I_17880_012.eps 270308 1 2 3 4 5 6 7 8 9 10 Circuit Diagrams and PWB Layouts SK5.1L CA 7. 13 Mono Carrier: Frame Deflection 1 A3 2 3 4 5 6 7 8 9 10 FRAME DEFLECTION A3 A A B CN402V IC301 VP1 +17.5V VP3- Vp3 pump V out INN INP VP4 -17.5V TDA4865AJ ! 6 VDRB T401 100 D C161 470P C460 C461 1nF/50V 1nF/50V C C456 5.6 1/4W 0.1uF/100V C455 35V 0 C160 470P T405 R453 100 R456 R457 T407 1 2 3 4 5 6 7 R461 R460 5 ! T406 C VDRA B CN402H R459 1K8 R452 5.6 J058 1K8 T400 D452 BA158 D +16.2V C459 0. 1uF/100V R426 5.1 270 1W 100uF/50V R463 T402 BYW36 T404 -16.2V T403 E +16.2 470pF 220 2W R462 0.82 2W D450 R427 5 NTC D451 BYW36 C453 2200uF/25V C452 2200uF/25V R450 0.22 2W -16.2V R451 0.22 2W E 470pF T410 F F G G I_17880_013.eps 270308 1 2 3 4 5 6 7 8 9 10 Circuit Diagrams and PWB Layouts SK5.1L CA 7. 14 Mono Carrier: Tuner IF 1 A4 2 3 4 5 6 7 8 9 10 TUNER IF A4 A A101 IF IFGND NC BM +5V NC SDA SCL SAS NC AGC B BT + 33V A B 45.75MHz T104 C R000 T222 T333 C110 NC C112 100pF R113 47K 11 9 10 C103 T106 R112 R111 C111 100 100 100pF C113 C405 220uF 47uF C101 0.01uF C106 C104 10nF 10nF NC R106 L101 R107 R103 1K 1uH 680 5.6K NC C105 100uF 10K R108 33 R110 180 ZD101 5V1 R101 75 R102 1K2 +8V_VCC 100uH C IF 10nF/50V T108 Q101 C2717 +5V_VCC R109 D 8 7 6 5 4 T105 IDENT RESISTOR C109 10uF/16V 3 1 2 L101 R105 150 D T107 J002 0 CN103 +33V_BT E GND SDA +8V_VCC T101 R115 100 T102 SCL E SDA SCL R116 100 AGC T103 F F G G I_17880_014.eps 270308 1 2 3 4 5 6 7 8 9 10 Circuit Diagrams and PWB Layouts SK5.1L CA 7. 15 Mono Carrier: AV Switch 1 A5 2 3 4 5 6 7 8 9 10 AV SWITCH A5 +8V VIDEO OUT T701 V out R713 150K A T702 L out C718 ZD711 8V2 Q703 C1815 R717 68 T703 ZD704 8V2 R out C704 T704 C703 ZD703 8V2 AV OUT C720 A VOUT T705 10uF/16V R711 10K R712 150K T706 L_AV OUT R_AVOUT YUVY IN B B T707 Y IN YUV U IN T708 U IN VUVVIN T709 V IN C721 R721 75 R723 75 C723 R722 75 ZD705 C722 8V2 ZD714 8V2 ZD713 8V2 +8V T727 YUV 0.1uF T711 V IN OUT TV TV2 10 9 R719 75 ZD712 8V2 C719 2 3 4 5 6 7 AV1 IN VSS 1 VSS 10uF/16V AV1 V/Y R775 C783 47K AV2 R776 C785 47K C AV1 HCF4052BE OUT T713 11 AV2 C773 R IN 12 10uF/16V T712 L IN IC761 13 SIDE IN P702 C770 14 TV IN C 15 AV1 +8V 16 C778 SIDE AV T710 8 R747 1K T722 TVIN T714 VOUT D T715 10uF/16V T716 10uF/16V V IN L OUT C717 Y IN E T719 1 IC762 HCF4052BE 2 3 4 5 9 TV2 TV AV1 OUT +8V TV IN R T718 10 6 7 E VSS C712 11 VSS ZD706 8V2 12 AV1 V/Y R704 75 13 AV2 R701 C701 47K AV2 IN 14 OUT R702 C702 47K 10uF/16V 15 SIDE AV C716 T717 R IN R746 1K5 16 SIDE IN R L IN 8 C708 R744 15K T722 10uF/16V S-VHS R703 75 ZD707 8V2 R OUT C711 C IN P701 C784 1uF/16V SIDE AV BOARD CIRCUIT F C01 T012 L IN T723 10uF/16V V IN T013 V GND R L C03 10uF/16V T015 T014 C05 R IN T016 R03 47K C06 R02 47K C04 R01 75 ZD01 8V2 T023 2 4 5 3 6 7 1 G D IO1 C707 R02 T025 Lin C07 C10 GND Rin C09 T026 ZD03 8V2 T725 C711 1uF/16V R745 4K7 T726 F V R L T724 CN704 ZD02 8V2 T018 Lo GND Ro C08 R04 EARPHONE C02 CN01 T017 10uF/16V C755 1uF/16V CN03(TO SPEAKERS) G T024 CN02(FROM CN760) T027 I_17880_015.eps 270308 1 2 3 4 5 6 7 8 9 10 Circuit Diagrams and PWB Layouts SK5.1L CA 7. 16 Mono Carrier: Tone Control (Optional) 1 A6 2 3 4 5 6 7 8 9 10 AUDIO AMPLIFIER A6 A A +8V_VCC B 2 T741 1 D763 4148 R766 C728 Q760 A1015 C 47K T740 100uF/16V D T746 R763 15K E 5 IC760 8 7 L in 9 B TFA 9842AJ 6W L ou t SPL 8RM 6W C767 220uF C769 470uF C768 470uF T745 Q761 C1815 T747 T748 C CN760 T750 Lout T749 1 1 2 2 D T751 Rout R771 10K T743 C122 VOL(PWM) 1K 4148 RI RO R765 R137 T742 D761 1K 3 6 C764 47uF D762 4148 T744 MUTE R768 100K 4 SPR 8RM 6W R764 10K C760 10uF/16V E C761 1uF/50V R OUT C123 10uF/16V C124 10uF/16V L OUT F R769 1K R770 1K C765 4700PF F C766 4700PF +22V_VCC G G I_17880_016.eps 270308 1 2 3 4 5 6 7 8 9 10 Circuit Diagrams and PWB Layouts SK5.1L CA 7. 17 Mono Carrier: Audio Amplifier 1 A7 2 3 4 5 6 7 8 9 10 CPU & DECODER A7 KEYBOARD CIRCUIT A RD5 10K AC OUT (TO CN604) CN602 T001 R117 1K R133 100 2 R134 100 3 4 5 10K KEY L107 10uH IO1 R135 6 47 7 ZD103 8V2 C152 8 9 MUTE 10 T116 + 11 D C129 10uF/16V T117 C127 220nF L104 +8V_VCC 12 13 14 10uH C128 10nF C130 220nF 15 C132 4n7 C131 2200pF 16 C133 17 + C120 0.1U/63V 1uF/50V C119 10uF/16V R138 18K R138A 100K + EW E 18 19 20 VDRB 21 VDRA 22 IF 1 4 23 2 5 24 V / R IN 3 R151 39K AGC TVAO 25 C135 0.1uF/63V 26 27 28 29 Lo(FROMIC761) Ro(FROMIC761) 30 C136 82P +8V_VCC F C137 10uF/16V C138 180pF R139 2.7K C139 330pF PRO+ SW002 LED PROSW001 RR1 T007 10 T005 T010 T011 T006 B 31 32 IRin SCL AV2 SDA BAND Vss C/P MUTE PAL/NTSC VssA SECPLL Vp2 DECDIG PH2LF R OUT BLANKING IF1 CVBS/Y IN IF2 GND1 IREF CVBSINT VSC Vp1 TUNER AGC IFVO/SVO AUDEEM/SIF1 PLL IF SNDPLL/SIFAGC AVL/REFO X101 12MHz C147 33pF 100uF L105 C146 10uH 5 IR 3 C 0.1uF L106 L106 10uH 10uH +8V_VCC C148 33pF +C150 C149 +C150 C149 100uF 10nF 100uF 10nF R724 33K T124 R144 R414 39K R725 10K R425 27K 8V2 ZD104 8V2 8V2 ZD106 ZD107 8V2 ZD108 1 52 R143 100 51 R142 100 50 R141 10K GND T123 2 100 T122 B3 G 4 R5 C727 0.1uF 47 C726 0.1uF 46 C725 0.1uF CN901 D T120 T119 BL 48 1 2 3 T121 BCL CN102 U / Bin Y / G in V / Rin BLANK 45 BLANK C IN + C145 49 BCL IN AUDOUT/AMOUT AV1 53 G OUT VDRA GND2 54 B OUT VDRB AV2 55 VddA R / V IN KEY +3.3V_VCC 57 VpE G / Y IN T115 56 VddC DECBG R140 T112 100 59 58 OscGnd GND3 T126 60 XTAL OUT B / U IN DECSDEM/SIF2 +5V_VCC 61 XTAL IN PH1LF AVL/EWD T114 62 RESET KEY T125 63 VddP SCART ID VOL 64 AV1 AV3/TUNING Q106 C1815 44 43 C IN 42 CVBS/Y IN 41 40 C116 T118 E TV CVBS IN + SAW101 C IN VOLSW003 T113 STANDBY TDA9373 FOR Latam 1 R122 VOL+ SW004 R612 R611 R148 10K IC101 +3.3V_VCC N 3 2 1 T009 CR1 10uF/10V T008 T111 R149 10K VOL(PWM) T004 5V Vss T110 10K T109 SCL SDA T003 GND 4 SDA 5 7 6 SCL A2 3 R121 STANDBY T002 RD1 10 RD2 2K7 CN002 C107 100pF 100pF 4 1 R120 2.2K R145 R130 R131 R132 22K 3.3K 3.3K 3.3K C108 24C08 IC102 n.c. 100uF/16V 100nF WP 5V1 C117 Vdd C118 ZD102 2 B PTC 8 L RD3 100 MENU SW601 BROWN BLUE CN601 AC IN RD4 18K LED 1 KEY 2 +5V_VCC C A M001 R136 3.3K 38 37 R125 R147 2K2 390 36 EHTO +8V_VCC 0.1uF 39 C144 0.1uF/63V X-RAY 35 AUDEXT/QSSO AFC H-out 34 FBISO 33 H. OUT C140 4.7uF/16V F +8V_VCC R727 T127 Q107 C1815 TVCVBS OUT L103 R127 R126 180 8.2uH R728 XT145 XT-4.5 T128 100 TVING 100 T129 TV CVBS IN 1K R729 1K2 GND G G I_17880_017.eps 270308 1 2 3 4 5 6 7 8 9 10 Circuit Diagrams and PWB Layouts SK5.1L CA 7. 18 Layout Mono Carrier (Top Side) I_17880_018.eps 030408 Circuit Diagrams and PWB Layouts SK5.1L CA 7. 19 Layout Mono Carrier (Bottom Side) I_17880_019.eps 270308 Circuit Diagrams and PWB Layouts SK5.1L CA 7. 20 CRT Board 1 B 2 3 4 5 6 7 8 9 10 CRT BOARD B R515 15K H501 A R510 B T503 G R T501 R513 270 R512 22 G R B 270 D503 1N4148 B C502 330PF R527 T518 R5082K7 KR 2K7 T514 KG T519 KB B Q509 BF420 R521 T513 T509 T512 T510 ZD501 8V2 T508 R517 2K7 R526 22 R525 22 C508 1000PF CRT Q505 BF421 R514 T506 R511 2K2 BL T504 A Q504 C4544 22 T502 D504 BA158 Q506 BF420 T505 GND T500 R516 220 T507 D506 BA158 Q507 C4544 22 T511 R520 2K2 Q508 BF421 R522 22 R523 270 T520 R524 270 C503 330PF T515 R528 C506 220K NC C507 L501 10uH NC R503 270 R504 22 +193V Q502 BF421 T516 R502 2K2 R505 T521 270 C501 330PF D501 4148 SCREEN T522 Q501 C4544 22 D D502 BA158 Q503 BF420 EHT T517 FOCUS R507 220 R506 15K R501 C T523 GND HEATER D505 4148 C D H502 T? SVM T900 R918 L10410uH T926 T925 Q901 C1815 CN902 C912 100uF 16V F C913 0.01u 63V T902 1 2 3 T901 T927 CN901 R917 1K2 1K5 C902 0.1u 63V R925 56K T903 R926 1K R905 150 C901 R902 18K D902 4148 R729 1K2 T910 R903 33K R98 1K C902 1uF 50V T923 R923 L604 Q906 A1837 T920 F L604 R914 68K T919 C931 0.01u 100V R91512K T911 R453 10 1W Q902 C1815 R901 3K3 CN903 R920 T922 2.7 1W T918 T912 R910 22 T914 C904 0.1uF R916 68K T917 L604 C932 470PF 100V T916 T913 Q905 A1015 R911 22 100V E 180 1W C741 T909 D901 4148 R904 470 R928 560 D903 4148 100uF T915 100V T906 0.01uF 63V T905 G Q904 C1815 R906 1K T907 Q900 C1815 R927 15K Q903 C1815 R919 56 1W 1 C910 10uF 250V 1 2 3 1 2 3 4 T924 C911 100uF 100V 2 R924 180 1W 3 E C906 0.1uF R916 1K5 R912 1K2 D904 4148 Q907 C4793 C909 10uF 250V T921 R92156 1W C908 R922 G 2.7 1W I_17880_020.eps 270308 1 2 3 4 5 6 7 8 9 10 Circuit Diagrams and PWB Layouts SK5.1L CA 7. 21 Keyboard Control Panel 1 D 2 3 4 5 6 7 8 9 10 KEY CONTROL A D A KEYBOARD CIRCUIT KEYBOARD CIRCUIT B B M001 RD5 10K C RD4 18K RD3 100 RD2 2K7 RR1 100 MENU 3 2 1 C CR1 10uF/16V VOL+ SW004 VOLSW003 PRO+ SW002 PROSW001 LED RD1 LED 100 D E 5 IR GND 4 LED 1 2 KEY 3 5V D E LED KEY +5V_VCC IR F F G G H_17220_014.eps 190607 5800-D9SL7Y-05 1 2 3 4 5 6 7 8 9 10 Circuit Diagrams and PWB Layouts Layout Keyboard Control Panel (Top Side) 5800-D9SL7Y-05 H_17220_015.eps 190607 SK5.1L CA 7. 22 Layout Keyboard Control Panel (Bottom Side) 5800-D9SL7Y-05 H_17220_038.eps 290607 Circuit Diagrams and PWB Layouts SK5.1L CA 7. 23 Side A/V Panel 1 Layout Side A/V Panel (Top Side) 2 3 SIDE AV PANEL G G C01 A A T012 10uF/16V V IN T013 V GND R L C03 B 10uF/16V T015 T014 L IN C05 C T016 R03 47K R IN C06 EARPHONE T025 E R01 75 ZD01 8V2 C02 T023 2 4 5 3 6 7 1 D R02 C04 47K C08 GND Ro R04 C07 Lin GND Rin C09 T026 CN01 T017 10uF/16V ZD03 8V2 ZD02 8V2 T018 C I_17880_022.eps 270308 Lo R02 C10 B D Layout Side A/V Panel (Bottom Side) CN03(TO SPEAKERS) T024 E CN02(FROM CN760) T027 I_17880_021.eps 270308 1 2 3 4 5 6 7 I_17880_023.eps 270308 Circuit Diagrams and PWB Layouts SK5.1L CA 7. 24 Personal Notes: E_06532_013.eps 131004 Alignments SK5.1L CA 8. EN 25 8. Alignments Index of this chapter: 8.1 General Alignment Conditions 8.2 Hardware Alignments 8.3 Software Alignments 8.4 Factory Mode Settings 8.1 General Alignment Conditions 8.1.1 Default Alignment Settings 8.3.3 1. Set picture to “Standard” mode, without signal input. 2. Press the keys [i+], “Smart sound” and “Smart picture” to enter the factory menu. When in “B/W BALANCE” page, press “mute” on the RC. There will be a level light line displays. 3. Adjust flyback transformers Screen knob till the level bright line just can be seen. 4. When in the light-line screen, CUT R and CUT G can be adjusted if needed with the following RC key mapping: To increase /decrease CUT R (See table 8-1) To increase /decrease CUT G (See table 8-2) 5. Press “MUTE” key to return to the “B/W BALANCE” page. Perform all electrical adjustments under the following conditions: • Power supply voltage: 230 VAC / 50 Hz (± 10%). • Connect the set to the mains via an isolation transformer with low internal resistance. • Allow the set to warm up for approximately 20 to 30 minutes. • Measure voltages and waveforms in relation to chassis ground (with the exception of the voltages on the primary side of the power supply). Caution: never use heatsinks as ground. • Test probe: 100: 1, Ri > 10 Mohm, Ci < 3.5 pF. • Use an isolated trimmer/screwdriver to perform alignments. 8.2 Hardware Alignments Table 8-1 To increase /decrease CUT R 8.3.4 8.3.1 8.3.2 8.3.5 Focus Fine Adjust 1. Provide a cross-hatch pattern signal. 2. Set state to “Rich” mode. 3. Adjust flyback transformers Focus knob till picture is clear. CUT R- 1 4 Function CUT G+ CUT G- RC key 2 5 Horizontal Adjustment (Key 1) Vertical & YUV/RGB Horizontal Adjust (Key 2) 1. Provide a 50 Hz cross hatch signal, set TV to standard mode. Adjust VSL so that half picture of the pane cross appears. The picture’s vertical line is just at the bottom of the half picture. Adjust VSL to make the centre of the picture’s vertical line and the kinescope are in superposition. 2. Adjust VSI to obtain picture’s vertical re-display ratio more than 90%. 3. Provide a 60 Hz cross hatch signal, do step 1 and 2 again to adjust. 4. If necessary, fine adjust above items. Rf AGC Voltage Adjust 1. Provide a 294.25 MHz, 60 dB half colour bar signal. 2. Enter factory mode and press key 1. 3. Measure tuner AGC point voltage, adjust AGC item till the voltage is 2.2 V, or till picture noise just disappears. (typical value is at 32). CUT R+ RC key 1. Provide a 50 Hz monoscope pattern. – Press the keys [i+], “Smart sound” and “Smart picture” to enter the factory menu. – Press the keys [i+] again and “ADJUST” appear on screen. 2. Press key “0” and adjust “HPH” to set picture horizontal centre to CRT horizontal centre. Software Alignments Put the set in its MENU mode (factory mode) as follows (see also figure “Factory Mode” on the next page): • Press the keys [i+], “smart sound” and “smart picture” to enter the factory menu. • Press the keys [i+] again and “ADJUST” appear on screen. • Press the number keys to enter the adjust page, press B/ y to choose the items that to be adjusted, Press z/A to adjust its value. • Press [i+] to quit factory mode. The different alignment parameters are described further on. Function Table 8-2 To increase /decrease CUT G For this TV set there are no hardware alignments. 8.3 Screen Voltage Adjust 8.3.6 OSD Position (Key 4) 1. Menu OSD position adjustment: Provide a 50/60 Hz cross hatch pattern. Put the set in MENU mode. – Press the keys [i+], “Smart sound” and “Smart picture” to enter the factory menu. – Press the keys [i+] again and “ADJUST” appears on screen. 2. Press key 4 to enter the factory mode. Adjust VP and HP item, to obtain menu OSD at the centre of CRT screen. 3. Provide a RGB or YUV cross hatch signal, set the TV in the standard mode, adjust “YUV OSD HS” till picture horizontal centre is at the CRT centre (optional). EN 26 8. Alignments SK5.1L CA Enter Factory Mode: + Press sequentially: I ---> Smart Sound ---> Smart Picture Main Menu in red box. Navigation: Enter "I+" again (or "MENU")on the RC to go to the "ADJUST" page that will allow Navigation to individual Service pages: Selecting the number "0 - 8", "Smart Picture" and "Smart Sound" on the remote control to go directly to the pages. Changing value Move to the intended parameter with the arrow "up" and "down" key on the RC. Use the arrow "Right" and "Left" to increse and decrease the value respectively. Exit Enter " I+ " on the RC to exit factory mode. Special Note: The TV could go into factory mode when in service mode, in this factory mode, Set will have not respond to RC and local keys. Factory appears at the left corner of the screen. In Service mode main page: When "2" is entered, the set will go into factory mode. When in factory mode, enter "8", "9" to exit to service mode. Main Page B/W BALANCE DRI R DRI G DRI B CUT R CUT G COOL DR COOL DG COOL DB COOL CR COOL CG WARM DR WARM DG WARM CR WARM CG BT CT 31 28 32 34 21 +4 +3 +11 +0 +3 +6 +0 +0 +2 60 60 SERVICE 0 FREQUENCY H PH V SL V SH V SI V SC EW WIDTH EW PARA UP CORNER LO CORNER H -PARA H-BOW 60HZ 34-TV 27 40 41 23 27 35 25 19 18 40 SERVICE 1 SHIPMODE AGC AGC SPEED IF HRC&IRC MULTI SYSTEM PWL XDT XDT Count MVS MAT BPB > 34 1 45.75M 0FF ON 8 1 30 JAP OFF 0 SERVICE 2 UOC VOL SW UOC/PWL VOL MONO GAIN STEREO GAIN SAP GAIN AV gain 59859 INPUT VOL 10 VOL 25 VOL 50 VPL 80 VOL 100 OFF 39 50 50 50 48 3 45 55 80 90 100 EW TRAPE ZOOM 29 44 CORING OSO 3 ON FMWS AVL OPT 0 OFF "I+" "0" "1" "2" ADJUST SERVICE 3 AV OPT AV CFG 2 AV YC/DVD VIDEO OUT PIN 5 PIN 7 PIN 8 MUTEPIN MODE MUTEPIN SEL CC HP CC LINE CC DELAY YUV Patch 1 3 ON OFF CVBS NTSC VOL1 MUTE OFF ON 13 21 12 ON SERVICE 4 VP 52 HP 40 YUV OSD HS 38 OSD L 0 CODE: SYBER-93737-5P20-071130 NVM: 5P20E-071130 "4" "3" SERVICE 6 POW POWER ON TIM AKB NBL WATCHDOG VCHIP ZOOM OPT BLUE BACK BB WIDTH BLACK BACK RGB BLANKING MTS TEST SVM AMPLITUD SVM DELAY 2 12 ON ON ON OFF ON 2 +0 0 ON ON 3 0 SERVICE 7 SUB BRI SUB CON SUB COL SUB SHA SUB TIN SUB TIN-AV YDL PAL YDL NTSC YDL AV MAX BRI MID BRI MAX CON MID CON SC. BRI "6" 55 75 50 70 80 WARM Voice BASS TREBLE SURROUND "Smart Picture" "8" SERVICE 9 ENGLISH SPAISH FRANCH PORTUGUESE YGN CATHE HCO OSVE INITEEP ON ON OFF ON ON 2 ON OFF > "9" 40 55 OFF "Smart Sound" 55 100 55 90 100 COOL Music BASS TREBLE SURROUND 65 75 OFF "Smart Sound" "Smart Picture" Natural BRIGHT CONTRAST COLOR SHARP YUV SHARP COLOR TEMP +0 +4 +0 +0 +0 -1 +0 +7 +0 +0 +9 +5 +1 +0 +0 "Smart Sound" "Smart Picture" Rich BRIGHT CONTRAST COLOR SHARP YUV SHARP COLOR TEMP "5" SERVICE 8 YUV DR YUV DG YUV DB YUV CR YUV CG YUV COOL DR YUV COOL DG YUV COOL DB YUV COOL CR YUV COOL CG YUV WARM DR YUV WARM DG YUV WARM DB YUV WARM CR YUV WARM CG 2 3 30 32 13 16 11 0 0 52 18 63 15 8 "7" "Smart Picture" Soft BRIGHT CONTRAST COLOR SHARP YUV SHARP COLOR TEMP SERVICE 5 BTSC-MODE Mono BTSC-ST 5 BTSC-SP 4 BTSC-LI 9 BTSC-A1 15 BTSC-A2 20 BTSC-TC 4 BTSC-STS OFF BTSC-ADJ Start MTS DETECT 50 MTS FILTER 5 MTS FILTER 2 10 W: 05 04 00 09 0F 14 04 R: 0F 14 D: MONO/ST/SAP 55 85 50 80 90 NORMAL Theatre BASS TREBLE SURROUND 55 75 ON "Smart Sound" Figure 8-1 Software Alignments I_17880_006.eps 210308 Alignments 8.4 SK5.1L CA 8. EN 27 Factory Mode Settings Description of the factory menu B/W balance White point R adjustment. White point G adjustment Storage address Display string 0x00d 0x00e Range (Index value) Default SK5.0L CA DRI R 0-63 32 32 DRI G 0-63 32 32 White point B adjustment 0x00f DRI B 0-63 32 32 Black level off-set R adjustment 0x010 CUT R 0-63 32 32 32 Black level off-set G adjustment. 0x011 CUT G 0-63 32 “BRIGHTNESS” of “White Balance Adjustment page” setting 0x02f BT 0-63 32 32 “CONTRAST” of “White Balance Adjustment page” setting 0x030 CT 0-63 32 32 COOL offset according to “DRI R” value of tv, white point R of “COOL” 0x017 COOL DR 0-63 -2 6 COOL offset according to “DRI G” value of tv, white point G of “COOL” COOL offset according to “DRI B” value of tv, white point B of “COOL” 0x018 COOL DG 0-63 0 6 0x019 COOL DB 0-63 10 13 COOL offset according to “CUT R” value of tv, black level off-set R of “COOL” 0x01a COOL offset according to “CUT G” value of tv, black level off-set R of “COOL” 0x01b COOL CR 0-63 0 0 COOL CG 0-63 0 0 WARM offset according to “DRI R” value of tv, white point R of “COOL” 0x01c WARM DR 0-63 10 7 Warm offset according to “DRI G” value of tv, white point G of “COOL” Warm offset according to “DRI B” value of tv, white point B of “COOL” 0x01d WARM DG 0-63 0 0 0x01e WARM DB 0-63 0 Warm offset according to “CUT R” value of tv, black level off-set R of “COOL” 0x01f WARM CR 0-63 0 -6 0 Warm offset according to “CUT G” value of tv, black level off-set R of “COOL” 0x020 WARM CG 0-63 0 0 Direct key “0” 50hz/60hz Frequency 60 Hz Horizontal center ox008 H PH 0-TV-63-TV 31-TV 33-TV Vertical slope ox009 V SL 0-63 24 40 Vertical center ox00a V SH 0-63 21 28 Vertical amplitude. ox00b V SI 0-63 33 51 Vertical s-correction. ox00c V SC 0-63 27 27 EW WIDTH 0x04b EW WIDTH 0-63 32 45 EW parabola/width 0x04c EW PARA 0-63 32 49 EW upper/lower corner parabola 0x04d UP CORNER 0-63 32 28 Bottom curve Horizontal parallelogram 0x04e LO CORNER 0-63 32 34 0x04f H-PARA 0-63 32 35 Horizontal bow 0x050 H-BOW 0-63 32 39 EW trapezium 0x051 EW TRAPE 0-63 32 21 Expand 4:3 mode horizontal WIDTH adjust 0x0ed(bit4) ZOOM 0-63 44 44 Frequency 50 Hz Horizontal center 0x003 H PH 0-TV-63-TV 31-TV 31-TV Vertical slope 0x004 V SL 0-63 24 40 Vertical center 0x006 V SH 0-63 21 28 Vertical amplitude. 0x005 V SI 0-63 33 52 Vertical s-correction. 0x007 V SC 0-63 27 27 EW WIDTH 0x044 EW WIDTH 0-63 32 45 EW parabola/width 0x045 EW PARA 0-63 32 48 EW upper/lower corner parabola 0x046 UP CORNER 0-63 32 32 Bottom curve Horizontal parallelogram 0x047 LO CORNER 0-63 32 32 0x048 H-PARA 0-63 32 35 Horizontal bow 0x049 H-BOW 0-63 32 32 50hz/60hz EW trapezium 0x04a EW TRAPE 0-63 32 26 Expand 4:3 mode horizontal WIDTH adjust ZOOM 0-63 44 44 Horizontal center in AV source. Horizontal center in AV source. 0x062 0x05e H PH +5-AV 32 32 0x05f H PH +5-AV 32 32 Horizontal center in YUV source. 0x05c H PH +0-YUV 32 32 Horizontal center in YUV source. 0x05d H PH +0-YUV 32 32 SHIPMODE OFF Direct key “1” Out of box setting, Smart Picture: Rich, Contrast +: On, NR: Off, Smart Sound: Theatre, Tuner Mode: Auto, Volume: 30, CC: Off ON RF.AGC adjust 0x002 AGC 0-63 24 32 AGC speed 0x0de (bit5, bit4) AGC SPEED 0-63 1 1 IF choose 0x0dd (bit7, bit6) IF 58.75 Mhz 45.75 Mhz 45.75 Mhz 45.75 Mhz HRC and IRC of N system for auto search selection 0x0ea (bit4) HRC & IRC OFF ON OFF OFF ON ON ON ON: PAL M/N ON, OFF: PAL M/N OFF 0x0ea (bit1) MULTI SYSTEM OFF White apex limit 0x0cb (bit7-bit4) PWL 0-15 0 15 X ray protect 0x0e1 (bit2, bit3) XDT 0-2 1 1 X ray protection detect count 0x073 XDT COUNT 0-255 30 30 NTSC decode matrix 0x0e7(bit2) MUS USA JAP USA USA PAL, NTSC decode matrix 0x0ed (bit0) MAT OFF ON OFF ON Bypass of sound bandpass filter 0x0e1 (bit5, bit4) BPB 0-2 1 1 Video dependent coring 0x0de (bit3, bit2) CORING 0-3 3 3 Switch-off in vertical overscan 0x0e7 (bit7) OSO OFF ON ON ON ON Direct key “2” UOC control volume switch 0x0e8 (bit7) UOC VOL SW OFF OFF OFF UOC/PWM modify volume value 0x02e UOC/PWM VOL 0-63 41 40 Volume of 9859 modify value when sound is mono 0x052 MONO GAIN 0-63 48 52 EN 28 8. SK5.1L CA Alignments Description of the factory menu Storage address Display string Range (Index value) Default Volume of 9859 modify value when sound is stereo 0x053 STEREO GAIN 0-63 48 SK5.0L CA 52 Volume of 9859 modify value when sound is SAP 0x054 SAP GAIN 0-63 48 50 Volume of 9859 modify value when system is AV state 0x055 AV GAIN 0-63 48 48 9859 control pin output state 9859INPUT 0-2 2 0 10% volume point 0x0e0 (bit3, bit2) 0x026 VOL 10 0-100 25 20 25% volume point 0x027 VOL 25 0-100 50 45 50% volume point 0x028 VOL 50 0-100 75 60 80% volume point 0x029 VOL 80 0-100 90 80 100% volume point 0x02a VOL 100 0-100 100 100 FM demodulate frequency width 0x0de (bit1, bit0) FMWS 0-2 0 0 AVL function switch 0x0e8 (bit6) AVL OPT OFF OFF OFF ON Direct key “3” AV control logic choose 0x0e1 (bit7, bit6) AV OPT 0-3 1 0 AV choose 0x0cc (bit7-bit4) AV CFG 0-7 3 3 AV2 choose 0x0ea (bit5) 2 AV OFF ON OFF OFF DVD choose 0x0e9 (bit4) YC/DVD OFF ON OFF OFF Video output 0x0e7 (bit4) VIDEO OUT IF CVBS CVBS CVBS Pin 5 choose function 0x0cc (bit3-bit0) PIN 5 NTSC NTSC Pin 7 choose function 0x0cd (bit7-bit4) PIN 7 VOL1 VOL1 Pin 8 choose function 0x0cd (bit3-bit0) PIN 8 MUTE MUTE MUTE pin mode 0x0e9 (bit0) MUTEPIN MODE OFF: Pin 7 control volume curve ON: Pin 4 control volume curve 0x0ee (bit6) MUTEPIN SEL CCD Horizontal width adjust 0x05a CC HP 0-15 13 13 CCD scan Horizontal row when PAL N system 0x060 CC LINE 0-60 21 21 CCD delay adjustment Direct key “4” 0x0d1 (bit3-bit0) CC DELAY 8-23 20 12 OSD up down position 0x02b VP 0-63 52 51 OSD left right position 0x02c HP 0-63 54 42 RGB/YUV OSD Horizontal Center 0x05b YUV OSD HS 0-60 38 44 OSD output contrast 0x0df (bit7, bit6) OSD L 0-3 0 0 Menu translucence 0x0e9 (bit1) HALFTONE OFF ON ON ON STEREO OFF ON OFF OFF SOFTWARE VERSION NUMBER Software version number Direct key “5” BTSC-MODE MONO Stereo noise limit 0x0ce (bit7-bit4) BTSC-ST 0-15 0 0 SAP noise limit 0x0ce(bit3-bit0) BTSC-SP 0-15 0 0 Sound input level adjustment 0x040 BTSC-LI 0-15 7 9 Separate 0x041 BTSC-A1 0-31 23 14 Separate 0x042 BTSC-A2 0-31 22 6 Time constant 0x0cf (bit7-bit4) BTSC-TC 0-7 4 3 Stereo level switch 0x0e8 (bit3) BTSC-STS OFF ON OFF ON Stereo adjustment on/off 0x0e8 (bit2) BTSC-ADJ BUSY START START START MTS detect time delay 0x001 MTS DETECT 0-255 50 50 Sound mode SAP STEREO and SAP detect count 0x072 MTS FILTER 0-255 20 20 MONO detect count Direct key “6” 0x074 MTS FILTER2 0-255 20 3 POWER ON MODE 0x0dd (bit3, bit2) POW 2 2 POWER ON time delay 0x0cb (bit3-bit0) Black current stabilization 0x0e8 (bit0) 0-2 POWER ON TIM 2-17 AKB OFF Black current loop detect 0x0e9 (bit7) NBL WATCH DOG 0x0eb (bit7) WATCHDOG ON: Philips RC OFF: Skyworth RC 0x0eb (bit6) VCHIP FUNCTION SWITCH GAME FUNCTION SWITCH 12 12 ON ON ON OFF ON ON ON OFF ON OFF ON PHILIPS RC OFF ON ON ON 0x0ea (bit7) VCHIP OFF ON OFF OFF 0x0eb (bit5) GAME OFF ON OFF OFF CALENDER FUNCTION SWITCH 0x0eb (bit4) CALENDER OFF ON OFF OFF 4:3 expand function choose 0x0ec (bit6) ZOOM OPT OFF ON ON ON ON: Blue Screen OFF: Black Screen 0x0e9 (bit6) BLUE BLACK OFF ON ON ON EW WIDTH offset according to “EW WIDTH” value when TV is no signal 0x06d BB WIDTH 53-10 +0 1 Video mute during change to program 0x0e1 (bit1, bit0) BLACK BACK 0-2 0 0 RGB BLANKING 0x0ee (bit7) RGB BLANKING OFF ON ON Sub contrast 0x057 SUB BRI 0-63 0 3 Sub brightness 0x059 SUB CON 0-63 0 2 Sub color 0x023 SUB COL 0-63 30 30 ON Direct key “7” Alignments SK5.1L CA 8. EN 29 Description of the factory menu Storage address Display string Range (Index value) Default SK5.0L CA Sub Sharpness 0x024 SUB SHA 0-63 32 32 TV Sub tint 0x025 SUB TIN 0-31 16 16 AV Sub tint 0x075 SUB TIN-AV 0-31 16 16 PAL Luminance delay 0x0c9 (bit3-bit0) YDL PAL 0-15 2 10 NTSC Luminance delay 0x0c9 (bit7-bit4) YDL NTSC 0-15 2 10 AV Luminance delay 0x0ca(bit7-bit4) YDL AV 0-15 4 10 Maximum brightness 0x056 MAX BRI 0-63 63 52 Middle brightness 0x021 MID BRI 0-63 18 27 Maximum contrast 0x058 MAX CON 0-63 63 63 Middle contrast 0x022 MID CON 0-63 15 28 Line-level of brightness Direct key “8” 0x02d SC.BRI 0-63 8 8 YUV offset according to “DRI R” value of TV, white point R of YUV. 0x012 YUV DR (-32) - (+31) +0 +0 YUV offset according to “DRI G” value of TV, white point G of YUV 0x013 YUV DG (-32) - (+31) +0 +0 YUV offset according to “DRI B” value of TV, white point B of YUV 0x014 YUV DB (-32) - (+31) +0 +0 YUV offset according to “CUT R” value of TV, black level offset R of YUV 0x015 YUV CR (-32) - (+31) +0 +0 YUV offset according to “CUT G” value of TV, black level offset G of YUV 0x016 YUV CG (-32) - (+31) +0 +0 English OSD switch 0x0eb (bit3) ENGLISH OFF ON ON ON Spanish OSD switch 0x0eb (bit2) SPANISH OFF ON ON ON French OSD switch 0x0eb (bit1) FRANCE OFF ON OFF OFF Portuguese OSD switch 0x0eb (bit0) PORTUGUESE OFF ON ON ON External Y (Luminance) input gain during YPRPB. OFF: gain 0 dB reduced, ON: gain 3 dB reduced 0x0ee (bit4) YGN OFF ON OFF ON Cathode drive level 0x0ca (bit3-bit0) CATHE 3 3 EHT tracking mode 0x0ea (bit6) HCO ON ON Black current measuring lines in overscan 0x0e9 (bit2) OSVE OFF OFF 30 Manual INIT E2PROM INITEEP Key “Smart sound” BASS set value in Voice state 0x064 BASS 30 TREBLE set value in Voice state 0x065 TREBLE 50 50 SURROUND set value in Voice state 0x066 SURROUND OFF OFF BASS set value in Music state 0x067 BASS 55 55 TREBLE set value in Music state 0x068 TREBLE 60 60 SURROUND set value in Music state 0x069 SURROUND OFF OFF BASS set value in Theatre state 0x06a BASS 80 80 TREBLE set value in Theatre state 0x06b TREBLE 70 70 SURROUND set value in Theatre state Key “Smart image” 0x06c SURROUND ON ON Bright set value in Soft state 0x036 BRIGHT 55 55 Contrast set value in Soft state 0x037 CONTRAST 50 50 Color set value in Soft state 0x038 COLOR 45 45 Sharpness set value in Soft state 0x039 SHARP 45 45 Sharpness set value in Soft state of YUV 0x070 YUV SHARP 50 50 COLOR TEMP set value in Soft state 0x03a COLOR TEMP WARM WARM Bright set value in Rich state 0x03b BRIGHT 70 70 Contrast set value in Rich state 0x03c CONTRAST 85 85 Color set value in Rich state 0x03d COLOR 70 70 Sharpness set value in Rich state 0x03e SHARP 70 70 Sharpness set value in Rich state of YUV 0x071 YUV SHARP 80 80 COLOR TEMP set value in Rich state 0x03f COLOR TEMP COOL COOL Bright set value in Natural state 0x031 BRIGHT 50 50 Contrast set value in Natural state 0x032 CONTRAST 75 75 Color set value in Natural state 0x033 COLOR 50 50 Sharpness set value in Natural state 0x034 SHARP 50 50 Sharpness set value in Natural state of YUV 0x06f YUV SHARP 50 50 COLOR TEMP set value in Natural state 0x035 COLOR TEMP NORMAL NORMAL EN 30 9. SK5.1L CA Circuit Descriptions, Abbreviation List, and IC Data Sheets 9. Circuit Descriptions, Abbreviation List, and IC Data Sheets Index of this chapter: 9.1 Introduction 9.2 The various circuits 9.3 Abbreviation List 9.4 IC Data Sheets 9.1 automatic procedure to be performed during set production. The stereo identification can be read by the I2C-bus. Two different pilot thresholds (data STS = 1; STS = 0) can be selected via the I2C-bus. SAP Demodulator The composite signal is fed from the output of the input level adjustment stage to the SAP demodulator circuit through a 5fH band-pass filter. The demodulator level is automatically controlled. The SAP demodulator includes an internal field strength detector that mutes the SAP output in the event of insufficient signal conditions. The SAP identification signal can be read by the I2C-bus. Introduction The SK5.1L CA is a CRT TV for the year 2008, based on the 5P20 platform. In this chapter, only a general description of the various circuits is given. For more detailed information, see the circuit diagrams in this manual. 9.2 The various circuits 9.2.1 Tuner Noise Detector The composite input noise increases with decreasing antenna signal. This makes it necessary to switch stereo or SAP off at certain thresholds. These thresholds can be set via the I2Cbus. With ST0 to ST3 the stereo threshold can be selected and with SP0 to SP3 the SAP threshold. A hysteresis can be achieved via software by making the threshold dependent of the identification bits STP and SAPP. The function of the tuner is to select the channel to be received and suppress the interference of neighboring channels, to amplify the high frequency signal, to improve the receiving sensitivity and SNR, and to generate a PIF signal through frequency conversion. 9.2.2 Mode Selection The stereo/SAP switch feeds either the L - R signal or the SAP demodulator output signal via the internal dbx noise reduction circuit to the dematrix/switching circuit. Different switch modes provided at the output pins OUTR and OUTL are available. IF Channel The IF Channel mainly ensures the sensitivity and selectivity of the complete TV set. The IF AMP integrated in the UOCIII is made up of a three-stage dual-differential amplifier with a gain value above 70dB, a SNR of 55dB and a bandwidth of 7 MHz. The video demodulation circuit is made from the built-in PLL Sync Detector. The spectrum of the demodulation carrier is unitary and it is not affected by the content of the video signal. The tuner features stable receptivity while the signal output from the video detector features high fidelity. The built-in PLL circuit of the UOCIII generates a 38.0 MHz or 38.9 MHz demodulation reference signal for the sync detector to demodulate the video signal; this is called “PLL sync demodulation”. 9.2.3 SAP Output Independent of the stereo/SAP switch, the SAP signal is also available at pin SAP. At SAP, the SAP signal is not dbx decoded. The capacitor at SDE provides a recommended deemphasis (150 ms) at SAP. Sound Channel An external ceramic filter is used to select the second SIF signal for the sound channel of UOCIII from the signal output of the video detector. The audio signal is obtained after limiting amplification and demodulation by the intermediate frequency detector for the SIF signal. From that it is output to the audio amplifier TFA9842, which drives the speakers to provide the sound. The intermediate frequency detector and volumecontrol attenuator that are built in the UOCIII are set and adjusted via the CPU. 9.2.4 dbx Decoder The dbx circuit includes all blocks required for the noise reduction system in accordance with the BTSC system specification. The output signal is fed through a 73 ms fixed deemphasis circuit to the dematrix block. Integrated Filters The filter functions necessary for stereo and SAP demodulation and part of the dbx filter circuits are provided on-chip using transconductor circuits. The required filter accuracy is attained by an automatic filter alignment circuit. 9.2.5 In the driver circuit, both the voltage and current of the R/G/B signal are amplified, after which the CRT drive circuit modulates the cathode beam current of the CRT. The R/G/B signal input into the driver circuit is of negative polarity. BTSC stereo/SAP decoder Input Level Adjustment The composite input signal is fed to the input level adjustment stage. The control range is from -3.5 to +4.0 dB in steps of 0.5 dB. The maximum input signal voltage is 2 V (RMS). Stereo Decoder The output signal of the level adjustment stage is coupled to a low-pass filter which suppresses the baseband noise above 125 kHz. The composite signal is then fed into a pilot detector/ pilot cancellation circuit and into the MPX demodulator. The main L + R signal passes a 75 ms fixed de-emphasis filter and is fed into the dematrix circuit. The decoded sub-signal L - R is sent to the stereo/SAP switch. To generate the pilot signal the stereo demodulator uses a PLL circuit including a ceramic resonator. The stereo channel separation is adjusted by an CRT Drive Circuit 9.2.6 Power Supply Circuit The function of the power supply circuit is to supply various stabilized operating voltages and to provide protections against excessive voltages and currents. Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.3 Abbreviation List 2CS A2 AC ACI ADC AFC AGC AM ANC AP AR AV AVL B/G BCL CBA CFR ComPair CRT CVBS CVI D/K DAC DC DC-filament DFU DPL DRAM DVD EEPROM EHT EMI EU EW EW-DRIVE EXT FBL FE Field Filament FM Frame FTV G H H-DRIVE H-FLYBACK H-OUT 2 Carrier Sound Commonly known as 2 Carrier Sound (2CS) system Alternating Current Automatic Channel Installation: algorithm that installs TV channels directly from a cable network by means of a predefined TXT page Analogue to Digital Converter Automatic Frequency Control: control signal used to tune to the correct frequency Automatic Gain Control: algorithm that controls the video input of the feature box Amplitude Modulation Automatic Noise Reduction; One of the algorithms of Auto TV Asia Pacific Aspect Ratio: 4 by 3 or 16 by 9 Audio Video Automatic Volume Level control Monochrome TV system. Sound carrier distance is 5.5 MHz Beam Current Limiter Circuit Board Assembly (or PWB) Carbon Film Resistor Computer aided rePair Cathode Ray Tube (or picture tube) Composite Video Blanking and Synchronisation Component Video Input Monochrome TV system. Sound carrier distance is 6.5 MHz. D= VHFband, K= UHF-band Digital to Analogue Converter Direct Current Filament supply voltage Directions For Use: owner's manual Dolby Pro Logic Dynamic RAM; dynamically refreshed RAM Digital Versatile Disc Electrically Erasable and Programmable Read Only Memory Extreme High Tension; the voltage between the cathode and the shadow mask that accelerates the electrons towards the screen (around 25 kV) Electro Magnetic Interference; Leakage of high-frequency radiation from a transmission medium EUrope East West, related to horizontal deflection of the set East -West correction drive signal. EXTernal (source), entering the set by SCART or by cinches (jacks) Fast Blanking: DC signal accompanying RGB signals Front End; Tuner and RF part together Each interlaced broadcast FRAME is composed of two Fields, each Field consists of either Odd or Even lines Filament of CRT Field Memory / Frequency Modulation A complete TV picture comprising all lines (625/525) Flat TeleVision Green H_sync to the module Horizontal Drive HA HFB HW I I2 C I2S IC IF IIC Interlaced IO IR L L/L’ LATAM LED LOT LS M/N MOFR MOSFET MPX NAFTA NC NICAM NTC NTSC NVM OB OC OP OSD P50 PAL PCB PLL SK5.1L CA 9. EN 31 Horizontal Flyback H_sync output of the module / Horizontal Output pulse Horizontal Acquisition; horizontal sync pulse Horizontal Flyback Pulse; Horizontal sync pulse from large signal deflection Hardware Monochrome TV system. Sound carrier distance is 6.0 MHz. VHF- and UHF-band Inter IC bus (also called IIC) Inter IC Sound bus Integrated Circuit Intermediate Frequency Inter IC bus (also called I2C) Scan mode where two fields are used to form one frame. Each field contains half the number of the total amount of lines. The fields are written in "pairs", causing line flicker. In/Out Infra Red Left audio channel Monochrome TV system. Sound carrier distance is 6.5 MHz. L' is Band I, L is all bands except for Band I LATin AMerica Light Emitting Diode Line Output Transformer (also called FBT); The transformer in which the EHT is generated Loud Speaker Monochrome TV system. Sound carrier distance is 4.5 MHz. M= 525 lines @ 60 Hz, N= 625 lines @ 50 Hz Metal Oxide Film Resistor Metal Oxide Semiconductor Field Effect Transistor MultiPleX North American Free Trade Association: Trade agreement between Canada, USA and Mexico Not Connected Near Instantaneously Companded Audio Multiplexing; This is a digital sound system, mainly used in Europe Negative Temperature Coefficient, non-linear resistor (resistance decreases if temperature increases) National Television Standard Committee. Colour system used mainly in North America and Japan. Colour carrier NTSC M/N = 3.579545 MHz, NTSC 4.43 = 4.433619 MHz (this is a VCR norm, it is not transmitted off-air) Non Volatile Memory; IC containing data such as alignment values, preset stations Option Byte Open Circuit OPtion byte On Screen Display Project 50; Communication protocol between TV and peripherals Phase Alternating Line; Colour system mainly used in West Europe (colour carrier= 4.433619 MHz) and South America (colour carrier PAL M= 3.575612 MHz and PAL N= 3.582056 MHz) Printed Circuit Board (or PWB) Phase Locked Loop; Used for e.g. FST tuning systems. The customer EN 32 9. Progressive Scan PTC PWB QSS R RAM RC RC5 (6) RF RGB RGBHV RMS ROM SAP SAW SC S/C SCL SD SDA SDRAM SIF SMC SMD SMPS SND SRAM STBY SVHS TBD TXT µC UOC µP UV V V-BAT VA VBI VCR VGA VIF WE WST XTAL Y SK5.1L CA Circuit Descriptions, Abbreviation List, and IC Data Sheets can directly provide the desired frequency Scan mode where all scan lines are displayed in one frame at the same time, creating a double vertical resolution. Positive Temperature Coefficient, non linear resistor (resistance increases if temperature increases) Printed Wiring Board (also called PCB or CBA) Quasi Split Sound Right audio channel / Red Random Access Memory Remote Control transmitter Remote Control system 5 (6), the signal from the remote control receiver Real Flat (picture tube) or Radio Frequency Red, Green, and Blue colour space; The primary colour signals for TV. By mixing levels of R, G, and B, all colours (Y/C) are reproduced Red, Green, Blue, Horizontal sync, and Vertical sync Root Mean Square value Read Only Memory Secondary Audio Program; Generally used to transmit audio in a second language Surface Acoustic Wave SandCastle: two-level pulse derived from sync signals Short Circuit Serial Clock signal on I2C bus Standard Definition Serial Data line of I2C bus Synchronous DRAM Sound Intermediate Frequency Surface Mounted Component Surface Mounted Device Switched Mode Power Supply SouND Static RAM STandBY Super Video Home System To Be Defined Teletext; TXT is a digital addition to analogue TV signals that contain textual and graphical information (25 rows x 40 columns). The information is transmitted within the first 25 lines during the Vertical Blank Interval (VBI) Microcontroller Ultimate One Chip Microprocessor Colour difference signals V_sync Main supply for deflection (usually 141 V) Vertical Acquisition Vertical Blanking Interval; Time during which the video signal is blanked when going from bottom to top of the display Video Cassette Recorder Video Graphics Array Video Intermediate Frequency Write Enable control line World System Teletext Quartz crystal Luminance signal 9.4 IC Data Sheets This section shows the internal block diagrams and pin layouts of ICs that are drawn as “black boxes” in the electrical diagrams. Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.4.1 SK5.1L CA 9. Diagram A1, W6556A, (IC601) H_17210_039.eps 120607 Figure 9-1 Block Diagram and Pin Configuration EN 33 EN 34 9.4.2 9. SK5.1L CA Circuit Descriptions, Abbreviation List, and IC Data Sheets Diagram A1, P412, (IC602) H_17210_039.eps 120607 Figure 9-2 Block Diagram and Pin Configuration Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.4.3 SK5.1L CA 9. Diagram A3, TDA486x, (IC301) Block Diagram TDA486xAJ THERMAL PROTECTION DIFFERENTIAL INPUT STAGE VERTICAL OUTPUT FLYBACK GENERATOR REFERENCE CIRCUIT 7 6 5 4 3 2 1 INP INN VOUT GND VP2 VP3 VP1 RS1 CS1 CF D1 RP R3 C2 deflection coil R5 C1 from deflection controller R6 R1 R2 VN VP Block diagram of TDA486xAJ Pin Configuration VP1 1 VP3 2 VP2 3 GND 4 VOUT 5 INN 6 INP 7 TDA486xAJ Pin configuration for DBS7P (TDA486xAJ) H_17210_038.eps 120607 Figure 9-3 Block Diagram and Pin Configuration EN 35 EN 36 9.4.4 9. SK5.1L CA Circuit Descriptions, Abbreviation List, and IC Data Sheets Diagram A7, 24C08 (IC102) H_17210_035.eps 120607 Figure 9-4 Block Diagram Circuit Descriptions, Abbreviation List, and IC Data Sheets SK5.1L CA 9. Pin Configuration H_17210_036.eps 120607 Figure 9-5 Pin Configuration EN 37 EN 38 9.4.5 9. SK5.1L CA Circuit Descriptions, Abbreviation List, and IC Data Sheets Diagram A5, 4052, (IC761, IC762) Block Diagram Pin Configuration H_17210_041.eps 120607 Figure 9-6 Block Diagram and Pin Configuration Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.4.6 SK5.1L CA 9. EN 39 Diagram A6, TDA9850, (IC740) Block Diagram C5 ceramic resonator Q1 C6 C7 + + + C4 + C3 C2 R1 13 15 14 16 18 17 19 L+R STEREO DECODER 27 DEMATRIX + MODE SELECT L − R/SAP 21 stereo OUTL mono SAP to OUTR audio processing TDA9850 22 + composite baseband input INPUT LEVEL ADJUST 11 C1 NOISE DETECTOR STEREO/SAP SWITCH C8 DE-EMPHASIS 23 SAP without DBX 7 SAP DEMODULATOR 5 + C16 DBX 4 C15 STEREO ADJUST 26 C17 3 R2 + 32 2 1 + C14 R3 + 31 30 + C13 CL 12 + + + + C12 C11 C10 C9 10 20 25 29 LOGIC, I2CTRANSCEIVER SUPPLY C19 6 24 + CR only during adjustment VCC VCAP 8 9 SDA SCL 28 MAD C18 Vref Pin Configuration VEO 1 32 CS VEI 2 31 CW CNR 3 30 CTS CM 4 29 CTW CDEC 5 28 MAD AGND 6 27 OUTL DGND 7 26 CND SDA 8 25 CL TDA9850 9 24 Vref VCC 10 23 SAP SCL COMP 11 22 CSDE VCAP 12 21 OUTR CP1 13 20 CR CP2 14 19 CSS CPH 15 18 CMO CADJ 16 17 CER H_17450_004.eps 200907 Figure 9-7 Block Diagram and Pin Configuration EN 40 9.4.7 9. Circuit Descriptions, Abbreviation List, and IC Data Sheets SK5.1L CA Diagram A6, TFA9842, (IC760) Block Diagram VCC 9 IN1 4 8 OUT1 60 kΩ IN2 1 2 OUT2 60 kΩ CIV 3 VREF SHORT-CIRCUIT AND TEMPERATURE PROTECTION VCC VC 7 VOLUME CONTROL 0.5VCC 6 SVR TFA9842AJ 5 GND Pin Configuration IN2 1 OUT2 2 CIV 3 IN1 4 GND 5 SVR 6 VC 7 OUT1 8 VCC 9 TFA9842AJ H_17210_033.eps 110607 Figure 9-8 Block Diagram and Pin Configuration Circuit Descriptions, Abbreviation List, and IC Data Sheets 9. EN 41 3:06; 6&/ 6'$ ,2 32576 [ $'& ,1 [ /(' 287 [ 5(6(7 $8'287 93( $8',2 $8',2 $9/ 61',) Diagram A7, TDA9373 (IC101) 4662$0287 $8'((0 9.4.8 SK5.1L CA  9 967 287 466 6281' ,) 6,),1 6281' 3// '((03+$6,6 $8',2 6:,7&+ $9/ 92/80( &21752/ $*& 466 0,;(5 $0 '(02'8/$725 781(5$*& 9,),1 6281' 75$3 &9%6 &9%6< & &9%62 9,6,21 ,) 3// '(02' '9% 0,;(5 $*&$)& 9,'(2 $03 5() & &38  3$*( 967 3:0'$& 0(025< ,2 32576 + /80$ '(/$< 5205$0 3($.,1* &9%6 7(/(7(;7 7(/(7(;726' $&48,6,7,21 9 6<1& &25 ,)92'9%2 5() *5283 '(/$< &255(&7,21 9,'(2 6:,7&+ 3$/6(&$0176& 5 < 5 +'5,9(  QG + 9'5,9(  /223 9 +6+,)7 (: *(20(75< *(20(75< 9'5,9( % %/ * % 52 *2 %2 %&/,1 %/.,1 5*%<89 ,16(57 6$785$7,21 %/$&. 675(7&+ :+,7( 675(7&+ 8 7,17 &21752/ 9 < 90287 +287 * &2175%5,*+71 26'7(;7 ,16(57 %/8( 675(7&+ &&& :+,7(3 $'- %$6(%$1' '(/$< /,1( '(&2'(5 9,'(2 ,'(17 9,'(2 ),/7(56 +26&  3// ',63/$< 90287 +9 6<1& 6(3 9 , &%86 75$16&(,9(5 (1+$1&(' (+72 (:' 593 5 %83 % %/ *< I_17880_008.eps 250308 Figure 9-9 Block Diagram EN 42 9. SK5.1L CA Circuit Descriptions, Abbreviation List, and IC Data Sheets Pin Configuration I_17880_007.eps 250308 Figure 9-10 Pin Configuration Circuit Descriptions, Abbreviation List, and IC Data Sheets SK5.1L CA 9. EN 43 H_17210_030.eps 130607 Figure 9-11 Pin Configuration EN 44 9. SK5.1L CA Circuit Descriptions, Abbreviation List, and IC Data Sheets Pinning H_17210_031.eps 130607 Figure 9-12 Pin Configuration Spare Parts List SK5.1L CA 10. EN 45 10. Spare Parts List Set Level 29PT8567C/77 0001 0002 0002 CRT SPL SPR 9965 200 33579 9965 200 33582 9965 200 33584 9965 100 13791 9965 200 32732 9965 200 32732 Main Board assy [A] Keyb. & Control assy [D] CRT assy [B] A68ERF185X013/ Speaker Speaker 29PT9467C/77 0001 0002 0003 CRT SPL SPR 9965 200 33597 9965 200 33600 9965 200 33599 9965 100 13929 9965 200 32732 9965 200 32732 Main Board assy [A] Keyb. & Control assy [D] CRT assy [B] LG.PhilipsA68QGU820 Speaker Speaker 29PT9467C/78 0001 0002 0003 CRT SPL SPR 9965 200 33528 9965 200 33527 9965 200 33531 9965 100 42682 9965 200 32732 9965 200 32732 Main Board assy [A] Keyb. & Control assy [D] CRT assy [B] A68QGU820X28RSKG Speaker Speaker Main Chassis [A] Various F601 P701 P702 PTC601 SAW101 X101 X851 XT145 9965 000 40615 9965 200 32725 9965 100 13188 9965 100 04865 9965 100 08958 9965 000 40264 9965 100 07714 9965 100 07703 Fuse T3.15A 250V Y/C socket RCA Jack Ther Resistor 9Ω for 29" Saw Filter Xtal 12.0MHz HC-49/U Ceramic Res. 503kHz Ceramic Trap 4.5MHz 9965 000 40156 9965 000 40156 9965 000 40172 9965 000 40156 9965 000 40206 9965 000 41097 9965 000 41097 9965 000 40171 9965 000 40210 9965 000 41097 9965 000 41097 9965 000 40174 9965 100 04885 9965 000 40206 9965 000 40186 9965 000 40172 9965 000 40206 9965 000 40171 9965 100 04891 9965 100 05388 9965 100 05388 9965 100 04892 9965 000 40206 9965 000 40171 9965 100 04892 9965 000 40209 9965 000 40212 9965 000 40178 9965 100 04891 9965 100 04872 9965 000 40171 9965 000 40212 9965 000 40159 9965 000 41112 9965 000 40206 9965 100 04891 9965 000 40172 9965 000 40206 9965 000 40529 9965 000 40529 9965 000 40206 0.01μF 50V 0.01μF 50V 100μF 20% 16V 0.01μF 50V Mylar 0.01μF 100V 100pF 50V 100pF 50V 10μF 20% 16V Mylar 0.022μF 100V 100pF 50V 100pF 50V 220μF 20% 16V 0.47uF 20% 50V Mylar 0.01μF 100V 0.1μF 10% 63-100V 100μF 20% 16V Mylar 0.01μF 100V 10μF 20% 16V 0.1μF 5% 63-100V 1μF 20% 50V 1μF 20% 50V 0.22μF 5% 63-100V Mylar 0.01μF 100V 10μF 20% 16V 0.22μF 5% 63-100V Mylar 0.0022μF 100V Mylar 0.0047μF 100V 1μF 20% 50V 0.1μF 5% 63-100V 82pF 5% 50V 10μF 20% 16V Mylar 0.0047μF 100V 330pF 50V 4.7μF 20% 16V Mylar 0.01μF 100V 0.1μF 5% 63-100V 100μF 20% 16V Mylar 0.01μF 100V 33pF 50V 33pF 50V Mylar 0.01μF 100V g C101 C102 C104 C105 C106 C107 C108 C109 C110 C111 C112 C113 C114 C115 C116 C117 C118 C119 C120 C123 C124 C127 C128 C129 C130 C131 C132 C133 C135 C136 C137 C138 C139 C140 C143 C144 C145 C146 C147 C148 C149 C151 C152 C153 C154 C155 C156 C402 C403 C404 C405 C406 C407 C409 C410 C410A C431 C431 C432 C432 C433 C433 C435 C436 C438 C438 C440 C441 C442 C443 C444 C444 C446 C450 C451 C452 C453 C455 C456 C459 C460 C461 C462 C463 C463 C464 C465 C472 C473 C473 C600 C601 C603 C603A C603B C603C C603D C604 C605 C606 C607 C608 C609 C610 C611 C612 C620 C621 C622 C623 C624 C625 C626 C627 C628 C629 C630 C631 C632 C634 C639 C640 C641 C701 C702 C705 C706 C707 C708 C716 9965 000 40172 9965 000 40529 9965 000 40206 9965 000 40172 9965 000 40206 9965 000 40172 9965 000 40166 9965 000 40164 9965 000 40181 9965 100 04885 9965 100 04891 9965 000 40158 9965 100 04891 9965 000 40171 9965 000 40171 9965 100 05180 9965 100 13788 9965 100 05182 9965 100 13788 9965 100 13178 9965 100 13179 9965 100 09361 9965 100 05384 9965 100 13182 9965 100 13787 9965 100 13183 9965 000 40156 9965 100 05383 9965 100 05387 9965 100 05367 9965 100 13198 9965 100 04891 9965 100 04874 9965 100 04874 9965 100 13173 9965 100 13173 9965 100 13199 9965 000 40186 9965 000 40186 9965 000 40205 9965 000 40205 9965 100 05384 9965 100 13177 9965 100 13785 9965 100 13180 9965 100 13181 9965 100 04891 9965 100 13178 9965 100 13786 9965 100 04896 9965 100 05374 9965 100 05374 9965 000 41100 9965 000 41100 9965 000 41100 9965 000 41100 9965 100 07724 9965 100 04891 9965 100 04874 9965 000 40564 9965 000 40179 9965 100 05386 9965 100 05403 9965 100 13184 9965 100 13184 9965 000 40166 9965 100 13175 9965 100 13174 9965 000 40166 9965 000 40166 9965 000 40173 9965 000 40173 9965 100 04883 9965 100 04883 9965 100 13174 9965 000 40206 9965 000 40172 9965 100 13176 9965 000 40206 9965 000 40175 9965 000 40174 9965 000 40541 9965 000 40205 9965 000 40205 9965 100 05388 9965 100 05388 9965 100 05388 9965 000 40186 9965 100 05388 100μF 20% 16V 33pF 50V Mylar 0.01μF 100V 100μF 20% 16V Mylar 0.01μF 100V 100μF 20% 16V 680pF 500V 0.0022μF 500V 4.7μF 50V-100V 20% 0.47uF 20% 50V 0.1μF 5% 63-100V 220pF 50V 0.1μF 5% 63-100V 10μF 20% 16V 10μF 20% 16V 0.0039μF 0.0068µF 0.0082μF 0.0068µF 0.018µF 630V 0.027µF 5% 630V 0.63µF 400V 560pF 10% 2kV 0.0027µF 2kV 0.0015µF 2kV Nonpolar El. Capacitor 0.01μF 50V 0.0022μF 10% 2kV 0.15μF 5% 100V 39pF 5% 50V 36pF 50V 0.1μF 5% 63-100V 470pF 10% 500V 470pF 10% 500V 2200µF 2200µF 220µF 0.1μF 10% 63-100V 0.1μF 10% 63-100V Mylar 0.001μF 100V Mylar 0.001μF 100V 560pF 10% 2kV 0.41µF 5% 400V 0.41µF 5% 400V 0.18µF 400V 0.78µF 400V 0.1μF 5% 63-100V 0.018µF 630V 0.033µF 630V 0.1uF 250V-500V 0.22μF 10% 250V 0.22μF 10% 250V 0.0047μF 500V 0.0047μF 500V 0.0047μF 500V 0.0047μF 500V 0.001μF 2kV 0.1μF 5% 63-100V 470pF 10% 500V 220μF 10μF 20% 50V-63V 0.01μF 5% 100V 0.0022μF 400V 470pF 470pF 680pF 500V 100µF 1000µF 680pF 500V 680pF 500V 1000μF 1000μF 1000μF 20% 25V 1000μF 20% 25V 1000µF Mylar 0.01μF 100V 100μF 20% 16V 47µF 20% Mylar 0.01μF 100V 47μF 20% 16V 220μF 20% 16V 2200μF Mylar 0.001μF 100V Mylar 0.001μF 100V 1μF 20% 50V 1μF 20% 50V 1μF 20% 50V 0.1μF 10% 63-100V 1μF 20% 50V C717 C720 C725 C726 C727 C728 C740 C741 C742 C743 C744 C745 C746 C747 C748 C749 C751 C752 C753 C754 C755 C760 C761 C763 C764 C765 C766 C767 C768 C769 C770 C771 C773 C775 C776 C777 C778 C783 C784 C785 C851 C852 C853 C854 C855 C856 C857 C858 C859 C860 C861 C862 C863 C864 C865 C866 C867 C868 C869 C871 C872 C873 C874 C875 C876 C877 C878 C879 9965 100 05388 9965 100 13200 9965 100 04891 9965 100 04891 9965 100 04891 9965 000 40172 9965 000 40172 9965 100 05388 9965 100 05388 9965 000 40561 9965 000 40561 9965 100 05389 9965 100 05387 9965 000 41097 9965 000 40563 9965 000 40205 9965 000 41097 9965 000 40563 9965 100 05387 9965 100 05389 9965 000 40206 9965 000 40171 9965 000 40178 9965 000 40173 9965 100 04885 9965 000 40212 9965 000 40212 9965 000 40545 9965 100 04883 9965 100 04883 9965 100 05388 9965 100 05388 9965 100 05388 9965 100 05388 9965 000 40172 9965 000 40206 9965 100 13200 9965 000 40205 9965 100 13200 9965 000 40205 9965 100 05388 9965 100 07708 9965 000 41112 9965 000 40187 9965 000 40171 9965 000 41112 9965 000 41112 9965 000 40561 9965 000 40171 9965 000 40171 9965 000 40178 9965 000 40178 9965 000 40213 9965 000 40171 9965 000 40186 9965 000 41112 9965 000 40186 9965 000 40172 9965 000 40172 9965 100 05388 9965 100 05388 9965 000 40180 9965 000 40180 9965 000 41097 9965 000 41097 9965 000 40172 9965 000 40186 9965 100 05388 1μF 20% 50V Nonpolar El. Capacitor 0.1μF 5% 63-100V 0.1μF 5% 63-100V 0.1μF 5% 63-100V 100μF 20% 16V 100μF 20% 16V 1μF 20% 50V 1μF 20% 50V Mylar 0.015μF 100V Mylar 0.015μF 100V 0.068μF 10% 100V 0.15μF 5% 100V 100pF 50V Mylar 0.0056UF 100V Mylar 0.001μF 100V 100pF 50V Mylar 0.0056UF 100V 0.15μF 5% 100V 0.068μF 10% 100V Mylar 0.01μF 100V 10μF 20% 16V 1μF 20% 50V 1000μF 0.47uF 20% 50V Mylar 0.0047μF 100V Mylar 0.0047μF 100V 220μF 20% 25V 1000μF 20% 25V 1000μF 20% 25V 1μF 20% 50V 1μF 20% 50V 1μF 20% 50V 1μF 20% 50V 100μF 20% 16V Mylar 0.01μF 100V Nonpolar El. Capacitor Mylar 0.001μF 100V Nonpolar El. Capacitor Mylar 0.001μF 100V 1μF 20% 50V 0.47μF 10% 63-100V 4.7μF 20% 16V 0.22μF 10% 63-100V 10μF 20% 16V 4.7μF 20% 16V 4.7μF 20% 16V Mylar 0.015μF 100V 10μF 20% 16V 10μF 20% 16V 1μF 20% 50V 1μF 20% 50V Mylar 0.047μF 100V 10μF 20% 16V 0.1μF 10% 63-100V 4.7μF 20% 16V 0.1μF 10% 63-100V 100μF 20% 16V 100μF 20% 16V 1μF 20% 50V 1μF 20% 50V 2.2μF20% 50V 2.2μF20% 50V 100pF 50V 100pF 50V 100μF 20% 16V 0.1μF 10% 63-100V 1μF 20% 50V 9965 000 39984 9965 100 04836 9965 100 04848 9965 000 39979 9965 100 04849 9965 100 13195 9965 000 39976 9965 100 04838 9965 000 39975 9965 000 39975 9965 000 40701 9965 000 40698 9965 000 39975 9965 000 39975 9965 000 40695 9965 000 40304 9965 000 40695 9965 100 04839 CFR 75Ω 1/16W 1.2kΩ 5% 1/16-1/6W 5.6kΩ 5% 1/16-1/6W CFR 150Ω 1/6W 680Ω 5% 1/16-1/6W 33Ω CFR 10kΩ 1/16W 180Ω 5% 1/16-1/6W CFR 100Ω 1/16W CFR 100Ω 1/16W CFR 47kΩ 1/16W CFR 39kΩ 1/16W CFR 100Ω 1/16W CFR 100Ω 1/16W CFR 3.3kΩ 1/16W CFR 1KΩ 1/16W CFR 3.3kΩ 1/16W 2.2kΩ 5% 1/6W f R101 R102 R103 R105 R107 R108 R109 R110 R111 R112 R113 R114 R115 R116 R117 R118 R119 R120 EN 46 R121 R122 R125 R126 R127 R130 R131 R132 R133 R134 R135 R136 R137 R138 R139 R140 R141 R142 R143 R144 R145 R147 R148 R149 R151 R154 R401 R404 R405 R406 R407 R408 R408 R409 R411 R412 R413 R414 R416 R417 R417 R418 R418 R419 R419 R420 R421 R422 R423 R424 R425 R426 R427 R432 R433 R440 R441 R443 R450 R451 R452 R453 R454 R454A R455 R457 R459 R460 R461 R462 R462 R463 R464 R466 R467 R471 R600 R601 R602 R603 R604 R605 R606 R607 R608 R610 R621 R622 R624 R627 R630 R631 R632 R633 10. SK5.1L CA 9965 000 39976 9965 000 39976 9965 100 04839 9965 100 04838 9965 000 39975 9965 000 40695 9965 000 40695 9965 000 39976 9965 000 39975 9965 000 39975 9965 100 04846 9965 000 40304 9965 000 40304 9965 000 39994 9965 000 40697 9965 000 39975 9965 000 39976 9965 000 39975 9965 000 39975 9965 000 39975 9965 000 39980 9965 100 04844 9965 000 39976 9965 000 39976 9965 000 40122 9965 000 40686 9965 000 40687 9965 000 39975 9965 000 40693 9965 100 13192 9965 000 40001 9965 000 39999 9965 000 40101 9965 100 04841 9965 100 10531 9965 000 39982 9965 000 39977 9965 000 40698 9965 000 40304 9965 000 40697 9965 000 40700 9965 100 13189 9965 100 13190 9965 000 39981 9965 000 40696 9965 000 39988 9965 100 04838 9965 100 04849 9965 100 13170 9965 000 40689 9965 100 04841 9965 100 07705 9965 100 13172 9965 000 40491 9965 100 04863 9965 000 40148 9965 100 05218 9965 000 40699 9965 100 13193 9965 100 04863 9965 100 04863 9965 000 40140 9965 000 40112 9965 000 40112 9965 000 40687 9965 000 39975 9965 000 40687 9965 000 39975 9965 000 39985 9965 000 40782 9965 100 05312 9965 100 13194 9965 100 13171 9965 000 40698 9965 000 39980 9965 100 05622 9965 100 13172 9965 000 40150 9965 100 05397 9965 100 04856 9965 000 40698 9965 000 40691 9965 000 40706 9965 100 04855 9965 000 40000 9965 100 05382 9965 100 04863 9965 100 04863 9965 100 04863 9965 100 05366 9965 000 40113 9965 000 39988 9965 000 40782 9965 000 40108 CFR 10kΩ 1/16W CFR 10kΩ 1/16W 2.2kΩ 5% 1/6W 180Ω 5% 1/16-1/6W CFR 100Ω 1/16W CFR 3.3kΩ 1/16W CFR 3.3kΩ 1/16W CFR 10kΩ 1/16W CFR 100Ω 1/16W CFR 100Ω 1/16W 47Ω 5% 1/16-1/6W CFR 1KΩ 1/16W CFR 1KΩ 1/16W CFR 15kΩ CFR 3.9kΩ 1/16W CFR 100Ω 1/16W CFR 10kΩ 1/16W CFR 100Ω 1/16W CFR 100Ω 1/16W CFR 100Ω 1/16W CFR 22kΩ 1/8W 390Ω 5% 1/6W CFR 10kΩ 1/16W CFR 10kΩ 1/16W MOFR 39kΩ CFR 15kΩ 1/16W CFR 1.8kΩ 1/16W CFR 100Ω 1/16W CFR 2.7kΩ 1/16W 560Ω CFR 22kΩ CFR 220Ω CFR 3.3kΩ 27kΩ 5% 1/16-1/6W 15kΩ CFR 33kΩ 1/16W CFR 100kΩ CFR 39kΩ 1/16W CFR 1KΩ 1/16W CFR 3.9kΩ 1/16W CFR 4.7kΩ 1/16W 180kΩ 91kΩ 1/16W CFR 220Ω CFR 330kΩ 1/6W CFR 1kΩ 1/4W 180Ω 5% 1/16-1/6W 680Ω 5% 1/16-1/6W Fusible 3.9Ω 2W CFR 2kΩ 1/16W 27kΩ 5% 1/16-1/6W MOFR NTC 5Ω CFR 270Ω 1W 0.33Ω 5% 1W Fusible 2.2Ω 2W 56kΩ 5% 1/16-1/6W CFR 470Ω 1/16W 5.6Ω 0.33Ω 5% 1W 0.33Ω 5% 1W MOFR 270Ω CFR 68Ω 1/4W CFR 68Ω 1/4W CFR 1.8kΩ 1/16W CFR 100Ω 1/16W CFR 1.8kΩ 1/16W CFR 100Ω 1/16W CFR 5.6Ω MOFR 1Ω 0.82Ω 2W 220Ω NTC A503J5 CFR 39kΩ 1/16W CFR 22kΩ 1/8W 68kΩ 5% 1/16-1/6W NTC 5Ω High Volt. 2.2MΩ 1/2W 200kΩ 5% 2W 220Ω 5% 1W CFR 39kΩ 1/16W CFR 220Ω 1/16W CFR 6.8kΩ 1/16W 22Ω 5% 1W CFR 2.2kΩ 8.2MΩ 5% 1W 0.33Ω 5% 1W 0.33Ω 5% 1W 0.33Ω 5% 1W 6.2kΩ 5% 1/4W CFR 680Ω CFR 1kΩ 1/4W MOFR 1Ω CFR 5.1kΩ Spare Parts List R634 R635 R638 R639 R643 R644 R645 R647 R648 R649 R650 R701 R702 R703 R704 R711 R712 R713 R717 R719 R721 R722 R723 R724 R725 R728 R729 R742 R743 R744 R745 R746 R747 R762 R763 R764 R765 R766 R768 R769 R770 R771 R775 R776 R851 R852 R853 R854 R855 R856 R857 R858 R860 RL601 VDR601 VDR602 9965 000 39976 9965 000 39980 9965 100 09370 9965 000 39976 9965 000 40701 9965 000 39976 9965 000 40103 9965 100 13191 9965 000 39980 9965 000 40000 9965 100 05380 9965 000 40701 9965 000 40701 9965 000 39984 9965 000 39984 9965 100 04836 9965 000 39980 9965 000 39982 9965 000 39983 9965 000 39984 9965 000 39975 9965 000 39984 9965 000 39984 9965 000 39976 9965 000 39982 9965 000 40304 9965 100 04836 9965 100 05138 9965 100 05138 9965 000 40701 9965 000 40701 9965 000 40701 9965 000 40701 9965 000 40304 9965 000 40686 9965 000 40700 9965 000 40304 9965 000 40701 9965 100 13190 9965 000 40304 9965 000 40304 9965 000 39976 9965 000 40701 9965 000 40701 9965 100 04839 9965 100 13197 9965 100 13196 9965 000 39986 9965 000 39975 9965 000 39975 9965 100 05142 9965 100 05142 9965 000 39976 9965 100 10983 9965 000 40275 9965 000 40274 CFR 10kΩ 1/16W CFR 22kΩ 1/8W 22Ω CFR 10kΩ 1/16W CFR 47kΩ 1/16W CFR 10kΩ 1/16W CFR 390Ω 0.51Ω CFR 22kΩ 1/8W CFR 2.2kΩ 430Ω 5% 1/16-1/6W CFR 47kΩ 1/16W CFR 47kΩ 1/16W CFR 75Ω 1/16W CFR 75Ω 1/16W 1.2kΩ 5% 1/16-1/6W CFR 22kΩ 1/8W CFR 33kΩ 1/16W CFR 56Ω 1/16W CFR 75Ω 1/16W CFR 100Ω 1/16W CFR 75Ω 1/16W CFR 75Ω 1/16W CFR 10kΩ 1/16W CFR 33kΩ 1/16W CFR 1KΩ 1/16W 1.2kΩ 5% 1/16-1/6W 13kΩ 5% 1/16-1/6W 13kΩ 5% 1/16-1/6W CFR 47kΩ 1/16W CFR 47kΩ 1/16W CFR 47kΩ 1/16W CFR 47kΩ 1/16W CFR 1KΩ 1/16W CFR 15kΩ 1/16W CFR 4.7kΩ 1/16W CFR 1KΩ 1/16W CFR 47kΩ 1/16W 91kΩ 1/16W CFR 1KΩ 1/16W CFR 1KΩ 1/16W CFR 10kΩ 1/16W CFR 47kΩ 1/16W CFR 47kΩ 1/16W 2.2kΩ 5% 1/6W 8.2kΩ 150Ω CFR 10Ω 1/4W CFR 100Ω 1/16W CFR 100Ω 1/16W 270kΩ 5W 1/16-1/6W 270kΩ 5W 1/16-1/6W CFR 10kΩ 1/16W OMIT-SS-112 Gas Tube CMQX0680 Surge Abs. 300V 30% 9965 000 40253 9965 000 40602 9965 000 40253 9965 100 04920 9965 000 40252 9965 000 40252 9965 000 40252 9965 100 09374 9965 000 40252 9965 000 40252 9965 100 07718 9965 100 05629 9965 100 04924 9965 100 04924 9965 100 07717 9965 100 09419 9965 100 09419 9965 000 41227 9965 100 05410 Peaking coil 100μH 10% Peaking coil 1μH 10% Peaking coil 100μH 10% Peaking Coil 6.8μH Peaking coil 10μH 10% Peaking coil 10μH 10% Peaking coil 10μH 10% PEAKING COIL 22uH Peaking coil 10μH 10% Peaking coil 10μH 10% Linear Coil 36μH Chock Coil 160μH 10% Choke Coil 790μH Choke Coil 790μH Choke Coil 2.8MHz 10% AC Line Filter 15mH AC Line Filter 15mH Bead 3.5 x 1 x 9mm Coke 200μH b L100 L101 L102 L103 L104 L105 L106 L107 L108 L109 L430 L431 L432 L440 L440 L601 L603 L604 L622 9965 000 40218 9965 000 40224 9965 000 40218 9965 100 04904 9965 000 40571 9965 000 40219 9965 100 05390 9965 100 05390 9965 000 40219 9965 100 13185 9965 100 13185 1N4148 150mA/100V Zener 8V2 1/2W 5% 1N4148 150mA/100V BY228 HSR Diode RU4 BA158 600V/1A TBYW362A/600V TBYW362A/600V BA158 600V/1A 4A8BL 4 4A8BL 4 9965 100 13185 9965 100 13185 9965 000 40219 9965 100 07483 9965 000 40219 9965 100 05390 9965 100 05406 9965 000 40219 9965 000 40218 9965 000 40218 9965 000 40218 9965 000 40218 9965 000 40221 9965 000 40221 9965 000 40221 9965 000 40224 9965 000 40224 9965 000 40224 9965 000 40224 9965 000 40224 9965 100 04909 9965 000 40224 9965 100 04909 9965 000 40221 9965 000 40220 9965 000 40220 9965 000 40224 9965 000 40224 9965 000 40224 9965 000 40224 9965 000 40224 9965 000 40224 9965 000 40224 9965 000 40224 4A8BL 4 4A8BL 4 BA158 600V/1A High Speed Rect. RU4 BA158 600V/1A TBYW362A/600V HSRD 200V/3A BA158 600V/1A 1N4148 150mA/100V 1N4148 150mA/100V 1N4148 150mA/100V 1N4148 150mA/100V Zener 5V1 1/2W 5% Zener 5V1 1/2W 5% Zener 5V1 1/2W 5% Zener 8V2 1/2W 5% Zener 8V2 1/2W 5% Zener 8V2 1/2W 5% Zener 8V2 1/2W 5% Zener 8V2 1/2W 5% Zener Diode 18V 1/2W Zener 8V2 1/2W 5% Zener Diode 18V 1/2W Zener 5V1 1/2W 5% Zener 3V9 1/2W 5% Zener 3V9 1/2W 5% Zener 8V2 1/2W 5% Zener 8V2 1/2W 5% Zener 8V2 1/2W 5% Zener 8V2 1/2W 5% Zener 8V2 1/2W 5% Zener 8V2 1/2W 5% Zener 8V2 1/2W 5% Zener 8V2 1/2W 5% 9965 100 09368 9965 100 13186 9965 000 40597 9965 000 40249 9965 000 40247 9965 100 04918 9965 100 05407 9965 100 05369 9965 000 40601 9965 000 40596 9965 100 04917 9965 000 40309 9965 000 40309 9965 100 07712 9965 100 09376 9965 000 40588 9965 000 40237 9965 000 40232 9965 000 40232 9965 000 40234 9965 000 41191 9965 000 40232 9965 000 40583 9965 000 40232 9965 100 04912 9965 000 40232 9965 000 40236 9965 000 40232 9965 000 40231 9965 000 40232 9965 000 40232 9965 100 07484 9965 100 13187 9965 100 13789 9965 100 05372 Tuner TDA9376PS/N3/A 8k-BIT IIC EEPROM KA33V L7808CV TDA4865AJ DBS7P W6556A SANKEN SE120N SANKEN (120V) PC817C Sharp TDA9859 TFA9842AJ PHILIPS HCF4052BF SGS HCF4052BF SGS TDA9850 (IIC Bus) LM78L09 2SD2553/3DD2553 1.7 2SC2717 2SC1815Y/2PC1815 2SC1815Y/2PC1815 2SC2482/3DG2482Y Trans. FQPF630 2SC1815Y/2PC1815 2SC2230Y/3DG2230Y 2SC1815Y/2PC1815 2SA1013 2SC1815Y/2PC1815 2SC2703-0/Y 2SC1815Y/2PC1815 2SA1015Y\2PA1015 2SC1815Y/2PC1815 2SC1815Y/2PC1815 Horizontal Drive Transf. BSC29 Flyback Transf. B+135V Switching Transformer ce A101 IC101 IC102 IC103 IC104 IC301 IC601 IC621 IC622 IC740 IC760 IC761 IC762 IC851 IC852 N401 Q101 Q106 Q107 Q401 Q440 Q621 Q622 Q623 Q624 Q625 Q626 Q703 Q760 Q761 Q851 T401 T402 T402 T603 CRT Panel [B] Various S501 ZD501 d D402 D403 D404 D430 D431 D433 D450 D451 D452 D603A D603B D603C D603D D605 D620 D621 D622 D623 D626 D627 D761 D762 D763 ZD101 ZD102 ZD103 ZD104 ZD106 ZD107 ZD108 ZD401 ZD402 ZD440 ZD602 ZD620 ZD621 ZD622 ZD703 ZD704 ZD705 ZD706 ZD707 ZD712 ZD713 ZD714 9965 100 10533 GZS10-2-AD EX 15-18k 9965 000 40224 Zener 8V2 1/2W 5% g C501 C502 C503 C504 C506 C508 C509 C901 C902 9965 000 40531 9965 000 40531 9965 000 40531 9965 000 41105 9965 100 13207 9965 100 04866 9965 100 13207 9965 000 40157 9965 000 40178 470pF 50V 470pF 50V 470pF 50V CerCap 0.001mF 2kV 4.7µF 0.001uF 5% 50V 4.7µF 0.1μF 50V 1μF 20% 50V Spare Parts List C903 C904 C906 C908 C909 C910 C911 C913 C914 C915 C916 C917 9965 000 41113 9965 000 40157 9965 000 40157 9965 000 40172 9965 000 40185 9965 000 40172 9965 000 40185 9965 000 40156 9965 000 40172 9965 000 40157 9965 000 40532 9965 100 04874 100μF 20% 25V 0.1μF 50V 0.1μF 50V 100μF 20% 16V 10μF 20% 250V 100μF 20% 16V 10μF 20% 250V 0.01μF 50V 100μF 20% 16V 0.1μF 50V CerCap 0.01μF 500V 470pF 10% 500V 9965 000 39998 9965 000 40000 9965 000 40491 9965 000 39998 9965 100 04858 9965 000 40517 9965 100 04856 9965 000 40525 9965 000 39998 9965 000 40000 9965 000 39998 9965 000 40491 9965 100 04858 9965 000 40517 9965 100 04856 9965 000 40525 9965 000 40000 9965 000 39998 9965 000 39998 9965 000 40491 9965 100 04858 9965 000 40517 9965 100 04856 9965 000 40525 9965 000 40503 9965 000 40492 9965 000 40101 9965 000 40489 9965 000 40493 9965 000 40106 9965 000 40487 9965 000 39988 9965 000 40006 9965 000 39988 9965 100 13205 9965 000 39998 9965 000 39998 9965 000 39992 9965 000 40115 9965 000 40115 9965 000 40708 9965 000 39993 9965 000 39992 9965 000 39993 9965 100 13206 9965 100 13204 9965 100 13206 9965 100 13204 9965 000 41084 9965 000 41084 9965 100 05218 9965 000 40304 9965 000 40686 9965 100 04847 CFR 22Ω 1/4W CFR 2.2kΩ CFR 270Ω 1W CFR 22Ω 1/4W 270Ω 5% 1W MOFR 15kΩ 220Ω 5% 1W CCR 2.7kΩ CFR 22Ω 1/4W CFR 2.2kΩ CFR 22Ω 1/4W CFR 270Ω 1W 270Ω 5% 1W MOFR 15kΩ 220Ω 5% 1W CCR 2.7kΩ CFR 2.2kΩ CFR 22Ω 1/4W CFR 22Ω 1/4W CFR 270Ω 1W 270Ω 5% 1W MOFR 15kΩ 220Ω 5% 1W CCR 2.7kΩ CFR 220kΩ 1W CFR 33Ω 0.25W CFR 3.3kΩ CFR 18kΩ 1W CFR 33kΩ 1W CFR 470Ω CFR 150Ω 1W CFR 1kΩ 1/4W CFR 330Ω CFR 1kΩ 1/4W 10Ω CFR 22Ω 1/4W CFR 22Ω 1/4W CFR 1.2kΩ CFR 68kΩ CFR 68kΩ CFR 12kΩ 1/4W CFR 1.5kΩ CFR 1.2kΩ CFR 1.5kΩ 56Ω 2.7Ω 56Ω 2.7Ω MOFR 180Ω MOFR 180Ω 56kΩ 5% 1/16-1/6W CFR 1KΩ 1/16W CFR 15kΩ 1/16W 560Ω 5% 1/16-1/6W 9965 000 40252 9965 000 40252 9965 000 41227 9965 000 41227 Peaking coil 10μH 10% Peaking coil 10μH 10% Bead 3.5 x 1 x 9mm Bead 3.5 x 1 x 9mm 9965 000 40218 9965 000 40219 9965 000 40218 9965 000 40219 9965 000 40218 9965 000 40219 9965 000 40218 9965 000 40218 9965 000 40218 9965 000 40218 1N4148 150mA/100V BA158 600V/1A 1N4148 150mA/100V BA158 600V/1A 1N4148 150mA/100V BA158 600V/1A 1N4148 150mA/100V 1N4148 150mA/100V 1N4148 150mA/100V 1N4148 150mA/100V f R501 R502 R503 R504 R505 R506 R507 R508 R510 R511 R512 R513 R514 R515 R516 R517 R520 R521 R522 R523 R524 R525 R526 R527 R528 R529 R901 R902 R903 R904 R905 R906 R907 R908 R909 R910 R911 R912 R913 R914 R915 R916 R917 R918 R919 R920 R921 R922 R923 R924 R925 R926 R927 R928 b L501 L900 L902 L903 d D501 D502 D503 D504 D505 D506 D901 D902 D903 D904 ce Q501 Q502 Q503 Q504 Q505 Q506 Q507 Q508 Q509 Q900 Q901 Q902 Q903 Q904 Q905 Q906 Q907 9965 000 40585 9965 100 05319 9965 100 05318 9965 000 40585 9965 100 05319 9965 100 05318 9965 000 40585 9965 100 05319 9965 100 05318 9965 000 40232 9965 000 40232 9965 000 40232 9965 000 40232 9965 000 40232 9965 000 40231 9965 000 41182 9965 000 41186 2SC4544/3DA4544Y BF423 PNP (-250V) BF422 NPN (250V) 2SC4544/3DA4544Y BF423 PNP (-250V) BF422 NPN (250V) 2SC4544/3DA4544Y BF423 PNP (-250V) BF422 NPN (250V) 2SC1815Y/2PC1815 2SC1815Y/2PC1815 2SC1815Y/2PC1815 2SC1815Y/2PC1815 2SC1815Y/2PC1815 2SA1015Y\2PA1015 Trans. 2SA1837 PA Trans. 2SC4793 PA Keyboard & Control Panel [D] Various P01 SW001 SW001 SW002 SW002 SW003 SW003 SW004 SW004 SW601 ZD01 9965 100 13790 9965 100 13485 9965 200 32736 9965 100 13485 9965 200 32736 9965 100 13485 9965 200 32736 9965 100 13485 9965 200 32736 9965 100 13202 9965 000 40224 RCA Jack YeWh Switch Switch Switch Switch Switch Switch Switch Switch Power switch Zener 8V2 1/2W 5% g CR1 9965 000 40171 10μF 20% 16V f R01 R02 R03 RD1 RD2 RD3 RD4 RD5 RR1 9965 000 39984 9965 000 40701 9965 000 40701 9965 000 39987 9965 000 40003 9965 000 39987 9965 000 40489 9965 000 39989 9965 000 39987 CFR 75Ω 1/16W CFR 47kΩ 1/16W CFR 47kΩ 1/16W CFR 100Ω CFR 2.7kΩ CFR 100Ω CFR 18kΩ 1W CFR 10kΩ 1/4W CFR 100Ω b LED M001 9965 100 13203 LED 5V Rd 3mm 9965 100 13201 IR Module HM336 SK5.1L CA 10. EN 47 EN 48 11. SK5.1L CA 11. Revision List Manual xxxx xxx xxxx.0 • First release. Revision List