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70GS-62S SERVICE MANUAL SESG70GS62S00 Issued: 30th May ‘01 GA-10 CHASSIS PAL BG SYSTEM COLOUR TELEVISION MODEL 70GS-62SDE / GG / IT In the interests of user safety (required by safety regulations in some countries) the set should restored to its original condition and only parts identical to those specified should be used. CONTENTS ELECTRICAL SPECIFICATION........................3 IMPORTANT SERVICE NOTES........................4 CONTROL & TERMINALS.................................5 ADJUSTMENTS PROCEDURES......................7 STEREO LED FLASHING CODES..................11 PRINTED WIRING BOARDS..........................12 CHASSIS LAYOUT...........................................16 COMPONENT LOCATION TABLES................16 ICs ADITIONAL INFORMATION.....................21 SCHEMATIC DIAGRAM..................................31 PARTS LISTING..............................................38 PACKING OF THE SET & ACCESSORIES....46 SHARP CORPORATION 1 This document has been published to be used for after sales service only. 70GS-62S SERVICE MANUAL UPDATE LOG SHEET Technical Report No. Technical Bulletin No. Cause / Solution Part No. Page No. Application Data /Serial No. Use this page to keep any special servicing information as Technical Report (Bulletin), Technical Information, etc. If only part number changes are required, just change part number directly the part number in the Parts Listing Section. If you need more information, please refer to the Technical Report (Bulletin). 2 70GS-62S ELECTRICAL SPECIFICATIONS •Focus ....................... High Bi-Potential Electrostatic •Power Input .................... 220V-240 Volts AC 50Hz •Sweep Deflection ..................................... Magnetic •Power Consumption Normal Operation ...................................87W Stand-by Operation ..................................1W •Picture Intermediate frequency................... 38.9MHz •Sound Carrier Trap................................... 33.4MHz •Adjacent Sound Carrier Trap ................... 40.4MHz •Audio Power Output Rating (MPO) / Impedance Internal Left Speaker ...................... 10W, 7Ω Internal Right Speaker .................... 10W, 7Ω •Adjacent Picture Carrier Trap.................. 31.9MHz . •Aerial Input Impedance VHF/UHF ...................... 75 ohm Unbalanced •Speakers Left / Right ...................................... 12 x 6cm •Convergence Static (Centre) ........ between any two colours Dynamic ..................... after static equals zero •Tuning Ranges........... 48.25 MHz thru 855.25 MHz VHF: E2-E12 CH S1-S41 CH (Hiperband) UHF: E21-E69 CH •White Level Set brightness control to get total picture tube cathode current of 600 milliammeter under no signal condition. Maximum necessary correction of each picture tube cathode current to get 8900 degrees K-20 MPCD screen temperature should not exceed 15% of its original value. X=0.290 Y=0.300 Specifications are subject to change without prior notice. MODEL DESTINATION & DIFFERENCES: 70GS-62SDE: Germany, Austria. Particular Operation Manual. 70GS-62SGG: Greece. No Operation Manual from Factory. Greek Teletext (NVM: Page 00, Position 95, Value: 03 70GS-62SIT: Italy. Particular Operation Manual. 05). WARNING The chassis in this receiver is partially hot. Use an isolation transformer between the line cord plug and power receptacle, when servicing this chassis. To prevent electric shock, do not remove cover. No user-serviceable parts inside. Refer servicing to qualified service personnel. 3 70GS-62S IMPORTANT SERVICING NOTES Only qualified service personnel are allowed to carry out maintenance and repair of this receiver. SERVICING OF HIGH VOLTAGE SYSTEM AND CRT It is important that the static charge is removed from the high voltage system when carrying out work on the receiver. This can be achieved by connecting a 10K resistor (with a suitably insulated lead) from the CRT cavity connector to the CRT ground tag. This must be carried out with the AC supply disconnected from the receiver. Note the following: • The CRT in this receiver employs Integral Implosion Protection. • If the CRT has to be changed it MUST be replaced with the correct type for continued safe working • DO NOT lift the CRT by its neck. • When handing the CRT, ensure that shatterproof goggles are worn. • Ensure that the CRT is discharge before handling. X-RAY This receiver is designed to keep any x-ray emission to an absolute minimum. Some fault conditions and servicing procedures may produce potentially hazardous x-ray radiation levels. This is a problem when in close proximity to the receiver for long periods of time. To reduce any risks associated with this, please observe the following precautions: 1. When undertaking any servicing on this chassis, DO NOT increase the EHT to more than 29.9 KV, (at a instantaneous beam current of 1300µΑ). 2. Ensure that during normal operation the EHT does not exceed 27KV±1.5KV (at a beam current of 1000µΑ). This level has been preset in the factory. Always check that this level has not been exceeded after carrying out any repair on the receiver. 3. DO NOT replace the CRT with any other type than that specified in the parts listing as this may cause excessive x-ray radiation. BEFORE RETURNING THE RECEIVER TO THE CUSTOMER In addition to the above checks, the following should also be carried out before returning the receiver to the customer. 1. Inspect all the leads to ensure that they are dressed correctly and that they are not obstructed or pinched by any other parts. 2. Ensure that all protective devices are in good condition. These will include nonmetallic control knobs, insulating fish papers, cabinets backs, compartment covers or shields, mechanical insulators, etc. 4 70GS-62S REMOTE CONTROL 1. TV Video 2. Power ON / OFF switch (VCR) TV 3. Digit buttons 0 ∼ 9 4. Flashback button Teletext 5. Colour button (green) 6. Colour button (red) 7. Volume Down/Cursor control Left 8. Menu button 20. 3. 1 2 3 TV 4 5 6 Teletext 7 8 9 9. 10. 11. 12. 13. 14. Reveal button List selector Store button Cancel button Top/ Bottom/Full button Reset button Video 15. 16. 17. 18. Rewind/picture search/reverse Play button Pause / Still button Stop button TV 19. TV / VIDEO selector 20. Channel call button 21. Single/Double entry Teletext 22. Colour button (yellow) 23. Colour button (blue) TV 24. 25. 26. 27. TV/Teletext 28. Time button TV 29. Sound mode selector Teletext 30. Hold button TV 31. Sound Mute button Teletext 32. Text/Mix button 33. Index button Video 34. 35. 36. 37. 4. 21. 0 5. 6. 22. 23. 24. CH 25. 7. CH MENU TV 26. 27. 8. 13. 14. 15. 16. 17. 18. 1. Stand-by ON/OFF switch (TV) TV/VIDEO VCR 19. 2. 9. 10. 11. 12. TV LIST ? X S I/II/I+II I i VCR CH G1061SA 28. 29. 30. 31. 32. 33. 34. 35. 36. 37. TV / VCR / TEXT REMOTE CONTROL 5 Channel Up/Cursor control Up Volume Up/Cursor control Right Channel Down/Cursor control Down TV button / Subtitle Channel Up selector Fast forward/picture search/forward Channel Down selector Record button 70GS-62S CONTROLS & TERMINALS FRONT TV 1. Main Power On/Off Switch 2. Power Indicator OPC 3. Program Selector (UP/DOWN) 4. Volume Buttons (UP/DOWN) 8 7 / I / II 6 6 5 CH 4 3 2 5. Remote Control Sensor 6. Sound Indicator 7. Remote Control Indicator 8. DOOR Behind the door 9. Headphone Socket (3.5 mm Ø / 16~600 ȍ) 9 HOW TO OPEN THE DOOR OPC Press the top of the door, opening it slightly. Hook your finger inside and pull open. REAR TV 3 RF Input 1. Antenna terminal 21-pin In/Out 2. 21-pin Euro SCART (RGB) 3. 21-pin Audio/Video (AV-1) With S-Video Input AV/TERMINAL SCART PERITELEVISION 2 6 1 1 70GS-62S ADJUSTMENT PROCEDURES All adjustments to this chassis, except for focus, are carried out in the service mode. • SERVICE MODE The service mode is provided to enable the engineer to correctly set up the receiver to the CRT fitted in the set. Note that these adjustments may vary from one receiver to another. To enter the service mode, carry out the following procedure. 1. Connect a test pattern to the antenna terminal. 2. Tune the receiver to this signal. 3. Turn the receiver off using the mains switch. 4. Press volume down and channel up buttons on the front of the receiver at the same time. See Fig.1. 5. Keeping these buttons pressed, turn the mains on. See Fig.1. 6. When the set starts up it will be in service mode. 7. Release the two buttons. • Use the channel up and down buttons to move between the options. • Use the volume control buttons to change the data. • To store the data, use the stand-by button on the remote control. • To exit the service mode, turn the receiver off using the mains switch. When the service mode is entered the following On Screen Display appears -SERVICE SOFTWARE AND HEXADECIMAL COUNTER DISPLAY: SW ON XXXX SW OFF XXXX HOURS ON XXXX The figures displayed in the XXXX locations are hexadecimal representations of the number of times that particular function has been executed. For example if the hexadecimal number displayed after SW ON was 0E4A, this would correspond to the receiver being turned on 3658 times. Adjustment menu: The following adjustments can be carried out in the service mode. • Horizontal Shift • East West Width • Pin Phase • Pin Amp • Corner Amplitude • Corner Symmetry • Vertical Linearity • Vertical Angle • Vertical Bow • Vertical Amplitude • S Correction • Vertical Shift • Red Gain • Green Gain • Blue Gain • Red Cut Off • Green Cut Off • Blue Cut Off • Alter NVM Page • Alter NVM Position • Alter NVM Value • Teletext Mix Mode Contrast • Teletext Contrast • OSD Contrast • DVCO Adjustment (Only PAL) • DVCO Adjustment (Only NTSC) • AGC Adjustment • Auto Installation On/Off 7 70GS-62S The following geometry adjustments can be carried out. Detailed instructions on how to execute these are given on the following pages Horizontal • Horizontal Shift • E-W Width • Pin Phase • Pin Amp • Corner Amplitude • Corner Symetry Vertical • Vertical Amplitude • S Correction • Vertical Shift • Vertical Linearity • Vertical Angle • Vertical Bow Just in case the TV set requires a full geometries adjustment, please proceed first with Vertical according to the above order, and after that, adjust Horizontal according to the above order. Horizontal Shift Adjust the horizontal shift so that the picture is centred. The effect of this adjustment is shown in figure 2. • When the volume up button is pressed, the picture moves to the right. • When the volume down button is pressed, the picture moves to the left. • Press the stand-by button on the remote control to store. Fig.2 E-W Width Adjust the E-W Width so that 9% over-scan is achieved. The effect of this adjustment is shown in figure 3. • When the volume up button is pressed, horizontal scanning increases. • When the volume down button is pressed, horizontal scanning decreases. • Press the stand-by button on the remote control to store. Fig.3 Pin Phase Adjust the Pin Phase so that the picture is symmetrical top and bottom. The effect of this adjustment is shown in figure 4. • When the volume up button is pressed, side pincushion changes. • When the volume down button is pressed, side pincushion changes. • Press the stand-by button on the remote control to store. Fig.4 Pin Amp Adjust the Pin Amplitude so that the picture is centred. The effect of this adjustment is shown in figure 5. • When the volume up button is pressed, side pincushion changes from pincushion to barrel shape. • When the volume down button is pressed, side pincushion changes from barrel shape to pincushion. • Press the stand-by button on the remote control to store. Fig.5 Corner Amplitude Adjust the Corner Amplitude so that the picture is centred. The effect of this adjustment is shown in figure 6. Note: This adjustment affects to upper and lower sides. • When the volume up button is pressed, side pincushion changes from pincushion to barrel shape. • When the volume down button is pressed, side pincushion changes from barrel shape to pincushion. • Press the stand-by button on the remote control to store. 8 Fig.6 70GS-62S Corner Symmetry Adjust the Corner Symmetry so that the picture is centred. The effect of this adjustment is shown in figure 7. Note: This adjustment affects to upper and lower sides. • When the volume up button is pressed, side pincushion changes from pincushion to barrel shape. • When the volume down button is pressed, side pincushion changes from pincushion to barrel shape. • Press the stand-by button on the remote control to store. Fig.7 Vertical Linearity Adjust the Vertical Linearity so that the upper and lower parts of the picture are symmetrical. The effect of this adjustment is shown in figure 8. • When the volume up button is pressed, the upper picture scanning decreases and the lower picture scanning increases. • When the volume down button is pressed, the upper picture scanning increases and the lower picture scanning decreases. • Press the stand-by button on the remote control to store. Fig.8 Vertical Angle Adjust the Vertical Amplitude so that the picture is centred. The effect of this adjustment is shown in figure 9 • When the volume up button is pressed, the vertical angle changes to right. • When the volume down button is pressed, the vertical angle changes to left. • Press the stand-by button on the remote control to store. Fig.9 Vertical Bow Adjust the Vertical Bow so that the picture is centred. The effect of this adjustment is shown in figure 10 • When the volume up button is pressed, the vertical bow changes to right. • When the volume down button is pressed, the vertical bow changes to left. • Press the stand-by button on the remote control to store. Fig.10 Vertical Amplitude Adjust the Vertical Amplitude so that the picture is over-scanned. The effect of this adjustment is shown in figure 11. • When the volume up button is pressed, the vertical size of the picture decreases. • When the volume down button is pressed, the vertical size of the picture increases. • Press the stand-by button on the remote control to store. Fig.11 S Correction Adjust the S Correction so that the picture symmetrical between the top, centre and bottom. The effect of this adjustment is shown in figure 12. • When the volume up button is pressed, the top and bottom scanning increases and the centre scanning decreases. 9 Fig.12 70GS-62S • When the volume down button is pressed the top and bottom scanning decreases and the centre scanning increases. • Press the stand-by button on the remote control to store. Vertical Shift Adjust the Vertical Shift so that the picture is centred. The effect of this adjustment is shown in figure 13. • When the volume up button is pressed, the picture moves down. • When the volume down button is pressed, the picture moves up. • Press the stand-by button on the remote control to store. Colour Adjustments Fig.13 To increase press volume-up button and to decrease press volume down button. The following adjustments should only be carried out when the CRT IC801 are replaced. RED CUT OFF GREEN CUT OFF BLUE CUT OFF G2, Cut Off and Gain Adjustments 1. Follow the procedure below to set the G2 1.1 Tune the set to the output of a signal generator (cross hatch pattern). 1.2 In the user menu, set contrast to 80/100 and brightness to 40/100. 1.3 Connect the oscilloscope to the red cathode and adjust G2 to read 140V on the sensor pulse as in the drawing: alter «X» coordinate. alter «Y» coordinate. alter «X» and «Y» coordinate. 3. Follow the procedure below to set the GAIN. 3.1 Using brightness and contrast buttons, select a luminance of ≈120 NITS. 3.2 Operate in Service Mode and select location RED GAIN, GREEN GAIN and BLUE GAIN, to obtain colour coordinates: X=0.290 ± 0.015 Y=0.300 ± 0.015 To increase press volume-up button and to decrease press volume down button. RED GAIN alter «X» coordinate. GREEN GAIN alter «Y» coordinate. BLUE GAIN alter «X» and «Y» coordinate. 140 V 3.3 Exit Service Mode and check colour coordinates «X» and «Y» at 20 and 120 NITS. It may be necessary to repeat procedure 2 and 3 of Colour Adjustments. CH1 gnd NOTE: Oscilloscope should be adjusted for vertical TV field trigger and synchronized with video signal. Changing NVM Data 2. Follow the procedure below to set the Cut Off. 2.1 Adjust G2. 2.2 Tune a white card. 2.3 Adjust colour to minimum. 2.4 Position colorimeter in the centre of screen. 2.5 Adjust brightness and contrast to obtain a luminance of ≈20 NITS. 2.6 Operate in Service Mode and select location RED CUT OFF, GREEN CUT OFF and BLUE CUT OFF, to obtain colour coordinates: X=0.290 ± 0.015 Y=0.300 ± 0.015 10 To change the data contained within the Non Volatile Memory, it is necessary to first select the page the data is stored in, then the position and finally to change the data itself. The procedure below outlines this process. 1. While on ALTER NVM PAGE, use the volume up/down buttons to change this data (data is shown in hexadecimal format). 2. Press the channel up button and ALTER NVM POSITION appears, use the volume up/down buttons to change this data (data is shown in hexadecimal format). 3. Press the channel up button and ALTER NVM VALUE appears, use the volume up/down buttons to change this data (data is shown in hexadecimal format). 70GS-62S 4. Once this data has been set, press the stand-by button to store. 5. If another NVM value has to be changed, use the channel down button to select the page or position and repeat as necessary. Note: DO NOT change any NVM data, unless you have been advised to do so by a Sharp representative. If data is incorrectly changed, serious damage may occur to the receiver. Contrast Adjustments STEREO LED FLASHING CODES. If the TV set does not work and the stereo led is flashing, follow the sequence according to the information below, as a guide to fault finding. 1. Unable to read or write into NVM: 66% ON, 33% OFF twice and OFF for a second. On Off Three types of contrast levels can be varied as listed below: • TELETEXT MIX MODE CONTRAST • TELETEXT CONTRAST • OSD CONTRAST 2. MSP failure: 66% ON, 33% OFF for three times and OFF for a second. Use the volume up/down buttons to adjust to a suitable level, then press the stand-by button to store. On Off DVCO Adjustment (PAL) Carry out the DVCO Adjustment (PAL) as shown below: 1. Receive a Phillips pattern signal. 2. While in the DVCO ADJUSTMENT (PAL) menu, press the stand-by button. 3. The adjustment will be carried out automatically and stored. 3. VCT failure: 66% ON, 33% OFF for four times and OFF for a second. On DVCO Adjustment (NTSC) No adjustment required. AGC Adjustment To correctly align the Automatic Gain Control, follow the procedure outlined below: 1. Tune the set into a pattern generator on CH10. 2. Adjust the signal strength of the pattern generator to 57 dB/uV 3. Enter the service mode. 4. Enter the AGC Adjustment menu. 5. Press the stand-by button on the remote control. 6. The adjustment will be carried out and stored automatically. Auto Installation On/Off To return the receiver to the original Auto Installation mode, using the volume up or down button, set the Auto Installation On/Off to On. This setting is automatically stored and when the receiver is turned on the next time it will start up in Auto Installation mode. 11 Off 70GS-62S F7315N4. MOTHER UNIT PWB. Component side. 25 S704 S705 OPC1 M1000 + LP701 VAR1 J4 24 J5 S703 + S702 J1 C701 J2 D701 C1019 L701 23 C737 D702 JF702 + JF65 3 D704 TRC C727 GND J16 + C706 C905 C704 C702 F701 FB702 FB701 D703 + C707 J35 J34 + J39 J38 F703 FB703 + J326 J40 1 L3 J67 C732 C901 R738 C731 + S701 D712 D749 R906 (H). T3.15AH 10 JF64 C904 R907 POR701 C798 8 T702 9 7 C914 17 6 L901 J37 18 11 (G) 5 19 R908 C712 2 12 R714 1 + (M) D719 1 D798 2 21 20 C726 C703 22 J65 FB501 IC501 R747 F702 C799 C711 R790 C526 + C720 C725 J68 + C730 R746 Q701 + 15 + 16 Q709 J74 + R553 J307 J153 L610 J213 R214 D605 C640 C520 R603 J239 D621 A C625 R651 J242 R531 C602 K 11 C627 R554 3 JF28 Q601 C 4 J275 J273 D613 3 C601 C620 D612 JF61 2 5 E 2 1 (F) TP602 R614 TP601 1 F601 C621 + F602 J296 C622 Y 0 1 X 2 3 4 5 6 12 7 8 9 10 C623 11 12 Page 13 3 6 J276 7 J272 5 C642 8 C630 C617 B C628 4 4 Q602 C603 9 JF27 J309 10 C619 5 R602 Q605 C613 DIP 2 R601 D607 1 J212 D610 FB603 D609 D602 12 J215 J216 R530 L609 D634 R609 J206 7 J217 C609 (L2) J207 D510 + T601 J322 J214 + 8 + 9 R629 C618 J142 J155 J149 D627 6 J151 J152 J148 R650 J205 R617 J15 J15 J15 J15 J16 J16 J16 J32 J16 J16 J165 5 + Q703 K (H) D611 C709 IC702 R J166 J16 L605 + D729 10 F704 C729 R R787 J117 K J118 D740 C511 R518 J122 D709 R723 R718 T701 IC703 C738 D736 IC705 11 L705 + C721 C796 D722 + C734 C710 C504 C735 Q702 12 + R503 J115 J116 C717 L501 C524 D721 Q502 C705 TP701 C733 + 13 R501 D720 R798 C713 R799 C728 + 14 70GS-62S F7315N4. MOTHER UNIT PWB. Component side. 25 QKITP7315BMN4 24 D1002 7 1 23 L318 C386 R359 C372 IC305 C373 JL1. + C377 C3309 + C1040 C355 (SA) J140 JL13 J203 J198 J201 + C222 J235 C801 8 C404 R202 J266 C205 J283 R252 J269 IF1 IF2 J263 R220 1 SF201 5 6 JL3 5 J284 J285 J286 7 5 33V IC202 J287 4 R219 L202 J238 J231 C204 J262 R223 J259 C316 + + + + X301 JF36 C624 J222 J223 J220 + J218 J221 + R618 + X201 J257 J282 J237 SF202 1 J268 R203 J279 J280 J281 J277 9 C201 JL8. + + L401 C318 10 J236 + I 11 C402 J197 J189 J193 J195 J190 J187 J234 J233 JF46 JF47 JF48 J225 J226 J227 J228 J230 + C317 C319 J232 C422 J219 J247 J248 J249 J251 J250 J243 J244 J245 J246 J253 IC708 JF32 B+ + C212 TP201 FB303 20 21 JL14 RGB C215 C301 16 17 18 19 13 J295 2 AS TU AGC L203 AV1 15 R213 JL13. AV1 (MO) 1 L403 3 DA FB302 CL + J276 J290 J289 1 + L402 J278 JL17. R631 D630 C643 JL12. C220 C320 JF63 J183 J180 J181 J224 C303 + C308 FB402 J202 J179 JF37 JF38 J171 JL1 JL7. C302 12 J194 J191 J192 J196 J169 (K) J139 J188 J184 J178 J176 J177 1 C311 + JF55 FB401 D1007 8 C309 R627 + C803 + + L801 02 C619 L602 J133 J172 C1027 13 12 JF54 C809 C221 J125 L1007 J126 C1016 C312 14 14 J137 FB801 (AV). . F7315BMN4 C304 1 (SB) J113 J138 J182 JL17 C626 J114 J56 J109 J111 J59 J108 L1001 J328 J136 C805 C330 JF62 C3308 + J99 15 J97 J98 J91 J92 J94 J96 J127 C1001 + IC1002 J107 J105 J106 J103 J95 J44 J45 J47 R1036 J88 J89 J90 L1004 J83 + J173 JL8 16 1 C1005 C1006 JL12 X1002 J170 R652 1 + J82 J93 + IC501 J110 R387 L301 R629 J62 + + (RT) J102 J217 Page 12 6 17 K7315BM J158 J159 J157 J160 J162 J163 J321 J161 J164 J165 13 C3310 J55 J52 IC302 J61 C909 . R355 C1031 J310 C1041 J156 75 + C368 L315 + + + C365 IC301 R936 C363 . IC901 C378 J100 J166 J167 5 19 18 C351 1 17 20 L316 C370 C358 21 C392 L353 C356 L351 J30 R337 (SP) ESPA¥A 5 22 1 C361 C376 C353 R738 C524 IC304 + L352 J23 8 J24 C362 1 C916 (H). D903 1 (AV) 1 (K). R908 F7316BMN4 9 K7316BM L350 1 G2 J18 J17 J13 R358 J9 D901 J16 C902 JL7 C389 C388 J20 J19 R904 L302 L303 C915 C905 4 J401 C1019 (VS) TRC 1 CN4 2 6 JF702 0 5 3 E C JL14. J5 D1001 Q708 22 1 TN201 23 Y 24 25 X 70GS-62S F7315N4. MOTHER UNIT PWB. Copper side. 23 21 J5 Q1002 R1013 J6 R1015 R1014 C905 R904 IC1002 C1038 18 17 D903 R935 L1007 JF70 J10 R1010 C305 C306 D303 J81 R370 C327 R652 D622 R628 JF29 Q609 L402 R414 K D628 J311 (MO) D421 1 K J299 R410 R417 C403 J297 K R412 16 D405 R420 J300 R411 K K D410 D406 R421 J301 R419 D426 R418 D422 K R415 D403 D404 J278 R406 D420 R407 R318 14 R405 K D408 R409 R327 C348 19 K D623 K R630 L403 Q404 R413 K K K C345 C320 IC303 C308 C307 R311 J279 D409 G K R312 Q405 K R369 J126 J125 R1026 D1008 C1012 J168 J130 J129 J172 J298 JF37 C916 R902 R934 J82 J80 J85 R1024 Q1008 J133 J310 R901 C906 C1049 J83 J128 J86 J84 JF66 C1041 J90 R450 R434 C319 R313 C318 J282 C339 R322 C326 JF1 C324 C323 C322 C321 R310 C316 K J16 D901 IC901 R923 Q904 R903 R918 R917 Q902 J89 J88 R1036 J97 J96 J94 J92 J91 C302 C309 C310 J252 J254 J255 C741 C325 J277 R408 C337 K D423 D424 K 20 R922 Q909 R921 R920 Q908 Q905 R911 R925 Q903 J42 J43 J48 J98 JF38 R305 R304 D304 JF50 JF48 JF47 JF46 R303 C431 J221 J223 J222 C424 C341 C428 C427 1 R323 C346 C343 C344 J305 R319 C340 R324 D425 R325 KD407 C347 R326 J171 C802 R1011 J179 C1020 J225 C422 R204 J229 C423 J243 L401 D411 K R320 C429 JF25 C301 C342 + Q1003 R1037 Q707 (VS) R931 R933 R927 L350 C362 C358 C352 J47 J45 J44 J95 R801 J175 C523 C1042 D1005 J230 J228 J227 J226 J231 J261 J260 C338 C430 R766 C221 22 JF26 J288 J290 J289 R416 JF24 C212 FB302 C215 L203 TN201 R914 C354 R383 R352 J51 C1031 R385 J52 J103 R1003 L1006 R625 R1016 J233 J232 R203 R206 R222 C209 R210 J263 R211 J265 J264 C214 D204 D205 R217 J304 D1002 R757 C388 C356 C360 L351 JF13 (SP) C361 C365 L1003 C1060 C1051 R1041 J186 Q1001 JF10 C217 C210 R212 D203 C211 J267 IC708 J291 J302 R213 AS JF9 R225 + JF8 J295 J187 C205 J266 JF59 R220 R240 24 80 JF58 C623 15 14 13 Page 15 K 1 25 X 1 D723 K J245 J256 J280 J281 J283 C543 R321 L301 + C330 + J257 J284 J285 J286 + K R307 J217 C329 R308 C328 R309 R435 DA Y J244 J246 J253 J287 JF23 C213 2 D302 R306 + C311 J219 J247 J248 J249 R230 J251 J250 Q202 J292 25 24 R301 + R221 IC202 + K JF4 J258 C208 R208 K R1009 K K R1035 R302 D1006 D305 K B+ CL C203 + Q1006 R509 J158 J159 J157 J160 J162 J163 J321 J161 C313 J164 J165 32 K J173 R C524 + R209 K JF7 3 C219 J170 1 (K) JF71 + C218 IC1009 JF44 C505 J124 C506 C507 C510 C502 C503 J156 1 R804 + J294 C202 C206 K + R422 Q403 IC201 + L205 D202 IF1 IF2 J270 D1004 R205 Q201 X201 C207 JF5 R219 J234 SF202 D201 JF6 J189 J196 Q204 C801 C220 J238 R252 R207 6 5 C407 C803 R803 J74 J166 J167 L801 + + C404 C433 R201 J174 + R802 R1034 C216 R231 C201 D1009 C1021 K K J177 R1006 K R1040 J176 C1048 JF43 C1028 J185 + J269 J271 J193 J190 J197 R1008 R1020 C223 J237 7 C1036 J134 R1023 J J79 17 K J329 C521 D1007 J178 R624 1 Q1007 JF72 L1008 C1014 C1015 C804 C408 C409 C224 K D1003 J203 J204 8 J182 L1005 J236 + JF69 R1007 J235 J319 Q1005 C402 C222 C432 J99 C1032 + J192 JF68 C1024 C225 K R1025 C1013 R1022 R909 Q901 C911 + JF67 J87 16 C1011 J318 + 9 C1010 J188 1 C904 C907 R738 1 C1018 C1017 FB402 J194 J191 J202 10 C1009 + IC1001 FB401 R912 J312 R1005 J102 C1008 C1006 R1018 R908 R905 D902 R423 JF55 C908 J316 K J139 J317 J315 C809 JF54 11 J50 J101 R1004 R919 R913 R910 C910 J313 J104 J107 J106 J105 J108 R1001 Q305 C1003 R361 FB801 C363 9 Q907 R916 Q906 R915 + D1011 L1002 C1033 J140 J137 R1002 12 J100 C1037 C1030 IC1004 C1001 (SA) R387 J136 12 JF15 JF12 R381 J53 C366 J55 L1001 J111 J109 J56 J59 J113 (SB) J114 IC1003 J138 6 C351 C810 C1034 13 + J328 J112 C1002 14 C370 C353 C369 C367 C3305 C378 R346 R345 J61 J62 R355 R362 + J46 C364 K R384 J314 + J49 C350 R926 Q306 R343 C1007 R351 + J57 R932 R350 + C368 C1004 15 R380 J54 C374 C3313 J110 C359 C915 Q910 J17 R382 C357 D100 JF702 C912 R353 C376 J27 J26 J25 R356 C379 16 4 C375 J31 C371 R347 J60 L352 Q706 J9 L318 JF18 J30 L316 C377 C3304 C3302 C3303 R344 C373 C3301 C355 C1046 J20 1 C R755 J19 J18 + C3300 R357 J21 JF17 + J63 R386 17 J58 + 18 J64 R341 C395 C396 C394 R340 C393 R359 J29 + 19 J308 + 20 J32 C1045 R360 J33 21 C397 C399 C398 R342 R337 R330 C385 L303 JF14 J23 J24 C1043 C1044 R339 J22 R358 J28 8 R331 C382 R334 C384 R336 C383 L302 R335 1 IC304 C390 JF53 C405 D306 JF39 R333 C387 E R338 C381 R329 J14 Q708 J11 J401 C391 J93 J15 JF19 R328 R332 V JF52 L317 C317 CN4 J7 J8 + 23 R758 K C380 JF16 24 22 K D724 D727 R756 25 70GS-62S F7315N4. MOTHER UNIT PWB. Copper side. R1033 R765 LP701 D701 D702 + C727 C726 C703 22 3 12 11 (G) F701 J35 R789 R710 JF57 R790 R786 Q721 R753 J66 D714 C711 R799 R721 K Q723 C721 C710 R731 D730 R779 R720 K D725 9 R729 C716 D733 C718 R781 C719 C724 R726 Q713 R778 R719 D743 D737 R622 D615 Q606 R650 D635 R725 J115 R793 R792 Q714 R739 C722 R744 R773 R772 R749 D746 C730 C725 D705 Q1004 R1039 D706 R737 + Q725 K D738 K D708 8 J206 D634 D602 1 6 2 J325 11 JF28 JF27 Q603 10 Q604 Q608 4 T601 K K D619 Q601 D620 4 9 5 8 6 JF1009 R610 5 3 3 7 9 JF1015 1 F7315BMN4 F602 JF1003 JF1002 JF1001 JF61 D612 R614 JF1008 JF1007 JF1006 JF1005 JF1004 2 C620 C621 10 10 7 D613 J296 C613 + C622 C623 D729 12 JF1014 D628 D510 C520 R530 D609 J327 R645 D629 D736 R654 F601 K 11 J273 J272 2 Q715 R704 R727 K D739 R607 C603 (F) R700 L606 JF1013 JF1012 JF1011 JF1010 1 C628 R724 D718 K R653 L609 C642 C630 K D716 K D606 R608 R620 D618 R616 C617 J274 C608 K R612 K 12 C723 D731 J141 D713 K K K K D624 C605 JF34 C612 D617 J306 R703 D741 Q704 F702 R747 K D632 J309 D604 C540 J241 JF33 Q610 B D621 K K D732 Q724 K K E R760 K JF35 D633 R644 KC541 R621 C627 R628 D631 D607 C641 K K D717 D734 R722 K C738 J143 + 13 Q611 K K R554 S D616 R626 C632 K R617 J239 R639 D636 D C604 R635 C625 C629 R633 J210 Q605 R643 C631 J145 R656 C618 J208 C607 R604 C610 R637 IC703 IC705 + R638 IC601 R655 D625 J216 R780 C740 R623 Q613 R215 J323 C606 D750 R740 J209 K K G R250 R632 R634 K C798 D742 JF701 R551 J69 R794 R795 D626 D512 R369 D608 K R741 14 D735 K J116 R723 R728 R768 R732 K + J215 D748 K 5 + R798 C715 J146 Q607 + D740 R + C739 R743 C735 D728 IC702 R742 J324 C713 R718 R717 R745 C736 R611 J307 J293 J214 15 C705 K K K Q711 L610 J213 R214 01 K R735 J322 307 17 J147 R736 R733 J151 J152 J155 J164 J165 R751 R783 R784 R713 Q705 D749 C799 + R776 J148 J153 16 R791 Q796 R761 R777 L705 R505 + C729 R503 D508 R767 17 K R506 J122 J123 B K J158 J159 J157 J160 62 63 S701 + C511 Q502 Q503 156 18 R709 D507 R547 + E D511 K R750 D712 R716 K K R509 R711 R788 R526 R508 C512 C524 6 7 JF65 C701 C702 R714 C706 R705 F703 J38 J71 J39 R759 K Q510 Q505 R528 R504 R517 R507 K D707 J65 R746 POR701 Q720 + Q507 R514 J121 R511 R510 J67 D744 K C525 R552 R515 J119 R502 JF64 19 R513 R545 6 7 0 2 3 J120 C508 R516 5 R652 J70 K R752 R748 + J303 R550 C534 J73 IC502 R549 R512 Page 14 FB701 FB702 C914 L901 R907 R544 D747 C522 C550 J76 J80 R535 R534 13 D703 D719 5 6 7 8 9 + J77 C542 J75 + R754 2 R715 R785 JF1016 12 11 J41 D903 R935 J81 + K R548 20 + C731 J72 + 4 L3 Q709 J78 R782 R701 K K D906 (H). C901 1 J36 Q712 J37 D715 K 1 + C712 D905 J326 J79 D798 . F7316BMN4 R708 K R906 21 2 1 IC701 J40 8 C704 R706 10 C904 (M) R712 D904 8 23 R770 D704 GND J16 C913 R774 24 S702 R771 C737 R1044 S703 S704 R1046 R1045 VAR1 J1 R1031 JF3 + J3 D1001 S705 JF60 J320 J6 C1022 C1019 + R1099 J4 JF20 R1017 C1050 R1032 R1043 J2 J5 + R1013 JF21 IC1008 R1030 25 M1000 . Y 8 7 6 15 5 4 3 2 0 1 X 70GS-62S F7315N4. CHASSIS LAYOUT. PTC UNIT (F7347N0) PWB & COMPONENT LOCATION TABLES. Component Side. 5HI1R '* 5 5 4 Component Side. Copper Side. 4 F7347BMN0 C1701 + C1702 2 D1702 D1701 D1702 POR1701 K R1701 4 6 IC708 R1704 R1701 1 3 + C1701 R1704 3 Q1701 R1703 JL23 (DG) 3 0 X Y 1 2 2 1 & ' -/ -/ 325 5 Copper Side. 1 POR1701 1 Y <XP 5 2 1 R1702 (DG) ;XP 0 X 16 5HI1R & ;XP <XP ' ,& 4 5 5 70GS-62S MOTHER UNIT (F7315N4) PWB COMPONENT LOCATION TABLES. Component Side. 5HI1R $9 ;XP <XP 5HI1R & ;XP <XP 5HI1R & ;XP <XP 5HI1R ,& ;XP <XP 5HI1R - ;XP $9 & <XP 5HI1R - ;XP <XP & ,& - - ) & & ,& - - * & & ,& - + & & ,& - - + & & ,& - - . & & ,& - - . & & ,& - - 0 & & ,& - - - 02 57 & & & & ,& ,& - - - - 6$ 6% & & & & ,& ,& - - - - 63 & &1 ,& - 96 & ' - $9 & ' - & & ' - & & ' & & ' & & & & ' ' & & & & & & & & & & & & & - - - - - - - - - - - - - - - - - - ' ' - - - - - - ' - - - ' - - - ' - - - & ' - - & & ' ' - - - - - - & & & & ' ' - - - - - - & & ' - - - & & ' - - - & & & & ' ' - - - - - - & & & & ' ' - - - - - - & & & & ' ' - - - - - - & & & & ' ' - - - - - - & & & & ' ' - - - - - - & & & & ' ' - - - - - - & & & & ' ' - - - - - - & & & & ) ) - - - - - - & & & & ) ) - - - - - - & & & & ) ) - - - - - - & & & & )%$ )% - - - - - - & & & & )% )% - - - - - - & & & & )% )% - - - - - - & & & & )% )% - - - - - - & & & & )% )% - - - - - - & & & & )% * - - - - 17 - - - - 70GS-62S MOTHER UNIT (F7315N4) PWB COMPONENT LOCATION TABLES. Component Side 5HI1R - ;XP <XP 5HI1R / ;XP <XP 5HI1R 5 - / 5 - / 5 - / 5 - / 5 - / 5 - / 5 - / 5 - / 5 - - / / 5 5 - - / / 5 5() - /3 5() - 0 6 Copper Side 5HI1R ;XP <XP 73& 73& 73& <XP & & & & & & & & & & 73& 73& & & 73& 73& 73& 73& & & & & & & & & 73& 73& & & 73& 73& & & & & & 73& 73& & & & & & 73& 73& 73& 73& 73& 73& & & & & & & 73& 73& 73& 73& 325 6 -) 4 6 -) 4 6 -) 4 6 -) -) 4 4 6) 6) -) -) 4 4 7 7 -) 4 7 -) 4 -) 4 73& -) 4 73& 73& 73& -) -) 4 5 73& 73& -) -) 5 5 -) 71 73& 73& ;XP <XP 5HI1R & ;XP -) ;XP <XP 5HI1R & & & 73& 73& 73& 73& 73& 73& 5 73& -) 5 73& -) -) 5 5 73& 73& -/ -/ 5 5 73& 73& -/ -/ 5 5 73& 73& -/ -/ 5 5 73& 73& -/ -/ 5 5 73& 73& -/ -/ 5 5 73& 73& -/ -/ 5 5 -/ -/ 73& 73& 9$5 ; ; ; -/ / 5 5 73& 73& / / 5 5 73& 73& / / 5 5 73& 73& / / 5 5 73& 73& / / 5 5 73& 73& / / 5 5 / / / / & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & & 73& 73& & & & & 5 5 73& 73& & & & & 5 5 73& 73& & & & & 5 5 73& 73& 73& 73& 73& 73& 73& 73& 73& 73& 73& 73& 73& 75& 18 & & & & & & & & & & & & & & & & 70GS-62S MOTHER UNIT (F7315N4) PWB COMPONENT LOCATION TABLES. Copper Side. 5HI1R & ;XP <XP 5HI1R ' ;XP & ' ' ' ' ' ' ' ' ' ' ' ' & ' ' ' & & ' ' & & & & & & & & & & & & & ' ' & ' ' ' & & & & & & & & & & & & & ' ' ' & ' ' ' ' ' ' ' ' & & ' ' ' & & & & & & & & & & 5HI1R <XP ' ' ' ' ' ' ' ' ' <XP 5HI1R - ;XP <XP 5HI1R - ;XP <XP 5HI1R -) ;XP <XP - - -) - - -) ' ' - - -) - - -) ' ' - - -) - - -) ' ' ' ' - - - ' ' ' ,& ,& ,& ,& ,& ,& ,& ;XP - -) -) - - -) -) - - - - -) / - - / - - / - -) / - / - - -) - -) / - -) / - - -) -) / 4 ,& - - - - - -) -) 4 4 - -) 4 - -) 4 - - - - - -) 4 - -) 4 - - -) -) 4 4 - - - - - - -) -) 4 4 - -) 4 - -) 4 - - - - - - -) -) 4 4 - - -) -) 4 4 -) -) 4 4 -) -) 4 4 - - -) -) 4 4 - - - - - - - - - - ' ' ' ' - - - - - - -) -) 4 4 - - -) -) 4 4 ' ' ' ' - - - - - - -) -) 4 4 - - -) -) 4 4 ' ' ' ' - - - - - - -) -) - - ' ' ' ' ' ' - - - - ' ' ' ' ' ' & & & & & ' ' ' ' ' ' ' 4 4 -) -) 4 4 - - -) -) 4 4 - - -) -) 4 4 - - - - - - -) -) 4 4 ' ' ' ' - - -) -) 4 4 ' ' - - - - 19 -) -) 4 4 70GS-62S MOTHER UNIT (F7315N4) PWB COMPONENT LOCATION TABLES. Copper Side. 5HI1R 4 ;XP <XP 5HI1R 5 ;XP <XP 5HI1R 5 4 5 5 4 5 5 4 5 4 5 4 5 4 ;XP 5HI1R <XP 5 ;XP <XP 5 5 5 5 <XP 5HI1R 5 ;XP 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 20 70GS-62S ICs ADITIONAL INFORMATION: TDA9885 (IC201) QUICK REFERENCE DATA SYMBOL PARAMETER VP supply voltage IP supply current Vi(VIF)(rms) VIF input signal voltage sensitivity (RMS value) GVIF(cr) fVIF CONDITIONS note 1 MIN. TYP. MAX. UNIT 4.75 5.00 5.50 V 52 61 70 mA −1 dB video at output − 60 100 µV VIF gain control range see Fig.10 60 66 − dB vision carrier operating frequencies see Table 28 − 33.4 − MHz − 33.9 − MHz − 38.0 − MHz − 38.9 − MHz − 45.75 − MHz − 58.75 − MHz − ±2.3 − MHz ∆fVIF VIF frequency window of digital acquisition help related to fVIF; see Fig.7 Vo(v)(p-p) video output signal voltage (peak-to-peak value) normal mode; see Fig.9 1.7 2.0 2.3 V trap bypass mode; see Fig.9 0.95 1.10 1.25 V differential gain “CCIR 17”; note 2 B/G standard − − 5 % L standard − − 7 % − 2 4 deg Gdif ϕdif differential phase “CCIR 17” Bv(−3dB)(trap) −3 dB video bandwidth including sound carrier trap CL < 20 pF; RL > 1 kΩ; AC load; note 3 ftrap = 4.5 MHz 3.95 4.05 − MHz ftrap = 5.5 MHz 4.90 5.00 − MHz ftrap = 6.0 MHz 5.40 5.50 − MHz 5.50 5.95 − MHz M/N standard 30 36 − dB B/G standard 30 36 − dB ftrap = 6.5 MHz αSC1 trap attenuation at first sound carrier S/NW weighted signal-to-noise ratio of video signal see Fig.5; note 4 56 59 − dB PSRR17 power supply ripple rejection at pin 17 fripple = 70 Hz; video signal; grey level; positive and negative modulation; see Fig.8 20 25 − dB Bv(−1dB) −1 dB video bandwidth CL < 20 pF; RL > 1 kΩ; AC load; trap bypass mode 5 6 − MHz AFCstps AFC steepness ∆I21/∆f 0.85 1.05 1.25 µA/kHz Vo(AF)(rms) audio output signal voltage at pin 8 (RMS value) 27 kHz FM deviation; 50 µs de-emphasis 430 540 650 mV THDaudio total harmonic distortion of audio signal 27 kHz FM deviation; 50 µs de-emphasis − 0.15 0.50 % AM; m = 54% − 0.5 1.0 % 21 70GS-62S ICs ADITIONAL INFORMATION: TDA9885 (IC201) SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT BAF(−3dB) −3 dB audio frequency bandwidth for FM without de-emphasis; dependent on loop filter at pin 4 80 100 − kHz S/NW(audio) weighted signal-to-noise ratio of audio signal 27 kHz FM deviation; 50 µs de-emphasis; vision carrier unmodulated 52 56 − dB AM; m = 54% 45 50 − dB αAM(sup) AM suppression of FM demodulator 50 µs de-emphasis; AM: f = 1 kHz; m = 0.54 referenced to 27 kHz FM deviation 40 46 − dB PSRR8(AM) power supply ripple rejection at pin 8 fripple = 70 Hz; see Fig.8 20 26 − dB PSRR8(FM) power supply ripple rejection at pin 8 fripple = 70 Hz; see Fig.8 14 20 − dB Vo(rms) IF intercarrier level (RMS value), valid also for radio QSS mode; SC1; sound carrier 2 off 90 140 180 mV L standard; without modulation 90 140 180 mV intercarrier mode; SC1; sound carrier 2 off − note 5 − mV fref frequency of reference signal at pin 15 note 6 − 4 − MHz Vref(rms) amplitude of reference signal source (RMS value) operation as input terminal 80 − 400 mV Notes 1. Values of video and sound parameters can be decreased at VP = 4.75 V. 2. Condition: luminance range (4 steps) 0 to 80%. 3. The sound carrier frequencies (depending on TV standard) are attenuated by the integrated sound carrier traps (see Figs 16 to 21; H (s) is the absolute value of transfer function). 4. S/N is the ratio of black-to-white amplitude to the black level noise voltage (RMS value, pin 17). B = 5 MHz weighted in accordance with “CCIR 567”. 5. The intercarrier output signal at pin 12 can be calculated by the following formula taking into account the internal video signal with 1.1 V (p-p) as a reference: 1 V o(intc)(rms) = 1.1 V (p-p) × ----------- × 10 2 2 where: V i ( SC ) --------------- ( dB ) + 6 dB ± 3 dB V i ( PC ) ---------------------------------------------------------------20 V i ( SC ) 1 ----------- = correction term for RMS value, --------------- ( dB ) = sound-to-picture carrier ratio at VIF input (pins 1 and 2) in dB, V i ( PC ) 2 2 6 dB = correction term of internal circuitry and ±3 dB = tolerance of video output and intercarrier output amplitude Vo(intc)(rms). 6. The reference input pin 15 is able to operate as a 1-pin crystal oscillator as well as input terminal with external reference signal, e.g. from the tuning system. 22 23 18 AGND 20 VP SUPPLY n.c. 13 (1) Not connected for TDA9885. SIF1 23 SIF2 24 VIF1 1 VIF2 2 CBL 16 VAGC VIF-AGC CAGC neg 14 TUNER AGC 9 TOP TAGC VPLL VIF-PLL 19 RC VCO CAGC SIF-AGC OP1 3 OUTPUT PORTS 22 OP2 SCL 11 SDA 10 12 AFC 21 FM-PLL filter FMPLL 4 NARROW-BAND FM-PLL DETECTOR AUDIO PROCESSING AND SWITCHES 4.5 to 6.5 MHz VIDEO TRAPS sound intercarrier output and MAD select DGND SIOMAD 7 I2C-BUS TRANSCEIVER MAD 4 MHz crystal AFC DETECTOR REF 15 or external reference DIGITAL VCO CONTROL TDA9885 SINGLE REFERENCE QSS MIXER/ INTERCARRIER MIXER AND AM-DEMODULATOR (1) CVAGC pos VIF-PLL filter 6 AFD CAF de-emphasis network 5 DEEM 8 AUD 17 CVBS video output 2 V (p-p) [1.1 V (p-p) without trap] 70GS-62S ICs ADITIONAL INFORMATION: TDA9885 (IC201) BLOCK DIAGRAM 70GS-62S ICs ADITIONAL INFORMATION: TDA9885 (IC201) PINNING SYMBOL PIN DESCRIPTION SYMBOL PIN DESCRIPTION VIF1 1 VIF differential input 1 TAGC 14 tuner AGC output VIF2 2 VIF differential input 2 REF 15 4 MHz crystal or reference input OP1 3 output 1 (open-collector) VAGC 16 VIF-AGC for capacitor; note 1 FMPLL 4 FM-PLL for loop filter CVBS 17 video output DEEM 5 de-emphasis output for capacitor AGND 18 analog ground AFD 6 AF decoupling input for capacitor VPLL 19 VIF-PLL for loop filter DGND 7 digital ground VP 20 supply voltage (+5 V) AUD 8 audio output AFC 21 AFC output TOP 9 tuner AGC TakeOver Point (TOP) OP2 22 output 2 (open-collector) 10 I2C-bus data input/output SIF1 23 SIF differential input 1 SCL 11 I2C-bus clock input SIF2 24 SIF differential input 2 SIOMAD 12 sound intercarrier output and MAD select n.c. 13 not connected SDA Note 1. Not connected for TDA9885. handbook, halfpage handbook, halfpage VIF1 1 24 SIF2 VIF1 1 24 SIF2 VIF2 2 23 SIF1 VIF2 2 23 SIF1 OP1 3 22 OP2 OP1 3 22 OP2 FMPLL 4 21 AFC FMPLL 4 21 AFC DEEM 5 20 VP AFD 6 20 VP DEEM 5 19 VPLL 19 VPLL AFD 6 DGND 7 TDA9885T TDA9886T 18 AGND TDA9885TS DGND 7 TDA9886TS 18 AGND AUD 8 17 CVBS AUD 8 17 CVBS TOP 9 16 VAGC(1) TOP 9 16 VAGC(1) SDA 10 15 REF SDA 10 15 REF SCL 11 14 TAGC SCL 11 14 TAGC SIOMAD 12 13 n.c. SIOMAD 12 MXXxxx 13 n.c. MXXxxx (1) Not connected for TDA9885. (1) Not connected for TDA9885. Fig.2 Pin configuration for SO24. Fig.3 Pin configuration for SSOP24. 24 70GS-62S ICs ADITIONAL INFORMATION: TDA7480 (IC301, IC302, IC501) ABSOLUTE MAXIMUM RATINGS Symbol Parameter VCC Tstg, Tj DC Supply Voltage VFREQ Maximum Voltage Across VFREQ (Pin 9) Top ESD Operating Temperature Range Storage and Junction Temperature Value Unit ±20 –40 to 150 °C 8 V -20 to 70 °C ±1.8 kV Maximum ESD on Pins Rth with "on board" Square Heatsink vs. copper area. PIN CONNECTION (Top view) Rthj-a (˚C/W) -VCC 1 20 -VCC -VCC 2 19 -VCC -VCC 3 18 -VCC OUT 4 17 -VCC BOOTDIODE 5 16 +VCC POW BOOT 6 15 VREG N.C. 7 14 +VCC SIGN FEEDCAP 8 13 N.C. FREQ 9 12 STBY/MUTE 10 11 IN SGN-GND V D97AU675 COPPER AREA 35µ THICKNESS 60 PC BOARD 50 40 D96AU537B 30 0 4 8 12 Area(cm2) THERMAL DATA Symbol Parameter Rth j-amb Thermal Resistance Junction to ambient Rth j-pin Thermal Resistance Junction to Pin Max. PIN FUNCTIONS N. Name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 -VCC -VCC -VCC OUT BOOTDIODE BOOT NC FEEDCAP FREQUENCY SGN-GND IN ST-BY-MUTE NC +VCC SIGN VREG +VCC POW -VCC -VCC -VCC -VCC Function NEGATIVE SUPPLY. NEGATIVE SUPPLY. NEGATIVE SUPPLY. PWM OUTPUT BOOTSTRAP DIODE ANODE BOOTSTRAP CAPACITOR NOT CONNECTED FEEDBACK INTEGRATING CAPACITANCE SETTING FREQUENCY RESISTOR SIGNAL GROUND INPUT ST-BY/ MUTE CONTROL PIN NOT CONNECTED POSITIVE SIGNAL SUPPLY 10V INTERNAL REGULATOR POSITIVE POWER SUPPLY NEGATIVE SUPPLY (TO BE CONNECTED TO PIN 16 VIA C5) NEGATIVE SUPPLY NEGATIVE SUPPLY NEGATIVE SUPPLY 25 Value Unit 80 °C/W 12 °C/W 70GS-62S ICs ADITIONAL INFORMATION: TDA7480 (IC301, IC302, IC501) ELECTRICAL CHARACTERISTICS (Refer to the test circuit, VCC = ±14V; RL = 8Ω; RS = 50Ω; Rf = 12KΩ; Demod.. filter L = 60µH, C = 470nF; f = 1KHz; Tamb = 25°C unless otherwise specified.) Symbol Parameter Test Condition Min. Supply Range VOS Output Offset Voltage Play Condition –50 PO Output Power THD = 10% THD = 1% 8.5 6 RL = ∞; NO LC Filter Total Quiescent Current Unit 25 ±16 40 mA +50 mV RL = 4Ω VCC = ±10.5V THD = 10% THD = 1% 10 7 W W 1 W 1.8 W 85 % 0.1 % 5 A 150 °C Rf = 12KΩ PΟ = 1W PDMAX Maximum Dissipated Power PΟ = 10W THD 10% Rth-j-amb = 38°C/W (Area 12cm2) PO PO (**) ≡ PO + PD PI THD 10% Rth-j-amb = 38°C/W (Area 12cm2) THD Total Harmonic Distortion RL = 8Ω; PO = 0.5W Imax Overcurrent Protection Threshold RL = 0 Tj Thermal Shut-down Junction Temperature GV eN Closed Loop Gain Total Input Noise 80 3.5 29 A Curve f = 20Hz to 22KHz Ri SVR Input Resistance Supply Voltage Rejection Tr, Tf Rising and Falling Time RDSON FSW Power Transistor on Resistance Switching Frequency 100 FSW_OP Switching Frequency Operative Range 100 f = 100Hz; Vr = 0.5 30 7 12 31 Zero Signal Frequency Constant (***) RF Frequency Controller Resistor Range (****) dB µV µV 20 30 KΩ 46 60 dB 50 ns 140 Ω KHz 200 KHz 0.4 120 1.4x109 BF V W W Dissipated Power at 1W Output Power Efficiency ≡ Max. 10 7 Pd (*) η Typ. ±10 VS Iq 7 12 HzΩ 14 KΩ 0.8 V 2.5 V V MUTE & STAND-BY FUNCTIONS VST-BY Stand-by range VMUTE VPLAY Mute Range Play Range (1) 1.8 4 AMUTE Mute Attenuation 60 IqST-BY Quiescent Current @ Stand-by 80 3 dB 5 mA *: The output average power when the amplifier is playing music can be considered roughly 1/10 of the maximum output power. So it is useful to consider the dissipated power in this condition for thermal dimensioning. **: PO = measured across the load using the following inductor: COIL 58120 MPPA2 (magnetics) TURNS: 28 ∅ 1mm COIL77120 KOOL Mµ (magnetics) TURNS: 28 ∅ 1mm ***: The zero-signal switching frequency can be obtained using the following expression: FSW = BF/RF ****: The maximum value of RF is related to the maximum possible value for the voltage drop on RF itself. (1): For V12 >5.2V, an input impedance of 10KΩ is to be considered. 26 70GS-62S ICs ADITIONAL INFORMATION: MSP3401G (IC303) Demodulator ADC Sound IF2 Preprocessing Source Select Sound IF1 2 I S1 Prescale I2S2 Loudspeaker Sound Processing DAC Headphone Sound Processing DAC Loudspeaker Subwoofer Headphone I2S SCART1 DAC SCART2 SCART3 SCART DSP Input Select SCART1 ADC Prescale SCART Output Select DAC SCART4 MONO SCART2 Block Diagram of the MSP 34x1G SC2_IN_L SC2_IN_R ASG2 SC3_IN_R ASG1 SC3_IN_L SC1_IN_L ASG4 SC1_IN_R SC4_IN_R VREFTOP SC4_IN_L NC NC MONO_IN AGNDC AVSS AHVSS AVSS AHVSS NC NC NC NC AVSUP 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 65 40 CAPL_M AVSUP 66 39 AHVSUP ANA_IN1+ 67 38 CAPL_A ANA_IN− 68 37 SC1_OUT_L ANA_IN2+ 69 36 SC1_OUT_R TESTEN 70 35 VREF1 XTAL_IN 71 34 SC2_OUT_L XTAL_OUT 72 33 SC2_OUT_R TP 73 32 NC AUD_CL_OUT 74 31 NC NC 75 30 DACM_SUB NC 76 29 NC D_CTR_I/O_1 77 28 DACM_L D_CTR_I/O_0 78 27 DACM_R ADR_SEL 79 26 VREF2 STANDBYQ 80 25 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 MSP 34x1G 1 2 3 4 5 6 7 8 9 DACA_L DACA_R NC I2C_CL NC I2C_DA NC I2S_CL RESETQ I2S_WS NC I2S_DA_OUT NC I2S_DA_IN1 NC ADR_DA I2S_DA_IN2 ADR_WS DVSS ADR_CL DVSS DVSUP DVSS DVSUP 80-pin PQFP package 27 DVSUP 70GS-62S ICs ADITIONAL INFORMATION: MSP3401G (IC303) Absolute Maximum Ratings Symbol Parameter Pin Name Min. Max. Unit TA Ambient Operating Temperature − 0 701) °C TS Storage Temperature − −40 125 °C VSUP1 First Supply Voltage AHVSUP −0.3 9.0 V VSUP2 Second Supply Voltage DVSUP −0.3 6.0 V VSUP3 Third Supply Voltage AVSUP −0.3 6.0 V dVSUP23 Voltage between AVSUP and DVSUP AVSUP, DVSUP −0.5 0.5 V PTOT Power Dissipation PLCC68 PSDIP64 PSDIP52 PQFP80 PLQFP64 AHVSUP, DVSUP, AVSUP 1200 1300 1200 1000 9601) mW mW mW mW mW −0.3 VSUP2+0.3 V VIdig Input Voltage, all Digital Inputs IIdig Input Current, all Digital Pins − −20 +20 mA2) VIana Input Voltage, all Analog Inputs SCn_IN_s,3) MONO_IN −0.3 VSUP1+0.3 V IIana Input Current, all Analog Inputs SCn_IN_s,3) MONO_IN −5 +5 mA2) IOana Output Current, all SCART Outputs SCn_OUT_s3) 4) 5) 4) 5) IOana Output Current, all Analog Outputs except SCART Outputs DACp_s3) 4) 4) ICana Output Current, other pins connected to capacitors CAPL_p,3) AGNDC 4) 4) 1) 2) 3) 4) 5) , , PLQFP64: 65 °C positive value means current flowing into the circuit “n” means “1”, “2”, “3”, or “4”, “s” means “L” or “R”, “p” means “M” or “A” The analog outputs are short-circuit proof with respect to First Supply Voltage and ground. Total chip power dissipation must not exceed absolute maximum rating. 28 70GS-62S VIN CIN 2 4 3 Video Front-end Comb Filter Panorama Scaler Color Decoder 2 RSW GNDM VRD XREF SENSE HFLB VERT EW PROT HOUT VCT 38xx GNDD VSUPD GNDAF VSUPAF SGND VRT ICs ADITIONAL INFORMATION: VCT3832 (IC1001) 2 Display Processor 3 Video Back-end Pict.Improv. VOUT RGBOUT SVM 4 RGBIN Video VSUPAB GNDAB I2C MSync Color, Prio 8 2 Audio 3 AOUT AIN VSync I2C Master BE TPU DMA CPU RDY 24 24 kB ROM kB 2 I2C 8-bit PWM 14-bit PWM 1 kB CPU RAM 3 3kB kB OSD OSDRAM 15:1 Mux 10-bit ADC Reset Logic RESQ Clock Oscillator XTAL1 2 Timer TEST 2 CapCom 96 kB CPU ROM Watchdog 24 IO Ports 31 ADB, DB, CB GNDP1 VSUPP1 GNDS VSUPS XTAL2 CLK20 12 Pxy 16 kB Text RAM Block diagram of the VCT 38xxA (shaded blocks are optional) Absolute Maximum Ratings Symbol Parameter TA Pin Name Min. Max. Unit Ambient Operating Temperature − 65 °C TC Case Temperature (PSDIP64) − 115 °C TC Case Temperature (PMQFP128) − 115 °C TS Storage Temperature −40 125 °C PTOT Total Power Dissipation − 1400 mW VSUPx Supply Voltage −0.3 6 V VI Input Voltage, all Inputs −0.3 VSUPx+0.31) V VO Output Voltage, all Outputs −0.3 VSUPx+0.31) V VIO Input/Output Voltage, all Open Drain Outputs −0.3 6 V VSUPx 29 70GS-62S ICs ADITIONAL INFORMATION: VCT3832 (IC1001) P35 P36 P34 P37 VSUPP3 GNDP3 P33 GNDD VSUPD HOUT CLK20 VB0 P32 P31 P30 VB1 VB2 TEST FBLIN RIN VB3 VB4 GIN VB5 VB6 BIN VPROT SAFETY HFLB VB7 VBCLK P20 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 97 64 P21 VERT 98 63 P22 EW 99 62 P23 SENSE 100 61 GNDP2 GNDM 101 60 VSUPP2 RSW1 102 59 P24 RSW2 103 58 P25 SVMOUT 104 57 P26 ROUT 105 56 P27 GOUT 106 55 DISINTROM BOUT 107 54 VIN4 VSUPAB 108 53 VIN3 GNDAB 109 52 VIN2 VRD 110 51 VIN1 XREF 111 50 CIN2/CRIN AIN3 112 49 CIN1 AIN2 113 48 CBIN AIN1 114 47 VSUPAF AOUT2 115 46 GNDAF AOUT1 116 45 SGND RESQ 117 44 VRT SCL 118 43 VOUT SDA 119 42 P10 XTAL1 120 41 P11 XTAL2 121 40 P12 VSUPS 122 39 P13 GNDS 123 38 GNDP1 WE1Q 124 37 VSUPP1 WE2Q 125 36 P14 OE1Q 126 35 P15 OE2Q 127 34 P16 ADB18 128 1 33 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 P17 VERTQ VCT 38xx 2 3 4 5 6 7 8 9 ADB17 VSUPADB GNDADB ADB16 ADB15 ADB14 ADB13 ADB12 ADB11 ADB10 ADB9 ADB8 ADB7 ADB6 ADB5 VSUPADB DB7 DB6 DB5 DB4 GNDDB VSUPDB DB3 DB2 DB1 DB0 ADB0 ADB1 ADB2 ADB3 ADB4 GNDADB 30 70GS-62S DESCRIPTION OF SCHEMATIC DIAGRAM SAFETY NOTE: 1. DISCONNECT THE AC PLUG FROM THE AC OUTLET BEFORE REPLACING PARTS. 2. SEMICONDUCTOR HEAT SINKS SHOULD BE REGARDED AS POTENTIAL SHOCK HAZARDS WHEN THE CHASSIS IS OPERATING. NOTE: 1. The unit of resistance «ohm»is omitted (K=1000 ohms. M= Megaohm). 2. All resistors are 1/8 watt. unless otherwise noted. 3. All capacitors are mF, unless otherwise noted (P= mmF). 4. The capacitor with Part No. RC-FZ9XXXBMNJ is designed to with stand 63V. 5. The capacitor with Part No. RC-FZ4XXXBMNJ is designed to with stand 50V. SERVICE PRECAUTION: IMPORTANT SAFETY NOTE: THE AREA ENCLOSED BY THIS LINE ( ) IS DIRECTLY CONNECTED WITH AC MAINS VOLTAGE. WHEN SERVICING THE AREA, CONNECT AN ISOLATING TRANSFORMER BETWEEN TV RECEIVER AND AC LINE TO ELIMINATE HAZARD OF ELECTRIC SHOCK. PARTS MARKED WITH « ! » ( ) ARE IMPORTANT FOR MAINTAINING THE SAFETY OF THE SET. BE SURE TO REPLACE THESE PARTS WITH SPECIFIED ONES FOR MAINTAINING THE SAFETY AND PERFORMANCE OF THE SET. CAUTION This circuit diagram is original one, therefore there may be light difference from yours. WAVEFORMS MEASUREMENT: 1. TEST EQUIPMENT: Digital Oscilloscope (Tektronix TDS 3012). 2. TEST CONDITIONS: PAL B/G full colour bar, 1KHz sinewave (volume regulation 50%). Note: Waveforms 8 and 11 should be taken with the TV set in Stand-by mode. 1 Red in 2 Green in 3 Blue in 31 70GS-62S 4 Red output 5 Green output 6 Blue output 7 I Sense 8 V St-by 9 E/W Output 10 V Switch 11 V Control St-by 12 Vp (Primary) 13 Vertical Input 14 E/W Correction 15 V inner correction 16 Vertical + input 17 VH 18 H Control 32 70GS-62S 19 Vb (Horizontal) 20 Vc (Horizontal) 21 V in Headphone L 22 V in Headphone R 23 V in Speaker L 24 V out Speaker L 25 V out Speaker R 26 V in Speker R 27 X1002 28 V Flyback Vertical 29 Vertical output 30 Vertical input 31 IF Video output 33 7 R779 2M2 2M2 R748 220K R778 R790 270 (1/2W) R703 2K7 22K R701 R753 2K2 Q704 2SA1037 2M2 R754 10K R705 C721 10nF (FZ) D731 DX0045 C711 68nF (250V) FZ0206BM R721 100 (TQ) Q712 2SA1037 R783 220K 47K R782 D717 DX0045 R710 330K (TQ) (1%) 390K (TQ) 3 100K R751 R789 100K R785 100K C704 10nF 250V KZ0029CE D703 RF2005 DX0555 D704 DX0555 RF2005 D707 DX0551 D734 DX0551 R722 R750 22K R715 18K (1%) R773 680K R772 680K (TQ) R749 680K (TQ) . C707 100uF (25V) R711 10 5 4 6 Q720 2SC2412 R708 390K (TQ) R706 390K (TQ) R1701 100 (1/2W) 11 13 12 14 VOL+ F702 680 R1043 3 1 4 D744 DX0551 LN-0037BM FB702 C728 100uF (200V) -16V +165V . . C727 1000uF (25V) . C726 2200uF (25V) +16V D749 DX0518BM EGP20B DX0629 D719 EGP20B DX0629 D798 D742 DX0551 C731 100uF (25V) . +16V 8 R1704 47 (1/3W) (G) PLGN0207 C1701 470uF (16V) D1702 1N4005 DUNTK7347BMV0 Z0590BM 6 R1033 100 QPWBF7347BMN0 T702 LN-0037BM D720 SUF15J FUS F703 VOLS705 K0079GE C702 10nF 250V KZ0029CE FB701 C798 220pF 2KV KZ0035CE 1K R1703 D712 BYV28-600 DX0618BM FUS C8V2 D1701 R1702 100 1K R1032 S704 K0079GE Q701 TX0237BM FB703 T701 RNZ0589BM D715 DX0551 R713 10K IC708 FX0111 +5VSTBY 1K R1031 R1030 2K2 CH S703 K0079GE S702 K0079GE R799 1 (1/2W) XZ0200BM Q721 2SA1037 22K R788 R714 .56 (3W) C706 680nF (400V) 680 C1702 POR1701 P0001BM R1099 100 Q1701 BT134W Q702 TX0237BM C6V2 EX0584BM 2% D716 C713 68uF (450V) EZ0141BM R709 330K (TQ) (1%) R786 1K8 R716 R712 390K (TQ) C737 100uF (16V) R784 18K IC701 IX1556 C703 10nF 250V KZ0029CE D701 RF2005 DX0555 D702 RF2005 DX0555 P0600BM S701 F701 FS-C3226 GN0304 Q705 2SC2412 R752 10K 8K2 R725 3K3 C712 1uF (160V) D714 C6V8 EX0411BM L701 F0111BM C701 330nF (275V) FZ0188BM VAR1 VX0035BM R719 R774 82K (TQ) R770 82K (TQ) D741 C4V3 EX0543BM R765 82K (TQ) 4 5 R771 82K (TQ) 1 3 6 (M) 2 7 2 1 8 CH Q709 R759 560 (TQ) JF701 100nF JF702 3,3uH (CF) R1039 3K9 R738 68 . Q901 2SA1037 R909 120 STBY C720 1000uF (6.3V) 1 2 3 4 5 6 7 8 9 C911 100nF LEDOPC C1049 10nF +5VSTBY . LED R912 2K2 R755 390 D724 B2V4 EX0400BM 5 4 3 2 1 Q708 BC547 TX0106 Q706 2SC2412 R1002 3K3 4 3 2 1 5 . R756 100 . C1019 47uF (16V) 2R7 R758 5 6 7 8 3 560 R926 R917 2K2 Q906 TX0232 R916 100 +5V SDA SCL 3 2 (1/2W) C1001 470uF (6.3V) 4K7 R1007 4K7 (TQ) . +3.3V D1012 C5V6 EX0546BM 1 Q907 2SA1037 R915 390 R1006 R907 2K7 Q905 2SC2412 4 WP VCC Q707 2SC2412 VSS S2 S1 NC C904 10uF +12V IC1003 X24645S8 IX1603BM 6 D727 DX0045 560 R925 R918 390 Q904 2SA1037 R914 120 2 Q903 2SC2412 R910 390 0 CNW-2865BM (K) R936 47R . +12V R911 100 Q902 2SC2412 C909 470uF (16V) 1 0 (1/2W) R908 2K7 R903 (1/2W) R906 2K7 DUNTK7316BMV1 R902 R757 1K8 +5V R913 390 +12V 0 R901 VI(1) VI(2) VI(3) GND SENS VDD VO(3) VO(2) VO(1) IC901 TDA6107 +5VSTBY . TP701 +13V . D747 DX0551BM R1017 3K3 IX1641BM . +3,3VSTBY QPWBF7316BMN5 8K2 . C1048 10nF ONLY AVLINK Q1005 2SC2412 R1034 8K2 +5VSTBY R1016 2K2 . +5VSTBY . R1035 33K 100nF C407 10K R1008 L1006 1uH C1051 (NM) 10nF LN-0037CE C408 100K R1010 D1006 DX0551 . +5V R1009 1K C1020 220nF D1004 DX0551 C902 PB3DE472 R1011 2K2 HFLB SAFETY VPROT BIN GIN RIN FBLIN NC P30 P31 P32 P33 GNDP3 VSUPP3 P34 P35 P36 P37 GNDD VSUPD HOUT CLK20 VB0 VB1 VB2 VB3 VB4 VB5 VB6 VB7 VBCLK P20 DX0045 D1007 94 D1005 EX0564BM 95 C1042 470nF 96 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 EX0545 D1011 CNW-2710BM (H) KEY Q1006 2SC2412 C33 100nF C409 1K 4 C914 33nF 11 TRC C905 100nF (400V) (FZ) 6 B C915 33nF 8 9 10 G R R904 4M7 (1/8W) L602 3.3uH (DF) R1041 KEY 3 6 C1017 100nF R624 1K R625 +5V C1033 100nF C1002 100nF +5V 2 D901 1N4004 DX0501BM 330 C1018 2n2 1 5 4 C901 10uF (250V) 100nF C1024 100nF L1005 1uH (DF) R1022 100 C910 100nF R905 1K +3.3V C1040 47uF J181 R1018 100 R1001 3K3 100K (TQ) 100K (TQ) 7 R935 D903 DX0539 C916 2n2 R934 560 R927 Q909 2SC2412 C912 220pF C5V1 EX0408BM D902 R922 2K2 R920 390 R932 1K8 D905 DX0600 Q910 2SA1037 R921 100 Q908 2SC2412 D1013 C5V6 EX0546BM R923 390 R919 120 Q1001 2SC2412 R931 . +12V R933 3K3 D906 DX0600 D904 DX0600 R1040 2.2nF C1003 64 P21 VERTQ D1009 C4V7 EX0544BM L901 0 (L3) G2 . D1015 1N4148 EX0045 FOCUS D1001 PX0105 . +5VSTBY 60 M1000 CU0205BM 2M2 63 97 59 5 7 1 12 13 61 62 P22 C1021 1nF 58 VSUPP2 GNDM 101 P23 98 57 P24 RSW2 103 GNDP2 VERT 100nF C1034 2 P25 104 2K2 EW 99 E/W 100nF SVMOUT R804 RSW1 102 R803 270 SENSE 100 R802 1K2 C1036 R1020 56 P26 1 P27 ROUT 105 C809 680nF R361 100K . D1014 C8V2 EX0413BM R1013 100 3 +5STBY FB401 C810 390pF FB801 54 10K VIN4 BOUT L1002 1uH (DF) 270p C103 2n2 C103 C100 1uF C100 47uF L100 1uH (DF) IC1001 IX1823B VCT383 C803 470uF C1027 10nF . +5V R423 75 (TQ) R1014 100 53 VIN3 +3.3VSTBY 55 DISINTROM GOUT 106 6 107 52 VIN2 VRD 5 108 2 48 FB402 51 VIN1 VSUPAB 34 -VS 110 IR 109 4 +VS XREF KEY 111 3 GNDAB 50 CIN2 1 47 2 HOUT Page 35 1 PROT 49 MUTE CIN1 A AV2 VOUT B AV1 L801 1uH C804 100nF 112 C AV2 IN1 D AV1 AIN3 E VI2 AIN2 F CR1 V UPAF FI 114 G VI1 113 H PROT C805 SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4). 3.3uF I LP701 RLAMP001 70GS-62S Page 36 VPROT B G R FB ALCLOCK AL Q725 2SC2412 C606 47nF (HB) R727 1K 13 J330, J331,J332, J333, J334, J335, JF78, JF79, L319, R451, R452, J204 ABOLISH PARTS 18 C709 10uF D739 C33 EX0427BM D738 DX0045 R720 15K C710 22nF (FZ) 2M2 (TQ) FOR 7315N4 VERSION R704 100K C738 100nF (FZ) R724 1M D729 1N4937 11 Q715 2SA1037 2M2 (TQ) C0373 - RC-FZ9104BMNJ+ C0388 - RC-FZ4334BMNJ+ C0389 - RC-FZ4334BMNJ+ C0386 - RC-FZ9224BMNJ+ D1003 - RH-EX0551BMZZ* D0307 - RH-EX0413BMZZ* D0308 - RH-EX0413BMZZ* D1015 - RH-EX0045BMZZ* R0657 - RR-XZ0215BMZZ+ C0358 - RC-FZ9104BMNJ+ C0368 - RC-FZ9104BMNJ+ D1014 - RH-EX0413BMZZ* C0353 - RC-FZ9104BMNJ+ CODE PARTS D1012 - RH-EX0546BMZZ* D1013 - RH-EX0546BMZZ* REF. C610 1nF D610 1N5819 DX0518 Q601 TX0226 C612 680pF D611 1N4936 DX0578 CNW-2710BM (H) 180 (TQ) D634 4V7 C601 10nF 1.6Kv FZ0228BM R653 1 2 R745 47K +180V 3 4 R650 22 1/2W XZ0216 . PARTS D0737 - DX-EX0551BMZZ* D0738 - DX-EX0551BMZZ* D0739 - RH-EX0564BMZZ* D0746 - DX-EX0551BMZZ* D0902 - RH-EX0545BMZZ* L1002 -VP-NM1R0MR10N* L1003 -VP-NM1R0MR10N* D0724 - RH-EX0574BMZZ* D0725 - RH-EX0556BMZZ* D0727 - DX-EX0551BMZZ* D0730 - RH-EX0584BMZZ* D0731 - DX-EX0551BMZZ* D0507 - RH-EX0554BMZZ* D0512 - RH-EX0564BMZZ* D0615 - RH-EX0560BMZZ* D0622 - RH-EX0554BMZZ* D0635 - RH-EX0551BMZZ* CODE D0735 - RH-EX0556BMZZ* REF. PARTS C622 470uF (25V) D0714 - RH-EX0548BMZZ* D0717 - DX-EX0551BMZZ* CODE -13V R554 100 R645 0 . -13V D631 C613 470nF (FZ) 330pF C541 L606 3,3uH (DF) D633 R531 120K 1K8 R644 3,3 nF C540 L2 M0017CE R633 6K8 R635 1M C632 22pF R639 270K 5 D636 DX0551BM 6 4 -VS 3 8 7 +VS 2 1 +13V . IC601 BA4558 330 nF 330 nF VALUE C0370 - RC-FZ9334BMNJ+ CODE C0356 - RC-FZ9334BMNJ+ REF. R643 820K HOUT PROT 15 CODE 14 J0061 - VP-DF220K0000* JL088- QJUM-1001GEFW* L0402 - VRD-RA2BE220J* L0403 - VRD-RA2BE220J* JL183- QJUM-4001GEFW* JL192- QJUM-2001GEFW* J0152 - VRS-TV1JD000J* J0027 - VRS-TV1JD000J* J0325 - VRS-TQ2BD000J* J0033 - VRS-TV1JD000J* L605 Z0725 R508 680 6 5 R545 180K 220uF (25V) C526 7 -VS 4 8 3 +VS IC502 13 BA4558 R515 1K2 9 2 1 R618 3K3 (1/2W) XZ0242BM R512 4K7 D1009 C4V7 EX0544BM JL012- QCNW-2736BMZZ C1060 -VCKYTV1HF104Z* REF. PARTS C520 470uF (35V) +25V C617 180nF (250V) FZ0229BM R631 330K (RA) C619 100nF (250V) FZ0198BM CODE D510 DX0577 1N4935 R629 470K (RA) C626 10uF R627 82K (1/2W) C624 220nF (250V) FZ6224BM 28" PARTS ADD PARTS PARTS R530 4.7 (1/2W) XZ0208BM D623 C4V7 EX0544BM R630 6K8 10K D622 C12 EX0417BM 1nF 100 R628 C625 R626 Q610 TX0240BM C631 2n2 ONLY 100K R1010 D1003 - RH-DX0606BMZZ* REF. PARTS C629 68nF Q609 2SC2412 D625 DX0551 PARTS WITH DIFERENT CODE ( DIFERENT VALUE ) PARTS PARTS PARTS D615 C22 EX0423BM 14 R634 1K R637 4K7 R632 390 R655 2K7 Q611 2SA1037 . +5V D1003 - DX-EX0606BMZZ* 680pF C543 +13V R614 10K (1/2W) R654 100 C618 220uF (16V) R622 1K5 R638 100K Q606 2SC2412 . +13V L1005 -VP-NM1R0MR10N* CODE C623 470uF (35V) PARTS C621 2.2nF (500V) REF. F602 22uH (CF) . R760 3K9 C729 470uF (6.3V) +5V R777 0,68 13 4 1 (K) 6 5 4 3 CNW-2865BM PARTS D613 DX0577 1N4935 D0708 - RH-EX0558BMZZ* REF. F601 22uH (CF) R617 22 1/2W XZ0216 R767 470 L705 330K P0308BM R761 0,68 R776 120 C735 470uF (6.3V) T601 F2085 R766 470 Q1004 2SC2412 D709 DX0045 R733 3K9 D728 DX0551 Q710 2SC2412 D0411 - RH-EX0546BMZZ* D0420 - RH-EX0546BMZZ* CODE 5 6 8 3 7 2 C620 2.2nF (500V) D602 BY228 . +165V R735 3K9 C739 100nF Q711 2SC2412 R794 47 Q796 2SK2964 TX0227BM C732 10uF R738 68 (1/2W) TP701 D0403 - RH-EX0549BMZZ* REF. D612 DX0577 1N4935 C602 4.7nF (1.6Kv) FZ0227BM L610 560K P0311BM 17 D605 1N5819 DX0518 D627 C627 470nF R621 330 ONLY 28" D616 EX0545BM R743 120K (1%) (TQ) R795 56 R737 3K3 +165V . C728 100uF (200V) EZ0258CE DX0629 D706 DX0551 IC702 KA431AZ IX1674 R742 120K (1%) (TQ) D621 DX0630BM R616 4.7 IN4148 DX0045 D635 Q602 TX0238BM 2K2 C641 470nF 20 D620 C18 EX0558BM R620 4K7 Q608 2SA1037 C608 R612 100nF R608 2K2 Q604 2SC2412 . R611 22 (TQ) C736 100nF C733 470uF (35V) -6V R657 18R (1/2W) XZ0215BM R744 3K9 (1%) D607 RGP02-16E DX0634BM 220nF (FZ) C603 D604 DX0551 C628 330pF (2Kv) FZ0216BM 27nF 330K . D722 C740 220pF DX0518BM +165V D705 C5V6 EX0546BM R717 0 R739 100 33 (TQ) R780 D740 DX0045 FUS F704 D721 SUF15J DX0628BM D720 SUF15J DX0628BM D750 C15 EX0556BM C722 9 8 R741 R740 220 D748 C6V8 EX0548BM R610 68 Q603 2SC2412 C630 22nF (FZ) IC705 KA431AZ IX1674 R793 22K FX0113 IC703 R798 18R (1/2W) XZ0215BM 7 1 2 10 9 11 PARTS WITH DIFERENT CODE ( SAME VALUE ) PARTS PARTS PARTS PARTS D619 DX0551 D618 DX0551 D617 DX0551 D606 DX0551 R792 22K C1052-VCKZPA1HB332K+ PARTS C640 470uF (6.3V) C609 470uF (6.3V) . -6V R609 19 3.3 1/2W XZ0206BM Q613 2SK2964 TX0227BM CODE R603 2R2 (3W) FB603 LN0037 D624 DX0551BM C734 47uF (16V) D737 DX0045 C725 3n3 (630V) FZ0217BM R791 390 C719 100nF Q605 KSC2500 TX0192 R747 8M2 1/2W (UA) L609 3.3uH P0144 PARTS D609 1N5819 DX0518 C605 2.2nF C604 390pF R602 82 (1/4W) R601 82 (1/4W) +5V C799 3300pF 4KV KZ0106GE R746 8M2 (1/2W) (UA) Q714 2SC2412 R768 1K C724 100nF C705 3n3 (630V) FZ0217BM C796 C730 100pF 12 270pF 2KV (500V) KZ0031 10 D746 DX0045 R729 22K D725 C15 EX0419BM REF. Q607 2SC2412 C607 22pF . +13V D608 DX0551BM R732 1K5 Q713 2SA1037 R700 4K7 R718 10 (1/2W) XZ0212BM R726 5K6 1% R722 10K Q703 D708 TX0237BM DX0421 D735 C15 EX0419BM PARTS R623 2K2 R604 1K D713 DX0551 C716 6n8 Q724 TX0232 R731 4K7 Q723 TX0232 DX0551 D718 C723 470pF C718 470pF R728 100 (TQ) R651 1K2 (1/2W) C715 68nF R787 15R (1/2W) XZ0214BM D736 1N4937 R781 22K D733 C6V2 EX0547BM DX0551 R723 3K3 (RA) D732 C717 10nF (FZ) D730 C6V2 EX0410BM 4 3 2M2 (TQ) D743 C18 EX558BM R773 680K (TQ) 2K2 R719 R607 1 R779 GND R778 Vh 2 D744 DX0551 9 5 10 D717 DX0045 R656 2K2 D731 DX0045 R451 22 C402 680nF (FZ) R406 75 (TQ) 3 C511 2.2uF C403 10nF R435 1K R450 22 + -1 . IC501 C524 100nF (FZ) 20 19 18 17 16 15 14 13 12 11 L801 1uH C804 100nF D403 7V5 EX0412 D421 4V7 EX0544 R549 27K 16 C803 470uF R548 6K8 C522 100nF R544 1K Q404 2SC2412 R550 R551 D404 7V5 EX0549 R405 75 C432 1nF C225 100nF C542 4,7nF R534 27K R513 180K R509 39K +5V 20 35 12 21 11 VI2 V IN 10 V OUT 18 R725 3K3 19 9 16 8 17 VPROT CR1 FS Page 37 15 Page 34 70GS-62S SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4). I H G F E D C B A Page 34 2 1 . 3 270pF C1032 2n2 C1030 C1004 1uF C1005 47uF L1001 1uH (DF) +5V R423 75 (TQ) X1823BM . +5V Q1003 2SC2412 R1037 4K7 22uH L319 C1016 100nF (FZ) C1015 3.3pF X1002 20.25 B0219BM R1004 220 C1008 2n2 C1060 100nF 27 C1014 5pF C382 100nF . ADB17 VSUPADB GNDADB ADB16 ADB15 ADB14 ADB13 ADB12 ADB11 ADB10 ADB9 ADB8 ADB7 ADB6 ADB5 VSUPADB GNDADB ADB4 ADB3 ADB2 ADB1 ADB0 DB0 DB1 DB2 DB3 VSUPDB GNDDB DB4 DB5 DB6 DB7 R1003 27K R1023 10K R333 1K R335 100K D5 D4 30 29 D0 A0 A1 A2 A3 A4 24 23 22 21 20 19 18 A14 A15 A16 6 5 4 1 2 21 . +3.3VSTBY J96 LN-0037CE A17 A13 7 3 A12 J92 A9 LN-0037CE J94 A10 LN-0037CE A11 8 9 10 11 12 C1013 470nF A6 A7 LN-0037CE A8 14 13 A5 15 16 17 D2 D1 25 D3 26 27 28 D7 D6 31 C387 100nF C383 1nF C385 220nF 1nF C381 10nF IC304 C1043 R331 2K7 32 J91 D1003 DX0513 R337 10 (RA) C1037 10nF . -13V L318 22uH +5VSTBY L1003 1uH (DF) R330 10 R1036 4K7 (RA) R329 150 HEADL L801 1uH 100pF C223 LEDOPC +13V Q1002 2SC2412 R328 150 C380 10nF 1 5 4 3 M5218L D308 C8V2 C1009 100nF C384 1nF Q1008 2SC2412 Q1007 2SA1037 C1011 100nF C1010 100nF . C1041 220uF (10V) D307 L303 3.3uH (DF) L1004 1uH JF74 C339 330nF A18 A16 A15 A12 A7 A6 A5 A4 A3 A2 SST37VF040-90 IX1841BM VCC WE A17 A14 A13 A8 A9 A11 OE A1 A0 D0 D1 D2 VSS IC1002 A10 E D7 D6 D5 D4 D3 C1012 100nF 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 3,3nF C391 1nF C1052 R339 220 C8V2 D1008 B3V9 EX0579BM R1025 220 A17 A14 A13 A8 A9 A11 A10 D7 D6 D5 D4 D3 . +5VSTBY J90 LN-0037CE R336 100K R334 1K C338 330nF R1026 10 560pF C1038 R1024 330 +3,3VSTBY 22 C386 220nF 1nF C1044 R332 2K7 R338 220 C390 1nF 16 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 A16 A15 A12 A7 A6 A5 A4 A3 A2 A1 A0 D0 D1 D2 C356 330nF 23 C1031 330uF (6.3V) R382 18K R362 22K SC1INR SC1INL SC2INR SC2INL SC3INR SC3INL SC4INL SC4INR R305 100K SC1OUTL SC1OUTR SC2OUTL 26 R380 18K R306 100K R304 100 R313 100K R311 100K D303 7V5 EX0549 C318 330nF R310 100K C304 10uF (16V) C303 10uF (16V) R302 100 R381 15K D302 7V5 EX0549 C367 100nF R383 15K C350 100nF R301 100 L351 3.3uH (CF) L316 3.3uH (CF) C372 0.47uF C301 10uF R303 100 C302 10uF -16V C371 1nF R355 27K (RA) -16V R351 27K C357 1nF C362 0.47uF R312 100K R350 2K2 +5V C370 330nF Q305 2SC2412 SC2OUTR R384 22K Q306 2SA1037 R385 1M D306 DX0551 C320 10uF (16V) C319 330nF C317 330nF C316 330nF C364 100nF C321 100nF D723 C8V2 EX0550 1 2 3 4 5 6 7 8 9 10 C308 3.3uF JF4 C309 330uF (10V) C379 100nF 1 2 3 4 5 6 7 8 9 10 L315 3.3uH (CF) TDA7480 100nF C373IC302 +16V D305 7V5 EX0549 C307 100nF IC301 TDA7480 C378 220uF (25V) D304 7V5 EX0549 20 19 18 17 16 15 14 13 12 11 C363 220uF (25V) 100nF C358 20 19 18 17 16 15 14 13 12 11 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 C311 10uF (16V) C322 NC NC AVSS AVSS MONO NC VREFTOP SC1_IN_R SC1_IN_L ASG1 SC2_IN_R SC2_IN_L ASG2 SC3_IN_R SC3_IN_L ASG4 SC4_IN_R SC4_IN_L NC AGNDC AHVSS AHVSS NC NC C310 100nF 41 C374 4.7nF C365 220uF (25V) +8V 100nF C368 C359 4.7nF 100nF C353 C354 100pF C312 10uF (16V) R357 150 C375 560pF C323 47pF C1045 100pF C369 100pF C366 100nF R353 150 C360 560pF R356 10K R352 12K C3313 1nF RH-IX1816BM MSP3401G IC303 C376 470nF (FZ) X301 B0203 18,432MHz JF12 L350 3.3uH (CF) JF17 R360 100K R358 100K (RA) C352 100nF C1046 100pF R359 100K (RA) L353 P0312 C361 470nF (FZ) L352 P0312 C351 220uF (25V) GND GND 25 1 2 3 4 NC I2C_CL I2C_DA I2S_CL I2S_WS I2S_DA_OUT I2S_DA_IN1 ADR_DA ADR_WS ADR_CL DVSUP DVSUP DVSUP DVSS DVSS DVSS I2S_DA_IN2 NC NC NC RESETQ NC NC DAC_R 24 C329 100nF 1 2 3 C330 330uF R369 3K3 100 R309 R370 68K L301 10uH (DF) 100 +5V SCL SDA I2SCL I2SWS 6 4 I2SIN I2SOUT 7 R308 C328 100nF C306 1nF R387 100 C377 1uF DUNTK7315BMV1 5 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 R307 4K7 C305 1nF C313 47nF OUT R GND GND OUT L QPLGN0441CEZZ (SP) 24 +16V 6 C804 100nF R801 10K C1007 47nF C1006 10uF VCT3831A IC1001 FRONT C224 100pF C225 100pF 44 LED 43 L302 3.3uH (DF) 37 D1002 PX0105 38 2 6 7 +12V 8 OUTL 7 -INL 6 GND 4 +INL 5 +INR 3 -INR 2 OUTR 1 R1015 100 33 L1002 1uH (DF) XREF 111 AIN3 112 29 R1014 100 50 CIN2 49 CIN1 48 VOUT 47 VSUPAF 46 GNDAF AOUT2 115 AIN1 114 AIN2 C805 113 3.3uF 42 TEST SCL 45 SGND AOUT1 116 VRT RESQ 117 P10 34 P16 41 P11 118 37 SC1_OUT_L 40 P12 XTAL1 120 XTAL2 121 SDA 119 35 VREF1 39 P13 VSUPS 122 34 SC2_OUT_L 36 GNDP1 GNDS 123 32 ASG3 35 VSUPP1 WE1Q 124 P14 WE2Q 125 P15 OE1Q 126 30 P17 ADB1B 128 26 Z0101BM 65 OE2Q 127 40 CAPL_M 38 AHVSUP 39 CAPL_A ANA_IN1+ 28 J401 69 AVSUP 66 36 SC1_OUT_R ANA_IN2+ F TESTEN 70 XTAL_IN 71 AVSUP 67 24 33 SC2_OUT_R XTAL_OUT 72 TP 73 ANA_IN68 31 NC 36 NC CR1 DACM_SUB AFT NC OPC IR VOUT NC RES AUD_CL_OUT PROT AL 74 AFT 75 HEADR 76 STBY DACM_L SC4INL D_CTR_OUT1 25 J HEADR HEADL RES 77 K 27 L SC4INR VREF2 FRONT DAC_L M DACM_R N D_CTR_OUT0 PROT 5 ADR_SEL O 4 STANDBYQ Q 3 80 P 2 78 1 79 R Page 37 (CN4) JAKJ0047CEZZ 70GS-62S SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4). 7 MUTE SDA SCL 3 C403 10nF R435 1K R450 22 D403 7V5 EX0412 4 9 K 6 16 D420 C5V6 EX0409 R407 75 D411 C5V6 EX0409 R408 8K2 Q405 2SC2412 R434 1K C521 68nF -13V . 14 C511 2.2uF (F) D426 FB302 LN0037 R318 100 C337 680pF EX0554BM C341 1nF L501 P0271 R514 560 R528 100K 1 H 29 3 H D425 EX0554 R319 270 C340 680pF 2 R516 1K 4 R518 2R2 (2W) R547 3K9 39K R320 100 V 5 V AV1 7V5 EX0549 R452 22 C404 680nF (FZ) D405 CZ2112BM SCART AV1 D422 C15 EX0556BM C512 220nF D511 1N4148 -13V . Q502 TX0201 KSA928A 2K2 R505 D508 DX0551BM Q503 N06-90L TX0239 R411 22K R410 8K2 28 R501 150 2W R321 270 C33 EX0427 D512 Q507 TX0203 2SB852 C504 680nF (FZ) Q505 2SC2412 R553 C534 1.2 1nF (1/3W) XZ0101BM R503 1K (RA) C338 1nF QPLGN0505CEZZ R502 4K7 R511 150 (TQ) C508 560pF FB501 LN0037 C503 100pF C523 68nF +5V R409 22K C507 4.7nF C505 100nF R535 6K8 L401 12uH 30 C510 330nF 12 C506 100nF 13 R510 8K2 10 1 2 3 4 5 6 7 8 9 10 8 TDA7480L 9 AV LINK IC501 6 20 19 18 17 16 15 14 13 12 11 SERVICIO 11 +5V 4 R526 33K R OUT C502 330nF L IN C224 100nF . +13V 1 1nF C433 75 R412 R504 20 Page 35 J96 LN-0037CE R414 1K R415 75 D410 EX0549 7V5 D409 EX0549 7V5 D408 EX0549 7V5 D407 EX0549 7V5 JF44 JF43 R416 75 R417 75 B G R FB HFB R422 220 Q403 TX0232 C801 680nF (FZ) R421 82 R420 75 R419 75 SC2INR SC2INL R418 75 FI Digitally signed by Robert Comas Date: 2001.05.28 10:51:18 +01'00' Reason: <none> VERIFICADO R204 22K EX0554 D424 R322 100 FB303 LN0037 C343 680pF C202 100nF 31 R324 100 C204 100uF (16V) C207 1n5 R327 100K R326 100K C347 2n2 C348 2n2 C203 22nF L202 12uH (DF) Digitally signed by Jose Villarrasa cn=Jose Villarrasa, ou=Engineering Dept., o=SEES, c=ES Date: 2001.05.28 10:52:42 +01'00' Reason: I am approving this document APROBADO R325 100 R205 220 Q201 2SA1037 C422 220uF (10V) R231 220 +5V D423 EX0554 R323 100 C344 680pF R230 22K R223 33 (1/2W) 1 2 3 4 5 6 7 8 9 10 11 5 4 C201 470nF (FZ) MODELO FECHA NOMBRE 2 1 C210 JF42 JF10 VIF1 VIF2 OP1 FMPLL DEEM AFD DGND AUD TOP SDA 70GS62S 28-05-2001 Mother Board D204 EX0546BM 390nF C219 SCL SDA C212 470uF (10V) R213 18K 1/2W C327 5pF X301 B0203 18,432MHz 3 AGC R214 18K 1/2W R202 100 (RA) C206 10nF C326 5pF C325 47pF R206 5K6 IC202 IX0037 TP201 1 2 3 4 5 6 7 8 9 10 11 12 47pF JF8 C215 47uF (16V) 8K2 (TQ) 8K2 (TQ) JF9 R217 12K R250 R215 SF201 C0274BM G1984 R203 100 (RA) R225 47K L203 6.8uH (CF) . +165V C329 100nF ELECTRONICA ESPANA S.A. SHARP A-1 ESCALA Q K I T P 7 3 1 5 B M N 5 CODIGO D205 EX0546BM R220 270 (RA) C211 10nF SIF2 SIF1 OP2 AFC VP VPLL AGND CVBS VAGC REF SCL SOUT TDA9885 IX1799BM TAGC NC C214 220pF 3 R219 270 (RA) C208 10nF 24 23 22 21 20 19 18 17 16 15 14 13 C324 C213 27pF JF7 SF202 K9356 C0286BM RTUNH0123BM TH201A R207 330 C205 220nF (FZ) X201 4MHz B0201BM IC201 C322 100nF C323 47pF REVISIONES HASTA INFO 131 04-04-2001 1 FECHA HASTA INFO 136 HASTA INFO 133 19-04-2001 17-04-2001 3 2 HASTA INFO 137 HASTA INFO 148 HASTA INFO 145 SDA SCL AGC Page 36 19-04-2001 09-05-2001 27-04-2001 C222 100uF (6,3V) L301 10uH (DF) AGC 4 5 6 R240 82K C221 330nF +5V C330 330uF (10V) +5V N 29 31 30 32 34 33 13 Digitally signed by Adolfo Fernandez cn=Adolfo Fernandez, ou=CAD GLOBAL NETWORK, o=SHARP, c=ES Date: 2001.05.28 10:38:28 Z Reason: This document is ready for approval REALIZADO D406 7V5 EX0549 R413 68 R507 560K R517 1M D507 C12 EX0417 R506 120 (TQ) JF50 +25V V OUT 18 R1023 10K 19 C1016 100nF (FZ) 16 . 17 C524 100nF (FZ) 17 FS 15 SS 7 FS +5V 14 L801 1uH 12 R1026 10 13 C1041 220uF (10V) 10 . 11 +3.3VSTBY 8 5pF 9 AV LINK 3.3pF R IN CR1 5 ALCLOCK L OUT 2 AV2 21 AL 6 SC1INL 3 SC1OUTL V IN SC1INR 15 VI1 R AL G SC2OUTL SS 7 SC2OUTR B SC1OUTR 4 GND L IN 37 12 5 SI L OUT 2 SC2IN 3 SC1IN R IN 11 R OUT 10 1 SDA SCL 5 VPROT 4 9 2 8 1 C804 100nF 70GS-62S SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4) . 14 R Q P O N M L K VOUT J 70GS-62S PARTS LISTING 5()1R3$576 REPLACEMENT PARTS Replacement parts which have special safety characteristics are identified in this manual. Electrical components having such features are identified by ! in the Replacement Part List. The use of a substitute replacement part which does not have the same safety characteristics as the factory recommended is not permitted. Replacement parts not shown in this service manual may create shock fire, or other hazards. HOW TO ORDER REPLACEMENT PARTS To have your order completed promplty and corretly please supply the following information. 1. MODEL NUMBER 3. PART NO. 5. CODE 2. REF. NO. 4. DESCRIPTION 6. QUANTITY 0$5. 63$5(3$576 '(/,9(5<6(&7,21 5()1R3$576 9%(+-1 &&,/*%09 3:%$ 3:%% 3:%& '(6&5,37,21 3,&785(78%( &57+=,5217+20621 '(*&2,/6(718&725 35,17(':,5,1* %2$5'61RWUHSODFHPHQWLWHP '817.&-9 '817.%09 '817.%09 $'-867&+$66,6*66 &5781,7,16+$1'*66 37&02'8/(,16+$1' 3:%$ 027+(581,7 7+ 5781+%0== 781(5&777+20621 ,& ,& ,& ,& ,& ,& ,& ,& ,& ,& ,& ,& ,& ,& ,& ,& 5+,;%0== 5+,;&(== 9+,7'$ 9+,7'$ 5+,;%0== 9+,0/ 5+,;%0== 9+,%$ 9+,%$ 5+,;%0== 5+,;%0== 5+);%0== 5+,;%0== 5+,;%0== &+,;&-6 5+,;%0== ,&7'$3+,/,36 ,&83&-91(& ,&7'$7+20621 ,&7'$7+20621 ,&063*4$$0,&521$6 ,&0/ &,7'$/7+20621 ,&%$60' ,&%$60' ,&%$6360'52+0 ,&.$$=6$0681* 2372&283/(57&(7*9,6+$< ,&.$$=6$0681* ,&9&7$4+$4)30,&521$6 (35206(762)7*66 ,&190;660';,&25 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 966$.4 5+7;%0== 966$.4 5+7;%0== 5+7;%0== 966$.4 5+7;%0== 5+7;%0== 5+7;%0== 5+7;%0== 5+7;%0== &+7;%09 5+7;%0== 5+7;%0== 5+7;%0== 5+7;%0== 5+7;%0== 966$.4 5+7;%0== 5+7;%0== 757%&60' 757%&%60'3+,/,36 757%&60' 757%&%60'3+,/,36 757%&%60'3+,/,36 757%&60' 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757%&%60'3+,/,36 757%&%60'3+,/,36 757%&%60'3+,/,36 757%& ,&/&967 757%&%60'3+,/,36 757%&%60'3+,/,36 757%&60' 757%&60' 757%&%60'3+,/,36 757%&60' 757%&%60'3+,/,36 757%&60' 757%&%60'3+,/,36 757%&%60'3+,/,36 757%&%60'3+,/,36 757.726+,%$ 757%&%60'3+,/,36 757%&%60'3+,/,36 757%&%60'3+,/,36 757%&%60'3+,/,36 757%&%60'3+,/,36 757%&%60'3+,/,36 757%&60' 757%&%60'3+,/,36 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' 95674%'5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+';%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+(;%0== 5+';%0== 5+';%0== 5+';%0== 5+(;%0== 5+';%0== 5+';%0== 5+';%0== 5+';%0== 5+';%0== 5+';%0== 5+';%0== 5+';%0== 5+';%0== 5+';%0== 2+0:60' =(1(5',2'(7=0&97).60' =(1(5',2'(7=0&97).60' =(1(5',2'(7=0&97).60' =(1(5',2'(7=0&97).60' =(1(5',2'(7=0&97).60' =(1(5',2'(7=0&97).60' ',2'(//7).60' =(1(5',2'(%=;&9 =(1(5',2'(%=;&9 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Gently unclamp clip from side to side using a screwdriver to remove, as shown on Fig.1 2. Check that clip is not deformed when replacing. If deformed press inwards as shown on Fig. 2 Screwdriver FIG.2 Press inwards FIG.1 DOCUMENTATION OF SOURCES. 1. TDA 9886, Philips Data Sheet: TDA9885; TDA9886. I 2C-bus controlled single/multistandard alignement-fee IF-PLL. Preliminary specification. File under Integrated Circuits, IC02. 1999 Dec 14. 2. TDA 7480, ST Microelectronics Data Sheet: TDA7480. 10W Mono Class D Amplifier. 1/10/1998 3. MSP3411G, Micronas Intermetall Data Sheet Preliminary data sheet: “MSP 34x1G Multistandard Sound Processor Family with Virtual Dolby Surround”, Edition Oct. 15, 1999, 6251-511-1PD. First release of preliminary data sheet. 4. VCT 3832, Micronas Intermetall Data Sheet Advance Information: “VCT 38xxA Video/Controller/Teletext IC Family”, Edition Oct. 17, 2000, 6251-5181AL. First release of the advance information. 47 70GS-62S 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, recording, or otherwise, without prior written permission of the publisher. SHARP ELECTRONICA ESPAÑA S.A. TV Division Engineering Dept. Polígono Industrial Can Sant Joan Sant Cugat del Vallès Barcelona Spain PRINTED BY: ON: Think Ecology, please use RECYCLED PAPER 48