70GF-66EDE/ES/F/IT/SE

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1 0GF-E SERVICE MANUAL SEJ0GFE00 Issued: th July 00 DA-00W CHASSIS PAL /G, I / SECAM L/L, /G, D/K SYSTEM COLOUR TELEVISION MODEL 0GF-EDE/ES/F/IT/SE 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 SPECIFICATIONS IMPORTANT SERVICING NOTES ADJUSTMENTS PROCEDURES PRINTED WIRING OARDS0 COMPONENT LOCATION TALES SCHEMATIC DIAGRAMS STEREO LED FLASHING CODES LOCK DIAGRAM PARTS LISTING ALTERNATIVE CRTs SHARP CORPORATION wwwrtv-horvat-djhr This document has been published to be used for after sales service only

2 0GF-E ELECTRICAL SPECIFICATIONS Power Input 0V-0 Volts AC 0Hz Power Consumption Normal Operation W Stand-by Operation W Audio Power Output Rating (MPO) / Impedance Internal Left Speaker W, Ω Internal Right Speaker W, Ω Speakers Left / Right x cm Convergence Static (Centre) between any two colours Dynamic after static equals zero Focus High i-potential Electrostatic Sweep Deflection Magnetic Picture Intermediate frequency L MHz L, /G, D/K,IMHz Sound Carrier Trap L 0MHz L, D/KMHz /GMHz IMHz Adjacent Sound Carrier Trap L MHz L, D/K, /G0MHz I0MHz Adjacent Picture Carrier Trap L MHz L, D/K,I0MHz /GMHz Aerial Input Impedance VHF/UHF ohm Unbalanced Tuning RangesMHz thru MHz VHF: IR A~J / S~S CH (HIPERAND) E~E / F~F0 UHF: E~E CH, I~I CH CATV Special Channels White Level Set brightness control to get total picture tube cathode current of 00 milliammeter under no signal condition Maximum necessary correction of each picture tube cathode current to get 0 degrees K+ MPCD screen temperature should not exceed % of its original value X=00 Y=000 Specifications are subject to change without prior notice EN In order to comply with the European Norm regarding Electromagnetic compatibility (EMC), it has been included mainly, in the Line Filter Circuit (F) and Foco Module (F), on every TV set manufactured from January 00 On TV set manufactured before the above date (Serial Number 00 or previous), this modification is not required Note: On TV set produced from June 00, the Line Filter Circuit is combined into the Power Switch Unit PW N Version (FN) MODEL DESTINATION & DIFFERENCES 0GF-EDE: Germany, Austria Particular Operation Manual 0GF-EES: Spain Particular Operation Manual 0GF-EF: France Particular Operation Manual 0GF-EIT: Italy Particular Operation Manual 0GF-ESE: Switzerland Particular Operation Manual WARNING Part of this chassis is not isolated from the mains supply When carrying out any servicing work, ensure that an isolation transformer is connected in the mains supply To prevent electric shock, do not remove the cover unless you are qualified to do so Refer servicing work to a qualified engineer

3 0GF-E 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 0K 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: When undertaking any servicing on this chassis, DO NOT increase the EHT to more than KV, (at a instantaneous beam current of 00µΑ) Ensure that during normal operation the EHT does not exceed 0KV±KV (at a beam current of 00µΑ) 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 DO NOT replace the CRT with any other type than that specified in the parts listing as this may cause excessive x-ray radiation EFORE 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 Inspect all the leads to ensure that they are dressed correctly and that they are not obstructed or pinched by any other parts 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 0GF-E 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 Connect a test pattern to the antenna terminal Tune the receiver to this signal Turn the receiver off using the mains switch Press volume down and channel up buttons on the front of the receiver at the same time Keeping these buttons pressed, turn the mains on When the set starts up it will be in service mode Release the two buttons CH 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 0EA, this would correspond to the receiver being turned on times Adjustment menu: The following adjustments can be carried out in the service mode Horizontal Shift East West Width Pin Phase Pin Amp Upper corner correction Lower corner correction Vertical Linearity Vertical angle Vertical bow Vertical Amplitude S Correction Extreme Corner Correction Vertical Shift Red Cut Off Green Cut Off lue 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) Luma croma delay AGC Adjustment AFT Adjustment (G-I-L) AFT Adjustment (L ) OPC Value Auto Installation On/Off Geometry Adjustments All geometry adjustments are based on an internally generated test pattern as shown in figure When carrying out any of the above geometry adjustments, use the internally generated test pattern for guidance Fig

5 0GF-E 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 Upper Corner Amplitude Lower Corner Symmetry Extreme Corner Symmetry 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 When the volume up button is pressed, the picture moves to the left When the volume down button is pressed, the picture moves to the right Press the stand-by button on the remote control to store Fig E-W Width Adjust the E-W Width so that % over-scan is achieved The effect of this adjustment is shown in figure 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 Pin Phase Adjust the Pin Phase so that the picture is symmetrical top and bottom The effect of this adjustment is shown in figure 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 Pin Amp Adjust the Pin Amplitude so that the picture is centred The effect of this adjustment is shown in figure 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 Upper Corner Correction Adjust the Upper Corner Correction so that the picture is centred The effect of this adjustment is shown in figure 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

6 0GF-E Lower Corner Correction Adjust the Lower Corner Correction so that the picture is centred The effect of this adjustment is shown in figure 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 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 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 Vertical Angle Adjust the Vertical Amplitude so that the picture is centred The effect of this adjustment is shown in figure 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 Vertical ow Adjust the Vertical ow so that the picture is centred The effect of this adjustment is shown in figure 0 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 Vertical Amplitude Fig0 Adjust the Vertical Amplitude so that the picture is over-scanned The effect of this adjustment is shown in figure When the volume up button is pressed, the vertical size of the picture increases When the volume down button is pressed, the vertical size of the picture decreases Press the stand-by button on the remote control to store Fig 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 When the volume up button is pressed, the top and bottom scanning increases and the centre scanning decreases Fig

7 0GF-E 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 When the volume up button is pressed, the picture moves up When the volume down button is pressed, the picture moves down Press the stand-by button on the remote control to store Extreme Corner Correction Adjust the Extreme Corner Correction so that the picture is centred The effect of this adjustment is shown in figure 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 Fig Colour Adjustments The following adjustments should only be carried out when the CRT, IC0 or IC0 are replaced G, Cut Off and Gain Adjustments Follow the procedure below to set the G Tune the set to the output of a signal generator (cross hatch pattern) In the user menu, set contrast to 0/00 and brightness to 0/00 Connect the oscilloscope to the red cathode and adjust G to read V on the sensor pulse as in the drawing: Position colorimeter in the centre of screen Adjust brightness and contrast to obtain a luminance of 0 NITS Operate in Service Mode and select location RED CUT OFF, GREEN CUT OFF and LUE CUT OFF, to obtain colour coordinates: X=00 ± 00 Y=000 ± 00 To increase press volume-up button and to decrease press volume down button RED CUT OFF alter «X» coordinate GREEN CUT OFF alter «Y» coordinate LUE CUT OFF alter «X» and «Y» coordinates V CH gnd NOTE: Oscilloscope should be adjusted for vertical TV field trigger and synchronized with video signal Follow the procedure below to set the Cut Off Adjust G Tune a white card Adjust colour to minimum X=00 ± 00 Y=000 ± 00 Changing NVM Data 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 While on ALTER NVM PAGE, use the volume up/down buttons to change this data (data is shown in hexadecimal format) 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) 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)

8 0GF-E Once this data has been set, press the standby button to store 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 Three types of contrast levels can be varied as listed below: TELETEXT MIX MODE CONTRAST TELETEXT CONTRAST OSD CONTRAST Use the volume up/down buttons to adjust to a suitable level, then press the standby button to store DVCO Adjustment (PAL) Carry out the DVCO Adjustment (PAL) as shown below: Receive a Phillips pattern signal While in the DVCO ADJUSTMENT (PAL) menu, press the standby button The adjustment will be carried out automatically and stored DVCO Adjustment (NTSC) No adjustment required 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 AGC Adjustment To correctly align the Automatic Gain Control, follow the procedure outlined below: Tune the set into a pattern generator on CH0 Adjust the signal strength of the pattern generator to uv Enter the service mode Enter the AGC Adjustment menu Press the standby button on the remote control The adjustment will be carried out and stored automatically AFT Adjustment (G-I, SECAM L) To correctly align the Automatic Fine Tune, follow the procedure outlined below: Tune the set into a pattern generator on CH Enter the service mode Enter the AFT Adjustment menu Press the standby button on the remote control The adjustment will be carried out and stored automatically AFT Adjustment (SECAM L ) To correctly align the Automatic Fine Tune, follow the procedure outlined below: Tune the set into a pattern generator on CH0 Enter the service mode Enter the AFT Adjustment menu Press the standby button on the remote control The adjustment will be carried out and stored automatically

9 0GF-E MOTHER UNIT (FN) PW PARTS LOCATION TALES Component Side 0

10 0GF-E MOTHER UNIT (FN) PW PARTS LOCATION TALES Component Side

11 0GF-E Component Side MOTHER UNIT (FN) PW PARTS LOCATION TALES Copper Side

12 0GF-E MOTHER UNIT (FN) PW PARTS LOCATION TALES Copper Side

13 0GF-E MOTHER UNIT (FN) PW PARTS LOCATION TALES Copper Side

14 0GF-E CRT MODULE UNIT PW (FN) PARTS LOCATION TALES Component Side Copper side Ref No Xum Yum () 0 0 Ref No Xum Yum C Ref No Xum Yum JF 0 Ref No Xum Yum R 0 Ref No Xum Yum R No parts (MO) 0 C JF 0 R 0 00 R (Q) C 0 JF 0 R 00 R 00 (RT) C 0 JF 0 R 00 R 0 0 C0 D0 JF R 00 REF 0 C0 0 0 D0 JF 0 0 R 0 REF - C0 0 0 D0 0 L0 R SC C D0 L R 0 SG0 0 0 C 00 D0 L 0 0 R0 0 SG 0 0 C 0 0 D0 0 L R 000 SG 0 0 C 0 0 D0 00 P0 R 0 SG 0 C0 D 0 P 0 R SG C0 0 D 0 P 00 0 R 0 0 SG 0 C0 D Q R 0 C0 0 D 0 Q0 0 0 R C0 D 00 Q0 R C D 00 Q0 0 R 0 0 C 0 D 00 Q0 0 0 R 0 C 0 0 D 0 Q0 00 R0 0 C 0 D 00 Q0 0 R 0 00 C 0 0 D 0 0 Q 0 R 0 0 C 0 D 00 Q 0 0 R C0 0 D Q R 0 C 00 0 D Q 00 R 00 C D Q 0 R 0 C 000 F0 0 Q R 00 C 0 0 F 0 Q R 0 C 0 F 0 0 Q 0 R C0 IC0 0 0 Q R0 0 C 000 IC0 00 Q R 00 C 00 0 IC 0 Q 00 R C 0 IC Q 00 R 0 C 00 J Q 0 R C 0 J0 Q R 00 C 0 0 J Q 0 R 0 0 C 00 0 J 0 R 0 0 R C 00 J 00 R 0 0 R 0 C 0 J 0 R R C 0 J R 0 0 R0 C J R 0 0 R 00 C 0 J 0 0 R0 00 R C 0 J 0 R 0 R C J 00 R 0 R 0 C 0 J0 0 0 R R 0 C 00 J 00 0 R 0 R 0 C J R0 0 R0 00 C0 J 0 0 R R 0 C J 0 R 0 R 0 C 00 J 0 R R 00 C 00 J 0 R R C J R 0 R 0 C 0 0 J 00 R0 0 0 R 0 0 C J 0 R 0 R C 00 J R 0 0 R 00 C J 0 R R C0 JF 000 R 00 R 0 C JF 0 R 0 0 R 0

15 0GF-E DIGITAL MODULE UNIT PW (F0NA) PARTS LOCATION TALES Component Side Copper side Ref No Xum Yum (KA) 0 Ref No Xum Yum C00 Ref No Xum Yum C0 00 Ref No Xum Yum C0 0 Ref No Xum Yum L0 Ref No Xum Yum R00 (PW) C00 0 C C L0 R0 0 (RG) C00 C0 C L0 R0 (SEL) 0 C00 0 C00 0 C 0 L0 R0 (VD) 0 0 C00 0 C0 0 C 0 L0 R0 0 0 (YA) C C0 0 C 0 0 L0 0 R0 0 0 (Y) C00 C C 0 L0 0 R0 (YC) 0 C00 C0 0 C L00 0 R0 0 C0 0 0 C00 0 C0 C 0 L0 0 R0 C00 C00 0 C0 C L0 0 R0 C0 C0 0 C00 C0 L0 0 R00 0 C0 0 C0 0 0 C0 0 C L0 R0 C0 0 C0 0 C0 0 C 0 L0 R0 0 C00 0 C0 C0 C 0 0 Q00 R0 C0 C C0 C Q0 R0 0 C0 C0 C0 00 C 0 Q0 0 R0 0 C0 C0 00 C R00 0 R0 0 C0 00 C00 C0 C R00 0 R0 0 C0 C0 C0 C 0 R00 0 R0 C0 0 C0 C0 C R00 0 R0 0 C0 C0 C 0 C0 R00 R0 0 C0 00 C0 C 00 C 00 R00 R C0 0 C0 C C R R 0 C 0 0 C0 0 C C 0 R00 0 R 0 C 0 C0 C 0 C R00 0 R 0 C C0 C 0 C R00 R0 C C0 0 C 00 C 0 R0 R C C0 C0 D00 R0 R C0 0 C0 0 C 00 0 D00 0 R0 R C C0 0 C 0 D00 R0 R 0 0 C 0 C0 0 C 0 D00 R0 R 0 C 0 C0 C 0 D R0 R 0 IC00 C C 0 D00 00 R0 00 R 00 IC00 C0 C 0 D0 R0 0 R 00 Q C0 C0 0 0 D0 0 R0 0 X00 C0 00 C 0 D0 R00 0 X00 0 C0 C 0 F0 R0 X00 C0 0 C 0 0 F0 0 0 R0 00 X00 00 C0 0 C 0 F0 0 R0 C C 0 F0 00 R0 0 C0 0 C 0 F R0 00 C0 0 C F0 00 R0 0 0 C0 00 C F0 0 R0 0 0 C0 C IC00 0 R0 0 C0 0 C 0 0 IC00 R0 C0 C0 0 IC00 0 R C0 00 C 0 JF R0 0 C0 0 C JF R0 C0 C 0 0 JF 0 R0 C C JF 00 R0 C0 0 C 0 0 JF R0 C00 0 C JF R0 C0 0 C JF 0 R0 0 C0 0 C 0 0 JF R0 0 C0 0 C 00 L R0 C0 C L00 0 R00 00 C0 0 C0 0 L R C0 0 C0 L00 0 R0 0 C00 0 C0 00 L00 0 R0 C0 C0 L00 R0 0 C0 C0 L00 R0 00 C0 C0 L R0 C0 C0 L00 R0 0 C0 C0 L0 0 0 R0 C C0 L0 0 R0 0

16 0GF-E DINAMIC FOCUS UNIT PW (FN) PARTS LOCATION TALES Component Side Copper side Ref No Xum Yum (EW) 000 (F) 00 (FF) (L) (L) 0 0 (PWA) 0 (PW) 00 0 C0 0 C0 C0 0 C0 00 C0 C0 C0 0 C0 00 C0 C0 0 D0 D0 0 D0 F0 0 FOCO J 00 Q0 00 Q0 0 0 R0 0 R0 R0 R R0 0 0 T0 T0 0 Ref No Xum Yum C0 C0 00 D0 D0 IC0 0 R0 R0 R0 0 R0 0 R0 0 R0 0 0 R0 R R 0 R 0 R 0 R 0 0 R 0 0 POWER SUPPLY UNIT PW (FN) PARTS LOCATION TALES Component Side Copper side Ref No Xum Yum (A) 0 Ref No Xum Yum C0 (AA) 0 C0 0 (H) C0 0 C C0 C 0 C D R D 00 R 0 F IC IC0 0 L0 0 0 L0 0 LP OPC R0 0 R0 0 R RC 00 S0 0 S0 00 S S0 00 S ST 0 SW SW LINE FILTER UNIT PW (FN0) PARTS LOCATION TALES Component Side Copper side Ref No Xum Yum (A) 00 (AA) 0 00 C0 0 C 0 L0 L0A 0 00 No parts POWER SUPPLY UNIT PW (FN0A) PARTS LOCATION TALES Component Side Copper side Ref No Xum Yum (A) Ref No Xum Yum C0 (H) C D C0 0 D 00 C0 F0 C IC R IC0 0 R 0 LP OPC R0 0 R0 0 0 R S0 0 S0 00 S S0 00 S ST 0 SW 0 SW

17 0GF-E SAFETY NOTE: DESCRIPTION OF SCHEMATIC DIAGRAM DISCONNECT THE AC PLUG FROM THE AC OUTLET EFORE REPLACING PARTS SEMICONDUCTOR HEAT SINKS SHOULD E REGARDED AS POTENTIAL SHOCK HAZARDS WHEN THE CHASSIS IS OPERATING NOTE: The unit of resistance «ohm»is omitted (K=000 ohms M= Megaohm) All resistors are / watt unless otherwise noted All capacitors are mf, unless otherwise noted (P= mmf) The capacitor with Part No RC-FZXXXMNJ is designed to with stand V The capacitor with Part No RC-FZXXXMNJ is designed to with stand 0V IMPORTANT SAFETY NOTE: PARTS MARKED WITH «!» ( ) ARE IMPORTANT FOR MAINTAINING THE SAFETY OF THE SET E SURE TO REPLACE THESE PARTS WITH SPECIFIED ONES FOR MAINTAIN- ING THE SAFETY AND PERFORMANCE OF THE SET SERVICE PRECAUTION: THE AREA ENCLOSED Y THIS LINE ( ) IS DIRECTLY CONNECTED WITH AC MAINS VOLTAGE WHEN SERVICING THE AREA, CONNECT AN ISOLATING TRANSFORMER ETWEEN TV RECEIVER AND AC LINE TO ELIMINATE HAZ- ARD OF ELECTRIC SHOCK CAUTION This circuit diagram is original one, therefore there may be light difference from yours WAVEFORM MEASUREMENT CONDITION: Colour bar genetator signal of 0 d from RF input 0V KV KHz Vp-p KHz 0 Vp-p 00Hz Vp-p KHz Vp-p 00Hz V 00Hz 0 Vp-p KHz FM V 00Hz Vp-p 00Hz Vp-p KHz 00Hz 00Hz

18 I H G F E D C A REALIZADO VERIFICADO APROADO (VD) GN0 C00 000uF 0V +,V FECHA Digitally signed by Castillo, Fco Digitally signed by Adolfo Fernandez Digitally signed by Castillo, Fco cn=adolfo Fernandez, ou=cad GLOAL NETWORK, o=sharp, c=es cn=castillo, Fco, ou=sees, o=engineering Dept, c=es cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 :: Z Date: 000 :: +0'00' Date: 000 :: +0'00' Reason: This document is ready for approval Reason: I have reviewed this document Reason: <none> MODELO R00 0 Q00 C R00, W C00 000uF,V NOMRE POWER SUPPLY,V GFE R00 0 D00 V Q00 % C R00 0 CODIGO Q PW F SHARP ELECTRONICA ESPANA SA (K) GN0 MN 0 ESCALA A Hasta INFO Hasta INFO FECHA REVISIONES N SCHEMATIC DIAGRAM OF POWER SUPPLY V UNIT (FN0), 00 Version 0GF-E

19 0 0GF-E SCHEMATIC DIAGRAM OF MOTHER UNIT (KN), 00 Version I H G F E D C A Page Page LED RC +V +V +V +V +V +V +V +V -V +0V D PROT VS LEDOPC PAGC AL LED OPC CAG RU GU U LU A A A A SC VS AL ALCLOCK AFT AFT PAFT SDA SCL OE AL TLTXT RS Q0 SC R K R 0 F0 LN00 F0 LN00 R 0 (/W) R0 K R K W Q0 C0 pf C0 00nF C00 pf C0 00nF R0 0 R0 K R0 K C 000uF (V) C 000uF (V) C0 pf C0 pf F0 LN00 C0 00nF C0 00nF CF0 C0 R0 K R K R 0 (/W) Q0 SC R 0K /W D0 DX0 RF00 D0 DX0 RF00 D0 DX0 RF00 D0 DX0 RF00 D DX0 YTM R0 0 R00 K R00 K D CV EX00 D0 EX0 V D0 DX0 D0 DX0 Q0 TX0 SF0N0 X0 0 0MHz (G) PLGN00 R0 K D MR00 D MR00 R W R 00 R R Q0 SC D DX0 Q C TX00 R K R0 K R0 K R0 K Q SC J0 00nF C 0pF KV KZ00 R 0 R0 0K R00 K R0 00 R0 K R00 0 C 00nF R K R K R 0K R0 K R0 00 R00 K R0 0 R0 0 R0 K (RG) GN0 R0 00 R 00 R 00 (SW) GN0 (SW) GN0 D00 DX00 AS R0 0K Q00 SC IC00 ST0R IX P P AFT P AFT VSS XTAL XTAL VDD 0 MICRO OUT 0 LED OPC AGC OUT AL LEDST OPC IN AV LINK CAG 0 MCLK MLDA ICEN 0 A VSS VDD A0 A 0 A A RD WR/WRL READY ALE EA VDD VSS RPD 0 P 00 P P0 P PAFT P SDA P SDA P0 SCL P P0 AVLINK P IR P 0 P P P P SCL SERV DATA P A A A R L0 IC0 FX0 T0 TW Q SA0 R 0K R 0 (TQ) R 0 (TQ) D DX0 D DX0 D0 DX00 N00 D0 DX00 N00 R 0K (TQ) R 0K (TQ) LP0 R 0K (/W) R0 0K (/W) R 0K R 0K (RC) GN0 (AA) CM0FC X00 000M T0 NZ0M D CV EX0 D C EX0 C uf (V) C0 KZ0 n 0V R 00 (/W) XZ0 R0 0 (/W) XZ0 D DX00 N00 D DX00 N00 R0 00 R0 00 POR0 P000M D C EX0 R0 K D0 EX0 V F00 R 0K (W) Q TX0 SK R 0 C0 nf 00V FZ0 C0 FZ00M C0 KZ0 n 0V L0 D00 EX0 D00 EX0 F00 RLN-00 IC0 PST R K C0 uf (V) C0 00uF (V) R K R0 K IC0 FX0 R K R K IC0 ST0 IX VDD OSCIN OSCOUT NMI TEST RESET P P P P 0 P P0 PA PA PA VSS R0 0 IC00 X IX0 NC S S VSS SDA SCL WP VCC IC00 X IX0 NC S S VSS SDA SCL WP VCC C0 0pF C0 nf R00 R 0K /W C0 nf 00V FZ0 R0 K C0 EZ0 uf (0V) C nf (H) C 0uF (V) D CV EX0 JF JF C0 D0 DX0 MR C TVCFZ* 0nF V C 0uF (V) C0 uf (V) R K R00 K C00 0uF (V) C 0nF IC0 FX0 C0 uf C00 00nF R0 00 J,uH (CF) (OPC) GN0 C 00uF (0V) Q SC C 0nF C0 0nF R0 K C 0nF R K

20 0 Page 0 D0 DX0 A C0 nf (H) R W D EX0 C R0 0K D DX0 R 0 Q0 TX0 PD0 Q0 TX0 SDQ KZ00 R0 0 C pf R 0 C 00nF R0 K LN00 Q0 TX0 SF0N0 R K R (/W) R0 K Q0 SC C pf Q0 SA0 C nf RA 0 W R C nf (H) R0 (/W) -V R0 0 (W) R M /W D DX0 C nf C0 KZ0 KpF/ KV C 0pF C0 n (H) D DX DX0 YTM C 00pF R C 0pF R M /W R (/W) D EX0 V R 0 (W) D0 DX0 Q0 KSC00 TX0 D DX0 N Q0 TX0 KSC00 R 0 W L0A W C0 0uF (0V) C 0nF J0 uh P0 F0 LN00 C IC0 FX0 IC0 KAAZ IX T000 R0 K (W) Q0 TX0 U D0 DX0M DMVAF D0 DX0 N F0 C nf R0 (W) F0 A F0 LN00 R 0 (TQ) R0 D N DX00 R0 0K R K (%) C0 nf (0V) R 00 (TQ) R 00 (TQ) D0 DX00 N C0 nf 00 V FZ0M (H) GN0 D MR00RL DX00 +0V +00V D DX0 N D0 DX0 MR D V EX0 R K % (TQ) R K % (TQ) C 0uF (V) C 0pF KV KZ00 R 0 (W) Vh D R0 0K R K C0 EZ0 00uF (00V) C 00nF +0V +0V C 00nF D0 DX00 N R0 K C0 nf F COM OO VCC 0 0 SS OSC OUT OUT +0V +0V C 00nF R (W) C nf (H) -V IC0 L IX0 F0 LN000CE C n (00V) C 0uF (V) D 0V EX0 C nf (H) C 00uF (0V) L0 0uH P0 T0 F0 D0 E +V D MR0 DX00 R00 0 C0 00nF L0 0uH (DF) R K C 0uF (V) L E DX0 R0 K L0 uh (DF) C0 0nF R K C0 00nF R /W XZ00 D C EX0 +V C 0uF (V) R 0 X0 0 0MHz VCC A D DX0 R 0K J 0 (/W) 0 0 R A IC0 IXM DRAM-MSM 00D A D K 0 (/W) R0 A A R K F 0 A R 0K (/W) L M00CE A 0 A0 A NC Q0 SA0 D0 EX0 V OE R K RAS CAS R0 /W XZ00M L0 P0 R0 K CLK INTQ TSCQ ICEN VS MLDA 0 HS MCLK XOUT CORQ XIN LAN GPO TM G CVS R VDD_ VSS_ VDDA RG_ VSSA_ VSSA_ 0 VDD_ VSS_ RES V VDD_ VSS_ VREF CASQ VDD_ VSS_ A D A IC0 D A SDA- D0 A D A IX0 WEQ A RASQ 0 A A A A0 A0 A C 0nF L WR D Q0 SC D D D DX0 D0 VSS R 0 C 0pF C 0nF (00V) L0 uh C 0pF R 0 (TQ) R0 R0 K D0 EX0 V 0pF R 00K /W Q0 SC R 0K R 0 R K % +0V G Q0 SC R0 00K D0 DX0 R 0 (W) R 0 (TQ) R0 R 0K R L M00CE D V EX0 % D C EX0 C0 0nF CP,NF LU U GU RU L0 Z0 L0 P0 R0 (/W) XZ000 D EX0 0 CAG PROT R 0 C 00pF R0 R00 K % D CV EX0 C K C nf R K C 0pF F C uf (0V) C0 00pF C0 0pF F0 LN00 D0 DX00 N R 0 (/W) C0 uf (0V) R K R0 K IC0 A0 IXM +VS D00 CV EX0 -VS C nf (H) C0 00pF D0 DX0 C0 00pF C0 00pF C 00nF C 0uF R C0 0uF (V) A C D E H C 0nF (00V) FZ R K C0 0nF R K D DX00M N (LU) R K (W) R0 00 R0 00 C0 0pF C 0pF R K D CV EX0 R0 00 R0 0 R K IC0 A +VS -VS R K R K R 00K Q0 SK VI AV SCINL SCINR SCOUTL SCOUTR CN CZ0M -V D0 V EX0 R K D0 DX0 D0 DX0 I R K R0 K C uf AV R K R 00K L0 uh (CF) Q0 SC For Thomson CRT (VEJY R(0,W)CHANGES TO JUMPER (VWUG0-0KK) Diagram location: Pin, (H) connector L0 (P0)CHANGES THE VALUE TO P0 (RCILP0MZZ) Diagram location: Down IC0 R (R,W)CHANGES THE VALUE TO R,W (VRN-VVDRJ) Diagram location: Pin,(F) connector POR0 ( P000M) CHANGES THE VALUE TO P000M (RMPTP000MZZ) Diagram location: (G) connector T0 (NF0) CHANGES THE VALUE TO NF0 (RTRNF0MZZ) C0 00nF VI R0 V IN 0 C 00nF D0 DX0 V OUT Q0 SC R 0 R K R0 (/W) R K D0 V EX Page SCHEMATIC DIAGRAM OF MOTHER UNIT (KN), 00 Version D V EX0 0GF-E

21 0GF-E R Q P O N M L K J SCHEMATIC DIAGRAM OF MOTHER UNIT (KN), 00 Version Page Page 0 (YA) (Y) OUT L OUT R OUT R OUT L OUT R OUT L IN CHROMA IN LUMA LED OPC OPC LED CN +V +V -V -V -V +V +V V +V +V +V V +V +V +V +V DUNTKMV OPC LEDOPC LED SCOUTR SCOUTL SELV SCOUTR D D D SCOUTL A D D D D0 D A0 SCINL A SCINR A VI OE A SCINL CIN SCINR A A SCINL A A SCINR A A SCINL A A A A SCINR A A A ISIN A A A SCINL ISOUT A0 ISWS SCINR ISCL H SDA SCL A L/L' VI G/L SELFI D D D VS D SELFI SC F SELV D0 AV D AV D D HEADL HEADR MUTE SCL SDA RES VI MUTE RES HEADL HEADR PROT TLTXT AV RS AGC C 0uF (V) R0 0K R 0 R 0 R 00K R 0K C0 00nF C0 0pF C 0pF 0 C 0nF (FZ) Q0 SC R0 0K C 00pF R K C 00nF C 00nF R 0K R K C nf L uh (CF) C 0uF (V) C 00nF L0 uh (CF) C 00pF R 0K C 00nF C 00nF C 0nF C nf C uf L uh (CF) C 0uF (V) L uh (CF) C 00nF C 0uF (V) C 00nF C 00nF C 00nF L0 0uH (DF) C pf C pf C0 pf C 00nF C 0uF (V) R 00K R 00K C 0nF C 0nF C 0nF C 0nF C 0uF (V) C 0uF (V) R0 00 R0 00 R0 00K R0 00K R0 00 R K R0 K R0 K R 00K R0 K C0 00nF R0 K C0 00nF R0 K R0 K R Q0 R0 0 R0 L0 uh (DF) C 0nF R0 K R K R 00K R0 0K R0 00 R0 00 R 00 C 00nF C pf C 0nF R0 00 C 0nF C 0nF X0 00,MHz R0 K R0 K L P0 L P0 R 0K Q0 SA0 R0 00K Q00 SC R0 K R0 00K Q00 SC R K R K R K Q0 SC C uf D0 DX0 R K R0 0K Q00 SA0 R 00K R K C0 nf R0 K C0 0nF R 00 C0 0uF (V) C 0uF C 0uF C0 0uF (V) R0 0K C nf C 00nF R0 0K R0 K D00 DX0 R0 K R 0 C 0nF R 0K R 00K C 0uF (0V) C R K (TQ) 00 RL M VSS RPD 0 D0 D D D D A A A A A0 VSS 0 VDD A A A A A A A A A 0 A0 P0H HOUT RESOUT P P SCL P SELV P SLW P SLW P0 SLW NMI D D D VDD VSS 0 SELFI G/L L/L' RESOUT ROT OUT A VSS VDD RSTIN RSTOUT 0 (SS) GN0 (FV) GN0 (CC) GN0 (RT) GN (SP) GN0CE C 0nF (H) C nf (H) C nf (H) R00 K C 0uF (ST) GN0 R0 C uf (V) R 00pF R0 00pF R R0 K C 00pF Q0 SC D DX0 R 00K C,uF E VEE VSS VDD IC0 HEF0 IX0 0 C 00nF R 0 C0 0nF IC0 MSPG IXM AUD_CL_OUT NC NC D_CTR_OUT D_CTR_OUT0 ADR_SEL STY NC SCL SDA 0 ISCL ISWS ISDAOUT ISDAIN ADR_DA ADR_WS ADR_CL DVSUP DVSS IS_DA_IN 0 NC NC NC RESET DAC_R DAC_L VREF DACM_R DACM_L NC 0 NC NC NC XTAL_OUT XTAL_IN TESTIO ANA_IN+ 0 ANA_IN- ANA_IN+ AVSUP AVSS MONO_IN VREFTOP SC_IN_R SC_IN_L ASG SC_IN_R 0 SC_IN_L ASG SC_IN_R SC_IN_L ASG SC_IN_R SC_IN_L AC AHVSS CAPL_M 0 AHVSUP CAPL_A SC_OUT_L SC_OUT_R VREF SC_OUT_L SC_OUT_R IC0 ML +V OUTL -INL +INL +INR -INR OUTR R K R0 K R0 K IC00 MC0 IXM VPP A A A A A A A A A 0 A A0 D E A0 OE A A A A A A 0 A VCC D0 D D VSS D D D D 0 IC0 TDA0 0 0 IC0 TDA0 0 0 C0 0MF (,V) R00 00 C 0nF R K C 0nF R 0 C 0pF C 0pF R 0 R 00K C00 00nF C 00nF C 0uF (0V) (HD) GN0 R00 K C0 nf C0 nf D0 V EX0 C 00nF R K Q00 SC R K R0 K C0 nf C0 00nF IC00 PST R 00pF C 00nF Q00 SC C0 nf C pf C 00nF R 00K Q0 SC Q00 SC C0 uf - D0 V EX0 D0 V EX0 Q0 SC D0 V EX0 C0 0nF C uf R K R R 0K R K C0 0nF

22 Digitally signed by Adolfo Fernandez cn=adolfo Fernandez, ou=cad GLOAL NETWORK, o=sharp, c=es Date: 000 :: Z Reason: This document is ready for approval R Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 :: +0'00' Reason: I have reviewed this document Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 :: +0'00' Reason: I have reviewed this document Page Tube be Thomson on Q0 SC K Thomson ( e R0 ) on R 0 R K R0 (/W) R0 R K D0 V EX0 0 C 00nF D V EX0 C uf R K C 0uF (00V) +V FS CIN IC0 IX J SERVICIO AV LINK SS K L IN (MO) (F) E/W +V -V G H H V V GN0 GN00CE L C0 0nF D CV EX0 D0 CV EX0 R K L0 uh (CF) C0 00nF C0 0uF (V) Q0 SA0 R0 K % R0 0 C0 00nF C0 0uF (V) C0 00nF R K AVCLOCK AL AV R0 K C0 nf (H) (EW) GN0 0 SCINL R0 K % D CV EX0 C0 00pF C0 00pF R 00 C0 00nF +V -V C0 0pF F0 LN00 F0 LN000 C0 0pF R 0 C nf R0 K D00 CV EX0 Q0 S TX00 C 00pF C 00pF R0 K SCOUTL R0 K R K L0 P0 C nf R (/W) XZ00 R K C 00pF R 00 C 0pF SCOUTR SCINR L OUT R IN R 00 R0 K Q0 SUDN0-0L TX0 C0 0nF R Ohms (W) L C 0nF R OUT D0 DX0 0 Q0 KSAA TX00 R0 0 /W D00 CV EX0 R K % R K % R 00 R K R0 K AV R0 0 (TQ) D0 C EX0 JF L D0 V EX0 D CV EX0 C uf R /W (YC) CN VI 0 V IN AL G R CN CZ0M F C 0 C 0 V OUT R /W D0 EX0 V 0 0 R0 K R 0 R 0 D0 EX0 V D0 EX0 V SC FS F G R U LU PROT D0 EX0 V D0 EX0 V AL C 0 M (Y) CN REALIZADO VERIFICADO APROADO R 0 C pf C pf C pf SCINR SCINL R G R /W R R 0 AV LINK C pf R0 0K AL SS R K C0 0nF R0 K R 00 Q0 SC R 0 R 0 N C 00pF F0 LN00 R 00 C 0pF L IN R0 K D0 Y0 DX0 C 00pF Q0 SA0 R 00 C 0pF R0 00 R 00 L OUT R 0K R 0 XZ0 (/W) C uf (0V) R IN L0 uh SCOUTR SCOUTL NOMRE FECHA MODELO R OUT C0 0nF C pf C0 nf C pf C0 uf C 00pF C0 00pF R 00K R 00K C pf 00V (N00) C0 00nF C0 00uF (V) MOTHER OARD GFE O L0 0uH P0M 0 TH0 RTUNH0M J0 J0 C CODIGO C pf C 0pF C L0 0uH P0M R0 K R P +V R 0 R 0 SHARP ELECTRONICA ESPANA SA R0 0 IC0 IX00 +V R K /W SDA SCL Q K I T P M N J R00 K D0 DX00 C VOUT R 0 R K PLL RFAGC SF0 LM C0M 0 L AFC VCO VCO AFC +V FM AM OFS SIF SIF L/L' ST C 0nF AGC 0 IC0 TDA0 IXM VAGC VIF VIF SAGC IS SIF SIF CF0 C000 R 0K SF0 C0M KM C 0uF (0V) C 0uF ESCALA A- R0 K /W R K AGC R 00 Q C 0nF C 0nF R 0 R K R K /W R0 K R0 K R 00K C nf C 0nF (H) SF0 C0M KM +0V R K R K C 00uF (0V) L0,uH (CF) R 0 C uf R 0K +V C0 uf R K R K JF C 0nF (H) D0 DX0 LL Page IC0 A0 IXM C0 uf +V R0 K IC0A A0 IXM R0 K C00 0pF Hasta INFO R 0K R L/L L 0 L' Hasta INFO Hasta INFO Hasta INFO Hasta INFO Hasta INFO R K R Q0 SC R K AFT AFT G/L AGC PAFT FECHA REVISIONES N 0 SCHEMATIC DIAGRAM OF MOTHER UNIT (KN), 00 Version 0GF-E

23 0GF-E SCHEMATIC DIAGRAM OF CRT UNIT (FN), 00 Version I SVM G R0 H R 0 SENS +V (K) GN0CE +V R 0 G R 0 F C 0uF (V) Q TX0 C R K E D CV EX00 D DX00M D R K R 00 R k C 0pF C C 0uF (V) C 0nF R 00 (W) C Q0 IC0 IXM +VS R -VS R K R R0 0K NOTE: (A) L / uh / RCILP A () GN0 R 0 R 00 (W) C Q0 C 0uF (V) R 00 M C nf C0 00nF R 00K R 00K C0 0uF (V) K D0 CV EX000 L L0 uh (DF) C0 0uF (V) () L / 0k / RCILP0 REALIZADO VER Page RT GN0 Digitally signed by Adolfo Fernandez cn=adolfo Fernandez, ou=cad GLOAL NETWORK, o=sharp, c=es Date: 000 :: Z Reason: This document is ready for approval Digitally sig cn=castillo, Date: 00 Reason: I h

24 0GF-E SCHEMATIC DIAGRAM OF CRT UNIT (FN), 00 Version I HV KV R K D DX00 R 0 D V0CE H DX00 0 IC0 TDAQ C 0uF (V) R K C 0nF R K C pf C 0pF D CV EX00 R 0K R0 R0 K (W) F0 00CEZZ C0 nf (0V) R 0 (/W) 0 LPF0X IC TDAQ C (A) ( ) C uf 0nF R K C C 0pF D R CV EX00 R K (W) F 00CEZZ C nf (0V) D R 0 R 0 (/W) L uh R 0 (/W) (L) P M00CE G pf R 0K DX00 G IC TDAQ C 0uF (0V) D C 0nF KZ0JCE DX00 FOCUS F C 0nF R C 0pF D CV EX00 R F 00CEZZ R 0 R 0 (/W) (H) GN0CE +00V R K +V R K R C uf (V) C0 0nF R 00 C 0nF C0 0uF (V) R K D DX00 D DX00 R (/W) Q A K C pf C 000uF (V) C0 0nF +V R 0K C uf (V) Q0 TX0 R K (W) Q C D C EX0 R 00 R 00 R C nf (0V) C 0uF (0V) C 00uF (0V) C0 nf (00V) R R0 (/W) D0 R K R K R R0 (/W) Q0 A C uf (0V) C0 0nF R K (W) R 0 Q C D CV +V C uf/v Vh +0V +V -V NC (Q) GN0 E D R 00 Q TX0 Q TX0 D0 DX00 0 R 0 C0,nF R K C 0uF/V R K (W) C 0pF R K R 0 D0 DX00 Q0 TX0 R 0 R K Q0 C R R0 C nf (SVM) GN0CE C0 nf R K D0 R (/W) C 0nF R 0 C nf C +V -V (MO) GN0 CILP0MZZ+ with Philips CRT Tube ILP0MZZ+ with Thomson CRT Tube Page VERIFICADO Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 :: +0'00' Reason: I have reviewed this document APROADO Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 ::0 +0'00' Reason: I have reviewed this document NOMRE FECHA MODELO CRT Module GFE CODIGO Q P W F 0 SHARP ELECTRONICA ESPANA SA M N ESCALA A Hasta INFO Hasta INFO 0 Hasta INFO Hasta INFO Hasta INFO Hasta INFO FECHA REVISIONES N A

25 0GF-E I H G F E D C A REALIZADO VERIFICADO APROADO Digitally signed by Adolfo Fernandez cn=adolfo Fernandez, ou=cad GLOAL NETWORK, o=sharp, c=es Date: 000 :: Z Reason: This document is ready for approval (HD) GN0 L uh (DF) OUT R Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 :: +0'00' Reason: I have reviewed this document OUT L C 0nF R 0 CN JAKJ00CEZZ R 0 Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 :: +0'00' Reason: I have reviewed this document C 0nF (SS) GN0 NOMRE FECHA MODELO GN0 OUT R OUT L AUDIO-VIDEO 0GFE CHROMA IN (FV) CODIGO C nf LUMA IN (CC) GN0 Q PW F C nf L uh J0 00 SHARP ELECTRONICA ESPANA SA MN ESCALA A- R (/W) FECHA REVISIONES N SCHEMATIC DIAGRAM OF FRONT A/V UNIT (FN0A), 00 Version

26 Digitally signed by Adolfo Fernandez cn=adolfo Fernandez, ou=cad GLOAL NETWORK, o=sharp, c=es Date: 000 :: Z Reason: This document is ready for approval Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 :: +0'00' Reason: I have reviewed this document Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 ::0 +0'00' Reason: I have reviewed this document I H G F E D C A (FF) 00 C0 0pF Kv C0 0pF Kv C0 000 pf Kv (F) 00 T0 NZ0M Abolish all components inside this area for Thomson CRT Tube G R-Z000M FOC IN FOC (EW) GN0 Q0 TIP R0 K W R0 K W R0 0 /W D0 EX0M Note: PW ( Conector ) only Dolby models REALIZADO VERIFICADO APROADO L D0 EX0M C0 nf (0V) FZ0 R 0K (TQ) (%) C0 uf NOMRE PLACA FOCO + Modulo PCF FECHA MODELO R0 0K (TQ) R0 0K (TQ) R0 0K (TQ) INV COMP MULT CS IC0 LD VCC GD ZCD C0 0nF R K (%) R 0K (TQ) (%) 0GFE R0 0K (TQ) R0 0K (TQ) R0 0K (TQ) R 0K D0 DX0 C0 uf R0 0 CODIGO D0 C Q0 TX0M R0 00 R 0K (TQ) (%) R0 R0 (W) K C0 0nF F0 LN000CE Q PW F M N SHARP ELECTRONICA ESPANA SA C0 0pF KV T0 Z0M D0 YV-00 C0 nf (0V) FZ0 ESCALA A- (L) (PW) CM0FC (PWA) CM0FC Hasta INFO Hasta INFO Hasta INFO Hasta INFO Hasta INFO Hasta INFO FECHA REVISIONES N SCHEMATIC DIAGRAM OF DINAMIC FOCO UNIT (FN), 00 Version 0GF-E

27 0GF-E I H G F E D C A SCHEMATIC DIAGRAM OF DIGITAL MODULE UNIT (F0NA), 00 Version Page REAL +,V +,V +,V GN + (Y) GN0 +,V +,V +,V (YA) X F F VI UV R V V UV F G UV F VI VI VI CLK Y Y R R R DUM G V CI Y VI Y V V AVI VO G VI VO AVI VS G V UV Y0 Y FM F VI CI VI VO UV Y UV Y UV VS UV0 SDA SDA SCL SCL SDA SCL H V H RES RES C00 pf R00 C0 n C00 00nF C0 0uF (V) Q0 SC (SEL) GN0 R0 00K C00 0pF (CH) C00 0pF (CH) C00 0nF R00 L0 uh C0 pf X00 0MHz 0M C0 0pF R0 0K C0 n C uf (V) L00 uh L0 uh C0 nf R0 R0 R0 R00 C0 0nF C0 00nF C0 0nF C 0nF IC00 VPC0 G R G R ASGF NC VSUPCAP VSUPD 0 D CAP SCL SDA RESQ TEST VGAV YCOEQ FFIE FFWE 0 FFRSTW FFRE FFOE CLK0 PA VSUPPA LLC LLC VSUPLLC LLC 0 Y Y Y Y Y VSUPY Y Y Y Y0 0 C C C C VSUPC C C C C C0 0 SY VSUPSY INTLC AV0 FSY MSY VS FPDAT VSTY CLK 0 NC XTAL XTAL ASGF F VRT ICSEL IS VSUPF VOUT 0 CIN VIN VIN VIN VIN VSUPAI AI VREF FIN AIS 0 C0 nf R00 R00 L0 uh C0 0nF C0 00nF C0 00nF C 0nF C 0nF R0 R0 C00 0nF C0 0pF C0 00nF C 0nF F0 E VEE VSS VDD IC00 HEF0 IX0 0 R0 C0 00nF C00 0nF C0 pf R00 C00 uf (0V) X00 MHz L0 uh C 0nF C 0nF R00 C0 00nF L00 uh C00 0pF C0 n C uf (0V) C0 0uF (V) R00 C0 00nF L0 uh C nf C 0nF F0 R0 C00 0nF C0 0pF L00 uh C0 0uF (V) C0 00nF C0 pf C0 0nF C 0nF R0 0 R0 C0 pf (CH) C00 00uF (0V) C0 00nF L0 uh C0 0uF (V) C 0pF JF R0 R0 X00 0MHz 0M C00 0nF C0 nf L0 uh C0 n L00 uh C nf R0 C0 nf C00 0nF C0 00nF C n C 0nF C0 nf C0 00nF C0 00nF L0 uh C uf (0V) C nf R0 L00 uh C00 0nF R00 C0 0nF C0 0nF C0 0pF IC00 SDA0 YINM VSSA YINM VSSL YINM 0 VDDA 0 YINM0 VDDA UVINM VDDP VDDL VSSL RESET VSSL VSSP 0 SDA VSSA VDDP TEST VDDE VDDA VSSE IUQ_0 VDDL VSSA VSSL IU_0 VSSL VDDP VSSP VDDU CLKM VSSP 00 IYQ_O IY_0 VDDY IVQ_0 IV_0 0 VDDV VSSA RREF_I UREF_I UVINS 0 UVINS UVINS0 YINM YINM YINM YINM VSSP UVINM VDDP UVINM UVINM UVINM UVINM UVINM X X CLKOUT HOUT VOUT INTERLACED LANK SCL VINM HINM SYNC VSSP UVINM0 0 VDDP 0 VSSP VINS HINS SYNCENS VSSL VDDL YINS YINS YINS VSSP 0 VDDP VDDE VSSL VDDL YINS YINS YINS YINS YINS0 VDDA 0 VSSA CLKS VSSP UVINS UVINS VDDP UVINS UVINS UVINS C0 n C0 0nF R0 L00 uh R00 0 C00 0pF L0 uh L00 uh C 00nF C0 0uF (V) C 0nF C0 nf C 0uF (V) R0 R00 C0 0pF C0 0pF C0 00nF C0 0pF C0 0uF (V) C00 00nF C0 pf C0 00nF C0 0nF C uf (V) C 0nF F0 R0 00K C0 0nF C0 n L00 0uH L00 uh C0 pf C 0nF IC00 VPC0 G R G R ASGF NC VSUPCAP VSUPD 0 D CAP SCL SDA RESQ TEST VGAV YCOEQ FFIE FFWE 0 FFRSTW FFRE FFOE CLK0 PA VSUPPA LLC LLC VSUPLLC LLC 0 Y Y Y Y Y VSUPY Y Y Y Y0 0 C C C C VSUPC C C C C C0 0 SY VSUPSY INTLC AV0 FSY MSY VS FPDAT VSTY CLK 0 NC XTAL XTAL ASGF F VRT ICSEL IS VSUPF VOUT 0 CIN VIN VIN VIN VIN VSUPAI AI VREF FIN AIS 0 C 0nF C00 nf C0 nf C0 nf C0 nf F0 C C 0nF C0 00pF C0 uf (0V) JF Digitally signe cn=adolfo Fe Date: 000 Reason: This

28 Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 ::0 +0'00' Reason: <none> H V 0GF-E SCHEMATIC DIAGRAM OF DIGITAL MODULE UNIT (F0NA), 00 Version CLK RES SDA SCL PWM HF VERT- VERT+ EW VPROT RES L00 uh 0 pf +,V L0 uh C0 00nF C0 00nF C0 00nF R0 0 R00 K C 0uF (V) C0 00uF (0V) R0 K +,V L00 uh C0 uf (V) R0 K R0 K D00 DX0 R0 K R 0 D00 CV EX0 0 0 FH_ HSYNC VDDA VSSA FL VDDA VSSA E/W D/A VD+ VD- VDDA VSSA VPROT HPROT HSAFE HOUT C0 00nF C VSYNC PWM HK HK HD VSSD VDDD 0 SDA SCL RESN SUST TEST CLEXT X X CLKI IC00 SDA0 C0 pf X00 MHz SOIN IEAM PROTON VREFH VLO VREFN VREFC DCI VDDA Y/R0 U/G0 V/0 VSSA R/Y G/U /V SWITCH SSD VSSD VDDD SVM 0 VSSMC SCP OUT GOUT ROUT VDDMC G R 0 FL FL C0 pf F0 C0 0uF (,V) C pf JF C0 00nF +,V L0 uh +V D00 V L0 0uH C0 00uF (V) C0 R nf 0 C0 00pF C0 M nf C0 GM nf RM C0 nf FM (PW) GN0 R 0 C nf R0 0 R00 0 R0 0 SVM +,V G R SENS +V (KA) GN0 I H C0 nf C0 R0 K 0 R0 D0 V C0 nf nf +V R0 K C0 0uF (0V) R0 K C00 00nF R0 K % R0 K K D00 DX0 D0 DX0 D0 R0 EAM 0K HF R K C0 0pF G R 00 R 0 R 00 C 00nF +V C 00nF Q00 C R0 R0 K D00 CV EX0 R0 K V +,V 0 D00 CV EX0 L0 uh L0 0uH F C0 nf X 00 R00 UV0 R0 R0 R0 UV UV R0 UV UV R0 UV +,V 0 Y0 Y Y Y VSUPY Y Y Y Y Y NDLLC 0 UPLLC LLC LLC SUPPA PA C0 nf R0 R0 R00 R0 R0 L0 UV R0 UV Y0 R0 Y Y R0 Y Y R0 Y Y R0 Y +,V C0 000uF C (VD) GN0 E uh C0 n C0 nf JF C D V +,V R0 K R0 00K C R0 K C 00uF (V) Q00 SC R0 00K RES RES SDA SCL SCL SDA VERT- VERT+ VPROT HF HOUT PWM EAM R K R0 V EW RM GM M C 0nF R0 K R R0 0 Q0 SA0 R K +,V R K (YC) 0 GN C 0uF (V) (RG) GN0 Page REALIZADO VERIFICADO APROADO Digitally signed by Adolfo Fernandez cn=adolfo Fernandez, ou=cad GLOAL NETWORK, o=sharp, c=es Date: 000 :: Z Reason: This document is ready for approval Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 :: +0'00' Reason: <none> NOMRE MODULE DIGITAL FECHA MODELO GFE 0 CODIGO Q K I T P 0 M N SHARP ELECTRONICA ESPANA SA ESCALA A Hasta INFO Hasta INFO Hasta INFO Hasta INFO Hasta INFO Hasta INFO 0 FECHA REVISIONES N A

29 0GF-E I H G F E D C A 0 (M) GN00 S0 P000 (A) GN00 F0 FS-C R0 0K /W LP0 P000 R0 0K /W M0 RRMCU0CEZZ REALIZADO VERIFICADO APROADO Digitally signed by Adolfo Fernandez cn=adolfo Fernandez, ou=cad GLOAL NETWORK, o=sharp, c=es Date: 0000 ::0 Z Reason: This document is ready for approval Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 0000 :: +0'00' Reason: <none> (RC) GN0 CH + CH - V+ V- S0 KZ00 RC S0 KZ00 Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 0000 :: +0'00' Reason: I have reviewed this document S0 KZ00 (SW) GN0 NOMRE FECHA MODELO S0 KZ00 (SW) GN0 PLACA POWER GFE NOTE: This PW version goes in pairs with N0 Line Filter PW (from January 00 Production) LED CODIGO (OPC) GN0 Q P W F M N 0 LEDOPC SHARP ELECTRONICA ESPANA SA OPC D PX00 (ST) GN0 ESCALA A- R 00 R 00 D PX00 FECHA REVISIONES N SCHEMATIC DIAGRAM OF POWER SUPPLY UNIT (FN0A), 00 Version

30 I H G F E D C A REALIZADO VERIFICADO APROADO Digitally signed by Adolfo Fernandez cn=adolfo Fernandez, ou=cad GLOAL NETWORK, o=sharp, c=es Date: 0000 :: Z Reason: This document is ready for approval (A) CM0FC Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 0000 :: +0'00' Reason: I have reviewed this document C0 FZ00M Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 0000 :: +0'00' Reason: I have reviewed this document L0 F00M NOMRE FECHA MODELO Module Line Filter GFE C 0nF CODIGO (AA) CM0FC Q PW F NOTE: This PW version goes in pairs with N0A Power Supply PW (From January 00 Production) SHARP ELECTRONICA ESPANA SA MN 0 ESCALA A- FECHA REVISIONES N SCHEMATIC DIAGRAM OF LINE FILTER UNIT (FN0), 00 Version 0GF-E

31 0GF-E I H G F E D C A (M) GN00 S0 P000 (A) GN00 F0 FS-C R0 0K /W LP0 P000 R0 0K /W M0 RRMCU0CEZZ REALIZADO VERIFICADO APROADO Digitally signed by Adolfo Fernandez cn=adolfo Fernandez, ou=cad GLOAL NETWORK, o=sharp, c=es Date: 000 ::0 Z Reason: This document is ready for approval Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 :: +0'00' Reason: <none> NOTE: This PW version includes the Line Filter unit (RC) GN0 CH + CH - V+ V- S0 KZ00 RC S0 KZ00 Digitally signed by Castillo, Fco cn=castillo, Fco, ou=sees, o=engineering Dept, c=es Date: 000 :: +0'00' Reason: <none> S0 KZ00 (SW) GN0 NOMRE FECHA MODELO S0 KZ00 (SW) GN0 PLACA POWER GFE LED CODIGO (OPC) GN0 QPWF MN LEDOPC SHARP ELECTRONICA ESPANA SA OPC D PX00 (ST) GN0 ESCALA A- R 00 R 00 D PX00 FECHA REVISIONES N SCHEMATIC DIAGRAM OF POWER SUPPLY UNIT (FN), 00 Version

32 0GF-E 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 Unable to read or write into NVM: % ON, % OFF twice and OFF for a second On Off MSP failure: % ON, % OFF for three times and OFF for a second On Off VPC failure (IC00): % ON, % OFF for four times and OFF for a second On Off VPC failure (IC00): % ON, % OFF for five times and OFF for a second On Off SDA0 failure: % ON, % OFF for six times and OFF for a second SDA0 failure: % ON, % OFF for seven times and OFF for a second

33 0GF-E A 0GF-E LOCK DIAGRAM LOCK DIAGRAM C SF 0 SAW TH 0 TUNER IF SF 0 SAW IF IC 0 TDA 0 FM AUDIO CVS SF 0 SAW IC PINS RG V / RG PINS AV- V MAIN POWER M 0 IR DETECTOR + CH - + VOL - PINS AV- V AV-FRONT DIGITAL MODULE S 0 F0 ADG COIL PTC POR 0 ON/ST-Y IC 0 Micro Proc POWER ST-Y CONTROL IC 0 IC 0 IC 0 S-VIDEO Micro Proc COMUNICATION Micro Proc COMUNICATION IC 0 HEF 0 SWITCH V IC IC 00 VPC 0 VIDEO PROCESSOR IC 00 VPC 0 VIDEO PROCESSOR D T 0 +V AUDIO IC 00 ST0 R L Micro Proc IC ML OSD IC 0 SDA S MT TEXT D 0D 0 C0 -V AUDIO +V IC 00 MC0 EPROM ROTATION COIL CESH Q0 DRIVER Q0 Q0 Q 0 Q Q 0 Q 0 Q 0 DIGITAL H OUT IC 0 SENSOR DINAMIC FOCUS MODULE E/W OUT Q0 Q0 Q0 Q0 H DRIVE Q POW IC 0 R R C0 T 0 C 0 Q 0 C 0 C 0 E/W OUT Q 0 IC 0 E/W DRIVE Q E E Page A C

34 0GF-E C LOCK DIAGRAM D E IC 0 +V + IC0 - IC CENTER CENTRAL SPEAKER MODULE MSP 0 D -V +V PERIPHERICS AUDIO L/R + IC 0 - -V AUDIO OUT L Q 0 Q 0 AUDIO PROTECTOR +V Q 0 + IC 0 - AUDIO OUT R MODULE 0 -V Q 0 Q 0 MUTE IC IC IC IC 0 C 00 C 0 VIDEO ROCESSOR IC 00 IC 00 SDA 0 SDA 0 DIGITAL SCAN CONVERTER + PIP PROCESSOR DISPLAY DEFLECTION PROCESSOR V OUT IC 0 A IC 0 +V HEADPHONE CONECTOR DRIVER TDA 0 SVM VERTICAL POWER -V E/W OUT HOUT RG Q 0 Q 0 VERTICAL FLYACK CRT MODULE D SVM Q Q SVM S IC 0 DRAM IC 0 TDA A RG R G IC TDA A R G H VERT DEFLEX COIL HORIZ DEFLEX COIL CRT IC E/W OUT TDA A HV HOUT ROTATION COIL Q 0 Q 0 ROTATION COIL FOCUS Q 0 - V + V HEATER FOCUS POWER UNIT SCREEN HV Q 0 E/W EMULATOR FT FOCUS + V Page D 0 HORIZ DEFLECTION Title LOCK DIAGRAM 0GF-E Size Document Number Rev A 0GF-E 00J00 00 C D -jun-0 Date: Sheet of E

35 0GF-E!!!! MARK *: SPARE PARTS DELIVERY SECTION REF NoPARTS DESCRIPTION * SN CODE EX CODE PICTURE TUE CRT VERF*N CRT ": FLAT00Hz WERF0X0 (PHILIPS) S CK DE CRT VERF*N " :RF 00HZ PHIL WERF0X0 (PHILIPS) S CK DE CRT VEJYE "FLAT00HzSINGLEFOCUS WEJY0xTHO (THOMSON) S CK DE DGC RCILG0MZZ DEGUSSCOIL ATN0 ": NUCT (For Philips CRT) S AQ AX DGC RCILG0MZZ DEGUSSCOIL ATN0 ": NUCT (For Thomson CRT) S AS AZ PRINTED WIRING OARD (Not replacement item) PW-A DUNTKCJV MOTHER UNIT 0GFE S T CM PW- DUNTKMV CRT UNIT S AX L PW-C DUNTK0MV0 DIGITAL MODULE WINDOW (PIP) S P CE PW-D DUNTKMW DINAMIC FOCUS +E/W 0GFE S AX L PW-E DUNTKMV FRONTAL POWER SWITCH "NO" Version S AT E PW-F DUNTKMV FRONTAL POWER SWITCH "N" Version S AT E PW-G DUNTKMV FRONTAL SIGNAL S AH AU PW-H DUNTKMV0 VDC POWER SUPPLY S AF AQ PW-I DUNTKMV0 LINE FILTER MODULE FOR NO Version S AH AU PW-A PARTS LISTING 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 promptly and correctly please supply the following information MODEL NUMER PART NO CODE MOTHER UNIT REF NO DESCRIPTION QUANTITY TUNER TH 00 RTUNH0MZZ TUNER CTT00E THOMSON S AP A INTEGRATED CIRCUITS IC 00 RH-IXMZZ CI TDA 0L THOMSON S AD AL IC 00 RH-IXMZZ IC TDA0-MFL TEMIC SMD S AF AQ IC 00 RH-IXMZZ IC A0 S0P SMD ROHM S AC AD IC 00 RH-IX00CEZZ IC UPCJ V NEC S AF AD IC 00 VHITDA0/- IC TDA0 THOMSON S AF AK IC 00 VHITDA0/- IC TDA0 THOMSON S AF AK IC 00 VHIML//- IC ML S AA AD IC 00 RH-IXMZZ IC MSPG-PP-A VDOLY PSDIP MICRON S AT E IC 00 RH-IX0MZZ IC HEF0 SMD S AA AD IC 00 VHIAF/- IC AF-E ROHM OP-AMP S AA AC IC 00 RH-IXMZZ IC A0 S0P SMD ROHM S AC AD IC 00 VHIPSTC- IC PSTC MITSUMI S AD AD IC 00 RH-IXMZZ IC ST0 SMD SGS-THOMSON S AF AL IC 00 RH-FX0MZZ OPTOCOUPLER TCET0G VISHAY S AA AC IC 00 RH-FX0MZZ OPTOCOUPLER TCET0G VISHAY S AA AC IC 00 RH-FX0MZZ OPTOCOUPLER TCET0G VISHAY S AA AC IC 00 RH-IXMZZ IC KAAZ SAMSUNG S AA AD IC 00 RH-IX0MZZ IC L THOMSON S AD AK IC 00 RH-FX0MZZ OPTOCOUPLER TLPJ TOSHIA S A AE IC 00 RH-IXMZZ IC ST0RL THOMSON S AKAW IC 00 CH-IX0CJE EPROM M MC0 ST ELEC S AR C IC 00 RH-IX0MZZ NVM XS XICOR SMD S AS AV IC 00 RH-IX0MZZ NVM XS XICOR SMD S AS AV IC 00 VHIPSTC- IC PSTC MITSUMI S AD AD IC 0 RH-IX0MZZ IC SDA-MTXT NIVEL, S AT D IC 0 RH-IXMZZ IC DRAM MSM00D-0TS-K OKI S AG AS TRANSISTORS Q 00 VSSA0KQ- TRT C0 SMD S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA REF NoPARTS DESCRIPTION * SN CODE EX CODE Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSA0KQ- TRT C0 SMD S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSA0KQ- TRT C0 SMD S AA AA Q 00 VSSA0KQ- TRT C0 SMD S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 RH-TX00MZZ TRT KSAA SAMGUNG S AA AC Q 00 RH-TX0MZZ TRT SUDN0-0L SILICONIX S AA AE Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 RH-TX0MZZ TRT MOSFET TOSHIA SK SMD S AA AD Q 00 RH-TX00MZZ TRT S ROHM S AA A Q 00 RH-TX0MZZ TRT UAX PHILIPS S AG AP Q 00 RH-TX0MZZ TRT KSC00 SAMSUNG S A AC Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSA0KQ- TRT C0 SMD S AA AA Q 00 RH-TX0MZZ TRT KSC00 SAMSUNG S A AC Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 RH-TX0MZZ TRT SF0N0A SAMSUNG S AM AU Q 00 RH-TX0MZZ TRT PD0AR PHILIPS S AA A Q 00 RH-TX0MZZ TRT SDQ SMD ROHM S AC AD Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 0 RH-TX00MZZ TRT C S AA A Q 0 VSSCKQ- TRT SC ROHM S AA AA Q 0 VSSA0KQ- TRT C0 SMD S AA AA Q 0 RH-TX0MZZ MOSFET SK ROHM S AA AE Q 0 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSA0KQ- TRT C0 SMD S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 00 VSSCKQ- TRT SC ROHM S AA AA Q 0 VSSCKQ- TRT SC ROHM S AA AA DIODES D 00 RH-DX0MZZ DIODE LL TFK SMD S AA AA D 00 RH-DX0MZZ DIODE VARICAP Y0 S AC AE D 00 RH-DX0MZZ DIODE LL TFK SMD S AA AA D 00 RH-DX00MZZ DIODE N S AA AA D 00 RH-DX0MZZ DIODE LL TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 0 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 0 RH-DX0MZZ DIODE LL TFK SMD S AA AA D 0 RH-EX0MZZ ZENER DIODE TZMV TFK SMD % S AA AA D 0 RH-DX0MZZ DIODE LL TFK SMD S AA AA D 0 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 0 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 0 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 0 RH-DX0MZZ DIODE LL TFK SMD S AA AA D 00 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 0 RH-EX0MZZ ZENER DIODE TZMCV TFK SMD S AA AA D 0 RH-EX0MZZ ZENER DIODO TZMC TFK SMD S AA AA D 0 RH-EX0MZZ ZENER DIODE TZMC TFK SMD S AA AA D 00 RH-DX0MZZ DIODE LL TFK SMD S AA AA

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