21P1. Colour Television Service Manual. Model CE21P1-C (W.Europe) Service Ref. No. CE21P1-C-01

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1 Colour Television Service Manual P Model CEP-C (W.Europe) Service Ref. No. CEP-C-0 PRODUCT CODE: 90 ORIGINAL VERSION: Chassis No. E-A Note This TV receiver will not work properly in foreign countries where the television transmission system and power source differ from the design specifications. Refer to the specifications for the design specifications,,,,,,,,,,,,,,,,,,,, Give complete "SERVICE REF. NO." for parts order or servicing, it is shown on the rating sheet on the cabinet back of the TV set. Specifications Power source AC 0~0V 0Hz Television system System /G Colour system PAL Receiving channel VHF: E-E CATV: X, Y, Z, S-S UHF: #~9 Aerial input impedance ohm AV terminal Pin socket CENELEC standard Sound output(music) 9 watts X Picture tube cm diagonal, 90 degree (Visible picture diagonal) cm Dimensions (WxHxD) 9 x x 8 mm Weight. Kg Part No. SKSM09 EPEV OCT 99

2 SAFETY PRECAUTION : An isolation transformer should be connected in the power line between the receiver and the AC line when a service is performed on the primary of the converter transformer of the set. : Comply with all caution and safety-related notes provided on the cabinet back, inside the cabinet, on the chassis or the picture tube. : When replacing a chassis in the cabinet, always be certain that all the protective devices are installed properly, such as, control knobs, adjustment covers or shields, barriers, isolation resistor-capacitor networks etc.efore returning any television to the customer, the service technician must be sure that it is completely safe to operate without danger of electrical shock. X-RADIATION PRECAUTION The primary source of X-RADIATION in the television receiver is the picture tube. The picture tube is specially constructed to limit X-RADIATION emissions. For continued X-RADIATION protection, the replacement tube must be the same type as the original including suffix letter. Excessive high voltage may produce potentially hazardous X-RADIATION. To avoid such hazards, the high voltage must be maintained within specified limit. Refer to this service manual, high voltage adjustment for specific high voltage limit. If high voltage exceeds specified limits, take necessary corrective action. Carefully follow the instructions for + volt power supply adjustment, and high voltage adjustment to maintain the high voltage within the specified limits. PRODUCT SAFETY NOTICE Product safety should be considered when a component replacement is made in any area of a receiver. Components indicated by mark /!\ in the parts list and the schematic diagram designate components in which safety can be of special significance. It is particularly recommended that only parts designated on the parts list in this manual be used for component replacement designated by mark /!\. No deviations from resistance wattage or voltage ratings may be made for replacement items designated by mark /!\. -- FJEV

3 SIF In Audio I/O RG/LK In LOCK DIAGRAM This is a diagram for all models and therefore differs slightly from the actual block diagram. RC Pre.amp IC80 CPU 0 IC80 Memory SCL SDA IC80 and sw VL VH U TU IF Tuner SIF Unit Audio Unit Power Supply Circuit AC In Q Q Control Keys : right : Contranst : Colour : Sharpness Functuin In(AV/AV) CVS In X SAW Filter / IC H Delay / R-Y/-Y 8/9 R-Y/-Y / 0/ Audio Out L, R T Converter Transformer : V 8: V : 8V IC IC : 0V : V : V : V P Scart: AV P Scart: AV Audio I/O Video I/O Video I/O Audio I/O V-In V-In G R LK External CVS in Internal CVS in Q 8 Out IC0 CVS int/ext sw. Q Q/Q CVS In Q0 Q R G H-Drive IC0 IF/Video/Chroma/Def. Q Q H-Outpit Q IC0 Vert. Output V-Drive V-Feedback Audio In L, R IC00 Audio Output / 0/ 8 L, R Speakers C VR0 CRT Unit FT H V DY HV FJEV --

4 CIRCUIT DESCRIPTION. POWER SUPPLY The power supply circuit of the E-A chassis is composed of a rectifier smoothing circuit, an oscillation circuit, a control circuit and an output rectifier circuit. The AC input voltage is full-wave rectified by the rectifier smoothing circuit, and an unstable DC voltage is generated at both terminals of the smoothing capacitor C0. This voltage is input to the oscillation circuit. The oscillation circuit is provided with a blocking oscillator circuit that switches the switching transistor Q ON and OFF, and an oscillation frequency and a duty square wave pulse are generated in the input windings according to operation of the control circuit. A squarewave pulse whose size is dependent on the turn ratio of the input and output windings is obtained in the output winding. This is rectified in the output rectifier circuit, and the desired DC voltage is obtained.. IF & DEFLECTION (TDA8) The IF output signal from the tuner passes through the SAW filter, and it is input to pin and pin of IC0. The signal input to the IC passes through the IF amplifier, video detection and video amplifier circuits and is output from pin as a composite video signal. And after this signal is converted to impedance at Q, supplies to the video and chroma amplifier stages. The sync.-separation circuit separates the video signals applied to pin(internal video signal) or pin(external video signal) to vertical- and horizontal-sync. signals respectively. The horizontal oscillator requires no external components and is fully integrated. The oscillator is always running when the start-pin is supplied with 8V. Horizontal drive signal is output from pin. VR is for adjustment of the horizontal centring. The separated vertical-sync. signal from sync. separation circuit passes through the vertical-separation circuit, and applied to trigger divider circuit. The horizontal oscillation pulse and input vertical sync. pulse are monitored by the trigger divider circuit, and switching 0Hz and 0Hz system, the vertical amplitude automatically adjusted for 0Hz and 0Hz. The output signal from the trigger divider is triggered vertical oscillation circuit consisting of C, R and pin, and vertical drive pulse is output from pin. VR0 is for changing the amount of AC feedback applied to pin and for adjustment of the vertical amplitude.. VIDEO CHROMA & R.G.. (TDA8) The composite video signal output from the pin of IC0 passes through Q-Q, and it is supplied to pin. The external video signal output from SCART is supplied to pin. The video signal input to pin or pin is separated to luminance (Y) signal and chroma signal in IC0. These pins are used in common with H/V-sync. separation input. The peaking of Y signal is adjusted by DC voltage of pin. ( SHARPNESS control) The chroma signal is divided into R-Y and -Y chroma signals, demodulated in IC0, and output from pin0 (R-Y) and pin (-Y). These chroma signals pass through the H delay line circuit (IC), and they are input to pin9 (R-Y) and pin8 (-Y). These R-Y/-Y signals pass through RG matrix circuit and RG selector circuit of IC0. The internal RG signals are generated in RG matrix circuit and the RG selector, consisting linear amplifiers, clamps and selects either the internal RG signals or the external RG signals input from pin(r), pin(g), pin(). Selection is controlled by the voltage at the RG switch control (pin) and mixed RG modes are possible since RG switching is fast. The RG switch also functions as a fast blanking pin by blanking the RG output stages; here internal and external RG signals are overruled. The colour gain is controlled by DC voltage of pin. ( COLOUR control) The contrast control voltage present at pin, and the brightness control voltage present at pin controls DC level of RG signals. The RG signals are finally buffered before being available at the RG output pins [pin0 (R), pin9 (G), pin8 (R)].. AUDIO OUTPUT(TDAM) The audio signals output from the audio unit are input to pin(l) and (R) of IC and passes through the preamplifier circuit and drive circuit, after which it is input to the audio amplifier. The audio amplifier is an SEPP (single-ended, push-pull) OTL type and output to pin8(r) and 0(L) to directly drive the speakers.. VERTICAL OUTPUT (LA8/LA8) An IC (LA8/LA8) is used for the vertical output circuit in this chassis. The vertical drive pulse from pin of IC0 is input to pin of IC0. This pulse drives IC0, and vertical scanning is performed. In the first half of scanning a deflecting current is output from pin and passes through the following path: Vcc() D0 pin pin DY C VR0/R09. An electric charge is then stored in C. In the last half of scanning the current path is C DY pin pin VR0/R09 C. In this way, an amplifying sawtooth waveform current flows directly to DY to perform electron beam defection. Next, in the first half of the banking period the vertical drive pulse suddenly becomes OFF, and in order to reduce the current flowing to DY, the current path becomes as follows by the inductance of DY: DY pin pin VR0/R09 C DY. Also, when the charge of DY has dissipated, the current path becomes VccV pin pin C0 pin pin DY C VR0/R09, and when the prescribed current value is reached, the vertical drive pulse becomes ON. This completes one cycle. -- FJEV

5 . HORIZONTAL OUTPUT A horizontal oscillation signal is output from pin of IC0 and switches the drive transistor Q. This switching signal is current amplified by the drive transformer T and drives the output transistor Q. When Q becomes ON, an amplifying current flows directly to DY through C DY 0, and defection is performed in the last half of the scanning period. Next, when Q becomes OFF, the charge that had been stored in DY up to that point releases a resonance current to the resonant capacitors C/C and charges them. The current stored in C/C is then flowed back to DY, and an opposite charge is then stored in DY. This opposite charge then switches the dumper diode in Q ON, the resonance state is completed, and an amplifying current is then flowed again directly to DY through the dumper diode. y this means, deflection in the first half of the scanning period is performed, and when Q becomes ON at the end of the first half of the scanning period, deflection during the last half is begun, thus completing one cycle. In the PCC circuit consisting of Q and Q, the parabola signal supplied from the vertical circuit is added at the horizontal output stage and pincushion compensation is performed by varying the DC voltage bias. Further, the AL voltage is feedback to the base of Q to compensate for width variations due to variations in the beam current. Pin: lack Pin: IREF Pin: Odd/Even output Pin8: Pin9: - Pin0: V-deflection stop output Pin: RG REF Pin: lue output for OSD Pin: Green output for OSD Pin: Red output for OSD Pin: lanking output for OSD Pin: H-sync. input (Horizontal pulse for OSD) Pin: V-sync. input (Vertical pulse for OSD) Pin8~9: Supply (+V) Pin 0: OSC Pin : Oscillator input for CPU Pin : Oscillator output for CPU Pin : Reset input Pin : Supply (+V) Pin : Protect signal input (L:Power circuit defects) Pin : Ident. signal input Pin : R/C signal input Pin 8: Mute output in no picture Pin 9: I C bus SCL (Serial clock) Pin 0: I C bus SDA (Serial date) Pin : Option SW & and select output Pin : and select output. CPU <System and Teletext Control> Pin description Pin: Tuning voltage output Pin: rightness control output (-bit DAC) Pin: Contrast control output (-bit DAC) Pin: Colour control output (-bit DAC) Pin: Sharpness control output(-bit DAC) Pin: Not used () Pin: Not used () Pin8: Power ON/OFF output (H:ON) Pin9: AFT signal input Pin0: Option SW & Keyboard scan input (DC) Pin: Option SW Pin: 0/0Hz switch input (0Hz: Hi) Pin: Pin: TV/AV switch output (TV: Hi) Pin: S-VHS switch output (S-VHS: Hi) Pin: Option SW (AV: Hi) Pin: Function signal input for SCART Pin8: Function signal input for SCART Pin9: Power LED drive output Pin0: Option SW & Power LED drive output Pin: Ignore output Pin: Pin: CVS input0 (Internal) Pin: CVS input (Internal/External) FJEV --

6 SERVICE CONTROL AUSTMENT POWER SUPPLY A. AFT A. TU-AGC A. MAIN OARD SW90 Prog.+ SW90 Prog.- SW90 Vol.+ SW90 Vol.- VR H-Width SW0 Main switch F0 Fuse Q Q Q Q8 Q TP- Q T Converter Transformer T8 RC Transformer D Photo-coupler Q0 Q H-Output Q VR + A. IC +V IC0 V-Outout VR0 V-Size SW0 V-Centre IC H Delay IC80 CPU IC +8V TP-E TP-D IC80 Memory IC0 IF/Video/Croma/Def. IC8 VR H-Centre VC T VR AGC IC00 Audio-output T0 T0 SIF oard IC80 and SW. Audio oard R T Flyback Transformer J Scart Scart IC0 Int./Ext. SW. IC0 AV SW. A0 Tuner H-WIDTH A. FOCUS A. HIGH VOLTAGE A. V-CENTRE A. V-SIZE A. H-CENTRE A. GREY SCALE A. SIF OARD SIF A. VR0 -DRIVE VR R-DRIVE VR0 -IAS VR G-IAS VR R-IAS CRT OARD IC8 K8H IC80 K8H Q0 Q Q AUDIO OARD IC Q IC IC0 KA T0 K IC PILOT A. -- FJEV

7 POWER SUPPLY AUSTMENT. Set VR to be mechanically centre before pressing the mains ON/OFF switch.. Tune the receiver to a PAL circular pattern.. Set the brightness and contrast controls to normal.. Connect a digital V-meter to test point "TP-".. Using VR, adjust the voltage to 0 ± 0.V. AFT AUSTMENT. Tune the receiver to the clearest station.. Using T, adjust the AFT to obtain the best picture. AGC AUSTMENT NOTE: Do not attempt this adjustment with a weak signal.. Tune the receiver to the clearest station.. Set AGC VR(VR) in direction which causes snow noise just to appear, then in the opposite direction until the snow noise just disappears. GREY SCALE AUSTMENT [SCREEN VR AUSTMENT]. Tune the receiver to the white pattern.. Set the brightness and contrast controls to normal.. Set VR0and VR to their mechanical centres.. Turn VR0, VR and VR fully counter-clockwise (anti-clockwise).. Set the TV into service mode by pressing the Function button F on the Remote control and the Prog + P on the TV front panel. Press the Function button F on the Remote control until SCREEN is highlighted. This sets up a horizontal scanning line.. Set screen VR so that one colour is just visible. [IAS VR AUSTMENT]. y using VR0, VR or VR, adjust the line until it becomes white. 8. Set screen mode OFF, by pressing the Recall button on the Remote control. [DRIVE VR AUSTMENT] 9. Using VR0 and VR, adjust white balance. HIGH VOLTAGE & WIDTH AUSTMENT [HIGH VOLTAGE AUSTMENT]. Tune the receiver to the circular pattern.. Set the brightness and contrast controls to maximum.. Connect a digital V-meter to both terminals of R, and a high voltage meter to the CRT anode.. Confirm high voltage to be.0 ± KV at beam current.ma, and less than 8.0 KV at 0 beam current. [H-WIDTH AUSTMENT]. If H- width is too wide or narrow, connect or disconnect a lead wire J.. Reconfirm high voltage. H-CENTRE AUSTMENT. Tune the receiver to a circular pattern.. Adjust H-centre by using VR. V-CENTRE AUSTMENT. Tune the receiver to a circular pattern.. Adjust V-centre by using SW0. V-SIZE AUSTMENT. Tune the receiver to a circular pattern.. Adjust V-size by using VR0. FOCUS AUSTMENT y using FOCUS VR, adjust focus control for good scanning lines. FJEV --

8 CIRCUIT ALIGNMENT 0kΩ 0.00µF a Ω b kω VIF alignment Input probe Output probe SETTING Adjustment Waveform DC.V AGC voltage (.-.V) Output probe Input probe C + IC0-pin8 IC0-pin (Side b) IC0-pin y using T, adjust "P" to be maximum amplitude. P Marker frequency Sweep ATT 0d=mVrms/ 8.9MHz 0d SIF alignment SETTING Adjustment Waveform DC V AGC voltage Output probe Input probe Sweep ATT Marker Frequency IC80-pin IC80-pin IC80-pin (Side b) IC80-pin 0d 8.9MHz. Adjust AGC voltage to be "A" = 0.Vp-p.. y using T80, adjust "P" to be equal centre line. P "A" Pilot alignment SETTING Adjustment Waveform Oscilloscope Input sound signal source TV system Deviation Mode IC0-pin System /G khz Stereo y using T0, adjust amplitude to be maximum. A -8- FJEV

9 INITIALISATION (Important Notice) When you replace a memory IC (IC80), it is necessary to initialise the IC as following step. A. Initialisation Press and hold the normalisation button on the remote control handset and press the programme + button P on the TV set. The IC will be initialised automatically to set the following data. User control data Colour : Centre rightness : Centre Contrast : Maximum Sharpness : Centre Text. right : Centre ass : Centre Treble : Centre alance : Centre Volume : Step Service data Manual set data K : > +00 K : > -00 ST ID : +000 ATT : +00 MAX :-09 -> -00 MIN : +00 -> -0 The initialised service data of items K, K, MAX and MIN should be modified to the manual set data shown above. For how to modify, refer to next step.. Select the desired service item by using the Function button F on the remote control handset.. Change the data by using the Level + or - button.. To return to TV mode press the Recall button on the remote control handset. Service mode description K, K : For adjustment of stereo separation ST ID : Mode setting for A stereo judgement +000 : Fast mode +00: Normal mode +00: Fast -> normal mode ATT : Attenuation of FM sound To equalise sound levels between FM and Nicam. MAX : Setting of sensitivity for switching Nicam to FM mode MIN :Setting of sensitivity for switching FM to Nicam mode. SCREEN: For screen adjustment To make one horizontal scanning line. NOTE: The items K, K, ST ID and ATT are invalid adjustments for a model which does not have an A stereo decoder. The items MAX and MIN are invalid adjustmens for a model which does not have a Nicam decoder. These items allow modifications to the set data, but there is no effect in performance.. Service Mode. To entre the service mode, press and hold the Function button F on the remote control handset and press the programme + button P on the TV set. The following OSD appears on the screen. AUST DATA K +000 K -00 ST ID +000 ATT +00 MAX -00 MIN -0 SCREEN VOL CPU Ver.0 FJEV -9-

10 F ASS 8 x P TV/ A P i P? CAINET PARTS LIST FOR MODELS CEP-C -0 Note: Parts order must contain Service Ref. No., Part No., and descriptions.,,,,,,,,,,,,,,,,,,,, 9 0 -/ Item Part No. Description CAINET PARTS ASSY,CAINET FR-EPE 0 9 UTTON POWER-EKC 0 98 CAINET ACK-FRCV 0 DEC SHEET-EPA 0 0 ASSY,GRILLE SP-FRA 0 0 SPRING-EGC 0 9 HOLDER AC CORD-GR-DVA 8 0 SPACER CUSHION-MY CRT SCREW X SCREW TPG X 0 0 HOLDER DEGAUSS COIL-FSC 0 9 UTTON UNIT A-EKC ACCESSORIES JXZ RC TRANSMITTER SKP0099 INST MANUAL (G,D) -0-

11 CHASSIS ELECTRICAL PARTS LIST Product safety should be considered when a component replacement is made in any area of a receiver. Components indicated by a! mark in this parts list and the circuit diagram show components whose value have special significance to product safety. It is particularly recommended that only parts specified on the following parts list be used for components replacement pointed out by the mark. Note: Parts order must contain Service Ref. No., Part No., and descriptions. Ref. No. Part No. Description Ref. No. Part No. Description Read description in the Capacitor and Resistor as follows: CAPACITOR CERAMIC 00P K 0V Rated Voltage Chassis construction CEP-0 (P) Tolerance Symbols: Less than 0PF A: Not specified : ±0.PF C: ±0.PF D: ±0.PF F: ±PF G: ±PF R: ±0.-0PF S: ±0-0.PF E: +0-PF More than 0PF A: Not specified : ±0.% C: ±0.% D: ±0.% F: ±% G: ±% H: ±% J: ±% K: ±0% L: ±% M: ±0% N: ±0% P: +00-0% Q: +0-0% T: +0-0% U: +-0% V: +0-0% W: +00-0% X: +0-0% Y: +0-0% Z: +80-0% Rated value: P=pico farad, U=Micro farad Material: CERAMIC... Ceramic MT-PAPER... Metallized Paper POLYESTER... Polyester MT-POLYEST... Metallized Polyester POLYPRO... Polypropylene MT-POLYPRO... Metallized Polypropylene COMPO FILM... Composite film MT-COMPO... Metallized Composite STYRENE... Styrene TA-SOLID... Tantalum Solid AL-SOLID... Aluminium Solid ELECT... Electrolytic NP-ELECT... Non-polarized Electrolytic OS-SOLID... Aluminium Solid with Organic Semiconductive Electrolytic DL-ELECT... Doble Layered Electrolytic RESISTOR CARON.K J A /W Rated Wattage Performance Symbols: A: General : Non flammable Z: Low noise Other: Temperature coefficient Tolerance Symbols: A: ±0.0% : ±0.% C: ±0.% D: ±0.% F: ±% G: ±% J: ±% K: ±0% M: ±0% P: +-% Rated value, ohms: K:,000, M:,000,000 Material: CARON... Carbon MT-FILM... Metal Film OXIDE-MT... Oxide Metal Film SOLID... Composition MT-GLAZE... Metal Glaze WIRE WOUND... Wire Wound CERAMIC RES.. Ceramic FUSILE RES... Fusible ASSY,PW,MAIN EPEV AA00H08K0 (Page ) ASSY,PW,SIF FRT AA00E0A (Page ) ASSY,PW,AUDIO FRT AA00E0 (Page ) ASSY,PW,CRT FRC AA00E00 (Page 8) OUT OF CIRCUIT-EPEV (Page 9) ASSY,PW,MAIN EPEV AA00H08K0 TRANSISTOR Q TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP Q TR JCA TR JC TR SA08-E-CTV-NP TR SA08-F-CTV-NP TR SA08-G-CTV-NP Q TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP Q TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP Q TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP Q TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP Q TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP Q TR JCA TR JC TR SA08-E-CTV-NP TR SA08-F-CTV-NP TR SA08-G-CTV-NP Q TR JCA TR JC TR SC-E-NP --

12 Ref. No. Part No. Description Ref. No. Part No. Description Q0 Q0 Q Q Q Q Q Q Q00 Q0 Q0 Q0 Q Q Q0 Q TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SA08-E-CTV-NP TR SA08-F-CTV-NP TR SA08-G-CTV-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SA08-E-CTV-NP TR SA08-F-CTV-NP TR SA08-G-CTV-NP TR JCA TR JC TR SA08-E-CTV-NP TR SA08-F-CTV-NP TR SA08-G-CTV-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR SC-O TR SC-Y TR SC-E TR SC-F TR SD-CTV-Y TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SA08-E-CTV-NP TR SA08-F-CTV-NP TR SA08-G-CTV-NP -- Q Q Q Q Q8 Q8 Q80 Q8 Q8 Q8 Q8 Q8 Q8 Q TR SC80-R-CTV-YA TR SC89-T-CTV-Y TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR SD00-D-MP TR SD00-E-MP TR SD00-F-MP TR SD9-Q-RA TR SD9-R-RA TR SD9-S-RA TR JCA TR JC TR SA08-E-CTV-NP TR SA08-F-CTV-NP TR SA08-G-CTV-NP TR PH TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SA08-E-CTV-NP TR SA08-F-CTV-NP TR SA08-G-CTV-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP TR JCA TR JC TR SC-E-NP TR SC-F-NP TR SC-G-NP INTEGRATED CIRCUIT IC IC TDAM IC IC LA IC IC TDA8/N IC IC UM IC IC LA8 IC 09 0 IC AN8M L IC A8MT IC L8M-RA IC L8MCV IC MC8MCT IC 09 0 IC AN8M08 L IC A8M08T IC L8M08-RA IC L8M08CV 09 0 IC MC8M08CT IC IC SAA90ZP/0 IC IC LC0/P IC IC LA90

13 Ref. No. Part No. Description Ref. No. Part No. Description CAPACITOR C00A CERAMIC 0.U Z V C CERAMIC 0.0U K 0V C00A CERAMIC 0.U Z V C ELECT U M V C ELECT U M V C ELECT U M V C MT-POLYEST 0.U K V 0 90 MT-COMPO 0.U J 0V C MT-POLYEST 0.U K V 0 90 MT-COMPO 0.U J 0V C MT-POLYEST 0.U K V 0 90 MT-COMPO 0.U J 0V C MT-POLYEST 0.U K V 0 90 MT-COMPO 0.U J 0V C ELECT 000U M V C ELECT 000U M V C ELECT U M V C CERAMIC 0.0U Z 0V C ELECT 000U M V C CERAMIC 000P K 0V C ELECT 0U M V C CERAMIC 00P J 0V C CERAMIC 0.0U K 0V C CERAMIC 000P K 0V C ELECT 0U M V C CERAMIC 00P J 0V C CERAMIC 0.0U K 0V C ELECT 0U M V C ELECT 0U M V C ELECT U M V C CERAMIC 000P K 0V C ELECT 0U M V C CERAMIC 00P J 0V C ELECT 0U M V C CERAMIC 000P K 0V C ELECT 0U M V C CERAMIC 00P J 0V C ELECT 0U M V C ELECT 0U M V C0A CERAMIC 0.0U Z 0V C CERAMIC 80P J 0V C ELECT U M V C ELECT 0U M V C ELECT U M 0V C0TM CERAMIC 0.0U Z 0V C MT-GLAZE ZA W C MT-GLAZE ZA W C CERAMIC 0.0U Z 0V C ELECT 0U M V C CERAMIC 0.0U Z 0V C CERAMIC 00P J 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C MT-GLAZE ZA W C CERAMIC 000P K 0V C CERAMIC 0.0U Z 0V C ELECT.U M 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C ELECT 0U M V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 0.0U Z 0V C CERAMIC P J 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC P C 0V C CERAMIC P C 0V C CERAMIC 9P J 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C MT-POLYEST 0.U K V MT-COMPO 0.U J 0V C CERAMIC 000P K 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V -- C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 8P J 0V C MT-POLYEST 0.U K V MT-COMPO 0.U J 0V C CERAMIC 00P K 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 000P K 0V C ELECT.U M 0V C MT-POLYEST 0.U K V MT-COMPO 0.U J 0V C NP-ELECT.U M 0V C ELECT U M 00V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 80P J 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 0P J 0V C CERAMIC 0P D 0V C CERAMIC 000P K 0V C CERAMIC 000P K 0V C CERAMIC 0.0U Z 0V C ELECT 0U M V C MT-POLYEST 0.U K V MT-COMPO 0.U J 0V C MT-POLYEST 0.0U K V 0 0 MT-COMPO 0.0U J 0V C CERAMIC 00P K 0V C ELECT U M 0V C CERAMIC 00P K 0V C CERAMIC 0.0U Z 0V C ELECT 00U M V /!\C MT-POLYPRO 800P J.K C 0 0 CERAMIC 0P K K CERAMIC 0P K K 0 00 CERAMIC 0P K K C CERAMIC 000P K 00V C CERAMIC 000P K 00V C CERAMIC 900P K 00V C ELECT U M V C MT-POLYEST 0.U J 0V C POLYESTER 0.0U K 0V POLYESTER 0.0U K 0V /!\C 0 0 POLYPRO 0.U J 00V C ELECT 0U M 0V C CERAMIC 00P K 00V C MT-POLYEST 0.U K 0V C ELECT 0U M V C ELECT 0U M V C CERAMIC 9P J 0V C CERAMIC 0.0U Z 0V C CERAMIC 000P K 00V C MT-POLYEST 0.U K 00V 0 80 MT-COMPO 0.U J 00V C MT-POLYEST 0.U K 00V 0 0 MT-COMPO 0.U J 00V C ELECT 000U M V C ELECT 0U M 0V C ELECT 0U M 0V C CERAMIC 00P K 00V /!\C MT-POLYEST 0.U M V MT-COMPO 0.U M 0V

14 Ref. No. Part No. Description Ref. No. Part No. Description /!\C MT-POLYEST 0.U M V MT-COMPO 0.U M 0V C CERAMIC 000P M K C CERAMIC 000P M K C CERAMIC 000P M K C CERAMIC 000P M K C ELECT 0U M 00V ELECT 0U M 00V C POLYESTER 00P K 0V POLYESTER 00P K 0V C MT-POLYEST 0.U K V MT-COMPO 0.U J 0V C POLYESTER 0.0U J 0V POLYESTER 0.0U J 0V C 0 80 CERAMIC 80P K K 0 09 CERAMIC 80P K K C POLYESTER 0.0U K 0V POLYESTER 0.0U K 0V /!\C CERAMIC 00P M 00V CERAMIC 00P M 00V CERAMIC 00P M 00V /!\C CERAMIC 0P K 00V CERAMIC 0P K 00V CERAMIC 0P M 00V C CERAMIC 0.0U Z 0V C 0 90 CERAMIC 80P K K 0 0 CERAMIC 80P K K CA ELECT 0U M 00V C ELECT 0U M V C ELECT 00U M V C ELECT 00U M V C CERAMIC 0.0U Z 0V C ELECT 0U M V C CERAMIC 0.0U Z 0V C ELECT U M V C 0 00 ELECT 00U M 0V C ELECT.U M 0V C ELECT 000U M V C CERAMIC 0.0U Z 0V C ELECT 000U M 0V C ELECT.U M 0V C MT-POLYEST 0.U K V MT-COMPO 0.U J 0V C ELECT U M 0V C ELECT U M 0V C ELECT.U M V C ELECT.U M V C CERAMIC 0.0U Z 0V C CERAMIC P J 0V C8 0 9 POLYESTER 00P J 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C ELECT U M V C CERAMIC P J 0V C CERAMIC P J 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 00P K 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 0.0U Z 0V C ELECT 0U M V C CERAMIC P J 0V C CERAMIC P J 0V C CERAMIC 0.0U Z 0V RESISTOR R MT-GLAZE K JA W R MT-GLAZE.8K JA W R MT-GLAZE K JA W R MT-GLAZE.8K JA W R CARON JA /W R CARON.K JA /W R CARON JA /W R CARON.K JA /W R CARON. JA /W -- R CARON. JA /W R MT-GLAZE.K JA W R CARON 0 JA /W R MT-GLAZE K JA W R MT-GLAZE K JA W R MT-GLAZE 0K JA W R MT-GLAZE ZA W R MT-GLAZE 0 JA W R MT-GLAZE.K JA W R MT-GLAZE 0 JA W R MT-GLAZE.K JA W R CARON JA /W R MT-GLAZE 9K JA W R MT-GLAZE K JA W R CARON JA /W R CARON JA /W R MT-GLAZE ZA W R CARON JA /W R MT-GLAZE 00 JA W R CARON JA /W R CARON 00 JA /W R CARON JA /W R MT-GLAZE.K JA W R CARON 90 JA /W R CARON 0K JA /W R MT-GLAZE 0 JA W R MT-GLAZE 0 JA W R MT-GLAZE.K JA W R MT-GLAZE 0 JA W R MT-GLAZE.K JA W R MT-GLAZE 9K JA W R MT-GLAZE K JA W R CARON JA /W R CARON JA /W R CARON 0 JA /W R MT-GLAZE 0 JA W R MT-GLAZE 0 JA W R MT-GLAZE 0 JA W R MT-GLAZE K JA W R MT-GLAZE 0K JA W R MT-GLAZE 80 JA W R MT-GLAZE 80 JA W R MT-GLAZE K JA W R MT-GLAZE.K JA W R MT-GLAZE.K JA W R MT-GLAZE 0K JA W R MT-GLAZE 00K JA W R MT-GLAZE.K JA W R MT-GLAZE 0K JA W R MT-GLAZE 00K JA W R MT-GLAZE.K JA W R MT-GLAZE ZA W R CARON 80 JA /W R MT-GLAZE K JA W R MT-GLAZE 0K JA W R MT-GLAZE K JA W R MT-GLAZE K JA W R MT-GLAZE K JA W R CARON 0K JA /W R CARON K JA /W R MT-GLAZE 80 JA W R MT-GLAZE.8K JA W R MT-GLAZE K JA W R MT-GLAZE 00 JA W R MT-GLAZE.K JA W R MT-GLAZE.8K JA W R CARON K JA /W R CARON 80 JA /W R CARON 80 JA /W R MT-GLAZE K JA W R MT-GLAZE.K JA W R MT-GLAZE K JA W R MT-GLAZE K JA W R MT-GLAZE 90 JA W R MT-GLAZE K JA W R CARON 80 JA /W R MT-GLAZE K JA W

15 Ref. No. Part No. Description Ref. No. Part No. Description R MT-GLAZE 0 JA W R CARON 0 JA /W R CARON 0 JA /W R MT-GLAZE K JA W R MT-GLAZE K JA W R90A MT-GLAZE ZA W R MT-GLAZE 8.K JA W R90A MT-GLAZE ZA W R MT-GLAZE.K JA W R90A MT-GLAZE ZA W R MT-GLAZE.K JA W R MT-GLAZE.K JA W R MT-GLAZE ZA W R MT-GLAZE 0K JA W R MT-GLAZE 0 JA W R MT-GLAZE.K JA W R MT-GLAZE 0 JA W R9 0 0 MT-GLAZE 0 JA W R MT-GLAZE 90 JA W R CARON.8K JA /W R MT-GLAZE K JA W R MT-GLAZE 0K JA W R MT-GLAZE 0 JA W R CARON K JA /W R MT-GLAZE K JA W R MT-GLAZE 00K JA W R CARON 00 JA /W R CARON 00 JA /W R CARON 00 JA /W R MT-GLAZE 00 JA W R MT-GLAZE 00 JA W R MT-GLAZE 00 JA W R MT-GLAZE K JA W R CARON.K JA /W R MT-GLAZE.K JA W R MT-GLAZE 00 JA W R MT-GLAZE K JA W R CARON K JA /W R CARON K JA /W R MT-GLAZE K JA W R CARON 0K JA /W R CARON K JA /W R CARON 9K JA /W R CARON 0K JA /W R MT-GLAZE 0 JA W R MT-GLAZE 0 JA W R CARON 00 JA /W R CARON 0 JA /W R CARON 00 JA /W R CARON M JA /W R MT-GLAZE 0K JA W R MT-GLAZE 00 JA W R MT-GLAZE K JA W R MT-GLAZE 90K JA W R MT-GLAZE K JA W R MT-GLAZE 00 JA W R MT-GLAZE.K JA W R MT-GLAZE 0 JA W R MT-GLAZE 0 JA W R CARON 0 JA /W R OXIDE-MT 90 JA W RA WIRE WOUND 8. KA W WIRE WOUND 8. KA W R 0 0 CARON K JA /W R OXIDE-MT K JA W R CARON.K JA /W R CARON 0 JA /W R OXIDE-MT.8 JA W R CARON 80K JA /W R CARON.K JA /W R CARON.K JA /W R FUSILE RES. J- /W R CARON K JA /W R WIRE WOUND.9 KA W R CARON.K JA /W R CARON K JA /W -- R CARON.K JA /W R CARON JA /W R CARON 0K JA /W R CARON 0K JA /W R CARON K JA /W R CARON.K JA /W R OXIDE-MT JA W R OXIDE-MT 9 JA W R CARON.K GA /W /!\R SOLID.M KA /W /!\R SOLID.M KA /W R CARON 00K JA /W R CARON.K JA /W R CARON 0K JA /W R CARON K JA /W R CARON K JA /W R WIRE WOUND. KA W WIRE WOUND. KA W R OXIDE-MT JA W R OXIDE-MT 9 JA W R OXIDE-MT JA W R CARON 0 JA /W R CARON JA /W R OXIDE-MT.K JA W R OXIDE-MT.9K JA W R CARON.8K JA /W R OXIDE-MT 8 JA W R CARON 8.K JA /W R CARON K JA /W R CARON.K JA /W R MT-GLAZE ZA W R MT-GLAZE.K JA W R MT-GLAZE 80K JA W R CARON 0K JA /W R CARON 0K JA /W R CARON 0K JA /W R CARON.9K JA /W R CARON.K JA /W R MT-GLAZE.9K JA W R CARON K JA /W R CARON 00 JA /W R MT-GLAZE 0K JA W R CARON 8.K JA /W R MT-GLAZE 8K JA W R CARON.K JA /W R MT-GLAZE 0K JA W R MT-GLAZE K JA W R MT-GLAZE K JA W R CARON.K GA /W R MT-GLAZE.9K JA W R MT-GLAZE.K JA W R MT-GLAZE K JA W R CARON K JA /W R CARON 0 JA /W R MT-GLAZE K JA W R CARON.K JA /W R MT-GLAZE 0K JA W R MT-GLAZE.9K JA W R MT-GLAZE 0K JA W R MT-GLAZE.K JA W R MT-GLAZE 0K JA W R MT-GLAZE.K JA W R MT-GLAZE K JA W R MT-GLAZE K JA W R MT-GLAZE K JA W R MT-GLAZE.K JA W R MT-GLAZE K JA W R MT-GLAZE K JA W R MT-GLAZE 80 JA W R MT-GLAZE.K JA W R MT-GLAZE.K JA W R MT-GLAZE.K JA W R MT-GLAZE.K JA W R MT-GLAZE K JA W R80A CARON K JA /W R MT-GLAZE.K JA W

16 Ref. No. Part No. Description Ref. No. Part No. Description R MT-GLAZE K JA W R MT-GLAZE.K JA W R MT-GLAZE 0K JA W R MT-GLAZE.K JA W R MT-GLAZE 0K JA W R MT-GLAZE 8.K JA W R MT-GLAZE.K JA W R MT-GLAZE 0K JA W R MT-GLAZE K JA W R MT-GLAZE 0 JA W R MT-GLAZE.9K JA W R MT-GLAZE 0 JA W R MT-GLAZE.9K JA W R MT-GLAZE 00 JA W R MT-GLAZE 00 JA W R MT-GLAZE.K JA W R MT-GLAZE.K JA W R MT-GLAZE K JA W R MT-GLAZE K JA W R MT-GLAZE.K JA W R MT-GLAZE K JA W R CARON K JA /W R CARON K JA /W VARIALE RESISTOR VR 00 VR,SEMI,0K N VR 00 VR,SEMI,0K N VR0 00 VR,SEMI,00 N VR 00 VR,SEMI,.K N TRANSFORMER T 0 0 S COIL T DRIVE TRANS DRIVE TRANS /!\T 0 98 TRANS,FLYACK /!\T 0 TRANS,POWER,PULSE T POWER TRANS 0 0 POWER TRANS COIL L00 L00 L00 L00 L00 L0 L0 L0 L0 L0 L0 L0 L0 L L L L0 L0 L0 L L L L LA L L0 /!\L0 L0 L08 L L L L8 L88 DIODE 00 8 CORE,PIPE 00 INDUCTOR,0U K 00 INDUCTOR,0U K 00 INDUCTOR,0U K 00 INDUCTOR,0U K 00 INDUCTOR,0U K INDUCTOR,.U K 00 8 CORE,PIPE 00 INDUCTOR,0U K 00 INDUCTOR,0U K 00 INDUCTOR,0U K 00 INDUCTOR,0U K INDUCTOR,.U K 00 0 PEAKING COIL 0UH INDUCTOR,8.U K INDUCTOR,U K 00 INDUCTOR,0U K 00 INDUCTOR,0U K 00 INDUCTOR,0U K INDUCTOR,.U K INDUCTOR,.U K INDUCTOR,U M 00 8 CORE,PIPE LINEARITY COIL COIL 008 INDUCTOR,.U K 0 LINE FILTER PIPE CORE PIPE CORE 00 8 CORE,PIPE 00 8 CORE,PIPE 00 8 CORE,PIPE INDUCTOR,.U K 00 9 INDUCTOR,.U M D00 D00 D008 D00 D0 D0 D0 D0 D0 D0 D0 D0 D D90A D90 D90 D90 D0 D0 D0 D0 D D D D D D D9 D D D D8 D8 D0 D0 D0 D ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZ.C ZENER DIODE RD.E 0 80 ZENER DIODE UZ-.CC ZENER DIODE MTZJC ZENER DIODE UZ-SC 0 0 LED SLP ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC DIODE SS ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZJC ZENER DIODE UZ-SC DIODE SS DIODE SS DIODE SS DIODE SS DIODE DSX DIODE S DIODE S0A DIODE S ZENER DIODE MTZ.C ZENER DIODE RD.E ZENER DIODE UZ-.CC ZENER DIODE MTZJC ZENER DIODE UZ-SC ZENER DIODE MTZ9.A ZENER DIODE MTZ ZENER DIODE RD9.E ZENER DIODE RD9.E ZENER DIODE UZ-9.CA 0 0 ZENER DIODE UZ-9.C DIODE EM0Z DIODE ER DIODE DSX DIODE S DIODE S0A DIODE S DIODE SS DIODE SS ZENER DIODE UZ-.CC 0 90 ZENER DIODE UZ-8.CA DIODE EU DIODE SS DIODE SS DIODE EM0Z DIODE YDD ZENER DIODE Z DIODE ERC DIODE RMC DIODE ERC0-0 --

17 Ref. No. Part No. Description Ref. No. Part No. Description D0 D0 D /!\D D D D8 D9 D D D D D D D D D D D8 D8 D8 D8 D8 D8 D8 D8 D DIODE RMC DIODE ERC DIODE RMC DIODE ERC DIODE RMC DIODE DSX DIODE S DIODE S0A DIODE S PHOTO COUPLE PC PHOTO COUPLE CNYF-OPT DIODE DSX DIODE S DIODE S0A DIODE S DIODE ES DIODE ESZ DIODE YDD DIODE DSX DIODE S DIODE S0A DIODE S ZENER DIODE MTZC ZENER DIODE RDE 0 00 DIODE EUA DIODE EU DIODE EUZ 0 0 DIODE ERC9-0L 0 0 DIODE ERC9-0L ZENER DIODE MTZ.C ZENER DIODE MTZ.8A ZENER DIODE RD.E ZENER DIODE RD.8E ZENER DIODE UZ-.CC ZENER DIODE UZ-.8CA DIODE SS DIODE SS ZENER DIODE MTZ.C ZENER DIODE RD.E 0 80 ZENER DIODE UZ-.CC DIODE SS DIODE SS DIODE SS DIODE SS IC HZT IC L IC UPCJ DIODE EM0Z ZENER DIODE MTZ.C ZENER DIODE RD.E 0 80 ZENER DIODE UZ-.CC DIODE EM0Z DIODE N DIODE S DIODE SS DIODE SS DIODE DSX DIODE S DIODE S0A DIODE S DIODE SS DIODE SS DIODE SS DIODE SS ZENER DIODE RD.EL MISCELLANEOUS /!\F0 0 0 FUS A A0 0 TUNER,U/V A90 00 UNIT,REMOCON RECEIVER 0 80 RC PREAMP 09-L TP-A TERMINAL,PLUG TP TERMINAL,PLUG TP-D TERMINAL,PLUG TP-E TERMINAL,PLUG K PLUG,P K SOCKET,RG P -- K00Z K00 K00Z /!\PS0 SW90 SW90 SW90 SW90 SW0 /!\SW0 X X X X0 X8 YO ASSY,PW,SIF FRT 0 9 SOCKET P 0 8 MOUNTING-RKT FWV 00 8 SOCKET,RG P 0 9 SOCKET P 0 8 MOUNTING-RKT FWV THERMISTOR 90PE80MR THERMISTOR PAA SWITCH,PUSH SWITCH,PUSH SWITCH,PUSH SWITCH,PUSH SWITCH,LEVER P-T 0 00 PUSH SW POWER SDDFC SAW F TSF SAW F TSFU TRAP,CERAMIC.MHZ TRAP,CERAMIC.MHZ 0 CRYSTAL OSCILL.MHz 0 89 OSC,CRYSTAL MHZ TERMINAL PLUG AA00E0A TRANSISTOR Q TR SC8-F-TA TR SC8-F-TA INTEGRATED CIRCUIT IC IC TDAA/V IC IC TDA98/V CAPACITOR C CERAMIC 0.0U Z 0V C CERAMIC 0.0U Z 0V C CERAMIC 00P K 0V C MT-POLYEST 0.U J V MT-COMPO 0.U J 0V C CERAMIC P J 0V C ELECT 0U M V C CERAMIC 0.0U Z 0V C ELECT 0U M V C CERAMIC 0.0U Z 0V C ELECT.U M 0V C ELECT.U M 0V C ELECT.U M 0V RESISTOR R MT-GLAZE 00 JA W R MT-GLAZE 0K JA W R MT-GLAZE.8K JA W R MT-GLAZE 0 JA W R MT-GLAZE JA W R MT-GLAZE 0 JA W R MT-GLAZE 0 JA W R MT-GLAZE K JA W R MT-GLAZE ZA W R MT-GLAZE ZA W TRANSFORMER T S COIL MISCELLANEOUS K8H 0 0 TERMINAL P K8H 0 0 TERMINAL P X SAW F OFWG9M X CERAMIC FILTER X CERAMIC FILTER.MHZ ASSY,PW,AUDIO FRT AA00E0 TRANSISTOR Q TR C TR SC8-L-TA Q TR C TR SC8-L-TA Q TR C TR SC8-L-TA Q TR C TR SC8-L-TA Q TR C88-

18 Ref. No. Part No. Description Ref. No. Part No. Description TR SC8-L-TA Q TR C TR SC8-L-TA INTEGRATED CIRCUIT IC IC HD0P IC MN IC TC0P IC UPD0C IC IC TDA980/V IC 09 0 IC TDA8 CAPACITOR C ELECT 0U M V C ELECT 0U M V C CERAMIC 0.0U K 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 00P G V C ELECT 00U M V C MT-GLAZE ZA W C CERAMIC P J 0V C ELECT.U M 0V C ELECT.U M 0V C CERAMIC 0.0U K 0V C CERAMIC 0.0U K 0V C CERAMIC 0.0U Z 0V C ELECT 0U M V C ELECT U M 0V C ELECT 00U M V C ELECT U M 0V C CERAMIC 0.U Z V CERAMIC 0.U Z 0V C CERAMIC 0.0U K V CERAMIC 0.0U K 0V C CERAMIC 00P K 0V C CERAMIC 00P K 0V C CERAMIC 0.0U K V CERAMIC 0.0U K 0V RESISTOR R MT-GLAZE.K JA W R MT-GLAZE.8K JA W R MT-GLAZE 8K JA W R MT-GLAZE 8K JA W R MT-GLAZE 0 JA W R MT-GLAZE.K JA W R MT-GLAZE 8K JA W R MT-GLAZE 8K JA W R MT-GLAZE 0 JA W R MT-GLAZE.K JA W R MT-GLAZE 00 JA W R MT-GLAZE 00 JA W R MT-GLAZE 0K JA W R MT-GLAZE 00 JA W R MT-GLAZE 00 JA W R MT-GLAZE 00 JA W R MT-GLAZE.K JA W R MT-GLAZE 00 JA W R MT-GLAZE.K JA W R MT-GLAZE.K JA W R MT-GLAZE.K JA W R MT-GLAZE.K JA W R MT-GLAZE.K JA W TRANSFORMER T0 0 9 COIL,FERRITE.M COIL L MT-GLAZE ZA W MISCELLANEOUS X0 0 OSC,CRYSTAL 0MHZ ASSY,PW,CRT FRC AA00E00 TRANSISTOR Q TR SC-D-RA TR SC-E-RA TR SC88()-K TR SC88()-L TR SC88()-M -8- Q Q Q0 Q TR SC-D-RA TR SC-E-RA TR SC88()-K TR SC88()-L TR SC88()-M TR SC-D-RA TR SC-E-RA TR SC88()-K TR SC88()-L TR SC88()-M TR JCA TR JC TR SA08-E-CTV-NP TR SA08-F-CTV-NP TR SA08-G-CTV-NP TR JCA TR JC TR SA08-E-CTV-NP TR SA08-F-CTV-NP TR SA08-G-CTV-NP CAPACITOR C CERAMIC 0P K 0V C CERAMIC 0P K 0V C CERAMIC 0P K 0V C CERAMIC 000P P K C ELECT U M 0V ELECT U M 0V C ELECT 0U M V RESISTOR R CARON 0 JA /W R CARON.9K JA /W R CARON K JA /W R OXIDE-MT K JA W R CARON.K JA /W R CARON 0 JA /W R CARON.9K JA /W R CARON.K JA /W R OXIDE-MT K JA W R CARON.K JA /W R CARON 0 JA /W R CARON.9K JA /W R CARON.8K JA /W R OXIDE-MT K JA W R CARON.K JA /W R CARON 0 JA /W R CARON.K JA /W R CARON.K JA /W R CARON 0 JA /W R CARON 0K JA /W R CARON 0K JA /W VARIALE RESISTOR VR0 00 VR,SEMI,.K N VR0 00 VR,SEMI,K N VR 00 VR,SEMI,.K N VR 00 VR,SEMI,K N VR 00 VR,SEMI,.K N COIL L0 L L DIODE D0 D D D INDUCTOR,0U K INDUCTOR,0U K INDUCTOR,0U K DIODE S DIODE S DIODE S DIODE S MISCELLANEOUS KM TERMINAL,PLUG KP 00 9 PLUG,P KQ PLUG,P K CRT SOCKET

19 Ref. No. Part No. Description Ref. No. Part No. Description OUT OF CIRCUIT -EPEV PICTURE TUE(VIDEOCOLOR) /!\Q CRT AEVX09 COIL /!\L90 00 COIL,DEGAUSSING 00 COIL,DEGAUSSING MISCELLANEOUS SP SPEAKER SPEAKER SP SPEAKER SPEAKER /!\W90 0 ASSY,CORD,POWER W GROUNDING CONNECTOR -9-

20 Ref. No. Part No. Description Ref. No. Part No. Description -0-

21 K00 R0 C HUE GZ GZ L0 IF R.K L9 RKN -Y IN M C R08 8 C0 GZ GZ T80 0.FA SL000XV 0/0 :0.FA C0 9 R-Y IN EM C0 C80 C80 R80 L C0A 0.0FA 0.0FA 00 0.FA :0.FA 0 R-Y OUT C0 0.0FA AGC R80 0.0FA V V R80 R8 R8 GJ0 GJ GZ GZ -Y OUT H C0 0K S C0 EM Q80 IF KK00A SC TU C0 8 SECAM EM (F:F) R80 R80 C0 U C0A K8H P00 K8H GK0.V 0.0FA GJ GJ.8K EZ08A AA0E000A EZ08A :EZ0 :EZ0 :HJ0.G COL-PLL R0 TP-A Y0 J000N 00K Y0 J000N.8XTAL C0 R0 CJ8CA J000N Y0 Y0 Y0 KH KH R 8.K.XTAL R80 X X X0 0 J000N J000N J000N S.K V00N :VE0XC H-START D8 C C S AF EM :S0A FA R89 :S AF H-OUT K :DSX R D MTZJC Q8 00 :UZ-SC SC 8 V H-F/ (E-NP:F-NP R R S.C.P :G-NP) :QT08(A:) 90K D8 K 9 H-SHIFT EM0Z VR C R08XMT C KK00 PRO :RD0NJ EM A TECT <-0K> R R 0 J AFC C D GJ KK00 SS 0K A D8 IC :SS ED0 V-F/ AN8M-L R C :S :A8MT GK0.0V :L8M-RA Q 00 :HJ0.0G D D :L8MCV SD00 V-RAMP PC SS :MC8MCT R (D-MP V R C T8 R :EL099 :SS SJ :E-MP M GK0.V PT0 <CNYF-> :F-MP) 8 0K :HJ0.G :LPT00- V V-OUT T R L090N 00 D8 D C AFT D R RDE SS 0EM :UZ-CC 00T ERC9-0L WK.I R :SS C D0/.../D0 :MTZC KK000A R0 0 ERC0-0 D WK.9I :RMC RD.E IF IN-M V :UZ-.CC C X L SF D0 D0 C0 :MTZ.C Z000N C GZ0.0 :SFU EM R IF IN-P 00T V C C0 C0 R C FA 00EM D SJ EM 0 ERC9-0L 0T TU AGC (X:XG) C C0 R R R8 EM. V C0/.../C0 L L C K.8K.K 8 AGC CAP. 000KM000AHD D0 D0 C0 R0 Z000N Z000N R R C8 :000KK000C EM / SJ9 00T 0K C FA 9 AGC A. R C C0 0.0FA / 000KK 0K D 8V F R C R EU C (AHH VR A-OUT R C :EUZ SJ9 0 IC EM :CT) 0.0FA GJK R08XMT FK00.K R D AN8M08-L :RD0NJ V (E:D) C :A8M08T <-OK> EM R :L8M08-RA Q K D 0T :L8M08CV TP- SA08 EUA R9 0K :MC8M08CT J000N (ECNP:FCNP Q- C- IDENT Z0 :GCNP) 0HA V AASHF0-- :QT09 R (A:) C Q R C 00K GK0.V SC89LY C /K IC0 C- Z0 D8 000KK80 00EM :HJ0.G :SC89MY C TDA8/N (AHH:CT) 0XD R TP-E AASHF0-- J000N 0.FA K :0.FA D9 D R SJ VR MTZC ESZ R0XMT :RD D :ES R E :ED08 DG L0 :RDNJ J <-K> Q.K 8 0 SC (E-NP:F-NP:G-NP) R R D :QT08(A:).K.K R MTZ.C Y :MTZ.8A /CK R R R :RD.E.MXG :RD.8E D/D/D8.K K /CK J000N S.MXG :S0A Y C Q C C :S FJ0.0 SC80 FK0.0 00KM00XS J000N :DSX (E:D) RYA (E:D) :00KK00(XH:XP) JEK- :J090N L00 Z000N R K SW90 SW90 SW90 SW90 V R88 8K R8 K VOL - VOL + POS - POS + R80 80K TP-D J000N C 0.FA :0.FA R9.8K Q80 PH9 C8 EM C8 EM R90 GZ 0.0 R90.K R90.K R90.K R90 8.K R90 K C8 EM. C88 EM. R909.K R9 GJ90 R8 K R8 8.K R8 K R8.K R908 0 SW90/.../SW90 R900 K D90 MTZJC :UZ- SC SHARP NESS S00N S00N CONT D90A SLP-8- D90- M09-A RIGHT R80.K R8.9K R8 0K R80 0K R8.9K 8V Q SC (E-NP:F-NP :G-NP) :QT08(A:) R90 0K 0/0 TV/AV S-VHS AV SC SC IGNOR COLOUR R88 K R8 GJK R8 GJK R9 GJ0 J00 J R8.K R8 00 R89.K R8.K R8.K R8.9K R8 0K C8 0.0FA R8.K R8 0K R88.K R8 GJK C00 0.FA :0.FA C00 0.FA :0.FA C00 0.FA :0.FA R00 K J0 J R8 K R8 0K R800.K TUNING RIGHT CONT CLR SHARP NESS POWER AFT 0/0 VSSD TV/AV S-VHS AV SC SC IGNOR VSSA CVS0 CVS LACK IREF R89 IC80.K QXXAV00---N AND AND SDA SCL SOUND MUTE RC IN IDENT PROTECT VDDM RESET X-OUT X-IN OSC VDDT VDDA V-SYNC H-SYNC LK RGREF SERVICE ODD/EVEN R G C88 CJCA C88 CJCA X8 V00N :V090N C8 CJCA C8 0.FA :0.FA R89 K R00 0K C89 0.0FA R898 K R88 0 R88 0 R9 0 C8 0.FA :0.FA R89 K R89.K R88.9K D8 SS :SS C8 EM L8 LC RKN C8 CJCA Q8 QT08(A:) :SC(E-NP :F-NP:G-NP) R80A K R8.K D8 SS :SS R00 0 R8 K R8.K R88.9K R89 0K Q8 R880 GJK C89 0.FA :0.FA R89.K Q00 SC (E-NP:F-NP :G-NP) :QT08(A:) VCC SCL SDA R8.K R8 K SOUND MUTE C90 KK000A IDENT D8 RD.EL R8 0K Q8 SC (E-NP:F-NP :G-NP) :QT08 (A:) C8 FJ00 (D:E) R8 8.K R8.K R8 0K Q8 SA08 (ECNP:FCNP :GCNP) :QT09 (A:) R88.K R8.K R8.K R8.K R8 80 R88.K V 8 C88 KK 00A R89 GJK Q8 C88 0.0FA R R R8 K L88 LCRMN C88 EM 0 IC80 C0A/P :LC0/P :STC0A J0 J Q8/Q8/Q8 SC (E-NP:F-NP :G-NP) :QT08(A:) Q8 LK R G SDA SCL A90 U000 PRO TECT AV TV/AV V R0 K Q0 SC (E-NP:F-NP :G-NP) :QT08(A:) R0 0K R00 GJ0 C00 KK000 A C00 EM 0 L00 L9 00KN SC R-OUT R00 GJ0 L00 L9 00KN C00 EM 0 IC0 LA R00 GJ.K L00 L9 00KN C0 EM 0 TV CTL R00 GJ.K C00 KK000 C00 C00 A CJ00CA CJ00CA SC L-OUT Q00 SC R-IN Q00/Q00 SC (E-NP:F-NP :G-NP) :QT08(A:) C00 KK 0.0A V R0.K R0 GJ 00K R0 GJK Q00 R0 0K L00 L9 00KN C008 KK 0.0A SC L-IN R0 GJ 00K R0.K AV R0 0K CTL R00 R008 D00 MTZJC :UZ- SC R00 GJ9K R00 GJK R0 GJK AV R009 D00 MTZJC :UZ- SC D008 MTZJC :UZ- SC SC OUT 8 R0 00 VCC R00 D0 MTZJC :UZ-SC R0 0 R0 0 R0 0 9 D0 RD.E :UZ-.CC :MTZ.C R0 R0 R0 00 C009 EM 0 D00 MTZJC :UZ-SC R0 GJ.K R0 Q00 90 SA08 (ECNP:FCNP:GCNP) :QT09(A:) Q00 SC (E-NP:F-NP:G-NP) :QT08(A:) R G C0 0.0F R00 80 V LK V R0 0K Q00 SC (E-NP:F-NP:G-NP) :QT08(A:) R08 0 IGNOR 8 MUTE DEGAUSSING COIL L90 L80 (00:00) W90 W00000 C8 0EM 000T Q8 SA08 (ECNP:FCNP:GCNP) :QT09(A:) KE- J0 00N KE KE- J0 00N KF- J0 00N KF KF- J0 00N D8 SS :SS C00 00KK 00A R SJ.K R SJ.9K C EM. SW0 S09N R80 0K C80 GK0.V :HJ0.G Q8 SD9QRA :SD9RRA :SD9SRA D8 RD.E :UZ-.CC :MTZ.C R8 K PS0 EV009 J09 J C0 0HM0.XD :0GM0.XC 0V OUT- OUT- IN- IN- VDD OUT- OUT- R8 8.K VCC R8 SJ8 L0 Z D HZT :L0 :UPCJ 8 9 F0 A0VTCSL <TAH0V> R80 0K IC80 LA90 R8 /.8K C8 0.0FA C8 EM. R89 GJK R89 GJK R808.9K C0 0HM 0.XD :0GM 0.XC C8 EM 000MJ L0 F00N L08 Z D8 EM0Z R80 0K ASSY,PW,MAIN EPEV AA00H08K0 C0 EM 0CD A0 FE00 L0 L9 00KN V X80 OFWG9M C80 GJ 0.V :HJ0.G C 00KM0XS :00KK0 (XH:XP) Y J000N Y J000N IC80 C80 CJ CA C80 KK00A TDAA 8 9 R8 X8 0 F000N <.M> 0 C FA C80 EM0 R8 0 X8 F00N <.M> ASSY,PW,SIF FRT AA00E0A.M N.C N.C N.C N.C AF IC8 TDA98/V.M VCC CSTA VCO REF C 8 AF C 9 0 C8 EM 0 C8 0.0FA C8 EM. R8 GJK C8 EM. C8 EM. R R 00 0 D RD.E :UZ-.CC :MTZ.C C EM0 R.K C KK 000A C KK 000A 9 0 VCC R-Y OUT -Y OUT REF -Y IN NC R-Y IN 9 0 ❶ ❷ ❸ ❹ ❺ ❻ COLOUR TELEVISION CHASSIS SERIES Model Number: SERVICE REF.NO. E P/CEP-C CEP-C-0 The service Precaution: 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. Product safety notice: Product safety should be considered when a component replacement is made in any area of a receiver. Components indicated by a mark /!\ in this circuit diagram show components whose values have special significance to product safety. It is particularly recommended that only parts specified on the part service manual be used for components replacement pointed out by the mark. PRECAUZIONE DI SERVIZIO L'area inclusa in questa linea ( ) è collegata direttamente con la tensione della rete CA quando si serve l'area collegare un trasformatore isolante tra il ricevitore TV e la linea CA per eliminare il pericolo di scossa elettrica. NOTIZIE SULLA SICUREZZA DI FUN- ZIONAMENTO Ogni sotituzione di componenti va fatta tenendo conto della sicurezza di funzionamento. I componenti indicati sollo schema con il simbolo /!\ hanno particolare importanza per il sicuro funzionamento del TV. I suddetti componenti devono essere sostituti esclusivamente con quelli indicati nell'elenco. Note sul diagramma di circuito :. Tutte i valori di resistenza sono in ohm, K=,000, M=,000,000.. Tutte le resistenze nominali watt sono di / a meno che sia specificato altrimenti.. Eccetto per i condensatori elettrolitici, tutti i valori di capacitanza di meno di sono espressi in µf, e di piu di sono in pf. I varoli di capacitanza elettrolitici sono in µf.. Tutti volt di capacitanza nominali sono di 0V a meno cha sia indicato altrimenti.. Tutti valori di inductanza sono in µh.. I valori letti del voltaggio presi con un "VTVM" proven gono dal punto indicato sulla massa del chassis, i valori di voltaggio presi usando un segnale di barre colore sono con tutti i controlli alle loro posizioni normali ed il commutatore AFC in posizione "OFF". Il voltaggio puo variare con l'intensita del segnale.. Le forme di onda furono prese con il segnale di barre colore e i controlli regolati oppure le forme di onda di immagine normale furono prese usando un oscillatore a larga banda ed una sonda bassa capasità. 8. Rispetto a quando indicato su questo schema possono essere state introdotte delle modifiche. 9. I diodo S possono essere sostitutti con S, S0 oppure DS a meno che sia specificato altrimenti. I transistori possono essere sostitutti con SC(Q,R,S), SC0(Q,R,S), SC9A(Q,R,P) oppure SC8(G,O,Y) a meno che sia specificato altrimenti. Il transistore SA08(E,F) puo essere sostituito con SA9(Q,R), SA(QA,RA), oppure SA0(O,Y) a meno che sia specificato altrimenti. Circuit diagram notes :. All resistance values are in ohms, K=,000, M=,000,000.. All resistance rated wattages are /W unless otherwise noted.. Excepting electrolytic capacitors, all capacitance values of less than are expressed in µf and more than are pf.. All capacitance rated voltages are 0V unless otherwise noted.. All inductance values are in µh.. Voltage readings taken a digital voltmeter are from point indicated chassis ground. Voltage readings taken by using a colour bar signal are with all controls at normal position. Some voltages may vary with signal strength.. Waveforms were taken with colour bar and controls adjusted for normal picture. Waveforms were taken by using a wide band oscilloscope and a low capacity probe. Part No. SKP08 EPEV (SHEET /)