SHARP Service manual / Схема, сервісна інструкція Service manual & schematics

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SHARP SERVICE MANUAL

$31X3CV2051NZ

PAL SYSTEM COLOUR TELEVISION Chassis No. 21A

MODEL CV-2051NZ

In the interests of user-safety (Required by safety regulations in some countries ) the set should be restored to its original condition and only parts identical to those specified should be used.

ELECTRICAL SPECIFICATIONS

Convergence Self Converging System
Focus Quadra-Potential Electrostatic
Sweep Deflection Magnetic
Intermediate Frequencies
Picture IF Frequency 38.9MHz
Sound IF Carrier Trap 33.4MHz
Colour Sub-Carrier Frequency 34.47MHz
Power Input 220 — 240V AC 50Hz
Power Consumption 92W

Audio Power Output Rating	4.0W	/ (M.P.	0.)
Speaker
Size 8 cm	n Rou	ind x 1	pc.
Voice Coil Impedance 8 o	hms	at 400	Hz
Aerial Input Impedance
VHF/UHF 75 ohr	n Un	baland	ced
Receiving System	CCI	RPALI	B/G
Tuning Ranges
VHF-Channels	1	thru	11
UHF-Channels	21	thru	69

Specifications are subject to change without prior notice.

CONTENTS -

Page	Page
ELECTRICAL SPECIFICATIONS	SCHEMATIC DIAGRAM
IMPORTANT SERVICE NOTES 2	AND WAVEFORMS21
SERVICE ADJUSTMENT 3	BLOCK DIAGRAM
TROUBLE SHOOTING TABLE	• SOLID STATE DEVICE BASE DIAGRAM
CHASSIS LAYOUT15	REPLACEMENT PARTS LIST
PRINTED WIRING BOARD ASSEMBLIES

WARNING

The chassis in this receiver is partially hot. Use an isolation transformer between the line cord plug and power receptacle, when servicing this chassis.

To prevent electric shock, do not remove cover. No user — serviceable parts inside. Refer servicing to qualified service personnel.

SHARP CORPORATION

Page 2

IMPORTANT SERVICE NOTES

Maintenance and repair of this receiver should be done by qualified service personnel only.

SERVICING OF HIGH VOLTAGE SYSTEM AND PICTURE TUBE

When servicing the high voltage system, remove static charge from it by connecting a 10 kohm Resistor in series with an insulated wire (such as a test probe) between picture tube dag and 2nd anode lead. (AC line cord should be disconnected from AC outlet.)

1. Picture tube in this receiver employs integral implosion protection.
2. Replace with tube of the same type number for continued safety.
3. Do not lift picture tube by the neck.
Handle the picture tube only when wearing shatterproof goggles and after discharging the high voltage completely.

X-RAY

This receiver is designed so that any X-Ray radiation is kept to an absolute minimum. Since certain malfunctions or servicing may produce potentially hazardous radiation with prolonged exposure at close range, the following precautions should be observed:

1. When repairing the circuit, be sure not to increase the high voltage to more than 29.0 kV, (at beam 1100 µA) for the set.
2. To keep the set in a normal operation, be sure to make it function on 24.5 kV ± 1.5 kV (at beam 1100 µA) in the case of the set. The set has been factory Adjusted to the above-mentioned high voltage.
- If there is a possibility that the high voltage fluctuates as a result of the repairs, never forget to check for such high voltage after the work.
3. Do not substitute a picture tube with unauthorized types and/or brands which may cause excess X-ray radiation.

BEFORE RETURNING THE RECEIVER

Before returning the receiver to the user, perform the following safety checks.

1. Inspect all lead dress to make certain that leads are not pinched or that hardware is not lodged between the chassis and other metal parts in the receiver.
2. Inspect all protective devices such as non-metallic control knobs, insulating fishpapers, cabinet backs, adjustment and compartment covers or shields, isolation resistor-capacity networks, mechanical insulators etc.

Page 3

SERVICE ADJUSTMENT PIF/AFT/SIF/AGC ADJUSTMENT

TUNER IFT COILS

The tuner has been factory preset (no adjustment is needed).

1. Set V_T voltage at 10V in V_H band.
2. Connect sweep generator's output to the test point of tuner, by using a 75Ω DC cut probe.

Connection Diagram of 75Ω DC Cut Probe.

* Note:

The sweep generator's probe should be grounded closely to the tuner test point.

Connection Diagram of Low Impedance Probe (with Detector).

3. Output level of sweep generator: 80 dB
4. Connect response lead (low impedance probe with detector) to TP201.
5. PIF AGC:
Apply DC 2.4V to TP208.
- Apply DC 4.0V to the tuner AGC terminal.
7. Adjust the tuner IF coils to obtain the waveform as shown in the figure below.

Adjust so that "P" and "C" are at the same level.

PICTURE DETECTOR ADJUSTMENT

T205: AFT Coil

Connect sweep generator's output to TP202. Probe in use: 75Ω DC cut probe
Sweep output level: 90 dB 2. PIF AGC:
- Apply 2.4V DC to TP208.
3. Have AFT muted.
Connect response lead to the base of Q205. The response lead in use should be a direct probe with a resistor of 10 kohms included.

10 k Ω Direct Probe.

5. Adjust T205 so that 38.9 MHz signal is at maximum (±50 kHz).

* Adjust PIF AGC voltage so that the output waveform is of approx. 0.8 Vp-p.

Page 4

PIF/AFT/SIF/AGC ADJUSTMENT (Continued)

AFT ADJUSTMENT

T205: AFT Coil

Receive "PAL COLOUR BAR" signal. Signal strength: Over 55dB, Below 80dB Connect oscilloscope to TP203
2. Connect oscilloscope to TP203.
Oscilloscope range: 0.5 V/div.
Sweep time: 20 µsec/div.
Synchronization: Horizontal sync.
3. Connect the output of SSG (Standard Signal Generator) to the tuner IF output terminal across a capacitor of 1pF.
- SSG output:

38.9 MHz ± 5 kHz (non modulated)

SSG output level: approx. 85 dB
* When the preset button is at PST position, AFT is turned off.
* When the preset button is set at NOR position, AFT is turned on.

4. Set the preset button at PST position and adjust TUNING button (Up or Down) of tuning control so that the output waveform suffers no beating.
5. Set the preset button at NORMAL position.
6. Adjust T205 so that no beating is caused at the output waveform.

Finely adjust to make zero the beating

PIF OVERALL WAVEFORM

1. Set V_T voltage at 10V in V_H band.
2. Connect sweep generator's output to the test point of tuner.
- Probe in use: 75Ω DC cut probe
- Sweep output level: 90 dB
3. Connect response lead to TP203. The response lead in use should be a direct probe with a resistor of 10 kohms included.
4. RF-AGC: Apply approx. 4.0V DC to the tuner AGC terminal.
5. PIF AGC:
Apply approx. 2.4V DC to TP208.
Connect a 120 ohm damping resistor in parallel to R215, short C223.
7. Turn off AFT:

Make the voltage of pin (11) of IF unit 6.0V.

8. Adjust IF AGC voltage so that the output waveform is of approx. 0.8Vp-p.
9. Check that the overall waveform is as shown in Figure below.

Page 5

PIF/AFT/SIF/AGC ADJUSTMENT (Continued)

RF-AGC CUT-IN ADJUSTMENT

R248: RF-AGC Cut-in Control

1. Keep the AGC Cut-in control near the center position.
2. Receive "COLOUR BAR" signal. Signal strength:
- 57dB ± 1 dB (with 50Ω open)
3. Connect the oscilloscope to the tuner's AGC terminal (TP210).
- Range: DC range
- Voltage: 10mV/div.
- Sweep: 10msec./div.
- * Set the bias box to about 7.0V and turn up the synchroscope range to 10mV (DC).
4. Turn R248 to obtain the highest voltage.
5. Turn R248 slowly in the opposite direction until the voltage drops 0.1V lower than the highest level.
6. Change the antenna input signal to 65dB ± 2dB and make sure there is no noise. Turn up the input signal to 90—95dB to be sure that there is no cros-modulation beat.

Approx. 6.5V

SOUND DETECTOR ADJUSTMENT

□ T301: Sound Detector Coil
1. Receive "COLOUR BAR" signal (audio 100% mod., 400Hz).
2. Set the Sub-Sound control (R326) to maximum.
3. Connect the oscilloscope to pin (6) (AUDIO OUT) of the IF unit.
- Range: DC range
- Voltage: 1V/div.
- Sweep: 1msec./div.
4. Adjust T301 so that the center voltage of the sine wave be approx. DC 2.5V ± 0.2V.

SUB-SOUND ADJUSTMENT

□ R326: Sub-Sound Control

1. Receive "COLOUR BAR" signal (audio 100% mod., 400Hz).
2. Connect the oscilloscope to TP1301.
- Range: AC range
- Voltage: 0.2V/div.
- Sweep: 1msec./div.
3. Adjust R326 so that the sine wave be 1Vp-p±50mV.

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HORIZONTAL FREQUENCY ADJUSTMENT

R604: Horizontal Frequency Control
1. Before adjusting the IF unit, set R604 to the center position.
2. Turn the power on and receive the "MONOSCOPE PATTERN" signal.
3. Set the Brightness and Contrast controls to maximum.

With TP601 and TP204 shortcircuited. Adjust to ensure the horizontal sync.

4. Make TP601 (pin (25) of IC201) and TP204 (12V line) short-circuited.
5. Adjust R604 so that the horizontal sync (image) be ensured.
6. Finally remove the short-circuit.

VIDEO/CHROMA ADJUSTMENT

CRT CUT-OFF ADJUSTMENT

□ R853: Red Bias control
🗆 R859: Green Bias control
□ R865: Blue Bias control
R857: Green Drive control
□ R863: Blue Drive control
□ T602: Screen control (a part of T602)

Note:

Prior to this adjustment, warm up the unit with the beam current of more than 700µA for more than 30 minutes.

1. Receive "MONOSCOPE PATTERN" signal.
2. Set R, G and B Bias controls at MIN position. Set G and B Drive controls at CENTER position.

3. Set the Screen control at MIN position.
4. Short TP401 and TP402.
5. Short TP501 and TP502.
6. Slowly turn the Screen control clockwise until the horizontal raster appears slightly, and stop it.
7. Here, one of the three colours (red, blue, green) appears first as the Screen control is turned. So, touching off the Bias control belonging to the first colour, use and move the other two controls so that the horizontal raster becomes white.
8. Turn the Screen control counterclockwise until the horizontal raster disappears, and stop it.

WHITE BALANCE AND BACK GROUND

□ R857: Green Drive control
□ R863: Blue Drive control
□ R420: Sub-Contrast control

Note:

Prior to this adjustment, warm up the unit with the beam current of more than 700µA for more than 30 minutes.

1. Receive "MONOSCOPE PATTERN" signal.
Set the Contrast control and Brightness control at MAX position.
3. Connect beam ammeter to TP601 and TP602. (Full scale: 3 mA)

4. Adjust Sub-Contrast control so that the beam current becomes 1.1 mA (rough adjustment)
Adjust Green Drive control and Blue Drive control so that the colour temperature is at 7500°K. (High beam: 1.1 mA).
Adjust the Contrast control and Brightness control so that the beam current is approx. 200μA, and check that the colour temperature is at 7500°K. If the temperature is not at 7500°K, go back to "CRT CUT-OFF ADJUSTMENT" and repeat the adjustment.

Page 7

VIDEO/CHROMA ADJUSTMENT (Continued)

SUB-CONTRAST ADJUSTMENT

R420: Sub-Contrast Control

Note:

Prior to this adjustment, warm up the unit with the beam current of more than 450µA for more than 30 minutes.

1. Receive "MONOSCOPE PATTERN" signal.
2. Set the Contrast control and Brightness control at MAX position.
Connect beam ammeter to TP601 and TP602. (Full scale: 3 mA)
4. Adjust Sub-Contrast control so that the beam current becomes 1.1 mA.

PAL CHROMA ADJUSTMENT

🗆 R806: 1H-delay amp. control
T801: 1H-delay phase control
1. Receive "PAL COLOUR BAR" signal. Before this adjustment, the " PIF/AFT/AGC ADJUSTMENT " must have been completed. Short TP401 and TP402.
2. Connect the following resistance matrix to pins 3 and 4 of the connector (K), to which an oscilloscope is connected.

Resistance Matrix

3. Set the Colour, Contrast and Brightness controls at NORMAL position.
4. Adjust the Colour control so that the output waveform of colour difference signal becomes 3.0 Vp-p.
5. Adjust 1H-delay amp. control and 1H-delay phase control so that the output waveform shown in Fig. a is corrected to that shown in Fig. b .

Figure a. Waveform before the adjustment

DEFLECTION LOOP ADJUSTMENT

HORIZONTAL CENTERING ADJUSTMENT

R613: Horizontal Centering Control

This adjustment should be performed after the purity and convergence adjustments.

1. Receive "MONOSCOPE PATTERN" signal.
2. Adjust R613 so that the horizontal center of picture is at the position which gives the relation of A = B .

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DEFLECTION LOOP ADJUSTMENT (Continued)

HORIZONTAL SIZE ADJUSTMENT

P601: Horizontal Size Adjustment Terminal
CN601: Horizontal Size Adjustment Connector
1. Receive "MONOSCOPE PATTERN" signal.
2. Set the Brightness control at MAX position.

VERTICAL LINEARITY ADJUSTMENT

□ R507: Vertical Linearity Control
1. Receive "MONOSCOPE PATTERN" signal

3. Adjust CN601 so that the horizontal size of picture is at the best point.
- Horizontal size: 8% TYP (Max. 10%)
2. Adjust R507 so that the vertical linearity of picture is at the best point.

VERTICAL SIZE ADJUSTMENT

□ R509: Vertical Size Control

1. Receive "MONOSCOPE PATTERN" signal.
2. Set the Brightness and Contrast controls at MAX position.

VERTICAL CENTERING ADJUSTMENT

□ S501: Vertical Centering Control

This adjustment should be performed after the "PURITY ADJUSTMENT" and "CONVERGENCE ADJUSTMENT".

3. Adjust R509 so that the vertical size of picture is at the best point. Vertical size: 8% TYP (Max. 10%)
- Vertical size: 8% TYP (Max. 10%)
1. Receive "MONOSCOPE PATTERN" signal.
2. Adjust $501 so that the vertical center of picture is at the geometrical center of screen.

FOCUS ADJUSTMENT

□ T602: Focus Control (a part of T602)
1. Receive "MONOSCOPE PATTERN" signal.
2. Set Contrast control at NORMAL position.
Set Brightness control at MAX position (with 0.8 mA of beam current). (Instead of monoscope pattern signal, it is allowed to use white pattern signal of 88% modulation.)
4. Adjust Focus control (a part of T602) to have best focus at the central area of CRT.

ON SCREEN DISPLAY ADJUSTMENT

SIGN POSITION ADJUSTMENT (already preset)

T1001: Sign Position Adjustment Coil

1. Tune the channel call on (on the Remote Controller).
Adjust T1001 so that the center of the firstdigit figure of the channel number be about 50mm from the right edge of the CRT.

Page 9

PURITY ADJUSTMENT

Figure A.

The beam landing is shifted outwards

Figure B.

Figure C.

Figure D.

1. Prior to the purity adjustment, warm up the unit with beam current of more than 700 µA, for more than 30 minutes.
2. Receive the green signal alone and adjust the beam current to approx. 700 µA.
3. Fully degauss the CRT with the degaussing coil.
Before the purity adjustment, it is needed to roughly adjust the static convergence.
5. Set the purity magnet at the position which gives zero (0) magnetic field.

Adjustment:

During the adjustment, keep the unit facing the east.

6. Observe the green spots ("a" and "b") with a microscope as shown in Fig. A , and adjust the purity magnet so that they are at the specified landing position.
7. If the right and left green spots are both deviated outwards from their landing positions as shown in Fig. B , push the deflection yoke forwards until their positions are corrected.
8. If the beam landing is shifted to right or left as shown in Figs. C and D , adjust the opening degree of the purity magnet so that the beam landing is correctly positioned.
9. Adjust the purity magnet so that the beam landing is correct at either of the central part, right and left parts of screen, then check that the green beams at four corners of screen are all correctly positioned.

Finally, check that the beam landing at any pat of screen is satisfactory with the Rank "B" specifications.

10. If the green beam is positioned to mix with the other colour, pull the deflection yoke backward.
- OUTSIDE OF THE SPECIFIED LANDING: To front of the deflection yoke.
- INSIDE OF THE SPECIFIED LANDING: To back of the deflection yoke.
11. Set the raster rotation at "0" position (with the unit facing the east).
12. Tighten the screws of the deflection coil. Tightening torque: 11 kg ± 2 kg.

Page 10

CONVERGENCE ADJUSTMENT

Figure a

This adjustment should be performed after the purity magnet adjustment.

1 Receive "CROSSHATCH PATTERN" signal
2. Set the Brightness control and Contrast control at MAX position

STATIC CONVERGENCE

3. Adjust the opening degree of the 4-pole magnet and rotate the magnet to converge red and blue lines
4. Adjust the opening degree of the 6-pole magnet and rotate the magnet to converge red, blue and green lines.

DYNAMIC CONVERGENCE

5. Dynamic convergence (convergence of the three colour fields) at the edges of CRT screen is accomplished in the following manner.

Convergence in Fig. a :

Insert wedge"a" between the deflection voke and CRT. and tilt the deflection voke upward until the mis-convergence shown in Fig. a is corrected.

Convergence in Fig. b :

Insert wedges "b" and "c" between the deflection voke and CRT, and tilt the deflection voke until the mis-convergence shown in Fig. b is corrected.

Convergence in Fig. c:

Insert wedge "c" deeply between the deflection voke and CRT, and tilt the deflection voke to right until the misconvergence shown in Fig. c is corrected.

Convergence in Fig. d :

Insert wedge "b" deeply between the deflection yoke and CRT, and tilt the deflection yoke to left until the misconvergence shown in Fig. d is corrected.

6. Stick the three wedges onto the CRT, and apply glass tapes thereon.
7. Apply lacquer to the deflection yoke screw, magnet unit (made of purity, 4-pole and 6pole magnets) and magnet unit screw.

After the adjustment, receive either the Red or the Blue signal and check that there is no mixture with the other colour signal.

Page 11

TROUBLE SHOOTING TABLE

Page 12

Page 13

NEITHER VERTICAL NOR HORIZONTAL SYNCHRONIZATION

CIRCUIT TO BE CHECKED:Sync. Separator Circuit.

Sync. Separator Circuit.

Check C605, R605, C625, IC1401, Q1406 and Q1407.

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CV-2051NZ CV-2051NZ

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CV-2051NZ CV-2051NZ

Page 17

Page 18

CV-2051NZ

DESCRIPTION OF SCHEMATIC DIAGRAM

SAFETY NOTE:

DISCONNECT THE AC PLUG FROM THE AC OUTLET BEFORE REPLACEING PARTS. SEMICONDUCTOR HEAT SINKS SHOULD BE
REGARDED AS POTENTIAL SHOCK HAZARDS WHEN THE CHASSIS IS OPERATING.

IMPORTANT SAFETY NOTICE:

PARTS MARKED WITH "A" ( IMPORTANT FOR MAINTAINING THE SAFETY OF THE SET. BE SURE TO REPLACE THESE PARTS WITH SPECIFIED ONES FOR MAINTAINING THE SAFETY AND PERFOMANCE OF THE SET.

NOTE:

The unit of resistance "ohm" is omitted (K = 1000 ohms, M = Meg ohm).
2. All resistors are 1/8 watt, unless otherwise noted.
3. All capacitors are µF, unless otherwise noted P = µµF.

VOLTAGE MEASUREMENT CONDITIONS: 1. Voltages in parenthesis measured with no signal.

Voltages in parenthesis measured with no signal. Voltages without parenthesis measured with 3000 µV B & W or Colour signal.
3. All the voltages in each point are measured with VTVM.

WAVEFORM MEASUREMENT CONDITIONS:

1. Colour bar generator signal of 2.1 V peak to peak applied at Corrector of Q205.

2. Approximately 4.0 V AGC bias.




(11) 0 65 Vn n/41	(1) 22Vn n/V	(1) 12 EV n n (1)	(A) 11/2 P/V




(16) 130 Vp-р (Н)	(17) 1000 Vp-p (H)	(18) 650 Vp-p (H)	(19) 95 Vp-p (H)	20 95 Vp-p (H)


		\|	I	Τ		Τ	Τ
	1		I	1	I	;	1
10	الم		-	Л	4	. ¹ .	ł
	111	TIT	I	1		Π	11
		Th		!			1
IIII	111			1			11
របច	18 :	UU	ηr	1	U.U	Ľ,	d į
		\|	ін —				i
(21)	) 10	0 V	p-I	с (I	H)

Page 19

CV-2051NZ CV-2051NZ

MOTHER, CRT, IF, POWER and R/C RECEIVER UNITS

+ CI408 4700

Page 20

RGB UNIT

	SERVICE PRECAUT THE AREA ENCLOSED E DIRECTLY CONNECTED	ION: BY THIS LINE (	) IS AGE.	CAUTIO This circui from your	N: t diagram is original on s.	e, therefore there may l	be a slight difference
	WHEN SERVICING THE TRANSFORMER BETWI TO ELIMINATE HAZARI	AREA, CONNECT AN IS EEN TV RECEIVER AND D OF ELECTRIC SHOCK.	OLATING AC LINE	NOTE: ALL TRAN 1SS119, L	SISTORS ARE 2SC181	5(GW) OR 2SC945 ANI TED.	D ALL DIODES ARE
2	13	14		15	16	17	18

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Page 22

13	14	15	16	17	18

Page 23

SOLID STATE DEVICE BASE DIAGRAM

Page 24

PARTS LIST

Replacement parts which have these special safety characteristics identified in this manual: electrical components having such features are identified by A in the Replacement Parts Lists. The use of a substitute replacement-part which does not have the same safety characteristics as the factory recommended replacement parts shown in this service manual may create shock, fire or other hazards.

"HOW TO ORDER REPLACEMENT PARTS"

To have your order filled promptly and correctly, please furnish the following informations.

Par	t No.	*	Description
MARK ★:	SPARE PA	RTS-I	DELIVERY SECTION
3. PART NO.		4. D	ESCRIPTION
1. MODEL NI	JMBER	2. R	EF. NO.

PICTURE TUBE

				and the second se
∧V1	V B 4 8 J S K 6 1 X / * S	R	CRT	CF
√ M DY1	RCILH0022PEN2	R	Deflection Yoke	BM
_ L703	RCiLG0024PEZZ	R	Degaussing Coil	AW
	PMAGF3003CEEZZ	J	Purity Magnet	AK
	PSPAG0003PEZZ	R	Wedge, Rubber	AD
			(3 pcs used)
	MSPRT0001PEFJ	R	Spring, CRT	AC

			L.

PRINTED WIRING BOARD ASSEMBLIES (NOT REPLACEMENT ITEM)


PWB-A	DUNTK7000WEV5	-	Mother Unit
PWB-B	DUNTK7001WEV5	_	CRT Socket Unit
PWB-C	DUNTK6852WEW9	-	IF Unit
PWB-D	DUNTK6451WEC2	-	Power Unit
PWB-E	DUNTK7187WEV0	-	R/C Receiver Unit	_
PWB-F	Not used
PWB-G	DUNTK7188WEV0	-	RGB Unit	—

	Part	NO.	*	Description	Code
PWB-A DUNTK7000WEV5
TUNER
NOTE:	THE PARTS	HERE SH	own	I ARE SUPPLIED AS AI	v
	ASSEMBLY	BUT NOT	IND	EPENDENTLY.
ATU201	VTUVTS	S6C////	J	Tuner, VHF/UHF	BC

	-				ST (List)
	INT	EGRATE	DC	IRCUITS	1
IC210	RH-IX02	03GEZZ	J	2 to 4 Decorder	AE
IC501	RH-IX06	40CEZZ	J	Vertical Output	' AK
/∖ IC701	RH-IX11	48CEZZ	J	Power Regulator	AX
IC801	VHITDA3	566A-1	J ,	Video/Chroma	AS
IC1001		DICEZZ	, ,	wiicroprocessor	RC
IC1002		JOCEZZ	, I	ZaparlC	AC
101003		3/CEZZ	,	zeneric
	KH-IXU4	15CEZZ	1	Decet
101007	VHIPSIS	2902-1	J	Reset	AD


0000			ISTO
Q203	VSZSATU	J15Y/1E	: J	25A1015(Y)	AC
Q205	VS2SAT		: J	25A1015(Y)	AC
Q301	V525C18	15GVV-1	L L	25C1815(GW)	АВ
Q302	V323C10		נ	2301013(000)
0205	V 3 2 3 D 0	15GW 1	ן ז	230000
Q303 Q601	V323C10	71-014	נ ו	23(1013(000)
	V 5 2 5 C 2 2	551//1E	נ ו י	2502271
A 0603	V 5 2 5 D 1	)157/16		2501554 2501015(Y)
0604	V$2$C2	236Y/-1		25C1015(1)
	V $ 2 $ 4 1 (	15Y/1F	: 1	2561256(1) 2541015(Y)
	V$2$C18	15GW-1		25C1815(GW)
0609		80-G/-1	, I	2501015(011)
A 0701	V 8 2 8 6 0	279//1F	ر ا	25C3279
A 0702	V $ 2 $ C $ C	279NI/_1	ر ا	25C3279(NI)	ΔC
01001	V $ 7 $ C 2 2	399//_1	ر ا	2503299
01002	V 6 2 6 C 2 6	3_W/T_1	נ ו :	2SC383(W/T)
01002	V$2$C3C	15G\//_1	י. ו	2$C1815(GW/)
Q1003	V$2$C19	15GW-1	, I	2SC1815(GW/)	ΔR
01005	V$2$C18	15GW-1	ر ا	2SC1815(GW)	ΔR
01005	V$2$610	115V/15	, ו:	2SA1015(Y)
01008	V$2$C18	15GW-1	י. ו	2SC1815(GW/)	ΔR
01000	V $ 2 $ C 2	402//-1	, I	25C3402
01010	V $ 2 5 C 5		י ו :	2501-02 2501015/V)	ΔC
01010	V $ 2 5 A 1 0	) 1 5 V / 1 5	ע. ו:	2541015(1)
01010	V 5 2 3 A 1 ( V 5 2 5 A 1 0	) \| ) \| / \| E 15 G \// 1	נ. ו	25(1815(6))
01019	V 3 2 3 C 1 8	100VV-1 115V/15	נ ו :	2501015(000)
Q1021	VS2SAI	15 G M 1	נ. ו	20A1010(1) 20C1815/GMA
Q1039	V 525C18		ر ۱	23C1013(UVV)
Q1040	V525C18	וסט VV-1 אוב V / יי	ן יי:	23C1015(GVV)	AB
Q1046	VSZSAI	J I D Y / I E 入 1 E V / 1 F	: J : I	23A1015(Y)	AC
()111/17	V 5 2 5 A 1 (	J \| 5 Y / 1 E	: 」	25A1015(Y)	AC

Page 25

Ref. No.	Part No.	*	Description	Code	Ref. No.	Part No.	*	Description	Code
F	WB-A DUN	ГК	7000WEV5			DIODES (	Cont	inued)
•	MOTHER UNIT	10	ontinued)		D1002	RH-EX0131CEZZ	J	Zener Diode	AC
					D1003	RH-EX0156GEZZ	J	Zener Diode, 10V	AA
	DIOI	DES	5		D1008	VHD1$$119//1E	J	1SS119	AA
D205	VHD1SS119//1E	J	1SS119	АА	D1009	VHD1$$119//1E	J	1SS119	AA
D206	RH-EX0341GEZZ	J	Zener Diode, 3V	АА	D1011	VHD1SS119//1E	J	1SS119	AA
D207	RH-EX0030GEZZ	J	Zener Diode	AB	D1012	VHD1SS119//1E	J	155119	AA
D208	VHD1SS119//1E	J	1SS119		D1014	VHD1SS119//1E	J	155119	АА
D209	VHD1SS119//1E	J	1SS119	АА	D1020	VHD1SS119//1E	J	155119	АА
D211	RH-DX0027CF77	1	SV03YSV	AF	D1029	VHD155119//1E	J	155119	ΔΔ
D302	RH-DX0247CF77	1		ΔF	D1031	VHD155119//1E	1	155119
D302		1	155119		D1032	VHD155119//1E	, I	155119
A D204		1	155119	~~	D1032	VHD155119//1E	, I	155119
		1	Zonor Diodo 12V		D1034		, ,	155119
0300		1			D1038		1	100110
D309		J	Toner Diede C OV		D1044		1	155119
D311		1	Zener Diode, 6.6V		D1045	VHD155119//1E	ر ا	155119
D313	KH-EXUU3UGEZZ		Zener Diode	AB	D1046	VHD155119//1E	J	155119
D315	VHD155119//1E	J	155119	AA	D1055	VHD155119//1E	1	155119
D380	VHD1SS119//1E	J	155119	AA	D1059	VHD1SS119//1E	J	155119	AA
D401	VHD1SS119//1E	J	1SS119	AA	D1062	VHD1SS119//1E	ļ	155119	AA
D501	RH-DX0279CEZZ	J	1N4005	AB	D1063	VHD1SS119//1E	J	1SS119	AA \|
D502	RH-DX0127CEZZ	J	1$5295G	AC	D1065	VHD1SS119//1E	J	1SS119	AA
D503	VHD1SS119//1E	٦	155119	AA	D1066	RH-DX0005GEZZ	J		AA
D504	RH-EX0022TAZZ	٦	Zener Diode	AB	D1067	VHD1SS119//1E	J	1SS119	AA
D505	VHD1SS119//1E	J	1SS119	AA	D1068	VHD1SS119//1E	J	155119	AA
D506	VHD1$$119//1E	J	1SS119	AA	D1069	VHD1SS119//1E	J	155119	AA
D603	RH-DX0073CEZZ	J	RH1Z	AD	D1070	RH-DX0005GEZZ	j		AA
D604	RH-DX0279CEZZ	J	1N4005	AB	D1071	RH-DX0005GEZZ	J		AA
∧ D606	VHD1SS119//1E	J	155119	AA	D1072	VHD1SS119//1E	J	1SS119	AA
∧ D607	RH-EX0182GEZZ	J	Zener Diode, 22V	AB	D1073	VHD1SS119//1E	J	1SS119	AA
D611	VHD1SS119//1E	J	1SS119	АА	D1075	VHD1SS119//1E	J	1SS119	AA
D612	VHD1$$119//1E	J	1SS119	АА	D1076	VHD1SS119//1E	J	1SS119	AA
D616	VHD1SS119//1E	J	155119	АА	D1078	RH-DX0005GEZZ	J		AA
D617	RH-EX0341GEZZ	J	Zener Diode, 3V	ΑΑ	D1079	RH-DX0005GEZZ	J		AA
▲ D618	VHD1SS119//1E	J	155119	ΑΑ	D1080	RH-DX0005GEZZ	J
	RH-DX0279CEZZ	J	1N4005	АВ	D1081	RH-DX0005GEZZ	j
▲	VHD1$$119//1F	J	155119		D1085	VHD155119//1E	J	155119
	RH-EX0215CEZZ	Ĵ	Zener Diode	AB	D1086	VHD155119//1E	I	155119
D622	RH-EX0156GEZZ	1	Zener Diode 10V		D1087	VHD155119//1E	í	155119
D623	RH-FX0019TA77	-	Zener Diode, 10V		D1089	VHD155119//1E	, I	155119
D625	VHD155119//1E	1	199110		D1080		1	155110
D620		1	100110		01009	VHD133119//1E	J	133113
D632		1	1552050
A D705		ר ו	1332330			DACKAGE
		,	5VU315V	AE		PACKAGEL
			EU-1Z	AE		RMPTC0282CEZZ	1	Resistor Array, 6.8K × 4	AC
				AC	M1002	RMPTC0282CEZZ	1	Resistor Array, 6.8k × 4	AC
M D709	RH-DX0302CEZZ			AC	IVI1003	RMPIC0010GEZZ	J	Resistor Array, 22k x 4	AB
		J	100110	AC	M1004	RMPTC0067CEZZ	٦	Resistor Array, 100k × 3	AB
		J	155119	AA	X801	RCRSB0005PEZZ	R	Crystal, 8.8MHz	AL
	KH-DX0130CEZZ	J	EU-1Z	AE
▲D713	RH-DX0130CEZZ	J	EU-1Z	AE
∕\ D731	RH-EX0152CEZZ	J	Zener Diode	AE		CERAMIC FILTER a	and	DELAY LINES
D732	RH-DX0302CEZZ	J		AC	CF1001	RFILC0091GEZZ	j	Ceramic Filter	AD
D733	RH-DX0127CEZZ	J	1$5295G	AC	DL401	RCILZ0602CEZZ	J	Delay Line, Video (1H)	AG
D804	RH-EX0156GEZZ	ן	Zener Diode, 10V	AA	DL801	RCILZ0475CEZZ	J	Delay Line, PAL (1H)	AP
D805	VHD1$$119//1E	J	1$$119	AA

Page 26

Ref. No.	Part No.	*	Description	Code	Ref. No.	Part No.	*	Description Code
D		٢V	7000\\/E\/5			CAPACITOR	S (C	continued)
r		\| N \| (C			C610	VCFYSB2EB823J	j	0.082 25V Metalized AD
								Polyester
	COI	ĿS			C611	VCKYPA2HB102K	۰ ا	0.001 500V Ceramic AA
L211	VP-DF120K0000	J	12µH	AB	C612	RC-KZ0024CEZZ	J	1000p2kV Ceramic AC
L303	VP-CF3R3K0000	٦	3.3µH	AB	C613	VCFPPD2DB474J	J	0.47 200V Metalized AE
L304	VP-CF3R3K0000	٦	3.3µН	AB				Polyester
L305	VP-CF3R3K0000	J	3.3µH	AB	C614	VCQPSC2DA104J	٦	0.1 200V Polypro Film AC
L501	VP-CF3R3K0000	J	3.3µH	AB	C615	VCQPSD2DA474J	J	0.47 200V Polypro Film AG
L601	RCILZ0499CEZZ	J	Linearity Coll	AF	C616	VCFPPD3CA103J	J	0.01 1.6kV Metalized AF
1602	RCILPU088CEZZ	, L	3.3mH	AG	CC17			Polyester
L603	VP-CFIUUKUUUU	J	тоµн 1х⊎		C617		, L	10 100V Electrolutic AC
1610		נ ו	1µn		A C620		ר ו	1 50V Electrolytic AC
A 1705		נו	5.5µ⊓ 8.211⊔		A C621	VCEAGAOIW337M	, I	330 6 3V Electrolytic AB
AL705	VP-CF271K0000	ر ۱	8.2μ⊓ 27011H		Δ C622	VCEAGA1CW476M	, I	47 16V Electrolytic AB
A1707	RCil P0050CF77	1	1501/H		C628	VCKYPA2HB221K	Ţ	220p 500V Ceramic AA
L731	VP-CF3R3K0000	Ĵ	3.3uH	AB	C631	VCEAGA1CW107M	J	100 16V Electrolytic AB
L732	VP-CF3R3K0000	J	3.3uH	AB	AC635	VCEAGA1CW476M	j	47 16V Electrolytic AB
L801	VP-DF100K0000	Ĵ	10µH	AB	C636	VCEAGA1CW107M	J	100 16V Electrolytic AB
L802	VP-DF6R8K0000	J	6.8µH	АВ	C637	VCKYPA2HB102K	J	0.001 500V Ceramic AA
L803	VP-DF6R8K0000	J	6.8µH	AB	C638	VCEAGA1HW477M	J	470 50V Electrolytic AD
L804	VP-DF8R2K0000	J	8.2µH	АВ	C664	VCEAGA1CW107M	J	100 16V Electrolytic AB
L805	VP-DF6R8K0000	J	6.8µH	AB	С707	RC-EZ0055CEZZ	J	150 400V Electrolytic AN
L1001	VP-DF101K0000	J	100µH	AB	С709	VCKYPH3DB561K	J	560p 2kV Ceramic AC
L1002	VP-DF120K0000	J	12µH	AB	∧ C710	VCQP$C2JA333K	J	0.033 630V Polypro Film AB
					∧ C711	VCKYPH3DB561K	٦	560p 2kV Ceramic AC
					∧ C712	VCKYPA2HB102K	J	0.001 500V Ceramic AA
	TRANSFO	R	MERS		∧ C713	VCKZPA1HF103Z	٦	0.01 50V Ceramic AA
T601	RTRNZ0026PEZZ	R	Horizontal Drive Trans.	AH	∧ C714	VCEAGA2AW106M	٦	10 100VElectrolytic AC
∧ T602	RTRNF0044PEZZ	R	Flyback Trans.	BN	∧ C715	VCQYSH1HM123K	J	0.012 50V Mylar AB
∧ T701	RTRNZ0028PEZZ	R	Power Regulator	BC		VCEAAA1JN476M	J	47 63V Electrolytic AC
1801	RCILZU439CEZZ	, I	TH Phase				1	0.01 AC250V Ceramic AC
11001	RCILBUUU2PEZZ	к	On Screen Display	AG				560p 500V Ceramic AA
							, L	560p ZKV Ceramic AC
	CONT	പ	i C		A C722		,	3.3 50V Electrolytic AE
R2/18		D	50V/R) REAGE		M C725	VCEJAATH WJJJIVI	,	S.S SOV Electrolytic AL
R240	RVR-85264CE77		5k(B) Sub-Sound		A C724		г
R420	RVR-B5265CE77	, I	10k(B) Sub-Contrast		A C725		1
R507	RVR-B0006PF77	R	5k(B) Vertical Line		AC726	RC-KZ0033CEZZ	J	150p 2kV Ceramic AB
R509	RVR-B0002PEZZ	R	200(B) Vertical Size	AD	C730	RC-KZ0156CEZZ	J	3300p4kV Ceramic AG
R613	RVR-B0011PEZZ	R	200k(B) Horiz, Center	AC	C731	VCEAAH2CW107M	J	100 160 Electrolytic AE
R806	RVR-B5261CEZZ	J	1k(B) Gain	AB	C732	RC-KZ0024CEZZ	J	1000p2kV Ceramic AC
					C733	VCKYPA2HB102K	J	0.001 500V Ceramic AA
					C734	VCEAGA1EW477M	J	470 25V Electrolytic AD
	CAPAC	ITC	ORS		C806	VCSATA1CE156K	J	15 16V Tantalum AD
C311	VCKYPA2HB102K	J	0.001 500V Ceramic	AA	C808	VCEAGA1CW337M	J	330 16V Electrolytic AC
C312	VCEAGA1EW477M	J	470 25V Electrolytic	AD	C1014	VCEAGA0JW108M	J	1000 6.3V Electrolytic AC
C313	RC-KZ0056CEZZ	j	0.1 16V Ceramic	AB	C1042	VCEAGA1AW477M	٦	470 10V Electrolytic AC
C504	VCCSPA2HL121K	J	120p 500V Ceramic	AA	C1044	VCE9AA1HW105M	J	1 50V Electrolytic AB
C506	VCEAGH1EW228M	J	2200 25V Electrolytic	AE				(N.P)
C507	VCEAGA1EW227M	J	220 25V Electrolytic	AC	C1048	VCEAGA0JW337M	J	330 6.3V Electrolytic AB
C508	VCSATA1VE225K	J	2.2 35V Tantalum	AC
C510		J	4/U 35V Electrolytic	AD
		J	0.001 SUUV Ceramic	АА

Page 27

Ref. No.	Part No.	*	Description	Code	Ref. No.	Part No.	*	Description	Code
P		٢K	7000WEV5		SWITCHES
•	MOTHER UNIT	(C	ontinued)		$501	QSW-B0015CEZZ	J	Vertical Center	AC
					∧ $1001	QSW-K0068CEZZ	J	Power	AB
	RESIS	IO	RS		∧ s1002	QSW-K0068CEZZ	J	Channel (+)	AB
R312	VRS-VV3DB220J	J	22 2W Metal Oxide	AA e	∧ S1003	QSW-K0068CEZZ	J	Channel ()	AB
	RR-XZ0016CEZZ	J	1 1/2W Fuse Resisto	n AB	A $1004	QSW-K0068CEZZ	, L	Volume (+)	AB
A p219	VED WNDEE821	, r	6.2k 3W Weta Oxide		A $1005		ر ا	P-Mode
A R319	VRD-MN2BE104	, I	100k1/8W/ Carbon (chip		A $1007	QSW-K0068CFZZ	J	Pre-set	AB
	VRS-SV3DB220J	J	22 2W Metal Oxide	e AA	A $1008	OSW-K0068CEZZ	Ĵ	Fine	AB
AR515	RR-XZ0035TAZZ	J	22 1/4W Fuse Resisto	r AB		QSW-K0068CEZZ	J	Skip/Call	AB
	RR-XZ0029CEZZ	J	3.3 1/2W Fuse Resisto	r AB		QSW-K0040CEZZ	J	Blue Back	AB
	V R S - S V 3 L B 3 9 2 J	J	3.9k 3W Metal Oxide	AC	∧ $1013	QSW-R0010PEZZ	R	Stand-by	AB
R611	VRW-KV4AC6R8K	J	6.8 10W Cement	AD
∧ R612	R R - X Z 0 0 2 0 C E Z Z	J	39 1/4W Fuse Resisto	r AB
R618	VRS-PU2HB102J	ſ	1k 1/2W Metal Oxide	e AA
∧ R620	RR-XZ0035TAZZ	٦	22 1/4W Fuse Resisto	r AB		MISCELLANE	ΞΟι	JS PARTS
R621	VRN-RV3DB1R2J	J	1.2 2W Metal Film	AB	FB602	RBLN-0010CEZZ	٦	Ferrite Bead	AC
∧ R623	VRD-RA2EE684J	J	680k1/4W Carbon	AA		RBLN-0037CEZZ	٦	Ferrite Bead	AB
	VRD-MN2BE274J	J	270k1/8W Carbon (Chip	) AA		RBLN-0037CEZZ	J	Ferrite Bead	AB
∧ R628	VRD-MN2BE223J	J	22k 1/8W Carbon (chip	) AA (	▲FB704	RBLN-0010CEZZ	1	Ferrite Bead	AC
/1 R629	VRD-MN2BE123J	ר ו	12K 1/8VV Carbon (Chip		FB/31	RBLN-003/CEZZ	J	Ferrite Bead	АВ
		ר ו	4.7k 1/6W Carbon (Chip
A 8635		1	22k 1/8W/ Carbon (chin
A 8637	VRD-MN2BE223	1	4 7k 1/8W Carbon (chip
R643	VRS-VV3AB121J	Ĵ	120 1W Metal Oxide	= AA
∆R648	VRD-RM2HD1R8J	J	1.8 1/2W Carbon	AA
	VRD-MN2BE472J	J	4.7k 1/8W Carbon (Chip	) AA
R652	VRS-VV3AB330J	j	33 1W Metal Oxide	e AA
∧R662	V R G - R F 2 E B 1 R O J	٦	1 1/4W Fuse resisto	r AB
▲R665	VRS-VV3AB331J	٦	330 1W Metal Oxide	e AA
∧ R702	VRS-SV3LB124J	1	120k 3W Metal Oxide	e AC
∧ R704	RR-XZ0011GEZZ	1	47 1/2W Fuse Resisto	or AB
A R705	VRD-RM2HD1R8J	1	1.8 1/2W Carbon	AA
/\ K/06		ر ۲	2.2 1/2W Carbon
		ן ו	2.2 1/2VV Carbon
A R710	RR-X70017CE77	ר ו	10 1/2W Euro Poristo
A R711	VRD-RM2HD6831	, I	68k 1/2W Carbon
∧ R712	VRD-RM2HD683J	J	68k 1/2W Carbon	AA
	VRS-VV3AB331J	J	330 1W Metal Oxide	e AA
∧ R714	VRD-RM2HD393J	J	39k 1/2W Carbon	AA
∧ R715	VRD-RM2HD330J	J	33 1/2W Carbon	AA
	VRD-RM2HD181J	J	180 1/2W Carbon	AA
	VRD-RM2HD470J	J	47 1/2W Carbon	AA
	VRC-UA2HG825K	J	8.2M 1/2W Solid	AA
	VRC-UA2HG825K	٦	8.2M 1/2W Solid	AA
	VRD-RA2EE153J	J	15k 1/4W Carbon	AA
	VRD-RAZEE391J	J	390 1/4W Carbon
A R728	VRD-RAZEESOIG	L I	200 1/499 Carbon 820 1/8/0/ Carbon	АА ^ ^
AR729	VRD-RA2EE3R31	J	3.3 1/4W Carbon
	RR-XZ0027CEZZ	J	2.2 1/2W Fuse Resisto	or AB
	VRS-SV3LB123J	J	12k 3W Metal Oxid	e AB
R1032	VRS-VV3DB123J	J	12k 2W Metal Oxid	e AA				End of P\//I	B-A —

Page 28

Ref. No.	enal di PartiNo.	*	Description	Code	Ref. No.	De Part No.	*	Description	Code
	PWB-B DUN CRT SOC	TK Ket	7001WEV5 UNIT		F	WB-C DUN		6852WEW9
	TRANS	ISTO	DRS			INTEGRAT	ED	CIRCUIT
Q851	V S 2 S C 2 6 1 1 / - 1 E	Ţ	2SC2611, Red Output	AE	IC201	VH1TDA8305A-1	J	PIF/SIF/Vert./Horiz.	AZ
Q852	V S 2 S C 2 6 1 1 / - 1 E	J.	2SC2611, Green Outpu	IT AE	1	per al transformer		9 () () 9 ()
Q853	V S 2 S C 2 6 1 1 / - 1 E	J.	2SC2611, Blue Output		- 1 T
QUJ	VJZJATORJITE		25A1015, Constant voi			TRANS	IST	ORS
					Q201	V S 2 S C 1 9 0 6 // 1 E	J	2SC1906	AC
					Q202	V $ 2;$C1815GW-1	J	2SC1815 (GW)	AB
	CC	DIL	:		4
L851	VP-CF681K0000	٦	680µH	AB	,	i -
						co	2 11
					L203	VP-DFR82M0000	J	0.82µH	AB
	CONT	ROI	LS		L204	VP-XF120K000	) J	12µH	AB
R853	RVR-B4568CEZZ	J	10k(B) Red Bias	AC	L205	V P - D F 2 R 2 K 0	J	2.2µH	AB
R857	RVR-B4561CEZZ	J	200(B) Green Drive	AC
R859	RVR-B4568CEZZ	J	10k(B) Green Bias
R865	RVR-B4568CEZZ	J	10k(B) Blue Bias	AC		CERAMI	C FI	LTERS
					CF201	ŖFilC0020CEZZ	J	5.5MHz Trap	AE
					CF301	RFILC0061CEZZ	٦	5.5MHz Filter	AF
			DC .		SF201	RFILC0227CEZZ	٦	Suaface Accoustic	AN
A C954			KS					Wave Filter
C866	VCEAAA2DW106M	ł	10 200V Electrolyti	c AC
		-
						TRANSF	OR	MERS
	0500				T203	RCiLi0539CEZZ	J	IF Coil	AF
A 8855		IOF	27k 1/2W/ Carbon		T205		. J	AFT P-Det. Coil	AF
R860	VRS-VV3DB103J	J	10k 2W Metal Oxide		1301	KCIED0203CE22		Sound Det. Con	AG
∧ R861	VRD-RM2HD272J	J	2.7k 1/2W Carbon	AA
R866	V R S - V V 3 D B 1 0 3 J	٦	10k 2W Metal Oxide	AA
∧ R867	VRD-RM2HD272J	J	2.7k 1/2W Carbon	AA		CON	TRO	DL
R868	VRS-VV3DB103J	J	10k 2W Metal Oxide	AA \|	R604	RVR-B5265CEZZ	J	10k(B) Horizontal Freq	I. AB
·

	MISCELLAN	ΕΟι	JS PART			CAPA		ORS
▲SC851	QSOCV0913CEZZ	٦	CRT Socket	AK	C206	VCEAGA1CW477M	J	470 16 Electrolytic	: AC
					C207		L.	0.22 35V Tantalum
					C205	VCSATA1VE105K	י ן	1 35V Tantalum	AD
					C222	VCEAGA1CW337M	J	330 16V Electrolytic	: AC
					C602	VCQPSA2AA152G	J	0.0015 100V Mylar	AD



				\|	Į


			— End of PWB-B					End of PWB-C

Page 29

Ref. No.	Part No.	. +	Description	Code	Ref. No.	Part No.	*	Description	Code
F	WB-D D		(6451WEC2		Ρ	WB-E DUN R/C RECE	TK IVEF	7187WEV0 RUNIT
		DIOD	S			DI	DDE
▲D701 ▲D702 ▲D703 ▲D704	RH-DX0279 RH-DX0279 RH-DX0279 RH-DX0279 RH-DX0279	OCEZZ J OCEZZ J OCEZZ J		AB AB AB AB	D1001	RH-PX0077CEZZ MISCELLAN RRMCU0190CEZZ	IEO I	LED, Red/Green US PART Remote Control	AE AL
								Receiver
	PAC	KAGED	CIRCUIT
▲POR701	R M P T P 0 0 4 0	)CEZZ J	Positive Coefficient Thermistor	AK
		COIL	5
L701	RCiLF0007	PEZZF	Line Filter	AL
▲L702	RCILF0105	CEZZ J	Line Filter	AP
/\ L/03 A1704	RCILPUU/U		Peaking Coll
77 1704
	с	APACIT	ORS
▲C701	RC-FZ0018	CEZZ J	0.22 AC250V Metal	ized AH
A C702	RC-K70029	) C F 7 7	Polyest
∧ C702	RC-KZ0029	CEZZ J	0.01 AC250V Ceram	nic AC
C705	RC-KZ0029	CEZZ J	0.01 AC250V Ceram	nic AC
∧ C706	R C - K Z 0 0 2 9	CEZZ J	0.01 AC250V Ceram	nic AC
М С707 М С708	RC-KZ0029 RC-KZ0029	CEZZ J	0.01 AC250V Ceram 0.01 AC250V Ceram	nic AC nic AC

A 0704		RESIST	DR
/1 k/01	V R VV-K V 3 N C	.0886 .	6.8 / W Cement	AC
	MISCE	LLANEO	US PARTS
▲ F701	Q F $ - C 2 0 2 4	CEZZ J	Fuse, T2A	AD
	RBLN-0010	CEZZ J	Ferrite Bead	AC
/\ ⊦H/02 ∧ ⊑µ703	QFSHD1002	CEZZ J	Fuse Holder
T UM 02	Q1311D1002		ruse noidei

								End of PWB	-E
			—— End of PWB	-D —	Ρ	WB-F	No	t used ——

Page 30

Ref. No.	Part No.	*	Description	Code	Ref. No.	Part No.	*		Description	Code
P		τк	7188WF\/0			CO	LS
•	RGB	UNI	T		L1301	VP-CF3R3K0000	Ĵ	3.31	ΙH	AB
					L1401	VP-DF470K0000	J	47µ	Н	AB
10101	INTEGRATE	DC	IRCUITS		L1404	VP-DF220K0000	٦.	22µ	Н	AB
IC104	VH11A/34/P/-1	J		AG
101301	RH-120257CE77	ן ז
IC1302	RH-IX0257CEZZ	د ۱				CAPAC	ΙΤΟ	RS
101000				7.11	C1303	VCEAGA1CW107M	J	100	16V Electrolyti	с ав
					C1304	VCEAGA1EW107M	J	100	25V Electrolyti	: AD
					C1306	VCEAGA1EW477M	J	470	25V Electrolyti	: AD
	TRANS	ST	DRS		C1309	VCEAGA1CW108M	J,	100	0 16V Electrolyti	: AD
Q1301	VS2SC1815GW-1	J	2SC1815(GW)	AB	C1312	VCEAGA1CW107M	J	100	16V Electrolytic	: AB
Q1302	VS2SA1015Y/1E	J	2SA1015(Y)	AC	C1317	VCEAGA1EW477M	J	470	25V Electrolytic	: AD
Q1303	V S 2 S A 1 0 1 5 Y/1 E	J	2SA1015(Y)	AC	C1318	RC-QZA224TAYK	J	0.22	Mylar	AC
Q1401	VS2SC1815GW-1	J	2SC1815(GW)	AB	C1401	VCEAGA1CW477M	J	470	16V Electrolytic	: AC
Q1402	VS2SC1815GW-1	J	2SC1815(GW)	AB	C1405	VCEAGA1CW477M	J	470	16V Electrolytic	: AC
Q1403	VS2SC1815GW-1	٦	2SC1815(GW)	AB	C1408	VCEAGA1CW477M	٦	470	16V Electrolytic	: AC
Q1404	VS2SC1815GW-1	J	2SC1815(GW)	AB
Q1405	V$2$C1815GW-1	٦	2SC1815(GW)	AB
Q1406	V$2$C1815GW-1	J	2SC1815(GW)	AB		DECIC
Q1407	VS2SA1015Y/1E	J	2SA1015(Y)	AC	A 54.400	KESIS		()
Q1408	V$25C1815GW-1	1	25C1815(GW)	AB		RR-X200351A22	, L	22	1/4VV Fuse Resisto
Q1409	V525C1815GW-1	1	25C1815(GW)		/1 K1429	KK-X200351A22	J	22	1/4W Fuse Resisto	ГАВ
Q1410	V$25C1815GW-1	1	25(1815(GW)
01/12	VS2SC1815GW-1	, L	23C1815(GW)
01412	V$25C1815GW-1	, I	23C1815(GW)			MISCELLANE	OU	S PZ	ARTS
QIFIS	VJZJC10150W-1	,	2301013(014)		ASC1801	OSOCZ2104CEZZ	j	21-F	Pin Socket	АН

	סום
D1301			155119
D1303	VHD155119//1E	, I	155119
D1304	RH-EX0019TAZZ	J	Zener Diode	AB
D1305	VHD1SS119//1E	J	155119
D1307	RH-EX0019TAZZ	J	Zener Diode	AB
D1308	VHD1SS119//1E	J	1SS119	АА
D1309	VHD1$$119//1E	J	1SS119	AA
D1310	RH-DX0005GEZZ	J		AA
D1401	VHD1SS119//1E	J	1SS119	AA
D1402	RH-EX0030GEZZ	J	Zener Diode	AB
D1403	VHD1SS119//1E	J	155119	AA
D1404	VHD1SS119//1E	J	155119	AA
D1405	VHD1SS119//1E	J	1$$119	AA
D1406	RH-EX0341GEZZ	J	Zener Diode, 3.6V	AA
D1801	VHD1$$119//1E	J	1SS119	AA
D1802		J	155119
D1803	VHD155119//1E	ر ۱	135119 Zonor Diodo
D1004		ر ۱
D1806		ر ۱	195119
D1807	VHD199119//1E	ر ا	155119
2,007

									End of PWB-G	\|

Page 31

Ref. No.	Part No.	*	Description	Code	Part No.	*	Description	Code
	MISCELLANI	EOU	S PARTS		SUPPLIED A	сс	ESSORIES
SP1	VSP0080P-F08A QACCL3001PEZZ	JS RA	peaker, 8 cm AC Cord	AW AQ	ACCES RRMCG0777PESA	SOF R	RIES Infrared Remote Controller	AZ
	PACKING (NOT REPLACE	G PA	NRTS IT ITEM)		ACCESSORIES (NO TGAN-0054PEZZ TINS-4601PEZZ UBATU1032CCN1	T REI 2 - - -	PLACEMENT ITEM) Guarantee Card Operation Manual Dry Batteries, Size AAA (2 pcs)
	SPAKC5562PEZZ SPAKP0046PEZZ SPAKX0171PEZZ	P P B	acking Case olystyrene Mat uffer Material

Ref. No.


CARINET DARTS

Description

Code

Part No.


1	CCABA2118WEV0	R	Cabinet Ass'y, Front	BR
1- 1	Not Available	-	Cabinet, Front
1-2	GDORF0087PESC	R	Door	AH
1-3	HINDP0118PESA	R	Indication Plate, Inside the door	AG
1-4	GMADT0054PESA	R	Window Cover	AE
1-5	PKAi-0001PE00	R	Push Latch	AF
2	GCABB2119PEKA	R	Cabinet, Rear	BP

Page 32

SHARP

T7882-S Printed in Japan W/S MW.KD