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

Page 1

SERVICE MANUAL

$96Q4CX48F4//

COLOUR TELEVISION Chassis No. K

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.

FEATURE

Reminder/ON-OFF Timer

SHARP

On-Screen Display
Blue Back Noise Mute
Full Auto Search Tuning System
📕 Auto Channel Skip
Fine Tuning Adjustable with Remote Control

Direct Access Remote Control

CX-48F4 MODELS CX-51F4

Wide Range Chopper Regulator System
NTSC 4.43/3.58 MHz (AV only)
AV Input/Output Terminals

Page	Page
ELECTRICAL SPECIFICATIONS	• SCHEMATIC DIAGRAM 11
IMPORTANT SERVICE NOTES	PRINTED WIRING BOARD ASSEMBLIES 17
• SERVICE ADJUSTMENT	• BLOCK DIAGRAM 19
TROUBLE SHOOTING TABLE	• SOLID STATE DEVICE BASE DIAGRAM 21
• CHASSIS LAYOUT DIAGRAM 10	REPLACEMENT PARTS LIST

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

SPECIFICATIONS

Convergence Self Converging System Focus HighBi-Potential Electrostatic
Sweep Deflection
Sound IF Carrier Frequency
Colour Sub-Carrier Frequency 34.47 MHz
Power Input
Power Consumption
CX-48F4
CX-51F4
Audio Power Output Rating
Speaker
Size
Aerial Input Impedance
VHF/UHF
Receiving System CCiR PAL B/G NTSC 3.58/4.43 MHz (AV Input Only)

• VHF- Channels
● UHF- Channels
Dimensions Width: 605.0 mm
Height: 459.0 mm
Depth: 482.0 mm
CX_48F4 10 E ka
CX-51F4 22 0 kg
Cabinet Material

Specifications are subject to change without prior notice

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 k ohm 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.
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 28.5 kV, (at beam 0 µA) for the set.
CX-48F4: 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.
- CX-51F4: To keep the set in a normal operation, be sure to make it function on 24.8 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.
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.
Inspect all protective devices such as non-metallic control knobs, insulating fishpapers, cabinet backs, adjustment and compartment covers or shields, isolation resistorcapacity networks, mechanical insulators etc.

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പ

Page 4

PIF/AFT/AGC ADJUSTMENT (Continued) Adjusting Conditions Adjusting Procedures

4. PIF Overall Adjustment

· ***	T*************************************
Receive VHF high channel (channel-10).	1. Adjust IF AGC voltage so that the output
If such signal is not available, set V _T voltage at 5V	waveform is of approx. 0.8Vp-p.
in V _H band. Connect sweep generator's output to the test	2. Check that the overall waveform is as shown in
point of tuner. Probe in use: 75Ω DC cut probe Sweep output level: 90 dB Connect response lead to pin (7) of IC801.	Figure below.
The response lead to pin (7) of IC801.
The response lead in use should be a direct probe	P-4.43 MHz
with a resistor of 10kΩ included. RF-AGC:	C
Apply approx. 4V DC to the tuner AGC terminal. PIF AGC:	-6 dB ±3 dB
Apply approx. 4V DC to TP202. Connect a 120Ω damping resistor in parallel to	S
R215, short C244. Turn off AFT.	Adj-S

5. RF-AGC Cut-In Adjustment

Adjusting Point 1. Turn R248 to obtain the highest voltage. 2. R248: RF-AGC control 2. Turn R248 slowly in the opposite direction the voltage drops 0.1V lower than the level. 1. Keep the AGC Cut-in control near the center position. 3. Change the antenna input signal to 65d and make sure there is no noise. Turn input signal to 90 — 95dB to be sure that the number of the sure that the sure there. 6. Signal strength: 54dB ± 1 dB (with 50Ω open)	on until highest
RF-AGC control Keep the AGC Cut-in control near the center position. Receive VHF high channel (COLOUR BAR). Signal strength: 54d8 ± 1 dB (with 50Ω open) Turn R248 slowly in the opposite direction the voltage drops 0.1V lower than the level. Change the antenna input signal to 65d and make sure there is no noise. Turn input signal to 90 95dB to be sure that no cros-modulation beat.	on until highest
Keep the AGC Cut-in control near the center position. Receive VHF high channel (COLOUR BAR). Signal strength: 54d8 ± 1 dB (with 50Ω open) Level. Change the antenna input signal to 65d and make sure there is no noise. Turn input signal to 90 — 95dB to be sure that no cros-modulation beat.
position. 3. Change the antenna input signal to 65d 2. Receive VHF high channel (COLOUR BAR). and make sure there is no noise. Turn input signal to 90 95dB to be sure that • Signal strength: 54dB ± 1 dB (with 50Ω open)
2. Receive VHF high channel (COLOUR BAR). and make sure there is no noise. Turn input signal to 90 — 95dB to be sure that 54dB ± 1 dB (with 50Ω open)	B±2dB
Signal strength: input signal to 90 — 95dB to be sure that 54dB ± 1 dB (with 50Ω open) or cros-modulation beat.	up the
54d8 ± 1 dB (with 50 \Omega open) l no cros-modulation beat.	there is

B. Connect the oscilloscope to the tuner's AGC
terminal (TP210). Oscilloscope
Range: DC range
Voltage: 100 mV/div.
• Sweep: 10 msec./div.
* Set the Regulated DC Power Supply to approx.
6.0V and turn up the oscilloscope range to
10mV (DC).	Set

Supply






Approx. 6.0V

115V LINE ADJUSTMENT

Adjusting Conditions	Adjusting Procedures
Adjusting Point R711: 115V Adjustment Control (CX-48F4) 112V Adjustment Control (CX-51F4)	1. CX-48F4: Adjust the R711 until the TP701's voltage becomes 115±0.5V.
Set the R711 to 5/10 before supplying power. Receive "MONOSCOPE PATTERN" signal. Set Contrast and Brightness controls at MAX position.	CX-51F4: Adjust the R711 until the TP701's voltage becomes 112±0.5V.
. Connect DC milliammeter to TP602⊖ and TP603⊕.
Using the DC milliammeter, check to see that the beam current is between 900 and 1100µA. Note:
In other cases than the above, adjust the R420 Sub-Contrast control.
i. Connect Digital voltmeter to TP701.

VIDEO/CHROMA

Adjusting Procedures

1. CRT Cut-off Adjustment

Adjusting Conditions

Receive "MONOSCOPE PATTERN" signal. Make the picture normal.	Adjusting Point	Slowly turn the Screen control clockwise until the
Set Brightness control at 5/10 position and	R853: Red Bias control	horizontal raster appears slightly, and stop it. Here, one of the three colours (red, blue, green)
Contrast control at 10/10 position. Set Red bias control at MIN position.	R859: Green Bias control	appears first as the Screen control is turned. So,
Set Green bias control at MIN position.	T602: Screen control (a part of T602)	touching off the Bias control belonging to the
Set Blue bias control at MIN position.	R857: Green Drive control	first colour, use and move the other two controls
Set Green drive control at CENTER position. Set the Screen control at CENTER position. Set the Screen control at MIN position. Using the remote controller, call the AV mode	R863: Blue Drive control	so that the horizontal raster becomes white. Turn the Screen control counterclockwise until
(no signal). Short TP501.	Note: Prior to this adjustment, warm up the unit with the beam current of more than 700µA for more than 30 minutes.	the horizontal raster disappears, and stop it.
	Receive "MONOSCOPE PATTERN" signal. Make the picture normal. Set Brightness control at 5/10 position and Contrast control at 10/10 position. Set Red bias control at MIN position. Set Green bias control at MIN position. Set Blue bias control at CENTER position. Set Blue drive control at CENTER position. Set the Screen control at MIN position. Using the remote controller, call the AV mode (no signal). Short TP501.

4-1 - 1

4-2

Page 5

VIDEO/CHROMA ADJUSTMENT (Continued)

Adjusting Conditions

Adjusting Procedures

2. White Balance and Back Ground Adjustment


Adjusting Point ☐ 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 700 µA for more than 30 minutes.	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 12300°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
Receive "MONOSCOPE PATTERN" signal. Set the Contrast and Brightness controls at MAX position. Connect DC milliammeter to TP602⊖ and TP603⊕.	at 12300°K. If the temperature is not at 12300°K, go back to "CRT CUT-OFF ADJUSTMENT" and repeat the adjustment. 12300°K: X ··· 0.272 Y ··· 0.275

3. Sub-Contrast Adjustment

Adjusting Point	1. Adjust Sub-Contrast control so that the beam current becomes 1.1 mA.
Note: Prior to this adjustment, warm up the unit with the beam current of more than 700 μA for more than 30 minutes.
Receive "MONOSCOPE PATTERN" signal. Set the Contrast and Brightness controls at MAX position. Connect DC milliammeter to TP602⊖ and TP603⊕. (Full scale: 3 mA)

DEFLECTION LOOP ADJUSTMENT (Continued)

Adjusting Conditions Adjusting Procedures

2. Vertical Size Adjustment

Adjusting Point R509: Vertical Size control 1. Receive "MONOSCOPE PATTERN" signal. 2. Set the Brightness and Contrast controls at MAX position.	Adjust R509 so that the vertical size of picture is at the best point. Vertical size: 8% TYP (Max. 10%, Min. 6%)

3. Vertical Linearity Adjustment

Adjusting Point □ R514: Vertical Size control	1. Adjust R514 so that the vertical linearity of picture is at the best point.
1. Receive "MONOSCOPE PATTERN" signal.

4. Vertical Center Adjustment

Adjusting Point	1. Adjust S501 so that the vertical center of picture is at the best point.
Note: This adjustment should be performed after the purity and convergence adjustments.
1. Receive "MONOSCOPE PATTERN" signal.

FOCUS ADJUSTMENT

DEFLECTION LOC	JP ADJUSTMENT	Adjusting Conditions	Adjusting Procedures
Adjusting Conditions	Adjusting Procedures	Adjusting Point T602: Focus control (a part of T602)	1. Adjust Focus control to have best focus at the central area of CRT.
1. Horizontal Centering Adjustment		1. Receive "MONOSCOPE PATTERN" signal.
Adjusting Point □ R613: Horizontal Centering control Note: This adjustment should be performed after the purity and convergence adjustments. 1. Receive "MONOSCOPE PATTERN" signal.	1. Adjust R613 so that the horizontal center of picture is at the position which gives the relation of A = B.	Set Contrast control at NORMAL position. Set Brightness control at MAX position. (Instead of monoscope pattern signal, it is allowed to use white pattern signal of 88% modulation.)	Adjust point
			·

Page 6

CRT DISPLAY ADJUSTMENT Adjusting Procedures

Adjusting Conditions

1. Sign Position Adjustment

Adjusting Point	Make sure that the DAC center bar is at the
T1001: Sign Position check (T1001 preset)	geometrical center of the monoscope pattern. If
Make this adjustment after the H-CENT	0.5 line or more away from the geometrical
adjustment.	center, readjust T1001.
Press the P-MODE key on the remote controller to make the DAC center bar appear on the screen. (COLOUR, BRIGHT, TINT)	COLOUR DAC center bar +0.5 line -0.5 line Geometrical center

ი

Adjusting Conditions

1. Prior to the purity adjustment, warm up the unit with beam current of more than 700 uA, for more
2. Receive the green signal alone and adjust the beam current to approx. 700 µA.
3. Fully degauss the CRT with the degaussing coil.
4. 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.

Adjusting Procedures

Adjustment:

During the adjustment, keep the unit facing the east.
1. 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.
2. If the right and left green spots are both deviated outwards from their landing positions as shown in Fig. B, push the deflection voke forwards until their positions are corrected.
3. 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
4. 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.
5. If the green beam is positioned to mix with the other colour, pull the deflection voke backward.
- Outside of the specified landing: To front of the deflection voke
- Inside of the specified landing: To back of the deflection voke.
6. Set the raster rotation at "0" position (with the unit facing the east).
7. Tighten the screws of the deflection coil. Tightening torque: 11 kg ± 2 kg.

Right

The beam landing is shifted outwards.

Figure A.

Figure B.

Figure C

Page 7

CONVERGENCE ADJUSTMENT

Figure b.

Adjusting Conditions 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.

Adjusting Procedures

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

DYNAMIC CONVERGENCE

3. 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 yoke 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 yoke until the mis-convergence shown in Fig. b is

• Convergence in Fig. c

Insert wedge "c" deeply between the deflection voke and CRT, and tilt the deflection voke to right until the mis-convergence 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 mis-convergence shown in Fig. d is corrected
4. Stick the three wedges onto the CRT, and apply glass tapes thereon.
5. Apply lacquer to the deflection voke screw. magnet unit (made of purity, 4-pole and 6-pole 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.

ဂင

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8-2

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9-2

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DESCRIPTION OF SCHEMATIC DIAGRAM

SAFETY NOTE:

1. DISCONNECT THE AC PLUG FROM THE AC OUTLET BEFORE REPLACEING PARTS.
2. 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 PERFORMANCE OF THE SET.

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.

NOTE:

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

VOLTAGE MEASUREMENT CONDITIONS:

1. Voltages in parenthesis measured with no Signal
Voltages without parenthesis measured with 3mV 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 1.5 V peak to peak applied at Base of Video Buffer Amp. Q202.
2. Approximately 4.0 V AGC bias.

TRS +0.Deiv NORM SM	TRE +0.Deiv NORM SM	TRG +0.Cdiv NORM SM	TRE +0.041V NORM SM	TRG +0.041V NORM SM



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		R- DISV A=2044
1 2.0 Vp-p (H)	2 1.3 Vp-p (H)	3 1.5 Vp-р (H)	(4) 3.0 Vp-p (H)	5 3.0 Vp-р (H)
and it also to turbuit to terr	Table And the Andrew Andrew	Trobad adjust dupped at love	ant date the trade of the
				TRG + . Odiv NORM :SM

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		┃ ~~╺┽╎╎┽┇╎┥┥~~		┠╾┽╾┽┽╫╌┽╌╉╌╢┼┼╌┽╾╉┽╿

		\| R ZOV A ZOLA \| OF		R- ZV A-ZOLA
(6) 3.0 Vp-p (H)	(7) 80 Vp-p (H)	(8) 80 Vp-p (H)	(9) 80 Vp-p (H)	(10) 5.7 Vp-p (H)

TR$ +0.001v \| ALBASE \| SM	TR$ +0.0011 \| NORM \| SM	TRG + Ø. Odiv \| INDRM \| \| SM	TRE +0.0011 \| ALBASE \| ISM	TRE +0.0div \| JALBASE \| ISH \|
	TR$ +$.041v NORM SM	TR¢ +$.0div NOPM SM	TR$ +$.0$1V AL$AS$ SM	TR¢ +0.0div ALVAS¢ SN
	TR$ +0.0div NORU SM	TRE + Odiv NORM SM




TRL + 0.04 IV ALBASE Suit Image: Im	Тяк +0.00 iv нори Би	TRk +0.0d iv NORM SM 0P 0	TB$ +$ .0 iv AL$ SM Image: Construction of the second	TR6 +0,041v AL$AS$ SM
TRE +0.001v ALBASE SM R- CISV A-Smith SM (1) 1.8 Vp-p (V)	TRC +0.0d iv HORM SM Image: Second seco	TR¢ +0.0div NORM SM 0p 0 13 9.2 Vp-p (H) 0 TR¢ +0.0div NORM SM SM	TR¢ + 0.0 iv ALPASE SM Image: Constraint of the state of	TR6 +0.041 v ALPASE SM Image: state stat
TR$ +0.00 iv ALBASE SM Image: Close of the second sec	TRE +0.00 iv NORM SM Image: State of the s	TR6 +0.0d iv NORM SM 000<	This +0.00 iv ALBASE SM Image: 100 min Image: 10	TRC +4.0div ALPASE SM Image: state stat
TR$ +0.00 \|v ALBASE Suit Image:	TR6 +0.00 iv NORU SM Image: state	TRk + 0.0d iv NORM SM 000	TR$ +$ .0$ iv AL$ AS$ SM Image: constraint of the second	TRC +0.0d IV ALPASE SM Image: state sta
TRE +0 Od IV ALBASE Sur TRE +0 Od IV ALBASE Sur R= CSV Ar Smy TRE TRE +0 Od IV NORM Sur TRE +0 Od IV NORM Sur	TRC +0.0d iv NORU SM	TRk +4.0d iv NORM SM 0p 0 13 9.2 Vp-p (H) 13 10 54	Th¢ • 0.0 iv AL$ AS$ SM Image: Constraint of the second s	TR6 +0.041v ALPASE SM 1
TRE +0.001v ALBASE SM R- CSV AFSmill M 11 1.8 Vp-p (V) M SM	TR¢ +0.0d iv H0ku Su Image: state	TRE +4 Dd iv NORM SM 0 0	TRk + 0.0 iv ALBASE SM Image: state sta	TR6 +0.041 v ALPASE SM Image: state stat
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WAVEFORMS

Page 12

Page 13

CX-48F4	CX-48F4
CX-51F4	CX-51F4

CAUTION: This circuit diagram is original one, therefore there may be a slight difference from yours.

Page 14

MODEL CX-51F4 SCHEMATIC DIAGRAM

CAUTION: This circuit diagram is original one, therefore there may be a slight difference from yours.

Page 15

Page 16

CX-48F4 CX-51F4

Page 17

SOLID STATE DEVICE BASE DIAGRAM

Page 18

PARTS LIST

PARTS REPLACEMENT

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.

. MODEL NUMBER	2. REF. NO.
3. PART NO.	4. DESCRIPTION
5. CODE	6. QUANTITY

MARK *: SPARE PARTS-DELIVERY SECTION

Ref. No.	Part No.	★	Description	Code

PICTURE TUBE


	MODE	EL (	CX-48F4
∧ V1	VB48QAD22025E	А	CRT Ass'y 48 cm (20 inch	)
			(with DY and Purity Magnet	et)
∧ L708	RCiLG0024PEZZ	R	Degaussing (ADG) Coil	AW
	LHLDC0001PEZZ	R	ADG Coil Holder, x4	AC
	MSPRT0001PEFJ	R	CRT Spring	AC

	MODE	L (	CX-51F4
∧ V1	VB51KPD12X82E	А	CRT Ass'y 51 cm (21 inch	)
			(with DY and Purity Magne	et)
∧ L708	RCiLG0025PEZZ	R	Degaussing (ADG) Coil	AW
	LHLDW0003PEKZ	R	ADG Coil Holder, x4	AB

PRINTED WIRING BOARD ASSEMBLIES (NOT REPLACEMENT ITEM)

MSPRT0001PEFJ R CRT Spring

MODEL CX-48F4


PWB-A	DUNTK8968WEV2	_	Main Unit
PWB-B	DUNTK7001WEG3	_	CRT Socket Unit

	MODE	LC	CX-51F4
PWB-A	DUNTK8968WEV3	_	Main Unit
PWB-B	DUNTK7001WEG4	_	CRT Socket Unit

Ref.	No.	Part No.

PWB-A DUNTK8968WEv2/v3 MAIN UNIT

TUNER

NOTE: THE PARTS HERE SHOWN ARE SUPPLIED AS AN ASSEMBLY BUT NOT INDEPENDENTLY.

A TU201 VTUVTSH6AD02/ R VHF/UHF Tuner

INTEGRATED CIRCUITS

	IC301	VHiTDA7056/-1	R	Sound Output TDA7056	AP
	IC501	RH-iX0640CEZZ	R	Vertical Output LA7830	AK
	IC602	VHiKA7809Pi-1	R	9V Reg. KiA7809Pi	AE
Δ	IC751	RH-iX1779CEZZ	R	Power Reg. TEA2261	AR
	IC801	VHiTDA8361/4E	R	Video/Chroma TDA8361	BB
	IC802	VHiTDA4665/4E	R	1H-DL	AT
	IC1001	RH-iX2618CEZZ	R	Microprocessor	AY
				TMP87CH36N3176
	IC1002	RH-iX2467CEN1	R	ST93C46CB1	AK
	IC1003	RH-iX0037CEZZ	R	32V Zener UPC574J	AF
	IC1004		D	Depet KiA7045D

TRANSISTORS


Q201	VS2SC1906//1E	R	PIF Pre-Amp.	AC
Q202	VS2SC945AP/-1	R	Video Amp.	AB
Q203	VS2SA1015Y/1E	R	AFT Mute	AC
Q210	VS2SA1015Y/1E	R	Band Switch BL	AC
Q211	VS2SA1015Y/1E	R	Band Switch BH	AC
Q212	VS2SA1015Y/1E	R	Band Switch BU	AC
Q302	VS2SC945AP/-1	R	Ident Switch	AB
Q303	VS2SC945AP/-1	R	Sound Mute	AB
Q304	VS2SC2236Y/-1	R	S-Out +B Switch	AD
Q307	VS2SC945AP/-1	R	IntSound Amp.	AB
Q310	VS2SC945AP/-1	R	IntSound Amp.	AB
Q311	VS2SC945AP/-1	R	Mute	AB
Q452	VS2SC945AP/-1	R	Video Amp.	AB
Q601	VS2SC2271E/-1	R	Horiz. Drive	AD
2Q602	VS2SD2095//1E	R	Horiz. Output	AN
_ Q603	VS2SA1015Y/1E	R	Protector	AC
Q605	VSKRA102M//-1	R	Starter	AA
_Q701	VS2SD1884//-1	R	Power	AN
_Q702	VS2SC945AP/-1	R	Soft Starter	AB
Q801	VS2SA1015Y/1E	R	B-Buffer	AC
Q802	VS2SA1015Y/1E	R	R-Buffer	AC
Q803	VS2SA1015Y/1E	R	G-Buffer	AC
Q804	VS2SC1815GW-1	R	Switch	AB
Q1001	VS2SC383-WT-1	R	D/A Converter VT	AE
Q1002	VSKRC102M//-1	R	Red LED Drive	AA
Q1003	VSKRA102M//-1	R	On Timer LED Drive	AA
Q1005	VSKRC102M//-1	R	AV Switch	AA
Q1006	VSKRC102M//-1	R	Band Switch U	AA
Q1007	VSKRC102M//-1	R	60Hz Switch	AA
Q1008	VSKRC102M//-1	R	50Hz Switch	AA
Q1014	VSKRC102M//-1	R	AFT Mute	AA
Q1015	VSKRC102M//-1	R	Band Switch VH	AA
Q1016	VSKRC102M//-1	R	Band Switch VL	AA
Q1017	VSKRC102M//-1	R	Vert. Pulse	AA

/ /

Page 19

Ref. No.	Part No.	*	Description	Code	Ref. No.	Part No.	★	D	escrip	otion (	Cod
PWE	B-A DUNT	. K 8	968WEV2/V3		D1058	RH-DX0446CEZZ	R	Diode			AB
	ΜΛΙΝΙ		T (Continued)		D1060	VHD1SS119//1E	R	Diode 1	SS119	)	AA
					D1061	RH-DX0446CEZZ	R	Diode			AB
Q1018	VS2SC1815GW-1	R	Horiz. Pulse	AB	D1066	RH-EX0294CEZZ	R	Zener [	Diode 5	5.1V	AA
Q1019	VSKRC102M//-1	R	Red LED Drive	AA	▲ VA702	RH-VX0033CEZZ	R	Varistor			AD
	C		ES			PACKAGE	ED	CIRC	UITS
D207	RH-EX0288CEZZ	R	Zener Diode 4.3V	AA	A PR701	RMPTP0061CEZZ	R	Positive	Coeff	icient	AV
D209	RH-DX0446CEZZ	R	Diode	AB				Thermi	stor
D214	RH-DX0446CEZZ	R	Diode	AB	X802	RCRSB0008PEZZ	R	Crystal	4.43M	Hz	AH
D302	RH-DX0224CEZZ	R	Diode	AB	X803	RCRSB0009PEZZ	R	Crystal	3.58M	Hz	AL
D303	RH-DX0446CEZZ	R	Diode	AB
D307	RH-DX0446CEZZ	R	Diode	AB		COIL AND T	RA	NSFO	RME	RS
D401	RH-DX0446CEZZ	R	Diode	AB	CF451	RFiLC0005PEZZ	R	Cerami	c Filter		AF
D407	RH-DX0446CEZZ	R	Diode	AB	CF1001	RFiLC0121GEZZ	R	Cerami	c Filter		AD
D501	RH-DX0279CEZZ	R	Diode	AB	CF2301	RFiLC0008PEZZ	R	Cerami	c Filter		AF
D502	RH-DX0127CEZZ	R	Diode	AC	L203	VP-XFR82K0000	R	Peaking	g Coil (	D.82μH	AE
D506	VHD1SS119//1E	R	Diode 1SS119	AA	L212	VP-DF270K0000	R	Peaking	g Coil 2	27µH	AE
D507	RH-DX0446CEZZ	R	Diode	AB	L451	VP-XF120K0000	R	Peaking	g Coil	12µH	AE
⚠ D509	RH-DX0446CEZZ	R	Diode	AB	L602	RCiLP0224CEZZ	R	Coil			AE
D602	RH-EX0628GEZZ	R	Zener Diode 8.2V	AC	L609	VP-CF1R0M0000	R	Peaking	g Coil	1µH	AE
D603	RH-DX0073CEZZ	R	Diode	AD	L632	RCiLP0225CEZZ	R	Coil			AF
D604	RH-DX0279CEZZ	R	Diode	AB	∧ L701	RCiLF0007PEZZ	R	Line Fil	ter		AL
⚠ D606	RH-DX0446CEZZ	R	Diode	AB	▲ L702	RCiLF0105CEZZ	R	Line Fil	ter		AF
▲ D607	RH-EX0655GEZZ	R	Zener Diode 20V	AB	∧ L705	VP-CF3R3K0000	R	Peakin	g Coil :	3.3µН	AE
D610	RH-DX0446CEZZ	R	Diode	AB	∧ L712	VP-CF100K0000	R	Peakin	g Coil	10µH	AE
D611	VHD1SS119//1E	R	Diode 1SS119	AA	L1005	VP-DF120K0000	R	Peakin	g Coil	12µH	AE
D612	VHD1SS119//1E	R	Diode 1SS119	AA	L2307	VP-XF2R2K0000	R	Peakin	g Coil :	2.2µH	AE
⚠ D618	RH-DX0446CEZZ	R	Diode	AB	L2308	VP-XF3R3K0000	R	Peakin	g Coil :	3.3μН	AE
⚠ D619	RH-DX0279CEZZ	R	Diode	AB	SF201	RFiLC0227CEZZ	R	Surface	e Acou	stic Wave	٨N
D623	RH-EX0628GEZZ	R	Zener Diode 8.2V	AC				Filter
∧ D701	RH-DX0279CEZZ	R	Diode	AB	T203	RCiLi0550CEZZ	R	IF Coil			AD
∧ D702	RH-DX0279CEZZ	R	Diode	AB	T205	RCiLD0228CEZZ	R	P-DET/	AFT C	oil	AE
∧ D703	RH-DX0279CEZZ	R	Diode	AB	∧ T601	RTRNZ0026PEZZ	R	Horiz. I	Drive T	rans.	A۲
∧ D704	RH-DX0279CEZZ	R	Diode	AB	∧ T602	RTRNF0069PEZZ	R	Flyback	< Trans	s. (FBT)	BF
∧ D705	RH-DX0130CEZZ	R	Diode	AE	∧ T701	RTRNZ0083PEZZ	R	Power	Regula	ator Trans.	ΑL
A D706	RH-DX0130CEZZ	R	Diode	AE	T1001	RCiLB0009PEZZ	R	OSD A	dj. Coil		AF
∧ D708	RH-EX0281CEZZ	R	Zener Diode 3.9V	AA
∧ D709	RH-DX0302CEZZ	R	Diode	AC		COI	TV	ROLS
∧ D710	RH-DX0027CEZZ	R	Diode	AE	R248	RVR-M4626GEZZ	R	10k(B)	RF-A	GC	AB
D732	RH-DX0388CEZZ	R	Diode	AE	R420	RVR-M4626GEZZ	R	10k(B)	Sub-0	Contrast	AE
D733	RH-DX0302CEZZ	R	Diode	AC	R509	RVR-M4616GEZZ	R	220(B)	Vert.	Size	AE
D805	RH-EX0716GEZZ	R	Zener Diode 2.2V	AB	R514	RVR-M4624GEZZ	R	4.7k(B)	Vert.	Linearity	AE
D807	RH-DX0446CEZZ	R	Diode	AB	R613	RVR-M4626GEZZ	R	10k(B)	Horiz	. Center	AE
D808	RH-DX0446CEZZ	R	Diode	AB	∧ R711	RVR-M4324CEZZ	R	220(B)	115V	Adj.(CX-48F4	/)/A(
D809	RH-DX0446CEZZ	R	Diode	AB					112V	Adj.(CX-51F4	)
D810	VHD1SS119//1E	R	Diode 1SS119	AA
D812	RH-DX0446CEZZ	R	Diode	AB		CAP	AC	ITORS	$
D1000	RH-PX0003PEZZ	R	LED Red/Green	AF	C201	VCKYMN1CY103N	R	0.01	16V	Ceramic	A
D1004	RH-DX0446CEZZ	R	Diode	AB	C202	VCKYMN1CY103N	R	0.01	16V	Ceramic	AA
D1005	RH-DX0446CEZZ	R	Diode	AB	C203	VCKYMN1CY103N	R	0.01	16V	Ceramic	A
D1024	RH-DX0446CEZZ	R	Diode	AB	C205	VCFYFA1HA474J	R	0.47	50V	M. Polyester	A
D1039	RH-DX0446CEZZ	R	Diode	AB	C206	VCQYTA1HM104K	R	0.1	50V	Mylar	A
D1053	RH-EX0615GEZZ	R	Zener Diode 5.6V	AA	C208	VCEAGA1AW477M	R	470	10V	Electrolytic	A
D1054	RH-DX0446CEZZ	R	Diode	AB	C209	VCEAGA1HW105M	R	1	50V	Electrolytic	A
D1057	RH-EX0615GEZZ	R	Zener Diode 5.6V	AA	C213	VCKYMN1CY103N	R	0.01	16V	Ceramic	A

Page 20

Ref. No.	Part No.	*		Descri	ption	Code	Ref. No.	Part No.	★	. [	Descri	otion	Code
PWF	B-A DUNT	K	8968	WF	V2/V3		C512	VCEAGA1HW105M	R	1	50V	Electrolytic	AC
							C514	VCQYTA1HM104K	R	0.1	50V	Mylar
	MAIN U	IN		ontir	nuea)		C515	VCKYPA1HB472K	R	4700n	50V	Ceramic	ΔΔ
C220	VCSATA1VE225K	R	2.2	35V	Tantalum	AC	C601	VCFYFA1HA334.	R	0.33	50V	M Polyester
C225	VCEAGA1HW105M	R	1	50V	Electrolvtic	AC	C602	VCOYTA1HM104K	R	0.00	50V	Mylar
C226	VCKYMN1CY103N	R	0.01	16V	Ceramic	AA	C606		R	2200n	50V	Mular
C231	VCQYTA1HM104K	R	0.1	50V	Mylar	AC	C610			2200p	0501
C232	VCEAGA1AW107M	R	100	10V	Electrolytic	AR	C611			1000-	2001	Ni. Polyester	AD
C233	VCEAGA1HW106M	R	10	50V	Electrolytic		A C612		п	noom	000	Ceramic	AA
C239		R	0.1	501	Mular				н	820p	260	Ceramic	AB
C240			470	101/	Flootrolutio	AC	0013	VGFPPD2DB474J	К	0.47	2000	Polypro Film	AE
C240		חי ח	470	101		AC	C614	VGFPPD2DB474J	н	0.47	200V	Polypro Film	AE
0242		н П	0.01	101	Ceramic	AA	C615	VCQPSD2DA224J	R	0.22	200V	Polypro Film	AD
0244		°Н В	8.2p	500	Ceramic	AA	AC616	VCFPPD3CA103J	R	0.01	1.6kV	Polypro Film	AF
0249	VCKYMN1CY103N	н	0.01	16V	Ceramic	AA	C617	VCQYTA1HM104K	R	0.1	50V	Mylar	AC
C250	VCKYMN1CY103N	н	0.01	16V	Ceramic	AA	C619	VCEAGA2AW106M	R	10	100V	Electrolytic	AC
C259	VCKYMN1CY103N	R	0.01	16V	Ceramic	AA	∧ C620	VCEAGA1HW105M	R	1	50V	Electrolytic	AC
°C269	VCKYMN1CY103N	R	0.01	16V	Ceramic	AA	▲ C621	VCEAGA0JW337M	R	330	6.3V	Electrolytic	AB
C303	VCEAGA1HW475M	R	4.7	50V	Electrolytic	AB	∧ C622	VCEAGA1HW105M	R	1	50V	Electrolytic	AC
C304	VCEAGA1HW225M	R	2.2	50V	Electrolytic	AB	∧ C630	VCKYMN1CY103N	R	0.01	16V	Ceramic	AA
C307	VCEAGA1HW105M	R	1	50V	Electrolytic	AC	C636	VCEAGA1CW476M	R	47	16V	Electrolytic	AB
C309	VCQYTA1HM104K	R	0.1	50V	Mylar	AC	C639	VCKYD41HB391K	R	390p	50V	Ceramic	AA
C311	VCKYPA2HB102K	R	1000p	500V	Ceramic	AA	C648	VCEAGA1AW107M	R	100	10V	Electrolytic	AB
C312	VCEAGA1CW228M	R	2200	16V	Electrolytic	AE	C649	VCKYMN1CX472M	R	4700p	16V	Ceramic	AA
C313	VCEAGA1HW104M	R	0.1	50V	Electrolytic	AA	C650	VCEAGA1HW105M	R	1	50V	Electrolytic	AC
C314	VCQYTA1HM272K	R	2700p	50V	Mylar	AA	C662	VCEAGA1HW106M	R	10	50V	Electrolytic	AC
C315	VCKYMN1CY103N	R	0.01	16V	Ceramic	AA	▲ C701	BC-FZ012SGEZZ	R	0.22 AC	250V	Special	AF
C319	VCKYD41HB102K	R	1000p	50V	Ceramic	AA	A C703	BC-KZ0029CEZZ	R	0.01 AC	22501	Ceramic
C326	VCEAGA1HW106M	R	10	50V	Electrolytic	AC	A C704	BC-KZ0029CEZZ	R		22501	Coramia
C327	VCOYTA1HM223K	R	0.022	50V	Mylar	AB	A C705	RC-KZ00290EZZ	D	0.01 AC	2000	Ceramia	AC
C328	VCEAGA1CW477M	B	470	16V	Flectrolytic	AC	A C706		п	0.01 AC		Ceramic	AC
C329	VCKYMN1CY103N	R	0.01	16V	Ceramic	ΔΔ	A C707		n D	0.01 AC	4001	Ceramic	AC
0335	VCKYMN1CY103N	R	0.01	16V	Coramic				п	00		Electrolytic	AQ
C338	VCKYMN1CY103N	B	0.01	16V	Coramio				н	0.01 AC	J25UV	Ceramic	AC
C380	VCEAGA1HW106M		10	50V	Electrolytic				н	100	160	Electrolytic	AB
C384	VCKVMNICV102N	D	0.01	161/	Coromio				н	1000p	500V	Ceramic	AA
0304		п	100	101	Electrolutio			RC-QZA471TAYJ	н	470p	50V	Mylar	AB
0305	VCEAGATAWTOTW	п	100	501				VCFYHA1HA684J	н	0.68	50V	M. Polyester	AD
0300	VCEACATHWIOSW	п	1	500				VCKYPA2HB102K	н	1000p	500V	Ceramic	AA
0390		н	1	500	Electrolytic	AC	∧ C714	VCQY IA1HM563K	R	0.056	50V	Mylar	AB
0404		н	0.047	500	wyar	AB	∧ C715	VCEAGA1HW106M	R	10	50V	Electrolytic	AC
0406		н	0.047	.50V -	Mylar	AB	▲C716	VCEAGA1HW105M	R	1	50V	Electrolytic	AC
C407	VCKYMN1CY103N	R	0.01	16V	Ceramic	AA	▲ C719	VCQYTA1HM273K	R	0.027	50V	Mylar	AB
C455	VCEAGA1CW476M	н	47	16V	Electrolytic	AB	∧ C720	VCEAGA1JW476M	R	47	63V	Electrolytic	AB
C456	VCEAGA1HW106M	R	10	50V	Electrolytic	AC	∧ C721	RC-KZ0341CEZZ	R	1000p	2kV	Ceramic	AD
C457	VCEAGA1HW106M	R	10	50V	Electrolytic	AC	∧ C723	VCKYPA2HB102K	R	1000p	500V	Ceramic	AA
C460	VCKYMN1CY103N	R	0.01	16V	Ceramic	AA	∧ C724	RC-KZ0029CEZZ	R	0.01 AC	C250V	Ceramic	AC
C461	VCEAGA1CW477M	R	470	16V	Electrolytic	AC	∧ C725	VCFYFA1HA474J	R	0.47	50V	M. Polyester	AC
C502	VCKYPA1HB471K	R	470p	50V	Ceramic	AA	∧ C726	VCKYPA1HB102K	R	1000p	50V	Ceramic	AA
C503	VCQYTA1HM272K	R	2700p	50V	Mylar	AA	∧ C729	VCEAGA1CW227M	R	220	16V	Electrolytic	AC
C504	VCKYMN1HB102K	R	1000p	50V	Ceramic	AA	C731	VCEAGH2CW107M	R	100	160V	Electrolytic	AE
C505	VCQYTA1HM104K	R	0.1	50V	Mylar	AC	C732	RC-KZ0341CEZZ	R	1000n	2kV	Ceramic	AD
C506	VCEAGA1EW108M	R	1000	25V	Electrolvtic	AD	C733	VCKYPA2HR102K	P	1000n	5001/	Ceramic	ΔΔ
C507	VCEAGA1VW107M	R	100	35V	Electrolytic	AC	C734	VCFAGA1CW/77M	P	470	16\/	Electrolytic
C508	VCSATA1VE225K	R	2.2	351/	Tantalum	AC	A C726		p			Coromic
C509		R	0.1	50\/	Mylar	AC			п	100 AC	1601
C510		Р	470	351/	Flectrolutio		A 0741		п	100	FOOL
C511		P	1000-	5001	Coromio				н	4700p	VUUC		AB
0011	VUNTFAZED UZA	п	rooop	0000	Gerannic	AA	/1 0742	VGFYFA1HA394J	н	0.39	50V	M. Polyester	AC

Page 21

Ref. No.	Part No.	★	[	Descri	ption	Code	Ref. No.	Part No.	*		Descr	iption	Code
PWE		55 NI		WE	V2/V3 wed)		C2316 C2321	VCKYMN1HB101K VCKYMN1HB102K	R R	100p 1000p	50V 50V	Ceramic Ceramic	AA AA
A C747	PC-KZ020SCEZZ		22000		Ceramic	ΔΕ		RES	315-	robs
C800		R	2200p		Electrolytic		B202	VRD-MN2RE682.1	R	6 8k	, 1/8\ \ /	Carbon	ΔΔ
C811		R	0.01	50V	Mylar	AB	R203	VRD-MN2BE472.1	R	4 7k	1/8W	Carbon	AA
C812		R	0.01	50V	Mylar	AB	R204	VRD-MN2BE220.I	R	22	1/8W	Carbon	AA
C813	VCQYTA1HM103K	R	0.01	50V	Mylar	AB	R205	VRD-MN2BE151J	R	150	1/8W	Carbon	AA
C815	VCEAGA1HW475M	R	4.7	50V	Electrolytic	AB	R206	VRD-MN2BE471J	R	470	1/8W	Carbon	AA
C817	VCQYTA1HM104K	R	0.1	50V	M∨lar	AC	R207	VRD-RA2EE221J	R	220	1/4W	Carbon	AA
C818	VCQYTA1HM104K	R	0.1	50V	Mylar	AC	R208	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA
C819	VCCCMN1HH180J	R	18p	50V	Ceramic	AA	R209	VRD-MN2BE151J	R	150	1/8W	Carbon	AA
C820	VCCCMN1HH180J	R	18p	50V	Ceramic	AA	R211	VRD-MN2BE561J	R	560	1/8W	Carbon	AA
C821	VCKYMN1CX472M	R	4700p	16V	Ceramic	AA	R214	VRD-MN2BE470J	R	47	1/8W	Carbon	AA
C822	VCEAGA1HW104M	R	0.1	50V	Electrolytic	AA	R215	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA
C823	VCEAGA1CW476M	R	47	16V	Electrolytic	AB	R217	VRD-MN2BE822J	R	8.2k	1/8W	Carbon	AA
C825	VCKYPA1HB102K	R	1000p	50V	Ceramic	AA	R223	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA
C826	VCKYPA1HB102K	R	1000p	50V	Ceramic	AA	R225	VRD-MN2BE223J	R	22k	1/8W	Carbon	AA
C827	VCKYMN1CY103N	R	0.01	16V	Ceramic	AA	R232	VRD-RA2EE681J	R	680	1/4W	Carbon	AA
C840	VCEAGA1AW226M	R	22	10V	Electrolytic	AA	R233	VRD-RA2EE125J	R	1.2 M	1/4W	Carbon	AA
C885	VCEAGA1CW477M	R	470	16V	Electrolytic	AC	R236	VRD-MN2BE472J	R	4.7k	1/8W	Carbon	AA
C892	VCEAGA1AW108M	R	1000	10V	Electrolytic	AC	R237	VRD-MN2BE472J	R	4.7k	1/8W	Carbon	AA
C1001	VCEAGA1HW475M	R	4.7	50V	Electrolytic	AB	R238	VRD-MN2BE472J	R	4.7k	1/8W	Carbon	AA
C1002	VCEAGA1HW475M	R	4.7	50V	Electrolytic	AB	R240	VRD-MN2BE184J	R	180k	1/8W	Carbon	AA
C1003	VCEAGA1HW475M	R	4.7	50V	Electrolytic	AB	R241	VRD-MN2BE824J	R	820k	1/8W	Carbon	AA
C1004	VCEAGA1CW106M	R	10	16V	Electrolytic	AA	R244	VRD-MN2BE274J	R	270k	1/8W	Carbon	AA
C1007	VCQYTA1HM104K	R	0.1	50V	Mylar	AC	R247	VRD-MN2BE123J	R	12k	1/8W	Carbon	AA
C1008	VCQYTA1HM104K	R	0.1	50V	Mylar	AC	R248	See Controls
C1009	VCKYMN1HB221K	R	220p	50V	Ceramic	AA	R254	VRD-MN2BE333J	R	33k	1/8W	Carbon	AA
C1011	VCKYMN1HB101K	R	100p	50V	Ceramic	AA	R255	VRD-MN2BE473J	R	47k	1/8W	Carbon	AA
C1013	VCEAGA1HW106M	R	10	50V	Electrolytic	AC	R256	VRD-MN2BE104J	R	100k	1/8W	Carbon	AA
C1014	VCKYMN1HB151K	R	150p	50V	Ceramic	AA	R261	VRD-MN2BE473J	R	47k	1/8W	Carbon	AA
C1017	VCQYTA1HM104K	R	0.1	50V	Mylar	AC	R263	VRD-MN2BE681J	R	680	1/8W	Carbon	AA
C1022	VCEAGA1EW475M	R	4.7	25V	Electrolytic	AA	R301	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA
C1023	VCKYMN1HB151K	R	150p	50V	Ceramic	AA	R315	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA
C1024	VCKYMN1HB151K	R	150p	50V	Ceramic	AA	R316	VRD-RA2BE103J	R	10k	1/8W	Carbon	AA
C1025	VCKYMN1HB151K	R	150p	50V	Ceramic	AA	R317	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA
C1026	VCKYMN1HB471K	R	470p	50V	Ceramic	AA	R320	VRD-MN2BE332J	R	3.3k	1/8W	Carbon	AA
C1028	VCKYPA1HF103Z	R	0.01	50V	Ceramic	AA	R321	VRD-MN2BE333J	R	33k	1/8W	Carbon	AA
C1030	VCKYMN1HB221K	R	220p	50V	Ceramic	AA	R323	VRD-RM2HD102J	R	1k	1/2W	Carbon	AA
C1033	VCKYMN1HB221K	R	220p	50V	Ceramic	AA	R336	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA
C1038	VCKYMN1CY103N	R	0.01	16V	Ceramic	AA	R337	VRD-RA2BE123J	R	12k	1/8W	Carbon	AA
C1044	VCKYMN1HB221K	R	220p	50V	Ceramic	AA	R340	VRD-MN2BE103J	R	10k	1/8W	Carbon	AA
C1045	VCKYMN1HB221K	R	220p	50V	Ceramic	AA	R341	VRD-RA2BE332J	R	3.3k	1/8W	Carbon	AA
C1046	VCKYMN1HB221K	R	220p	50V	Ceramic	AA	R345	VRD-MN2BE273J	R	27k	1/8W	Carbon	AA
C1047	VCKYMN1HB221K	R	220p	50V	Ceramic	AA	R348	VRD-MN2BE124J	R	120k	1/8W	Carbon	AA
C1048	VCEAGA1HW475M	R	4.7	50V	Electrolytic	AB	R349	VRD-RA2BE102J	R	1k	1/8W	Carbon	AA
C1049	VCEAGA1HW475M	R	4.7	50V	Electrolytic	AB	R351	VRD-RA2BE222J	R	2.2k	1/8W	Carbon	AA
C1052	VCEAGA1AW107M	R	100	10V	Electrolytic	AB	R352	VRD-RA2BE332J	R	3.3k	1/8W	Carbon	AA
C1060	VCKYMN1HB221K	R	220p	50V	Ceramic	AA	R355	VRD-RA2BE331J	R	330	1/8W	Carbon	AA
C1064	VCEAGA1HW335M	R	3.3	50V	Electrolytic	AB	R356	VRD-MN2BE104J	R	100k	1/8W	Carbon	AA
C1065	VCKYPA1HF103Z	R	0.01	50V	Ceramic	AA	R357	VRD-RA2BE331J	R	330	1/8W	Carbon	AA
C1066	VCCSMN1HL330J	R	33p	50V	Ceramic	AA	R401	VRD-RA2EE820J	R	82	1/4W	Carbon	AA
C1067	VCEAGA1HW475M	R	4.7	50V	Electrolytic	AB	R410	VRD-MN2BE183J	R	18k	1/8W	Carbon	AA
C1068	VCKYPA1HF103Z	R	0.01	50V	Ceramic	AA	R411	VRD-RA2BE223J	R	22k	1/8W	Carbon	AA
C2301	VCKYMN1HB101K	R	100p	50V	Ceramic	AA	R412	VRD-MN2BE333J	R	33k	1/8W	Carbon	AA

Page 22

Ref. No.	Par	t No.	*		Desc	ription	Code	Ref. No.	Part No.	*		Descr	iption and i	Code
PWR	λ_Δ	DUNT	KS	2065		12/12		▲ B630	VRD-MN2BE123.	B	12k	1/8W	Carbon	ΔΔ
						. V Z/ V J		A R634	VRD-RM2HD101.	B	100	1/2\N/	Carbon	ΔΔ
		MAIN U	IN	II (C	onti	nued)		A R635	VRD-MN2BE823.1	R	82k	1/8\M	Carbon	ΔΔ
R414	VRD-RA	2BE223J	R	22k	1/8W	Carbon	AA		VRD-RM2HD682.1	R	6.8k	1/2\W	Carbon
R420	See Co	ontrols					,	R641	VRD_MN2RE2731		0.0K	1/2/1	Carbon
R422	VRD-MN	2BE823.J	R	82k	1/8W	Carbon	AA	R648			10	1/01/	Carbon
B437	VRD-MN	28F473.1	R	47k	1/8W	Carbon	ΔΔ	A P640			1.0	1/2/1	Carbon
R444	VRD-RA	2BE223.1	R	22k	1/8\W	Carbon		D650		п . п	4.7K		Carbon
R447	VRD-RA	28F473.1	R	17k	1/8\M	Carbon	A A	R050			2.2K	1/014	Carbon	AA
R453	VRD-RA	2FE181.1	R	180	1/4W	Carbon	ΔΔ	Deca			39	1/877	Carbon	AA
R456		2856801	R	68	1/8/	Carbon	AA	-R034	VRD-WIN2DE153J	П	10K	1/87	Carbon	AA
R458	VRD-MN	2BE1001	R	10	1/8\//	Carbon		0009		н	150	1/800	Carbon	AA
B/50		2BE1000	B	100	1/9\//	Carbon	AA A A			R	3.3K	1/800	Carbon	AA
B460		2BE1010		100	1/9\//	Carbon		R074		R	5.0K	1/200	Solid	AA
D/62		20E1040	D	100	1/0/0/	Carbon		R682	VRD-MN2BE122J	R	1.2K	1/800	Carbon	AA
D/67		20E1010	D	220	1/01/	Carbon		H083	VRD-MN2BE122J	R	1.2K	1/800	Carbon	AA
D/69		20L2210		1 54	1/01/	Carbon			VRW-KP3NC3R9K	н	3.9	7W.	Cement	AF
D/07		2001020		60	1/01/	Carbon		/ N R703	VRS-SV3LB273J	н	27k	3W	Metal Oxide	AC
D504		200000	n. D	00	1/01/	Carbon			VRN-RV3DB4R7J	R	4./	2W	Metal Film	AB
		2DE221J		220	1/01/	Carbon	AA	/( H705	VRS-VV3AB100J	R	10	1W	Metal Oxide	AA
DE06		2DE0900	n	09K	1/0/1	Carbon	AA	A R706	VRD-MN2BE184J	R	180k	1/8W	Carbon	AA
		2DE002J	п	3.3K	1/010	Carbon	AA	A R707	VRD-RA2BE270J	н	27	1/8W	Carbon	AA
- HOUO		2DE 120J	п	12K	1/844	Carbon	AA	A H/10	VRD-MN2BE392J	R	3.9k	1/8W	Carbon	AA
DE10 1		าแบเร	п	4 0	1 (0) 1	Oarthan		A R/11	See Controls	_
D511			п	0.01	1/2.00	Carbon		// H/12	VRD-MN2BE821J	н	820	1/8W	Carbon	AA
		2000220		0.2K	1/0/1	Carbon		// H/13	VRD-RA2EE225J	н	2.2M	1/4W	Carbon	AA
DE14		ZDE IUZJ	п	IK	1/044	Carbon	AA	A B714	VRD-MN2BE394J	R	390k	1/8W	Carbon	AA
			п	00	4 / 4\ 8/		4 13	AR/15	VRD-RA2BE153J	R	15k	1/8W	Carbon	AA
			к п	22	1/4 VV		AB	A H716	VRD-RA2BE180J	R	18	1/8W	Carbon	AA
			п	330	1/200	Carbon	AA	AR/1/	VRD-MN2BE101J	R	100	1/8W	Carbon	AA
				2.2K	1/200	Carbon	AA	A R/18	VRN-VV3ABR22J	R	0.22	1W	Metal Film	AA
			R R	2.710	1/4 99	Carbon	AA	A H719	VRC-UA2HG825K	R	8.2M	1/2W	Solid	AA
			m D	3.3	1/200		AB	A R720	VRC-UA2HG825K	R	8.2M	1/2W	Solid	AA
			п	3.9K	1/877	Carbon	AA	A R/21	VRD-RM2HD1R0J	R	1	1/2W	Carbon	AA
			n D	3.3K	1/800	Carbon	AA	A R/23	VRS-SV3LB272J	R	2.7k	3W	Metal Oxide	AD
			п		1/4 VV	Carbon	AA	∧ H/24	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA
			п	1.0K	1/200	Carbon	AA	∧ R/31	RR-XZ0016CEZZ	R	1	1/2W	Fuse Resistor	AB
			n D	1.2K	1/4 1/0	Carbon	AA	∧ R/35	VRD-RM2HD184J	R	180k	1/2W	Carbon	AA
			п	0.0	1/200	Carbon	AA	∧ H/36	VRD-RM2HD184J	R	180k	1/2W	Carbon	AA
				4.7K	1/200	Carbon Matal Quista	AA	H800	VRD-RA2BE471J	R	470	1/8W	Carbon	AA
		4401001	п	3.9K	1014		AC	R809	VRD-MN2BE101J	R	100	1/8W	Carbon	AA
			n D	50	1/014/	Cement	AG	R811	VRD-MN2BE101J	R	100	1/8W	Carbon	AA
		ntrolo	n;	00	1/200	Carbon	AA	H812	VRD-MN2BE101J	R	100	1/8W	Carbon	AA
			D I	000	1/0\4/	O anta an		R816	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA
			н	680K	1/8/	Carbon	AA	R817	VRD-MN2BE391J	R	390	1/8W	Carbon	AA
			H ·	150K	1/8/	Carbon	AA	R818	VRD-MN2BE391J	R	390	1/8W	Carbon	AA
			H.	50	1/200	Carbon	AA	R819	VRD-MN2BE391J	R	390	1/8W	Carbon	AA
			R	1K	1/200	Carbon	AA	R825	VRD-MN2BE103J	R	10k	1/8W	Carbon	AA
H019 V		2BE 183J	к	18K	1/800	Carbon	AA	R828	VRD-MN2BE184J	R	180k	1/8W	Carbon	AA
/ 1 H620 F		85CEZZ	н	3.9	1/4W	Fuse Resistor	AC	R829	VRD-MN2BE104J	R	100k	1/8W	Carbon	AA
R621 \	/RN-RV3	DB1R8J	н	1.8	2W	Metal Film	AB	R832	VRD-RA2EE271J	R	270	1/4W	Carbon	AA
H622 \	/RD-RM2	2HD223J	R	22k	1/2W	Carbon	AA	R833	VRD-MN2BE223J	R	22k	1/8W	Carbon	AA
/ \ H623 \	/HD-RA2	EE125J	R	1.2 M	1/4W	Carbon	AA	R837	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA
/ 1 R624 \	/HD-RA2	BE274J	R	270k	1/8W	Carbon	AA	R838	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA
R627 V	/RD-RA2	BE181J	R	180	1/8W	Carbon	AA	R839	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA
/ ∖ R628 V	/RD-MN2	2BE183J	R	18k	1/8W	Carbon	AA	R840	VRD-MN2BE821J	R	820	1/8W	Carbon	AA
/ ∖ R629 V	/RD-MN2	2BE123J	R	12k	1/8W	Carbon	AA	R841	VRD-MN2BE821J	R	820	1/8W	Carbon	AA

Page 23

Ref. No.	Part No.	*		Descr	iption	Code	Ref. No.	Part No.	*		Descr	iption	Code
PWE	B-A DUNT	K	396	BWE	V2/V3		R1118	VRD-MN2BE392J	R	3.9k	1/8W	Carbon	AA
		1.1		) onti			R1119	VRD-MN2BE392J	R	3.9k	1/8W	Carbon	AA
					nueu)		R1120	VRD-MN2BE392J	R	3.9k	1/8W	Carbon	AA
R842	VRD-MN2BE821J	R	820	1/8W	Carbon	AA	R1121	VRD-RA2BE332J	R	3.3k	1/8W	Carbon	AA
R844	VRD-RM2HD471J	R	470	1/2W	Carbon	AA	R1123	VRD-MN2BE683J	R	68k	1/8W	Carbon	AA
R849	VRD-RA2BE223J	R	22k	1/8W	Carbon	AA	R1124	VRD-RA2BE682J	R	6.8k	1/8W	Carbon	AA
R892	VRD-RA2BE682J	R	6.8k	1/8W	Carbon	AA	R1125	VRD-RA2BE682J	R	6.8k	1/8W	Carbon	AA
R1005	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA	R1126	VRD-RA2BE102J	R	1k	1/8W	Carbon	AA
R1006	VRD-RA2BE272J	R	2.7k	1/8W	Carbon	AA	R1127	VRD-RA2BE332J	R	3.3k	1/8W	Carbon	AA
R1007	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA	R1128	VRD-RA2BE273J	R	27k	1/8W	Carbon	AA
R1008	VRD-MN2BE103J	R	10k	1/8W	Carbon	AA	R1130	VRD-RA2BE331J	R	330	1/8W	Carbon	AA
R1019	VRD-MN2BE273J	R	27k	1/8W	Carbon	AA	R1131	VRD-RA2BE101J	R	100	1/8W	Carbon	AA
R1021	VRD-MN2BE472J	R	4.7k	1/8W	Carbon	AA	R1132	VRD-RA2BE103J	R	10k	1/8W	Carbon	AA
R1025	VRD-RA2BE102J	R	1k	1/8W	Carbon	AA	R1135	VRS-VV3DB470J	R	47	2W	Metal Oxide	AA
R1027	VRD-MN2BE103J	R	10k	1/8W	Carbon	AA	R2305	VRD-RA2BE221J	R	220	1/8W	Carbon	AA
R1028	VRD-MN2BE684J	R	680k	1/8W	Carbon	AA	R2325	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA
R1029	VRD-MN2BE333J	R	33k	1/8W	Carbon	AA
R1030	VRD-MN2BE333J	R	33k	1/8W	Carbon	AA		SM	/IТ(	CHE	S
R1031	VRD-MN2BE153J	R	15k	1/8W	Carbon	AA	S501	QSW-B0015CEZZ	R	Vert.	Center	Adj.	AC
R1032	VRS-VV3DB123J	R	12k	2W	Metal Oxide	AA	∕ ≜ S701	QSW-P0591CEZZ	R	Pow	er		AQ
R1033	VRD-RA2BE103J	R	10k	1/8W	Carbon	AA	S1001	QSW-K0095CEZZ	R	Chai	nnel Up		AB
R1039	VRD-MN2BE153J	R	15k	1/8W	Carbon	AA	S1002	QSW-K0095CEZZ	R	Cha	nnel Dov	wn	AB
R1040	VRD-MN2BE123J	R	12k	1/8W	Carbon	AA	S1003	QSW-K0095CEZZ	R	Volu	me Up		AB
R1044	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA	S1004	QSW-K0095CEZZ	R	Volu	me Dow	'n	AB
R1046	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA	S1005	QSW-K0095CEZZ	R	Pres	et		AB
R1048	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA
R1050	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA		MISCELLA	NE	OUS	S PAR	TS
R1051	VRD-MN2BE332J	R	3.3k	1/8W	Carbon	AA	▲ F300	QFS-J1521CEZZ	R	Fuse	e, IC Pro	otector	AF
R1052	VRD-MN2BE332J	R	3.3k	1/8W	Carbon	AA		QFS-C3224CEZZ	R	Fuse	e T3.15A	٨	AD
R1053	VRD-MN2BE332J	R	3.3k	1/8W	Carbon	AA	FB305	RBLN-0037CEZZ	R	Ferri	ite Bead	l	AB
R1054	VRD-MN2BE123J	R	12k	1/8W	Carbon	AA	FB602	RBLN-0037CEZZ	R	Ferri	ite Bead	l	AB
R1060	VRD-RM2HD821J	R	820	1/2W	Carbon	AA	∱ FB702	RBLN-0037CEZZ	R	Ferri	ite Bead	l	AB
R1062	VRD-RA2EE681J	R	680	1/4W	Carbon	AA	∧ FB706	RBLN-0037CEZZ	R	Ferri	ite Bead	l	AB
R1064	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA	FB731	RBLN-0080CEZZ	R	Ferr	ite Bead	I	AD
R1066	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA	FH701	QFSHD1013CEZZ	R	Fuse	e Holder		AC
R1069	VRD-RA2EE181J	R	180	1/4W	Carbon	AA	FH702	QFSHD1014CEZZ	R	Fuse	e Holder		AC
R1073	VRD-MN2BE102J	R	1k	1/8W	Carbon	AA	⚠ J451	QJAKH0007CEZZ	R	AV J	lack		AL
R1077	VRD-MN2BE223J	R	22k	1/8W	Carbon	AA	P210	QPLGN0241CE04	R	Plug	2-pin T	P210	AA
R1078	VRD-MN2BE822J	R	8.2k	1/8W	Carbon	AA	P301	QPLGN0254FJZZ	R	Plug	2-pin ($	52)	AB
R1079	VRD-MN2BE222J	R	2.2k	1/8W	Carbon	AA	P501	QPLGN0241CE04	R	Plug	2-pin T	P501	AA
R1089	VRD-MN2BE153J	R	15k	1/8W	Carbon	AA	P502	QPLGN0505CEZZ	R	Plug	5-pin (f	=)	AB
R1090	VRD-MN2BE182J	R	1.8k	1/8W	Carbon	AA	P602	QPLGN0256FJZZ	R	Plug	4-pin (ł	-1)	AB
R1091	VRD-MN2BE393J	R	39k	1/8W	Carbon	AA	∧ P711	QPLGN0207CEZZ	R	Plug	2-pin ((	G)	AA
R1092	VRD-MN2BE153J	R	15k	1/8W	Carbon	AA	∧ P712	QPLGN0304CEZZ	R	Plug	) 3-pin (/	۹)	AB
R1093	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA	P801	QPLGN0257FJZZ	R	Plug	\| 5-pin (ł	<)	AB
R1094	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA	RDA50	1 PRDAR0185PEFW	R	Hea	t Sink, fo	or Q602	AR
R1095	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA	RDA70	1 PRDAR0183PEFW	R	Hea	t Sink, fo	or Q701	AS
R1096	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA	RMC1002	RRMCU0216CEZZ	R	Infra	red R/C	Receiver	AK
R1099	VRD-RA2BE102J	R	1k	1/8W	Carbon	AA		LHLDP1042PE00	R	LED	Holder		AG
R1105	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA		LHLDW1002PEZZ	R	Wire	Holder	, x1	AB
R1109	VRD-RA2BE682J	R	6.8k	1/8W	Carbon	AA
R1110	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA
R1111	VRD-MN2BE682J	R	6.8k	1/8W	Carbon	AA
R1114	VRD-MN2BE271J	R	270	1/8W	Carbon	AA
R1116	VRD-MN2BE153J	R	15k	1/8W	Carbon	AA
R1117	VRD-MN2BE683J	R	68k	1/8W	Carbon	AA

Page 24

CX-48F4
CX-51F4

Ref. No	o. Part No.	*	r	Desc	ription	Code
PW	B-B DUNT	K	700 NKE1		EG3/G4

0951		си	1910	RS
0050	VS2SC3417//1E	H	H-OL	utput		AC
0052	VS2SC3417//TE	Н	G-O	utput		AC
Q853	V52503417//1E	. н	Β-Οι	ltput		AC
			DE
D851	RH-EX0713GEZZ	R	Zene	er Diode	e 2.1V	AF
		CC	- 11
L851	VP-CF681K0000	R	Peak	ina Coi	l 680uH	AB
						,
		NT	ROL	S
R853	RVR-B4568CEZZ	, R	10k(E	3) R-B	as	AC
R857	RVR-B5639CEZZ	R	1k(B)	) G-D	rive	AB
R859	RVR-B4568CEZZ	R	10k(E	3) G-B	as	AC
R863	RVR-B5639CEZZ	R	, 1k(B)	B-Di	rive	AB
R865	RVR-B4568CEZZ	R	10k(E	3) B-Bi	as	AC
	CAP	AC		IS
C800	VCQYTA1HM103K	R	0.01	50V	Mvlar	AB
C851	VCKYPA1HB471K	R	470p	50V	Ceramic	AA
C852	VCKYPA1HB471K	R	470p	50V	Ceramic	AA
C853	VCKYPA1HB471K	R	470p	50V	Ceramic	AA
∆C854	RC-KZ0150CEZZ	R	1000	p 3kV	Ceramic	AB
C860	VCKYD41CY103N	R	0.01	16V	Ceramic	AA
C861	VCEAGA1CW106M	R	10	16V	Electrolytic	AA
C865	VCKYPA1HB102K	R	1000	p 50V	Ceramic	AA
C866	VCEAGA2DW106M	R	10	200\	/ Electrolytic	AC
. š	BES	is'	TORS	2
R851	VRD-RA2BE681J	R	680	1/8W	Carbon	AA
R852	VRD-RA2BE272J	R	2.7k	1/8W	Carbon	AA
R855	VRD-RM2HD272J	R	2.7k	1/2W	Carbon	AA
R856	VRD-RA2BE271J	R	270	1/8W	Carbon	ÂA
R858	VRD-RA2BE272J	R	2.7k	1/8W	Carbon	AA
R860	VRS-VV3DB123J	R	12k	2W	Metal Oxide	AA
R861	VRD-RM2HD272J	R	2.7k	1/2W	Carbon	AA
R862	VRD-RA2BE471J	R	470	1/8W	Carbon	AA
R864	VRD-RA2BE272J	R	2.7k	1/8W	Carbon	AA
R866	VRS-VV3DB123J	R	12k	2W	Metal Oxide	AA
R867	VRD-RM2HD272J	R	2.7k	1/2W	Carbon	AA
R868	VRS-VV3DB123J	R	12k	2W	Metal Oxide	AA
R872	VRD-RA2BE561J	R	560	1/8W	Carbon	AA
R873	VRD-RA2BE561J	R	560	1/8W	Carbon	AA
R87 4	VRD-RA2BE561J	R	560	1/8W	Carbon	AA
R875	VRD-RA2BE560J	R	56	1/8W	Carbon	AA
R876	VRD-RA2BE560J	R	56	1/8W	Carbon	AA
R877	VRD-RA2BE560J	R	56	1/8W	Carbon	AA
R878	VRD-RA2BE222J	R	2.2k	1/8W	Carbon	AA

ONIG		NE	ous	PAR	r s	•
CIN851		н	1 :onn4	ontina V	WIRD (H)

CN851	QCNW-1675PEZZ	R	Connecting Wire (H)	AF
CN852	QCNW-1434PEZZ	R	Connecting Wire (K)	AG

Hef. No.	Part No.	*	Description	Code
P851 P852	QPLGN0256FJZZ QPLGN0257FJZZ	R	Plug 4-pin (H) Plug 5-pin (K)	AB AB
/N SC851	QSOCV0927CEZZ	:R	CRT Socket	AL

	4
	1

			1 .

MISCELLANEOUS PARTS

▲ ACC70	1 QACCL3002PEZZ	R	AC Cord	AQ
SP301	VSP1206PB338A	А	Speaker
SP302	VSP1206PB338A	А	Speaker
	QCNW-2032PEZZ	R	Connecting Wire (S)	AL
	LHLDK0005PE00	R	AC Cord Holder	AC

Page 25

Description

Code Ref. No.

Part No.

★ Description

Code

SUPPLIED ACCESSORIES

ACCESSORIES

RRMCG1181PESA	н	Infrared R/C Unit	AY
TINS-5963CEZZ	А	Operation Manual (CX-48F4	)
TINS-5962CE77	А	Operation Manual (CX-51F4

ACCESSORIES (NOT REPLACEMENT ITEM)

UBATU0001MEZZ -	D	ry	Batteries,	UM-4 :	x2

CABINET PARTS

MODEL CX-48F4

	CCABA2239WEA0	А	Front Cabinet Ass'y
-1	Not Available		Front Cabinet
-2	GCOVA0072PESA	R	R/C Decoration Cover	AD
-3	GCOVA0073PESA	R	LED Decoration Cover	AD
-4	HBDGB0015PESA	R	SHARP Badge	AE
-5	JBTN-0245PESA	R	Control Button	AG
-6	JBTN-1923CESA	А	Power Button
-7	MSPRC0068CEFW	R	Spring, for Power Button	AA
2	CCABB2171WEA0	А	Rear Cabinet Ass'y

MODEL CX-51F4

1	CCABA2249WEA0	А	Front Cabinet Ass'y
1-1	Not Available		Front Cabinet
1-2	GCOVA0072PESA	R	R/C Decoration Cover	AD
1-3	GCOVA0073PESA	R	LED Decoration Cover	AD
1-4	HBDGB0015PESA	R	SHARP Badge	AE
1-5	JBTN-0245PESA	R	Control Button	AG
1-6	JBTN-1923CESA	А	Power Button
1-7	MSPRC0068CEFW	R	Spring, for Power Button	AA
2	CCABB2171WEA0	А	Rear Cabinet Ass'v

PACKING PARTS (NOT REPLACEMENT ITEM)

MODEL CX-48F4

SPAKC4966CEZZ	-	Packing Case
SPAKP0704PEZZ	-	Polystyrene Mat
SPAKX2721CEZZ	-	Buffer Material

MODEL CX-51F4

SPAKC4965CEZZ	Packing Case
SPAKP0704CEZZ	Polystyrene Mat	—
SPAKX2721CEZZ	Buffer Material

Page 26

SHARP

TQ0149-S Printed in Japan MW. KD

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

SERVICE MANUAL

COLOUR TELEVISION Chassis No. K

FEATURE

CONTENTS

WARNING

SHARP CORPORATION

SPECIFICATIONS

Specifications are subject to change without prior notice

IMPORTANT SERVICE NOTES

SERVICING OF HIGH VOLTAGE SYSTEM AND PICTURE TUBE

X-RAY

BEFORE RETURNING THE RECEIVER

PIF/AFT/AGC ADJUSTMENT (Continued) Adjusting Conditions Adjusting Procedures

4. PIF Overall Adjustment

5. RF-AGC Cut-In Adjustment

115V LINE ADJUSTMENT

1. CRT Cut-off Adjustment

VIDEO/CHROMA ADJUSTMENT (Continued)

2. White Balance and Back Ground Adjustment

3. Sub-Contrast Adjustment

DEFLECTION LOOP ADJUSTMENT (Continued)

2. Vertical Size Adjustment

3. Vertical Linearity Adjustment

4. Vertical Center Adjustment

FOCUS ADJUSTMENT

CRT DISPLAY ADJUSTMENT Adjusting Procedures

1. Sign Position Adjustment

Adjusting Conditions

Adjusting Procedures

Adjustment:

CONVERGENCE ADJUSTMENT

Adjusting Conditions This adjustment should be performed after the purity magnet adjustment.

Adjusting Procedures

DYNAMIC CONVERGENCE

• Convergence in Fig. b :

• Convergence in Fig. c

• Convergence in Fig. d :

DESCRIPTION OF SCHEMATIC DIAGRAM

SAFETY NOTE:

IMPORTANT SAFETY NOTICE:

SERVICE PRECAUTION:

NOTE:

VOLTAGE MEASUREMENT CONDITIONS:

WAVEFORM MEASUREMENT CONDITIONS:

CAUTION: This circuit diagram is original one, therefore there may be a slight difference from yours.

MODEL CX-51F4 SCHEMATIC DIAGRAM

CAUTION: This circuit diagram is original one, therefore there may be a slight difference from yours.

SOLID STATE DEVICE BASE DIAGRAM

PARTS LIST

PARTS REPLACEMENT

"HOW TO ORDER REPLACEMENT PARTS"

PICTURE TUBE

PRINTED WIRING BOARD ASSEMBLIES (NOT REPLACEMENT ITEM)

MODEL CX-48F4

PWB-A DUNTK8968WEv2/v3 MAIN UNIT

TUNER

INTEGRATED CIRCUITS

TRANSISTORS

MISCELLANEOUS PARTS

SUPPLIED ACCESSORIES

ACCESSORIES

ACCESSORIES (NOT REPLACEMENT ITEM)

CABINET PARTS

MODEL CX-48F4

MODEL CX-51F4

PACKING PARTS (NOT REPLACEMENT ITEM)

MODEL CX-48F4

MODEL CX-51F4

SHARP