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
CONTENTS
| 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 |
|---|
| Sweep Deflection |
|
Intermediate Frequencies
Picture IF Frequency |
| Power Input |
|
Power Consumption
CX-48F4 |
| Audio Power Output Rating |
| Speaker 12 x 6 cm Elliptic x 2 pcs Size 12 voice Coil Impedance Voice Coil Impedance 8 ohms at 400 Hz |
|
Aerial Input Impedance
VHF/UHF |
|
Tuning Ranges
• VHF- Channels |
| Dimensions |
| Weight 19.5 kg CX-48F4 19.5 kg CX-51F4 22.0 kg Cabinet Material 21.0 kg |
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.)
-
- Picture tube in this receiver employs integral implosion protection. Replace with tube of the same type number for continued safety. 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:
- When repairing the circuit, be sure not to increase the high voltage to more than 28.5 kV, (at beam 0 µd) 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 µd) in the case of the set. The set has been
- ä
-
factory Adjusted to the above-mentioned high voltage. 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. CX-51F4:
-
: 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.
-
: If there is a possibility that the high voltage fluctuates as a result of the repairs, never
3EFORE RETURNING THE RECEIVER
Before returning the receiver to the user, perform the following safety checks.
- 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 resistor-
Page 3
PIF/AFT/AGC ADJUSTMENT
3
PIF/AFT/AGC ADJUSTMENT (Continued)
3-2
8-1
Page 4
| (Continued) | |
|---|---|
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| Adjusting Conditions | Adjusting Procedures |
|---|---|
| DIF Overall Adjustment |
|
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. | 2. Check that the overall waveform is as shown in |
| 2. Connect sweep generator's output to the test | Figure below. |
| point of tuner. | |
|
|
|
|
|
( |
| The response lead in use should be a direct probe | |
| with a resistor of 10kΩ included. | |
| 4. RF-AGC: | 7 - 4.43 MHZ |
| Apply approx. 4V DC to the tuner AGC terminal. | |
| 5. PIFAGC: | - 6 dB ± 3 dB / Approx 6 dB ± 3 dB |
| Apply approx. 4V DC to TP202. | |
| 6. Connect a 1200 damping resistor in parallel to | |
| R215, short C244. | |
| 7. Turn off AFT. | |
| S Adj-S | |
RE-AGC Cut-In Adjustment 4
|
נ
- |
||
|---|---|---|
| Adjusting Point | 1. Turn R248 to obtain the highest voltage. | Ad |
| R248: RF-AGC control | 2. Turn R248 slowly in the opposite direction until | |
| the voltage drops 0.1V lower than the highest | ||
| 1. Keep the AGC Cut-in control near the center | level. | |
| position. |
|
|
|
and make sure there is no noise. Turn up the | |
|
input signal to 90 95dB to be sure that there is | |
| 54d8 ± 1 dB (with 50Ω open) | no cros-modulation beat. | |
| 3. Connect the oscilloscope to the tuner's AGC | Note: | |
| terminal (TP210). | Oscilloscope | |
| Range: DC range | ||
|
1. Rec | |
| • Sweep: 10 msec./div. | () Level 0.1V lower. | 2. Ma |
| * Set the Regulated DC Power Supply to approx. | Set | |
| 6.0V and turn up the oscilloscope range to | . | |
| 10mV (DC). | 3. Set | |
| Regulated | ž | |
| DC Power | Set | |
| Supply | Set | |
| - | , set | |
| 2 | 4. Set | |
| 15 C | ||
| 6. Sho | ||
| - | ||
| Approx. 6.UV | ||
| - |
115VIINE ADIUSTMENT
| Adjusting Conditions | Adjusting Procedures |
|---|---|
|
Adjusting Point
R711: 115V Adjustment Control (CX-48F4) 112V Adjustment Control (CX-51F4) |
|
|
Set the R711 to 5/10 before supplying power.
Receive "MONOSCOPE PATTERN" signal. Set Contrast and Brightness controls at MAX |
CX-51F4:
Adjust the R711 until the TP701's voltage becomes112±0.5V. |
|
position.
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 |
|
| Connect Digital voltmeter to TP701. | |
| VIDEO/CHROM/ | ADJUSTMENT |
| Adjusting Drozoduros | |
|---|---|
| Adiusting Conditions |
CBT Cut-off Adiustmen
| בונו בתי סוו שתומוונ | |
|---|---|
|
kdjusting Point
2 R853: Red Bias control 2 R855: Blue Bias control 2 R865: Blue Bias control 2 1602: Screen control 2 R857: Green Drive control 2 R853: Blue Drive control |
|
|
ie: Prior to this adjustment, warm up the unit
with the beam current of more than 700 µA for more than 30 minutes. |
|
|
eceive "MONOSCOPE PATTERN" signal.
Aake the picture normal. et Brightness control at 5/10 position and outrast control at 10/10 notition. |
|
|
our destroyed of the position.
Et Red biss control at MIN position. Et Green biss control at MIN position. et Blue biss control at MIN position. |
|
|
et Green drive control at CENTER position.
et Blue drive control at CENTER position. et the Screen control at MIN position. |
- |
|
sing the remote controller, call the AV mode
to signal). hort TP501. |
|
| • |
4-1
Page 5
VIDEO/CHROMA ADJUSTMENT (Continued)
| Adjusting Conc | ditions | Adjusting Procedures |
|---|---|---|
| 2. White Balance and | Back Ground Adj | ustment |
| Adjusting Point R857: Green Drive cont:ol R863: Blue Drive cont:ol R420: Sub-Contrast control |
|
|---|---|
|
Vote: Prior to this adjustment, warm up the unit
with the beam current of more than 700 μA for more than 30 minutes. |
(High beam: 1.1 mA).
3. Adjust the Contrast control and Brightness control so that the beam current is approx. 200.A. and check that the colour temperature is |
|
at 12300%. If the temperature is not at 12300%,
go back to "CRT CUT-OFF ADJUSTMENT" and repeat the adjustment. 12300%: X0.272 Y0.275 |
3. Sub-Contrast Adjustment
|
Adjusting Point
R420: Sub-Contrast control |
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) | |
5
DEFLECTION LOOP ADJUSTMENT
| Adjusting Conditions | Adjusting Procedure |
|---|---|
| Horizontal Centering Adjustment |
| 2 |
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o that
ontal + A + B |
|---|
|
Adjusting Point
□ R613: Horizontal Centering control 1. Adjust R613 so the horizo the horizo the horizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the borizo the bosi the bosi the center of pictures the bosi the center of bictures the bosi the center of bictures the bosi the bosi the bosi the center of bictures the bosi the center of bictures the bosi the center of bictures the bosi the center of bictures the bosi the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures the center of bictures t |
DEFLECTION LOOP ADJUSTMENT (Continued)
| Adjusting Conditions | Adjusting Procedures |
|---|---|
| . Vertical Size Adjustment | |
| Adjusting Point | 1. Adjust R509 so that the vertical size of picture is at |
| 🗆 p500. Vartical Siza control | the hest noint |
| the pest point. | |
|---|---|
| Receive "MONOSCOPE PATTERN" signal. |
|
| Set the Brightness and Contrast controls at MAX | |
| position |
3. Vertical Linearity Adjustment
| Adjusting Point | 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 |
|
|---|---|
|
Note: This adjustment should be performed after
the purity and convergence adjustments. |
|
| 1. Receive "MONOSCOPE PATTERN" signal. | |
FOCUS ADJUSTMENT
|
Adjusting Point
□ T602: Focus control (a part of T602) |
1. Adjust Focus control to have best focus at the central area of CRT. |
|
Receive "MONOSCOPE PATTERN" signal.
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 |
5-2
Page 6
Adiusting Procedures CRT DISPLAY ADJUSTMENT Adjusting Conditions
|
1. Make sure that the DAC center bar is at
geometrical center of the monoscope pattern 0.5 line or more away from the geometr center, readjust T1001. |
|
|---|---|
| l. Sign Position Adjustment |
Adjusting Point
T1001: Sign Position check (T1001 preset) Make this adjustment after the H-CENT adjustment. Receive "MONOSCOPE PATTERN" signal. Receive "MONOSCOPE PATTERN" signal. Press the P-MODE key on the remote controller to make the DAC center bar appear on the screen. (COLOUR, BRIGHT, TINT) |
+0.5 line 4 -0.5 line
Figure B.
Adjusting Conditions PURITY ADJUSTMENT
Prior to the purity adjustment, warm up the unit with beam current of more than 700 µA, for more han 30 minutes.
Receive the green signal alone and adjust the
Fully degauss the CRT with the degaussing coil. beam current to approx. 700 µA.
Before the purity adjustment, it is needed to roughly adjust the static convergence.
rero (0) magnetic field.
During the adjustment, keep the unit facing the east.
-
Observe the green spots ("a" and "b") with a microscope as shown in Fig. A, and adjust the ourity magnet so that they are at the specified
- 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.
- 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
-
ight and left parts of screen, then check that the green beams at four corners of screen are all Adjust the purity magnet so that the beam anding is correct at either of the central part,
-
Finally, check that the beam landing at any pat of screen is satisfactory with the Rank "B" specifications.
-
- fo front of the deflection yoke Outside of the specified landing:
-
-
Finally, check that the beam landing at any pat of screen is satisfactory with the Rank "B" specifications.
-
Set the raster rotation at "0" position (with the unit facing the east).
-
Tighten the screws of the deflectior fightening torque: 11 kg±2 kg.
-
Tighten the screws of the deflectior fightening torque: 11 kg±2 kg.
Figure D.
Page 7
CONVERGENCE ADJUSTMENT
his adjustment should be performed after Adjusting Conditions
Receive "CROSSHATCH PATTERN" signal. the purity magnet adjustment.
Set the Brightness control and Contrast control at MAX position.
Adjusting Procedures
STATIC CONVERGENCE
- Adjust the opening degree of the 4-pole magnet and rotate the magnet to converge red and blue ines.
- 2. Adjust the opening degree of the 6-pole magnet and rotate the magnet to converge red, blue and green lines.
DYNAMIC CONVERGENCE
-
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 yoke upward until the mis-convergence shown in Fig. a is orrected.
Convergence in Fig. b :
insert wedges "b" and "c" between the deflection yoke 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 yoke and CRT, and tilt the deflection yoke to ight until the mis-convergence shown in Fig. c is
Convergence in Fig. d :
nsert wedge "b" deeply between the deflection oke and CRT, and tilt the deflection yoke to left intil the mis-convergence shown in Fig. d is
- Stick the three wedges onto the CRT, and apply
- Apply lacquer to the deflection voke screw. magnet unit (made of purity. 4-pole and 6-pole
After the adjustment, receive either the Red or the Blue signal and check that there is no mixture with the other colour signal.
Page 8
8-2
<del>8</del>-1
Page 9
Page 10
Page 11
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 | TRG +0.Deiv NORM SM | TRG +0.Cdiv NORM SM | TRE +0.041V NORM SM | TRG +0.041V NORM SM |
|---|---|---|---|---|
| ┨╍┽┥┥┥┥┥┥ |
│
|
0 r . | ||
| 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 | ||||
| ┃└╍┽┵┑║└╺╬╌┓╎╎_┕╬╌┪ | ╽╼┽┼╾┽╌╫╌╫╫╢╌╎┽┨╌╢┤┼┼╴ | ╽ ╋ ╋╋╋┙╢╝╝╢╝╌╢╝╝╝┙┥╝ | ||
|
┃
|
┠╾┽╾┽┽╫╌┽╌╉╌╢┼┼╌┽╾╉┽╿ | |||
| | 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 | 5M | 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 +0.00 iv ALBASK Su TRL +0.00 iv ALBASK Su Image: Imag |
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< | Th¢ + 0.0 iv ALBASE SM Image: Control of the state of the st | TRC +4.0div ALPASE SM Image: state stat |
| TR$ +0.00 |v ALBASE Suit TR$ +0.00 |v ALBASE Suit Image: Alba and a | TR6 +0.00 iv NORU SM Image: state |
TRk + 0.0d iv
NORM
SM
000
|
TR$ +$ .0$ iv
AL$ AS$
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Image: state
|
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 iv AL#ASE SM Image: Constraint of the state of | 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
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|
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|
TR6
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|
|
| TRL +0.00 IV ALBASE Sul Image: Imag | TR¢ +0.00 iv NORu SM Image: state | TRk +0.0d iv NORM SM DP Image: second s | Th¢ + .0 iv ALbask Su Image: State of the s | TRC +0.041v ALPASE SM Image: state stat |
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.
15
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
| MODEL CX-48F4 | ||||||||
|---|---|---|---|---|---|---|---|---|
| ∧ V1 | VB48QAD22025E | А | CRT Ass'y 48 cm (20 inch | ) | ||||
| (with DY and Purity Magnet) | ||||||||
| ∧ 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 Magnet) | ||||||||
| ∧ 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 | ||
| MODEL CX-51F4 | |||||
| PWB-A | DUNTK8968WEV3 | _ | Main Unit | ||
| PWB-B | DUNTK7001WEG4 | _ | CRT Socket Unit | ||
| Ref. | No. | Part No. | |
|---|---|---|---|
ВG
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 |
Â
A
/ /
AC
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 | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 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 | Electrolytic | 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 | VCQYIA1HM563K | 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 | BC_KZ0020CE77 | 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 | Geramic | 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 | 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 | DEEA | 39 | 1/877 | Carbon | AA | ||
| R456 | 2856801 | R | 68 | 1/8/ | Carbon | AA | -R034 | VRD-WIN2DE153J |
.н
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 | / N H701 | 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 | 2020300 | 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
4 71 |
1/200 | Carbon | AA | ∧ H/36 | VRD-RM2HD184J | R | 180k | 1/2W | Carbon | AA | |||
| 4.7K | 1/200 |
Carbon
Matel Ouisle |
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 ante are | 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 |
| ∕1 \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. | * | Desc | ription | Code | ||||||
|---|---|---|---|---|---|---|---|---|---|---|---|
|
PWB-B DUNTK7001WEG3/G4
CBT SOCKET UNIT |
|||||||||||
| 0851 | V92903417//1E |
чЭ
|
nə | ||||||||
| 0852 | VS2SC3417//1E | uput | AC | ||||||||
| 0853 | VS2SC3417//1E | uput | AC | ||||||||
| 0000 | V32303417//TE | . п | D-UL | liput | AC | ||||||
| DIC | DE | ||||||||||
| D851 | RH-EX0713GEZZ | R | Zene | er Diode | e 2.1V | AF | |||||
| en e | cc | DIL | |||||||||
| L851 | VP-CF681K0000 | R | Peak | ing Coi | l 680µH | AB | |||||
| · ; . | - | ||||||||||
| DOFO | NT | ROL | S . | • | |||||||
| R853 | RVR-B4568CEZZ |
, н
П |
10K(E | 3) H-B | as | AC | |||||
| H85/ | н | 1K(B) | G-D | rive | AB | ||||||
| H859 | H | 10k(E | 5)G-B | las | AC | ||||||
| Н | , 1K(B) | B-Di | rive | AB | |||||||
| 6000 | RVR-D4508UEZZ | · H | 10K(E | 5) B-BI | as | AC | |||||
| CAP | AC | ITOR | IS | ||||||||
| C800 | VCQYTA1HM103K | R | 0.01 | 50V | Mylar | 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 | |||||
| RES | is | TOR | 5 | ||||||||
| 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 | |||||
| MICOLLA | ~~~~ | ||||||||||
| CN951 | P | Conn | |||||||||
| 11100 | - | 11 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 | C R | CRT Socket | AL |
| 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 - | Ľ | Dry | 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 |
|
|
|---|---|---|
| SPAKP0704CEZZ |
|
— |
| SPAKX2721CEZZ |
|
Page 26
SHARP
TQ0149-S Printed in Japan MW. KD
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