Page 1
Service Manua
Colour Television TC-1485
Specifications
High Voltage:
i .
| Power Source: | AC 240 V, 50 Hz | Picture Tube: | A34JRD30X01 14 inches |
| Power Consumption: | : 61 W (Max.) |
(34 cm V) measured diagonally,
90° deflection |
|
| Aerial Impedance: | 75 Ω unbalanced, Coaxial Type | Audio output: | 3 Watt |
| Receiving System: | CCIR: 625 Lines, PAL - I | Speaker: | 10 cm, 8 Ω, Round Type |
| Receiving Channels: | UHF channel 21 to 68 | Accessories | |
| Intermediate | supplied: |
Remote Controller
UM4 Battery |
|
| Frequency: |
Video 39.5 MHz
Sound 33.5 MHz Colour 35.07 MHz |
Dimensions: |
Height: 344 mm
Width: 365 mm Depth: 376 mm |
| Video/Audio Termina | als: | NI-+\A/-: | 10.2 km |
| RCA IN | Video 1 Vp-p 75 Ω | ivet weight: | 10.2 kg |
| RCA IN |
Audio 0.5 Vrms, 10 KU
(80% modulation) |
Specifications are subject to change without notice. Net weight and dimensions shown are approximate.
IMPORTANT
22.2 kV at zero beam current
This receiver uses a HOT chassis, after service please ensure that the chassis is returned to its correct position Particular care being taken to the position of the customer controls. Failure to do so could endanger customer safety.
PANASONIC (U.K.) LTD. 300-318 BATH ROAD, SLOUGH, BERKS.
Page 2
CONTENTS
| гауе | |
|---|---|
| SAFETY PRECAUTIONS | 2 |
| LOCATION OF CONTROLS | 3 |
| SERVICE HINTS | 3 |
| ADJUSTMENTS | 4 |
| CONDUCTOR VIEWS | 57 |
| SCHEMATIC DIAGRAM | 11 |
| PARTS LOCATION | 12 |
| 12 |
SAFETY PRECAUTIONS
GENERAL GUIDE LINES
- 1. It is advisable to insert an isolation transformer in the AC supply before servicing a hot chassis.
- When servicing, observe the original lead dress, especially the lead dress in the high voltage circuits. If a short circuit is found, replace all parts which have been overheated or damaged by the short circuit.
- After servicing, see to it that all the protective devices such as insulation barriers, insulation papers, shields and isolation R-C combinations, are properly installed.
- 4. When the receiver is not to be used for a long period of time, unplug the power cord from the AC outlet.
- 5. Potential, as high as 22.2 kV, is present when this receiver is in operation. Operation of the receiver without the rear cover involves the danger of a shock hazard from the receiver power supply. Servicing should not be attempted by anyone who is not thoroughly familiar with the precautions necessary when working on high voltage equipment. Always discharge the anode of the picture tube to the receiver chassis before handling the tube.
- 6. After servicing make the following leakage current checks to prevent the customer from being exposed to shock hazards.
LEAKAGE CURRENT COLD CHECK
- 1. Unplug the AC cord and connect a jumper between the two prongs on the plug.
- 2. Turn on the receiver's power switch.
- 3. Measure the resistance value, with an ohmmeter, between the jumpered AC plug and each exposed metallic cabinet part on the receiver, such as screwheads, aerials, connectors, control shafts, etc. When the exposed metallic part has a return path to the chassis, the reading should be between 4MΩ and 20 MΩ. When the exposed metal does not have a return path to the chassis, the reading must be ∞.
LEAKAGE CURRENT HOT CHECK (See Fig. 1)
- 1. Plug the AC cord directly into the AC outlet. Do not use an isolation transformer for this check.
- 2. Connect a 2 kΩ, 10W resistor, in series with an exposed metallic part on the receiver and an earth such as water pipe.
- 3. Use an AC voltmeter, with high impedance to measure the potential across the resistor.
- Check each exposed metallic part, and measure the voltage at each point.
- Reverse the AC plug in the AC outlet and repeat each of the above measurements.
- 6. The potential at any point should not exceed 1.4 volts RMS. In case a measurement is outside of the limits specified, there is a possibility of a shock hazard, and the receiver should be repaired and rechecked before it is returned to the customer.
X-RADIATION
WARNING:
- 1. The potential sources of X-Radiation in TV sets are the High Voltage section and the picture tube.
- 2. When using a picture tube test jig for service, ensure that jig is capable of handling 25.0 kV without causing X-Radiation.
- NOTE: It is important to use an accurate periodically calibrated high voltage meter.
- 1. Set the brightness to minimum.
- 2. Set the service switch to the SERVICE position.
- Measure the High Voltage. The meter reading should indicate 22.2 kV ± 1.5 kV. If the meter indication is out of tolerance, immediate service and correction is required to prevent the possibility of premature component failure.
Page 3
SHUT DOWN CIRCUIT TEST This test must be made as a final check before the
2. Check that the shut down circuit functions when -60 V is applied to TPE40, but does not function when -40 V is applied.
set is returned to the customer. 1. Receive the Philips pattern.
Fig. 2
SERVICE HINTS Removal of E-Board
Note:
(
- If the following procedure is not carried out, damage may occur to E-Board when attempting removal.
- 1. Using a small screwdriver release the Pcb retaining clip (A) as shown in fig. 3 and 4.
- 2. To remove the Pcb from the cabinet, lift the Pcb and pull backwards see fig. 5.
Page 4
ADJUSTMENTS
| ITEM/PREPARATION | ADJUSTMENT PROCEDURE | ||||||
|---|---|---|---|---|---|---|---|
| B VOLTAGE | - | ||||||
|
1. Confirm the indicated test points for the specified voltage. TPE1: 103 ± 1.5 V TPE10: 148 ± 10 V TPE2: 5 ± 0.5 V TPE11: -32 ± 2 V TPE4: 17 ± 1 V TPE12: 26 ± 2 V TPE5: 12 ± 1 V TPE49: 9 ± 1 V | ||||||
|
AFC
1. Operate the TV set. 2. Set Preset switch (S1128) to "NOR". 3. Earth TPE3. 4. Connect a DVM to TPE27. |
|
||||||
|
|
||||||
| CONTRAST/COLOUR 1. Receive the Philips pattern. 2. Set controls: Contrastmaximum Brightminimum Colourminimum |
|
C | |||||
|
|
C | |||||
| ITEM/PREPARATION | ADJUSTMENT PROCEDURE | WAVEFORM | |
|---|---|---|---|
| DELAY LINE 1. Receive a colour bar pattern. 2. Connect an oscilloscope to TPE15. 3. Set controls: Contrast Colour maximum Colour |
1. Adjust DL Adj. (R604) and DL Matching Trans
(L602) to obtain waveform at TPE15 as shown in Fig 6. |
Minimize the differences
(by L602) Adjust this level to zero (by R604) |
|
| F1g. 6 |
Page 5
CONDUCTOR E-BOARD TNP
| I.C.'s | IC1102 |
IC1101
IC1104 |
IC451 |
IC25
IC801 IC2504 |
||
|---|---|---|---|---|---|---|
| TRANSISTORS |
Q1121
Q1122 Q506 Q505 Q504 Q551 |
Q1130
Q1123 Q1129 |
Q1135
Q1124 Q452 Q1125 Q451 Q531 |
Q302 Q303
Q250 Q2501 Q2505 Q502 |
Q804
7 Q2502 Q101 Q250 Q250 Q250 Q2503 |
|
| DIODES |
D1135
D552 D1112 |
D1134 D1136
D1131 D1142 D1123 D1152 D1130 D1128 D1141 D1132 |
D556
D453 D551 |
553 D504
D101 D1149 D554 D102 D1151 D103 D555 D1150 |
D501 D4
D505 D4 D2502 |
814
802 D817 D1125 D2501 |
| TEST POINTS |
TPE35
TPE37 TPE38 TPE40 |
TPE10
TPE34 TPE31 TPE36 |
TPE11
TPE52 TF TF |
TPE29
PE50 PE12 |
TPE3
TPE14 |
TPE2
TPE1 TPE19 |
C.
Ċ
Page 6
CONDUCTOR VIEW E-BOARD TNP197026
| IC1102 | IC11 |
IC1101
04 |
iC | 451 | IC2 |
IC25
IC801 504 |
503 | I |
IC802
C101 |
|||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
Q1121
Q1122 Q506 Q505 Q504 Q551 |
Q1130
Q1123 Q1 |
129
() () () |
01135
01124 0452 01125 0451 0531 |
Q302 Q
Q250 Q2505 Q502 |
1303
12507 1 |
Q804
Q2502 Q101 Q250 Q250 Q2503 |
8
6 |
Q806 |
Q805
Q807 Q304 |
C
0802 |
803
Q103 |
|||||
|
D1135
D552 D1112 |
D1134
D1131 D1123 D1130 D1141 D1132 |
D1136
D1142 D1152 D1128 |
D556
D453 D551 |
D553
D554 D1151 |
D504
D101 D1149 D102 D103 D555 D1150 |
D501
D505 |
D250 |
D814
D802 2 |
D817
D1125 D2501 |
D810
D1126 |
DE
C DE |
313
0818 303 |
D811
D823 D821 D822 D806 D824 |
D809
D1133 D1124 D506 |
D1 | 120 |
|
TPE35
TPE37 TPE38 TPE40 |
т
т |
TPE10
PE34 TPE31 PE36 |
TPE11
TPE52 |
TPE50
TPE12 |
TPE29 |
TPE3
TPE14 |
TPE
TPE TPE |
2 1
1 19 |
TPE41 | TP |
TPE4
E23 |
TPE1:
TPE4: |
3 |
TPE22
TPE39 TPE24 TPE25 |
TPE16
TPE17 TPE26 TPE6 |
Page 7
NOTES
- 1. RESISTC All Resis marked a Unit of r 1,000,000 O : Non △ : Soli ☑ : Wire
- 2. CAPACI- All capa marked Unit of noted. X : Terr Cc M : Poly M : Met
- 3. COIL Unit of noted.
⊠ : Poly
4. TEST PC ♥ : Test I
5. EARTH S
Page 8
SCHEMATIC DIAGRAM FOR MODEL TC-1485 (Z-3 Chassis)
__ Important Safety Notice __
Components identified by A mark have special characteristics important for safety. When replacing any of these components, use only manufacturer's specified parts.
NOTES
All Resistors are carbon 1/4W resistor, unless marked as follows: Unit of resistance is OHM (Ω) (K = 1 000 M =
- 1.000.000).
- 0 : Nonflammable ⊠ · Metal Oxide · Metal Film
- ∆ : Solid
- ☑ : Wire Wound .
- Ň · Fuse
All capacitors are ceramic 50V capacitor, unless marked as follows: Unit of capacitance is µ F, unless otherwise
noted.
- (X) : Temperature "#™ · Electrolvtic Bipolar
- Compensation M : Polvester
- Metalized Polvester
- 3 COIL Unit of inductance is µ H, unless otherwise noted.
- 4. TEST POINT • : Test Point position.
- 5 EARTH SYMBOL 777 : Chassis Earth (Hot)
- ⊥ : Line Earth (Cold)
: Dipped Tantalum
(Z) : Z - Type
-
6. VOLTAGE MEASUREMENT
- Voltage is measured by a DC voltmeter. Conditions of the measurement are the following Power Source ..... 240 V AC, 50Hz Receiving Signal .........Colour Bar signal (RF) All the other customer's controls ......maximum
- 7. ------------------------------------
- 8. This schematic diagram is the latest at the time of printing and subject to change without notice.
REMARKS
1. Care must be taken when servicing this receiver, as it uses a HOT chassis. The circuit is defined by HOT and COLD indications in the schematic diagram. Take the following precautions. All circuits except the Audio. Video input circuits are HOT.
Precautions
- a. Do not touch the hot part or the hot and cold parts at the same time as you are liable to a shock hazard.
- b. Do not short-circuit the hot and cold circuits as electrical components may be damaged.
- c. Do not connect an instrument, such as an oscilloscope, to the hot and cold circuits simultaneously, as this may cause fuse failure. Connect the earth of instruments to the earth connection of the circuit being measured.
- d. Make sure to disconnect the power plug before removing the chassis.
Page 9
TC-1485
Page 10
Page 11
Page 12
Page 13
PARTS LOCATION
Page 14
REPLACEMENTS PARTS LIST
É
Important Safety Notice
Components identified by A mark have special characteristics important for safety. When replacing any of these components, use only manufacturer's specified parts.
| · | ||||||
|---|---|---|---|---|---|---|
| Ref No. | Part No. Description | Ref No. | Part No. | Description | ||
| MIC | OF LANFOUR COMPONENTS | R124 | ERDS2TJ332 | carbon | 3k3n ± 5% | %W |
| 10112 | CELLANEOUS CONFONENTS | R202 | ERDS2TJ332 | carbon |
3K3Ω ± 5%
56ko + 5% |
%W |
| 1) | TNQ8E0417 remote control | | R205 | A ERO14A1100P | fusable | 100 ± 5% | WW. |
| 2) | FA11D1201 battery cover | R251 | FRDS2TJ101 | carbon | 100a ± 5% | wW |
| 3) | A A34JRD30X01 C.R.I. | R253 | ERDS2TJ472 | carbon | 4k7a ± 5% | WW/ |
| 4) | A TKY190700 cabinet (black) | R254 | ERDS2TJ332 | carbon | 3k3n ± 5% | 14W |
| 51 | A TKY180701 cabinet (white) | R255 | ERDS2TJ471 | carbon | 4/00 ± 5% |
≫4₩
%a\u/ |
| 6) | TBM173003 Panasonic badge (black) | R256 | ERDS21J3R3 | carbon | 100 ± 5% | īV |
| 6) | TBM173023 Panasonic badge (white) | H25/ | A ERGICIFIOUS | carbon | 3k3n ± 5% | 14W |
| 7) | TEK17918 lid switch | 8301 | ERDS2TJ152 | carbon | 1k50 ± 5% | ₩W |
| 8) | R302 | ERDS2TJ272 | carbon | 2k7a ± 5% | %.W | |
| 191 | TKP1810384 lid (black) | R304 | ERDS2TJ152 | carbon | 1k50 ± 5% |
%t₩
|4\J |
| 10) | TKP1810385 lid (white) | R307 | ERD25TJ152 | carbon | 50ko | ~ |
| 10 | TBM17461 Q badge | R308 | E9092T1154 | carbon | 150ka ± 5% | ₩W |
| 12) | TKP1810391 smoked panel | R310 | FRDS2TJ103 | carbon | 10ka ± 5% | X4W |
| 13) | TBL171404 set feet | 8311 | ERDS2TJ152 | carbon | 1k5a ± 5% | XW |
| 14) | TRX1888300 nower button | R312 | ERDS2TJ471 | carbon | 4700 ± 5% |
%W
%W |
| 16) | A TNP197026 E P.C.B. | R313 | ERDS2TJ471 | carbon | 220kg + 5% | wW |
| 17) $801 | ESB99267S power switch | R315 | ERDS21J224 | carbon | 47kn ± 5% | WW. |
| 18) | ▲ TJB1722405 Ant terminal | R310 | ERDS2TJ102 | carbon | 1ka ± 5% | WW. |
| 19) | ∆ ENV87812F2 tuner | R318 | EVUE2AM30B5 | 4 control | 50ka | 143.1 |
| 20) | A TLE14752E transformer | R319 | ERDS2TJ333 | carbon | 33kn ± 5% | жw |
| 221 | A TNP107308AA Y P.C.B. | R320 | ERDS2TJ561 | carbon | 560 a ± 5% | %W |
| 23) | A TKU526901 back cover | R321 | ERDS2TJ561 | carbon | 5600 ± 5% |
14W
141.1 |
| 24) | TSA113001 antenna | R322 | ERDS21J333 | carbon | 4700 + 5% | WW |
| 25) | TBM120622 back cover label | R324 |
ERUS2114/1
ERDS2T1561 |
carbon | 560 n ± 5% | WW. |
| TPC1814901BK outer carton (black) | B328 | ERDS2TJ102 | carbon | 1kn ± 5% | %W | |
| TPC1814901WH outer carton (white) | R329 | EVND4AA00B | 2 control | 500 nB | ||
| TQB8E0387 instruction book | R330 | ERDS2TJ393 | carbon | 39K0 ± 5% |
74 W
1/4 W |
|
| 520-001 fuse holder | R331 | ERDS21J183 | carbon | 4700 ± 5% | W.W | |
| F801 | A 195-3.15 3.15A TUSE | 8351 | FRGI SJI 23P | metal oxide | 12ka ± 5% | 1 V 🕴 |
| DL 601 | SDI145D delay line | R352 | ERGI SJ123P | metal oxide | 12ka ± 5% | 1 V |
| X101 | F1045A S.A.W. filter | R353 | ERGI SJ123P | metal oxide | 12ka ± 5% | 1 W |
| X102 | EFCS6ROMW3 filter | R354 | ERDS2TJ121 | carbon | 1200 I 5% |
%4₩
%4₩ |
| X201 | EFCS6ROMS4 6Mhz S.I.F. Filter | R355 |
ERUSZIJZ/I
EROSZTIJZ/I |
carbon | 1200 ± 5% | WW. |
| X601 | EVORIALIS switch | R350 | ENDERADOR | 22 control | 300 oB | |
| S801 | ESB99267S switch | 8357 | EVN65AA008 | 32 control | 300 nB | |
| S1121 | EVQQBH12T switch | R359 | ERDS2TJ102 | carbon | 1ka ± 5% | ¼₩ |
| $1122 | EVQQBH12T switch | R360 | ERDS2TJ102 | carbon | 1ka ± 5% | 14W |
| S1123 | EVQQBH12G SWITCH | R361 | ERDS2TJ102 | carbon | 1K0 ± 5% | 24 W |
| 51124 | EVQ0BH12T switch | R362 | EVN65AAUUB | 33 control | 3kg | |
| S1127 | EVQQBH12T switch | 8365 | FRDS1 TJ1 52 | carbon | 1k50 ± 5% | %W |
| S1128 | EVQQBH12G switch | R366 | ERDS1 TJ1 52 | carbon | 1k5a ± 5% | ۸W |
| S1129 | EVQQBH121 SWITCh | R367 | ERDS1 TJ1 52 | carbon | 1k5Ω ± 5% | %W |
| 51130 | FVQ0BH12T switch | R369 | EVN65AA008 | 33 control | 1500 + 5% | ×W |
| $1133 | EVQQBH12T switch | 8372 | FRDS2TJ102 | carbon | 1kΩ ± 5% | wW |
| S1134 | EVQQBH12G switch | R374 | ERDS2TJ102 | carbon | 1ka ± 5% | ×W |
| S1135 | EVQ08H12T switch | R375 | ERDS2TJ102 | carbon | 1kg ± 5% | 24W |
| 51137 | R401 | ERD25TJ563 | carbon | 50KΩ ± 5% | WW I | |
| RESIGTORS | R402 | ERUS211103 | carbon | 1ka ± 5% | WW | |
| REGIO I ORO | R403 | ERDS2TJ103 | carbon | 10ka ± 5% | ×V | |
| R101 | EVND4AA00B14 control 10koB | R451 | ERDS2TJ102 | carbon | 1ka ± 5% | 14 W |
| R102 | ERDS2TJ102 carbon 1kn ± 5% % | W R453 | ERDS2TJ153 | carbon | 15ka ± 5% |
%w/
⊻ |
| R103 | ERDS2TJ472 carbon 4k7n ± 5% % | W R454 | ERDS1 TJ1 02 | carbon |
1kΩ ± 5%
1ko + 5% |
~~
%W |
| | R104 | ERDS2TJ472 carbon 4k/0 ± 5% % |
W | H455
W | DAGA |
FRDS1 T 1102 | carbon | 1kn ± 5% | ×V I |
| H106 | ERDS21J2/1 Carbon 2/00 ± 5% % | W 8457 | ERDS2TJ151 | carbon | 150n ± 5% | %W |
| B108 | ERDS2TJ222 carbon 2k2a ± 5% | W R458 | ERDS2TJ471 | carbon | 470a ± 5% | %W |
| R109 | ERDS2TJ333 carbon 33kg ± 5% % | W R459 | ERDS2TJ393 | carbon | 39kn ± 5% |
%4¥/
⊮_\/ |
| 8110 | ERDS2TJ103 carbon 10kn ± 5% * | W R461 | ERDS1 TJ3R3 | carbon |
3.30 ± 5%
15ko + 5% |
w.W |
| 8111 | ERDS2TJ471 carbon 4700 ± 5% % |
W | 1462
W | 1462 |
ERU3211133 | carbon | 1kn ± 5% | жŴ |
|
| H112
| B112 |
ENDSZIJJ941 CAEDON J90KG ± 5% % | W R464 | EVND4AA00B | 22 control | 200 nB | |
| R118 | ERDS2TJ123 carbon 12kg ± 5% % | W R465 | ERDS2TJ101 | carbon | 100a ± 5% | %W |
| RIIG | EBDS2T1123 carbon 12kg ± 5% % | W R466 | ERDS2TJ183 | carbon | 18kΩ ± 5% | % ₩ |
Page 15
| Ref No. | Part No. | Description | Ref No. | Part No. | Description | . | ||||
|---|---|---|---|---|---|---|---|---|---|---|
| R467 | ERDS2TJ1R8 | carbon | 1.80 | ± 5% | ×W | R817 | ERDS2TJ333 | carbon | 33ka ± 5% | WW. |
| R468 | ERDS2TJ103 | carbon | 10kn | ± 5% | ×W | R818 | ERDS2TJ104 | carbon | 100kn ± 5% | %W |
| R469 | ERDS2TJ473 | carbon | 47k a | ± 5% | ×4. | R822 | ERDS2TJ103 | carbon | 10kn ± 5% | 14W |
| R470 | ERDS2TJ684 | carbon | 680kn | ± 5% |
%4.₩/
14.1./ |
R823 | ERDS21J103 | carbon | 10kg ± 5% | 14W |
| | R4/1 | ERDSZIJZZZ | carbon | 2820 | ± 5% |
74 W
14 W |
R825 | ERDS213562 | carbon | 5K00 ± 5% |
%W
%U/ |
| R472 | ERDS213333 | carbon | 4k70 | ± 5% | ×V | B1112 | FRDS2TJ223 | carbon | 22ko + 5% | %V |
| R474 | ERD25TJ155T | carbon | 1 M5 Ω | ± 5% | WW. | R1114 | ERDS2TJ103 | carbon | 10ka ± 5% | ×W |
| R476 | ERD25TJ152 | carbon | 1k50 | ± 5% | %W | R1115 | ERDS2TJ101 | carbon | 100a ± 5% | %₩ |
| R477 | ERDS2TJ392 | carbon | 3k9n | ± 5% | ×4W | R1116 | ERDS2TJ183 | carbon | 18kΩ ± 5% | WW. |
| R501 | ERDS2TJ151 | carbon | 1500 | ± 5% | %W | R1117 | ERDS2TJ473 | carbon | 47ka ± 5% | %W |
| | R502 | ERDS21J472 | carbon | 4K/0 |
24.W/
14.1./ |
81118 | ERDS21J473 | carbon | 4/K0 ± 5% |
74 W
141.1 |
|
| H503 | ERDSZIJZZZ | carbon | 10ko |
1 J70
+ 5% |
%W | ERG2S 1561 P | metal oxide | 5600 + 5% | 24 | |
| 8505 | ERDS211103 | carbon | 4700 | ± 5% | WW | B1121 | ERDS2TJ101 | carbon | 100n ± 5% | 14W |
| 8506 | FRDS2TJ224 | carbon | 220k n | ± 5% | WW. | B1124 | ERDS2TJ183 | carbon | 18kn ± 5% | %√ |
| R507 | ERDS2TJ152 | carbon | 1k50 | ± 5% | ×W | R1126 | ERDS2TJ183 | carbon | 18ka ± 5% | %W |
| R509 | EVND4AA00B14 | control | 10k nE | 3 | R1127 | ERDS2TJ123 | carbon | 12kn ± 5% | %W | |
| R511 | ERDS2TJ394T | carbon | 390k a | ± 5% | %w | R1128 | ERDS21J472 | carbon |
4K/Ω ± 5%
10ko ± 5% |
74 W |
| R512 | ERDS2TJ103 | carbon | 10k Ω | ± 5% |
94.W/
143.J |
H1130 | ERDS213103 | carbon | 22ko + 5% | 14W |
| | R513 | ERDS2 | J103 | carbon | 1060 |
± 570
∔ 54/ |
74.W
141.J |
R1133 | FRDS2T 1103 | carbon | 10ka ± 5% | ₩W |
| 0515 | ERU5213103 | carbon | 6800 | + 5% | ×. | B1134 | ERDS2TJ223 | carbon | 22ka ± 5% | wW |
| 8518 | FRDS2T 1681 | carbon | 680 n | ± 5% | ¥.W | R1135 | ERDS2TJ123 | carbon | 12ka ± 5% | %W |
| R519 | ERDS2TJ333 | carbon | 33k n | ± 5% | жW | R1136 | ERDS2TJ123 | carbon | 12ka ± 5% | %W |
| R520 | ERDS2TJ682 | carbon | 6k8n | ± 5% | We | R1137 | ERDS2TJ563 | carbon | 56kΩ ± 5% | %W |
| R521 | ERDS2TJ472 | carbon | 4k7n | ± 5% | % 4₩ | R1138 | ERDS2TJ563 | carbon |
ססגם בס%
10ג∧ + ⊆ע |
%4₩
%/\./ |
| | R522 | ERDS2TJ222 | carbon | 2K20 |
⊥
3%
+ cov |
74₩
1,⊾\1 |
R1139 | ERDO211103 | carbon | 12ko + 5% | жW |
| | H523 | ERDS21J103 | carbon | 10kg |
-
570
+ 594 |
~w
%W |
R1141 | FRDS2TH53 | carbon | 15kg ± 5% | ¥4W |
| R525 | FRDS2T 1333 | carbon | 33k o | ± 5% | 14 WK | R1150 | ERDS2TJ103 | carbon | 10ka ± 5% | 14W |
| R526 | ERDS2TJ103 | carbon | 10k n | ± 5% | iew. | R1151 | ERDS2TJ102 | carbon | 1ka ± 5% | ×W |
| R527 | ERDS2TJ223 | carbon | 22k a | ± 5% | ×W | R1152 | ERDS2TJ102 | carbon | 1ka ± 5% | %W |
| R528 | A ERQ14AJ180P | fusable | 180 | ± 5% | X4W | R1153 | ERDS2TJ102 | carbon | 1kn ± 5% | %4¥√ |
| R529 | ERDS2TJ822 | carbon | 8k20 | ± 5%6 |
%w/
1.∪ |
R1154 | ERDS2TJ102 | carbon | 1K0 ± 5% |
24 W
16 W |
| R531 | A ERQICJP102S | rusable |
1 K Ω
3 k 0 o |
± 576
∔ 594 |
1.0 | H1155 | ERDSZIJIUZ | carbon | 1kn + 5% | W. |
| H532 | ERGI SJ392H | metal oxide | 18k0 | + 5% | ×Ψ | 91157 | ERDS2T 1102 | carbon | 1kg ± 5% | WW. |
| 0524 | ED0211103 | carbon | 334.0 | + 5% | 141 | 81158 | ERDS2TJ102 | carbon | 1ka ± 5% | ₩W |
| 8535 | ERDS2T 1154 | carbon | 150kg | ± 5% | 4W | R1159 | ERDS2TJ102 | carbon | 1kn ± 5% | *₩ |
| R536 | ERDS2TJ682 | carbon | 6k8n | ± 5% | ×W | R1160 | ERDS2TJ102 | carbon | 1kn ± 5% | %a\w/ |
| R537 | ERDS2TJ684 | carbon | 680k n | ± 5% | ×₩ | R1161 | ERDS2TJ102 | carbon | 1k0 ± 5% |
%4₩
141.7 |
| R538 | ERDS2TJ334 | carbon | 330k n | ± 5% | %a\w/ | R1162 | ERD251J472 | carbon | 4κ/Ω ± 5% | %W |
| |R539 | ERD25TJ125 | carbon | 1.2MΩ |
± 5%
+ 5¥ |
745W
1411 |
R1165 | ERDS2T1102 | carbon | 1kg ± 5% | 14W |
| 8540 | ERDS21J082 | carbon | 1820 | ± 5% | ve w | R1166 | ERDS2TJ681 | carbon | 680a ± 5% | %W |
| R552 | ERDS2T.1273 | carbon | 27k 0 | ± 5% | жW | R1167 | ERDS2TJ102 | carbon | 1ka ± 5% | /4 W |
| 8553 | A ERQ12HJ1R0P | fusable | 1 Ω | ± 5% | ‰₩ | R1168 | ERDS2TJ822 | carbon | 8k2a ± 5% | %W |
| R554 | A ERQICJP681S | fusable | 680 n | ± 1% | 1 W | R1169 | ERDS2TJ473 | carbon |
4/K0 ± 5%
20ka ± 5% |
24 W |
| R557 | ERDS2TJ153 | carbon | 15k Ω | ± 5% | 54W | R1170 | ERDS21J223 | carbon |
22KΩ ± 376
22k0 ± 5% |
14W |
| R558 | ERDS2TJ274 | carbon | 2/060 |
± 5%
+ 5≪ |
%4₩/
7₩/ |
ERU521J223 | carbon | 2k2a ± 5% | WW I | |
| H559 | EPDS2T1274 | cachoo | 270ko | ± 5% | ×V | R1173 | FRDS2TJ822 | carbon | 8k2a ± 5% | WW |
| 1000 | turable | 1.0 | + = 0/ | w.L. | R1174 | ERDS2TJ273 | carbon | 27ka ± 5% | 14W | |
| 8561 | rusable | 1 80 |
± 376
+ 5% |
78 W
14 W |
R1175 | ERDS2TJ103 | carbon | 10ka ± 5% | ×. | |
| 8563 | ERDS2T 1101 | carbon | 1000 | ± 5% | w.W | R1176 | ERDS2TJ103 | carbon | 10kg ± 5% | %4₩/ |
| R564 | ERDS2TJ474 | carbon | 470ka | ± 5% | X | R1177 | ERDS2TJ103 | carbon | 10kn ± 5% | 14 |
| R601 | ERDS2TJ471 | carbon | 470a | ± 5% | 1/4 W | R1178 | ERUSZIJIZ3 | 23 control | 2k oB | |
| R602 | ERDS2TJ391 | carbon | 390 n | ± 5% | %W | ERDS2T1473 | carbon | 47kn ± 5% | ×W | |
| R603 | ERDS2TJ511T | carbon | 5100 | ± 5% | %4 W | ERDS2TJ102 | carbon | 1ka ± 5%, | We. | |
| R604 | EVND4AAUUBI 3 | control | 4700 | + 5% | 16 W | R1163 | ERDS2TJ102 | carbon | 1ka ± 5% | % ₩ |
| R608 | ERDS2TJ822 | carbon | 8k2n | ± 5% | ×W | R1184 | ERDS2TJ102 | carbon |
1K0 ± 5%
560k0 + 5% |
%₩
%\ |
| R609 | ERDS2TJ392 | carbon | 3k9n | ± 5% | ×W | R1185 | ERUSZI J564 | carbon | 560ko + 5% | ×V |
| R610 | ERDS2TJ332 | carbon | 3k3n | ± 5% | %₩ | R1100 | EDDOCT LOOA | carbon | 680ko + 5% | 1/4 W |
| R611 | ERDS2TJ331 | carbon | 330 n | ± 5% |
%4₩
6.U |
R118/ | ERDS211084 | carbon | 18ka ± 5% | ×W |
| 8612 | ERDS2TJ332 | carbon | 3630 |
± ⊃%)
+ ⊆o⁄ |
жw
и.ш |
R1602 | ERDS2T.1274 | carbon | 270ka ± 5% | ×W |
| R614 | ERDS21332 | carbon | 330n | + 5% | %W | R1603 | EVND4 AA00B | 15 control | 50k n | |
| R615 | ERDS2T1331 | carbon | 330 n | ± 5% | жW | R1604 | ERDS2TJ4R7 | carbon | 4.70 ± 5% | 14 W |
| R616 | ERDS2TJ103 | carbon | 10k a | ± 5% | WW | R1605 | ERDS2TJ101 | carbon | 100n ± 5% | %W |
| R617 | ERD25TJ225 | carbon | 2.2Ma | ± 5% | ×W | R1606 | ERDS2TJ101 | carbon |
1000 ± 5%
9 200 ± 52 |
74.W
34.L/ |
| R623 | ERDS2TJ154 | carbon | 150k n | ± 5% | %₩ | H2501 | ER0/51AJ82 | carbon | 330n + 5% | WV I |
| R624 | ERDS2TJ272 | carbon | 2k7n | ± 5% |
%4₩/
µ.L./ |
R2502 | ERDS2T1151 | carbon | 150a ± 5% | 14W |
| R625 | ERD251J335 | carbon |
3,3MΩ
475 |
± ⊃%)
+1∩≪ |
*#W
5.U |
R2505 | ERDS2TJ471 | carbon | 470Ω ± 5% | ×W |
| R802 | 6 ERDS1 T 1334 | cachon | 330ko | ± 5% | ×W | R2506 | ERDS2TJ103 | carbon | 10ka ± 5% | ∕a₩ |
| R803 | ERDS1 TJ681 | carbon | 6800 | ± 5% | ×W | R2507 | ERDS2TJ101 | carbon | 100a ± 5% | %₩ |
| R804 | ERDS1 TJ6R8T | caebon | 6R8n | ± 5% | ×W | R2508 | ERDS2TJ563 | carbon | 56KQ ± 5% | 24W |
| R805 | ERDS2TJ562 | carbon | 5k6a | ± 5% | ×W | R2509 | ERDS2TJ152 | carbon |
ικοΩ Σο%
2⊭∧⊒ |
/4 W |
| R807 | ERGI ANJ 560H | metal oxide | 56n | ± 5% | 1. | H2510 | EVND4AAU0B |
23 CONTFOL
Carbon |
1000 + 5% | %W- |
| R808 | ERG2ANJ153H | metal oxide | 1580 |
± 5%
+ ⊊¢/ |
2W
5W |
R2513 | E8052T1392 | carbon | 3k9a ± 5% | ×₩ |
| R810 | ERG571022 | metal oxide |
0K20
8k2n |
- 576
+ 594 |
5W | R2514 | ERDS2TJ473 | carbon | 47ka ± 5% | ×W |
| R811 | ERDS2T.1221 | carbon | 2200 | ± 5% | ×W | R2515 | ERDS2TJ123 | carbon | 12ka ± 5% | WW | |
| R812 | ERDS2TJ102 | carbon | 1ka | ± 5% | ×V | R2516 | ERDS2TJ101 | carbon | 100a ± 5% | %W |
| R813 | ERD25TJ103 | carbon | 10ka | ± 5% | ×W | R2517 | EVND4AA00B | 53 control | 5koB | 141 |
| R814 | ERD25TJ103 | carbon | 10k a | ± 5% |
%₩
1.1.1 |
R2518 | ERDS2TJ562 | carbon | 3k90 ± 370 | ω. |
| H815 | ERDS21J392 | carbon | 3KAU |
± >%
+ ≲≪ |
%w
%⊾Li |
R2519 | ERDS2T1563 | carbon | 56ka ± 5% | ×W |
| 010 | EUD9517552 | CMCN | ÷ 570 | /9 W |
Page 16
| Ref No. | Part No. 🕠 🖡 | Description | Ref No. | Part No. | Description | |||||
|---|---|---|---|---|---|---|---|---|---|---|
| B2521 | FRDS2TJ331 | carbon | 330n ± 5% | ×W | C460 | ECEAT HN010SB | electrolytic | 1 µF | 50v | |
| R2522 | ERDS2TJ103 | carbon | 10ka ± 5% | ×W | C461 | ECEA1 VU471E | electrolytic |
470 µ⊦
22 µF |
350 | |
| R2523 | ERDS2TJ101 | carbon | 100n ± 5% |
%4₩
₩17 |
C462 | ECEAI CU330B | electrolytic | 100 oF | 500 | |
| R2524 | ERDS2TJ272 | carbon |
2K/0 ± 5%
750 + 5% |
×1 | 10502 | ECEAT CU470B | electrolvtic | 47 µF | 16v | |
| R2525 | FRGLSU151P | metal oxide | 150 a ± 5% | 1 W | C503 | ECEAT HU010B | electrolytic | 1 µF | 50 v | |
| R2527 | ERDS2TJ473 | carbon | 47ka ± 5% | ×W | C504 | ECOM1 H1 03KV3 | plastic film | 10 nF | 50v | |
| R2528 | ERDS2TJ221 | carbon | 220a ± 5% | ×₩ | C506 | ECQM1 H333KV3 | plastic film |
33 NF
1 7 HF |
50V | |
| R2529 | ERDS2TJ473 | carbon |
4/kg ± 5%
1000 ± 5% |
%\W
\s\U |
C508 |
ECERTH04R7 B
ECKR1H391KB5 |
ceramic | 390 pF | 50v | |
| H2530 | ERDS21J101 | carbon | 100ko + 5% | %V | C509 | ECEATHU010B | electrolytic | 1 µF | 50v | |
| R2532 | ERQI 2HKR33P | fusable | R330 | C510 | ECQM1 H562KV3 | plastic film | 5.6 nF | 50v | ||
| R2533 | ERDS2TJ333 | carbon | 33ka ± 5% | ₩V | C511 | ECQV1 H1 04 J Z 3 | 16v | |||
| R2534 | ERDS2TJ103 | carbon | 10ko ± 5% |
%.₩
%.₩ |
C512 | FCOM1 H1 03KV3 | plastic film | 10 nF | 50v | |
| H2535 | ERDS2TJ101 | carbon | 47kg ± 5% | W. | C515 | ECEA1 JUI 00B | electrolytic | 10 µF | 50 v | |
| R2537 | ERDS2TJ683 | carbon | 68kn ± 5% | %₩ | C516 | ECKR1H102KB5 | ceramic | 1 nF | 50 v | |
| C517 |
ECEAT CU470B
ECKB2H101KB2 |
ceramic |
47 µF
100 pF |
500v | ||||||
| CA | PACITORS | C519 | ECEAT HUT 00B | electrolytic | 10 µF | 50 v | ||||
| C1 5 | ECEALHU4R78 | electrolytic | 4.7 µF | 50 v | C520 | ECEA1 CU470B | electrolytic | 47 µF | 16v | |
| C16 | ECEATHUR22B | electrolytic | 0.22 µ⊦ | 500 | C521 | ECOMI H222KV3 | plastic film | 2.2 nF | 50v | |
| ECENTHIOOR | electrolytic | 10 uF | 50v | 0522 | ECOMI HOOZKVS | plastic film | 22 nF | 50v | ||
| C24 | ECEA50ZR47B | electrolytic | 0.47 µF | 50v | C524 | ECCM1 H682KV3 | plastic film | 6.8 nF | 50v | |
| C1 01 | ECKR1H103ZF5 | ceramic | 10 nF | 50 | C531 | ECKW2H332KB8 | ceramic | 3.3 nF | 500v | |
| C1 02 | ECKR1H103ZF5 | ceramic | 10 nF | 50V | C532 | ECKW2H332KB8 | ceramic | 3.3 nF | 500V | |
| C103 |
ECKH1H1032F5
ECOV1H224173 |
olastic film | 220 nF | 50v | 0553 |
ECGF2H394J3A
ECKR2H222KB2 |
ceramic | 2.2 nF | 500v | |
| C104 | ECQV1H104JZ3 | plastic film | 100 nF | 50v | C554 | ECEA2CS2R2E | electrolytic | 2.2 µF | 160v | £ ?? |
| C106 | ECEAI CU470B | electrolytic | 47 µF | 16v | C555 | ECEA2ES100E | electrolytic | 10 µF | 250v | |
| C110 | ECKR1H103ZF5 | ceramic | 10 nF |
50V
50V |
C556 | ▲ ECKW3D222JBN | ceramic | 2,2 01 | 2KV | • |
| ECKALHIV32F5 | electrolytic | 33 µF | 16v | C557 |
ECQVIHI04J23
ECVH12H6821S |
plastic film | 6.8 nF | 500v | ||
| C113 | ECKR1H103ZF5 | ceramic | 10 nF | 50 v | C559 | A ECKW3D122JBN | ceramic | 1.2 nF | 2kv | |
| C114 | ECQV1 H1 04 JZ3 | plastic film | 100 nF | 50 V | C560 | ▲ ECKW3D271 JBN | ceramic | 270 pF | 2kv | |
| C116 | ECCR1H560JP5 | ceramic |
50 pr
22 nF |
50V | C562 | ECEATHUT00B | electrolytic |
10 µF
470 oF |
500 | |
|
ECCHI HZZUJES
ECEALCU331 B |
electrolytic | 330 µF | 16v | C564 | ECRAZH47 I KBZ | electrolytic | 10 µF | 50v | ||
| C1 20 | ECKR1 H561 KB5 | ceramic | 560 pF | 50v | C601 | ECKR1 H1 03ZF5 | ceramic | 10 nF | 50v | |
| C203 | ECOMI H222KV3 | plastic film | 2.2 nF | 50 1 | C602 | ECCR1H121J5 | ceramic | 120 pF | 50v | |
| C204 | ECKR1 H1 03ZF5 |
ceramic
oloctic film |
10 AF | 50v | C603 | ECKR1H1032F5 | ceramic | 50V | ||
| 1 C205 | FCKR1H1037F5 | ceramic | 10 nF | 50v | C605 | ECKR1H103ZF5 | ceramic | 10 nF | 50v | _ |
| C207 | ECCR1H680JP5 | ceramic | 68 pF | 50v | C606 | ECEAT HUR228 | electrolytic | 0.22 µF | 50v | |
| C208 | ECKR1 H1 03ZF5 | ceramic | 10 nF | 50V | C607 | ECKR1 H1 03ZF5 | ceramic | 10 nF | 50v | |
| C209 | ECCRI H030CC | ceramic | 47 oF | 50v | C609 |
ECEATHOUTUB
ECKRTH1037ES |
ceramic | 10 nF | 50v | |
| C211 | ECEATHUT00B | electrolytic | 10 µF | 50v | C611 | ECKR1H103ZF5 | ceramic | 10 nF | 50v | |
| C251 | ECEA1 CUI 01 B | electrolytic | 100 µF | 16v | C612 | ECKR1 H331 KB5 | ceramic | 330 pF | 50v | |
| C252 | ECEATHN010SB | electrolytic | 1 µF |
50V
35v |
C613 | ECKR1H331KB5 | ceramic | 330 pF | 50 V | |
| C253 | ECEAT VU4R7 B | olastic film | 1.8 nF | 50v | C614 | ECKRIH331KB5 | ceramic |
330 рг
10 лF |
50v | |
| C254 | ECEAI CU330B | electrolytic | 33 µF | 16v | C617 | ECKR1H103ZF5 | ceramic | 10 nF | 50v | |
| C256 | ECEA1 HUR22B | electrolytic | 0.22 µF | 50 v | C618 | ECKR1 H1 02KB5 | ceramic | 1 n F | 50v | |
| C257 | ECEAT VU471E | electrolytic |
470 μF
150 οF |
50v | C619 | ECKR1 H1 02KB5 |
ceramic
plastic film |
1 OF | 200 | |
| C258 | ECENTRI 54JZ3 | electrolytic | 1000 µF | 25v | 6802 | ECQU2A473MNB | plastic film | 47 nF | 200v | |
| C302 | ECEAI CNI 00SB | electrolytic | 10 µF | 16v | C803 | ECKW2H472PU8 | ceramic | 4.7 nF | 500v | |
| C304 | ECEAI CN220SB | electrolytic | 22 µF | 16V | C804 | ECKW2H472PU8 | ceramic | 4.7 nF | 500v | |
| C306 | ECEATHU4R78 | electrolytic |
4.7 pr
82 nF |
50v | C805 | ECKW2H472PU8 | ceramic | 4./ nF | 500V | |
| C307 | ECKR1H103ZE5 | ceramic | 10 nF | 50 v | 6807 | ECES2GI101G | electrolytic | 100 uF | 400v | |
| C309 | ECKR1 H221 KB5 | ceramic | 220 pF | 50v | C809 | ECQV1H184JZ3 | plastic film | 180 nF | 50 v | |
| C310 | ECKR1H331KB5 | ceramic | 330 pF |
50V
50V |
C810 | ▲ ECKW3D1 52KBN | ceramic | 1.5 nF | 2kv | |
| C311 | ECEATHINDIUSB | electrolytic | 10 µF | 50v | C811 | ceramic | 1.5 BF |
2KV
50V |
||
| 0312 | ECKR1H221KB5 | ceramic | 220 pF | 50v | C812 | FCFA1 60V33WE | electrolytic | 33 µF | 16v | |
| C314 | ECKR1H103ZF5 | ceramic | 10 nF | 50 0 | C816 | ECKR2H561 KB2 | ceramic | 560 pF | 500v | |
| C351 | ECKR1H471KB5 | ceramic |
470 pr
560 oF |
50v | C817 | ECEALEU471E | electrolytic | 470 µF |
25V
50V |
|
| C352 | ECKRIHSOLKBS | ceramic | 680 pF | 50v | C818 |
ECEATHUTUUB
ECKB1H1037E5 |
ceramic | 10 pr | 50v | |
| C355 | A ECKW3D1 52KBN | l ceramic | 1.5 nF | 2kv | C820 | ECEATEUTOTB | electrolytic | 100 µF | 25v | |
| C356 | ECKR2H151KB2 | ceramic | 150 pF | 5000 | C821 | ECKR1H103ZF5 | ceramic | 10 nF | 50v | |
| C358 | ECEATHU220B | electrolytic |
22 µr
1 µF |
250v | C822 | ECKR1 H1 02K85 | ceramic | 1 nF | 50 v | |
|
C359
C360 |
ECEALCU331B | electrolytic | 330 µF | 16v | C823 | ECOM1H332KV3 | plastic film |
3,3 NF
68 oF |
50V
50V |
|
| C372 | ECKR1 H331 KB5 | ceramic | 330 pF | 50v | C1113 | ECCR1H151J5 | ceramic | 150 pF | 50 v | |
| C373 | ECCR1H470J5 | ceramic | 47 pF | 50V | C1114 | ECCR1H101J5 | ceramic | 100 pF | 50v | |
| C401 | ECOMINI 53KV3 | alectrolytic | 1 uF | 50v | C1117 | ECEATHUT00B | electrolytic. | 10 µF | 50v | |
| C402 | ECEATHOUTUSE | electrolvtic | 1 µF | 50 v | ECKR1 H1 03ZF5 |
ceramic
ceramic |
270 05 |
50V
50V |
||
| C404 | ECEATHU4R7B | electrolytic | 4.7 µF | 50v | FCKR1H1037F5 | ceramic | 10 nF | 50v | ||
| C451 | ECKR2H821 KB2 | 2 ceramic | 820 pF | 5000 | C1123 | ECEAT HUT 00B | electrolytic | 10 µF | 50 v | · |
| C452 | ECOVEHED/ 179 | plastic film | 100 nF | 50v | C1124 | ECKR1H271KB5 | ceramic | 270 pF | 50y | |
| C455 | ECEAT VUI 01 B | electrolytic | 100 µF | 35v | C1125 | ECCR1H101J5 | ceramic | 100 pF |
50v
50v |
|
| C455 | ECOMI H223KV | 3 plastic film | 22 nF | 50v | C1126 | ECKR1H121KR5 | ceramic | 120 pF | 50 v | |
| C457 | ECEAT VUI 02E | electrolytic |
1000 µF
4 7 µF |
35V
50v |
C1128 | ECKR1 H1 81 KB5 | ceramic | 180 pF | 50v | |
| C458 |
ECEASUZ4R/B
ECOM1104MZV |
plastic film | 100 nF | C1 1 30 | ECEA1 CU330B | electrolytic | 33 µF | 167 | ||
| - |
Page 17
| Ref No | . Part No. | Description | Ref No. | Part No. | Description | ||
|---|---|---|---|---|---|---|---|
|
C1131
C1132 C1133 C1134 C1135 C1136 C1137 C1138 C1139 C1140 C1144 C1145 C1145 C1147 C1148 C1151 C1152 C1153 C1154 C1155 C1156 C1157 C1158 C1157 C1158 C1159 C1160 C1161 C1602 C1603 C1604 C1605 C1606 C2501 C2503 C2507 C2509 C2512 C2513 C2514 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2518 C2517 C2517 C2517 C2517 C2517 C2517 C2517 C2517 C2517 C2517 C2517 C2517 C2517 C2517 C2517 |
ECE A1 HU2R2B
ECCR1 H1 01 J5 ECE A1 HU2R2B ECE A1 HU2R2B ECE A1 HU2R2B ECE A1 HU2R2B ECE A1 HU2R2B ECE A50ZR37B ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H471KB ECKR1 H |
electrolytic 2.2
ceramic 100 electrolytic 2.2 electrolytic 2.2 electrolytic 2.2 ceramic 150 electrolytic 0.33 electrolytic 0.47 ceramic 470 ceramic 470 electrolytic 10 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 ceramic 470 selectrolytic 1 electrolytic 1 electrolytic 20 electrolytic 20 electrolytic 20 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 electrolytic 10 |
µF
50v
|
D372
|
D373 D451 D453 D501 D505 D505 D505 D505 D552 D553 D554 D802 D803 D804 D803 D804 D805 D806 D807 D809 D810 D811 D811 D811 D813 D814 D813 D814 D817 D818 D821 D822 D823 D824 D1111 D8122 D823 D824 D1125 D1126 D1128 D1124 D1125 D1126 D1128 D1130 D1131 D1131 D1131 D1131 D1151 D151 D151
WA1 65 TA5
WA4047 TA
ERA15-02V3
WA4270TA
WA4360TA
WA171 TA5
WA165TA5
ERA22-04V3
WA165TA5
ERA22-04V3
232266298009
EU02V0
WA4300MTA
MA4056MTA
MA165TA5
WA4030MTA
MA165TA5
WA4030TA
MA165TA5
WA165TA5
|
diode
|
diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode
|
|
|
L107
L108 L109 L201 L201 L203 L204 L301 L502 L601 L602 L603 L801 L802 L803 L806 T531 T551 T801 |
TL 110 104991 R
TL T1 00K166C TL T470K991 R TL T220K991 R TL T047L991 R EIS7ES7108 TL T390K991 R TL T542K991 K TL T542K991 K TL T542K991 K TL T542K991 K TL T542K991 K TL T542K991 K TL T542K991 K TL T542K91 K TL T5458E ▲ TLF14752F ETS29K14A |
coil
peaking coil coil coil sound IF transformer coil coil coil coil coil line filter bead choke bead choke bead choke bead choke bead choke |
D2501
D2502 Q101 Q103 Q302 Q303 Q304 Q351 Q352 Q353 Q355 Q358 Q372 Q373 Q374 Q451 Q451 Q452 Q502 Q504 Q505 |
MA4082MTA
EU02V0 TR 2SA564ATA UN4211TA 2SA564ATA 2SC2636T 2SC2636T 2SC1473A 2SC1473A 2SC1473A 2SC1473A 2SC1473A 2SC1473A 2SC1473A 2SC1473A 2SA564ATA 2SA564ATA 2SA564ATA 2SA564ATA 2SA564ATA 2SA564ATA 2SA564ATA 2SA564ATA 2SA564ATA 2SA564ATA |
diode
diode diode P.N.P. transis transistor P.N.P. transis transistor transistor N.P.N. transis N.P.N. transis N.P.N. transis P.N.P. transis P.N.P. transis P.N.P. transis P.N.P. transis P.N.P. transis P.N.P. transis P.N.P. transis P.N.P. transis N.P. transis N.P. transis N.P. transis N.P. transis N.P. transis N.P. transis N.P. transis N.P. transis N.P. transis N.P. transis N.P. transis |
S
stor stor stor stor stor stor stor stor |
|
|
D1 01
D1 02 D1 03 D301 D302 D303 D304 D306 D307 D308 D351 D352 D353 D354 |
WA1 65 TA5
WA1 65 TA5 WA1 65 TA5 WA1 65 TA5 WA1 65 TA5 WA1 65 TA5 WA1 66 TA5 WA41 20 TA WA41 20 TA WA41 20 TA WA41 20 TA WA41 65 TA5 WA1 65 TA5 WA1 65 TA5 WA1 65 TA5 |
DIODES
diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode diode |
Q506
Q531 Q551 Q802 Q803 Q804 Q805 Q806 Q807 Q1121 Q1122 Q1123 Q1125 Q1129 Q1135 |
25316631A
25316431A 2501573AH 2501439RL UNI215 UNI111 2501317TA 2501573AH 2501685TA 2501685TA UNI211 UNI211 2501685TA 2501685TA 2501685TA |
P.N.P. transis
N.P.N. transis N.P.N. transis transistor transistor N.P.N. transis N.P.N. transis N.P.N. transis transistor transistor N.P.N. transis transistor transistor transistor transistor transistor transistor |
tor
tor tor tor tor tor tor tor tor |
Page 18
| Part No. | Description |
|---|---|
| 2SC1 685TA | N.P.N. transistor |
| 2501685TA | N.P.N. transistor |
| 2SC1 685TA | N.P.N. transistor |
| 2SC1685TA | N.P.N. transistor |
| 2SC1685TA | N.P.N. transistor |
| 2SC1685TA | N.P.N. transistor |
| 2SC1685TA | N.P.N. transistor |
| 2SC1 685 TA | N.P.N. transistor |
| l.C's | |
| M51407SP | I.C. |
|
MN151421118
MN1220 T |
|
| AN5025K | I.C. |
| TLP751 VIDLF2 | transformer |
| TLP731 AUDLF2 | transformer |
| AN5265 | audio I.C. |
| AN5521 | vertical output I.C. |
| SIR50103A-M | 1.C. |
|
Part No.
2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC1685TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2SC185TA 2 |
8802017000BL2
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