Sharp GF-9191H, GF-9191HB Service Manual

Page 1

SHARP Service Manual

PHOTO : GF-9191H

APSS Auto Program Search System

MODEL GF-9191H GF-9191E GF-9191HB

In the interests of user-safety the set should be restored to its original condition and only parts identical to those specified be used.

GENERAL		Ou
Туре:	Portable stereophonic cassette tape recorder with built-in LW/MW/SW/ FM 4-band radio	04
Power source:	AC 110/220/240V, 50/60 Hz
	(GF-9191H/HB)	ТА
	AC 240V, 50/60 HZ (GF-9191E)	Ty
	bC 15V (Ten UM/SUM-1, K20, D)	Taj
	size, IIF2 Datteries of External DC	Taj
Power consumption	35 W	Re
Speaker	16 cm (Woofer) x 2	Era
spounor.	5 cm (Tweeter) x 2	Re
Power output:	MPO 13W (6.5W+6.5W) (DIN45.324)	Fas
·····	(GF-9191H/HB)	re E
	Dynamic Power 19W (9.5W+9.5W)	Fre
	(GF-9191E)	Wo
	AC Operation	WO
Semiconductors:	6-IC (Integrated Circuit), 34-transistor	S/N
~ ••••••	and 30-diode (3-Light Emitting Diode)	D , I
Dimensions:	516mm(W) x 115mm(D) x 271mm(H)	RA
weight:	6.5 kg (without batteries)	Fre
nput terminals:	I EXT. MIC. 600 ohms (J101-A,
	2 Mixing mic 600 ohms (1401)
	3 Remote control (1101-R)	Inte
	4 EXT DC nower (1901)	fr
	5 AC input power ($0901)
	6 REC/PB DIN socket. 2.5 mV/10 K	Cire
	ohms (SO101)	An
	7 FM EXT. antenna (TB1)
	8 PHONO (J103-A, J103-B)

SPECIFICATIONS

EXT. speaker, 4 ~ 8 ohms (SO102, SO103)

2 PHONES, 4 ~ 8 ohms (J603)
REC/PB DIN socket, 0.7 V/50 K ohms (SO101)

APE RECORDER SECTION

put terminals:

Type: Tape: Tape speed: Recording system: Erasing system: Recording time: Fast forward or rewind time: Frequency response: Wow and flutter: S/N ratio: RADIO SECTION Frequency range: Intermediate frequency: Circuit system: Antenna:

4-track stereo cassette tape recorder Philips type compact cassette tape 4.8 cm/sec. AC bias AC erasing

60 minutes (with C-60 tape)

ewind time: 120 sec. (with C-60 tape) equency response: 40 ~ 15,000 Hz (CrO2 tape) 40 ~ 12,000 Hz (Normal tape) w and flutter: 0.25% (DIN45 511) (GF-9191H/HB) 0.2% (WRMS) (GF-9191E) V ratio: 50 dB

LW 150 ~ 285 kHz MW 520 ~ 1,620 kHz SW 5.95 ~ 18 MHz FM 87.6 ~ 108 MHz

LW/MW/SW 455 kHz FM 10.7 MHz 4-band superheterodyne system LW/MW ferrite core bar antenna SW/FM telescopic antenna FM EXT. antenna

SHARP CORPORATION OSAKA, JAPAN

Page 2

NAMES OF PARTS

Figure 1

Page 3

FRONT CABINET REMOVAL (Refer to Figures 2 and 3) 1. Pull out the power cord plug or adaptor plug from the unit. 2. Take out the cassette tape from the cassette holder. 3. Remove eight (8) screws retaining the front cabinet. 4. Open the battery compartment cover and remove one (1) screw retaining the front cabinet. (GF-9191E only). 5. Genthy pull out the front cabinet and disconnect four (4) tips (Speaker) connected to the main P.W. board.
B OPERATION PANEL REMOVAL (Refer to Figure 3) 1. Remove the front cabinet as described in front cabinet
- Remove the front cabinet as described in front cabinet removal; Remove seven (7) knobs (RECORD LEVEL, BASS, TRE-BLE, VOLUME and FADER). Gently lift up the operation panel from the back cabinet.

[C] DIAL SCALE PLATE REMOVAL (Refer to Figure 3) 1. Remove the operation panel as described in operation panel removal. 2. Remove four (4) screws retaining the dial scale plate. 3. Gently pull out the dial scale plate from the chassis.

D MECHANISM BLOCK REMOVAL (Refer to Figure 4) . Remove the dial scale plate as described in dial scale plate

Disconnect the tip (Muting) and two (2) sockets (SO501,
SOS02) connected to the main P.W. board and the motor P.W. board. Remove four (4) screws retaining the mechanism block.
E PHONO JACK PLATE REMOVAL (Refer to Figure 5)
E PHOND JACK PLATE REMOVAL (Refer to Figure 5) 1. Remove the mechanism block as described in mechanism block removal. Remove two (2) screws retaining the phono jack plate. Gently pull out the phono jack plate from the back cabinet.

F CHASSIS (P.W.B.) REMOVAL (Refer to Figure 5) 1. Remove the phono jack plate as described in phono jack

Kemove the phonon jack plate as described in phonon jack plate removal. Remove TUNING knob. Disconnect four (4) tips (Antenna) and two (2) tips (DC supply) connected to the main P.W. board. Remove seven (7) screws retaining the chassis (P.W.B.). Gently pull out the chassis (P.W.B.) from the back cabinet.

Figure 5

VOLTAGE SELECTION

Before operating the unit on mains, check the pre-set voltage. If the voltage is different from your local voltage, adjust the voltage as follows: Rotate the plug of the voltage selector by using a screwdriver so that your local voltage can be seen (Refer to Figure 6)

DIAL CORD STRINGING

Page 4

DESCRIPTION OF ARES

APSS is the abbreviation of Automatic Program Search APSS is the abbreviation of Automatic Program Search System that permits advancing the tape past an unwanted selection to the beginning of the next program automati-cally with one push of a key. In this machine, the APSS in the reverse direction is also realized besides that in the forward play. That is to say, this unit is equipped FWD. APSS key ( ◀ ) and REV.APSS key ( ► ). In playback

mode when the FWD APSS key is depressed the tane

When the FWD.-APSS key is depressed in playback mode of the tape, the pinch roller is cleared from the flywheel

(Refer to Figure 9) The current fed to the multi-vibration circuit actu

2 MUTING CIRCUIT

SW 502

MUTING CIRCUIT The current fed to the muting circuit turns "ON" the Q112 and attenuates the signal from head to hold back the

R501 $

Q501,502

2SC458(D)

(3) APSS DETECTION CIRCUIT (Refer to Figures 10, 11 and 12) The surrent fed to the APSS detection sizewit drives the

tape, the potential, even if amplified by the equalizer amp (Q101 to Q104) and APSS pre-amp (IC701), becomes lower than VBE of Q701, which, therefore, is turned "OFF", and the electric charge of C706 (determined by the value of R706 and C706) is discharged at the time constant. When the potential of C706 is discharged to be-below VBE of Q702, the Q702 is turned "OFF" and the Q703 is activated. Therefore, the collector potential of Q703 becomes zero (0) volt and, consequently, the +15 volt voltage passes through the R711, allowing a discharge current, the potential of the Q704 requerements.

Figure 10 EQ AMP.

rward/Cue key ______ Revind/Review ker Pause key ______ Eject key vard APSS key ______ Reverse APSS key Figure 8 FUNCTION KEY LAYOUT D503 --------------------------------------R502 15247 SW503 R503 R504 R502 C502 33/25V R505

0 OFF

SW 504

APSS INDICATOR

Figure 9 APSS INDICATOR CIRCUIT

Downloaded from www.Manualslib.com manuals search engine

Page 5

Accordingly, the potential of the C707 is permitted to be stabilized from zero (0) volt to +15 volts. When the potential exceeds VBE, the O704 is turned "OFF". Then the O704 is turned "ON", and +B is supplied to the base of 0705 through the R712, turning "ON" the 0705. Then, an end of the plunger is grounded and +15V is applied to the plunger, which, in turn, is actuated. When the O704 is turned "OFF", the O705 is also turned "OFF". cutting off the potential to the plunger. When the plunger is put in action, the APSS lockplate is stretched out to release the FWD-APSS key. Consequently, the FWD-APSS switch (SW503) is turned "OFF" and the pinch roller is pressed hard against the flywheel shaft. Moreover, the fastforwarding gear is disengaged from the gear of the takeup turntable, setting the unit in normal playback mode again. As the FWD-APSS switch (SW503) is turned "OFF", the light emitting diode of D505 stops flickering and the APSS limiter circuit is made inactive. Further, the muting circuit of Q112 also stops its function.

In the meantime, when the REV-APSS key is depressed the fast-forwarding gear meshes with the gear of supply turntable and the REV-APSS switch (SW502) is turned "ON" to set the tape in rewind mode, permitting the light emitting diode of D504 to flocker. The successive function is just as in the case of FWD-APSS behavior. This ends the explanation of the APSS performance.

Note However, that the APSS may malfunction when either one of following recordings is played back, but, remember, this is not a trouble.
- 1. A prolonged portion of pianissimo in music.
2. A blank portion in the midst of music (more than 3 seconds when measured in playback).
- * In cases 1 & 2 the FWD-APSS or REV-APSS key, if depressed, resets itself and regular playback mode is resumed.
3. A too short interval between programs (about 1 second when measured in playback).
4. A noisy hum or buzz recorded in a blank portion.
- * In cases 3 & 4 the condition doesn't allow the APSS circuit to work easily, and the blank portion couldn't be detected.
5. FWD-APSS key depressed within 10 seconds (as measured in playback) from the end of a preceding selection.
6. REV-APSS key depressed within 10 seconds (as measured in playback) from the beginning of a selection.
- * In cases 5 & 6 the tape runs 10 or 30 times as fast as in playback mode if the FWD-APSS or REV-APSS key is depressed, therefore the tape skips a blank portion while the key is being depressed.

Figure 11 APSS DETECTION CIRCUIT

Figure 12 APSS MOVEMENT PRINCIPLE

Page 6

FLYWHEEL THRUST CLEARANCE ADJUSTMENT (Refer to Figure 13)

1. Slowly rotate the flywheel thrust clearance adjusting screw clockwise until there will be no thrust clearance.
2. Next, rotate the thrust clearance adjusting screw about 1/4 of its full turn counter clockwise. (Since 1 pitch of the adjusting screw refers to 0.8 mm, the thrust clearance thus created becomes 0.1 mm to 0.3 mm.)

Figure 13

(Refer to Figure 14)

1. Set the unit in PLAY mode.
Push the point (A) with a tension gauge (0 gr. to 500 gr.) to make the pinch roller apart from the flywheel shaft. Then, check that the tension gauge will read 300 gr. to 400 gr. when the pinch roller stops to rotate.
3. As a result of the check in the step 2 above, if the reading is found outside the range of 300 gr. to 400 gr., adjust the pressure spring of pinch roller by bending it or replace.

Figure 14

■ OPERATION CHECK OF FWD-APSS AND REV-APSS MECHANISMS

(Refer to Figures 40 and 41, Pages 31 and 32) Under PLAY mode, slowly push the FWD-APSS key or REV-APSS key to make sure that the pinch roller (74) and the take-up idler (16) come off respectively from the flywheel shaft and the take-up turntable (65), and simultaneously the sub-chassis (09) moves 1 mm to 1.5 mm, and further that thereafter, the roller assembly (73) is pressed against the take-up turntable (65) or the supply turntable (66). Moreover, when the FWD-APSS key or REV-APSS key is released by pushing the FF (CUE) key or the REWIND (REVIEW) key, make ascertain that the sub-chassis (09) is reset and the unit gets in PLAY mode.

Page 7

TOROUS MEASUREMENT AT PLAY OF AND REWIND MODES
TORQUE MEASUREMENT AT PLAY, FF AND REWIND (Refer to Figure 15) 1. Mount a torque measuring reel on the turntable (that is, it is placed on the take-up turntable at PLAY/REWIND mode while on the supply turntable at REWIND mode). 2. Then gradually release the tension gauge and read it when the rotational speed of the turntable becomes almost constant. 2. More turned torque at each mode should be as tabulated
constant. 3. Measured torques at each mode should be as tabulated
Measured torques at each note and the below. Note: When the take-up turntable is stopped at PLAY mode, there should be no slip between the take-up turntable and take-up slip roller and/or between the drive belt and take-up slip roller.

Figure 15

GAP ADJUSTMENT BETWEEN MOTOR SWITCH AND BRAKE LEVER
IGAP ADJUSTMENT BETWEEN MOTOR SWITCH AND B (Refer to Figure 16) 1. Under each of PLAY, FF, and REWIND modes, make ascertain that the motor switch (SW501) is turned "ON"
without fail. 2. When the motor is in a stop, check that the gap (A) between the brake lever and the motor switch (SW501) is 2 mm to
the brake lever and the second 3 mm. 3. If the steps 1 and 2 above are still insufficient for the adjustment, the gap can be adjusted by positionally changing the two soldered terminals (B) of motor switch (SW501) located at the motor PWB with a soldering iron.

OPERATION CHECK OF PAUSE MECHANISM

■OPERATION CHECK OF PAUSE MECHANISM (Refer to Figure 40, Page 31) Set the unit in PLAY mode by pushing the key given a mark ( ◀ ). Then slowly push the PAUSE key and make ascertain that the take-up tidler (16) and the pinch roller (74) come off respectively from the take-up turntable (65) and the flywheel shaft almost at the same time and check that each of the two gaps thus produced is about 0.5 mm.

Figure 16

ADJUSTMENT OF PLUNGER SETTING POSITION

ADJUSTMENT OF PLUNGER SETTING POSITION (Refer to Figure 17) Under FF mode, loosen the plunger retaining screw, hold up the part (a) of the plunger by hand and while keeping the plunger in contact with the lock shaft, retighten the plunger retaining screw. After the step 1, make sure of the following. Check that each of the PLAY, FF (CUE), REWIND (REVIEW) keys can be locked smoothly. Check that the FVD-APSS key and REV-APSS key can be locked smoothly and they further be released when the plunger can start to operate smoothly when the STOP key is pushed to release the APSS keys.
when the STOP key is pushed to release the ArSS keys. 3 After the step 2 the adjustments are not yet sufficient.

Page 8

ELECTRICAL MEASUREMENT

This unit operaters on DC 15V. Check that the power supply is exactly 15V before measurement. Set the POWER switch (SW101F) to "TAPF" meeting
RECORD OSCILLATOR BIAS CURRENT AND BIAS FREQUENCY ADJUSTMENT (Refer to Figure 18) Connect the V.T.V.M. across the 100 ohm resistors (R115, R116). Place the unit in RECORD mode. S. As a result of the check in the step 5 above, if the reading is found outside the 53 ± 3 kHz, adjust the bias oscillation could (131)

Figure 18

ERASE CURRENT CHECK

ERASE CURRENT CHECK (Refer to Figure 19) 1. Connect the V.T.V.M. across the 1 ohm resistor (R303). 2. Place the unit in RECORD mode. 3. Make sure the erase current is 100 ± 20 mV.

RECORD AMPLIFIER SENSITIVITY CHECK (Refer to Figure 20) Connect the V.T.V.M. across the 100 ohm resistors (R115, R116). Short circuit the primary coil of the oscillation coil (L301) to stop bias oscillator.
- coll (L-301) to stop bias oscillator. Connect the signal generator to the EXT MIC jacks (J101-A, J101-C) and apply signal (1000 Hz, -78 dB) to the unit.

4 Place the unit in RECORD mode.

Place the unit in RECORD mode. If the record amplifier sensitivity is normal, the reading on V.T.V.M. should be approximately 1.25 mV.

Figure 20

PLAYBACK AMPLIFIER SENSITIVITY CHECK (Refer to Figure 21) 1. Connect load resistor (40hm) to the EXT. SP sockets (SO102, SO103) and further connect the V.T.V.M. thereto. connect the signal generator in series of the REC/PB head and apply signal (1000 Hz, -80 dB) to the unit

Figure 21

Place the unit in PLAYBACK mode. If the playback amplifier sensitivity is normal, the reading on the V.T.V.M. should be approximately

Page 9

PHONO AMPLIFIER SENSITIVITY CHECK (Refer to Figure 22) Connect load resistor (40hm) to the FXT SP concerns.

thereto. 2. Connect the signal generator to the phono jacks (J103-A, J103-B) and apply signal (1000 Hz, -54 dB) to the unit.

Place the unit in PHONO mode. If the phono amplifier sensitivity is normal, the reading on the V.T.V.M. should be approximately 2.8 V

SWING ADJUSTMENT OF VU METER (Refer to Figures 20 and 23) Apply signal (1 kHz, -60 dB) to the EXT. MIC jacks (1101-A, 1101-C) Adjust the record volume controls (R147, R148) so that the V.T.V.M. reads 3.5 mV. Rotate the semi-variable resistors (R187, R188) to adjust so that each of the two VU meters (ME101, ME102) indicates around "0" VU and swings to the same extent in right and left of the position "0" VU.

Figure 23

RECORD/PLAYBACK HEAD AZIMUTH ADJUSTMEN (Refer to Figure 24.) Connect load resistor (40hm) to the EXT. SP sockets (S0102, S0103) and connect outputs of both the right and left channels to the vertical and horizontal right and left channels to the vertical and horizontal input terminals of oscilloscope. 2. Insert the test tape (MTT-114, 10 kHz, -10 dB Recorded).
Recorded). 3. Place the unit in PLAYBACK mode. 4. Adjust the head azimuth adjusting screw so that Lissajou's waveform attains the maximum and the

Page 10

GENERAL ALIGNMENT INSTRUCTION

Should it become necessary at any time to check the alignment of this receiver, proceed as follows; 3. Use a non-metallic alignment tool. 1. Set the volume control (R227, R228) to maximum. 4. Repeat adjustments to insure good results. 2. Attenuate the signals from the generator enough to switch (SW101F) to "ON" position.

THE INSTRUCTION OF FREQUENCY ADJUSTMENT

In order to comply with FTZ rule: Nr. 358/1970, please fix the low end of dial frequency (87.5MHz) and the high end of dial frequency (107.9MHz) on FM band, by adjust-

AM ALIGNMENT CHART

			SIGNAL	SENERATOR	RE	CEIVER
STEP	BAND	TEST STAGE	CONNECTION TO RECEIVER	INPUT SIGNAL FREQUENCY	DIAL SETTING	REMARKS	ADJUSTMENT
1	MW	IF	Refer to Figure 25	Exactly 455 kHz. (400 Hz, 30%, AM modulated)	High end of dial. (minimum capa- city)	Adjust for maximum output.	Adjust the AM IF transformers (T3) (T4)
2	мw	Band	Refer to Figure 25	Exactly 510 kHz. (400 Hz, 30%, AM modulated)	Low end of dial. (maximum capa- city).	Adjust for maximum output.	Adjust the MW oscillation coil (L9).
3	MW	Coverage	Same as step 2.	Exactly 1650 kHz. (400 Hz, 30%, AM modulated)	High end of dial. (minimum capa- city).	Same as step 2.	Adjust the MW oscillation trimmer (TC7).
4	MW	17 J. J.	Same as step 2.	Exactly 600 kHz. (400 Hz, 30%, AM modulated)	600 kHz.	Same as step 2.	Adjust the MW antenna coil (L7) (See Note A)
5	MW	Tracking	Same as step 2.	Exactly 1400 kHz. (400 Hz, 30%, AM modulated)	1400 kHz.	Same as step 2.	Adjust the MW antenna trimmer (TC4). (See Note A)
6	MW		Repeat steps 2, 3, 4, and 5	until no further improven	ent can be made.
7	LW		Same as step 2.	Exactly 145 kHz. (400 Hz, 30%, AM modulated)	Low end of dial. (maximum capa- city)	Same as step 2.	Adjust the LW oscillation coil (L10).
8	LW	Coverage	Same as step 2.	Exactly 295 kHz. (400 Hz, 30%, AM modulated)	High end of dial. (minimum capa- city)	Same as step 2.	Adjust the LW oscillation trimmer (TC8).
9	LW	Tracking	Same as step 2.	Exactly 160 kHz. (400 Hz, 30%, AM modulated)	160 kHz.	Same as step 2.	Adjust the LW antenna coil (L7).
10	LW	ITACKING	Same as step 2.	Exactly 260 kHz. (400 Hz, 30%, AM modulated)	260 kHz.	Same as step 2.	Adjust the LW antenna trimmer (TC5).
11	LW		Repeat steps 7, 8, 9 and 10	until no further improven	ient can be made.
12	sw	Band	Refer to Figure 26	Exactly 5.85 MHz (400 Hz, 30%, AM modulated)	Low end of dial. (maximum capa- city)	Same as step 2.	Adjust the SW oscillation coil (L8).
13	sw	Coverage	Same as step 12.	Exactly 18.5 MHz. (400 Hz, 30%, AM modulated)	High end of dial. (minimum capa- city)	Same as step 2.	Adjust the SW oscillation trimmer (TC6).

Adjust the SW antenna trimmer (TC2) 16 SW

Exactly 6.5 MHz. (400 Hz. 30%, AM

Note A) Check the alignment of the receiver antenna coil by bringing a piece of ferrite (such as a coil slug) near the antenna loop stick, then a piece of brass. If ferrite increases output, loop requires more inductance. If brass increases

output, loop requires less inductance. Change loop in-ductance by sliding the bobbin toward the center of ferrite core to increase inductance, or away to decrease inductance.

Figure 26 SW RF ALIGNMENT EQUIPMENT CONNECTION

Page 11

FM ALIGNMENT CHART

(Refer to Figure 33)

		SIGNAL G	ENERATOR	RECEIV	/ER
STEP	TEST STAGE	CONNECTION TO RECEIVER	INPUT SIGNAL FREQUENCY	DIAL SETTING	REMARKS	ADJUSTMENT
1	IF	Refer to Figure 27	Exactly 10.7 MHz. (400 Hz, 30%, FM modulated)	High end of dial. (minimum capacity)	Adjust for maximum output.	Adjust the FM IF transformers 1. (T1) 2. (T2) (See Note B)
2	Band	Refer to Figures 28 and 32	Exactly 87.1 MHz (400 Hz, 30%, FM modulated)	Low end of dial. (maximum capacity)	Adjust for maximum output.	Adjust the FM oscillation coils (L 3, L 4).
3	Coverage	Same as step 2.	Exactly 108.5 MHz. (400 Hz, 30%, FM modulated)	High end of dial. (minimum capacity)	Same as step 2.	Adjust the FM oscillation trimmer (TC2).
4		Same as step 2.	Exactly 88 MHz. (400 Hz, 30%, FM modulated)	88 MHz	Same as step 2.	Adjust the FM RF coils (L1, L2).
5	Tracking	Same as step 2.	Exactly 108 MHz. (400 Hz, 30%, FM modulated)	108 MHz	Same as step 2.	Adjust the FM RF trimmer (TC1).
6		Repeat steps 2, 3, 4 and 5 v	intil no further improveme	nt can be made.

Figure 28 FM RF ALIGNMENT EQUIPMENT CONNECTION

Page 12

Note B (Refer to Figure 29)

There are 5 kinds of ceramic filters (CF101, CF102) available with this unit and they are given color indication as tabulated below to differentiate the central frequency from one to another among them. When using them, be sure to make the two of the same type a pair.

When other ceramic filters than the one (red) having the central frequency of 10.7 MHz are used, note that a marker (10.7 MHz) of FM sweep generator, if used, will be deviated -- therefore, adjust the generator by putting off the marker.

Figure 29

	SIGNAL GE	NERATOR	RE
STEP	CONNECTION TO RECEIVER	CONNECTION TO INPUT SIGNAL RECEIVER FREQUENCY		INPUT SIGNAL FREQUENCY DIAL SETTING		REMARKS	ADJUSTMENT
1	Refer to Figures 30 and 32	Exactly 98 MHz (54 dB) un modulated.	98 MHz	Adjust for 19 ± 0.1 kHz.	Adjust the semi-variable resister (R34)

Figure 30 FM MPX ALIGNMENT EQUIPMENT CONNECTION

Page 13

	SIGNAL GE	NERATOR	RE	CEIVER
STEP	CONNECTION TO RECEIVER	INPUT SIGNAL FREQUENCY	DIAL SETTING	REMARKS	ADJUSTMENT
1	Refer to Figures 31 and 32	Exactly 98 MHz (20 dB) (19 kHz, 10%, FM modulated)	98 MHz	Adjust for the indicator starts lighting.	Adjust the semi-variable resister (R22)

Page 14

Page 15

Figure 35 VOLTAGE OF IC AND TRANSISTOR

Page 16

Figure 36 WIRING SIDE OF P.W. BOARD

Page 17

Figure 37 WIRING SIDE OF P.W. BOARD

Page 18

Page 19

igure 41 MECHANISM EXPLODED BOTTOM VIEW

Page 20

Page 21

Page 22

REPLACEMENT PARTS LIST

To have y	"HOW TO OR	DER R	EPLA	CEMENT PARTS"	allouing informations
To have y	your order filled promptly ar	1d corr	بالدمم	alassa fumish tha f	allouring informations
	1 MODEL N		ecuy,	please furnish the h	showing informations.
	I. MODEL NU	JMBER		2. REF. NO.
	3 PART NO			4 DESCRIPTION	1
	5. TART NO.			4. DESCRIPTION
			055
PART NO.	DESCRIPTION	CODE	NO.	PART NO.	DESCRIPTION
INTEGRA	FED CIRCUITS			D	IODES
RH-IX1083AFZZ	FM IF Amp. and Detector	AM	D1	VHD1S2473//-1	Protector (1S2473)
RH-IX1082AFZZ	PLL FM Stereo Demodulator	AM	D2	VHD1S2473//-1	Protector (1S2473)
RH-IX1084AFZZ	Phono Equalizer Amp.	AH	D3	VHC1S2688-B1F	FM AFC (1S2688 (B)
RH-IX1020AFZZ	Audio Power Amp.	AN	D4	VHD1N34A///-1	Tuning Meter Bias (1N34A)
RH-IX1020AFZZ	Audio Power Amp.	AN	D5	VHD1S2473//-1	Tuning Meter Bias (1S2473)
RH-IX0408AGZZ	APSS Amp.	AM	D6	VHD1N34A///-1	AM Overload (1N34A)
	101070.00		D7	VHD1N34A///-1	AM Detector (1N34A)
TRAM	ISISTORS		D8	VHD1N34A///-1	AM Tuning Detector (1N34
1000010000/	EN DE L CARGONAL C		DA	vHEWZ-075//-1	Zener, Voltage Regulator
v 525C1923O/-1	FM KF Amp. (2SC1923 (0))	AC	DIA	1000100400001	(wZ-0/5)
V525C1923R/-1	FM Mixer (2SC1923 (B))	AC	D10	VHD1S2473//-1	Protector (1S2473)
V 323C1923R/-1	EM IE Ama (25C1923 (R))	AU	DII	vnrGLJAKI//-1	(CL2API)
VS25C380-0/-1	AM Minute (26C280 (0))	AF	D101	VHD1624//// 1	(GLSARI)
VS25C380-0/-1	AM Mixer (25C380 (0))	AP	D101	VHD1534////-1	ALC (1834BL)
VS2SC380-R/-1	AM UE Ama (26C280 (R))	AD	D102	VUD1534////1	ALC (1834BL)
V$25C380 V/ 1	AM IF Amp. (25C380 (0))	AP	D103	VHD1534//// 1	ALC (1534BL)
V$25C1682CP-1	Fauslizer Amp. (28C1682 CP)		D104	VHD1N34A///-1	VU Matar (1N24A)
V$25C1682GR-1	Equalizer Amp. (2SC1682 (CP))		D105	VHD1N34A///-1	VU Meter (1N34A)
V$25C732.G/-1	Equalizer Amp. (2SC1002 (DV)	AD	D107	VHD1N344///-1	ALC (IN34A)
V$25C732-G/-1	Equalizer Amp. (2SC732 GR)	AD	D108	VHD1$2473//-1	Muting (182473)
VS2SC732RI /1F	Record Amn (2SC732 (BL))	AD	D501	RH-DX10064FZZ	Protector (10F1)
VS2SC732BL/1F	Record Amp. (2SC732 (BL))	AD	D502	VHD1S2473//-1	APSS Indicator Switching
VS2SC373-G/-1	Record Amp (2SC373 G)	AC			(152473)
VS2SC373-G/-1	Record Amp (2SC373 G)	AC	D503	VHD1S2473//-1	APSS Indicator Switching
VS2SC1583G-1F	ALC Amp. (2SC1583 (G))	AF			(1$2473)
VS2SC373-G/-1	ALC Amp. (2SC373 (G))	AC	D504	VHPGL31AR8/-1	LED, APSS Indicator
VS2SC1740R/-1	Meter Amp. (2SC1740 (R))	AC			(GL31AR8)
VS2SC1740R/-1	Meter Amp. (2SC1740 (R))	AC	D505	VHPGL31AR8/-1	LED, APSS Indicator
VS2SC2021-R-1	Phase Shifter (2SC2021 R)	AC			(GL31AR8)
VS2SC2021-R-1	Phase Shifter (2SC2021 ®)	AC	D701	VHD1S2473//-1	APSS Muting (1S2473)
VS2SD467-C/-1	Ripple Filter (2SD467 (C))	AD	D702	VHD1S2473//-1	APSS Muting (1S2473)
VS2SC458-D/-1	Record Bias Oscillator	AC	D901	RH-DX1006AFZZ	Rectifier (10E1)
	(2SC458 (D))		D902	RH-DX1006AFZZ	Rectifier (10E1)
VS2SC458-D/-1	Record Bias Oscillator	AC	D903	RH-DX1006AFZZ	Rectifier (10E1)
	(2SC458 (D))		D904	RH-DX1006AFZZ	Rectifier (10E1)
VS2SC1682GR-1	MIC Amp. (2SC1682 (GR))	AD		-
VS2SC732-G/-1	MIC Amp. (2SC732 (GR))	AD		c	COILS
v 525C458-D/-1	Ar55 Indicator Switching (2SC458 ①)	AC	LI	RCILR0112AF77	FM RF
VS2SC458-D/-1	APSS Indicator Swithcing	AC	L2	RCILR0112AFZZ	FMRF
VEDELARS V/ 1	(25C450 (D))		L.3	KCILR0089AFZZ	FM Oscillator
V 525A495-1/-1	APSS Switching (2SA495 (2))	AD	1.4	RCILR0089AFZZ	FM Uscillator
v 525C5/2-Y/-1	Arss Level Comparison	AC	1.5	RCILC0030AFZZ	FM IF ITap
V$2$C372.V/-1	APSS Loval Composison	10	17	RCILAU233AFZZ RCILAU408AF77	Sw Antenna MW/I W Antonno
v 323C372-1/-1	(25C372 (V))	AC	1.8	RCH R0300AFZZ	MW/LW Antenna SW Orgillator
V$2$4495.V/-1	APSS Plungar Drive	AD	19	RCILB0309AFZZ RCII R0389AF77	MW Oscillator
· 020//470-1/-1	(25A495 (V))	AD	110	RCILB0363AFZZ	I W Oscillator
V$2$D468-C/-1	APSS Plunger Driver	AF	111	RCILCO066AF77	Choke
. 5250400-07-1	(2SD468 (2))	AL.	112	RCIL E00144C-77	Filter
	(202700 ())		L101	RCILB0376AFZZ	Bias Sten-un
			L102	RCILB0376AFZZ	Bias Step-up
	INTEGRA: RH-1X1083AFZZ RH-1X1084AFZZ RH-1X1084AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AFZZ RH-1X1020AF	INTEGRATED CIRCUITS RIFAX1083AFZZ RIFAX1082AFZZ RIFAX10847CZ MIF Arm, and Detestor, FMASUBATZZ RIFAX1020AFZZ RIFAX1083AFZZ RIFAX1020AFZZ MIF Arm, and Detestor, FMASUBATZZ RIFAX102AFZZ MIF Arm, and Detestor, FMASUBATZZ RIFAX1084AFZZ MIF Arm, and Detestor, Missource RIFAX102AFZZ MIF Arm, and Detestor, Missource RIFAX102AFZZ Missource RIFAX102AFZ Missource RIFAX102AFZZ Missource RIFAX102AFZ Missource RIFAX104AFZ Missource	INTEGRATED CIRCUITS AM RH-X1083AFZZ RH-HX1082AFZZ RH-HX1082AFZZ HX1082AFZZ RH-10200AFZZ Addis Power Amp. AM RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ Addis Power Amp. AM RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X1020AFZZ RH-X102	INTEGRATED CIRCUITS Am RH-KX1083AF2Z FM IF Amp. and Detector RH-KX1082AF2Z FM IF Amp. and Detector RH-KX1084AF2Z Am D3 RH-KX1082AF2Z Phone Examp. Am D3 RH-KX1082AF2Z Phone Examp. Am D3 RH-KX1084AF2Z Audio Power Amp. Am D4 RH-KX1084AF2Z Audio Power Amp. Am D5 RH-KX1020AF2Z Audio Power Amp. Am D6 VS2SC19230/-1 FM RF Amp. (2SC1923 () AC D10 VS2SC19230/-1 FM Mixer (2SC1923 () AC D10 VS2SC19230/-1 FM Gramp. (2SC380 () AC D10 VS2SC19230/-1 FM Gramp. (2SC380 () AD D10 VS2SC19230/-1 AM Mocillator (2SC380 () AD D10 VS2SC1930A/-1 AM FAmp. (2SC330 () AD D10 VS2SC1923C/-1 Equalizer Amp. (2SC132 () AD D10 VS2SC1923C/-1 Equalizer Amp. (2SC132 () AD D10 VS2SC1923C/-1 Record Amp. (2SC132 (*) AD	INTEGRATED CIRCUITS D RH-KU083AF2Z FM IF Amp. and Detector. RH-KU082AF2Z AM IF Amp. and Detector. RH-KU082AF2Z AM IF Amp. and Detector. AM D2 MIDIS2473/i-1 RH-KU082AF2Z Photo Faure Amp. Amb D3 AM D2 VHDIS2473/i-1 RH-KU084AF2Z Photo Faure Amp. Amb D4 ND D4 VHDIS2473/i-1 RH-KU084AF2Z Audio Power Amp. ArSS Amp. AM D4 VHDIN34A/i/-1 RH-KU024AF2Z Audio Power Amp. ArSS Amp. AM D6 VHDIN34A/i/-1 RH-KU024F2 Audio Power Amp. AM D6 D10 VHDIN34A/i/-1 VS2SC19230/-1 FM FF Amp. (2SC1923 ©) C D10 VHDIS3473/i-1 VS2SC19230/-1 FM FF Amp. (2SC192 ©) C D10 VHDIS3473/i-1 VS2SC19230/-1 FM FF Amp. (2SC180 ©) AF D101 VHDIS3473/i-1 VS2SC19230/-1 FM FM mp. (2SC180 ©) AF D103 VHDIS3473/i-1 VS2SC1800/-1 AM FF Amp. (2SC180 ©) AD D106 VHDIS3473/i-1 VS2SC1920/-1 FM FM mp. (2SC130 ©) AD D106 VHDIS3473/i-1 VS2SC14

Page 23

PARTS LIST

REF. NO.	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE	REF: NO.	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE
L301	RCILB0086AGZZ	Bias Oscillator	AE	C4	VCKZPU1HF102Z	.001MFD, 50V, +80 -20%,	АА	C45	VCEAAU1CW477Y	470MFD, 16V, +50 -10%, Electrolytic	AD	C90	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%, Ceramic	AA
L501	RCILF0014AGZZ	Noise Suppressor	AC	C5	VCCSPU1HL5R0C	5PF, 50V, ±.25PF, Ceramic	AA	C46	VCCSPU1HL181J	180PF, 50V, ±5%, Ceramic	AA	C91	VCQYKU1HM103M	.01MFD, 50V, ±20%, Mylar	AB
	TRANS	FORMERS		C6	VCCSPU1HL220J	22PF, 50V, ±5%, Ceramic	AA	C47	VCKYPU1HB223M	.022MFD, 50V, ±20%, Ceramic	AA	C92	VCKZPU1HF103Z	.01MFD, 50V, +80 -20%,	AA
				C7	VCKYPU1HB222M	.0022MFD, 50V, ±20%,	AA	C48	VCKZPU1HF103Z	.01MFD, 50V, +80 -20%,	AA	C93	VCEAAULAW107V	100MED 10V +50 -10%	AB
T1	RCILI0157AFZZ	FM IF	AE	60	WWW.WWWWWWWWWW	Ceramic		C49	VCEALULHW335M	3 3MED 50V +20%	AC	0,5	VCLAACIAWIO/I	Electrolytic
T2	RCILI0208AFZZ	FM IF	AD	68	VCKYPUTHB222M	Ceramic		(4)	VELALOTTIN 555M	Electrolytic		C94	VCEAAU1EW475A	4.7MFD, 25V, +75 -10%,	AB
T3 T4	RCILI0224AFZZ	AMIE	AD	C9	VCCSPU1HL5R0C	5PF, 50V, ±.25PF, Ceramic	AA	C50	VCQSMT1HS471J	470PF, 50V, ±5%, Styrol	AB			Electrolytic
T101	RTRNI0065AFZZ	Recording	AF	C10	VCCPU1HH1R0C	1PF (CH), 50V, ±.25PF,	AA	C51	VCQYKU1HM473M	.047MFD, 50V, ±20%, Mylar	AC	C95	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%,	AA
T102	RTRNI0065AFZZ	Recording	AF			Ceramic		C52	VCEALU1HW474M	.47MFD, 50V, ±20%, Electrolytic	AB	C96	VCOVKU1HM223K	022MFD, 50V, ±10%, Mylar	AB
T901	RTRNP0555AFZZ	Power (GF-9191H/HB)	AW	C11	VCCSPUTHL101J	100PF, 50V, ±5%, Ceramic	AA	C53	VCFALULHW224M	22MFD 50V ±20%	AB	C97	VCEALU1HW104M	.1MFD, 50V, ±20%,	AB
	\| RTRNP0565AFZZ	Power (GF-9191E)	**	012	VCK1FUIHB4/2M	Ceramic		0.55	CERECTION 221M	Electrolytic				Electrolytic
	FI	TERS		C13	VCCSPU1HL3R0C	3PF, 50V, ±.25PF, Ceramic	AA	C54	VCQYKU1HM103M	.01MFD, 50V, ±20%, Mylar	AB	C98	VCEAAU1AW107Y	100MFD, 10V, +50 -10%,	AB
				C14	VCKZPU1HF103Z	.01MFD, 50V, +80 -20%,	AA	C55	VCKYPU1HB681K	680PF, 50V, ±10%, Ceramic	AA	C00	VCEA AUTOWIDEN	Electrolytic	AB
CF101	RFILF0009AFZZ	Ceramic, 10.7MHz, FM IF	AE			Ceramic		C56	VCKYPU1HB681K	680PF, 50V, ±10%, Ceramic	AA	(99	VCEAAUICWI001	Flectrolytic	~
CF102	RFILF0009AFZZ	Ceramic, 10.7MHz, FM IF	AE	C16	VCKYPU1HB222M	.0022MFD, 50V, ±20%,	AA	C58	VCCSPU1HL331J	330PF, 50V, ±5%, Ceramic	AB	C100	VCEALU1HW105M	1MFD, 50V, ±20%,	AD
	PACKAGE			C17	VCEAAU1CW476Y	47MFD, 16V, +50 -10%,	AC	C59	VCCSPU1HL181J	180PF, 50V, ±5%, Ceramic	AA			Electrolytic
						Electrolytic		C60	VCEAAU1EW475A	4.7MFD, 25V, +75 -10%,	AB	C101	VCEALU1EC475M	4.7MFD, 25V, ±20%,	AB
M1	RFILF0056AFZZ	B.P.F., FM Antenna	AE	C18	VCCUPU1HJ150J	15PF (UJ), 50V, ±5%,	AB	60	VCEAAU EW475A	Electrolytic 4 7MED 25V +75 10%	AB	C102	VCFALULEC475M	4 7MED 25V ±20%	AB
M2	RMPTA0104AFZZ	Low Pass Filter	AD	C10	VCCCBULUHEROC	Ceramic CPE (CH) SOV + 25PE	44	01	VCEAAUIEW473A	Electrolytic		0102	V CEREOTECHIOM	Electrolytic
M3	RMPTA0104AFZZ	Low Pass Filter	AD	019	VCCCPUINH6K0C	Ceramic	лл	C62	VCKZPU1HF103Z	.01MFD, 50V, +80 -20%,	AA	C103	VCEAAU1AW476Y	47MFD, 10V, +50 -10%,	AB
	CONT	ROLS		C21	VCCSPU1HH180J	18PF (SH), 50V, ±5%,	**			Ceramic				Electrolytic
			1			Ceramic		C63	VCCSPU1HL3R0C	3PF, 50V, ±.25PF, Ceramic	AA	C104	VCEAAU1AW476Y	47MFD, 10V, +50 -10%,	AB
VC1,		Variable Capacitor,		C22	VCKZPU1HF103Z	.01MFD, 50V, +80 -20%,	AA	C65	VCCSPUTHL390J	3300PE 50V ±5% Ceramic 3300PE 50V ±5% Sturol	AA	C105	VCCSPU1HL271J	270PF, 50V, ±5%, Ceramic	AB
VC2,		Tuning with Trimmers		C23	VCEALU1HW474M	.47MFD, 50V, ±20%,	AB	C67	VCCSPU1HL271J	270PF, 50V, ±5%, Ceramic	AB	C106	VCCSPU1HL271J	270PF, 50V, ±5%, Ceramic	AB
VC4		T22: FM Oscillator Trimmer	10			Electrolytic		C69	VCCSPU1HL221J	220PF, 50V, ±5%, Ceramic	AB	C107	VCQYKU1HM273K	.027MFD, 50V, ±10%, Mylar	AB
TC1,	RVC-R0057AFZZ	TC4: MW Antenna Trimmer	AQ	C24	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%,	AA	C70	VCKZPU1HF102Z	.001MFD, 50V, +80 -20%,	AA	C108	VCQYKU1HM273K	.027MFD, 50V, ±10%, Mylar	AB
TC2,		TC7: MW Oscillator trimmer		0.00	WORMPHILIP222M	Ceramic 022MED 50V ±20% Caramia		071	VCCCBUUUKBOC	Ceramic		C109	VCQYKUIHM822K	0082MFD, 50V, ±10%, Mylar	AB
TC4,				C25	VCK TPUTHB223M	.01MFD, 50V, +80 -20%,	AA	0/1	VCCCPUINISROC	Ceramic	~~	C111	VCEAAU1CW106Y	10MFD, 16V, +50 -10%,	AB
TC3		Trimmers.		0.00		Ceramic		C72	VCCCPU1HH220J	22PF (CH), 50V, ±5%, Ceramic	AA			Electrolytic
TC5	RTO-H2050AFZZ	TC3: SW Antenna Trimmer	AD	C27	VCKZPU1HF103Z	.01MFD, 50V, +80 -20%,	AA	C73	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%,	AA	C112	VCEAAU1CW106Y	10MFD, 16V, +50 -10%,	AB
		TC5: LW Antenna Trimmer		0.00	WORMPHILIP222M	Ceramic 022MED 50V ±20% Caramic		074	VCONKULUMIONK	Ceramic	AD	C113	RC-F75337AF1C	330MED, 16V, +50 -10%.	AC
TC6	RTO-H1007AFZZ	Trimmer, SW Oscillator	AC	C28 C29	VCCSPU1HL5R0C	5PF, 50V, ±25PF, Ceramic	AA	C74	VCQYKUIHM223M	022MFD, 50V, ±10%, Mylar	AB	0110	Re EESSoonin Te	Electrolytic
822	RVR-M01304F77	50K ohm (B). Muting Level	AC	C30	VCKZPU1HF103Z	.01MFD, 50V, +80 -20%,	AA	C76	VCQYKU1HM473M	.047MFD, 50V, ±20%, Mylar	AC	C114	VCEAAU1AW336Y	33MFD, 10V, +50 -10%,	AB
1122	KTR MOIDONI DD	Adjust				Ceramic		C77	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%,	AA	0116	VOP AL ULUW224M	Electrolytic	AD
R34	RVR-M0127AFZZ	10K ohm (B), PLL VCO Adjust	AC	C31	VCEAAU1HW105A	1MFD, 50V, +75 -10%,	AB	670	NEWARDULUDAAAM	Ceramic		CIIS	VCEALUIHW554M	Flectrolytic	AD
R139/	RVR-B0158AFZZ	20K ohm (B), Fader	AH	C32	VCOSMT1HS1511	150PF, 50V, ±5%, Styrol	AB	C/8	VCK IPUTHB225M	.022MFD, 50V, ±20%, Ceramic	AA	C116	VCEALU1HW334M	.33MFD, 50V, ±20%,	AB
R140) R147/)				C33	VCKZPU1HF103Z	.01MFD, 50V, +80 -20%,	AA	C79	VCKZPU1HF103Z	.01MFD, 50V, +80 -20%,	AA			Electrolytic
R148	RVR-Z0064AFZZ	50K ohm (A), Record Level	AM			Ceramic				Ceramic		C117	VCEALU1EC335M	3.3MFD, 25V, ±20%,	AB
R187	RVR-M0003SGZZ	5K ohm (B), Meter Sensitivity	AC	C34	VCCSPU1HL100F	10PF, 50V, ±1PF, Ceramic 47MED 16V +50 -10%		C80	VCCSPU1HL331J	330PF, 50V, ±5%, Ceramic	AB	C118	VCEALU1EC335M	3.3MED. 25V. ±20%.	AB
D100	PVP.M00038C77	Adjust SK ohm (B) Meter Sensitivty	AC	CSS	VCEAA01CW4701	Electrolytic		C81	VCKZPUTHF223Z	.022MFD, 50V, +80 – 20%, Ceramic	AA			Electrolytic
R100	KVK-W00033022	Adjust		C36	VCKYPU1HB223M	.022MFD, 50V, ±20%, Ceramic	AA	C82	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%,	AA	C119	VCQYKU1HM102K	.001MFD, 50V, ±10%, Mylar	AB
R195/]	DVD 000624E77	100K ohm (A) Trable	AH	C37	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%,	AA			Ceramic		C120	VCQYKU1HM102K	.001MFD, 50V, ±10%, Mylar	AB
R196 \|	KVR-F0003AF22	TOOK OMM (A), THEOR		C38	VCKZPU1HE223Z	Ceramic 022MFD, 50V, +80 -20%.	AA	C83	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%,	AA	C121	VCCSPU1HL271J	270PF, 50V, ±5%, Ceramic 270PF, 50V, ±5%, Ceramic	AB
R201/	RVR-P0063AFZZ	100K ohm (A), Bass	AH	0.50	VCREI OTTIL 2232	Ceramic		C94	VCV7BUI HE2227	Ceramic 0022MED 50V +80 -20%		C123	VCEAAU1CW106Y	10MFD, 16V, +50 - 10%,	AB
R202)				C39	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%,	AA	0.04	VCKLF0THF2222	Ceramic	aa			Electrolytic
R228	RVR-Z0063AFZZ	20K onm (B), volume	Am	010	VOCEDUALIDADA	Ceramic 220BE 50V ±5% Commin	AD	C85	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%,	AA	C124	VCEAAU1CW106Y	10MFD, 16V, +50 -10%,	AB
R301	RVR-M0126AFZZ	5K ohm (B), Bias Current Adjus	t AC	C40 C41	VCCSPUTHL221J VCEAAU1EW475A	4.7MFD, 25V, ±5%, Ceramic	AB			Ceramic		C125	VCEAAU1HW105A	1MFD, 50V, +75 -10%.	AB
R302	RVR-M0126AFZZ	5K ohm (B), Bias Current Adjus	t AC	0/1		Electrolytic		C86	VCKZPUTHF223Z	.022MFD, 50V, +80 - 20%, Ceramic	AA			Electrolytic
	CAD	ACITORS		C42	VCKZPU1HF103Z	.01MFD, 50V, +80 -20%,	AA	C87	VCKYPU1HB223M	.022MFD, 50V, ±20%, Ceramic	AA	C126	VCEAAU1HW105A	1MFD, 50V, +75 -10%,	AB
	CAF			642	VCOVEULIMIAN	Ceramic 01MED 50V ±20% Mular	AB	C88	VCEAAU1AW107Y	100MFD, 10V, +50 -10%,	AB	C127	VCCSPULLU 2211	Electrolytic	AP
C1	VCCSPU1HL100F	10PF, 50V, ±1PF, Ceramic	AA	C43	VCEAAU1EW335A	3.3MFD, 25V,+75 -10%,	AB	C92	VCK 7 DUI HE2227	Electrolytic		C127	VCCSPU1HL221J	220PF, 50V, ±5%, Ceramic	AB
C3	VCKZPU1HF102Z	.001MFD, 50V, +80 -20%, Ceramic	AA			Electrolytic		0.89	VCKZPUIHF223Z	.022mPD, 509, +80 - 20%, Ceramic	AA				1

**; Price will be quoted upon receipt of order 39

Page 24

REF. NO.	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE	REF. NO.
C129	VCEAAU1CW106Y	10MFD, 16V, +50 -10%,	AB	C169	VCQYKU1HM472M	.0047MFD, 50V, ±20%, Mylar	AB	C504	vo
C1 20	NORAAUICWINGY	Electrolytic	AR	C170	VCOVKU1HM102M	001MED 50V +20% Mylar	AB
CI 30	VCEAAUICW106Y	Flootrolutio	AB	C172	VCOVKU1HM102M	001MFD 50V ±20% Mylar	AB	C601,	VC
0121	VOLANIA	10MED 16V 160 100	AD	C172	VCOVEULIMIO2M	01MED 50V +10% Mylar	AD	C602
CIM	VCEAAUICW1001	TOMPD, 16V, +30 -10%,	AD	C174	VCOVKUIHMIO3K	01MED 50V +10% Mylar	AD	C603	VC
C1 22	VCEA AUTOWIOGY	10MED 16V +50 10%	AR	C175	VCOVKU1HM153K	015MED 50V ±10% Mylar	AB	C604	VC
CI 32	VCEAAUICWI06Y	Flootrolytic	AD	C175	VCQTKUIHM153K	015MFD, 50V, =10%, Mylar	AB	C605	vc
C122	VCOVVIIIIM2221	022MED 50V ±5% Mular	AC	C177	VCOVKU1HM683K	068MFD 50V ±10% Mylar	AC
C135	VCOVVIIIIM3333	033MED 50V ±5% Mylar	AC	C178	VCOYKU1HM683K	068MFD 50V ±10% Mylar	AC	C606	VC
C125	VCEAAUICW106V	10MED 16V +50 -10%	AB	C179	VCOYKU1HM473M	047MFD, 50V, ±20%, Mylar	AC
0155	VCEAROICWIGOI	Electrolytic		C180	VCOYKU1HM473M	.047MFD, 50V, ±20%, Mylar	AC	C607	VC
C136	VCEAAU1CW106V	10MED 16V +50 -10%	AB	C181	VCCSPU1HL151J	150PF, 50V, ±5%, Ceramic	AA
0150	VELANOICWIOOI	Flectrolytic		C182	VCCSPU1HL151J	150PF, 50V, ±5%, Ceramic	AA	C608	VC
C137	VCK7PU1HE2237	022MED 50V +80 -20%	44	C183	VCEAAU1HW105A	1MED, 50V, +75 -10%	AB
0157	VCKEIOIIII 2252	Ceramic				Electrolytic		C609	VC
C1 39	VCF7PU1UE1037	01MED 50V +80 - 20%		C184	VCFAAU1HW105A	1MED 50V +75 -10%	AB
C130	VCKLIUIIII 1052	Ceramic	- ma	0101		Electrolytic	au	C610	VC
C140	VCE A ALLI HWATS A	4 7MED 50V +75 10%	AB	C185	VCEALULHW104M	1MED 50V +20%	AB
0140	VCEAAOIII#4/JA	4./MFD, 30V, 4/3 -10%,	, no	0100	1 CEREBOTIN TO MA	Electrolytic	ab	C611	VC
C141	VCOVELLIMATIN	022MED 50V +20% Mylar	AB	C186	VCEAT111HW104M	IMED SOV ±20%	AD	C612	VC
C141	VCQYKUTHM223M	022MED 50V +100 00	AD	0100	VCEREOTHWI04M	Flactrolytic	AD	C613	VC
C142	VCKZPUTHF333P	.035MFD, 50V, +100 =0%,		C197	VCOVVIIIIIMERAV	OSSMED SOV +100 Mules	10
0143	THE ALL THE THE ALL	Lucio con taog	AD	C187	VCQTKUIIIM683K	068MFD, 50V, ±10%, Mylar	AC	C614	VC
C143	VCEALUIHWI04M	.IMFD, 50V, ±20%,	AD	C100	VCQTKUTHM063K	1006mrD, 50V, ±10%, mytar	AC
0144		Electrolytic	4.0	C189	VCEAAUICWI06Y	10MFD, 16V, +50 - 10%,	AB	C617	vo
C144	VCEALUIHW104M	.IMFD, 50V, ±20%,	AB	C100	VOEANULOWIGOV	Lettrolytic
0146		Electrolytic	4.0	C190	VCEAAUICWIU6Y	10MFD, 16V, +50 - 10%,	AB	C618	vo
C145	VCQYKUIHMI02M	.001MFD, 50V, ±20%, Mylar	AB	C102	VOONKUUNKOOK	Electrolytic
C146	VCQYKUIHMI02M	.001MFD, 50V, ±20%, Mylar	AB	C193	VCQYKUIIIM683K	.068MFD, 50V, ±10%, Mylar	AC	C619	vo
C147	VCEAAUIAW336Y	33MFD, 10V, +50 -10%,	AB	C194	VCQTKUTHM685K	.068MFD, 50V, ±10%, Mylar	AC
CI 40		Electrolytic		C195	VCQYKUTHM223M	.022MFD, 50V, ±20%, Mylar	AB	C620	V
C148	VCEAAUIAW336Y	33MPD, 10V, +50 -10%,	AB	C190	VCEAAUTEW10/Y	100MFD, 25V, +50 =10%,	AC
		Electrolytic	1.0	C107	VOPANUCOULOON	Electrolytic		C621	VC
C149	VCEAAUTAW22/Y	220MFD, 10V, +50 -10%,	AC	C197	VCEAAUICW108 Y	1000MFD, 16V, +50 -10%,	AE	C622	ve
~		Electrolytic	1.0			Electrolytic		C623	v
C150	VCEAAU1AW227Y	220MFD, 10V, +50 -10%,	AC	C201	VCQYKU1HM333K	.033MFD, 50V, ±10%, Mylar	AB	0025
		Electrolytic		C202	VCKZPUTHF103Z	.01MFD, 50V, +80 - 20%,	AA	C624	vo
CISI	VCCSPU1HL680J	68PF, 50V, ±5%, Ceramic	AA	~~~~		Ceramic		0001
C152	VCCSPU1HL680J	68PF, 50V, ±5%, Ceramic	AA	C203	VGKZPUTHF103Z	.01MFD, 50V, +80 - 20%,	AA	C625	vo
C153	VCEAAU1AW336Y	33MFD, 10V, +50 –10%,	AB			Ceramic		C626	ve
		Electrolytic		C301	VCQYKU1HM273K	.027MFD, 50V, ±10%, Mylar	AB	C627	v
C154	VCEAAU1AW336Y	33MFD, 10V, +50 –10%,	AB	C302	VCQYKUIHMI03M	.01MFD, 50V, ±20%, Mylar	AB	0027
		Electrolytic		C303	VCEAAUICW107Y	100MFD, 16V, +50 -10%,	AC	C701	vo
C155	VCQYKU1HM102J	.001MFD, 50V, ±5%, Mylar	AC			Electrolytic		0.01
C156	VCQYKU1HM102J	.001MFD, 50V, ±5%, Mylar	AC	C304	VCQYKUTHM103K	.01MFD, 50V, ±10%, Mylar	AB.	C702	VC
C157	VCQYKU1HM102J	.001MFD, 50V, ±5%, Mylar	AC	C305	VCQYKU1HM103K	.01MFD, 50V, ±10%, Mylar	AB	C702	v
C158	VCQYKU1HM102J	.001MFD, 50V, ±5%, Mylar	AC	C306	VCQYKU1HM473K	.047MFD, 50V, ±10%, Mylar	AC	0,05
C159	VCEAAU1HW105A	1MFD, 50V, +75 -10%,	AB	C307	VCQYKU1HM153M	.015MFD, 50V, ±20%, Mylar	AB	C704	vo
		Electrolytic		C308	VCQYKU1HM123K	.012MFD, 50V, ±10%, Mylar	AB	0704
C160	VCEAAU1AW107Y	100MFD, 10V, +50 -10%,	AB	C309	RC-EZS476AF1C	47MFD, 16V, +30 -10%,	**	C705	ve
		Electrolytic				Electrolytic		0705
C161	RC-EZS337AF1C	330MFD, 16V, +50 -10%,	AC	C401	VCQYKU1HM102M	.001MFD, 50V, ±20%, Mylar	AB	C706	vo
		Electrolytic		C402	VCEAAUIHWI05A	1MFD, 50V, +75 –10%,	AB	0.000
C162	RC-EZS337AF1C	330MFD, 16V, +50 10%,	AC			Electrolytic		C707	VC
		Electrolytic		C403	VCCSPU1HL271J	270PF, 50V, ±5%, Ceramic	AB	0,01
C163	VCEAAU1EW475A	4.7MFD, 25V, +75 -10%,	AB	C404	VCEAAU1AW336Y	33MFD, 10V, +50 -10%,	AB	C901	NC
		Electrolytic				Electrolytic		0001
C164	VCEAAU1EW475A	4.7MFD, 25V, +75 -10%,	AB	C405	VCEAAU1CW106Y	10MFD, 16V, +50 -10%,	AB	C903	VC
		Electrolytic				Electrolytic		0.002	ve
C165	VCCSPU1HL391J	390PF, 50V, ±5%, Ceramic	**	C501	VCEAAU1EW335A	3.3MFD, 25V, +75 -10%,	AB	C901	VC
C166	VCCSPU1HL391J	390PF, 50V, ±5%, Ceramic	**			Electrolytic		0.901	ve
C167	VCEAAU1HW105A	1MFD, 50V, +75 -10%,	AB	C502	VCEAAU1EW335A	3.3MFD, 25V, +75 -10%,	AB	C002	V
		Electrolytic				Electrolytic		0902	ve
C168	VCEAAU1HW105A	1MFD, 50V, +75 -10%,	AB	C503	VCEAAU1EW227Y	220MFD, 25V, +50 -10%,	AC	C003	ve
		Electrolytic				Electrolytic		0.903	ve

PARTS LIST

	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE
/lar /lar	AB AB	C504	VCKYPU1HB472M	.0047MFD, 50V, ±20%,	АА	C904	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%,	AA
ar	AB	0001		Celamic				Ceranne		l
ar	AB	C601,	VCEALU1HW104M	.1MFD, 50V, ±20%,	AB					l
r	AB	0.002		Electrolytic			в	ESISTORS		l
r	AB	C603	VCQYKU1HM222K	.0022MFD, 50V, ±10%, Mylar	AB	(Unless	otherwise specified resis	tors are 1/4W. ±5%. Carbon type.)		l
ar	AB	C604	VCQYKU1HM222K	.0022MFD, 50V, ±10%, Mylar	AB			···· ··· ·		l
ar	AB	C605	VCEALUIHW104M	.1MFD, 50V, ±20%,	AB	R1	VRD-ST2EY102J	1K ohm	AA	l
ar	AC	C606	VCEALULHW104M	1MED SOV ±20%	AB	R7	VRD-SU2EY471J	470 ohm	AA	l
ar	AC	0000	*CEALOTIN TO M	Electrolytic	10	R14	VRD-SU2EY562J	5.6K ohm	AA	l
ar	AC	C607	VCEAAU1AW107Y	100MFD, 10V, +50 - 10%.	AB	R15	VRD-SU2EY331J	330 ohm	AA	l
iai	AC			Electrolytic		R19	VRD-ST2EE471J	470 ohm	AA	l
	44	C608	VCEAAU1AW107Y	100MFD, 10V, +50 -10%,	AB	R20	VRD-SU2EY102J	1K ohm	AA	l
	AB			Electrolytic		R21	VRD-SU2EY153J	15K ohm	AA	l
		C609	VCEAAU1AW107Y	100MFD, 10V, +50 -10%,	AB	R23	VRD-ST2EE181J	180 ohm	AA	l
	AB			Electrolytic		R27	VRD-ST2EE821J	820 ohm	AA	l
		C610	VCEAAU1AW107Y	100MFD, 10V, +50 -10%,	AB	R29 D20	VRD-ST2EE2/1J	270 ohm 270 ohm	AA	l
	AB			Electrolytic		R 32	VRD-SIZEEZ/IJ	270 onm	AA
		C611	VCQYKU1HM682M	.0068MFD, 50V, ±20%, Mylar	AB	R 36	VRD-SU2E 11555	100 ohm	44
	AB	C612 C612	VCQYKUIHM682M	100MED 10V 50 10%	AB	R46	VRD-SU2EY1011	100 ohm	AA
		C013	VCEAAUTAWI0/Y	100MFD, 10V, +50 -10%,	AB	R47	VRD-SU2EY152J	1.5K ohm	AA
ar	AC	C614	VCEAAU1AW107V	100MED 10V +50 -10%	AB	R50	VRD-SU2EY100J	10 ohm	AA
ar	AC	014	VCLAROIA #10/1	Flectrolytic	10	R52	VRD-SU2EY100J	10 ohm	AA
	AB	C617	VCEALU1HW224M	22MED 50V ±20%	AB	R53	VRD-SU2EY121J	120 ohm	AA
	1.0		( CDILDO III ) DD III	Electrolytic		R54	VRD-SU2EY471J	470 ohm	AA
	AB	C618	VCEALU1HW224M	.22MFD, 50V, ±20%,	AB	R55	VRD-ST2EE184J	180K ohm	AA
lar	AC			Electrolytic		R56	VRD-SU2EY474J	470K ohm	AA
lar	AC	C619	VCEAAU1CW108Y	1000MFD, 16V, +50 -10%,	AE	R57	VRD-SU2EY121J	120 ohm	AA
lar	AB			Electrolytic		R59	VRD-SU2EY223J	22K ohm	AA
	AC	C620	VCEAAU1CW108Y	1000MFD, 16V, +50 -10%,	AE	R60	VRD-SU2EY102J	1K ohm	AA
				Electrolytic		R61	VRD-ST2EE103J	10K ohm	AA
6,	AE	C621	VCQYKU1HM152K	.0015MFD, 50V, ±10%, Mylar	AB	R62	VRD-SIZEE4/IJ	470 onm	AA	l
		C622	VCQYKUTHM152K	.0015MFD, 50V, ±10%, Mylar	AB	R64	VRD-ST2EE1525	1.5K ohm	AA
ar	AB	C623	VCEALUIHW104M	.IMFD, 50V, ±20%,	АВ	R65	VRD-ST2EE162J	5.6K ohm		l
	AA	C624	VCEALULHW104M	IMED SOV +20%	AB	R69	VRD-ST2EE561J	560 ohm	44	i
		0024	*CEALOTII#104M	Flectrolytic	~~	R70	VRD-ST2EE473J	47K ohm	AA	i.
	AA	C625	VCOYKU1HM223M	.022MFD, 50V, ±20%, Mylar	AB	R71	VRD-ST2EE471J	470 ohm	AA	i.
	4.0	C626	VCOYKU1HM223M	.022MFD, 50V, ±20%, Mylar	AB	R72	VRD-ST2EE562J	5.6K ohm	AA	i.
ar r	AD	C627	VCEAAU1EW228Y	2200MFD, 25V, +50 -10%,	AH	R73	VRD-ST2EE123J	12K ohm	AA
	AC			Electrolytic		R76	VRD-ST2EE153J	15K ohm	AA	È
	ne	C701	VCKZPU1HF223Z	.022MFD, 50V, +80 -20%,	AA	R78	VRD-ST2EE471J	470 ohm	AA
r	AB.			Ceramic		R109	VRD-ST2EE391J	390 ohm	AA	Ĺ
r	AB	C702	VCCSPU1HL101J	100PF, 50V, ±5%, Ceramic	AA	R110 R111	VRD-SUZEY 391J	390 onm	AA	Ĺ
ar	AC	C703	VCEAAUTAW336Y	33MFD, 10V, +50 – 10%,	AB	R112	VRD-ST2EE104J	100K ohm	AA
ar	AB	C704	MODA AUTOWARCA	Electrolytic		R113	VRD-ST2FF1031	10K ohm		Ĺ
ar	AB	C704	VCEAAUIEW335A	5.5MFD, 25V, +75 -10%,	AB	R114	VRD-ST2EE103J	10K ohm		Ĺ
	**	C705	VCFAAU1HW105A	1MED 50V +75 -10%	AB	R115	VRD-ST2EE101J	100 ohm	AA
		0,00	CEARCIN 100A	Flectrolytic	110	R116	VRD-ST2EE101J	100 ohm	AA
ar	AB	C706	VCEALU1HW335M	3.3MFD, 50V, ±20%.	AC	R117	VRD-ST2EE151J	150 ohm	AA
	AB			Electrolytic		R118	VRD-SU2EY151J	150 ohm	AA
	AR	C707	VCEAAU1EW107Y	100MFD, 25V, +50 -10%,	AC	R119	VRD-SU2EY274J	270K ohm	AA
	AB			Electrolytic		R120	VRD-SU2EY274J	270K ohm	AA
		C801	VCE9AT1SD475M	4.7MFD, 30V, ±20%,	AD	R121	VRD-ST2EE184J	180K ohm	AA
	AB			Electrolytic		R122	VRD-SU2EY184J	180K ohm	AA
		C802	VCE9AT1SD475M	4.7MFD, 30V, ±20%,	AD	R123	VRD-SIZEE102J	IK onm	AA
	AB	C001	VORTENING	Electrolytic		R124 D125	VRD-SUZE I 102J	2.9V ohm	AA
		C 901	VCKZPUTHF104Z	.1MFD, 50V, +80 –20%,	AC	R125	VRD-SU2EV3921	3.9K ohm	AA
	AB	C902	VCK7PU1HE1047	1MED 50V +80 200	AC	R127	VRD-ST2EE4721	4.7K ohm
		0.702	VCK2101HF104Z	Ceramic	AC	R128	VRD-ST2EE4721	4.7K ohm
	AC	C903	VCKZPU1HF2237	.022MFD, 50V, +80 -20%		R129	VRD-SU2EY332J	3.3K ohm	AA
				Ceramic		R130	VRD-ST2EE332J	3.3K ohm	AA

Page 25

REF. NO.	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE

R131	VRD-SU2EY683J	68K ohm	AA	R603	VRD-ST2EE390J	39 ohm	AA
R132	VRD-ST2EE683J	68K ohm	AA	R604	VRD-ST2EE390J	39 ohm	AA
R133	VRD-ST2EE682J	6.8K ohm		R605	VRD-ST2BB2R2J	2.2 ohm, 1/8W, ±5%, Carbon	AA
R134 D125	VKD-SUZEY08ZJ	6.8K 0nm	AA	R606	VRD-ST2BB2R2J	2.2 ohm, 1/8W, ±5%, Carbon	AA
R133	VRD-SIZEES0IJ	8 2K ohm		R607	VRD-SIZEYZZIJ VRD STZEVZZIJ	220 onm 220 ohm
R150	VRD-ST2FF8221	8.2K ohm		R 705	VRD-512E1221J VRD-ST2FF3301	220 onm 33 ohm	AA
R157	VRD-ST2EE1021	1K ohm		R706	VRD-ST2EE8221	8 2K ohm
R158	VRD-ST2EE102J	1K ohm	AA	R710	VRD-ST2EE561J	560 ohm
R159	VRD-SU2EY470J	47 ohm	AA	R801	VRD-ST2EE3R9J	3.9 ohm	AA
R160	VRD-ST2EE470J	47 ohm	AA	R802	VRD-ST2EE3R9J	3.9 ohm	AA
R161	VRD-SU2EY153J	15K ohm	AA
R163	VRD-ST2EE223J	22K ohm	AA
R164	VRD-SU2EY223J	22K ohm	AA		MECHA	NICAL PARTS
R165	VRD-ST2EE473J	47K ohm	AA
R167	VRD-ST2EE101J	100 ohm	AA	01	JKNBB0064AFSA	Knob, Forward APSS	AE
R108 D160	VRD-SIZEE101J	100 ohm 20K ahm	AA	02	JKNBB0065AFSA	Knob, Reverse APSS	AE
R109	VRD-SU2E 1 393J	39K ohm	AA	03	JKNBB0063AFSA	Knob, Stop	AG
R170	VRD-SU2E15555	56K ohm		04	JKNBM0255AFSA	Knob, Eject/REW/Play/FF/	AE
R172	VRD-SU2EY5631	56K ohm		05	IVNDMO256AESA	Pause
R173	VRD-ST2EE102J	1K ohm	AA	05	JANDMU2JUAFSA LANCTOSIAAE77	Rioo, Record	AE
R174	VRD-ST2EE102J	1K ohm	AA	07	LRSHS0001AC00	Bushing Motor
R177	VRD-SU2EY153J	15K ohm	AA	08	LCHSM0228AFZZ	Main Chassis Assembly
R179	VRD-ST2EE332J	3.3K ohm	AA	09	LCHSS0107AF00	Sub Chassis Assembly
R180	VRD-ST2EE332J	3.3K ohm	AA	10	LSTWC2403AFZZ	Stop Washer, $2.4
R181	VRD-SU2EY473J	47K ohm	AA	11	LSTWC3002AFZZ	Stop Washer, $$
R208	VRD-SU2EY561J	560 ohm	AA	12	MARMP0001AFZZ	Arm, Auto Stop	AC
R213	VRD-ST2EE474J	470K ohm	AA	13	MARMP0002AFZZ	Arm, Auto Stop Lock Reset	AC
R214	VRD-SU2EY474J	470K ohm	AA	14	MLEVF0547AFZZ	Lever, Main Lock Plate	AD
R225 R224	VRD-SU2EY562J	5.6K onm	AA	15	MLEVF0548AFZZ	Lever, APSS Lock Plate	AD
R224	VRD-SUZE I 3023 VRD-ST2EV4731	ATK ohm	AA	16	MLEVF0549AFZZ	Idler, Take-up	AG
R230	VRD-ST2E14733 VRD-ST2FF4721	47K ohm	AA	17	MLEVF0550AFFW	Lever, Pause	AD
R231	VRD-ST2EE472J	4.7K ohm		18	MLEVFUSSIAFFW MLEVE0642AE77	Lever, Fast Forward/Rewind	AD
R233	VRD-ST2EE121J	120 ohm		20		Lever, Play	AG
R238	VRD-SU2EY473J	47K ohm		20	MLEVF0333AFFW	Lever Record
R239	VRD-ST2EE681J	680 ohm	AA	22	MLEVF0555AFZZ	Lever Forward APSS	AD
R240	VRD-ST2EE222J	2.2K ohm	AA	23	MLEVF0556AFZZ	Lever, Reverse APSS	AD
R241	VRD-ST2EE562J	5.6K ohm	AA	24	MLEVF0557AFFW	Lever, Fast Forward/Rewind	AE
R244	VRD-ST2EE222J	2.2K ohm	AA	25	MLEVF0558AFFW	Lever, Fast Forward	AD
R245	VRD-ST2EE102J	1K ohm	AA	26	NBRGC0054AFZZ	Bearing, Flywheel Shaft	AG
R246	VRD-ST2EE102J	1K ohm	AA	27	MLEVF0560AFFW	Lever, Record Mistake Proof	AC
R249 D250	V RD-SIZEEZZJ	22K ohm	AA	28	MLEVF0564AFFW	Lever, Stop	AC
R251	VRD-SU2E 1223J	22K Onm 680K ohm	AA	29	MLEVP0057AF00	Lever, Erase Proof	AC
R251	VRD-SU2E1084J VRD-ST2FF6841	680K ohm		30	MLEVP0058AFZZ	Lever, Brake	AC
R253	VRD-ST2EE562J	5.6K ohm		31	MLEVPUU//AFZZ	Lever, Cassette Lock	AC
R254	VRD-ST2EE562J	5.6K ohm	AA	33		Lever, Auto Stop	AC
R255	VRD-ST2EE562J	5.6K ohm	AA	34	MLEVP0062AF77	Lever, Tape End Detect	AD
R256	VRD-ST2EE562J	5.6K ohm	AA	35	MLEVP0063AFZZ	Lever, Sub Chassis Return	AC
R257	VRD-ST2EY104J	100K ohm	AA	36	MSPRC0031AGMN	Spring, REC/P.B. Head Adjust	AA
R258	VRD-ST2EY104J	100K ohm	AA	37	MSPRC0139AFFJ	Spring, Eject/REW/REC/FF/	AA
R259	VRD-ST2EE103J	10K ohm	AA			Pause
R260	VRD-ST2EE103J	10K ohm	AA	38	MSPRC0109AFFJ	Spring, Plunger	AA
R 303	V RD-ST ZEET RUJ	1 ohm	AA	39	MSPRC0110AFFJ	Spring, Play Lever	AA
1.304	V KO-FI JABIUIK	Ovide Film	**	40	MSPRC0111AFFJ	Spring, Detect Lever	AA
R307	VRD-ST2EF2201	22 ohm		42	MSPRD0107AFFJ	Spring, Pinch Roller	AB
R501	VRD-ST2EY5611	560 ohm		45	MSPRD0108AFFJ	Spring, Brake Lever	AA
R502	VRD-ST2EY472J	4.7K ohm	AA	44 45	MSPKD0109AFFJ	Spring, Forward APSS Lever	AA
R503	VRD-ST2EY274J	270K ohm	AA	46	MSPRD0110AFFJ	Spring, Reverse APSS Lever
R504	VRD-ST2EY683J	68K ohm	AA	47	MSPRD0112AFFJ	Spring, Stop Lever	AB AA
R505	VRD-ST2EY103J	10K ohm	AA	48	LSTWC2001AF77	Ston Washer d?	74
R601	VRD-ST2EE104J	100K ohm	AA	49	MSPRD0116AFF1	Spring, Auto Ston Lock Reset	AB
R602	VRD-ST2EE104J	100K ohm	AA			Arm

Page 26

REF. NO.	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE
50 51	MSPRD0117AFFJ MSPRP0133AFFW	Spring, Record Mistake Proof Spring (Plate Type), Cassette	AA **		MISCE	LLANEOUS
52	MSPRP0113AFFJ	Retaining Spring (Plate Type), Auto Stop	AB	201	GCABA1469AFSA GCABA1469AFSB	Cabinet, Front (GF-9191H/E) Cabinet, Front (GF-9191HB)	AW **
53	LANGE0393AFFW	Arm Bracket Muting Switch	AC	202	GCABB1469AF5A	Cabinet, Back	AY
54	MSPRP0115AFFW	Spring (Plate Type), Sub	AC	203	GCOVH1162AF00	Cover, Rod Antenna
		Chassis Stopper		205	GFTAB1104AFSA	Lid, Battery Compartment	AE
57	MSPRT0335AFFJ	Spring, Fast Forward Lever	AA	206	GFTAC1076AFSA	Holder, Cassette	AG
58	MSPRT0332AFFJ	Spring, Idler	AA	207	GFTAC1077AFSA	Cover, Cassette Holder	AF
59 60	MSPK10333AFFJ MSPDT0334AFFI	Spring, Koller Assembly Spring, Auto Stop Lever		208	GWAKP9009AFSA	Plate, Operation (GF-9191H/E)	AT
61	MSPR 10334AFFJ	Spring, Fast Forward/Rewind		209	HDALP0399AF5B	Plate Dial Scale	AI
01		Lever		210	HDECB0069AFSA	Decoration Plate, Cassette	** 4D
62	NBALS0004AGFJ	Ball, φ3	AA			Holder	, ,
63	NBLTH0051AF00	Belt, Motor	AD	211	HDECC0052AFSA	Grille, Tweeter	AF
64	NBLTK0053AF00	Belt, Auto Stop	AC	212	HDECC0053AFSA	Grille, Built-in Microphone	AD
65	NDAIR0110AFSA	Turntable, Take-up	AG	213	HDECQ0078AFSA	Decoration Ring, Woofer	**
66	NDAIR0129AFSA	Turntable, Supply	AE	214	TLABZ0105AFZZ	Reflector	-
0/ 20	NFLYCOUS3AFZZ	Flywneel	AH	215	HINDM1133AFSB	Emblem, SHARP	AA
60	NGERHOUSUAFZZ	Slip Roller	AC	216	HINDM1195AFSA	Indication Plate, APSS	AD
70	MLEVF0617AFZZ	Lever, Ouick Stop	AB		HINDMI196AFSA	Indication Plate, Mechanism	AB
71	NPLYR0052AFZZ	Pulley, Auto Stop	AB	217	HINDM1196AESB	(GF-9191H/E) Indication Plata Machaniam
72	NROLM0051AFFW	Roller, Lock Plate	AA		mini in the second seco	(GF-9191HB)	AB
73	NROLV0004AFZZ	Roller Assembly	AQ	218	HINDM1245AFSA	Indication Plate, Model	**
74	NROLY0004AFZZ	Pinch Roller	AF		, HINDM1244AFSA	Indication Plate, Model Spec.	AC
75	MSPRT0330AFFJ	Spring, Play Lever	AA			(GF-9191H)
76 77	MLEVF0618AFZZ QPWBF0583AFZZ	Lever, Pause Mistake Proof P.W. Board, APSS	AC -	219	HINDM1247AFSA	Indication Plate, Model Spec. (GF-9191HB)	AC
78	PCUSG0026AG00	Rubber Brake Lever	AB		HINDM1250AFSA	Indication Plate, Model Spec.	**
79	KCOUB0061AFZZ	Counter, Tape	AM	220	HINC OLLIAESA	(GF-9191E) Punching Matel Wanfar
80	RHEDA0059AFZZ	Head, Erase	AK	220	HPNLD1171AFSA	Plate Transparent
81	RHEDH0052AFZZ	Head, Record/Playback	AW	222	HSSND0233AFSA	Dial Pointer
82	RMOTM0084AFZZ	Motor with Pulley	AX	223	JHNDG1061AFSA	Handle	**
83	RPLU-0053AFZZ	Plunger	AM	224	JKNBM0254AFSA	Knob, Push Switch	AE
84 95	PZETF0123AFZZ	Stopper	AA	225	JKNBN0309AFSA	Knob, Tuning	AC
05	QFWDF0364AFZZ	(Board only Not Available)	- \|	226	JKNBN0331AFSA	Knob, Fader Control	AE
87	NRI TK0105 AE77	Belt Counter	AC	227	JKNBP0080AFSA	Knob, Volume/Treble/Bass/	AE
89	MSPRT0151AGFJ	Spring, Cassette Lock Lever		220		Record Level
90	PSPAA0001AGFJ	Spacer, Motor Bushing	AB	220	JKNBZU109AF5A JVND70127AESD	Knob, Lever Switch	AB
91	MSPRD0137AFFJ	Spring, Quick Stop Lever	AA	229	LANGS0014AGFP	Bracket Speaker Fixing
92	NPLYR0050AFZZ	Pulley, Take-up	AB	230	LBOSD0050AFFW	Boss. Inserting	AR
93	LX-HZ0056AFFD	Screw, Flywheel Bracket	-	232	LHLDA1052AFSA	Holder, Rod Antenna	AA
94	LX-BZ0107AGZZ	Screw, Flywheel Thrust Adjust	AB	233	LHLDF1205AFZZ	Frame, PWB	AP
95	MLEVP0076AFZZ	Lever, Pause Mistake Proof	AC	234	LHLDF1206AFZZ	Frame, Jack Plate	AG
90	MSPRT0390AFFJ	Spring, Pause Mistake Proof	АВ	235	LHLDP3061AFFN	Holder, Lamp	AC
97	I ANCEN376AEEW	Lever Plate Sub Chassis Stopper	AD	236	LHLDW1067AFZZ	Band, Wire	AA
98	MSPRT0389AFFI	Spring Pause Mistake Proof		237	LHLDW1068AFZZ	Band, Wire	AA
		Lever		238		Holder, Wire	AA
99	LHLDW3007AGFD	Wire Holder	AA	239		Sorew, Cossette Holder Cover	AB
100	LX-BZ0148AGFD	Screw, Motor	AA	240	LX-CZ00024F77	Screw Front Cabinet Fixing	АГ
101	LX-WZ5013AGZZ	Washer, Turntable	AA	242	LX-HZ0057AFFD	Screw, Mechanism Block Fixing
102	LX-WZ5015AGZZ	Washer, Tape End Detect Lever	AA	243	LX-HZ0058AFFD	Screw, Mechanism Block Fixing	_
103	LX-WZ5018AGZZ	Washer, Turntable	AA	244	LX-LZ0060AFSA	Decoration Rivet, Woofer	_
104	LX-WZ5037AGZZ	Washer, Flywheel	AA	245	MLEVF0701AFZZ	Lever, REC/PB Switch	AE
105	DHWS-2222ACEN	Spacer, Motor Switch	AA	246	MSPRC0021AFFN	Spring, Battery (-)	AA
107	PFLT-0313AF00	Felt, Tape End Detect Lever	AA	247 248	MSPRC0140AFFN MSPRP0089AGFW	Spring, Battery (-) Spring (Plate Type), Cassette	AB AB
				249 250	MSPRT0003AGFW MSPRT0536AFFJ	Spring, Dial Cord Spring, Cassette Holder	AA AB

Page 27

REF. NO	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE
251	NDRM-0046AFZZ	Drum, Dial Cord	AC	J101	QJAKZ0073AFZZ	Jack Plate Assembly,	ية. ماد
252	NPLYB0050AFZZ	Pulley, Dial Cord	AA			EXT. MIC/REMOTE	**
253	NPLYB0051AFZZ	Pulley, Dial Cord	AA	J103	QJAKG0052AFZZ	Jack, PHONO	AG
254	NPLYC0102AFFW	Pulley, Dial Cord	AB	J401	QJAKA0006AFZZ	Jack, MIX.MIC	AD
255	NSFTD0166AFFW	Shaft, Dial Cord Drive	AE	J603	QJAKJ0052AFZZ	Jack, HEADPHONES	AH
256	PCOVP7163AFZZ	Cover, Push Switch	AB	ME101	RMTRL0152AFZZ	Meter, VU/TUNING	AS
257	PCOVW1100AFZZ	Cover, AC Socket	AA	ME102	RMTRL0153AFZZ	Meter, VU/BATTERY	AS
258	PCOVZ7050AF00	Cover, Battery Compartment	AC	PG501	OCNCM105JAFZZ	Plug, 9 Pin	AD
259	PCUSC0084AF00	Cushion Built-in Microphone	A A	PG502	OCNCM175FAFZZ	Plug, 6 Pin	AC
260	PCUSC0085AE00	Cushion, Dunt-In Microphone		PL601	RLMPM0089AFZZ	Lamp, Meter	**
260	PCUSSION	Cushion Meter		PL602	RLMPM0089AFZZ	Lamp. Dial	**
261	PCUSS0107AF00	Cushion, Meter		SO101	OSOCD2554AFZZ	Socket, REC/PB	AF
202	rc033010/Ar00	Look Plate Frame		SO102	OSOCD2268AFZZ	Socket, EXT.SP.	AE
262	PCUSU00024 COO	Jack Flate Flatte		SO102	OSOCD2268AFZZ	Socket EXT SP	AE
205	PC0500092AG00	Cushion, Battery Compartment	AA	SO501	OCNCW09614F77	Socket 9 Pin	AC
264	DOUGLIO100 + DOD			$0502	QCNCW146EAE77	Socket 6 Pin	AB
204	PCUSUUI 28AFZZ	Cusnion, Coll		SO901/		Socket Mains Supply with
205	PFL1-0095AG00	Felt, Cassette Holder and	AA	1001	QSOCZ2469AFZZ	EXT DC POWER Lack	AH
		Operation Plate		5501	J	EXT. DUTOWER Jack
266	PFLT-0127AF00	Felt, Battery Compartment	AA	SPI	VSP0016P-244P	Speaker, wooler	**
267	PFLT-0324AF00	Felt, 4 Switches (Lower)	AA	SP2	VSP0016P-244P	Speaker, wooter	**
268	PFLT-0332AF00	Felt, VR	AA	SP3	VSP00501-124A	Speaker, I weeter	AP
269	PFLT-0333AF00	Felt, 4 Switches (Upper)	AD	SP4	VSP0050T-124A	Speaker, Tweeter	AP
270	PFLT-0334AF00	Felt, 2 Switches (Upper)	AB	SW101	QSW-P0171AFZZ	Switch, Power and Function	AV
271	PFLT-0335AF00	Felt, 2 Switches (Lower)	AA			Selector
272	PFLT-0336AF00	Felt, Tweeter	AA	SW102	QSW-S0214AFZZ	Switch, Record/Playback	AM
273	PFLT-0337AF00	Felt, Back Cabinet	AA	SW103	QSW-P0172AFZZ	Switch, Editor	AF
274	PFLT-0341AF00	Felt, Push Switch	AA	SW104	QSW-B0087AFZZ	Switch, Mixing	AG
275	PGUMS0114AF00	Conductive Rubber, Record	AB	SW105	QSW-B0095AFZZ	Switch, REC. Mode Selector	AF
		Level Control	i i	SW106	QSW-B0087AFZZ	Switch, Tape Selector	AG
276	PRDAR0160AFFW	Heat Sink	AB	SW107	QSW-B0076AFZZ	Switch, FM Mute/Mode	AG
277	PSLDM3139AFZZ	Shield Plate	AC	SW108	QSW-B0086AFZZ	Switch, Loudness	AF
278	PSPAI0127AFZZ	Spacer	AA	SW109	QSW-B0091AFZZ	Switch, Meter/Light	AF
279	PTPEC0005AG00	Ribbon, Battery Removal	AA	SW301	QSW-S0191AFZZ	Switch, Beat Cancel	AE
280	OANTR0107AFZZ	Rod Antenna	AP	SW501	QSW-F0044AGZZ	Switch, Motor	AE
281	OHWS-3001 ACEN	Lug Terminal		SW502	QSW-F0116AFZZ	Switch, APSS(REV)	AE
201	OLUCPO111CEEW	Lug Terminal	٨٨	SW503	QSW-F0116AFZZ	Switch, APSS(FWD)	AE
283	OLUCPO150AE77	Lug Terminal		SW504	QSW-F0044AGZZ	Switch, CUE/REV Muting	AE
284	OPPREGORGAE77	PW Board Main			QSOCE0551AFZZ	Switch, Mains Voltage Selector	AG
204	QI KBI 0000AI 22	(Board only Not Available)		SW701 <		(GF-9191H/HB)
785	OBDREAD92AEA1	DW Doord Switch			OSW-S0176AFZZ	Switch, Mains Supply	ÀP
205	QERDEUU03AFAI	(Board only, Not Available)				(GF-9191E)
106	OBD DE0092 A E A 2	(Board Variable Pasister		TB1	OJAKF0052AFZZ	Terminal, FM EXT, ANT	**
280	QFKBF0085AFA2	(Doord only Not Available)			OCNW-0284AFZZ	Connecting Wire, 5 Pin	AC
207	OBB DE0002 4 E 4 2	(Board only, Not Available)			OCNW-0286AFZZ	Connecting Wire, 8 Pin	AC
287	QPRBF0083AFA3	P.w. Board, Power Supply	-		OCNW-02884F77	Connecting Wire, 4 Pin	AR
200		(Board only, Not Available)			OCNW-0200AF77	Connecting Wire, 7 Pin
288	QPRBF0083AFA4	P.W. Board, Headphone	- \|		SDAV A0502AF77	Booking Add (Loft)
•		(Board only, Not Available)			SDAVA0502ALZZ	Packing Add. (Left)	AG
289	QPWBF0701AFA1	P.W. Board, AF Power	- \|		SPANAUSUSAFZZ	Packing Add. (Right)	AG
		(Board only, Not Available)		j	SPARCI109AFZZ	Packing Case (GF-9191H)	**
290	QTANB9102AFFN	Terminal, Battery (+)	AC		SPAKULI /UAFZZ	Packing Case (GF-9191HB)	**
291	QTANB9103AFFN	Terminal, Battery (+)	AC		SPAKULI/9AFZZ	Packing Case (GF-9191E)	**
292	RMICC0057AFZZ	Built-in Microphone	AK		SSAKH008/AGZZ	Polyethylene Bag	AB
	(HINDM1246AFSA	Indication Plate, Voltage	AD	ļ	TINSZ0129AFZZ	Operation Manual	**
294	{	Selector (GF-9191H/HB)		5		(GF-9191H/HB)
	HINDM1251AFSA	Indication Plate, Mains Switch	**	,	TINSE0572AFZZ	Operation Manual	**
		(GF-9191E)				(GF-9191E)
296	LHLDW1052AFZZ	Band, Wire	AA		SSAKH0024AGZZ	Polyethylene Bag, Operation	AA
297	PFLT-0345AF00	Felt, Variable Resistor	AA			Manual
298	QFSHD1001AGZZ	Holder, Fuse	AB		TTAGH0046AFZZ	Tag (GF-9191H/HB only)	**
299	LHLDW1075AFZZ	Band, Wire	AA	Í	TMAPC0524AFZZ	Schematic Diagram	\| - \|
300	LANGK0186AFFW	Bracket, Mains Switch	AC	ſ		(GF-9191H/HB)
		(GF-9191E only)		l	TMAPC0528AFZZ	Schematic Diagram	- \|
301	PZETV0052AFZZ	Cover, Mains Switch	AA			(GF-9191E)
-		(GF-9191E only)		Í	QACCK0050AFZZ	Cord, Mains Supply	AM
F701	OFS-C122CACNI	Fuse 1 25AT	AF	{		(GF-9191H/HB)
1 / 01	QI 5-CI22CAOM	1 430, 1.2 31 ,1		l	QACCB0003AG0V	Cord, Mains Supply (GF-9191E)	AL