SHARP GF-9090 SERVICE MANUAL

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SHARE Service Manual

MODEL GF-9090H(Silver Panel) GF-9090HB (Black Panel) GF-9090E

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


Туре:	Portable stereophonic cassette tape re-	Туре:
	corder with built-in LW/MW/SW/FM	Tape:
	4-band radio	Tape speed:
Power source:	AC 110/220/240V, 50/60 Hz(H, HB)	Recording syste
	AC 240V, 50/60 Hz (E)	Erasing system:
	DC 12V (Eight UM/SUM-1 batteries	Recording time
	or External DC supply)	Fast forward o
Power consumption:	24 watts	rewind time
Speaker:	16cm (Woofer) x 2, Horn type (Twee-	Frequency resp
-	ter) x 2	·
Power output:	MPO 8000 mW (DIN 45 324) (H, HB)	Wow and flutte
-	MPO 11W (E): AC operation
	RMS power 7000 mW	S/N ratio:
	(3500 mW + 3500 mW : DC operation)
Semiconductors:	5-IC (Integrated Circuit), 47-transistor	RADIO SECTIO
	and 37-diode (4 Light Emitting Diode)	Frequency rang
Dimensions:	485mm(W) x 115mm(D) x 240mm(H)
Weight :	5.8 kg (without batteries)
Input terminals:	1 EXT. MIC. 600 ohms (J201, J202)
	2 Remote control (J302)	Intermediate
	3 EXT. DC power, 12V (J701)	frequency:
	4 AC input power (SO701)
	5 REC/PB DIN socket, 2.5 mV/10K	Circuit system:
	ohms (SO202)	Antenna:
	6 FM EXT. Antenna (SO1)
Output terminals:	1 EXT. speaker, 4 ~ 8-ohms (SO301,
	SO302)
	2 PHONES : 4 ~ 8 ohms (J301)

SPECIFICATIONS

ТΔ


PE RECORDER S	ECTION
pe:	4-track stereo cassette tape recorder
pe:	Philips type compact cassette tape
pe speed:	4.8 cm/sec.
cording system:	AC bias
ising system:	DC erasing
cording time:	60 minutes (with C-60 tape)
st forward or
rewind time:	120 sec. (with C-60 tape)
equency response:	40 ~ 15,000 Hz (CrO ₂ tape)
	40 ~ 12,000 Hz (Normal tape)
w and flutter:	0.3% (DIN 45 511) (H, HB)
	0.15% (WRMS) (E)
N ratio:	50 dB
DIO SECTION
quency range:	LW 150 ~ 285 kHz
1	MW 520 ~ 1.620 kHz
	SW 5.95 ~ 18 MHz
	FM 87.6 ~ 108 MHz
ermediate
frequency:	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

3 REC/PB DIN socket. 1V/50K
- ohms (SO202)

SHARP CORPORATION OSAKA, JAPAN

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NAMES OF PARTS (Refer to Figure 1)

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DISASSEMBLY

A⇒B⇒C⇒D⇒E

A 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 the battery compartment lid and eight (8) batteries from the battery compartment.
4. Remove eight (8) screws retaining the front cabinet.
5. Gently 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 2)

1. Remove the front cabinet as described in front cabinet removal.
Remove six (6) knobs (VOLUME, BALANCE, TREBLE, BASS and RECORD).
3. Remove four (4) screws retaining the operation panel.
4. 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)

1. Remove the dial scale plate as described in dial scale plate removal.
2. Disconnect the tip (Muting) and two (2) sockets (SO2, SO501) connected to the main P.W. board and the motor P.W. board.
3. Remove four (4) screws retaining the mechanism block.
4. Gently pull out the mechanism block form the back cabinet.

E CHASSIS (P.W.B.) REMOVAL (Refer to Figure 5)

1. Remove the mechanism block as described in mechanism block removal.
2. Remove the tuning knob from the tuning shaft.
3. Disconnect two (2) tips (Antenna) connected to the main P.W. board.
4. Remove six (6) screws retaining the chassis (P.W.B.).
5. Gently pull out the chassis (P.W.B.) from the back cabinet.

Figure 2

Figure 3

Figure 4

OPERATION ON MAINS

GF-9090H, HB

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 number can be seen. (Refer to Figure 6)

GF-9090E

Switch the mains power switch to the "ON" position.
When the unit is used on batteries, pull out the mains plug from the unit. Otherwise switch off at the mains power switch after use. (Refer to Figure 6)

Figure 6

DIAL CORD STRINGING

(Refer to Figure 7)

Figure 7

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DESCRIPTION OF APSS

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 automatically 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 tape is fed at a high speed and is slowed down to a regular play speed at the beginning of the next selection. Or, when the REV.-APSS key is depressed the tape is rewound at a high speed and is set to regular playback mode at the beginning of the selected program. The following explanation refers to the function of the APSS.

FUNCTION OF APSS

When the FWD.-APSS key is depressed in playback mode of the tape, the pinch roller is cleared from the flywheel shaft and the roller assembly meshes with the gear of the take-up turntable permitting the tape to advance at a normal fast forward speed. On the other hand, when the

1 APSS INDICATOR CIRCUIT

(Refer to Figures 8, 9, 10 and 11) With the APSS indicator circuit being given +12V power. the multi-vibrator (Q502 and Q501) starts to oscillate to n Hz (about 2 Hz) and output of the multi-vibrator will be applied to the flip-flop circuit (0503 and 0504) to be 1/2 divided into 1/2n Hz (about 1 Hz). These outputs of the multi-vibrator and flip-flop circuit are to light up the light emitting diodes D513. D512 and D511 through the logical circuit (D501 to D506). Figure 10 is a timing chart concerning the above operation In Figure 10. 1) and 2) are output waveformes of the multi-vibrator (0502 and 0501), and 3) and 4) are those of the flip-flop circuit (0503 and 0504) Using these four (4) waveforms, the logical circuit is to further create waveforms 5), 6) and 7) to have the light emitting diodes light up.

The horizontal axis shown in Figure 10 refers to a time axis: the light emitting diodes D513, D512 and D511 light up in this order one after another, respectively at the periods a, b and c. Meanwhile, at the period d, all the light emitting diodes are kept off. The periods a to d are considered one cycle of the light-up operation and this cycle is repeated: the light-up operation looks as if it moved from right to left.

Q505 and Q506 are switching transistors. When the FWD.-APSS key is depressed, the Q505 will be turned "ON" while the Q506 will do so when the REV.-APSS key is depressed. As for the REV.-APSS operation mode, the light emitting diodes D511, D512 and D513 light up in this order one after another, respectively at the periods a, b and c --- the light-up operation looks as if it moved from left to right.

FWD.-APSS key is depressed, the FWD.-APSS switch (SW501) is turned "ON" so that +12V power be applied, via D509, to the APSS indicator circuit ①, muting circuit ② and APSS detection circuit ③

Figure 9 APSS INDICATOR CIRCUIT

Figure 10 FWD-APSS IND. TIMING CHART

(2) MUTING CIRCUIT (Refer to Figure 12) The current fed to the muting circuit turns "ON" the muting transistor (Q302 and Q305) and attenuates the signal from head to hold back the monitor noise.

3 APSS DETECTION CIRCUIT

(Refer to Figures 13, 14 and 15)

The current fed to the APSS detection circuit drives the tape playback signal given from the record/playback head into the APSS pre-amp (IC401) through the equalizer amp (Q201 to Q204) and APSS mixer (Q205), turning "ON" the Q401, and now the signal is amplified to exceed VBE (voltage between base and emitter) and charges the C406 up to +12 volts.

Next, when the Q402 is turned "ON", the Q403 is turned "OFF". and the potential of the O403 collector stabilizes at +12 volts. Therefore the O404 is not turned "ON" in consequence, neither is the Q405. As a result, the plunger is not actuated. In other words, as far as the tape carries signals the plunger does not work, that is, the tape is continuously fast forwarded according to the mechanism of the APSS. Meanwhile, when there is no signal on the tape, the potential, even if amplified by the equalizer amp (Q201 to Q204) and APSS pre-amp (IC401), becomes lower than VBE of O401, which, therefore, is turned "OFF", and the electric charge of C406 (determined by the value of R405 and C406) is discharged at the time constant. When the potential of C406 is discharged to be below VBE of Q402, the Q402 is turned "OFF" and the O403 is activated. Therefore, the collector potential of Q403 becomes zero (0) volt and, consequently, the +12volt voltage passes through the R412, allowing a discharge current to flow towards the C407. By this discharge current the potential of the Q404 base drops momentarily to zero (0) volt, and the O404 is turned "ON".

Figure 12 MUTING CIRCUIT

Figure 13 EQ AMP.

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Accordingly, the potential of the C407 is permitted to be stabilized from zero (0) volt to +12 volts. When the potential exceeds VBE, the Q404 is turned "OFF". Then the O404 is turned "ON", and +B is supplied to the base of 0405 through the R414, turning "ON" the Q405. Then, an end of the plunger is grounded and +12V is applied to the plunger, which, in turn, is actuated. When the Q404 is turned "OFF", the Q405 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 (SW501) 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 (SW501) is turned "OFF", the light emitting diodes of D513, D512 and D511 stops flickering and the APSS limiter circuit is made inactive. Further, the muting circuit of Q302 and O305 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 diodes of D511, D512 and D513 to flicker. 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 14 APSS DETECTION CIRCUIT

Figure 15 APSS MOVEMENT PRINCIPLE

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PLAY ADJUSTMENT OF FLYWHEEL SHAFT THRUST (Refer to Figure 16)

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

Figure 16

PINCH ROLLER PRESSURE ADJUSTMENT

(Refer to Figure 17)

1. Set the unit in PLAY mode.
2. Push the point (A) with use of 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 17

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

(Refer to Figures 42 and 43, Page 29 and 30) Under PLAY mode, slowly push the FWD-APSS key or REV-APSS key to make sure that the pinch roller (090) and the take-up idler (028) come off respectively from the flywheel shaft and the take-up turntable support (081), and simultaneously the sub-chassis (011) moves 1 mm to 1.5 mm, and further that thereafter, the roller assembly (089) is pressed against the take-up turntable support (081) or the supply turntable support (082). 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 (011) is reset and the unit gets in PLAY mode.

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■ TORQUE MEASUREMENT AT PLAY, FF AND REWIND MODES

(Refer to Figure 18)

Mount a torque measuring reel on the reel support (that is, it is placed on the take-up turntable support at PLAY/ REWIND mode while on the supply turntable support at REWIND mode).
Then gradually release the tension gauge and read it when the rotational speed of the reel support becomes almost constant.
Measured torques at each mode should be as tabulated below.
Note: When the take-up turntable support is stopped at PLAY mode, there should be no slip between the take-up turntable support and take-up slip roller and/or between the drive belt and take-up slip roller.

Figure 18

■GAP ADJUSTMENT BETWEEN MOTOR SWITCH AND BRAKE LEVER

(Refer to Figure 19)

1. Under each of PLAY, FF, and REWIND modes, make ascertain that the motor switch (SW504) 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 (SW504) is 2 mm to 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 (SW504) located at the motor PWB with use of a soldering iron.

■OPERATION CHECK OF PAUSE MECHANISM

(Refer to Figure 42, Page 29)

Set the unit in PLAY mode by pushing the key given a mark ( $\triangleleft$ ). Then slowly push the PAUSE key and make ascertain that the take-up idler (028) and the pinch roller (090) come off respectively from the take-up turntable support (081) and the flywheel shaft almost at the same time and check that each of the two gaps thus produced is about 0.5 mm.

■ ADJUSTMENT OF PLUNGER SETTING POSITION (Refer to Figure 20)

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.
2. 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 FWD-APSS key and REV-APSS key can be locked smoothly and they further be released when the plunger operates.
- Check that the plunger can start to operate smoothly when the STOP key is pushed to release the APSS keys.
After the step 2, the adjustments are not yet sufficient, again carry out the step 1.

Figure 20

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ELECTRICAL MEASUREMENT

* This unit operaters on DC 12 V. Check that the power * Refer to Figure 35. supply is exactly 12 V before measurement.
* Set the FUNCTION switch (SW101G) to "TAPE" position.

■ RECORD OSCILLATOR BIAS CURRENT AND BIAS FREQUENCY ADJUSTMENT

(Refer to Figure 21) 1. Connect the V.T.V.M. across the 100 ohm resistor

(R201, R202)

2. Place the unit in RECORD mode

5. As a result of the check in the step 5 above, if the reading is found outside the 53 ± 1 kHz, adjust the bias oscillation coil (L601) 6. After the step 5, again make sure of the bias current.
3. Adjust the semi-variable resistores (VR601, VR602) so that the V.T.V.M. reads 50 mV for the right channel (R201) and left channel (R202) respectively.
4. Make sure the record oscillator bias frequency is 53 ± 1 kHz.

Figure 21

(Refer to Figure 22)
1. Connect the V.T.V.M. across the 1 ohm resistor (R603).
2. Place the unit in RECORD mode.
3. Make sure the erase current is 90 ± 20 mV.

Figure 22

RECORD AMPLIFIER SENSITIVITY CHECK

(Refer to Figure 23)

1. Connect the V.T.V.M. across the 100 ohm resistors (R201, R202).
2. Short circuit the primary coil of the oscillation coil (L601) to stop bias oscillator.
3. Connect the signal generator to the EXT. MIC jacks (J201, J202) and apply signals (1000 Hz, -78 dB) to the unit.

4. Place the unit in RECORD mode.

5. If the record amplifier sensitivity is normal, the reading on V.T.V.M. should be approximately 1.75 mV.

Figure 23

PLAYBACK AMPLIFIER SENSITIVITY CHECK

(Refer to Figure 24)

1. Connect load resistor (4 ohm) to the EXT. SP sockets (SO301, SO302) and further connect the V.T.V.M. thereto.
2. Connect the signal generator across the REC/PB head and apply signals (1000 Hz, -80 dB) to the unit.

3. Place the unit in PLAYBACK mode.

4. If the playback amplifier sensitivity is normal, the reading on the V.T.V.M. should be approximately 0.5 V.

Figure 24

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SWING ADJUSTMENT OF VU METER (Refer to Figures 23 and 25)
- 1. Apply signals (1 kHz, -60 dB) to the EXT. MIC jacks (J201, J202).
- 2. Adjust the record volume controls (VR201, VR202) so that the V.T.V.M. reads 3.5 mV.
- 3. Rotate the semi-variable resistors (VR305, VR306) to adjust so that each of the two VU meters (ME1, ME2) indicates around "0" VU and swings to the same extent in right and left of the position "0" VU.

■ RECORD/PLAYBACK HEAD AZIMUTH ADJUSTMENT

(Refer to Figure 26.)

1. Connect load resistor (4 ohm) to the EXT. SP sockets (SO301, SO302) and connect outputs of both the 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).
3. Place the unit in PLAYBACK mode.
4. Adjust the head azimuth adjusting screw so that Lissajou's waveform attains the maximum and the same phase in right and left.
5. Even without using the oscilloscope, also adjust the head azimuth adjusting screw so that outputs of both the right and left channels attain the maximum and the same phase in right and left, and as a result, the output won't be decreased so much considerably even when the MODE switch (SW303) is set to "MONO".

SWITCH	POSITION		VR CONTROL	POSITION
MODE (SW303)	STEREO		VOLUME (VR301)	Maximum
	ļ,		TREBLE (VR302)	Mechanical
			BASS (VR303)	Center
TEST TAPE MTT - II4	• PLAYBACK mode	AC V.T.V.M. (SO3O2) 4 ohm EXT. SP (SO3O1) R-ch

Figure 26

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GENERAL ALIGNMENT INSTRUCTION

Should it become necessary at any time to check the alignment of this receiver, proceed as follows;

1. Set the volume control (VR301) to maximum.
2. Attenuate the signals from the generator enough to swing the most sensitive range of the output meter.
3. Use a non-metallic alignment tool.
4. Repeat adjustments to insure good results.
5. Set the FUNCTION switch (SW101G) to "RADIO" position.

THE INSTRUCTION OF FREQUENCY ADJUSTMENT (GF-9090H, HB)

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-

ing oscillation coils (L3 and L4) and oscillation trimmer (TC4), respectively, as illustrated in Fugure 35.

AM ALIGNMENT CHART

(Refer to Figure 35)

			SIGNAL G	ENERATOR	R	ECEIVER
STEP	BAND	TEST STAGE	CONNECTION TO RECEIVER	INPUT SIGNAL REQUENCY	DIAL SETTING	REMARKS	ADJUSTMENT
1	MW	IF	Refer to Figure 27	Exactly 455 kHz. (400 Hz, 30%, AM modulated)	High end of dial. (minimum capa- city)	Adjust for maximum output.	Adjust the AM IF transformers (T101) (T102)
2	MW	Band	Refer to Figure 28	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 (TC107).
4	MW		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	Таскіпд	Same as step 2.	Exactly 1400 kHz. (400 Hz, 30%, AM modulated)	1400 kHz.	Same as step 2.	Adjust the MW antenna trimmer (TC104). (See Note A)
6	MW		Repeat steps 2, 3, 4, and 5 i	intil no further improvem	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	Band 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 (TC108).
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	паскіпд	Same as step 2.	Exactly 260 kHz. (400 Hz, 30%, AM modulated)	260 kHz.	Same as step 2.	Adjust the LW antenna trimmer (TC105).
11	LW		Repeat steps 7, 8, 9 and 10	until no further improven	ient can be made.
12	SW	Band	Refer to Figure 29	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 (TC106).

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14	sw	T 1.	Same as step 12.	Exactly 6.5 MHz. (400 Hz, 30%, AM modulated)	6.5 MHz	Same as step 2.	Adjust the SW antenna coil (L6).
15	SW	Iracking	Same as step 12.	Exactly 16 MHz (400 Hz, 30%, AM modulated)	16 MHz	Same as step 2.	Adjust the SW antenna trimmer (TC103).
16	SW		Repeat steps 12, 13, 14 and	d 15 until no further impro	vement can be mad	le.

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 inductance by sliding the bobbin toward the center of ferrite core to increase inductance, or away to decrease inductance.

Figure 27 AM IF ALIGNMENT EQUIPMENT CONNECTION

Figure 28 MW/LW RF ALIGNMENT EQUIPMENT CONNECTION

Figure 29 SW RF ALIGNMENT EQUIPMENT CONNECTION

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FM ALIGNMENT CHART

(Refer to Figure 35)

		SIGNAL G	ENERATOR	RECEIN	/ER
STEP	TEST STAGE	CONNECTION TO RECEIVER	INPUT SIGNAL REQUENCY	DIAL SETTING	REMARKS	ADJUSTMENT
1	IF	Refer to Figure 30	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)
2	Band	Refer to Figures 31 and 34	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, L4).
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 (TC4).
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 (TC3).
6		Repeat steps 2, 3, 4 and 5 u	ntil no further improveme	nt can be made.		·

Figure 30 FM IF ALIGNMENT EQUIPMENT CONNECTION

Figure 31 FM RF ALIGNMENT EQUIPMENT CONNECTION

Page 13

Note B (Refer to Figure 32)

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 32

FM MPX ALIGNMENT CHART

* P.L.L. (Phase Locked Loop) : Refer to service manual of model RG-5300, E (Page 7 ~ 10).

	SIGNAL GENERATOR		RE
STEP	CONNECTION TO RECEIVER	INPUT SIGNAL FREQUENCY	DIAL SETTING	REMARKS	ADJUSTMENT
1	Refer to Figures 33 and 34	Exactly 98 MHz (54 dB) un modulated.	98 MHz	Adjust for 19 ± 0.1 kHz.	Adjust the semi-variable resister (VR1)

Figure 33 FM MPX ALIGNMENT EQUIPMENT CONNECTION

Figure 34 FM DUMMY

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Figure 35 ALIGNMENT POINTS

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(Specifications or wiring diagrams of this model are subject to change for the improvement without prior notice.) Figure 36 SCHEMATIC DIAGRAM

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●VOLTAGE READINGS TO COMMON GROUND(—) ARE MEASURED WITH V.T.V.M. UNDER NO SIGNAL CONDITION.

Figure 37 VOLTAGE OF IC AND TRANSISTORS

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Figure 38 WIRING SIDE OF P.W. BOARD (MAIN)

Page 18

Figure 39 WIRING SIDE OF P. W. BOARD (VOLUME, SWITCH, HEADPHONE, POWER, JACK)

Page 19

Figure 40 WIRING SIDE OF P. W. BOARD (APSS, MOTOR)

Page 20

Figure 41 BLOCK DIAGRAM

Page 21

Page 22

Page 23

Figure 45 EQUIVALENT CIRCUIT OF IC (IC 1)

Figure 46 EQUIVALENT CIRCUIT OF IC (IC 2)

Figure 47 EQUIVALENT CIRCUIT OF IC (IC 301, IC 302) Figure 48 EQUIVALENT CIRCUIT OF IC (IC 401)

Figure 49 TRANSISTOR, DIODE AND LED

Page 24

REPLACEMENT PARTS LIST

PARTS LIST

	To have vo	"HOW TO ORDER REPLACEMENT PARTS" To have your order filled promptly and correctly, please furnish the following informations
	To have yo			cuy, pic		lowing informations.
		I. MODEL NUM	MBER	2.	KEF. NU.			71
		3. PART NO.		4.	DESCRIPTION
								L2 ) L3, ]
				DEE			1 1	L4
NO.	PART NO.	DESCRIPTION	CODE	NO.	PART NO.	DESCRIPTION	CODE	L5 F
				0502.)
	INTEGR	ATED CIRCUITS		Q503,		APSS Indicator Switching		L/ F
				0505.	VS2SC458-C/-1	(2SC458 ^(C) )	AC	L9 F
IC1	VHITA7303P/-1	FM IF Amp. (TA7303P)	AM	Q506				L10 F
IC2	RH-IX1069AFZZ	FM MPX (P.L.L.) (HA1156)	AN	Q601, \|	V626C469 D/ 1	Record Bias Oscillator		L11 F
IC301, }	RH-IX1020AFZZ	Audio Amp. (TBA810SH)	AN	Q602 ∫	v 525C456-D/-1	(2SC458D)	AF	L101 F
IC302 \|								L501 H
IC401	RH-IX0408AGZZ	APSS Amp. (TA7120)	AM
						DIODES		L602, H
	TRA	ANSISTORS		D1.				2000 ,
				D2	VHD1S1555V/1G	Static Protector (1S1555)	AC
Q1	VS2SC784-O/-1	FM RF Amp. (2SC784 ⁽ ))	AG	D3	VHC1S2688-B1F	FM AFC (1S2688B)	AE
Q2	VS2SC784-R/1F	FM Mixer (2SC784®)	AG	D4	VHD1N60////-1	Signal Meter Bias (1N60)	AB	T1 H
Q3	VS2SC785-R/-1	FM Oscillator (2SC785(R))	AF	D5	VHD1S1555V/1G	Signal Meter Bias (1N60)	AC	T2 I
Q4	VS2SC380-R/-1	FM IF Amp. (2SC380( R ))	AF	D6	VHD1S1555V/1G	MPX. Muting at AM (1S1555)	AC	T101 I
Q101	VS2SC380-0/-1	AM Mixer (2SC380(0))	AF	D7	VHPGL3AR1//-1	LED, STEREO Indicator	AD	T102 J
Q102	VS2SC380-R/-1	AM USCIIIATOR (2SC 380(R))	AF	D0	VIID10166651/10	(GL3AR1)		T201, T202
0104	V$2$C380-0/-1	AM IF Amp. (2SC 380(0))		D8	VHD181555V/IG	Static Protector (181555)	AC	T701
0201	VS2SC1682GR-1	Equalizer Amp. (2SC1682(TR))	AD	D101	VHD1S34BK//-1	AM Detector (1534BK) AM Tuning Detector (1534BK	0	{ ]
Q202	VS2SC732-G/-1	Equalizer Amp. (2SC732(GR))	AF	D103	VHEWZ061///-1	Zener, Voltage Stabilizer	AE
Q203	VS2SC1682GR-1	Equalizer Amp. (2SC1682 (R))	AD			(WZ061)
Q204	VS2SC732-G/-1	Equalizer Amp. (2SC732(GR))	AF	D104	VHD1S34BK//-1	AM Overload (1S34BK)
Q205	VS2SC373-G/-1	APSS Mixer (2SC373 ^(G) )	AF	D201,	VHD1N60////-1	ALC (1N60)	AB	CELOL )
Q206,	VS2SC372-Y/-1	Buffer Amp. (2SC372(Y))	AG	D202		ALC (1100)		CF101,
Q207 J	V$2$C732BI /1E	Basard Amn (2SC722(PI))		D203,	VHD1S34BK//-1	ALC (1S34BK)		CF102)
0208	VS2SC373-G/-1	Record Amp. (2SC 732(BL))		D204 )
0210	VS2SC732BL/1F	Record Amp. (2SC575(G)) Record Amp. (2SC732(BL))		D301,	VHD1S34BK//-1	VU Meter (1S34BK)	AB
Q211	VS2SC373-G/-1	Record Amp. (2SC373G)	AF	D401	VHVHV46-G//-1	APSS Muting (HV46G)	AD
Q212	VS2SC1583G-1F	ALC Amp. (2SC1583(G))	AF	D402	VHD1S1555V/1G	APSS Muting (1S1555)	AC	M1
Q213	VS2SC373-G/-1	ALC Amp. (2SC373 ^(G) )	AF	D501,				M2,
Q301	VS2SC373-G/-1	DIN Amp. (2SC373(G))	AF	D502,				M3 \|
Q302	VS2SC372-Y/-1	Muting (2SC372(Y))	AG	D503,				M101
0304	V 525C / 52-G/-1	DIN Amp. (25C 732(GR))		D504,		ADSS Indicator Southhins
0305	VS2SC372-Y/-1	Muting (28C372(V))		D505,	VHD1S1555V/1G	(181555)	AC
Q306	VS2SC732-G/-1	Pre. Amp. (2SC732(GR))	AF	D500,		(131355)
Q307,				D508,				VC1,
Q308	VS2SC372-Y/-1	Meter Amp. (2SC372(Y))	AG	D509,				VC2,
Q309, ]	V$2$C732-C/-1	Pre Amn (2SC732(PR))	AE	D510				VC101,
Q310 )	10200102 0/ 1	110. milp. (2007 52 (city)		D511,		LED APSS Indicator		VC102,
Q311,	VS2SC372-Y/-1	Matrix Amp. (2SC372(Y))	AG	D512,	VHPGL31AR8/-1	(GL31AR8)		1C3, TC4
0313	V$25D469 C/1	Dinnla Filter (28D468())	AE	D513 }	DU DV100(AF77			TC104
C401	VS2SA495-Y/-1	APSS Switching (28A495(V))		D314	KH-DA1000AFZZ	(10E-1)	AC	TC107
Q402.		APSS, Level Comparison		D515	VHD181555V/1G	APSS Indicator Switching	AC	TC103,
Q403	v S2SC372-Y/-1	((2SC372(Y))	AG			(1$1555)	nc \|	TC105
Q404	VS2SA495-Y/-1	APSS, Plunger Drive	AD	D701,)		·
		(2SA495 (Y))		D702,	VHD10F1////-1	Rectifier (10F-1)		TC106
Q405	VS2SD468-C/-1	APSS Plunger Drive	AE	D703,	• IID10L1////-1	Notifier (TOE-1)	AL	TCI08 I
0501		(2SD468(C))		D704 J
	****	Aroo, mulcator Switching	AC					• 1.201, 1

PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE
	COILS		VR 301 (A, B)	RVR-Q0058AFZZ	20K ohm (B), VOLUME	AH
RCU R01124F77	EM RE		VR 302 (A, B)	RVR-P0061AFZZ	100K ohm (A), TREBLE
KCIEKOI12AI EE		лл	VR303	RVR-P0061AFZZ	100K ohm (A), BASS
RCILR0089AFZZ	FM Oscillator	AA	VR 304	RVR-Q0059AFZZ	50K ohm (B), BALANCE
RCILC0030AFZZ	FM IF Trap	AC	VR305,	RVR-M0003SGZZ	5K ohm (B), Meter Sensitivity	AC
RCILA0255AFZZ	SW Antenna	AE	VR 306		Adjust
RCILAU4U8AFZZ	M W/LW Antenna SW Oscillator		VR601, VR602	RVR-M0126AFZZ	SK onm (B), Bias Current	AC
RCILB0309AFZZ	MW Oscillator		V K002	)	Aujust
RCILB0353AFZZ	LW Oscillator	AD		CAP	ACITORS
RCILF0014AGZZ	Choke	AC	(Unless o	otherwise specified capac	citors are 50V, +80 –20%, Cerami	c type.)
RCILF0014AGZZ	Choke	AC
RCILF0014AGZZ	Choke	AC	C5	VCKSPU2GL221M	220PF, 400V (AC), ±20%,
RCILB0086AGZZ	Bias Oscillator	AF			Ceramic
RCILB0376AFZZ	Bias Step-up	AE	C7	VCCSPU1HL100F	10PF, 50V, ±1PF, Ceramic
			C8	VCKZPU1HF102Z	.001MFD
TDAN	REODMEDS		C9	VCCSPUTHL220J	22PF, 50V, ±5%, Ceramic
ITAN	SFURMERS		C10 C11	VCCSPU1HI5POC	5PE 50V + 25PE Coramia
RCU 101574E77	FM IF	AE	C12	VCCCPU1HH1R0C	1PE 50V + 25PE Ceramic
RCILI0208AFZZ	FM IF		C13	VCCSPU1HL101J	100PF, 50V, ±5%, Ceramic
RCILI0224AFZZ	AM IF (455kHz)	AH	C14	VCKYPU1HB472M	.0047MFD, 50V, ±20%, Ceramic
RCILI0170AFZZ	AM IF	AD	C15	VCKZPU1HF223Z	.022MFD
DTD NHOO45 ΔΕ77	Pagarding	AE	C17	VCKYPU1HB222M	.0022MFD, 50V, ±20%, Cerami
KIKNI000JAFLL	Recording	Аг	C18	VCCUPU1HJ150J	15PF, 50V, ±5%, Ceramic
RTRNP0504AFZZ	Power (GF-9090H, HB)	AW	C19	VCCCPU1HH6R0C	6PF, 50V, ±.25PF, Ceramic
RTRNP0509AFZZ	Power (GF-9090E)		C20	VCKZPU1HF103Z	.01MFD
			C22,
F			C23,	VCKZPU1HF103Z	.01MFD
•			C24,
DEU FOOD A DEE			C26	VCCSPU1HL100F	10PF, 50V, ±1PF, Ceramic
RFILF0009AFZZ	FM Ceramic Filter (10./MHz)	AE	C27	VCKZPU1HF103Z	.01MFD
			C29	VCKZPU1HF333P	.033MFD, 50V, +100-0%, Cera	mic
			C30	VCKZPU1HF223Z	.022MFD
PACKAG	ED CIRCUITS		C31	VCCSPU1HL221J	220PF, 50V, ±5%, Ceramic
DEU FOOSCAF77			C32	VCKZPUTHF223Z	.022MFD
RFILF0056AFZZ	B.P.F. FM AN1.	AE	C33	VCQYKUIHMIU3M	.01MFD, 50V, ±20%, Mylar	AB
RMPTA0064AFZZ	MPX. Filter	AE	C35		0022MED 50V +20% Mylar
RMPTA0102AFZZ	Low Pass Filter	AC	C36	VCKZPU1HF223Z	022MFD
			C38	VCKZPU1HF103Z	.01MFD
			C42	VCQSMU1HS471J	470PF, 50V, ±5%, Styrol	AB
CO	NTROLS		C43	VCQYKU1HM153M	.015MFD, 50V, ±20%, Mylar	AB
			C44	VCKZPU1HF103Z	.01MFD
	Variable Capacitors, Tuning		C45	VCQYKU1HM153M	.015MFD, 50V, ±20%, Mylar	AB
	with Trimmers		C46, \|	VCCSPU1HL331J	330PF, 50V, ±5%, Ceramic
	TC3: FM RF Inimmer		C47 )	VCCUDU1U11801	19PE 50V +5% Coromia
RVC-R0057AFZZ	TC104: MW Antenna Trimme	AQ	C50.	VCCUFUIIIJ180J	18FF, 50V, ±5%, Cetallic
	TC107: MW Oscillation		C51	VCKZPU1HF103Z	.01MFD
	Trimmer		C52	VCCSPU1HL3R0C	3PF, 50V, ±.25PF, Ceramic
			C53	VCKSPU2GL221M	220PF, 400V (AC), ±20%,
RTO-H2050AF77	Trimmer Assembly				Ceramic
	TC103: SW Antenna Trimmer		C54	VCKYPU1HB472M	.0047MFD, 50V, ±20%, Cerami	e \|
	TC105: LW Antenna Trimmer		C55	VCKZPU1HF223Z	.022MFD
RTO-H1007AFZZ	SW Oscillation Trimmer	AC	C56	VCKZPU1HF103Z	.01MFD
RIU-H100/AFZZ RVR-M01264E77	LW Uscillation Trimmer		C58 1	VUKTPUTHB223M	.022MFD, 50V, ±20%, Ceramic
	JK OHIN (D), F.L.L. VCO Adjust		C59	VCCSPU1HL181J	180PF, 50V, ±5%, Ceramic
RVR-P0062AFZZ	50K ohm (A), RECORD		C60	VCCCPU1HH3R0C	3PF, 50V, ±.25PF. Ceramic
			C61	VCKZPU1HF102Z	.001MFD

Page 25

REF. NO.	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE
C109	VCCSPU1HL5R0C	5PF, 50V, ±.25PF, Ceramic		C356	VCQYKU1HM682M	.0068MFD, 50V, ±20%, Mylar	AB
C110	VCCSPU1HL3R0C	3PF, 50V, ±.25PF, Ceramic		C357	VCQYKU1HM152K	.0015MFD, 50V, ±20%, Mylar	AB
C111	VCCSPU1HL5R0C	5PF, 50V, ±.25PF, Ceramic		C362	VCQYKU1HM102K	.001MFD, 50V, ±10%, Mylar	AB
C112	VCCSPU1HL390J	39PF, 50V, ±5%, Ceramic		C363	VCQYKU1HM223M	.022MFD, 50V, ±20%, Mylar	AB
C113	VCQSMT1HS332J	3300PF, 50V, ±5%, Styrol	AB	C365	VCQYKU1HM333M	.033MFD, 50V, ±20%, Mylar	AB
C114	VCCSPU1HL271J	270PF, 50V, ±5%, Ceramic		C366	VCQYKU1HM223M	.022MFD, 50V, ±20%, Mylar	AB
C115	VCCSPU1HL221J	220PF, 50V, ±5%, Ceramic		C367,	VCCSPU1HL151J	150PF, 50V, ±5%, Ceramic
C110 C117	VCCCPUIHHSRUC	SPF, 50V, ±.25PF, Ceramic
C118		18PF, 50V, ±5%, Ceramic		C372	VCQYKU1HM102K	.001MFD, 50V, ±10%, Mylar	AB
C110	VCCSPU1HL151J	150PF, 50V, ±5%, Ceramic		C373	VCOYKU1HM223M	.022MFD, 50V, ±20%, Mylar	AB
C120	VCKZPU1HF223Z	.022MFD		C401	VCKZPU1HF223Z	.022MFD
C121	VCQYKU1HM102K	.001MFD, 50V, ±10%, Mylar	AB	C402	VCCSPU1HL220J	22PF, 50V, ±5%, Ceramic
C122	VCQYKU1HM223M	.022MFD, 50V, ±20%, Mylar	AB	C503, \|
C123	VCQYKU1HM473M	.047MFD, 50V, ±20%, Mylar	AC	C504,	VCKZPU1HF102Z	.001MFD
C124,	VCKZPU1HF223Z	.022MFD		C505	VCKYPU1HB472M	.0047MFD, 50V, ±20%, Ceramic
C125	VCKZPU1HF103Z	.01MFD		C508	VCKZPU1HF102Z	.001MFD
C130.	Vendi erini 1002			C602	VCQYKU1HM273K	.027MFD, 50V, ±10%, Mylar	AB
C131,	VCKZPU1HF223Z	.022MFD		C603	VCQYKU1HM103M	.01MFD, 50V, ±20%, Mylar	AB
C132				C605	VCQYKU1HM563K	.056MFD, 50V, ±10%, Mylar	AC
C133	VCKZPU1HF222Z	.0022MFD		C606,	VCQYKU1HM103K	.01MFD, 50V, ±10%, Mylar	AB
C134, C135	VCKZPU1HF223Z	.022MFD		C607 J	VCQYKU1HM153M	.015MFD, 50V, ±20%, Mylar	AB
C137	VCKZPU1HF103Z	.01MFD		C701,	VCKZPU1HF223Z	.022MFD
C140,	VCKZPU1HF223Z	.022MFD		C702 \| C703	VCKZPU1HF104Z	.1MFD
C142	VCOYKU1HM103M	.01MFD. 50V, ±20%, Mylar	AB	0.00
C151	VCQYKU1HM333M	.033MFD, 50V, ±20%, Mylar	AB
C205	VCQYKU1HM102K	.001MFD, 50V, ±10%, Mylar	AB		ELECTROLY	TIC CAPACITORS
C206	VCCSPU1HL271J	270PF, 50V, ±5%, Ceramic
C207	VCCSPU1HL221J	220PF, 50V, ±5%, Ceramic		C16	VCEAAU1CW476Y	47MFD, 16V, +50 –10%
C210	VCQYKU1HM333K	.033MFD, 50V, ±10%, Mylar	AB	C21	VCEALUIHW474M	.47MFD, 50V, ±20%	AC
C212	VCQYKU1HM102K	.001MFD, 50V, ±10%, Mylar	AB	C28	VCEAAUICW4701	47MFD, 16V, +50 -10%	AD
C213		270PF, 50V, 45%, Ceramic		C39	VCFAAU1HW105A	1MFD, 50V, +75-10%	AB
C214 C217	VCOYKU1HM333K	033MFD, 50V, ±10%, Mylar	AB	C40	VCEALU1HW474M	.47MFD, 50V, ±20%	AB
C218	VCKZPU1HF223Z	.022MFD		C41	VCEALU1HW224M	.22MFD, 50V, ±20%	AB
C224	VCQYKU1HM102K	.001MFD, 50V, ±10%, Mylar	AB	C49	VCEAAU1EW475A	4.7MFD, 25V, +75–10%	AB
C225	VCCSPU1HL680J	68PF, 50V, ±5%, Ceramic		C136	VCEAAU1AW107Y	100MFD, 10V, +50 10%	AB
C230, ]	VCOYKU1HM102K	001MED, 50V, ±10%, Mylar	AB	C138	VCEAAU1AW107Y	100MFD, 10V, +50 –10%	AB
C231		0047MFD 50V ±10% Mylar	AB	C141,	VCEAAU1EW475A	4.7MFD, 25V, +75–10%	AB
C232		.001MFD, 50V, ±10%, Mylar	AB	C145	,	····
C235	VCCSPU1HL680J	68PF, 50V, ±5%, Ceramic		C146	VCEAAU1AW107Y	100MFD, 10V, +50 -10%	AB
C240,	VCOVEULUMIO2V	001MED 50V +10% Mylar	AD	C150	VCEALU1HW104M	.1MFD, 50V, ±20%	AB
C241		.001MFD, 50V, ±10%, Mylar	AD	C201,	VCEALU1HW334M	.33MFD, 50V, ±20%	AB
C242 C246,		.0047MFD, 50V, ±10%, Mytar	AB	C202 ) C203	VCEAAU1AW107Y	100MFD, 10V, +50 –10%	AB
C247	VCCSPU1HL221J	220PF, 50V, ±5%, Ceramic		C204	VCEAAU1EW335A	3.3MFD, 25V, +75 -10%	AB
C304	VCCSPU1HL151J	150PF, 50V, ±5%, Ceramic		C208,	VCEAAU1CW106Y	10MFD, 16V, +50 -10%	AB
C307	VCQYKUIHM392M	.0039MFD, 50V, ±20%, Mylar		C209 )	VCFAAU1FW335A	3 3MED 25V +75 -10%	AB
C312	VCQ1KU1HM223M	.022MFD, 50V, ±20%, Mylar	AB	C211
C312	VCOYKU1HM333M	.033MFD, 50V, ±20%, Mylar	AB	C216	VCEAAU1CW106Y	10MFD, 16V, +50 –10%	AB
C318	VCCSPU1HL151J	150PF, 50V, ±5%, Ceramic		C219,
C321	VCQYKU1HM392M	.0039MFD, 50V, ±20%, Mylar	AA	C220,	VCFAAU1CW106V	10MFD, 16V, +50 -10%	AB
C332	VCQYKU1HM223M	.022MFD, 50V, ±20%, Mylar	AB	C221,	+ CLARUIC #1001
C333	VCQYKU1HM682M	.0068MFD, 50V, ±20%, Mylar	AB	C222			\| A.D.
C336	VCQYKU1HM682M	.0068MFD, 50V, ±20%, Mylar	AB	C223	VCEALU1HW104M	.1MFD, 50V, ±20% 220MED 6 237 ±50 10%
C337	VCQYKU1HM223M	.022MFD, 50V, ±20%, Mylar	AB	C220	ν CEAAUUJ W 33/ Υ VCEA ΔΙΙΙ Δ W 33/ Υ	33MED 10V +50 -10%	AR
C340	VCOVKUIHF1032	001MED 50V +10% Mylar	AR	C227	VCEAAU1AW227V	220MFD, 10V, 150 - 10%	AC
C345	VCOYKII1HM152K	.0015MFD. 50V. ±20%. Mylar	AB	C229	VCEAAU1AW336Y	33MFD, 10V. +50 –10%	AB
C346	VCOYKU1HM682M	.0068MFD. 50V. ±20%. Mylar	AB	C233	VCEALU1HW104M	.1MFD, 50V, ±20%	AB
C350	VCQYKU1HM102K	.001MFD, 50V, ±10%, Mylar	AB

Page 26

REF. NO.	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE
C236	VCEAAU0JW337Y	330MFD, 6.3V, +50 -10%	AC		RE	SISTORS
C237	VCEAAU1AW336Y	33MFD, 10V, +50 -10%	AB	(Unless o	therwise specified resist	ors are 1/4W, ±5%, Carbon type.)
C238	VCEAAU1AW227Y	220MFD, 10V, +50 -10%	AC	R1	VRD-ST2EE102J	1K ohm
C239	VCEAAU1AW336Y	33MFD, 10V, +50 -10%	AB	R13	VRD-ST2EE224J	220K ohm
C243	VCEAAU1HW105A	1MFD, 50V, +75 –10%	AB	R14	VRD-ST2EE474J	470K ohm
C244	VCEAAUIAW107Y	100MFD, 10V, +50 –10%	AB	R20	VRD-ST2EE331J	330 ohm
C301	VCEAAUIHWIUSA	IMFD, 50V, +/5 –10%	AB	R21	VRD-ST2EE103J	10K ohm
C302,	VCEAAU1CW106Y	10MFD, 16V, +50 -10%	AB	R22	VRD-ST2EE333J	33K ohm
C305	VCEAAU1AW107Y	100MFD 10V +50 -10%	AB	R23	VRD-ST2EE560J	56 ohm
C306	VCEALU1HW474M	47MFD, 50V, ±20%	AB	R27	VRD-ST2EE103J	10K ohm
C308	VCEALU1HW224M	.22MFD. 50V. ±20%	AB	R28	VRD-ST2EE472J	4.7K ohm
C309	VCEALU1HW105M	1MFD, 50V, ±20%	AD	R30	VRD-ST2EE150J	15 ohm
C310	VCEALU1HW474M	.47MFD, 50V, ±20%,	AB	R32 D101	VKD-SUZBY103J	10 shm
C314	VCEALU1HW104M	.1MFD, 50V, ±20%	AB	R101 R102	VDD_SU2E2100J	1 5K ohm
C315	VCEAAU1HW105A	1MFD, 50V, +75 -10%	AB	R102 R104	VRD-SU2EY1001	10 ohm
C316, ]	VCEAAU1CW106V	10MED 16V +50 10%	AB	R101	VRD-SU2EY1211	120 ohm
C317 \|	VCLARUIC WI001	10MPD, 100, 150 -10%		R108	VRD-SU2EY471J	470 ohm
C319	VCEAAU1AW107Y	100MFD, 10V, +50 -10%	AB	R109	VRD-SU2EY121J	120 ohm
C320	VCEALU1HW474M	.47MFD, 50V, ±20%	AB	R112	VRD-SU2EY223J	22K ohm
C322	VCEALU1HW224M	.22MFD, 50V, ±20%	AB	R116	VRD-ST2EE152J	1.5K ohm
C323	VCEALU1HW105M	1MFD, 50V, ±20%	AD	R121,]	VDD-ST2FF2211	220 ohm
C324	VCEALUIHW474M	.47MFD, 50V, ±20%	AB	R126 🗍	VKD-SIZEEZZIJ	220 800
C325,	VCEAAU1CW106Y	10MFD, 16V, +50 –10%	AB	R127	VRD-ST2EE183J	18K ohm
(320)				R129	VRD-SU2EY103J	10K ohm
C328	VCEAAU1HW105A	1MFD, 50V, +75 –10%	AB	R130	VRD-SU2EY222J	2.2K ohm
C329	VCFALU1HW105M	1MED 50V +20%	AD	R131	VRD-ST2EE101J	100 ohm
C330	VCFAAU1CW106Y	10MED 16V +50 -10%	AB	R132	VRD-ST2EE152J	1.5K ohm
C331	VCEAAU1CW108Y	1000MFD, 16V, +50 –10%	AE	R201,	VRD-ST2EE101J	100 ohm
C334	VCEALU1HW105M	1MFD, 50V, ±20%	AD	R202 )
C335	VCEAAU1CW106Y	10MFD, 16V, +50 –10%	AB	R203,	VRD-SU2EY562J	5.6K ohm
C339	VCEAAU1CW107Y	100MFD, 16V, +50 -10%	AC	R204 }
C341	VCEALU1HW104M	.1MFD, 50V, ±20%	AB	R210	VRD-ST2EE102J	1K ohm
C342,			1 \|	R210	VRD-ST2EE223J	22K ohm
C343, }	VCEAAU1AW107Y	100MFD, 10V, +50 –10%	AB	R213	VRD-ST2EE392J	3.9K ohm
C344 J				R214	VRD-ST2EE151J	150 ohm
C347	VCEAAUIAWI08Y	1000MFD, 10V, +50 –10%		R215	VRD-ST2EE104J	100K ohm
C348	VCEALUIHWIU4M	.1MFD, 50V, ±20%	AB	R216	VRD-ST2EE102J	1K ohm
C351	VCE9A115D4/5M	4./MFD, 50V, ±20%		R217	VRD-ST2EE272J	2.7K ohm
C352.)	VCEALUINW104M	.1MFD, 30V, ±20%	AD	R218	VRD-ST2EE392J	3.9K ohm
C353.	VCEAAU1AW107Y	100MED 10V +50 -10%	AB	R219	VRD-ST2EE563J	56K ohm
C354		100001 2,100,000 10,0		R220	VRD-ST2EE392J	3.9K ohm
C355	VCEALU1HW104M	.1MFD, 50V, ±20%	AB	R222	VRD-ST2EE223J	22K ohm
C358	VCEAAU1AW108Y	1000MFD, 10V, +50 –10%	AD	R223 D224	VRD-SIZEE392J	3.9K Onm
C359	VCE9AT1SD475M	4.7MFD, 30V, ±20%	AD	R224 R225	VRD-SIZEEISIJ	100K ohm
C361	VCEAAU1EW228Y	2200MFD, 25V, +50 -10%	AH	R225	VRD-ST2EE104J VRD-ST2FF102I	1K ohm
C364,				R227	VRD-ST2EE272J	2.7K ohm
C369,	VCEALU1HW104M	.1MFD, 50V, ±20%	AB	R228	VRD-ST2EE392J	3.9K ohm
C370 J				R229	VRD-ST2EE563J	56K ohm
C3/4	VCEAAUIAW107Y	100MFD, 10V, +50 –10%	AB	R230	VRD-ST2EE392J	3.9K ohm
C403	VCEAAUIEW335A	3.3MFD, 25V, +75 –10%	AB	R239	VRD-ST2EE470J	47 ohm
C404 C405	VCEAAUICW106Y	10MFD, 16V, +50 -10%	AB	R241	VRD-ST2EE153J	15K ohm
C406	VCEALIIIW103A	1MED, 50V, +/3 -10%	AB	R243	VRD-ST2EE101J	100 ohm
C407	VCFAAU1CW107V	100MFD 16V +50 10%		R245	VRD-ST2EE333J	33K ohm	Ì
C501.1	· CLARUICWIU/ I	100111 2, 104, 130 -10%		R246	VRD-ST2EE563J	56K ohm
C502	VCEAAU1CW106Y	10MFD, 16V, +50 –10%	AB	R249	VRD-ST2EE470J	47 ohm
C507	VCEAAU1CW227Y	220MFD, 16V, +50 -10%		K251	VRD-ST2EE153J	15K ohm
C604	VCEAAU1CW107Y	100MFD, 16V, +50 –10%	AC	K233 D755	VKD-SIZEEIUIJ	100 ohm
				R233 R256	VRD-SIZEESSSJ	SSK ONIN S6K ohm
	, X		\| \|	R257	AUDIZEEJ000	JOK OIIII
				R258	VRD-ST2EE472J	4.7K ohm
			1 1	R259	VRD-ST2EE153J	15K ohm

Page 27

REF. NO.	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE
R260, ]	VRD-ST2EE2721	2.7K ohm		R502,	VRD-SU2BY223J	22K ohm, 1/8W, ±5%, Carbon
R261				R503	VDD GTOFF2221	2.214 - 1		Ĺ
R267,	VRD-ST2EE223J	22K ohm		K504	VRD-SIZEE332J	3.3K ohm
R268				R505	VRD-SIZEEZ/ZJ VDD-SU2BV1531	2.7K Onin 15K ohm 1/8W ±5% Corbon		Ĺ
R269,	VRD-ST2EE472J	4.7K ohm		R500	VRD-502011555	15K ohm, 1/6W, -5%, Carbon		Ĺ
R270 )	UDD GTODDICAL	1.677 . 1		R508	VRD-ST2EE1555	2.7K ohm		Ĺ
R302	VRD-ST2EE152J	1.5K ohm		R500	VKD-512EE272J	2.7 K OHM		Ĺ
R304	V KD-SIZEE151J	150 onm		R510	VRD-ST2EE223J	22K ohm		Ĺ
R 300	VRD-SIZEE102J	1 N OHIII 120 ohm		R511.)				Ĺ
D 211	VDD-ST2EE121J	1 9K ohm		R512.	VRD-ST2EE561J	560 ohm
R311	VRD-ST2EE182J	6.8K ohm		R513				Ĺ
R 314	VRD-ST2EE002J VRD-ST2FF274I	270K ohm		R514,		00V 1
R315	VRD-ST2EE182J	1.8K ohm		R515	VRD-STZEE223J	22K ohm
R316	VRD-ST2EE121J	120 ohm		R516	VRD-ST2EE562J	5.6K ohm
R318	VRD-ST2EE152J	1.5K ohm		R517	VRD-ST2EY103J	10K ohm		ĺ
R320	VRD-ST2EE151J	150 ohm		R603	VRD-SU2EY1R0J	1 ohm		Ĺ
R324	VRD-ST2EE102J	1K ohm		R604	VRD-ST2EE330J	33 ohm		Ĺ
R325	VRD-ST2EE121J	120 ohm		R605	VRD-ST2EE560J	56 ohm		Ĺ
R327	VRD-ST2EE182J	1.8K ohm		R608	VRD-ST2EE220J	22 ohm
R 328	VRD-ST2EE682J	6.8K ohm
R330	VRD-ST2EE274J	270K ohm				HOAL DADTO
R331	VRD-ST2EE182J	1.8K ohm			MECHAI	NICAL PARTS
R332	VRD-ST2EE121J	120 ohm		001	IVNIDDOOSS ADSO	Kash STOD	AC
R333,	VRD-ST2EE273J	27K ohm		001	JENDBOOSCAFSC	Knob, STOP	AG
R334 J				002	JENDBOOSTAFSC	Knob Deverse APSS
R335,	VRD-ST2EE473J	47K ohm		003	IKNBM0240AFSF	Knob, REVEISE AT 55 Knob, FIECT/REW/DI AV/FE/	AF
R336 \| R341	VRD-SU2EY473J	47K ohm		004	JANDHOZ-OAI DE	PAUSE
R342,	VRD-ST2EE822J	8.2K ohm		005	JKNBM0240AFSF	Knob, RECORD
R343 )				000	LANGFUJ/UAFFW	Plate, Sub Chassis Stopper Bracket Muting Switch
R344	VRD-SU2EY122J	1.2K ohm		007	LANGTOSIAAFTW	Bracket Elywheel	AC	Ì
R346	VRD-SIZEE362J	5.6K ONM		009	LBSHS0001AG00	Bushing Motor		ĺ
K34/	VRD-SIZEE183J	18K Onm 4 7K ohm		010	LCHSM0228AFZZ	Mechanism Chassis Assembly	ЛЛ
R 349 R 250	VRD-SIZEE472J	4.7K ohm 470K ohm		011	LCHSS0107AF00	Sub Chassis Assembly
R 350	VRD-SU2E1474J	4.7K ohm		012	LHLDW3007AGZZ	Holder. Wire
R 352	VRD-ST2FF103I	10K ohm		013	LSTWC2001AFZZ	Stop Washer, 20
R353	VRD-SU2EY472J	4.7K ohm		014	LSTWC2403AFZZ	Stop Washer, 2.40
R354	VRD-SU2EY273J	27K ohm		015	LSTWC3002AFZZ	Stop Washer, 3 \phi
R357.1				016	LX-BZ0107AGZZ	Screw, Flywheel Thrust Adjust	AB
R358	VRD-ST2EE273J	27K ohm		017	LX-BZ0148AGFD	Screw, Motor	AA
R361	VRD-ST2EE562J	5.6K ohm		018	LX-HZ0056AFFD	Screw, Flywheel Bracket and
R362	VRD-ST2EE472J	4.7K ohm				Muting Switch
R363	VRD-ST2EE183J	18K ohm		019	LX-WZ5013AGZZ	Washer, Erase Head	AA
R365	VRD-SU2EY474J	470K ohm		020	LX-WZ5015AGZZ	Washer, Detect Lever	AA
R367,]	VRD-SU2EY472I	4.7K ohm		021	LX-WZ5018AGZZ	Washer, Slip Roller and Gear	AA
R368				022		washer, Flywheel
R369	VRD-ST2EE103J	10K ohm		023		Arm Auto Ston
R370	VRD-SU2EY273J	27K ohm		024		Arm Auto Stop Lock Peret
R371	VRD-ST2EE101J	100 ohm		025	MARMIOUZAFZZ MIEVE05474E77	Lever Main Lock Plate
K3/2	VKD-SIZEE2RZJ	2.2 ONM 2.0 ohm		027	MLEVF0548AFZZ	Lever, APSS Lock Plate
K3/3 D274	VED-SIZEESKYJ	220 ohm		028	MLEVF0549AFZZ	Idler, Take-up	AG
R374	VRD-ST2EE221J	47 ohm		029	MLEVF0550AFFW	Lever, Pause	AD
R377	VRD-ST2EE4705	100 ohm		030	MLEVF0551AFFW	Lever, Fast Forward/Rewind	AD
R 378	VRD-ST2EE2R2J	2.2 ohm		031	MLEVF0553AFFW	Lever, Eject	AD
R379	VRD-ST2EE221J	220 ohm		032	MLEVF0555AFZZ	Lever, Forward APSS	AD
R380	VRD-ST2EE3R9J	3.9 ohm		033	MLEVF0556AFZZ	Lever, Reverse APSS	AD
R381	VRD-ST2EE681J	680 ohm		034	MLEVF0557AFFW	Lever, Fast Forward/Rewind	AE
R382	VRD-ST2EE101J	100 ohm		035	MLEVF0558AFFW	Lever, Fast Forward	AD
R383,	VDD STIEF5421	56K ohm		036	MLEVF0560AFFW	Lever, Record Mistake Proof	AC
R384	VKD-312EE303J	JOK OIIII	ļļ	037	MLEVF0564AFFW	Lever, Stop	AC
R405	VRD-ST2EE822J	8.2K ohm		038	MLEVF0617AFZZ	Lever, Quick Stop	AB
R406	VRD-ST2EE330J	33 ohm		039	MLEVF0618AFZZ	Lever, Pause Mistake Proof	AC
R413	VRD-ST2EE561J	560 ohm		040	MLEVFU643AFZZ	Lever, Play	AG
R501	VRD-SU2BY332J	3.3K ohm, 1/8W, ±5%, Carbon	\| \|	041	MLEVF0/02AFZZ	Lever, Record	AD

Page 28

REF. NO.	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE
042	MLEVP0057AF00	Lever, Erase Proof	AC	098	QPWBF0584AFZZ	P.W. Board, Motor
043	MLEVP0058AFZZ	Lever, Brake	AC	099	QPWBF0625AFZZ	P.W. Board, APSS Indicator
044	MLEVP0060AFZZ	Lever, Auto Stop	AC	100	RHEDA0059AFZZ	Head, Erase	AK
045	MLEVP0061AFZZ	Lever, Tape End Detect	AB	101	RHEDH0052AFZZ	Head, Record/Play Back	AW
046	MLEVP0062AFZZ	Lever, Fast Forward	AB	102	RMOTM0067AFZZ	Motor with Pulley	AX
047	MLEVP0063AFZZ	Lever, Sub Chassis Return	AC	103	KCOUB0061AFZZ	Counter
048		Lever, Pause Mistake Proof	AC	104	NBLIKUIUSAFZZ	Belt, Counter	AC
049	MSPRC0031ACMN	Spring REC/P B Head Adjust
050	MSPRC01094FFI	Spring, REC/1.D. Head Aujust			MISCE
052	MSPRC0110AFFI	Spring, Play Lever			MIGOL
053	MSPRC0111AFFJ	Spring, Detect Lever	AA	201	GCABA1451AFSA	Cabinet, Front (GF-9090H, HB)
054	MSPRC0115AFFJ	Spring, Supply Turntable	AA		GCABA1452AFSA	Cabinet, Front (GF-9090E)
055	MSPRC0139AFFJ	Spring, EJECT/REW/REC/F.F/ PAUSE	AA	202 203	GCABB1438AFSA GCOVA1083AFSA	Cabinet, Back Cover APSS Indicator (LED)	AY
056	MSPRD0107AFFI	Spring, Pinch Roller Assembly	AB	203	GETAB1104AFSA	Lid Battery Compartment	AD
057	MSPRD0108AFFJ	Spring, Brake Lever	AA	205	GFTAC1069AFSA	Holder, Cassette
058	MSPRD0109AFFJ	Spring, Forward APSS Lever	AA	206	GWAKP9003AFSA	Cabinet, Operation Plate	AR
059	MSPRD0110AFFJ	Spring, Reverse APSS Lever	AA	207	HDALM0179AFSA	Plate, Dial Scale	AK
060	MSPRD0111AFFJ	Spring, Stop Lever	AB	208	HDECA0275AFSA	Decoration Ring, Woofer	AS
061	MSPRD0112AFFJ	Spring, Erase Proof Lever	AA	209	HDECA0276AFSA	Plate, Operation	AU
062	MSPRD0116AFFJ	Spring, Auto Stop Lock Reset	AB	210	HDECB0064AFSA	Decoration Ring, Tweeter	AG
		Arm		211	HINDM1133AFSB	Indication Metal, SHARP	AA
063	MSPRD0117AFFJ	Spring, Record Mistake Proof	AA	212	HINDM1153AFSA	Indication Metal, Model Spec.	AD
064	MSPRD0137AFFJ	Spring, Quick Stop Lever	AA			(GF-9090H, HB)
065	MSPRP0113AFFJ	Spring (Plate type), Auto Stop Arm	AB		HINDM1160AFSA	Indication Metal, Model Spec. (GF-9090E)	AD
066	MSPRP0115AFFW	Spring (Plate type), Sub Chassis Stopper	AC	213	{ HINDM1154AFSA	Indication Metal, Voltage Selector Switch (GF-9090H)	AC
067	MSPRP0133AFFW	Spring (Plate type), Cassette Retaining	AC		HINDM1161AFSA	Indication Metal, Main Switch (GF-9090E)	AC
068	MSPRT0151AGFJ	Spring, Cassette Lock Lever	AA	214	HINDM1155AFSA	Indication Metal, Model	AD
069	MSPRT0330AFFJ	Spring, Play Lever	AA	215	HINDM1156AFSA	Indication Metal, EXT. SP./	AD
070	MSPRT0331AFFJ	Spring, Fast Forward/	AA			EXT. ANT.
071		Rewind Lever		216	HPNC-0106AFSA	Punching Metal, Tweeter	AE
071	MSPRT0332AFFJ	Spring, Idler	AA	217	HPNC-0107AFSA	Punching Metal, Woofer	AL
072	MSPR 10333AFFJ MSDDT0224AEEJ	Spring, Roller Assembly		210	HSSNDU233AFSA IUNDC1055AESA	Pointer, Dial Scale	AD
073	MORKIUSS4AFFJ MCDDTA235AFFJ	Spring, Auto Stop Lever		219	JHNDG1055AF5A	Handle Knah Duch Switch
075	MGPDT0200AFFJ	Lever	AA	220	JKNBM0249AFSA	(BAND, AFC, MUTING)	AE
075	MSPR 10389AFFJ	Lever	AA	221	JKNBM0253AFSA	(TAPE/RADIO)	AF
076	MSPR10390AFFJ	Spring, Pause Mistake Proof	AB	222	JKNBNU309AFSA	Knob, Tuning	AC
077		Lever		223	JKNBP00/3AFSA	Knob, VOLUME/BALANCE/	AE
078		Dall JØ Belt Motor		224	INNE70109 AESA	I REBLE/BASS/RECORD	4.00
079	NBLTK0053AF00	Belt Auto Stop		224	JKNBZ0100AFSA	Knob MODE/TABE Solostor/	AB
080	NBRGC00544F77	Bearing Flywheel Shaft		223	JANDLUIUJAI JA	ALC/LOUDNESS/METER	AB
081	NDAIR0110AFSA	Turntable Take-un	AG	226	IKNR701274ESB	Knob EDIT
082	NDAIR0111AFSA	Turntable Supply		220	LANGK01834FFW	Bracket Main P.W. Board
083	NELYC0053AFZZ	Flywheel	ΔH	221	D'HIGROTOJAT I W	Retaining	AD
084	NGERH0050AFZZ	Gear. Slip Roller	AC	228	LANGO0511AFFW	Bracket Main P W Board	AB
085	NGERP0050AFZZ	Slip Roller	AC			Retaining	AD
086	NPLYR0050AFZZ	Pulley. Take-up	AB	229	LANGS0014AGFP	Bracket, Speaker Retaining	A A
087	NPLYR0052AFZZ	Pulley, Auto Stop	AB	230	LHLDA1052AFSA	Holder, Rod Antenna
088	NROLM0051AFFW	Roller, Lock Plate	AA	231	LHLDF1203AFZZ	Bracket, Switch P.W. Board
0 89	NROLV0004AFZZ	Roller Assembly	AQ	232	LHLDW9003CEZZ	Holder, Wire	AA
090	NROLY0004AFZZ	Pinch Roller Assembly	AF	233	LHLDZ1066AFSB	Holder, Dial Scale Plate	AG
091	PCUSG0026AG00	Rubber, Brake Lever	AB	234	LHLDZ1067AFZZ	Bracket, Volume P.W. Board	AK
092	PFLT-0313AF00	Washer (Felt), Detect Lever	AA	235	LHLDZ8060AFZZ	Holder, Built-in Microphone	AB
093	PSLDM3124AFZZ	Shield, Motor Noise	AB	236	LX-HZ0057AFFD	Screw, Mechanism Block
094	PSPAA0001AGFJ	Spacer, Motor Bushing	AB			Retaining
095	PZETF0123AFZZ	Stopper	AA	237	LX-HZ0058AFFD	Screw, Mechanism Block
096	QHWS-2222AGFN	Lug Terminal, Ground				Retaining
097	QHWS-3001AGFN	Lug Terminal, Ground		238	MLEVF0701AFZZ	Lever, REC/PB Switch	AE

Page 29

REF. NO.	PART NO.	DESCRIPTION	CODE	REF. NO.	PART NO.	DESCRIPTION	CODE
239	MSPRC0021AFFN	Spring, Battery (-)		J701	Not Available	Jack, EXT, DC (DC 12V)
240	MSPRC0140AFFN	Spring, Battery ()	AB		Part of 268	,
241	MSPRP0089AGFW	Spring (Plate type), Cassette	AB	ME1	RMTRL0133AFSB	Meter, VU-BATTERY	AT
		Holder		ME2	RMTRL0132AFSB	Meter, VU-TUNING	AT
242	MSPRP0132AFFW	Spring (Plate type), Cassette	AC	PG2	OCNCM102FAFZZ	Plug. 6 Pin	AC
		Holder		PG501	QCNCM105JAFZZ	Plug, 9 Pin	AD
243	MSPRP0154AFZZ	Spring (Plate type), Light Knob	AC	PL1.)
244	MSPRT0003AGFW	Spring, Dial Cord	AA	PL2	RLMPM0054AFZZ	Lamp, Dial/Meter	AE
245	NDRM-0046AFZZ	Drum, Dial Cord	AC	SOL501	RPLU-0053AFZZ	Plunger	AM
246	NPLYB0050AFZZ	Pulley, Dial Cord	AA	SO1	QSOCJ2460AFZZ	Socket, FM EXT. ANT	AD
247	NPLYB0051AFZZ	Pulley, Dial Cord	AA	SO2	OCNW-0221AFZZ	Socket, 6 Pin	AH
248	NPLYC0102AFFW	Pulley, Dial Cord	AB	SO202	OSOCD2554AFZZ	Socket, DIN Type Record/	AF
249	NSFTD0166AFFW	Shaft, Dial Cord	AE		~	Playback
250	PCOVW1100AFZZ	Cover, AC Socket	AD	SO301.)
251	PCUSG0076AF00	Cushion, Built-in Microphone	AA	SO302	QSOCD2268AFZZ	Socket, EXT.SP	AL
252	PCUSU0092AG00	Cushion, Battery Lid	AA	SO501	OCNCW096JAFZZ	Socket, 9 Pin	AC
253	PCUSU0128AFZZ	Cushion, Coil (L3, L4)	AA	SO701	Not Available,	Socket, Mains Supply (AC)
254	PCUSU0154AF08	Cushion, Meter	AA	SP1.)	Part of 268		A 337
255	PFLT-0095AG00	Felt, Cassette Holder	AA	SP2	VSP0016PB204A	Speaker, Woofer	AW
256	PFLT-0127AF00	Felt, Battery Compartment	AA	SP3, ]
257	PFLT-0307AF00	Felt, Volume Cover	AA	SP4	VSP00HNT-074A	Speaker, Horn Type Tweeter
258	PFLT-0311AF00	Felt, Switch Cover	AE	SW101)	0.000 001 45 4 5	Push Switch Assembly
259	PGUMM0115AF00	Cushion Rubber, Cassette	AA	(A~G)	QSW-P014/AFZZ	A (a~f): LW
		Holder				B (a∼f): MW
260	PRDAR0127AFFW	Heatsink, Power IC	AB			C (a~f):SW
261	PTPEC0005AG00	Ribbon, Battery Removal				D (a∼f): FM
262	QANTR0105AFZZ	Rod Antenna	AP			E (a, b) : AFC
263	QFSHD1001AGZZ	Holder, Fuse	AB			F (a, b) : MUTING
264	QJAKG0051AFZZ	Jack Assembly (J201, J202:	AH	I		G (a ~h): FUNCTION
		EXT. MIC/J302: REMOTE)		SW201	OSW-S0107AE77	Switch Record/Blayback
265	QPRBF0070AFZZ	P.W. Board, Main		(A ~P)∫	Q3W-3013/AFLL	Switch, Recold/Flayback	AM
266	QPWBF0623AFZZ	P.W. Board, Volume/Switch/		SW202	OSW-B00874E77	Switch ALC/MANUAI
		Headphone/Jack		(A ∼ D)	Q5 #-BOOD/AI LL	Switch, ALC/MANUAL	AG
267	QPWBF0624AFZZ	P.W. Board, Power		SW203 }	OSW-B00874F77	Switch Equalizer
268	QSOCZ2469AFZZ	Socket Assembly (SO701:	AH	(A ∼D) \|		Switch, Equaliser	AU
		AC/J701: EXT. DC)		SW204	OSW-P0135AF77	Switch, EDITOR	AF
269	QTANB9102AFFN	Terminal, Battery (+)	AC	(A, B)
270	QTANB9103AFFN	Terminal, Battery (+)	AC	SW301	OSW-B0086AFZZ	Switch, LOUDNESS	AF
271	RMICC0057AFZZ	Built-in Microphone	AK	(A, B)
272	LHLDW1067AFZZ	Band, Wire	AA	SW302	OSW-B0087AFZZ	Switch, METER	AG
273	LHLDW1068AFZZ	Band, Wire	AA	(A ∼ D)
274	QLUGP0111CEFW	Lug Terminal	AA	SW303	OSW-B0076AFZZ	Switch, MODE	AG
275	QLUGP0150AFZZ		AA	(A ~D)	0.000 00100 0000
276	QT1PF0001CEYW	lip	AA	SW304	QSW-F010/AFZZ	Switch, Dial/Meter Lamp	AC
278	LANGK0186AFFW	Bracket, Mains Power Switch		SW501	QSW-F0106AFZZ	Switch, Forward APSS	AD
		(GF-9090E)		SW502	QSW-F0106AFZZ	Switch, Reverse APSS	AD
279	PZETV0052AFZZ	Shield, Mains Power Switch		SW503	QSW-M0055AFZZ	F.F/REW Muting	AG
•	DOLLO COORE A DOO	(GF-9090E)		SW504	QSW-F0044AGZZ	Switch, Motor	AE
280	PCUSG0075AF00	Cushion, Back Cabinet	AB	SW601	QSW-S0191AFZZ	Switch, RIF	AE
281	PGUMM0122AF00	Cushion Rubber, Back Cabinet			OSW-B0086AFZZ	Switch, Bias Selector	AF
282	PFLT-0325AF00	Felt, Switch Knob		SW701	OSOCE0551AFZZ	Switch, Mains Voltage Selector	AG
283	LBOSD0050AFFW	Spacer, Mains Power Switch	AB			(GF-9090H, HB)
E701	000 01000 1007	(GF-9090E)			QSW-S0176AFZZ	Switch, AC Power (GF-9090F)	AP
F/UI	QFS-CIU2CAGNI	Fuse, 1.0A1	AŁ		QACCK0050AFZZ	Cord, Mains Supply (AC)	AM
1201,	NOL AVAILABLE	Jack, EXT. MIC		ļ		(GF-9090H, HB)
J202 J	Part of 204	Lade HEADBHONE			QACCB0003AG0V	Cord, Mains Supply (AC)	AL
1303	VJANJUUJZAFLL Not Available	Jack, MEADPHONE	AH			(GF-9090E)
3302	Not Available	JACK, KEMUIE			QPLGZ0152AFZZ	Plug, Erase	AB
	rall 01 204		•		RTPEK0057AFZZ	Cassette Tape	AG

Page 30

DIFFERENCE OF PARTS LIST

O: Same as GF-9090H

REF. NO.	PART NO.			DESCRIPTION
REF. NO.	GF-9090H	GF-9090HB	GF-9090E
T701	RTRNP0504AFZZ	0	RTRNP0509AFZZ	Transformer, power
201	GCABA1451AFSA	GCABA1461AFSA	GCABA1452AFSA	Cabinet, Front
205	GFTAC1069AFSA	GFTAC1074AFSA	0	Holder, Cassette
206	GWAKP9003AFSA	GWAKP9003AFSB	0	Cabinet, Operation
208	HDECA0275AFSA	HDECQ0068AFSA	0	Decoration Ring, Woofer
209	HDECA0276AFSA	HDECA0276AFSB	0	Plate, Operation
212	HINDM1153AFSA	HINDM1177AFSA	HINDM1160AFSA	Indication Metal, Model Spec.
213	HINDM1154AFSA	0	HINDM1161AFSA	Indication Metal, Mains
				Switch
217	HPNC-0107AFSA	HPNC-0110AFSA	0	Punching Metal, Woofer
219	JHNDG1055AFSA	JHNDG1055AFSB	0	Handle
220	JKNBM0249AFSA	JKNBM0249AFSB	0	Knob, Push Switch
				(BAND, AFC, MUTING)
221	JKNBM0253AFSA	JKNBM0253AFSB	0	Knob, Push Switch
				(TAPE/RADIO)
223	JKNBP0073AFSA	JKNBP0073AFSB	0	Knob, VOLUME/
				BALANCE/TREBLE/BASS/
				RECORD
224	JKNBZ0108AFSA	JKNBZ0108AFSB	0	Knob, LIGHT
225	JKNBZ0109AFSA	JKNBZ0109AFSC	0	Knob, MODE/TAPE selector/
				ALC/LOUDNESS/METER
226	JKNBZ0127AFSB	JKNBZ0127AFSC	0	Knob, EDIT
262	QANTR0105AFZZ	QANTR0107AFZZ	0	Rod, Antenna
278			LANGK0186AFFW	Bracket, Mains Power Switch
279			PZETV0052AFZZ	Shield, Mains Power Switch
283			LBOSD0050AFFW	Spacer, Mains Power Switch
SW701	QSOCE0551AFZZ	0	QSW-S0176AFZZ	Switch, Mains
	QACCK0050AFZZ	0	QACCB0003AG0V	Cord, Mains Supply (AC)

--- : Not Used