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FS-M3

SERVICE MANUAL
COMPACT COMPONENT SYSTEM

FS-M3
Area suffix J ----------------------------- U.S.A. C -------------------------- Canada

C O M PA C T
STANDBY /ON

COMPONENT

SYSTEM

FS-M3
OPEN /CLOSE

DISPLAY MODE

REMAIN

STANDBY/ON

TIMER ON/OFF
TUNER /BAND

INTRO RANDOM BAND

SET
TAPE

CD/RANDOM

CD

TUNER

TAPE

REC

PROGRAM

PROGRAM PHONES

PRESET

SEARCH/TUNING

REPEAT
REMAIN
SLEEP PRE UP

VOLUME REC STOP/CLEAR PLAY/PAUSE PRE EQ /HBS

INTRO

TIMER

REPEAT /PRE DOWN

DISPLAY MODE

PRE EQ/HBS

+
VOLUME

MUTING

BEAT CUT

EJECT

­

RM-SFSM3J REMOTE CONTROL

FULL LOGIC DECK
CD SYNCHRO RECORDING

Contents
Safety precautions Preventing static electricity Important for laser products Importance administering point on the safety Disassembly method Adjustment method 1-2 1-3 1-4 1-5 1-6 1-15 Flow of functional operation until TOC read Maintenance of laser pickup Replacement of laser pickup Trouble shooting Description of major ICs Wiring connections 1-18 1-19 1-19 1-20 1-21 1-29
No.21067 Feb. 2002

COPYRIGHT

2002 VICTOR COMPANY OF JAPAN, LTD.

FS-M3

1. This design of this product contains special hardware and many circuits and components specially for safety purposes. For continued protection, no changes should be made to the original design unless authorized in writing by the manufacturer. Replacement parts must be identical to those used in the original circuits. Services should be performed by qualified personnel only. 2. Alterations of the design or circuitry of the product should not be made. Any design alterations of the product should not be made. Any design alterations or additions will void the manufacturer`s warranty and will further relieve the manufacture of responsibility for personal injury or property damage resulting therefrom. 3. Many electrical and mechanical parts in the products have special safety-related characteristics. These characteristics are often not evident from visual inspection nor can the protection afforded by them necessarily be obtained by using replacement components rated for higher voltage, wattage, etc. Replacement parts which have these special safety characteristics are identified in the Parts List of Service Manual. Electrical components having such features are identified by shading on the schematics and by ( ) on the Parts List in the Service Manual. The use of a substitute replacement which does not have the same safety characteristics as the recommended replacement parts shown in the Parts List of Service Manual may create shock, fire, or other hazards. 4. The leads in the products are routed and dressed with ties, clamps, tubings, barriers and the like to be separated from live parts, high temperature parts, moving parts and/or sharp edges for the prevention of electric shock and fire hazard. When service is required, the original lead routing and dress should be observed, and it should be confirmed that they have been returned to normal, after re-assembling. 5. Leakage currnet check (Electrical shock hazard testing) After re-assembling the product, always perform an isolation check on the exposed metal parts of the product (antenna terminals, knobs, metal cabinet, screw heads, headphone jack, control shafts, etc.) to be sure the product is safe to operate without danger of electrical shock. Do not use a line isolation transformer during this check. Plug the AC line cord directly into the AC outlet. Using a "Leakage Current Tester", measure the leakage current from each exposed metal parts of the cabinet, particularly any exposed metal part having a return path to the chassis, to a known good earth ground. Any leakage current must not exceed 0.5mA AC (r.m.s.). Alternate check method Plug the AC line cord directly into the AC outlet. Use an AC voltmeter having, 1,000 ohms per volt or more sensitivity in the following manner. Connect a 1,500 10W resistor paralleled by a 0.15 F AC-type capacitor between an exposed metal part and a known good earth ground. AC VOLTMETER Measure the AC voltage across the resistor with the AC (Having 1000 ohms/volts, voltmeter. or more sensitivity) Move the resistor connection to each exposed metal part, particularly any exposed metal part having a return path to 0.15 F AC TYPE the chassis, and meausre the AC voltage across the resistor. Place this Now, reverse the plug in the AC outlet and repeat each probe on measurement. Voltage measured any must not exceed 0.75 V each exposed AC (r.m.s.). This corresponds to 0.5 mA AC (r.m.s.). 1500 10W metal part.
Good earth ground

1. This equipment has been designed and manufactured to meet international safety standards. 2. It is the legal responsibility of the repairer to ensure that these safety standards are maintained. 3. Repairs must be made in accordance with the relevant safety standards. 4. It is essential that safety critical components are replaced by approved parts. 5. If mains voltage selector is provided, check setting for local voltage.

! Burrs formed during molding may be left over on some parts of the chassis. Therefore, pay attention to such burrs in the case of preforming repair of this system.

In regard with component parts appearing on the silk-screen printed side (parts side) of the PWB diagrams, the parts that are printed over with black such as the resistor ( ), diode ( ) and ICP ( ) or identified by the " " mark nearby are critical for safety. (This regulation does not correspond to J and C version.)

1-2

FS-M3

Preventing static electricity
1. Grounding to prevent damage by static electricity
Electrostatic discharge (ESD), which occurs when static electricity stored in the body, fabric, etc. is discharged, can destroy the laser diode in the traverse unit (optical pickup). Take care to prevent this when performing repairs.

2. About the earth processing for the destruction prevention by static electricity
Static electricity in the work area can destroy the optical pickup (laser diode) in devices such as CD players. Be careful to use proper grounding in the area where repairs are being performed.

2-1 Ground the workbench
Ground the workbench by laying conductive material (such as a conductive sheet) or an iron plate over it before placing the traverse unit (optical pickup) on it.

2-2 Ground yourself
Use an anti-static wrist strap to release any static electricity built up in your body.

(caption) Anti-static wrist strap Conductive material (conductive sheet) or iron plate

3. Handling the optical pickup
1. In order to maintain quality during transport and before installation, both sides of the laser diode on the replacement optical pickup are shorted. After replacement, return the shorted parts to their original condition. (Refer to the text.) 2. Do not use a tester to check the condition of the laser diode in the optical pickup. The tester's internal power source can easily destroy the laser diode.

4. Handling the traverse unit (optical pickup)
1. Do not subject the traverse unit (optical pickup) to strong shocks, as it is a sensitive, complex unit. 2. Remove solder of the short land on the card wire after replacing the optical pickup. For specific details, refer to the replacement procedure in the text. Remove the anti-static pin when replacing the traverse unit. Be careful not to take too long a time when attaching it to the connector. 3. Handle the card wire carefully as it may break when subjected to strong force. 4. It is not possible to adjust the semi-fixed resistor that adjusts the laser power. Do not turn it.

5. Attention when traverse unit is decomposed
*Please refer to "Disassembly method" in the text for the CD pickup unit. Apply solder to the short land before the card wire is disconnected from the connector on the CD pickup unit. (If the card wire is disconnected without applying solder, the CD pickup may be destroyed by static electricity.) In the assembly, be sure to remove solder from the short land after connecting the card wire.

Connector

Short land

CD pickup unit

1-3

FS-M3

Important for laser products
1.CLASS 1 LASER PRODUCT 2.DANGER : Invisible laser radiation when open and inter lock failed or defeated. Avoid direct exposure to beam. 3.CAUTION : There are no serviceable parts inside the Laser Unit. Do not disassemble the Laser Unit. Replace the complete Laser Unit if it malfunctions. 4.CAUTION : The compact disc player uses invisible laserradiation and is equipped with safety switches whichprevent emission of radiation when the drawer is open and the safety interlocks have failed or are de feated. It is dangerous to defeat the safety switches. 5.CAUTION : If safety switches malfunction, the laser is able to function. 6.CAUTION : Use of controls, adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure.

! CAUTION Please use enough caution not to see the beam directly or touch it in case of an adjustment or operation check.

VARNING : Osynlig laserstrålning är denna del är öppnad och spårren är urkopplad. Betrakta ej strålen. VARO : Avattaessa ja suojalukitus ohitettaessa olet alttiina näkymättömälle lasersäteilylle.Älä katso säteeseen.

ADVARSEL : Usynlig laserstråling ved åbning , når sikkerhedsafbrydere er ude af funktion. Undgå udsættelse for stråling. ADVARSEL : Usynlig laserstråling ved åpning,når sikkerhetsbryteren er avslott. unngå utsettelse for stråling.

REPRODUCTION AND POSITION OF LABELS WARNING LABEL
CLASS 1 LASER PRODUCT

CAUTION: INVISIBLE LASER RADIATION WHEN OPEN AND INTERLOCK DEFEATED. AVOID EXPOSURE TO BEAM. ADVARSEL: USYNLIG LASERSTRÅLING VED ÅBNING NÅR
SIKKERHEDSAFBRYDERE ER UDE AF FUNKTION. UNDGÅ UDSAETTELSE FOR STRÅLING.

VARO: AVATTAESSA JA SUOJALUKITUS OHITETTAESSA OLET
ALTTIINA NÄKYMÄTTOMÄLLE LASERSÄTEILYLLE ÄLÄ KATSO SÄTEESEEN.

VARNING: OSYNLIG LASERSTRALNING NAR DENNA DEL
AR OPPNAD OCH SPARREN AR URKOPPLAD. BETRAKTA EJ STRALEN.

1-4

FS-M3

Importance administering point on the safety

F902

F901

F903

Caution: For continued protection against risk of fire, replace only with same type 1.6A/250V for F901,3.15A/250V for F902,1.6A/250V for F903. This symbolspecifies type of fast operating fuse. Precaution: Pour eviter risques de feux, remplacez le fusible de surete de F901 comme le meme type que 1.6A/250V,F902 comme le meme type que 3.15A/250,et 1.6A/250V pour F903. Ce sont des fusibles suretes qui functionnes rapide.

1-5

FS-M3

Disassembly method

Replacement of the fuses and power amplifier IC
Fuse(F903) 1.6A 250V Fuse(F902) 3.15A 250V Power board

Replacing the fuses

(See Fig. 1.)

Remove the left side panel according to its disassembly method (see Figs. 5 and 6). Fuses are located inside the left side panel. [Caution] Be sure to replace the required fuses with designated ones.

Fuse(F901) 1.6A 250V

Fig.1

Replacing the power amplifier IC on the main board (See Fig. 2.)
Remove the main board according to its disassembly method (see Figs. 17 and 18). 1. Remove the two screws A that attach the power amplifier IC onto the heat sink. 2. In order to replace the power amplifier IC, remove the solder from soldered part a on the back side of the main board.

Soldered part a

Main board

Power amplifier IC (IC401) Heat sink

A
Fig.2

1-6

FS-M3 Removing the right side panel (See Figs. 3 and 4.)
1. From the right side of the main body, remove the three screws B and three screws C retaining the right side panel. 2. Slide the right side panel toward the rear (in the direction of arrow 1) until the claw b at the back of the panel is hooked by the chassis and then lift the panel upward (in the direction of arrow 2) to remove it.

B

C

Right side panel

C

B
Fig.3

Removing the left side panel (See Figs. 5 and 6.)
1. From the left side of the main body, remove the three screws B and three screws C retaining the left side panel. 2. Slide the left side panel toward the rear (in the direction of arrow 3) until the claw c at the back of the panel is hooked by the chassis, and then lift the panel upward (in the direction of arrow 4) to remove it.

2 Right side panel 1

Claw b

C
Left side panel

B

Fig.4

C
Left side panel 3 4

B
Fig.5 Fig.6

Claw c

1-7

FS-M3
Removing the top cover (See Figs. 7 and 8.)
Remove the left and right side panels. 1. From the back side of the main body, loosen the two screws D retaining the top cover. 2. Lift the rear part of the top cover to remove it.

D (To be loosened)
Top cover

Rear panel

Removing the front panel assembly (See Figs. 9 to 11.)
Remove the left and right side panels. Remove the top cover. Fig.7 1. Remove the tie band bundling the wires. 2. Disconnect the wire from the connector CN902 on the power board. 3. Disconnect the wire from the connector on the cassette switch board. 4. Remove the screw E retaining the bracket on the H.P. jack board. 5. Disconnect the wires from the two connectors CN201 and CN402 on the main board. 6. Disconnect the wires from the two connectors CN607 and CN608 on the CD & MCU board. 7. Remove the four screws F and the two screws G retaining the bracket of the CD mechanism assembly from the left and right. 8. Remove the screw H retaining the front panel assembly from the bottom side of the main body. 9. While opening the hooks d to the left and right of the lower part of the front panel assembly (in the direction of arrows 1), slide the front panel assembly toward the front (in the direction of arrow 2). [Note] After assembly, apply a locking agent to the screws F and G.
CD mechanism assembly Connector on the cassette switch board CD mechanism assembly Lift the rear part to remove.

D

Fig.8
CN201

F

CN608

F G E
CN402 H.P. jack board Tie band Tie band Ferrite core CN902 Power board

F G
CN607 Chassis

Fig.9
Hook d 1 Front panel assembly 2

H
Hook d 1

Fig.10

Fig.11

1-8

FS-M3 Removing the CD mechanism assembly (See Figs. 12 to 14.)
Remove the left and right side panels. Remove the top cover. Remove the front panel assembly. 1. Disconnect the wires from the four connectors CN601, CN602, CN603 and CN701 on the CD & MCU board. 2. From the left side of the main body, remove the tie band bundling the wires. 3. Loosen the screw J retaining the main board. 4. From the left and right sides of the main body, remove the four screws K retaining the bracket. 5. Slide the CD mechanism assembly toward the front and remove it from the studs of the main board. [Note] After assembly, apply a adhesive agent to the stud.

CN701 CN601 CN603 CD & MCU board CN602

CD mechanism assembly

Fig.12

CD & MCU board

K J

Tie band

Fig.13
CD mechanism assembly CD & MCU board

K
Stud

Main board

Fig.14

1-9

FS-M3
Removing the power board (See Figs. 15 and 16.)
Remove the left and right side panels. 1. Disconnect the wire from the connector CN901 on the power board. 2. Remove the two screws L retaining the chassis . 3. Remove the power board by pinching the two studs retaining the board using radio pliers, etc.
Chassis Stud CN901 Stud Main board

Power transformer

L
Fig.15

Power board

[Note]

After assembly, apply a locking agent to the screw L. After assembly, apply a adhesive agent to the studs.

Radio pliers, etc.

Power board

Stud Chassis

Removing the main board (See Figs. 17 and 18.)
Remove the left and right side panels. Remove the top cover. Remove the front panel assembly. Remove the CD mechanism assembly. 1. Remove the two screws M retaining the speaker terminal of the main board. 2. From the top side of the main body, remove the screw N retaining the heat sink of the main board. 3. Remove the solder from the soldered part e that attaches the FM antenna wire to the main board. 4. Slide the main board toward the front to remove it from the chassis. [Note] After assembly, apply a locking agent to the screw N.
Soldered part e Chassis FM antenna wire

Fig.16

Rear panel

Speaker terminal

M

Fig.17
Heat sink Main board

N

Power transformer

Fig.18

1-10

FS-M3


Remove the left and right side panels. Remove the top cover. Remove the front panel assembly.

Front panel assembly

Key switch board

Removing the key switch board (See Fig. 19.)
Remove the ten screws P retaining the key switch board.

P

P

Removing the cassette mechanism assembly (See Fig. 19.)
1. Remove the two screws Q and the two screws R retaining the cassette mechanism assembly. 2. Remove the tie band bundling the REC/PB head wire. [Note] After assembly, apply a locking agent to the screws Q and R.

Cassette door sttoper

T S
Damper bracker Cassette door damper

Q
Cassette mechanism assembly

R R
Fig.19
Tie band REC/PB head wire

Removing the cassette door damper and cassette door stopper(See Fig. 19.)
1. Remove the screw S retaining the damper bracket and take out the cassette door damper. 2. Remove the two screws T retaining the cassette door stopper and remove the cassette door stopper. [Note] After assembly, apply a locking agent to the screws S and T.

Cassette door Claw f

Removing the cassette door cover (See Fig. 20.)
[Note] Use the following procedure to remove only the cassette door cover. This procedure does not require the removal of exterior parts such as the side panels. 1. Open the cassette door. 2. Slide the cassette door cover in the direction of the arrow and disengage the two claws f and the two claws g on the left and right of the cassette door cover from the cassette door.

Claw g

Cassette door cover

Fig.20
Front panel assembly

Removing the cassette door (See Figs. 21 and 22.)
Remove the cassette mechanism assembly. Remove the cassette door cover. 1. Open the cassette door, disengage the spring hooked across the front of the front panel assembly and the cassette door in the outward direction, and remove it from the claw h. 2. From the back side of the front panel assembly, remove the two screws U retaining the bracket. 3. While pushing the arm section i of the cassette door in the direction of the arrow, remove the shaft section j of the cassette door from the front panel assembly. 4. While pushing the cassette door arm section k in the direction of the arrow, remove the shaft section m of the cassette door from the front panel assembly. 5. Take out the cassette door from the back side of the front panel assembly. [Caution] In the assembly, be sure to put the spring around the shaft j before attaching the cassette door. [Note] After assembly, apply a locking agent to the screw U.
Arm section i Shaft section j

Spring Claw h

Disengage the spring so that it comes to the front of the claw h.

Fig.21
Front panel assembly

Arm section k Shaft section m

Spring

Bracket

U

Fig.22

1-11

FS-M3


Remove the left and right side panels. Remove the top cover. Remove the front panel assembly. Remove the CD mechanism assembly.
Stud CD & MCU board CN702

V

Removing the CD & MCU board (See Figs. 23 and 24.)
1. From the back side of the CD mechanism assembly, remove the four screws V retaining the CD & MCU board. 2. Disengage the two studs retaining the CD & MCU board. 3. Disconnect the wires from the two connectors CN702 and CN703 on the CD & MCU board. 4. Lift the CD & MCU board and attach solder to the short land part n on the CD pickup assembly. 5. Disconnect the card wire from the connector CN704 on the CD & MCU board, and take out the CD & MCU board. [Caution] Be sure to solder the short land part n on the CD pickup unit before disconnecting the card wire from the CD pickup assembly (see Fig. 24). If the card wire is disconnected without attaching solder, the CD pickup may be destroyed by static electricity. In the assembly, be sure to remove solder from the short land part n after connecting the card wire. [Note] After assembly, apply a locking agent to the screw V. After assembly, apply a adhesive agent to the studs.
CN703 CD pickup assembly CD mechanism assembly

Stud

V
Fig.23
CN704 CD pickup unit

CD & MCU board

Short land part n

Fig.24

CD pickup assembly Damper(Gray) Damper(Blue)

Removing the CD pickup assembly (See Fig. 25.)
Remove the CD & MCU board.

W
1. From the back side of the CD mechanism assembly, remove the four screws W retaining the CD pickup assembly. 2. Take out the CD pickup assembly. [Note] When removing or replacing the dampers, note their colors and be sure to attach them in their correct positions.
Damper(Gray) Damper(Blue)

W

Fig.25

1-12

FS-M3 Removing the tray motor (See Figs. 26 to 29.)
Remove the CD & MCU board. 1. On the top of the CD mechanism assembly, open up the claws p and q at the left and right of the clamper assembly and lift the assembly to remove it. 2. On the top of the CD mechanism assembly, push the section r of the elevator in the direction of the arrow and lower the CD pickup assembly.
Claw q Claw q Tray CD mechanism assembly Claw p Clamper assembly

3. Pull out the tray. 4. While opening up the claws s at the left and right of the tray in the directions of the arrows, remove the tray. 5. While pushing the claw t on the CD mechanism assembly downwards, slide the elevator fully in the direction of the arrow. 6. Remove the transparent cover. 7. Remove the belt from the tray motor pulley. 8. Remove the two screws X retaining the tray motor and remove it. [Note] Take care not to attach grease on the belt. After attaching the tray motor in the assembly, apply a locking agent to the screws X.

Fig.26

r section

Fig.27
Claw s Tray

Claw s

Fig.28
CD mechanism assembly Claw t

Tray motor pulley

X
Fig.29

Transparent cover
Belt

1-13

FS-M3
Replacing the CD pickup unit (See Figs. 30 to 33.)
[Note] Use the following procedure to replace only the CD pickup unit. 1. Remove the left and right side panels (see Figs. 3 to 6). 2. Remove the top cover (see Figs. 7 and 8). 3. On the top of the main body, open up the claws p and q on the left and right of the clamper assembly in the direction of the arrows and lift the assembly to remove it. 4. On the top of the main body, push section r on the elevator of the CD mechanism assembly and lower the CD pickup assembly. 5. Pull out the tray. 6. Remove the slit washer retaining the feed middle gear, and take out the feed middle gear. 7. Remove the two screws Y retaining the shaft. 8. Turn the CD pickup unit upside down and apply solder to the short land part n.
r section Clamper assembly Claw p Front panel assembly

Claw g

Claw g Front panel assembly

Fig.30

9. Disconnect the card wire from the CD pickup unit and replace the unit. [Caution] Be sure to solder the short land part n on the CD pickup unit before disconnecting the card wire from the CD pickup unit (see Fig. 33). If the card wire is disconnected without attaching solder, the CD pickup may be destroyed by static electricity. In the assembly, be sure to remove solder from the short land part n after connecting the card wire. [Note] Removing the CD pickup unit involves the removal of the sliding spring. In the assembly, be sure to attach the spring in the correct orientation before attaching the CD pickup unit (see Fig. 33).
Slit washer

Fig.31
CD pickup assembly Tray

Y

Feed middle gear

Y
Fig.32

Card wire

Sliding spring

Short land part n

Fig.33

1-14

FS-M3

Adjustment method
Measuring instructions required for adjustment
1. AM signal generator 2. FM signal generator 3. Inter mediate frequency sweep generator 4. FM stereo signal generator 5. Low-frequency oscillator (oscillation frequency 50Hz-20kHz, 0dB output with 600 ohm impedance) 6. Attenuator (600 ohm impedance) 7. Electronic voltmeter 8. Distortion meter 9. Torque gauge (cassette for CTG-N) 10. Wow & flutter meter 11. Frequency counter meter 12. Test tape VT712 : For tape speed and wow flutter VT724 : For reference level VT703 : For playback frequency VT703 : For head azimuth adjustment 13. Blank tape TAPE : AC-225

Measuring instruments
Radio section FM 1kHz, 22.5kHz deviation FM STEREO : 1kHz, 67.5kHz deviation pilot signal 7.5kHz AM : 1kHz, 30% modulation Reference output : H.phone output -10dBs(0.245V) 32 ohm Speaker output 0dBs(2.8V) 8 ohm Cassette amplifier section Reference output : H.phone output -10dBs(0.245V) 32 ohm Speaker output 0dBs(2.8V) 8 ohm Standard mode of function knob : Press TAPE knob of select TAPE mode CD section CD test disc : CTS-1000

Measurement conditions
Power supply voltage AC120V/60Hz

1-15

FS-M3
Cassette amplifier section
Item Head azimuth adjustment Measuring condition Test tape: Check and adjustment procedure 1.Play back the test tape VT703 (10kHz). Standard value Output level: Within 2dB of maximum output Phase difference R and L channels: Minimum Adjusting part Head azimuth adjusting screw (To be used only after head replacement) See Fig.1 on page 1-16. VT703 (10kHz) 2.Adjust the head azimuth adjusting screw so that the Signal output terminal: phase difference between the R and L channels is H.phone out (with 32 ohm load) minimized at an output level that is within maximum output level. After this adjustment, lock the head azimuth adjusting screw with screw sealant to cover more than a half of the screw head. 3.When the head azimuth is maladjusted, correct it with the head azimuth adjusting screw. Tape speed and wow/flutter check and adjustment Test tape: 1.Play back the test tape VT712 (3kHz) by the end 2940 to 3090Hz Tape speed: Motor semifixed resistor Within 0.38% (unweighted) Deviation between 1kHz and 8kHz: (0+3dB-6dB) L203, P207 See Fig.3 on page 1-16. Level difference for 1kHz singnal: Within See Fig.2 on page 1-16. Check only PB frequency response check Test tape: VT703 Signal output terminal: H.phone out (with 32 ohm load) Tape: Normal Signal output terminal: Cassette REC./PLAY HEAD Test tape: AC225 Signal input: SG 1kHz -20dBs with emphasis Signal output terminal: H.phone out (with 32 ohm load) Play back the test tape VT703 while con-firming that deviation between the 1kHz signal and 8kHz signal should be (0+3dB-6dB). Set the TUNER or CD function and with TAPE to record. Check to see if the frequency at the measuring point P207 is 68kHz 1kHz if not adjust L203 until the frequency counter indicates 68 kHz 1kHz. At TUNER, set the BAND to the FM position, and record the reference 1kHz signal and 8kHz signal VT712 (3kHz) portion. Signal output terminal: 2.Connect a frequency counter and check that it reads H.phone out (with 32 ohm load) between 2940 and 3090Hz. If not, adjust the frequency with the motor semifixed resistor. 3.Check that the wow/flutter is within 0.38% (unweighted).

2dB of the level

Bias frequency check

REC and PB frequency response adjustment

alternately repeatedly. While playing back the recorded (0+3dB-6dB) signal of the 1kHz signal differ from that of the 8kHz signal by within (0+3dB-6dB).

Tuner section
Item AM IF adjustment Measuring condition Signal input: Loop antenna Signal output: IC101 pin19 Check and adjustment procedure 1.Set the intermediate frequency sweep generator to AM 450kHz. 2.Adjust T101 for maximum and center output. Standard value Adjusting part

T101 See Fig.3 on page 1-16. L101

AM tracking adjustment

Signal input: Loop antenna Signal output: H.phone out (with 32 ohm load)

1.Set the TUNER at 530kHz adjust L101 until the test point P101 voltage at 1.1V 0.1V. 2.Set the TUNER at 1710kHz, check the test point P101 voltage at 7.0V 0.3V. 3.Set the TUNER and S/G at 600kHz, adjust L102 for maximum output. 4.Set the TUNER and S/G at 1400kHz, adjust the TC102 for maximum output. 5.Repeat the above steps 3 and 4. 1.Set the TUNER at 87.5MHz adjust L106 until the test point P102 voltage at 2.3V 0.1V. 2.Set the TUNER at 108MHz, check the test point P102 voltage at 6.5V 0.3V. 3.Set the TUNER and S/G at 90.1MHz, adjust L105 for maximum output. 4.Set the TUNER and S/G at 106.1MHz, adjust the TC101 for maximum output. 5.Repeat the above steps 3 and 4.

L102 TC102 See Fig.3 on page 1-16. L106

FM tracking adjustment

Signal input: Dummy antenna FM ANT FM GND Signal output: H.phone out (with 32 ohm load)

L105 TC101 See Fig.3 on page 1-16.

1-16

FS-M3 Location of adjusting parts
Cassette mechanism section
(Caution) For adjusting any head, be sure to use a screw driver degaussed.

Adjustment Head CASSETTE MOTOR
+ -

max

Azimuth adjustment screw

Tape Speed Adj.

Fig.1 Head output signal

Fig.2

Main board

CN101

P101 (AM VT) L101 (AM OSC) P102 (FM VT)

(AM ANT)

FM ANT

TC101 (FM RF)

L106 (FM OSC)

L105 (FM RF) IC101 TA2104 TC102 (AM RF) L102 (AM RF) T101 (AM IF) P207 (BIAS FREQUENCY)

L203 (BIAS FREQUENCY ADJ.)

Fig.3

1-17

FS-M3

Flow of functional operation until TOC read
Power ON Slider turns REST SW ON. Confirm that the voltage at the pin5 of CN703 is "H"/"L"/"H"

Laser ON

Check that the voltage at the pin10(LD) of CN704 is +1.35V.

Focus start

FOK

Caution Before connecting a measuring instrument to the measuring point, turn the power of the main unit to OFF. After performing a measurement and before disconnecting the measuring instrument, again turn the power of the main unit to OFF. (If a measuring instrument is disconnected while an electric current is being output to the main unit, the pick up of the main unit will be damaged.)

Turn on focus servo

Disc spinning

Check that the voltage at the pin1 and pin2 of CN703 is +0.65V.

Radial_error scaling

PLL Lock

Turn on radial servo

Read TOC

Confirm the eye-pattern at the "RF" test point.

1-18

FS-M3

Maintenance of laser pickup
(1) Cleaning the pick up lens Before you replace the pick up, please try to clean the lens with a alcohol soaked cotton swab. (2) Life of the laser diode When the life of the laser diode has expired, the following symptoms will appear. The level of RF output (EFM output:amplitude of eye pattern) will below.

Replacement of laser pickup
Turn off the power switch and,disconnect the power cord from the AC OUTLET.

Replace the pickup with a normal one.(Refer to "Removing the CD pickup" on the previous page)

Is the level of RF OUT under 1.25V 0.22Vp-p?

NO

Replace it.

Plug the power cord in,and turn the power on. At this time,check that the laser emits for about 3 seconds and the objective lens moves up and down. Note: Do not observe the laser beam directly.

YES O.K Play a disc.

Check the eye-pattern at the "RF" test point.

Finish.

(3) Semi-fixed resistor on the APC PC board The semi-fixed resistor on the APC printed circuit board which is attached to the pickup is used to adjust the laser power. Since this adjustment should be performed to match the characteristics of the whole optical block, do not touch the semi-fixed resistor. If the laser power is lower than the specified value,the laser diode is almost worn out, and the laser pickup should be replaced. If the semi-fixed resistor would be adjusted when the pickup operates normally,the laser pickup may be damaged due to excessive current.

1-19

FS-M3

Trouble shooting
Circuit General Symptom No sound Cause Speakers are not connected. Wrong function is selected. Defective volume control Defective earphone jack Defect in IC601 Defect in IC301 AM No sound, weak sound (Low sensitivity) Improper location of unit Defect in IFT101 Defect AM antenna coil or oscilloscope coil Intermediate frequency tuning faulty RF tracking faulty Defective IC101 Defective IC102 Poor contact in antenna circuit FM No sound, weak sound (Low sensitivity) FM antenna not connected Defective band selector switch Defective IC101 Defective IC102 Intermediate frequency tuning faulty Poor contact in FM antenna circuit Tape No sound/recording, unsteady tape sound, weak sound Dirty capstan or head Irregular cassette tape winding Defective IC202 Remedy Check the speaker connection. Set switch to the proper position. Set the volume control to a proper sound level. Replace the earphone jack. Check voltages. Replace if necessary. Check voltages. Replace if necessary. Rotate or resposition the unit. Check resistance, voltage, and current. Replace as needed. Replace if necessary. Readjust (see "Adjustment method"). Readjust (see "Adjustment method"). Check voltages. Replace if necessary. Check resistance and resolder. Check resistance and resolder. Connect the built-in or external antenna. Replace or repair the switch. Check voltages. Replace if necessary. Check voltages. Replace if necessary. Readjust (see "Adjustment method"). Resolder or repair as required. Clean the capstan or head with alcohol. Replace tape. Check voltages. Replace if necessary.

Cassette erasure prevention tabs broken out Replace tape or cover tab openings with adhesive tape. CD Cannot read the table of content. No sound Disc is inserted upside down. Disc is dirty. Disc is scratched. Disc is seriously warped. A non-standard disc has been inserted. Moisture has formed inside the CD deck. Defective IC701 Defective IC704 Defective TA2092N Defect in the CD pickup mechanism Insert disc correctly. Wipe clean with a soft cloth. Use a new disc. Use a new disc. Use only a brand name disc. Wait about 20 to 30 minutes. Check voltages. Replace if necessary. Check voltages. Replace if necessary. Check voltages. Replace if necessary. Replace as required.

1-20

FS-M3

Description of major ICs
87EP26F-1J15 (IC601) : MCU
1. Terminal layout
80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 29 51
50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31

81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100

(Top view)

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

2.Pin function
Pin No. Symbol I/O Function Pin No. Symbol I/O Function

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27

- GND (0V) 28 B-PHOTO OUTPUT O Resonator connecting pins for high clock(4-8MHz). I For inputting external clock, XIN is used and XOUT is 29 CD-RW opened. 30 RES RESERT I/O Reset signal input 31 CCE or watchdog timer output/address-trap-reset output 32 BUCK 33 BUS0 XTOUT O Resonator connecting pins for slow clock(32.768kHz) 34 BUS1 XTIN I or general purpose I/O. 35 BUS2 TEST I Test pin for out-going test. Always fixed to low. 36 BUS3 SHIFT FREQ. O Shift the crystal oscillation frequency to reduce tuner noise. 37 TRAY IN (SLOUT) 38 TRAY OUT (SLIN) REMOTE I Remote control signal input 39 SLT MUTE O Audio mute output 40 CLT (SLEND) PLAY MUTE O Muting output during play 41 NC REC MUTE O Muting output during recording 42 RDS DATA PLAY/REC O Play or recording output, low for recording. 43 STEREO (SCK2) - Not connected 44 PWR DET (SI2) - Not connected 45 AD K3 (SO2) - Not connected 46 AD K2 REC SW (RCS)/(WAIT) I Deck reverse record protection input. Low means can record on reverse side. 47 AD K1 48 VAREF REC SW (FWD) I Deck forward record protection input. Low means can record on forward side. 49 (BOOT) SOL. O Solenoid output for deck B. 50 VSS MODE SW I Mode switch input of deck B. Low means the head is up. 51 VDD 52 91 SEG39 0 VOL STB O TC9422F volume STB output 92 95 COM3 0 POWER O Power output control 96 VLC B-HALF SW I Half switch input of deck B. Low means deck B have tape. 97 PLL DATA 98 PLL CLK JOG-B/VOL DATA I/O Jog dial input and TC9422F volume data output 99 PLL PRD JOG-A/VOL CLK I/O Jog dial input and TC9422F volume clock output 100 VDD RDS CLK I BU1923F(RDS demodulator) interface CLK input V-MOTOR O Motor output

VSS XOUT XIN

30

1

2

3

4

5

6

7

8

9

I O O O O I/O I/O I/O I/O O O I I I I I I I I I O O I/O O O -

Reel pulse input of deck B. Have pulse input means the tape is rotating. CD-RW control output CD servo reset output Servo DSP chip enable output Servo DSP clock output Servo DSP command and data I/O Servo DSP command and data I/O Servo DSP command and data I/O Servo DSP command and data I/O Tray open/close outputs for current sensor drawer type mechanism. CD pick up position input: L if pick up is in inner side. Current sensor input Not connected BU1923F(RDS demodulator) interface data input Stereo input pin for tuner stereo indication Power down detection Panel key analog input Panel key analog input Panel key analog input Analog reference voltage input Control input for writing MCU program area via ICU interface. GND (0V) VDD (+5V) LCD segment outputs LCD common outputs LCD drive power supply TC9257P (PLL) interface TC9257P (PLL) interface TC9257P (PLL) interface VDD (+5V)

1-21

FS-M3 TC9462F (IC701) : Digital servo single chip processor
1. Terminal layout
80 ~ 51 100 ~ 81 31 ~ 50 1 ~ 30 I/O Function

2. Pin function
Pin No. Symbol Pin No. Symbol I/O Function

1 2 3

TEST0 HSO UHSO

I Te s t m o d e t e r m i n a l . N o r m a l l y, k e e p a t o p e n O Playback speed mode flag output ter minal. O U H S O H S O P L AY B A C K S P E E D H H Normal H L 2 times L H 4 times L L O Subcode Q data emphasis flag output terminal. Emphasis ON at "H" level and OFF at "L" level. The output polarity can inver t by command. O Channel clock output terminal. (44.1kHz) L-ch at "L" level and R-ch at "H" level. The output polarity can inver t by command. - Digital ground terminal. O Bit clock output terminal. (1.4112MHz) O Audio data output ter minal. O Digital data output terminal. O Buffer memor y over signal output ter minal. Over at "H" level. O Correction flag output terminal. At "H" level, AOUT output is made to correction impossibility by C2 correction processing. O Subcode Q data CRCC check adjusting result output terminal. The adjusting result is OK at "H" level. I/O S u b c o d e P ~ W d a t a r e a d o u t c l o c k i n p u t / o u t p u t terminal. This terminal can select by command bit. - Digital power supply voltage terminal. - Digital ground terminal. O Subcode P~W data output terminal. O Playback frame sync signal output ter minal. O Subcode block sync signal output terminal. O Processor status signal readout clock output terminal. O Processor status signal output terminal. O Correction frame clock output terminal. (7.35kHz) O Internal signal (DSP internal flag and PLL clock) output terminal. Selected by command. This ter minal output the text data with serial by command.

23 24

VDD2 TESIO0

I

25 26 27 28 29 30

P2VREF HSSW ZDET PDO TMAXS TMAX

O O O O O

4

EMPH

5

LRCK

6 7 8 9 10 11

VSS1 BCK AOUT DOUT MBOV IPF

Digital power supply voltage terminal. Te s t i n p u t / o u t p u t t e r m i n a l . N o r m a l l y, k e e p a t "L" level. The ter minal that inputted the clock for read of text data by command. PLL double reference voltage supply ter minal. 2 / 4 t i m e s s p e e d a t " V REF" vo l t a g e . 1 bit DA conver ter zero detect flag output terminal. Phase difference signal output ter minal of EFM signal and PLCK signal. TMAX detection result output terminal. Selected by command bit (TMPS). TMAX detection result output terminal. Selected by command bit (TMPS). D I F F E R E N C E R E S U LT TMAX OUTPUT Longer than fixed freq. " P 2 V REF" Shor ter than fixed freq. "Vss" Within the fixed freq. "HiZ" LPF amplifier inver ting input ter minal for PLL. LPF amplifier output ter minal for PLL. PLL reference voltage supply ter minal. VCO center frequency reference level ter minal. N o r m a l l y, k e e p a t " P V R E F " l e v e l . VCO filter terminal. Analog ground terminal. Data slice level output ter minal. RF signal input terminal. Analog power supply voltage terminal. RFRP signal center level input ter minal. RFRP zero cross input terminal. RF ripple signal input terminal. Focus error signal input ter minal. Sub-beam adder signal input terminal. Te s t i n p u t t e r m i n a l . N o r m a l l y, k e e p a t " V R E F " level. Tr a c k i n g e r r o r s i g n a l i n p u t t e r m i n a l . Ta k e i n a t t r a c k i n g s e r v o o n . Tr a c k i n g e r r o r z e r o c r o s s i n p u t t e r m i n a l . Focus ser vo equalizer output ter minal. Tr a c k i n g s e r v o e q u a l i z e r o u t p u t t e r m i n a l . Analog reference voltage supply ter minal.

31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50

LPFN LPFO PVREF VCOREF VCOF AVSS1 SLCO RFI AVDD1 RFCT RFZI RFRP FEI SBAD TSIN TEI TEZI FOO TRO VREF

I O I O O I I I I I I I I I O O -

12

SBOK

13

CLCK

14 15 16 17 18 19 20 21 22

VDD1 VSS2 DATA SFSY SBSY SPCK SPDA COFS MONIT

1-22

FS-M3
Pin No. Symbol I/O Function Pin No. Symbol I/O Function

51 52 53 54 55 56 57

RFGC TEBC FMO FVO DMO 2VREF SEL

58

FLGA

59

FLGB

60

FLGC

61

FLGD

62 63 64 65 66 67

VDD3 VSS3 IO0 IO1 IO2 IO3

68

DMOUT

69 70

CKSE DACT

O RF amplitude adjustment control signal output terminal. O Tr a c k i n g b a l a n c e c o n t r o l s i g n a l o u t p u t t e r m i n a l . O Feed equalizer output ter minal. O Speed error signal or feed search equalizer output terminal. O Disk equalizer output terminal. (PWM carrier= 8 8 . 2 k H z f o r D S P, S y n c h r o n i z e t o P X O ) - Analog double reference voltage supply terminal. O APC circuit ON/OFF indication signal output terminal. At the laser on time, UHF = L at "HiZ" level and UHF = H at "H" level. O Exter nal flag output ter minal for inter nal signal. Can select signal from TEZC, FOON, FOK and RFZC by command. O Exter nal flag output ter minal for inter nal s i g n a l . C a n s e l e c t s i g n a l f r o m D F C T, F O O N , FMON and RFZC by command. O Exter nal flag output ter minal for inter nal signal. Can select signal from TRON, TRSR, FOK and SRCH by command. O Exter nal flag output ter minal for inter nal signal. Can select signal from TRON, DMON, HYS and SHC by command. - Digital power supply voltage terminal. - Digital ground terminal. I/O G e n e r a l I / O t e r m i n a l . C a n c h a n g e o v e r i n p u t I/O p o r t o r o u t p u t p o r t b y c o m m a n d . A t t h e i n p u t I/O m o d e t i m e c a n r e a d o u t a s t a t e o f t e r m i n a l ( H / L ) I/O b y r e a d c o m m a n d . A t t h e o u t p u t m o d e t i m e c a n control a state of terminal (H/L/HiZ) by command. I This terminal controls IO0~IO3 terminal. At "L" level time, IO0, 1 out feed equalizer signal of 2-state PWM, IO2,3 out disk equalizer signal of 2-state PWM. I N o r m a l l y, k e e p a t o p e n . I D A C t e s t m o d e t e r m i n a l . N o r m a l l y, k e e p a t open.

71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97

TESIN TESIO1 VSS4 PXI PXO VDD4 XVSS XI XO XVDD DVSR RO DVDD DVR LO DVSL TEST1 TEST2 TEST3 BUS0 BUS1 BUS2 BUS3 VDD5 VSS5 BUCK CCE

I I I O I O O O I I I I/O I/O I/O I/O I I

Te s t i n p u t t e r m i n a l . N o r m a l l y, k e e p a t " L " l e v e l . Te s t i n p u t / o u t p u t t e r m i n a l . N o r m a l l y, k e e p a t "L" level. Digital ground terminal. Cr ystal oscillator connecting input ter minal for D S P. N o r m a l l y, k e e p a t " L " l e v e l . Crystal oscillator connecting output terminal f o r D S P. Digital power supply voltage terminal. Oscillator ground ter minal for system clock. Cr ystal oscillator connecting input ter minal for system clock. Crystal oscillator connecting output terminal for system clock. Oscillator power supply voltage ter minal for system clock. A n a l o g g r o u n d t e r m i n a l f o r D A c o n v e r t e r. ( R - c h ) R channel data forward output ter minal. Analog supply voltage ter minal for DA c o n v e r t e r. R e f e r e n c e v o l t a g e t e r m i n a l f o r D A c o n v e r t e r. L channel data forward output ter minal. A n a l o g g r o u n d t e r m i n a l f o r D A c o n v e r t e r. ( L - c h ) Te s t m o d e t e r m i n a l . N o r m a l , k e e p a t o p e n . Te s t m o d e t e r m i n a l . N o r m a l , k e e p a t o p e n . Te s t m o d e t e r m i n a l . N o r m a l , k e e p a t o p e n . Micon interface data input/output ter minal.

98 99 100

TEST4 TSMOD RST

I I I

Digital power supply voltage terminal. Digital ground terminal. Micon interface clock input ter minal. Command and data sending/receiving chip enable signal input terminal. The bus line becomes active at "L" level. Te s t m o d e t e r m i n a l . N o r m a l , k e e p a t o p e n . Local test mode selection terminal. Reset signal input ter minal. Reset at "L" level.

1-23

FS-M3
AN7312 (IC202) : Dual recording/Playback pre-amplifier circuit with ALC
1. Terminal layout
14

2. Block diagram
Vcc

~ ~

8

14

13

12

11

10
Amp. Ch2

9

8

Ripple Filter

1

7

ALC Amp. Ch1

1 GND

2

3

4

5

6

7

3. Pin function
Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Symbol GND ALC time constant ALC input Ch.1 Output Ch.1 Phase compensation Ch.1 N.E.B. Ch.1 Input Ch.1 Input Ch.2 N.E.B. Ch.2 Phase compensation Ch.2 Output Ch.2 ALC input Ch.2 Ripple filter Vcc I/O I O I I I I O I Function GND ALC time constant by resistance and capacitor Right channel ALC input Right channel output No connect Right channel negative feed back input Right channel signal input Left channel signal input Left channel negative feed back input No connect Left channel output Left channel ALC input Ripple filter Power supply

BA4558N (IC402) : Dual operational amplifier
1. Terminal layout & Block diagram

2. Pin function
PIN No. 1 2 3 4 5 6 7 8 Symbol I/O Function A output A - input A + input VB + input B - input B output V+

1ch

2ch

1

2

3 +IN1

4 VEE

5 +IN2

6

7

8 Vcc

OUT1 -IN1

-IN2 OUT2

OUT1 -IN1 +IN1 VEE +IN2 -IN2 OUT2 Vcc

O I I I I O -

LA4282 (IC401) : Power amplifier
1. Terminal layout & Block diagram
30k 300 CH1
Thermal over voltage protector

2. Pin function
PIN No. Symbol 1 NF1 2 IN1 3 RIPPLE FILTER 4 PRE GND 5 IN2 6 NF2 7 OUT2 8 MUTE 9 POWER GND2 10 Vcc 11 OUT1 12 POWER GND1 I/O I I O O Function

Ripple filter

CH2 30k 300 Mute circuit
6 7 8 9

Vcc
10 11 12

1

2

3

4

5

NF1 IN1RIPPLE PRE IN2 NF2 OUT2 MUTE POWER Vcc OUT1POWER FILTER GND GND2 GND1

Right channel negative feed back Right channel signal input Ripple filter PRE GND Left channel signal input Left channel negative feed back Left channel output Mute control Power GND Power supply Right channel output Power GND

1-24

FS-M3 TA2109F (IC704) : RF Amplifier
1.Terminal Layout 2.Block Diagram
SBAD
+
13

VRO

16

+

+

RFIS RFGO RFGC

18 PEAK 19 BOTTOM

20

+

AGCI RFO

21

+ +

22

-

GND

23

+

+

-

RFN

24

3.Pin Function Pin No.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

Symbol
VCC FNI FPI TPI TNI MDI LDO SEL TEB 2VRO TEN TEO SBAD FEO FEN VRO RFRP RFIS RFGO RFGC AGCI RFO GND RFN

I/O
I I I I I O I I O I O O O I O O I O I I O I

Function
Power supply input terminal Main beam I-V amplifier input terminal Main beam I-V amplifier input terminal Sub beam I-V amplifier input terminal Sub beam I-V amplifier input terminal Monitor photo diode amplifier input terminal Laser diode amplifier output terminal Laser diode control signal input terminal and APC circuit ON/OFF control signal input terminal Tracking error balance adjustment signal input terminal Controlled by 3 PWM signal Reference voltage (2Vref) output terminal 2Vref=4.2V when Vcc=5V TE amplifier negative input terminal TE error signal output terminal Sub beam adder signal output terminal Focus error signal output terminal FE amplifier negative input terminal Reference voltage (Vref) output terminal Vref=2.1V when Vcc=5V Track count signal output terminal RFRP detect circuit input terminal RF gain signal output terminal RF amplitude adjustment control signal input terminal controlled by 3 PWM signal (PWM carrier =88.2 kHz) RF signal amplitude adjustment amplifier input terminal RF signal output terminal Connect to GND RF amplifier negative input terminal

+

-

+

RFRP

17

-

FEN

15

+

-

VCC 1 FNI 2 FPI 3 TPI 4 TNI 5 MDI 6 LDO 7 SEL 8 TEB 9 2VRO 10 TEN 11 TEO 12

24 23 22 21 20 19 18 17 16 15 14 13

RFN GND RFO AGCI RFGC RFGO RFIS RFRP VRO FEN FEO SBAD

FEO

14

+

-

3 STATE DET

SW1

LDC

+
SW2

I-I

I-I

+ +

+
12

-

+ -

TEO

11

TEN

10

2VRO

9

TEB

8

SEL

7

LDO MDI TNI

6

5

4

TPI FPI

3

2

FNI

1

Vcc

1-25

FS-M3 TA2104BN (IC101) : 1chip AM/FM, MPX tuner system
1. Terminal layout
RFGND FMRF IN AM MIX OUT VCC AMIF IN FMIF IN GND AGC QUAD R OUT L OUT 1 2 3 4 5 6 7 8 9 10 11 12 24 23 22 21 20 19 18 17 16 15 14 13 FMRF OUT RF VCC AMRF IN FM OSC AM OSC OSC OUT ST LED IF REQ DET OUT MPX IN LPF1 LPF2

2. Pin function
PIN No. 1 2 3 4 5 6 7 8 9 10 11 12 Symbol I/O PIN No. Symbol - Ground terminal for RF 13 LPF2 I Input of FMRF signal 14 LPF1 I AM low frequency cut 15 MPX IN O Output of FM/AM RF mix 16 DET OUT - Power supply terminal 17 IF REQ I Input of AMIF signal 18 ST LED I Input of FMIF signal 19 OSC OUT - Ground terminal 20 AM OSC I AGC voltage input terminal 21 FM OSC I OSC terminal for FM DET. 22 AMRF IN O Output R-channel 23 RF VCC O Output L-channel 24 FMRF OUT Function
MIX IN
15
AF VCD DECODE DIVIDE

I/O

Function

3. Block diagram
FM RF AM FM RF OUT VCC RF IN OSC
24 23 22 21

RFGND FMRF IN AM MIX OUT VCC AMIF IN FMIF IN GND AGC QUAD R OUT L OUT
IF REQ
17

I I I O O O O I O

FM/AM switch Stereo/monoral switch Multiplex signal input AM/FM detection output IF out/REQ out Stereo indicator output PLL data bus for FM or AM AM local oscillation circuit FM local oscillation circuit Input of AMRF signal Power supply terminal for RF Output of FMRF signal

AM OSC OSC OUT
20 19

ST LED
18

DET OUT
16

LPF1 LPF2
14 13

AM OSC FM OSC FMRF IF BUFF FMRF LEVEL DET ST SW

IF REQ AF BUFF

1/8 AM DET FM DET

ST/MO FM/AM

AM MIX AGC FMRF FM MIX

AMIF

FMIF

MUTE

1

2

3

4

5

6

7

8

9

10

11

12

RF GND

FM AM RF IN

MIX VCC OUT

AM IF IN

FM GND IF IN

AGC QUAD R-OUT L-OUT

TC9257F (IC102) : PLL frequency synthesizer
1. Terminal layout
XT XT PRD CLK DATA N.C TUNER CD AUX ST MONO 1 2 3 4 5 6 7 8 9 10 20 19 18 17 16 15 14 13 12 11 FM VT AM VT B1 B0 IF GND FM OSC AM OSC VDD EE

2. Pin function
PIN Function No. Symbol I/O 1 XT I Crystal oscillator pins 2 XT O Crystal oscillator pins 3 PRD I Period signal input 4 CLK I Clock signal input 5 DATA I/O Serial data input/output 6 N.C O General-purpose output port 7 TUNER O General-purpose output port 8 CD O General-purpose output port 9 AUX O General-purpose output port 10 ST MONO I/O General-purpose I/O port
VDD PSC 2 MODULUS PRESCALER HF 12bit PROGRAMMABLE COUNTER FM MODE LF 4 12 MAX 15 1ms OSC 24bit REGISTER 4 UNLOCK OT4 4bit SWALLOW COUNTER GND

PIN No. 11 12 13 14 15 16 17 18 19 20

Symbol I/O EE VDD AM OSC FM OSC GND IF B0 B1 AM VT FM VT

Function General-purpose I/O port Power supply pin Programmable counter input Programmable counter input Ground pin General-purpose I/O port General-purpose I/O port General-purpose I/O port Phase comparator output Phase comparator output

I/O I I I/O I/O I/O O O

3. Block diagram
FML AMP FM OSC

12
POWER ON RESET RESET PHASE COMPARATOR

15

14 13 2 1

1/2 FMH

AM OSC

TRI-STATE BUFFER

19

AM VT

XT XT

OSC CIRCUIT

REFERENCE COUNTER

TRI-STATE BUFFER

20

FM VT

DATA CLK

5 4
4 ADDRESS DECODER

24bit SHIFT REGISTER TEST 24 22

I/O PORT

5

10 11

ST MONO EE

5

PRD

3
24bit REGISTER 4 4

10

16
AMP

IF B0 B1

20bit BINARY COUNTER OUTPUT PORT OT-4 XT 1ms UNIVERSAL COUNTER CONTROL GATE AMP

17 18

6

7

8

9

1-26

N.C CD TUNER AUX

FS-M3
TC9422F (IC301) : System electronic volume
1.Terminal Layout 2.Block Diagram
GND 1
INPUT SELECTOR 100k

VDD 28
INPUT SELECTOR 100k

1k

1k 13k 13k
CAPACITOR FOR OSCILLATION 13k 500

GND L-IN1 L-IN2 L-IN3 L-IN4 L SW-OUT L VR-IN L-B1 L-B2 L-B3 L TONE-OUT L-T1 Vref CK

1 2 3 4 5 6 7 8 9 10 11 12 13 14

28 27 26 25 24 23 22 21 20 19 18 17 16 15

VDD R-IN1 R-IN2 R-IN3 R-IN4 R SW-OUT R VR-IN R-B1 R-B2 R-B3 R TONE-OUT R-T1 STB DATA

L-IN1 2 L-IN2 3 L-IN3 4

27 R-IN1 26 R-IN2 25 R-IN3

GAIN CONTROL 0,6,12,18dB

GAIN CONTROL 0,6,12,18dB

L-IN4 5 L SW-OUT 6
MAIN VR 50k /64STEP LATCH MAIN VR 50k /64STEP

24 R-IN4 23 R SW-OUT 22 R VR-IN 21 R-B1
50k 50k

L VR-IN 7 L-B1 8 L-B2 9 L-B3 10 L TONE-OUT 11 L-T1 12

DECODER CIRCUIT

20 R-B2 19 R-B3 18 R Tone-OUT 17 R-T1
750 32BIT SR

CAPACITOR FOR OSCILLATION 13k 500

BASS VR 50k /16STEP TREBLE VR 50k /16STEP

BASS VR 50k /16STEP TREBLE VR 50k /16STEP

750

50k

50k

13 Vref

14 CK

15 DATA

16 STB

3.Pin Function Pin No.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28

Symbol
GND L-IN1 L-IN2 L-IN3 L-IN4 L SW-OUT L VR-IN L-B1 L-B2 L-B3 L TONE-OUT L-T1 Vref CK DATA STB R-T1 R TONE-OUT R-B3 R-B2 R-B1 R VR-IN R SW-OUT R-IN4 R-IN3 R-IN2 R-IN1 VDD

I/O
I I I I O I I I I O I I I I I I O I I I I O I I I I -

Function
Ground pin Audio signal input pin (L-ch) Audio signal input pin (L-ch) Audio signal input pin (L-ch) Audio signal input pin (L-ch) Audio signal output pin (L-ch) Main volume input pin (L-ch) Tone control tap pin 1 for bus Tone control tap pin 2 for bus Tone control tap pin 3 for bus Tone control output pin (L-ch) Tone control tap pin for treble (L-ch) Reference voltage input pin Clock input pin Data input pin Strobe input pin Tone control tap pin for treble (R-ch) Tone control output pin (R-ch) Tone control tap pin 3 for bus Tone control tap pin 2 for bus Tone control tap pin 1 for bus Main volume input pin (R-ch) Audio signal output pin (R-ch) Audio signal input pin (R-ch) Audio signal input pin (R-ch) Audio signal input pin (R-ch) Audio signal input pin (R-ch) Power supply voltage pin

1-27

FS-M3
TA2092N (IC703) : Power driver IC
1.Terminal Layout & Block Diagram
PW GND1 OUT(-)1 PW VCC1 OUT(+)1 VIN1 VRI VCI VIN2 OUT(+)2

2.Pin Function
Pin No. Symbol I/O
O O I I O O O O I I O O -

Function
Power GND Inverted output for CH1 Supply terminal of output stage for CH1 Non-inverted output for CH1 Input for CH1 Input reference voltage Output reference voltage Input for CH2 Non-inverted output for CH2 Supply terminal of output stage for CH2 Inverted output for CH2 Power GND Power GND Inverted output for CH3 Supply terminal of output stage for CH3 Non-inverted output for CH3 Input for CH3 Supply terminal of small signal GND Small signal GND Input for CH4 Non-inverted output for CH4 Supply terminal of output stage for CH4 Inverted output for CH4 Power GND

1 2 3 4 5 6 7 8 9

24 PW GND4 23 OUT(-)4 22 PW VCC4 21 OUT(+)4 20 VIN4 19 SVCC1 18 SGND 17 VIN3 16 OUT(+)3 15 PW VCC3 14 OUT(-)3 13 PW GND3

PW VCC2 10 OUT(-)2 11 PW GND2 12

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

PW GND1 OUT(-)1 PW VCC1 OUT(+)1 VIN1 VRI VCI VIN2 OUT(+)2 PW VCC2 OUT(-)2 PW GND2 PW GND3 OUT(-)3 PW VCC3 OUT(+)3 VIN3 SGND SVCC1 VIN4 OUT(+)4 PW VCC4 OUT(-)4 PW GND4

TA7291S (IC702) : Bridge driver
1.Terminal Layout 2.Truth table
INPUT IN1 0 1
1
IN2

OUTPUT OUT1 OUT2

IN2 0 0 1 1

MODE STOP

H L L

L H L

CW/CCW CCW/CW BRAKE

2

3

4

5
GND

6

7

8

9

0 1

VCC OUT2 NC

VS OUT1 VREF IN1

UPC1330HA(IC201): REC/PB audio head switch
1. Terminal layout 2. Block diagram
INVERTER

COMPARATOR

1

9

1

2

3

4

5

6

7

8

9

3. Pin function
Pin No. Symbol

1 2 3 4 5 6 7 8 9

SWR1 GND SWP1 CONT GND Vcc SWP2 GND SWR2

I/O -

Function Record SW (Left channel) GND Play SW (Left channel) Record/play control pin GND Power supply Play SW (Right channel) GND Record SW (Right channel)

1-28

H.P. jack board

Wiring connections

Power board Main board

CN402

CD & MCU board CN607

CN201

Transformer

Back light board

Key board

FS-M3

1-29

FS-M3

VICTOR COMPANY OF JAPAN, LIMITED AUDIO & COMMUNICATION BUSINESS DIVISION PERSONAL & MOBILE NETWORK BUSINESS UNIT. 10-1,1Chome,Ohwatari-machi,maebashi-city,371-8543,Japan

No.21067

200202(SV)