MD E9000W Service Manual GB MDE9000W
User Manual: MDE9000W
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MD-E9000W
SERVICE MANUAL
No. S8155MDE9000/
MD COMPACT COMPONENT SYSTEM
MODEL MD-E9000W
MD-E9000W MD Compact Component System consisting
of MD-E9000W (main unit) and CP-E9000H (speaker
system).
• In the interests of user-safety the set should be restored to its
original condition and only parts identical to those specified should
be used.
CONTENTS
Page
SAFETY PRECAUTION OF MD SECTION FOR SERVICE MANUAL .............................................................................. 2
SAFETY PRECAUTION OF CD SECTION FOR SERVICE MANUAL .............................................................................. 3
VOLTAGE SELECTION ..................................................................................................................................................... 3
AC POWER SUPPLY CORD AND AC PLUG ADAPTOR ................................................................................................. 3
SPECIFICATIONS ............................................................................................................................................................. 4
NAMES OF PARTS ........................................................................................................................................................... 5
OPERATION MANUAL ...................................................................................................................................................... 7
DISASSEMBLY ................................................................................................................................................................ 10
REMOVING AND REINSTALLING THE MAIN PARTS ................................................................................................... 13
TEST MODE .................................................................................................................................................................... 15
ADJUSTMENT ................................................................................................................................................................. 19
ERROR MESSAGE LIST ................................................................................................................................................. 29
EEPROM WRITING PROCEDURE ................................................................................................................................. 30
BLOCK DIAGRAM ........................................................................................................................................................... 34
WIRING SIDE OF P.W.BOARD ....................................................................................................................................... 38
SCHEMATIC DIAGRAM .................................................................................................................................................. 48
VOLTAGE ........................................................................................................................................................................ 60
NOTES ON SCHEMATIC DIAGRAM .............................................................................................................................. 61
TYPES OF TRANSISTOR AND LED ............................................................................................................................... 61
WAVEFORMS OF CD CIRCUIT ...................................................................................................................................... 62
WAVEFORMS OF MD CIRCUIT ..................................................................................................................................... 63
TROUBLESHOOTING ..................................................................................................................................................... 65
FUNCTION TABLE OF IC ................................................................................................................................................ 73
FL DISPLAY ..................................................................................................................................................................... 86
PARTS GUIDE/EXPLODED VIEW
SHARP CORPORATION
This document has been published to be used
for after sales service only.
The contents are subject to change without notice.
MD-E9000W
SAFETY PRECAUTION OF MD SECTION FOR SERVICE MANUAL
WARNINGS
The AEL (Accessible Emission Level) of the laser power output is less than class 1 but the laser component is capable of emitting radiation
exceeding the limit for Class 1. Therefore it is important that the following precautions are observer during servicing to protect your eyes
against exposure to the laser beam.
1) When the unit case cover is removed and LOADING SW (SW1932) is turned on and then PLAY SW (SW1934 mechanism PWB) is turned
on in a few second.
The laser will light for several second to detect a disk.
2) The laser power output of the pickup unit and replacement service parts are all factory preset before shipment.
Do not attempt to readjust the laser pickup unit during replacement or servicing.
3) Under no circumstances stare into the pickup lens at any time.
4) If laser optical unit becomes faulty, replace the complete laser optical unit.
5) CAUTION-Use of controls or adjustments, or performance of procedures other than those specified herein may result in hazardous
radiation exposure.
Laser Diode Properties
Material: GaAIAs
Wavelength: 785 nm
Pulse time:
Read mode: 0.8 mW Continuous
Write mode: max 10 mW 0.5S
min cycle 1.5S
Repetition
VARO !
VARNING!
CAUTION-INVISIBLE LASER RADIATION WHEN OPEN AND INTERLOCKS
DEFEATED. AVOID EXPOSURE TO BEAM.
VARNING-OSYNLIG LASERSTRÅLNING NÄR DENNA DEL ÄR ÖPPNAD OCH
SPÄRRAR ÄR URKOPPLADE. STRLEN ÄR FARLIG.
ADVERSEL-USYNLIG LASERSTRÅLING NÄR DEKSEL ÅPNES OG SIKKERHEDSLÅS
BRYTES. UNNGÅ EKSPONERING FOR STRÅLEN.
VARO! AVATTAESSA JA SUOJALUKITUS OHITETTAESSA OLET ALTTIINA
NÄKYMÄTÖN LASERSÄTEILYLLE. ÄLÄ KATSO SÄTEESEN.
VARNING-OSYNLIG LASERSTRÅLNING NÄR DENNA DEL ÄR ÖPPNAD OCH SPÄRREN
ÄR URKOPPLAD. BETRAKTA EI STRÅLEN.
ADVERSEL-USYNLIG LASERSTRÅLING VED ÅBNING. NÅR SIKKERHEDSAFBRYDERE
ER UDE AF FUNKTION. UNDGÅ UDSETTELSE FOR STRÅLING.
Avattaessa ja suojalukitus ohitettaessa olet alttiina näkymättömälle lasersäteilylle. Älä katso säteeseen.
Osynlig laserstralning när denna del är öppnad och spärren är urkopplad. Betrakta ej strälen.
Precaution to be taken when replacing and servicing the laser pickup.
The following precautions must be observed during servicing to protect your eyesvagainst exposure to the laser.
Warning of possible eye damage when repairing:
If the AC power plug is connected when the inner cover of the unit is removed, the laser will light up during focus access (about
1 second) (Fig. 2-1).
During this operation, the laser will leak from the opening between the magnetic head and cartridge holder (Fig. 2-2).
In order to protect your eyes, you must not look at the laser during repair.
Before repairing, be sure to disconnect the AC power plug.
Magnetic Head
Optical Pickup
,,
Magnetic Head
Laser Beam
Cartridge Holder
Mechanism
Chassis
Spindle Motor
Figure 2-1
Optical Pickup
Figure 2-2
–2–
MD-E9000W
SAFETY PRECAUTION OF CD SECTION FOR SERVICE MANUAL
WARNINGS
Precaution to be taken when replacing and servicing the Laser Pickup.
The AEL (Accessible Emission Level) of Laser Power Output for this model is specified to be lower than Class 1 Requirements.
However, the following precautions must be observed during servicing to protect your eyes against exposure to the Laser
beam.
(1) When the cabinet has been removed, the power is turned on without a compact disc, and the Pickup is on a position outer
than the lead-in position, the Laser will light for several seconds to detect a disc. Do not look into the Pickup Lens.
(2) The Laser Power Output of the Pickup inside the unit and replacement service parts have already been adjusted prior to
shipping.
(3) No adjustment to the Laser Power should be attempted when replacing or servicing the Pickup.
(4) Under no circumstances look directly into the Pickup Lens at any time.
(5) CAUTION - Use of controls or adjustments, or performance of procedures other than those specified herein may result in
hazardous radiation exposure.
Laser Diode Properties
Material: GaAIAs
Wavelength: 780 nm
Emission Duration: continuous
Laser Output: max. 0.6 mW
CAUTION-INVISIBLE LASER RADIATION WHEN OPEN. DO NOT STARE INTO BEAM
OR VIEW DIRECTLY WITH OPTICAL INSTRUMENTS.
VARNING-OSYNLIG LASERSTRALNING NAR DENNA DEL AR OPPNAD. STIRRA EJ
IN I STRALEN OCH BETRAKTA EJ STRALEN MED OPTISKA INSTRUMENT.
ADVERSEL-USYNLIG LASERSTRALING VED ABNING. SE IKKE IND I
STRALEN-HELLER IKKE MED OPTISKE INSTRUMENTER.
VARO! AVATTAESSA OLET ALTTIINA NAKYMATON LASERSATEILYLLE. ALA
TUIJOTA SATEESEEN ALAKA KATSO SITA OPTISEN LAITTEEN LAPI.
VARNING-OSYNLIG LASERSTRALNING NAR DENNA DEL AR OPPNAD. STIRRA EJ
IN I STRALEN OCH BETRAKTA EJ STRALEN GENOM OPTISKT INSTRUMENT.
ADVERSEL-USYNLIG LASERSTRALING NAR DEKSEL APNES. STIRR IKKE INN I
STRALEN ELLER SE DIREKTE MED OPTISKE INSTRUMENTER.
VOLTAGE SELECTION
Before operating the unit on mains, check the preset voltage. If the voltage is different from your local voltage, adjust the voltage
as follows.
Turn the selector with a screwdriver until the appropriate voltage number appears in the window (110 V, 127 V, 220 V or 230 V-240 V AC).
AC POWER SUPPLY CORD AND AC PLUG ADAPTOR
QACCB0012AW00
QACCL0002AW00
QPLGA0004AWZZ
QACCE0007AW00
QACCJ0006AW00
–3–
MD-E9000W
FOR A COMPLETE DESCRIPTION OF THE OPERATION OF THIS UNIT, PLEASE REFER
TO THE OPERATION MANUAL.
SPECIFICATIONS
MD-E9000W
MiniDisc
General
AC 110/127/220/230 - 240 V, 50/60 Hz
Type
MiniDisc recorder
Power consumption
58 W
Signal readout
Non-contact, 3-beam semiconductor laser pickup
Dimensions
Width: 230 mm (9-1/16")
Height: 173 mm (6-13/16")
Depth: 290 mm (11-7/16")
Rotation speed
400 - 900 rpm CLV, Approx.
Error correction
ACIRC (Advanced Cross Interleave Reed-Solomon
Code)
Quantization
20-bit linear (A/D converter)
Coding
ATRAC/ATRAC 3 (Adaptive TRansform Acoustic Coding)
Sampling frequency
44.1 kHz
Recording method
Magnetic modulation overwrite method
Frequency response
20 - 20,000 Hz
D/A converter
1-bit D/A converter
Speakers: 4 ohms
Headphones: 16 - 50 ohms (recommended: 32 ohms)
Wow and flutter
Unmeasurable (less than 0.001% W. peak)
Signal/noise ratio
95 dB (1 kHz)
Auxiliary: 500 mV/47 kohms
Dynamic range
90 dB (1 kHz)
Audio channel
Stereo: 2 channels (SP, LP2, LP4)
Power source
Weight
4.1 kg (9.02 lbs.)
Amplifier
Output power
Output terminals
Input terminals
MPO: 66 W (33 W + 33 W) (10 % T.H.D.)
RMS: 40 W (20 W + 20 W) (10 % T.H.D.)
RMS: 28 W (14 W + 14 W) (1 kHz, 0.9 % T.H.D.)
CD player
Type
Tuner
Compact disc player
Signal readout
Non-contact, 3-beam semiconductor laser pickup
D/A converter
1-bit D/A converter
Frequency response
20 - 20,000 Hz
Dynamic range
90 dB (1 kHz)
Frequency range
FM: 88 - 108 MHz
AM: 531 - 1,602 kHz
CP-E9000H
Type
2-way type speaker system
5 cm (2") Tweeter
10 cm (4") Woofer
Maximum input power
40 W
Rated input power
20 W
Impedance
4 ohms
Dimensions
Width: 140 mm (5-9/16")
Height: 300 mm (11-13/16")
Depth: 187 mm (7-3/8")
Weight
1.5 kg (3.3 lbs.)/each
Specifications for this model are subject to change without
prior notice.
–4–
MD-E9000W
NAMES OF PARTS
MD-E9000W
Front panel
1. CD Compartment
2. Timer Set Indicator
3. Remote Sensor
4. MD Compartment
5. On/Stand-by Button
6. MD Eject Button
7. Tuner (Band) Button
8. Auxiliary Button
9. Extra Bass Button
10. Equalizer Button
11. Memory/Enter Button
12. Display (Demo) Button
13. CD Open/Close Button
14. Volume Up and Down Buttons
15. MD Record Mode Selector Buttons (SP/LP2/LP4)
16. CD/MD Normal Speed Record Button
17. CD/MD High Speed Record Button
18. MD Record Button
19. CD Stop Button
20. CD Play or Pause Button
21. CD/MD Track Up and Fast Forward, Tuner Preset
Up Button
22. CD/MD Track Down and Fast Reverse, Tuner Preset
Down Button
23. MD Stop Button
24. MD Play or Pause Button
1
3
2
4
5 6 7 8 9 10 11 12 13 14
19
20
15
16 17 18
21 22 23 24
Display
1. Record Indicator
2. Record Pause Indicator
3. High Speed Record Indicator
4. CD/MD Repeat Indicator
5. FM Stereo Mode Indicator
6. FM Stereo Receiving Indicator
7. TOC Indicator
8. Over Indicator
9. Track Edit Indicator
10. Extra Bass Indicator
11. Timer Play/Record Indicator
12. 2 times Long Recording (stereo) Indicator
13. 4 times Long Recording (stereo) Indicator
14. Sleep Indicator
15. Level Meter/Character Information/Frequency Indicator
16. Track Indicator
17. Random Play Indicator
18. Memory Indicator
19. Disc Indicator
1 2 3 4
11 12 13 14
–5–
5 6 7 8 9
15
10
16 17 18 19
MD-E9000W
Rear Panel
1. AM Aerial Terminal
2. Aerial Earth Terminal
3. FM Aerial Terminal
4. Auxiliary (Audio Signal) Input Sockets
5. Headphone Socket
6. Speaker Terminals
7. Span Selector Switch
8. AC Voltage Selector
9. AC Power Input Socket
7
8
1
2
9
3
4 5
6
Remote Control
1. Remote Control Transmitter
2. On/Stand-by Button
3. Extra Bass Button
4. Video/Auxiliary Button
5. Timer Button
6. Clock Button
7. Tuning Up and Down Buttons
8. Clear/Delete Button
9. Cursor Buttons
10. Volume Up and Down Buttons
11. Equalizer Mode Selector Button
12. Tuner (Band) Button
13. Sleep Button
14. CD Open/Close Button
15. Memory/Enter Button
16. Character Input/CD, MD Direct Buttons
17. Symbol/Time Button
18. Dimmer Button
19. MD Play or Pause Button
20. CD/MD Fast Reverse, Track Down Button
21. Recording Mode Selector Button
22. MD Stop Button
23. CD Play or Pause Button
24. CD/MD Fast Forward, Track Up Button
25. CD Stop Button
26. MD Record Button
27. CD/MD Play Mode Selector Button
28. Auto Marker Button
29. Display/Character Button
30. Name/TOC Button
31. Track Edit Button
Buttons with “ “ mark in the illustration can be operated on the remote control only.
Other buttons can be operated both on the main unit and the remote control.
CP-E9000H
1. Tweeter
2. Woofer
3. Bass Reflex Duct
4. Speaker Terminals
1
2
3
–6–
4
MD-E9000W
OPERATION MANUAL
Setting the Clock
3
Press the
or
button to adjust the hour and then
press the MEMORY/ENTER button.
When the 12-hour display is selected, “AM” will change automatically to
“PM”.
4
Press the
or
button to adjust the minutes and
then press the MEMORY/ENTER button.
The hour will not advance even if minutes advance from “59” to “00”.
The clock starts from “0” second. (Seconds are not displayed.)
To check the time:
Press the CLOCK button.
The time display will appear for about 10 seconds.
This may be operated only with the remote control.
In this example, the clock is set for the 24-hour (0:00) display.
1
2
Note:
The “CLOCK” or time will flash at the push of the CLOCK button when the AC power
supply is restored after a power failure or unplugging the unit.
Readjust the clock by performing “Setting the Clock” from the beginning.
Press the CLOCK button and within 10 seconds, press the
MEMORY/ENTER button.
Press the
or
button to select 24-hour or 12-hour
display and then press the MEMORY/ENTER button.
→ The 24-hour display will appear.
(0:00 - 23:59)
“AM 0:00”
→ The 12-hour display will appear.
(AM 0:00 - PM 11:59)
“AM 12:00” → The 12-hour display will appear.
(AM 12:00 - PM 11:59)
“0:00”
Error Messages
When an error message is displayed, proceed as follows:
Can’t EDIT
Meaning
Nothing is recorded.
(Neither music nor disc name
is recorded.)
You tried to record from a
copy prohibited CD.
A track cannot be edited.
Can’t READ
( :Number or
symbol)
The disc is damaged.
TOC information cannot be
read.
MiniDisc not specified.
Can’t REC
Recording cannot be performed correctly due to vibration or shock in the unit.
The TOC information could
not be created properly due
to a mechanical shock or to
scratches on the disc.
Error messages
BLANK MD
Can’t COPY
Can’t WRITE
DISC FULL
Er-CD 20
Er-MD
( :Number or
symbol)
EDIT OVER
MD NO DISC
CD NO DISC
The disc is out of recording
space.
The CD cover is not working
properly.
A MiniDisc is not working
properly.
You chose 21 or more tracks
for track editing.
The remaining time available
for recording is short.
A MiniDisc has not been
loaded.
The MiniDisc data cannot be
read.
A CD has not been loaded.
The CD data cannot be read.
Remedy
Replace it with another disc.
Error messages
NAME FULL
Replace the CD.
NOT AUDIO
Change the stop position of the
track and then try editing it.
Replace it with another disc.
Erase the disc and try recording again.
PLAYBACK MD
Re-record or replace the
MiniDisc.
Set this unit to the stand-by
mode and try to write the
TOC again. (Remove any
source of shock or vibration
whilst writing.)
Replace the disc with another
recordable disc.
Set this unit to the stand-by
mode and turn the power on
again.
Set this unit to the stand-by
mode and turn the power on
again.
Decrease the number of
tracks.
Replace it with a disc that has
enough time to record.
Load a MiniDisc.
Reload the MiniDisc.
Load a CD.
Reload the CD.
PROTECTED
Meaning
The number of characters for
the disc name or track name
exceeds 40.
The data recorded on this
disc is not audio data.
You tried to record on a playback-only disc.
The disc is write protected.
TEMP OVER
The temperature is too high.
TOC FORM
TOC information recorded on
the MD does not match the
MiniDisc specifications or it
cannot be read.
( :Number or
symbol)
TOC FULL
TOC FULL1
? MD DISC
POWER?
ER-TU
( :Number or
symbol)
–7–
There is no space left for recording track numbers.
There is no space left for recording character information.
The data contains an error.
MiniDisc not specified.
MiniDisc is not working properly.
Tuner is not working properly.
Remedy
Shorten the disc or track
name.
Select another track.
Replace the disc.
Replace it with another recordable disc.
Move the write protection tab
back to its original position.
Set this unit to the stand-by
mode and wait for a whilst.
Replace it with another disc.
Erase the disc and try recording again.
Replace it with another recordable disc.
Replace it with another recordable disc.
Erase the needless characters.
Replace it with another disc.
Set this unit to the stand-by
mode and turn the power on
again.
Set the unit to the stand-by
mode and turn the power on
again.
MD-E9000W
System Connections
Setting the AC voltage selector
Connecting the AC power lead
Check the setting of the AC voltage selector located on the rear panel before plugging the unit into an AC socket. If necessary, adjust the selector to correspond to the
AC power voltage used in your area.
After making all connections, plug the unit. If you plug the unit first, the unit will enter
the demonstration mode.
1
220 V
RATED LINE
VOLTAGE
2
Selector adjustment:
Turn the selector with a screwdriver until the appropriate voltage number appears in
the window (110/127/220/230 - 240V AC).
Notes:
Plug the AC power lead into an AC socket, after any connections.
Unplug the AC power lead from the AC socket if the unit is not to be used for a
prolonged period of time.
Never use a power lead other than the one supplied. Use of a power lead other
than the one supplied may cause an electric shock or fire.
AC Plug Adaptor
In areas (or countries) where an AC socket as shown in illustration is used, connect the unit using the AC plug adaptor supplied with the unit, as illustrated. The AC
plug adaptor is not included in areas where the AC wall socket and AC power plug
can be directly connected (see illustration ).
System Connections
Setting the FM/AM span selector
The International Telecommunication Union (ITU) has established that member countries should maintain either a 100 kHz or 50 kHz interval between broadcasting frequencies of FM stations and 10 kHz or 9 kHz for AM station. The illustration shows
the 50/9 kHz zones (regions 1 and 3), and the 100/10 kHz zone (region 2).
Before using the unit, set the SPAN SELECTOR switch (on the rear panel) to the
interval (span) of your area.
To change the tuning zone:
1 Unplug the AC power lead from the AC socket.
2 Set the SPAN SELECTOR switch (on the rear panel) as follows.
For 50 kHz FM interval (9 kHz in AM) 50/9
For 100 kHz FM interval (10 kHz in AM) 100/10
3 Plug the AC power lead to the AC socket.
Caution:
This operation will erase all data stored in memory including clock, timer settings,
tuner preset, and CD or MiniDisc programme.
Precautions
Placing the system
Please ensure that the equipment is positioned in a well-ventilated area
and that there is at least 10 cm (4") of free space along the sides and
back.
There must also be a minimum of 20 cm (8") of free space on the top of
the unit.
10 cm (4”) 10 cm (4”)
20 cm (8”)
10 cm (4”)
–8–
MD-E9000W
Troubleshooting Chart
Many potential “problems” can be resolved by the owner without calling a service
technician. If something is wrong with this product, check the following before calling
your authorised SHARP dealer or service centre.
Tuner
Symptom
Radio makes unusual noise consecutively.
General
Symptom
The clock is not on time.
When a button is pressed, the unit
does not respond.
No sound is heard from the speakers.
Possible cause
Did a power failure occur?
Reset the clock.
Set this unit to the power stand-by mode
and then turn it back on.
Does the unit still malfunction?
Reset it.
Is the volume level set to “0”?
Are the headphones connected?
Are the speaker wires disconnected?
Remote control
Symptom
The remote control does not operate.
CD player
Symptom
Playback does not start.
Playback stops in the middle or is
not performed properly.
Playback sounds are skipped, or
stopped in the middle of a track.
Possible cause
Is the stereo system placed near the TV
or computer?
Is the AC power lead located near the
aerial?
Possible cause
Is the stereo system unplugged?
Is the battery polarity incorrect?
Are batteries dead?
Is the distance or angle incorrect?
Does the remote control sensor receive
strong light?
Condensation
Possible cause
Is the disc loaded upside down?
Does the disc dissatisfy the standards?
Is the disc distorted or scratched?
Sudden temperature changes, storage or operation in an extremely humid environment may cause condensation inside the cabinet (CD/MD pickup, etc.) or on the
transmitter on the remote control.
Condensation can cause the unit to malfunction.
If this happens, leave the power on with no disc in the unit until normal playback is
possible (about 1 hour). Wipe off any condensation on the transmitter with a soft
cloth before operating the unit.
Is the unit located near excessive vibration?
Is the disc very dirty?
Has condensation formed inside the unit?
MiniDisc
Symptom
Possible cause
A recording cannot be made.
Is the MiniDisc protected against accidental erasure?
Did you try to make recording on a playback-only MiniDisc?
Can you see the "DISC FULL" or "TOC
FULL" message in the display?
Even though a disc has been
loaded, “CD/MD NO DISC” or
“Can’t READ” is displayed.
Playback sounds are skipped.
Is the unit located near excessive vibration?
Is the disc very dirty?
Has condensation formed inside the
unit?
Troubleshooting Chart
Remote Control
If trouble occurs
Test of the remote control
When this product is subjected to strong external interference (mechanical shock,
excessive static electricity, abnormal supply voltage due to lightning, etc.) or if it is
operated incorrectly, it may malfunction.
If such a problem occurs, do the following:
1. Set the unit to the stand-by mode and turn the power on again.
2. If the unit is not restored in step 1, unplug and plug in the unit, and then turn the
power on.
Face the remote control directly to the remote sensor on the unit.
The remote control can be used within the range shown below:
Press the ON/STAND-BY button. Does the power turn on? Now, you can enjoy the
music.
Note:
If neither operation above restores the unit, clear all the memory by resetting it.
Remote sensor
Clearing all the memory (reset)
1. Press the ON/STAND-BY button to enter the power stand-by mode.
2. Whilst pressing down the PRESET
button and the DISPLAY (DEMO) button,
press the ON/STAND-BY button.
After the “RESET” is displayed for about 1 second, the unit will enter the power
stand-by mode.
Caution:
This operation will erase all data stored in memory including clock, timer settings,
tuner preset, and CD or MiniDisc programme.
Before transporting the unit
Remove the CD and the MiniDisc from the unit. Your unit checks whether there is a
disc inside the unit when the compartment is closed. “NO DISC” appears if no disc is
left. Then, set the unit to the power stand-by mode. Carrying the unit with discs left
inside can damage it.
–9–
0.2 m - 6 m
(8" - 20')
MD-E9000W
DISASSEMBLY
Caution on Disassembly
Follow the below-mentioned notes when disassembling
the unit and reassembling it, to keep it safe and ensure
excellent performance:
1. Take compact disc and minidisc out of the unit.
2. Be sure to remove the power supply plug from the wall
outlet before starting to disassemble the unit.
3. Take off nylon bands or wire holders where they need to
be removed when disassembling the unit. After servicing
the unit, be sure to rearrange the leads where they were
before disassembling.
If the screw of the wrong length is applied on the MD
mechanism unit (screw for mounting parts to the MD
mechanism chassis), it may contact the optical pickup
and cause the unit to malfunction.
4. Take sufficient care on static electricity of integrated
circuits and other circuits when servicing.
MD-E9000W
(A1)x1
ø3x10mm
(A2)x1
ø2.6x8mm
Top Cabinet
Side
Panel
(Left)
Rear
Cabinet
(A1)x1
ø3x10mm
REMOVAL
PROCEDURE
FIGURE
1
Side Panel
1. Screw ................. (A1) x6
2. Screw ................. (A2) x2
10-1
2
Top Cabinet with
Rear Cabinet
1. Screw ................. (B1) x6
2. Flat Cable .......... (B2) x2
3. Socket ................ (B3) x2
10-1, 3
10-2
Rear Panel/Aux
Input PWB with
Fan Motor
1. Screw ................. (C1) x7
2. Socket ................ (C2) x2
10-2
Main PWB
1. Screw ................. (D1) x2
2. Flat Cable .......... (D2) x1
3. Socket ................ (D3) x3
4. Hook .................. (D4) x2
10-2
3
4
Rear
Panel
(A1)x4
ø3x10mm
MD-E9000W
STEP
(B1)x2
ø3x10mm
(B1)x3
ø2.6x8mm
Side Panel
(Right)
(A2)x1
ø2.6x8mm
Figure 10-1
(D1)x2
ø3x10mm
(D2)x1
(C2)x1
(B3)x2
(B2)x1
(D3)x1
(B2)x1
(D4)x2
Power
PWB
(D3)x2
Rear
Panel
5
Tuner PWB
1. Screw ................. (E1) x3
2. Bracket .............. (E2) x1
10-3
6
Power Amp. PWB
1. Screw ................. (F1) x3
2. Socket ................ (F2) x1
10-3
7
MD Mechanism Unit 1. Screw ................. (G1) x3
10-3
8
CD Servo PWB
(Note)
1. Screw ................. (H1) x3
2. Socket ................ (H2) x4
11-1
9
Display PWB
1. Screw ................ (J1) x10
2. Socket ................. (J2) x1
11-1
10
Rear Cabinet
1. Screw ................. (K1) x2
11-2
11
CD Lid Open/Close 1. Screw ................. (L1) x4
PWB with CD Lid
2. Cam Plate .......... (L2) x1
Gear Unit Ass'y
3. CD Lid Lever B .... (L3) x1
11-2
12
LED PWB
1. Screw ................ (M1) x1
11-2
13
CD Mechanism
1. Screw ................. (N1) x4
11-2
14
MD Mechanism/
MD Main PWB
1. Screw ................. (P1) x4
2. MD Mechanism Holder
............................... (P2) x2
3. Screw ................. (P3) x8
4. Flat Cable .......... (P4) x1
5. Socket ................ (P5) x1
6. Flexible PWB ..... (P6) x1
11-3
Main
PWB
Tuner
PWB
(C1)x1
ø3x10mm Aux Input
PWB
(C1)x6
ø3x10mm
(C2)x1
Power
Amp.
PWB
Figure 10-2
(B1)x1
ø3x8mm
Lug Wire
(F1)x1
ø3x10mm
(E1)x1
ø3x8mm
(E2)x1
(E1)x1
ø3x8mm
Tuner PWB
(E1)x1
ø3x10mm
Figure 10-3
– 10 –
(F2)x1
(F1)x2
ø3x8mm
Power
PWB
(G1)x1
ø3x8mm
MD Mechanism
Unit
Note:
After removing the connector for the optical pickup from the
connector, wrap the conductive aluminium foil around the
front end of connector remove to protect the optical pickup
from electrostatic damage.
(G1)x2
ø3x8mm
Power Amp.
PWB
MD-E9000W
CD Lid
Open/Close
PWB
Shield Cover,Top
(P3)x1
ø2x3mm
(P3)x1
ø2x3mm
(J2)x1
(H1)x1
ø2.6x10mm
(H1)x2
ø2.6x10mm
Rear
Cabinet
(P3)x1
ø2x3mm
MD Mechanism
(H2)x1
(J1)x10
ø2.6x10mm
CD Servo
PWB
(P1)x2
ø3x6mm
(H2)x2
Display
PWB
Top
Cabinet
(H2)x1
(P3)x1
ø2x3mm
(P2)x1
Figure 11-1
(L1)x2
ø2.6x10mm
Rear
Cabinet
Shield Cover,Side
MD Main PWB
(L1)x2
ø2.6x10mm
(P4)x1
(K1)x2
ø2.6x10mm
(L3)x1
(P3)x2
ø1.7x3mm
Pull
Pull
(P3)x1
ø2x3mm
(P6)x1
CD Lid
Open/Close PWB
Optical pickup
Flexible PWB (Note 1)
(N1)x4
ø2.6x10mm
(M1)x1
ø2.6x8mm
(P3)x1
ø2x2mm
LED PWB
Shield Cover,Bottom
(Note 1)
After removing the flexible PWB for optical pickup from the connector
wrap the front end of flexible PWB in conductive aluminum foil so as
to protect the optical pickup from being damaged electrostatically.
Figure 11-3
Top
Cabinet
(P1)x2
ø3x6mm
(P5)x1
CD Lid Gear
Unit Ass'y
(L2)x1
(P2)x1
CD Mechanism
Figure 11-2
– 11 –
MD-E9000W
CP-E9000H
STEP
REMOVAL
PROCEDURE
FIGURE
1
Front Panel
1. Screw ................. (A1) x8
2. Tip ...................... (A2) x4
12-1
2
Woofer
1. Screw ................. (B1) x4
12-2
3
Tweeter
1. Screw ................. (C1) x2
12-2
Front Panel
(A2)x2
Front Panel
Tweeter
(C1)x2
ø3x10mm
(A1)x4
ø4x20mm
(A2)x2
(B1)x4
ø4x12mm
(A1)x4
ø4x20mm
Woofer
Figure 12-1
Figure 12-2
– 12 –
MD-E9000W
REMOVING AND REINSTALLING THE MAIN PARTS
MD MECHANISM SECTION
(A1)x1
ø1.7x5mm
Perform steps 1 to 4, 7 and 14 of the disassembly method to
remove the MD mechanism. (See pages 10 and 11.)
Caution:
After pulling out the optical pickup connector, wrap the end of
the connector in conductive aluminium foil to prevent the
optical pickup from being destroyed by static electricity.
Magnetic Head
MD Mechanism
How to remove the magnetic head
(See Fig. 13-1)
1. Remove the screw (A1) x 1 pc.
Caution:
Take utmost care so that the magnetic head is not damaged
when it is mounted.
Optical Pickup
Figure 13-1
How to remove the MD loading motor PWB/MD
loading motor (See Fig. 13-2)
(B1)x1
ø1.7x6mm
MD Loading Motor
1. Remove the screw (B1) x 1 pc.
2. Remove the Hooks (B2) x 3 pcs., and remove the MD
loading PWB.
3. Remove the screws (B3) x 2 pcs., and remove the MD
loading motor.
MD Loading
Motor PWB
How to remove the MD sled motor/optical pickup
(See Fig. 13-3)
1. Remove the screws (C1) x 3 pcs., and remove the MD sled
motor.
2. Remove the optical pickup.
Caution:
Be careful so that the gear is not damaged.
(The damaged gear emits noise during searching.)
(B2)x1
How to remove the MD spindle motor
(See Fig. 13-4)
(B2)x2
(B3)x2
ø1.7x3mm
1. Remove the screws (D1) x 3 pcs., and remove the MD
spindle motor.
Figure 13-2
Caution:
Be careful so that the gear is not damaged.
(The damaged gear emits noise during searching.)
(C1)x1
ø1.4x5mm
(D1)x3
ø1.4x3mm
(C1)x2
ø1.4x4.5mm
Washer
Optical
Pickup
MD Spindle Motor
MD Sled Motor
MD Mechanism
Switch PWB
Figure 13-4
Figure 13-3
– 13 –
MD-E9000W
CD MECHANISM SECTION
(A1)x4
Perform steps 1, 2, 8 and 13 of the disassembly method to
remove the CD mechanism. (See pages 10 and 11.)
CD Mechanism Cover
How to remove the pickup (See Fig. 14-1)
1. Remove the CD mechanism cover, paying attention to the
pawls (A1) x 4 pcs.
2. Remove the screws (A2) x 2 pcs., to remove the shaft (A3)
x 1 pc.
3. Remove the stop washer (A4) x 1 pc., to remove the gear
(A5) x 1 pc.
4. Remove the pickup.
(A2)x2
ø2.6x6mm
CD Mechanism
Note:
After removing the connector for the optical pickup from the
connector, wrap the conductive aluminium foil around the
front end of connector remove to protect the optical pickup
from electrostatic damage.
Shaft
(A3)x1
Gear
(A5)x1
Stop Washer
(A4)x1
Pickup
Figure 14-1
How to Remove the CD lid motor
(See Fig. 14-2.)
1. Remove the top cabinet, CD lid open/close PWB and rear
cabinet.
(Refer to the disassembly method on pages 10 and 11.)
2. Remove the screws (B1) x 2 pcs.
3. Remove the CD lid motor.
Caution:
Be careful not to damage the gear.
(If the gear is damaged, noise is heard when searching.)
CD Lid Gear
Unit Ass'y
(B1)x2
ø2x4mm
CD Lid Motor
Figure 14-2
– 14 –
MD-E9000W
TEST MODE
From power off state to TEST mode
During power off, hold down CD OPEN/CLOSE button and PRESET UP button and then press ON/STAND-BY button.
It will show micom version display. "Y2K1 X.XX"
Press direct button to enter the test mode.
TEST MODE
TEST MODE
DIRECT KEY
CD
CD PLAY
MD DISPLAY
MD STOP
KEY
X-BASS
TUNER
TUNER
Cancelling the TEST mode
To cancel, press ON/STAND-BY button and it will display. "COMPLETE"
MD TEST mode
During power off, hold down EQUALIZER button and PRESET UP button and then press ON/STAND-BY button.
1. CD test
Outline: It is impossible to read setting value after automatic adjustment (Use for judgement a difference between initial value)
Pickup forcement operation
Move to inner, move to outer, LD ON/OFF
TEST mode entering method
Press CD PLAY button from TEST mode menu.
After enter to CD TEST mode
1) Direct power on at CD function
2) DSP initialize process
3) Transmit command correspond to button input
Validation Button: CD PLAY, CD STOP, SKIP UP, SKIP DOWN, ON/STAND-BY, DISPLAY, VOLUME UP, VOLUME
DOWN
1. CD PLAY
: STEP of CD operation
STEP1: CD PLAY button from STOP condition , LD ON
STEP2: CD PLAY button from STEP1,
FOCUS ON
STEP3: CD PLAY button from STEP2,
CLV SERVO ON
STEP4: CD PLAY button from STEP3,
TRACKING SERVO ON
STEP5: CD PLAY button from STEP4,
SUB-CODE READING and DISPLAY
* Direct to STEP5 if press CD PLAY button more than 1 sec
2. CD STOP
: STOP from PLAY operation (STOP from each STEP)
Return to NORMAL DISPLAY (PARAMETER DISPLAY)
3. SKIP UP
: Force pickup to forward direction
4. SKIP DOWN
: Force pickup to reverse direction
Slide STOP after PICKUP IN switch ON
5. MD STOP
: Access automatic adjustment (Present PICKUP point)
6. ON/STAND-BY
: TEST mode cancel
7. DISPLAY
: Read parameter register when CD STOP
8. VOLUME UP/DOWN : Normal volume control
Adjustment value reading
Read the following item every DISPLAY button input during stop.
Return to normal display if press CD STOP button.
Item
Display
RAM Address
Focus gain
__FG:××
0×5C h
Focus offset
FOFF:××
0×9F h
Tracking balance
TBAL:××
0×4D h
Tracking gain
__TG:××
0×5D h
Tracking offset
TOFF:××
0×AF h
RF Levelshift
RFLS:××
31××
Monitor setting value (××) when transmit command 31××
– 15 –
MD-E9000W
High (double) speed mode
It is possible to change between high speed/normal speed by pressing HIGH EDIT/NORMAL EDIT button during stop.
"HIGH" mark will light up when high speed mode.
Actual operation is just only sending 1 time/2 time speed operation command other is same with normal speed.
When change from high speed to normal speed, it will set normal speed parameter and RF amp.
3. MD test mode
a. Communication start after proceed MD reset process
b. Power ON at MD function
c. Transmit command correspond to each button during button input (min 5 transmission)
Display: Display all 10 characters which transmitting from text area by MD command
d. Eject and loading is same as normal operation
e. Change to MD non adjustment mode by ON/STAND-BY button
f. MD no adjustment mode is like procedure below
1) Transmit power off command (1F) to MD
2) Wait until function bit: 00 (POWER OFF) confirmation
3) MD micom reset
4) Transmit non automatic adjustment test mode command (D1) until change to MD mode (E0) after communication start
5) Display 1, 3, 5, 7 segment according to music calender data when MD mode E0
6) Normal operation for next step
Reference
To cancel non automatic adjustment mode, need to do either reset or power failure MD micom will start normal mode operation
if not receive non adjustment mode command when recover from power failure.
Button and command when MD TEST mode
Button Name
Function
Command
CD PLAY
B2
NORMAL EDIT
B4
Servo adjustment mode
Recording mode
HIGH EDIT
F2
Other mode
MD REC
A8
Menu change at each mode
MD PLAY
A2
Menu access
MD STOP
A7
Menu stop
SKIP UP
AA
Slide to outer
SKIP DOWN
AC
Slide to inner
VOLUME UP
F3
Adjustment value +1
VOLUME DOWN
F4
Adjustment value -1
CD STOP
F5
Display change
ON/STAND-BY
1F+D1
MD test mode
LOAD-SW ON
B5
Access loading operation
MD EJECT
B3
Eject operation
– 16 –
MD-E9000W
5. KEY test (Function: Key and last display)
Function: Key and last display
Power off after lighting up the odd number grids, even numbered grids and lighting up FL pipe segment which corresponded
to KEY until TEST MODE is cancelled.
TEST MODE
LIGHT UP ODD
NUMBERED GRID
1.0 sec TIMER
(WAIT)
LIGHT UP EVEN
NUMBERED GRID
1.0 sec TIMER
(WAIT)
LIGHT OFF
KEY INPUT
KEY INPUT =
"POWER"?
YES
NO
It does the display which was
allocated for the key while each
KEY INPUT was pressed.
POWER OFF.
TEST CANCEL.
Notice: 1. REMOCON input during test mode is invalid.
2. Volume "0"
Segment light up when pressed correspond key
KEY
MD EJECT
KEY
Segment
ALL LIGHT UP
SP
Segment
AUX
OVER
TUNER
ST &
TOC
LP2
LP2
CD EJECT
LP4
LP4
VOLUME UP
RDS
NORMAL EDIT
GROUP
VOLUME DOWN
PTY
HIGH EDIT
HIGH
CD STOP
TP &
MD REC
REC
CD PLAY
TA
MEMORY
MEMORY
MD STOP
DISC
DISPLAY
RANDOM
MD PLAY
TRACK &
X-BASS
BASS
SKIP UP
EON &
EQUALIZER
T-EDIT
SKIP DOWN
TI & SLEEP
– 17 –
MD-E9000W
8. TUNER test
Set TUNER PRESET MEMORY according to below condition for each destination.
Condition
Function
Band
Frequency
Volume
Preset G-EQ
: TUNER
: FM MONO
: LOW FREQUENCY
: LAST MEMORY
: LAST
PRESET LIST
SPN P: L
SPN P: H
1
FM
87.5 MHz
FM
87.50 MHz
2
FM
108.0 MHz
FM
108.00 MHz
3
FM
90.0 MHz
FM
90.00 MHz
4
FM
106.0 MHz
FM
106.00 MHz
5
FM
98.0 MHz
FM
98.00 MHz
6
AM
530 kHz
AM
531 kHz
7
AM
1620 kHz
AM
1602 kHz
8
AM
600 kHz
AM
603 kHz
9
AM
1400 kHz
AM
1404 kHz
10
AM
990 kHz
AM
990 kHz
9. TUNER MEMORY CLEAR (Write in operation manual)
Work : Clear all TUNER PRESET MEMORY
Input : During POWER ON at TUNER function, press CLEAR/DELETE button more than 3 sec.
10 sec
PRESET CLR?
Press MEMORY/ENTER button to confirm the request.
1.5 sec
COMPLETE
finish.
10. SOFTWARE RESET (Open to the user by manual explanation)
Function:
— Software RESET.
— All the function condition will be initialize.
— After display "RESET", power will off.
Input:
During POWER OFF, press DISPLAY + SKIP UP + ON/STAND-BY button
Operation: 1. If start from ECO, ON the AC RELAY (micom high speed)
2. Clear All RAM except HCMS RAM
3. INITALIZE all function condition
4. "RESET" display for 2 sec
5. Change to POWER OFF (DEMO MODE — default)
"RESET" display
R E S E T
– 18 –
MD-E9000W
ADJUSTMENT
• FM RF
Signal generator: 1 kHz, 40 kHz dev., FM modulated
TUNER SECTION
fL: Low-range frequency
fH: High-range frequency
• AM IF/RF
Signal generator: 400 Hz, 30 %, AM modulated
Test Stage
Frequency
Frequency
Display
Frequency
Test Stage
Setting/
Adjusting
Parts
AM IF
450 kHz
1,602 kHz
T351
AM Band
Coverage
—
531 kHz
(fL): T306
1.1 ± 0.1 V
AM Tracking
990 kHz
990 kHz
(fL): T303
Frequency
Display
Setting/
Adjusting
Parts
FM Band
Coverage
—
87.50 MHz
(fL): T301
1.3 ± 0.8 V
FM RF
98.00 MHz
98.00 MHz
L312
Frequency Cover: TP301 Electric
Voltmeter
SO301 Speaker Terminal
FM Signal Oscillator
UNIT
AM Loop Antenna
GND
Electric
Voltmeter
IF: Speaker Terminal
Frequency Cover: TP301
Figure 19-2 FM FREQUENCY COVER
AM Signal Oscillator
UNIT
GND
AM BAND
COVERAGE fL
T306
R336
T303
L312
AM TRACKING
fL
TP302
TP301
FM RF
IC301
T302
FM IF
T301
SO301
ANTENNA
TERMINAL
T351
AM IF
FM BAND
COVERAGE fL
TUNER PWB
Figure 19-3 ADJUSTMENT POINTS
– 19 –
R357
Figure 19-1 AM IF/FREQUENCY COVER
MD-E9000W
MD SECTION
Enter the test mode, adjust or set as shown in the following table according to the repair operations.
Execution item
required
Repair
operations
TEMP
basic
setting
Checking Writing the AUTO-YOBI
AUTOAUTO-AFB Writing the
EEPROM EEPROM
EEPROM
adjustment
adjustment
adjustment
setting
setting
setting
TEMP
EEPROM_SET TEST-CANCEL AUTO_YOBI AUTO_ADJ AUTO_AFB TEST-CANCEL TEST-PLAY TEST-REC
2
1
PICK replacement
3
4
5
6
Operation check
7
1
HEAD replacement
MECHANISM
replacement
MAIN PWB
assembly replacement
8
1
MD microcomputer
replacement
1
2
3
4
5
6
7
8
2
3
4
5
6
7
8
9
1
2
2
3
4
MD LSI replacement
1
2
3
4
5
6
RF IC replacement
1
2
3
4
5
6
7
8
9
EEPROM IC
replacement
1
2
3
4
5
6
7
8
9
number
1 to 8 and 9 indicate the order of inplementation.
" – " is an item that you don't have to execute.
The EEPROM writing result is shown at the end of the test mode
OK_EEPROM: "SET" and "YOBI COMPLETE" were written normally
WR_EEPROM: Although "SET" was written normally, it was not written in the "YOBI COMPLETE" state.
Peform "AUTO-YOBI" adjustment. After making a normal adjustment,
write the preliminary adjustment into the EEPROM.
NG_EEPROM: "SET" could not be written.
Check the connection between the MD microcomputer and the EEPROM.
1. Preparation for adjustment
Test disc
Type
1
2
3
4
Test disc
Part No.
High reflection disc TGYS1 (SONY) [for Playback]
Low reflection disc MiniDisc for checking the recording operation
(commercially available MD)
Head Adjusting transparent
Low reflection disc Pre-adjustment disc [TEAC Test MD]
Extension Cable (See Fig. 28)
Type
1
2
3
4
Extension PWB for servicing
Extension Connector (2 Pin)
Extension Flat Cable (9 Pin)
Extension Flat Cable (28 Pin)
Part No.
RUNTK0581AFZZ
QCNWK0059AFZZ
QCNWK0132AFZZ
QCNWK0108AFZZ
– 20 –
RRCDT0101AFZZ
––––––––––––
RRCDT0103AFZZ
88GMMD-213AS or
88GMMD-318
MD-E9000W
2. Test Mode
Test mode setting method
1. While pressing the EQUALIZER button and PRESET UP button at the same time, and press the ON/STAND-BY button.
(The unit changes over from the A state to the B state.)
2. Insert the playback-only disc 1 (high reflection disc) or the recordable disc 2 (low reflection disc). (State is changed to C .)
Above procedures will set the unit to the test mode.
A tsm 22
e
: TEST MODE
STOP state
represents version of MD microcomputer.
(When the MD STOP button is pressed in the C state, the indication A is
restored. To restore C again, press the CD PLAY/PAUSE button.)
B EJECT
C AUT AJST
Entering the specific mode
Whenever the CD PLAY/PAUSE button is pressed, the mode is changed.
If the REC button is pressed instead, the mode will change in the opposite order.
AUTO YOBI
AUTO AJST
AUT AFB
(AUTO prelimirary adjustment)
(AUTO adjustment)
(Advanced AFB adjustment)
ERR DATA
EEPROM_SET
(ERRER DATA)
(EEPROM setting)
RST YOBI
MNU AJST
MNU AFB
(MANUAL AFB adjustment)
(RESULT Y O B I )
(MANUAL adjustment)
RESULT
M N U
Y O B I
(MANUAL pre-adjustment)
Cancel of test mode
The data is written on EEPROM by pressing the POWER button. Then, if the power is turned off once, the unit returns to the
normal state.
* Before pressing the POWER button, be sure to perform the AUTO preliminary adjustment, AUTO adjustment and AUTO AFB
adjustment, and confirm that they are completed.
* After the value of EEPROM is changed or the AUTO pre-adjustment, AUTO adjustment, and AUTO AFB adjustment are
performed again, write on EEPROM by pressing the POWER button. (When the POWER button is pressed, data is written
on EEPROM.)
* When the value of EEPROM has been changed, write the data on EEPROM once. To perform adjustment using the data, set
the unit to the TEST mode again, perform AUTO pre-adjustment, AUTO adjustment, and AUTO AFB adjustment, and then
write the data again on EEPROM.
• Test Mode
1. EJECT mode
• TEMP setting (of EEPROM setting)
• CONTROL setting (of EEPROM setting)
• Setting of laser power (record/playback power)
2. AUTO pre-adjustment mode
• Automatic pre-adjustment is performed.
3. AUTO adjustment mode
• Automatic adjustment is performed. (After adjustment the grating adjustment mode is set.)
4. AUTO AFB adjustment mode
• Focus adjustment is performed.
• RESULT sub-mode
• RESULT mode (final adjustment)
• MANUAL pre-adjustment mode
• MANUAL adjustment mode
• MANUAL AFB adjustment mode
• ERROR DATA
• Therefore do not set this mode since it is not necessary for the service.
5. EEPROM setting mode
• Various coefficients of digital servo are changed manually.
6. TEST-PLAY mode
• Continuous playback from the specified address is performed.
• C1 error rate measurement, ADIP error rate measurement.
7. TEST-REC mode
• Continuous recording from the specified address is performed.
8. INNER mode
• The position where the INNER switch is turned on is measured.
– 21 –
MD-E9000W
1. EJECT mode
Step No.
Setting Method
Remarks
Display
Step 1
Test mode EJECT state
Step 2
Press the CD STOP button.
Playback power output state
[ppw_______]
[__EJECT___]
Step 3
Press the CD STOP button.
Rec power output state
[rpw_______]
Step 4
Press the CD STOP button.
Therefore do not set this mode since it is not necessary
for the service.
[xpw_______]
Step 5
Press the NORMAL CD
EDIT button.
TEMP setting of EEPROM setting
(The TEMP setting reference of the EEPROM.)
Step 6
Press the DISPLAY (DEMO)
button.
MD
CONTROL setting of EEPROM setting
(The CONTROL setting reference of the EEPROM.)
* Normally, the voltage at pin 3 of IC1401 becomes as follows:
Playback power output (ppw): Approx. DC 0.2 V
Recording power output (rpw): Approx. DC 1.8 V
Confirmation of pickup laser power
It is possible to confirm in the record/playback mode with the aid of laser power meter. However, since the laser power meter
measurement is characterized with dispersion, obtained data are used only for confirmation.
Reference data (at room temperature 25 °C)
Playback (ppw): 0.72 ± 0.1 mW
Record (rpw): 5.5 ± 0.5 mW
Note:
Never see directly the laser light. Otherwise your eyes are injured.
2. AUTO pre-adjustment mode (Low reflection disc only)
With the pre-adjustment disc (MMD213AS or MMD-318)
Step No.
Setting Method
Remarks
Display
Step 1
Test mode STOP state
Step 2
Press once the CD PLAY button.
AUTO adjustment menu
[AUTO_AJST_]
[tsm
Step 3
Press the MD REC button.
AUTO pre-adjustment menu
[_AUT_YOBI_]
Step 4
Press once the MD PLAY button. • During automatic adjustment
HAo→ • • • • • • • • • →TCO
End of adjustment
If adjustment is OK, Step 5.
If adjustment is NG, Step 6.
Step 5
Press the MD STOP button.
STEP 2
Step 6
Adjustment value output
Press the MD STOP button.
STEP 2 AUTO adjustment menu
changes as follows.
[
e
]
:______]
[_COMPLETE_]
[ Can't _ ADJ. ]
•
: Adjustment name
3. AUTO adjustment mode
Step No.
Setting Method
Remarks
Step 1
Test mode STOP state
Step 2
Press once the CD PLAY button.
Step 3
Press once the MD PLAY button. • In case of high reflection disc
PEG→HAG
• In case of low reflection disc
PEG→LAG
End of adjustment
If adjustment is OK, Step 4.
If adjustment is NG, Step 7.
Step 4
Press the MD PLAY button.
Press the MD STOP button.
Display
[tsm
AUTO adjustment menu
e
]
[AUTO_AJST_]
changes as follows.
[
:______]
changes as follows.
For grating adjustment
STEP 5
STEP 2
[_COMPLETE_]
* Note 1
Step 5
Continuous playback (pit section) Confirmation of C1 error
Continuous playback (groove section)
[s
[a
c
c
]
]
Step 6
Press the CD STOP button.
Press the MD STOP button.
Conformation of ADIP error (Low reflection only)
STEP 2 AUTO adjustment menu
[a
a
]
Step 7
Adjustment value output
Press the MD STOP button.
STEP 2 AUTO adjustment menu
[ Can't _ ADJ. ]
•
: Adjustment name,
: Measurement value,
: Address
* Note 1:
Depending on the disc, "#COMPLETE_" may be displayed, which means that the ON position of the INNER switch cannot be
identified clearly. In this case, check the switch in the INNER mode using the specified disc. However, this is not a problem in AUTO
adjustment.
– 22 –
MD-E9000W
4. AUTO AFB adjustment mode
Setting Method
Step No.
•
Remarks
Test mode STOP state
Step 2
Press the CD PLAY button two times.
Step 3
Press once the MD PLAY button.
[A F B
Step 4
Adjustment value output
Press the MD STOP button.
[
,
[tsm
AUTO AFB adjustment menu
STEP 2 AUTO AFB adjustment
: Measurement value
Setting Method
Step No.
Display
Step 1
Test mode STOP state
[tsm
Step 2
Press the CD PLAY button eight times.
[ E E P R O M_ S E T ]
Step 3
Press the MD PLAY button.
[__Focus___]
Step 4
Press the MD PLAY button.
[F G _ _ _ _ _ _
Step 5
Press the CD PLAY button.
[F G 2 _ _ _ _ _
]
Step 6
Press the CD PLAY button.
[F F 0 _ _ _ _ _
]
Step 7
Press the CD PLAY button.
[F F 1 _ _ _ _ _
]
Step 8
Press the CD PLAY button.
[F F 2 _ _ _ _ _
]
Step 9
Press the CD PLAY button.
[F Z H L E V _ _
]
Step 10
Press the CD PLAY button.
[F O K L E V h _
]
Step 11
Press the CD PLAY button.
[F O K L E V L _
]
Step 12
Press the CD PLAY button.
[F O S T n _ _ _
]
Step 13
Press the CD PLAY button.
[D S C J G _ _ _
]
e
]
]
: Setting value
b) Spin setting
Setting Method
Step No.
•
Display
Step 1
Test mode STOP state
[tsm
Step 2
Press the CD PLAY button eight times.
[ E E P R O M_ S E T ]
Step 3
Press the MD PLAY button.
[__Focus___]
Step 4
Press the CD PLAY button.
[_Spindle__]
Step 5
Press the MD PLAY button.
[S P G _ _ _ _ _
Step 6
Press the CD PLAY button.
[S P G _ i n _ _
Step 7
Press the CD PLAY button.
[S P G _ m i d _
]
Step 8
Press the CD PLAY button.
[S P G _ o u t _
]
Step 9
Press the CD PLAY button.
[S P G M _ _ _ _
Step 10
Press the CD PLAY button.
[S P 1 _ _ _ _ _
Step 11
Press the CD PLAY button.
[S P 2 _ _ _ _ _
Step 12
Press the CD PLAY button.
[S P 2 2 _ _ _ _
]
Step 13
Press the CD PLAY button.
[S P 3 _ _ _ _ _
]
Step 14
Press the CD PLAY button.
[S P 4 _ _ _ _ _
]
Step 15
Press the CD PLAY button.
[S P 5 _ _ _ _ _
]
Step 16
Press the CD PLAY button.
[S P 5 2 _ _ _ _
]
Step 17
Press the CD PLAY button.
[S P D L I M _ _
]
Step 18
Press the CD PLAY button.
[S P K L E V m _
: Setting value
– 23 –
e
]
[_AUT _AFB__]
5. EEPROM setting mode
a) Focus setting
•
Display
Step 1
e
]
]
]
]
]
]
]
_
_
]
]
MD-E9000W
c) Tracking setting
Step No.
•
Display
Setting Method
Step 1
Test mode STOP state
[tsm
Step 2
Press the CD PLAY button eight times.
[ E E P R O M_ S E T ]
e
]
Step 3
Press the MD PLAY button.
[__Focus___]
Step 4
Press the CD PLAY button two times.
[_Tracking_]
Step 5
Press the MD PLAY button.
[T G _ _ _ _ _ _
]
Step 6
Press the CD PLAY button.
[T G 2 _ _ _ _ _
]
Step 7
Press the CD PLAY button.
[T F 0 _ _ _ _ _
]
Step 8
Press the CD PLAY button.
[T F 1 _ _ _ _ _
]
Step 9
Press the CD PLAY button.
[T F 2 _ _ _ _ _
]
]
Step 10
Press the CD PLAY button.
[F T 3 _ _ _ _ _
Step 11
Press the CD PLAY button.
[S V C N T 4 _ _
]
Step 12
Press the CD PLAY button.
[T R B L V o _ _
]
Step 13
Press the CD PLAY button
[T R B L V t _ _
]
Step 14
Press the CD PLAY button
[T R K L V o _ _
]
Step 15
Press the CD PLAY button
[T R K L V t _ _
]
Step 16
Press the CD PLAY button
[T D P W o _ _ _
]
Step 17
Press the CD PLAY button
[T D P W t _ _ _
]
Step 18
Press the CD PLAY button
[S L C T o _ _ _
]
Step 19
Press the CD PLAY button
[S L C T t _ _ _
]
Step 20
Press the CD PLAY button.
[S L C T m _ _ _
Step 21
Press the CD PLAY button.
[T C R S C 1 P _
]
Step 22
Press the CD PLAY button.
[T C R S C 0 h _
]
Step 23
Press the CD PLAY button.
[T C R S C 0 L _
]
Step 24
Press the CD PLAY button.
[T C R S C H h _
]
Step 25
Press the CD PLAY button.
[T C R S C H L _
]
Step 26
Press the CD PLAY button.
[C O T L V p _ _
]
Step 27
Press the CD PLAY button.
[C O T L V r _ _
Step 28
Press the CD PLAY button.
[J P i n t _ _ _
Step 29
Press the CD PLAY button.
[K I K 1 0 _ _ _
]
]
]
]
: Setting value
d) Sled setting
Setting Method
Step No.
•
Display
Step 1
Test mode STOP state
[tsm
Step 2
Press the CD PLAY button eight times.
[ E E P R O M_ S E T ]
Step 3
Press the MD PLAY button.
[__Focus___]
Step 4
Press the CD PLAY button three times.
[___Sled___]
Step 5
Press the MD PLAY button.
[S L G _ _ _ _ _
]
Step 6
Press the CD PLAY button.
[S L 2 _ _ _ _ _
]
Step 7
Press the CD PLAY button.
[S L D L I M _ _
]
Step 8
Press the CD PLAY button.
[S L D L E V _ _
]
Step 9
Press the CD PLAY button.
[S L K L V k _ _
]
Step 10
Press the CD PLAY button.
[S L K L V t _ _
]
Step 11
Press the CD PLAY button.
[S L K L V m _ _
Step 12
Press the CD PLAY button.
[S L B K m _ _ _
Step 13
Press the CD PLAY button.
[S L K r i o _ _
]
Step 14
Press the CD PLAY button.
[S L K r o i _ _
]
Step 15
Press the CD PLAY button.
[S L K l i o _ _
]
Step 16
Press the CD PLAY button.
[S L K l o i _ _
]
Step 17
Press the CD PLAY button.
[I N N E R 1 _ _
]
Step 18
Press the CD PLAY button.
[I N N E R u _ _
]
Step 19
Press the CD PLAY button.
[E J _ W A I T _
]
: Setting value
– 24 –
e
]
]
]
MD-E9000W
e) TEMP setting
•
Display
Setting Method
Step No.
Step 1
EJECT state (or state without mechanism)
[__EJECT___ ]
Step 2
Press the NORMAL CD
[ T E M P_
: Setting value,
MD EDIT button.
_
]
: Measurement value
f) CONTROL setting
•
Display
Setting Method
Step No.
Step 1
Test mode STOP state
[tsm
Step 2
Press the CD PLAY button eight times.
[ E E P R O M_ S E T ]
e
]
Step 3
Press the MD PLAY button.
[__Focus___]
Step 4
Press the CD PLAY button five times.
[_Control__]
Step 5
Press the MD PLAY button.
[C O N T R L 1 _
]
Step 6
Press the CD PLAY button.
[C O N T R L 2 _
]
]
Step 7
Press the CD PLAY button.
[A D J T T M _ _
Step 8
Press the CD PLAY button.
[H D E Q A D _ _
]
Step 9
Press the CD PLAY button.
[L D E Q A D _ _
]
Step 10
Press the CD PLAY button.
[G D E Q A D _ _
]
Step 11
Press the CD PLAY button.
[G D E Q A D 2 _
]
Step 12
Press the CD PLAY button.
[H D E Q B C _ _
]
Step 13
Press the CD PLAY button.
[L D E Q B C _ _
]
Step 14
Press the CD PLAY button.
[G D E Q B C _ _
]
Step 15
Press the CD PLAY button.
[G D E Q B C 2 _
Step 16
Press the CD PLAY button.
[H A L S G _ _ _
]
]
Step 17
Press the CD PLAY button.
[L A L S G _ _ _
Step 18
Press the CD PLAY button.
[G A L S G _ _
]
Step 19
Press the CD PLAY button.
[H A L S O F S _
]
Step 20
Press the CD PLAY button.
[L A L S O F S _
]
Step 21
Press the CD PLAY button.
[G A L S O F S _
]
]
: Setting value
g) ADJUST setting
•
Display
Setting Method
Step No.
Step 1
Test mode STOP state
[tsm
Step 2
Press the CD PLAY button eight times.
[ E E P R O M_ S E T ]
e
]
Step 3
Press the MD PLAY button.
[__Focus___]
Step 4
Press the CD PLAY button six times.
[A D J S E T _ _ _ _ ]
Step 5
Press the MD PLAY button.
[C O K _ _ _ _ _
]
Step 6
Press the CD PLAY button.
[F A T _ _ _ _ _
]
Step 7
Press the CD PLAY button.
[T A T _ _ _ _ _
]
Step 8
Press the CD PLAY button.
[C A T _ _ _ _ _
]
Step 9
Press the CD PLAY button.
[F A B _ _ _ _ _
]
Step 10
Press the CD PLAY button.
[S T R _ _ _ _ _
]
Step 11
Press the CD PLAY button.
[S F S _ _ _ _ _
]
Step 12
Press the CD PLAY button.
[S T C _ _ _ _ _
]
: Setting value
– 25 –
MD-E9000W
h) REC bit setting
•
Display
Setting Method
Step No.
Step 1
Test mode STOP state
[tsm
Step 2
Press the CD PLAY button eight times.
[ E E P R O M_ S E T ]
e
]
Step 3
Press the MD PLAY button.
[__Focus___]
Step 4
Press the CD PLAY button seven times.
[RECbit_SET]
Step 5
Press the MD PLAY button.
[SP_WR50_
]
Step 6
Press the CD PLAY button.
[SP_WR56_
]
Step 7
Press the CD PLAY button.
[SP_WR44_
]
Step 8
Press the CD PLAY button.
[SP_WR53_
]
Step 9
Press the CD PLAY button.
[LP2WR50_
]
Step 10
Press the CD PLAY button.
[LP2WR56_
]
Step 11
Press the CD PLAY button.
[LP2WR44_
]
Step 12
Press the CD PLAY button.
[LP2WR53_
]
Step 13
Press the CD PLAY button.
[LP4WR50_
]
Step 14
Press the CD PLAY button.
[LP4WR56_
]
Step 15
Press the CD PLAY button.
[LP4WR44_
]
Step 16
Press the CD PLAY button.
[LP4WR53_
]
Step 17
Press the CD PLAY button.
[RVD_____
]
: Setting value
6. TEST-PLAY mode
(For confirmation of the playback ability at the named address.)
Setting Method
Step No.
Remarks
Display
Step 1
Test mode STOP state
[tsm
Step 2
Press the NORMAL CD
EDIT button.
Step 3
Press the CD STOP button.
Press the MD PLAY button.
Step 4
Continuous playback (pit section) (Address + C1 error indication)
Continuous playback (groove section) (Address + C1 error indication)
[s
[a
c
c
]
]
Step 5
Press the CD STOP button.
(Address + ADIP error indication)
Continuous playback (groove section)
[a
a
]
Step 6
Press the MD STOP button.
[TEST_PLAY_]
MD
e
]
TEST-PLAY menu
[TEST_PLAY_]
ADRES setting (Target address initial value is indicated)
[ADRES_0032]
TEST-PLAY menu
• Whenever the NORMAL CD MD EDIT button is pressed in the address setting mode, the address changes as follows.
0 0 3 2 → 0 3 C 0 → 0 7 0 0 → 0 8 A 0 → 0 9 5 0 → 0 0 3 2 → …………
7. TEST-REC mode
With recording mini disk (For confirmation of the playback ability at the named address.)
Setting Method
Step No.
Step 1
Test mode STOP state
Step 2
Press the NORMAL CD
EDIT button two times.
Step 3
Remarks
Display
[tsm
MD
e
]
TEST-REC menu
[TEST_REC__]
Press the CD STOP button.
ADRES setting (indication of address initial value)
[a0032_pw
Step 4
Press the MD PLAY button.
Continuous recording
[a
Step 5
Press the MD STOP button.
TEST-REC menu
[TEST_REC__]
]
_pw
]
• Whenever the NORMAL CD MD EDIT button is pressed in the address setting mode, the address changes as follows.
0 0 3 2 → 0 3 C 0 → 0 7 0 0 → 0 8 A 0 → 0 9 5 0 → 0 0 3 2 → …………
8. INNER mode
Setting Method
Step No.
•
Step 1
Test mode STOP state
Step 2
Press the HIGH CD
button.
Step 3
Step 4
MD EDIT
Remarks
Display
[tsm
e
]
INNER menu
[__INNER___]
Press the MD PLAY button.
INNER switch position measurement
(SUBQ address and C1 error are also indicated.)
[s
Press the MD STOP button.
INNER menu
[__INNER___ ]
: Address
– 26 –
c
]
MD-E9000W
1 Adjustment
Load a high-reflective TYGS1 test disc.
Note:
Adjust the position of the lead-in switch between FF85 to FFD2.
1. Loosen the screw (A1) x 1 pc., fixing the mechanism switch PWB.
2. Retighten the screw while pushing the PWB in the direction of arrow A if the switch position is at FF85 or lower, or in the direction
of arrow B if it is at FFD2 or higher, and measure its position again.
After adjusting the position, fix it with the screw (A1) x 1 pc. (See Fig. 27-1)
A
B
(A1) X1
2 Confirmation
Figure 27-1
Check that the display shows "_COMPLETE_" instead of "#COMPLETE_" in step 4 of the AUTO adjustment mode.
Magnetic Head
Rotating the loading motor forcibly
The loading motor can be rotated forcibly by rotating the VOL
UP/DOWN button while STOP or EJECT in the test mode
appears on the display.
Tangential
direction
Objective
Lens
Radiai
Magnetic head mounting position check
• Check the mounting position whenever the magnetic head
and the optical pickup are replaced.
• Move the optical pickup to the center to adjust the position
easily.
1. Set the transparent disc for checking the head.
2. Press down the magnetic head up shift arm by hand to raise
the magnetic head.
3. View the set from above to check whether the magnetic
head aligns with the optical pickup objective lens.
4. Check that the magnetic head moves up and down smoothly.
(See Fig. 27-2)
Head upshift ar
Figure 27-2
Mechanism Adjustment
1. Optical pickup grating inspecting method
2
4 Pin of IC1201
GND (TP1202)
11 Pin of IC1201
EIN (TP1253)
OSILLOSCOPE
1
470p
GND CH1
CH2
470p
12 Pin of IC1201
FIN (TP1254)
3
a
100K
X
100K
Y
b
LISSAJOUS'S WAVEFORM
Less than a:b = 4:1
Figure 27-3 Optical Pickup Grating Deviation
Measuring Method
2
After auto adjustment (COMPLETE appears) in the test mode
(auto) using the high reflection MD disc TGYS1, adjust the
Lissajou's waveform (x-y) of EOUT to FOUT.
1. Slightly loosen the 3 screws of the spindle motor, adjust
while observing the Lissajou's waveform.
2. After adjustment, tighten screws , , and in numerical
order. (See Fig. 27-4)
12
1
3
3
adjusting
hple
Check the Lissajou's waveform
shifting the mounting position with
a screwdriver (to be fitted into the
disc motor adjusting hole).
Figure 27-4
– 27 –
MD-E9000W
2 Pin Extension Connector
QCNWK0059AFZZ
From
Magnetic Head
From
Optical Pickup Unit
From Mechanism
Switch PWB
Extension PWB for service
(RUNTK0581AFZZ)
Fit the extension PWB for service to
the mechanism
28 Pin Extension Flat Cable
QCNWK0108AFZZ
MD Main PWB
9 Pin Extension Flat Cable QCNWK0132AFZZ
Figure 28
– 28 –
MD-E9000W
ERROR MESSAGE LIST
MD error messages
Error Display
Error Message
Remarks
Can't REC
• Errors occurred 10 times continuously in the REC-PLAY
mode.
• In the REC-PLAY mode, recording enable cluster became
0 due to errors.
• Cannot read the address. The unit cannot enter the REC
mode for 20 seconds regardless of repetitive tries.
• Check for scratch, dust, fingerprints, or black spots on
the disc. Check that the disc is not eccentric or largely
deflected.
Can't COPY
• During the REC-PAUSE or REC-PLAY mode, the disc was
judged as follows according to the channel status of the
digital signal input at D-IN:
It is not an audio disc.
It is not for public use.
Due to the inversion of COPY bit on the CD, the
contents cannot be copied.
• Check if it is the copy-prohibited disc (Example: CD-R
etc.).
• During the REC-PAUSE, REC-PLAY, or CD FUNC playback
mode, the following occurred responding to the digital signal
input at D-IN:
Digital IN PLL is unlocked.
PLL is locked even if FS is not 44.1 kHz.
• Check for an abnormality with the D-IN signal line.
TOC FULL
• There is no space left for track numbers or character
information (track names, disc name, etc.).
• No recordable space was found when entering the RECPAUSE mode.
• Replace the disc with the one on which the space for
recording UTOC is left.
Can't READ u
• FTNO > LTNO has been recognized.
• FTNO is not 0 or 1.
• Cannot read UTOC recorded on the disc.
• There is an error with UTOC data. Replace the disc.
TOC FROM a
• The start address > end address has been recognized.
• There is an error with UTOC data. Replace the disc.
TOC FROM L0-4
• One of UTOC 0-4 data is looping.
• There is an error with UTOC data. Replace the disc.
NOT AUDIO
• Non-audio data is recorded in the track mode of currently
selected track number.
• Select another track number or replace the disc.
? DISC
• The ASCII codes data "MINI" of the system ID written in
TOC is not correct.
• The disc type written in TOC does not belong to either of
the pre-master MD, recording MD or hybrid MD.
• This is a nonstandard disc. Replace the disc and
check.
DISC FULL
• No recordable space was found when entering the RECPAUSE mode.
• Replace the disc with the one on which the recording
space for UTOC is left.
PROTECT
• You tried recording or editing on a disc with the eraseprevention tab moved.
• You tried editing the track that is write-protected due to the
information written in UTOC.
• Move the tab back to its original position and try
recording or editing again.
* Try editing other tracks that are not write-protected.
Can't EDIT
• Conditions in each editing function have not been satisfied. • The unit is not operated properly. Try again in right
procedures.
TEMP OVER
• The temperature inside of the set (MD unit) becomes too
high due to an error.
• Check the remedy on the troubleshooting chart.
• Is the unit used in a place of high temperature?
Can't READ r
Can't READ s
Can't READ w
• The read data is not correct, or data has not been
read properly.
• An error occurred while recording sound data, and
the recording could not be completed.
• There may be an error in TOC or UTOC data or
scratches on the disc. Replace the disc.
Can't READ s
Can't READ r
• The read data is not correct.
• TOC information cannot be read.
• There may be scratches on the disc. Replace the disc.
• TOC information on the disc does not comply with the
MD standard. Replace the disc.
Can't WRITE
• An error occurred while overwriting UTOC, and it could not
be overwritten properly.
• There may be scratches on the disc. Replace the disc.
BLANK MD
• Although UTOC is read, total number of letters of TNO and • Check that the disc is a recordable disc by recording on it.
NAME is 0.
Er-MD41
• UTOC can be read but cannot be overwritten.
• Is the recording head positioned properly? Check the
connection between the PWB and recording head.
Er-MD80
• EEPROM data is not correct.
• Reset the unit and try again. If it does not restore the
unit, replace EEPROM.
Power?
• Due to the abnormality with the power supply, MD unit
cannot be operated properly.
• Reset the unit and try again. If it does not restore the
unit, the power supply circuit is defective. Check the
DC voltage of Q550 E , and Q580 E .
1
2
3
NO SIG.
1
2
– 29 –
MD-E9000W
The details description of mechanism error
Error Display
Er-MD1
Er-MD2
Er-MD3
HINF
(93 Pin of IC1401)
Error Message
Cannot eject the disc.
The head does not ascend.
The head does not descend.
=E
=M
=L
=D
EJECT complete position
LOAD/EJECT halfway position
LOAD complete position
HEAD DOWN position
< 1.4 V
>3V
2.475 ~ 2.8 V
2.0875 ~ 2.2375 V
EEPROM WRITING PROCEDURE
An example: When ambient temperature is 22 °C and
measured temperature is 7A H
Temperature setting = 7A H - 01 H
= 79 H
* When the measured temperature fluctuates
between two values, take lower one (if
temperature fluctuates between 7A H and
79 H, take 79 H).
Press the POWER button and write the temperature
setting into the EEPROM.
EEPROM (IC1402) writing procedure
1. Method for setting the reference temperature value
(This setting should be performed quickly at a room
temperature, between 21°C to 29°C when the PWB is not
hot.)
1 When replacing the EEPROM, wait until it has cooled
down.
2 Connect the main unit using the single MD main PWB.
3 Enter the test mode as shown on page 21.
"EJECT"
4 Press the NORMAL CD MD EDIT button.
5
"TEMP
"
: Measured temperature,
: Temperature setting
Find the temperature correction value for the current
ambient temperature on the following table. Adjust the
temperature correction value using the VOLUME UP/
DOWN button.
Ambient Temperature
Correction
+ 21.0 °C ~ + 23.2 °C
-1 H
+ 23.3 °C ~ + 26.8 °C
±0
+ 26.9 °C ~ + 29.0 °C
+1 H
6
2. Method for making settings other than the reference
temperature
1 Install the MD main PWB in the mechanism, and connect
it to the main unit.
2 Enter the test mode as shown on page 21, and insert a
3
4
5
6
H
disc.
"AUTO AJST"
Press the CD PLAY button seven times.
"EEPROM SET"
Set the value according to the EEPROM DATA LIST
using the VOLUME UP/DOWN button.
Press the POWER button, and the settings will be written
into the EEPROM.
Enter the test mode again, perform an "AUTO YOBI
adjustment", and write the results into the EEPROM.
EEPROM DATA LIST (Version : 01)
Spin setting
Focus setting
Item indication
Item indication
Setting
Setting
FG
9B
H
SPG
11
H
FG2
B1
H
SPG—in
60
H
FF0
10
H
SPG—mid
4B
H
FF1
70
H
SPG—out
3B
H
FF2
E0
H
SPGM
96
H
FZHLEV
ED
H
SP1
10
H
FOKLEVh
07
H
SP2
93
H
FOKLEVL
09
H
SP22
93
H
FOSTn
2C
H
SP3
ED
H
DSCJG
0D
H
SP4
EE
H
SP5
20
H
SP52
20
H
SPDLIM
62
H
SPKLEVm
16
H
– 30 –
MD-E9000W
Tracking setting
Item indication
Control setting
Item indication
Setting
Setting
H
CONTRL1
08
H
6B
H
CONTRL2
01
H
10
H
ADJTTM
14
H
TF1
6B
H
HDEQAD
92
H
TF2
F0
H
LDEQAD
8E
H
FT3
08
H
GDEQAD
91
H
SVCNT4
01
H
GDEQAD2
91
H
TRBLVo
62
H
HDEQBC
8C
H
TRBLVt
4C
H
LDEQBC
8F
H
TRKLVo
5B
H
GDEQBC
8A
H
8A
H
TG
49
TG2
TF0
TRKLVt
2B
H
GDEQBC2
TDPWo
67
H
HALSG
11
H
TDPWt
21
H
LALSG
11
H
11
H
SLCTo
00
H
GALSG
SLCTt
50
H
HALSOFS
FF
H
SLCTm
53
H
LALSOFS
00
H
TCRSCIP
16
H
GALSOFS
00
H
TCRSC0h
00
H
TCRSC0L
FA
H
TCRSCHh
02
H
TCRSCHL
02
H
COTLVP
0A
Item indication
H
COTLVr
28
H
JPint
00
H
KIK10
64
ADJUST setting
H
Sled setting
Item indication
Setting
SLG
46
H
SL2
10
H
SLDLIM
7F
H
SLDLEV
14
H
SLKLVk
60
H
SLKLVt
34
H
SLKLVm
60
H
SLBKm
08
H
SLKrio
64
H
SLKroi
62
H
SLKlio
64
H
SLKloi
60
H
INNER1
86
H
INNERu
D0
H
EJ_WAIT
78
H
Setting
COK
58
FAT
C0
H
TAT
3E
H
CAT
40
H
FAB
64
H
STR
0B
H
SFS
0D
H
STC
0D
H
H
REC bit setting
Item indication
– 31 –
Setting
SP_WR50
C0
SP_WR56
FE
H
SP_WR44
00
H
SP_WR53
16
H
LP2WR50
80
H
LP2WR56
20
H
LP2WR44
80
H
LP2WR53
00
H
LP4WR50
BF
H
LP4WR56
02
H
LP4WR44
80
H
LP4WR53
00
H
RVD
01
H
H
MD-E9000W
MD power ON time chart
Power-on sequence for the MD unit (when resetting or starting it
1 : no disc)
(System side)
POWER-ON
CN1501 17 , 18
DVDD
CN1501 4
BACK UP
Power failure recovery interruption input and 3.2 V application to the MD unit
CN1501 7
(100 ms)
MD-ST
TP1800
3.2 V
1.5 ms
IC1401 15
MCCK
CN1501 6
RESET
30 ms ± 2 ms
IC1401 12
RESET
(10 ms)
CN1501 5
PDOWN
Set the system microcomputer to "H" by this point.
CN1501 19
PCONT0
3.2 ms
CN1401 1 , 2
TRY+/TRY–
IC1401 80
XRST
3.2 ms
CN1501 12
DSTB
13.6 ms
CN1501 8
DSCK
Test mode command transmission period
– 32 –
(Until CMD RCV received)
Power-on sequence for the MD unit (when resetting or starting it
2 : DISC IN or disc existence)
MD-E9000W
(System side)
POWER-ON
CN1501 17 , 18
DVDD
As quick as possible
CN1501 4
BACK UP
Power failure recovery interruption input and 3.2 V application to the MD unit
CN1501 7
(100 ms)
MD-ST
TP1800
3.2 V
1.5 ms
IC1401 15
MCCK
CN1501 6
30 ms ± 2 ms
RESET
IC1401 12
RESET
(10 ms)
CN1501 5
PDOWN
Set the system microcomputer to "H" by this point.
CN1501 19
3.2 ms
PCONT0
CN1401 1 , 2
TRY+/TRY–
62 ms
600 ms - (approx. 1200 ms + 600 ms)
Disc existence: Mechanism
positioning
DISC-IN: LOADING operation
IC1401 80
3.2 ms
XRST
CN1501 12
13.6 ms
DSTB
CN1501 8
DSCK
Test mode command transmission period (Until CMD RCV received)
– 33 –
MD-E9000W
3
4
5
CD RES
2
CLK
CE
1
DO
DI
DRF
+5V
+B2
WRQ
TO DISPLAY SECTION
6
7
CNP5
14
13
4
CNS1
IC4
74VHC08F
INVERTER
11
1
6
2
3
3
1
TO MD SECTION
10
4
5V
3V
5
+B2 (5V)
6
CONT3
62 CLK
1
69
5
8
9
Q3
2
50
IC1
LC78645NE
CD SERVO
1
40
28
19
48 XOUT
49 XIN
CONT5 26
FDO 21
TDO 20
+5 V
6
25
Q1
26
Q2
–
11
SPINDLE MOTOR 20
21
+
TRACKING COIL
M1
SPINDLE
MOTOR
SW4
PICKUP IN
Figure 34 BLOCK DIAGRAM (1/4)
– 34 –
–
SLED MOTOR
M
M
FOCUS COIL
10
+
M2
SLED
MOTOR
19 27 4 12
IC2
LA6548D
FOCUS/
TRACKING/
SPIN/ SLED
DRIVER
OUT2
VCC
CONSTANT
VOLTAGE
29
OUT1
VCC
5
2
VREF
+3.2 V
MUTE
VREF
TIN2
LDS
LDD
FIN1
FIN2
TIN1
RFVDD
LVDD
VDD
ADAVDD
XVDD
RVDD
VVDD
SLDO 23
SPDO 22
LASER
DRIVER
+3.2 V
2
1
–
+
M
M904
CD LID
MOTOR
37
5 41 38 18 47 46 77 7 8 9 10 79 80 11
PICKUP UNIT
6
7
51
66 RES
+3.2 V
3
55
65 WRQ
XL1
33.8688 MHz
75
56
64 DO
68 VDD5
2
IC3
TA7291S
57
63 DI
67 DRF
CONT1
CONT4
61 CE
CONT2
70 71 72
BCK
25
LRCK
60 59 58 39
DOUT
DATA
LOADING MOTOR
DRIVER
15
1 30
H.VDD
DSTB
H.GND
DSCK
KDATA
DVDD
DVDD
MDDATA
M.GND
PCONT0
D.GND
D.GND
DIG IN
M.GND
L.OUT
C.GND
R.OUT
AVCC
L.IN
AA.GND
R.IN
RESET
SERCH
MD-ST
CDLRCK
CDBCK
CDDATA
MD-E9000W
HEAD
MECHANISM
+B7
+B7
(+4.75 ~ +5.25V) (+4.75 ~ +5.25V)
AUDIO OUT
CN1501
AUDIO IN
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
L
R
3 5
L
R
26 24
IC1401
IX0410AW
MD SYSTEM
MICROCOMPUTER
+3.2V
12 20 21 31 ~ 34 70
99
62
16
8
IC1402
58X2402T
6 EEPROM
29
+B3 (+3.2V)
+3.2V
66 57 ~ 59
DIN
~
~
32
29
36
~
5
26
IC1201
LR37816
ENDEC/ATRAC
9 11
~
+3.2V
IC1202
IX2474AF
4MBIT D-RAM
7
10
23
25
2
IC1701
UDA1345
AD/DA CONVERTER
15
18
19
42
2 5 13
74
~
XL1201
(33.8688MHz)
70
REGULATOR
+3.2V
IC1101
IR3R58M
RF SIGNAL
PROCESSOR
3
IC1802
XC62FP26
REGULATOR
+3.2V
2
3
IC1801
XC62EP32
REGULATOR
29 40
MONITOR
DIODE
10
SW1936 LEAD IN
SW1934 PLAY
SW1933 RECORD
SW1932 LOADING
MD PICKUP UNIT
12
15
SW1930 WRITE PRO
LIGHT
LIGHT
RECEIVING RECEIVING
SECTION
SECTION
ERROR SIGNAL
RF
IC1601
M56788FP
MOTOR DRIVER
+3.2V
LASER DIODE
MD
FOCUS
IC1300/IC1301/IC1302
HEAD DRIVER
TRACKING
F
E-F SIGNAL A-B SIGNAL
A
B
E
RF1
RF1 RF4 SIGNAL
RF2
RF3
RF4
MECHANISM
+B7
HEAD
+B7
MAGNET HEAD
(RECORD)
+2.6V
M
M901
SPINDLE
MOTOR
M902
SLED
MOTOR
M
M
Figure 35 BLOCK DIAGRAM (2/4)
– 35 –
M903
LOADING
MOTOR
MECHANISM
+B7
Q1804
+3.2V
MD-E9000W
AM LOOP
ANTENNA
FM
OSC
T306
AM OSC IN
9
7
8
18
16
17 13
MO/ST
L 14
R 15
12
AM BAND
COVERAGE
X352
4.5 MHz
CE
VT
20 1
22 15 16
11
3
4
5
+B4
6
OSC
17
FM/AM MO/ST
+B4
+B
FM
Q360
9 10
7
21
IC302
LC72131
PLL(TUNER)
AM TRACKING
FM
CONSTANT
VOLTAGE
Q901
Q902
JK441
AUX INPUT
L
R
MUTING
L 12
R 13
IC401
LC75341
AUDIO PROCESSOR
RSELO
CD/MD
DI 1
CE 2
CLK 24
LSELO
L 9
R 16
L 10
R 15
TUNER L 11
R 14
7 8 17 18
+B7
1
7
+B4
VDD 23
3
6
18
15 17
L IN
R IN
LED
DRIVE
21 19
23 22 24 2
5
FROM MD SECTION
Figure 36 BLOCK DIAGRAM (3/4)
– 36 –
8
4
10
LED702
CNP451
21 R
4 L
+B3
L OUT
R OUT
T303
Q302
OSC
BUFF
21
AM RF IN
23
5
FM/AM AM IF
OUT
GND
AM MIX
T301
STEREO
L312
VCO
4
1 2
FM RF
X351
456 kHz
+B4
FM/AM
450 kHz
CF352
T351
AM IF
IC303
LA1832S
FM IF DET./FM MPX./AM IF
CF351
9
8
MPXIN FM+B
FM
DET
7
CLK
5
+B4
DO
SO302
FM ANTENNA
TERMINAL
4
FM IF
CF303
FM IF
T302
6
DI
3
FM
OSC
FM
ANTENNA
1
BF301
B.P.F
IC301
TA7358AP
FM FRONT END
MD-E9000W
FL701
DISPLAY
IC303
LA1832S
FM IF DET./FM MPX./AM IF
1
5
2
20 21
50 51 52 53 61 62
80
51
50
98 VEE
KEY
SW701-SW723
2 KEY 1
48
3 KEY 2
81
4 KEY 3
IC701
IX0395AW
SYSTEM
MICROCOMPUTER
8
TO CD
SECTION
14
15
22
39 38 37 36 35
XL701
8.3886 MHz
VDD 91
SPAN
RLY CONT
RX IN
RESET
CD_CLOSE
XIN
VSS
AVSS
XOUT
DO
CL
CE
40 99
ILU
LED
DI
45 44 43 42 41
CD_OPEN
97
24 P_CONT
P_MUTE
23
LED701
7
T_STBY
Q701
+B6
32 31 33
RX781
REMOTE
1 SENSOR 3
2
Q781
SW724
OPEN/CLOSE
+B6
SW441
SPAN
SELECTOR
RESET
+B6
JK981
HEADPHONES
12
4
10
L
1
L
L
L
R
R
6
Q901
Q902
R
L
11
13
–
FAN MOTOR DRIVER
+
8
R –
IC901
LA4628
POWER AMP.
MUTING
3
+
9
Q941
M905
FAN MOTOR
+B5
14
F801
T6.3A L 250V
VOLTAGE
REGULATOR
PT801
MAIN POWER
TRANSFORMER
D801
+B1
LED702
VF2
VF1
LED
DRIVER Q702
+B5
Q801
TO CD
+B2
SECTION
SW +5V
CD+B
Q961
VOLTAGE
REGULATOR
Q871
+B6
UNSW +5V
+B6
RELAY
DRIVER
UNSW +5V
D873-876
Q962
AN78L05
VOLTAGE REGULATOR
PT871
SUB POWER
TRANSFORMER
Figure 37 BLOCK DIAGRAM (4/4)
– 37 –
SP_L(–)
SP_R(+)
–
SP_R(–)
SW801
VOLTAGE
SELECTOR
RL800
T.F.
+B6
+
F803
T2.5A L 250V
F802
T2.5A L 250V
–VP
SP_L(+)
–
SO901
SPEAKER
TERMINAL
220 V
127 V
110 V
D802-D805
+
230-240 V
Q942
VOLTAGE
+B3 REGULATOR
+3.2V
Q952
Q951
KIA7810AP
+B4
VOLTAGE
A_+10V
REGULATOR
M
Q972
R
VOLTAGE
REGULATOR
+B7
MD+5V
Q971
AC POWER
SUPPLY CORD
SO801
AC INPUT
SOCKET
AC 110/127/220/230-240 V
50/60 Hz
MD-E9000W
SO301
FM ANTENNA
TERMINAL
A
AM
GND
FM 75OHMS
D303
B
D301
D304
D302
C304
C305
C306
X352
R378
R379
C387
R383
R392
R385
R376
CF351
R372
R387
R384
R368
E C B
C398
R374
R373
C386
Q360
T351
1
2
3
4
5
6
7
8
9
10
11
R388
R393
IC302
CF352
C381
C394
L351
L352
ZD351
R359
R360
R391
C391
C310
1 2 3
C356
R375
C318
C385
T301
22
21
20
19
18
17
16
15
14
13
12
C384
C388
C358
C380
C392
Q302
R382
R327 R302
C324
C311
R380
C393
C370
C371
C373
C374
C368
B
C
E
R353
C357
C355
R356
C352
C397
C320
C351
R352
1
2
3
4
5
6
7
8
9
10
11
12
X351
R357
VD303
C313
C354
C366
TP302
C399
C365
IC303
C364
C367
C342
R350
T306
R355
R311
C316
TP301 R365
C362
C350
R358 24
23 R351
22
C361
21
C363
20
19
18
17
16
15
C369
14
13
R309
1
2
3
R322
R325
C312
C325
R336
C334
C332
R316
R323
C335
C331
VD301
D305
C309
VD302
CF303
T303
D
C308
C317
R313
L312
C353
C330
T302
R381
D306
C314
C
C307
R314
C315
R377
1 2 3 4 5 6 7 8 9
C303
C323
C382
IC301
R395
C395
1
2
BF301 3
C396
C338
C372
E
1
RD
WH
BK
WH
BK
WH
BK
WH
BK
9
BI301
F
1
2
3
4
5
6
7
8
9
CNS301
G
TUNER PWB-C1
H
1
2
3
4
Figure 38 WIRING SIDE OF P.W.BOARD (1/10)
– 38 –
5
6
MD-E9000W
P43 7 - C
FROM
POWER AMP. PWB
CNS902
P43 10 - G
FROM
POWER AMP. PWB
CNS901
SW441
SPAN SELECTOR
9 kHz/50 kHz
9 8 7 6 5 4 3 2 1
CNP441
PK
BK
WH
BI441
R445
6
5
4
3
2
1
C442
R442
1
D441
D442
C443
L-CH
R444
C461
P41 10 - B
TO DISPLAY PWB
CNP702
1
6
5
4
3
2
1
CNS441
R456
CNP404
7
6
5
4
3
2
1
6
WH
BK
WH
WH
BK
PK
R443
1 2 3 4 5 6 7 8 9 10 11 12
CNP403
CNP405
R441
C441
10 kHz/100 kHz
JK441
AUX INPUT
C462
R-CH
C427
2
4
6
8
10
12
14
16
18
20
22
24
26
C455
C460
R451
C464
C469
R417
C465
R402
C404
R401
R403
C406
C405
R460
C458
C468
C407
R418
C403
C424
C411
1
2
3
4
5
6
7
8
9
C452
C413
R455
R454
C415
R459
R413
C467
C419
10
11
12
C425
C456
R452
R463
R462
R461
CNP402
7 6 5 4 3 2 1
MAIN PWB-A1
7
8
C471
BROWN
RD(R)
RED
OR
ORANGE
YL
YELLOW
GR
GREEN
CNP401
BL
BLUE
1 3 5 7
VL
VIOLET
(251)
TO
MAIN POWER
TRANSFORMER
2 4 6 8
1
GY
GRAY
WH(W)
WHITE
8
BK
BLACK
FFC703
PK
PINK
CNP703
P41 12 - D
TO DISPLAY PWB
CNS402
P44 2 - G
FORM CD SERVO PWB
9
BR
C459
C463
C470
R447
R449
C423
C429
C428
R446
C422
R448
C421
COLOR TABLE
C457
C466
C417
AUX INPUT
PWB-A2
CW1501
R453
R458
L452
R416
C420
C426
R414
C418
24
23
22
21
20
19
18
17
16
15
14
13
27
C451
R415
C416
IC401
C412
C414
1
3
5
7
9
11
13
15
17
19
21
23
25
27
C454
C453
C402
1
CNP451
CN1501
CNP406
11 9 7 5 3 1
P47 9 - A
TO MD MAIN PWB
R457
12 10 8 6 4 2
L451
12
FFC702
10
Figure 39 WIRING SIDE OF P.W.BOARD (2/10)
– 39 –
11
12
MD-E9000W
A
B
P42 3 - H
TO POWER PWB
CNP871
C
BK
WH
BK
DISPLAY PWB-B1
C781
R786
5
1
BI701
R789
R790
Q782
RX781
R791
R781
R788
D781
Q783
1 2 3
D785
3 2 1
R782
R775
1 2 3
C709
C782
R787
R785
D701
D
WH
RD
CNS701 5 4 3 2 1
FL701
C783
C784
R784
C701
62 61
D784
Q781
R701
SW701
VOLUME
DOWN
F
SW703
CD PLAY/
PAUSE
R703
R710
R704
SW705
FF/
SKIP UP
SW704
CD STOP
R706
R707
R705
SW708
MD
PLAY/
PAUSE
SW706
PEW/
SKIP DOWN
SW707
MD
STOP
H
1
2
3
4
Figure 40 WIRING SIDE OF P.W.BOARD (3/10)
– 40 –
SW
X-
R711
SW715
CD
OPEN/CLOSE
C716
G
SW712
EQUALIZER
SW709
MEMORY/
ENTER
SW702
VOLUME UP
R702
C717
SW710
DISPLAY
(DEMO)
R709
R714
R783
53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28
R772
3 2 1
R771
E
5
6
MD-E9000W
LED
PWB-B2
CD LID OPEN/CLOSE
PWB-B3
LED702
SW724
OPEN/
CLOSE
CNP704
1
2
3
1 2 3
CNP406
1 2 3
WH
BK
YL
WH
BK
RD
WH
BK
YL
2 4 6 8 10 12
CNP702
R763
81
2 1
CNP401
P39 11 - G
TO MAIN PWB
R746
R747
C713
C715
C714
8
SW716
ON/
STAND-BY
SW717
MD EJECT
R717
SW723
MD REC
7
RD
BK
WH
BK
WH
BK
WH
BK
1
2
3
4
5
6
7
8
CNS702
8
9
C718
COLOR TABLE
D782
R718
R719
SW718
LP4
SW719
LP2
R722
R721
BROWN
BR
D783
SW720
SP
R720
RD(R)
RED
OR
ORANGE
YL
YELLOW
GR
GREEN
BL
BLUE
VL
VIOLET
GY
GRAY
WH(W)
WHITE
BK
BLACK
PK
PINK
SW721
NORMAL
R713
SW714
TUNER
(BAND)
R716
R712
1
L781
SW713
AUX
SW711
X-BASS
C702
C703
R796
R795
R723
R724
R725
R726
R727
R728
R729
R730
R792
R793
R794
9 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5
R773
R797
3
2
1
8 FFC703
CNP5
P44 3 - F
TO CD SERVO PWB
R798
R799
C704
C707
80
R742
100
75 85 90
R741
95
70
1
1
2
3
4
5
6
7
8
CNP703
BI702
65
1
R735
R737
5
C708
10
R731
R732
R733
R734
IC701
LED701
60
15
R738
R739
45
55
51
35 25
20
C712
R749
R750
R751
R752
40
R736
XL701
50
R748
30
31
R744
R743
R754
R753
C711
R765
Q701
R766
1 3 5 7 9 11
R745
R776
R759
1
BI704A
6
R777
C710
R768
R767
R762
R761
R764
R769
FFC702
12
1
R740
1
C706
BI704B
3
P39 7 - C
TO MAIN PWB
CNS704
Q702
C705
R778
SW722
HIGH
10
Figure 41 WIRING SIDE OF P.W.BOARD (4/10)
– 41 –
11
12
MD-E9000W
AC POWER SUPPLY CORD
SO801
AC INPUT
SOCKET
AC 110/127/220/230-240 V
50/60Hz
POWER PWB-C2
A
127 V
110 V
220 V
230-240 V
SW801
VOLTAGE SELECTOR
B
230-240 V
F801
T6.3A L 250V
220 V
T.F.
127 V
110 V
PT801
MAIN POWER TRANSFORMER
C
C801
D801
C802
D
F803
T2.5A L 250V
C871
E
F802
T2.5A L 250V
C804
C803
RL800
D804
D802
D803
F
D805
D871
C874
PT871
SUB POWER TRANSFORMER
D875
C805
D876
C873
C872
D807
ZD803
R801
D874
ZD871
G
C806
D808
ZD802
C811
D873
D809
D806
C812
E C B
ZD801
Q801
C808
R871
C807
R806
D877
C809
R805
R873
R802
CNP871
5 4 3 2 1
C810
CNP903
R872
C875
Q871
E
C
B
R803
R804
D872
11 10 9 8 7 6 5 4 3 2 1
H
CNS701
P40 5 - C
FROM DISPLAY PWB
1
2
3
4
Figure 42 WIRING SIDE OF P.W.BOARD (5/10)
– 42 –
5
6
MD-E9000W
SO901
SPEAKER TERMINAL
M905
FAN MOTOR
RD
R-CH
1
2
CNS971
BR
L-CH
2
1
R973
R979
E C B
R975
C972
D972
R974
Q972
L981
C973
Q971 B C E
R984
CNP971
JK981
HEADPHONES
R978
C971
C981
R977
R981
R972
R982
R954
D973
R955
C982
2
1
C926
R901
1
4
6
R906
B
C
E
R910
C985
R902
BI901
7
4
R911
R923
R913
C907
C914
BK
BK
RD
RD
1
POWER AMP.
PWB-C3
BL
WH
RD
BK
BL
BK
WH
BK
WH
BK
WH
PK
BK
WH
7
C909
C908
11 13
10 12 14
BI903B
BI903A
1
9
8
Q902
C905
E C B
7
R904
R908
D961
Q962
1
2
3
5
R983
C964
C949
Q901
2
R909
D962
3
C904
1
R962
LUG901
IC901 @
C987
C903
C947
C986
R928
C965
C963
C913
C912
R961
C902
C962
1
R914
C910
C911
C942
3
C966
C961
R924
ZD941
2
R912
Q942
C941
C923
C956
E C B
C924
RP941
Q961
C948
Q952
R941
C
B
12
E C B
E
R942
Q941
BI902
C951
C925
C955
C953
R903
C901 R907
R905
RD
WH
BK
WH
BK
WH
BK
WH
BK
WH
BK
WH
C943
CNP403
COLOR TABLE
BR
PK
BK
WH
P39 9 - B
TO MAIN PWB
1
2
3
4
5
6
7
8
9
10
11
12
C952
R952
Q951
3
1
CNS902
R953
C954
ZD951
1 2 3 4 5 6 7
CNS901
CNS903
11
10
9
8
7
6
5
4
3
2
1
7
WH
BK
WH
BK
WH
BK
BL
BK
BK
RD
RD
CNP404
P39 10 - B
TO MAIN PWB
8
9
10
Figure 43 WIRING SIDE OF P.W.BOARD (6/10)
– 43 –
BROWN
RD(R)
RED
OR
ORANGE
YL
YELLOW
GR
GREEN
BL
BLUE
VL
VIOLET
GY
GRAY
WH(W)
WHITE
BK
BLACK
PK
PINK
11
12
MD-E9000W
45
10
5
IC1
75
50
2
1
CNP3
C31
C32
3
L2
8
7
R29
R28
R27
R32
R31
R30
IC4
PICKUP UNIT (306)
C20
C19
C18
C23
C22
C21
C43
CORE1
R33
R40
1
14
C28
BI1
6
1
C44
8 7 6 5 4 3 2 1 CNP5
WH
GR
BK
YL
WH
PK
1
2
3
4
5
6
CNS702
P41 12 - E
FROM
DISPLAY PWB
RD
WH
GR
WH
GR
WH
M1
SLED MOTOR
CNP4A
1
2
3
4
5
6
1
2
3
4
5
6
+
CNS4B
CNS4A
F
BK
WH
GR
BK
YL
WH
PK
+
SW4
PICKUP IN
CNS402
M2
SPINDLE
MOTOR
7 65 4 3 2 1
CD MOTOR
PWB-F
G
CNP402
P39 9 - G
TO MAIN PWB
H
• The numbers 1 to 12 are waveform numbers shown in page 62.
1
2
3
4
Figure 44 WIRING SIDE OF P.W.BOARD (7/10)
– 44 –
5
CNS1A
CNS2A
RD
GR
BR
GR
BR
GR
BR
R8
C17
RD
WH
BR
WH
BR
WH
BR
WH
C6
C54
1234567
10 5
CNS6 1 2
TO MD
MECHANISM
UNIT
12345678
R39
R38
R37
L4
C62
M904
CD LID
MOTOR
7
12
11
10
C61
CNP6
1 2
8
R18
R42
R50
1234567
CD SERVO
PWB-D
5
60 61
C41
R49
C50
12345678
1
80
70
C49
BR
2
RD
1
CNS3
R35
R36
R16
R17
55 65
XL1
R23
R24
R15
C15
4
1234567
6
CNS1B
35
41
CORE2
C42
R19
40
R53
R20
R48
1
2
3
4
5
6
7
8
9
Q3
R56
IC3
3
2
1
12345678
R9
CNS2B
15
30
C
E
R14
R11
9
C7
C13
21 20
25
M
C10
C12
C4
6
D
R2
R1
2
Q1
R10
R12 E C B
C9
C5
C24
15 Q2
C2
C16
16
C58
R13
C3
C53
C8
E
C
B
C1
R6
R7
R4
R3
C14
IC2
10
20
1 2 3 4 5 6 7 8
R21
1
C48
B
CNP4
1
2
3
4
5
6
R54 R55
5
25
1 2 3 4 5 6 7
CNP1
C63
C46
C47
C45
C57
1
30
CNP2
A
MD-E9000W
MD MECHANISM
SWITCH PWB-G1
TP19
TP18
SW1936
LEAD IN
MD LOADING
PWB-G2
TP1903
SW1934
PLAY
SW1930
WRITE PRO
R1931
TP1909
TP1901
R1934
R1933
WH
TP1906
TP1908
SW1932
LOADING
R1932
TP1
TP2 TP10
TP3 TP12
TP4 TP13
TP5 TP17
TP6 TP16
TP7 TP11
TP8 TP14
TP9 TP15
BR
SW1933
RECORD
TP1902
TP1905
TP1907
TP1904
YL
CW1931
GY
RD
BK
RD
BK
CN1401
P47 12 - D
TO MD MAIN PWB
M902
MD SLED
MOTOR
M901
MD SPINDLE
MOTOR
M903
MD LOADING
MOTOR
P47 7 - F
TO MD MAIN PWB
CN1101
MAGNET HEAD(34)
RECORD
COLOR TABLE
BROWN
BR
FLEXIBLE
PWB
RD(R)
RED
OR
ORANGE
YL
YELLOW
GR
GREEN
BL
BLUE
VL
VIOLET
GY
GRAY
WH(W)
WHITE
BK
BLACK
PK
PINK
BK
1
BK
2
CW1903
MD PICKUP UNIT(35)
7
8
P46 5 - A
CN1300
TO MD MAIN PWB
9
10
Figure 45 WIRING SIDE OF P.W.BOARD (8/10)
– 45 –
11
12
MD-E9000W
A
P45 12 - G
TO MAGNET HEAD
CW1903
B
CN1300
53
R1806
R1809
3
R1705
1
1
2
IC1301
C1721
1
D1300
R1703
4
2
R1300
C1720
C1305
C1716
C1704
C1700
R1704
C
IC1302
R1716
R1515
R1516
1
C1300
C1301
R1301
2
5
7
1
5
5
8
IC1300
C1303
10
R1803
C1405
R1802
R1403
D
8
14
R1612
R1614
R1701
R1408
R1420
Q1501
R1435
Q1807
E
L1101
C1616
C1206
R1263
C1263
C1125
C1264
R1116
C1119
C1117
C1116
C1112
C1123
45
36
37
48
C1115
R1119
1
C1111
IC1101 5
R1114 C1110
12
10
R1112
R1110
R1111
R1115
15
35
40
C1118
C1121
R1231
R1230
C1230
C1602
R1616
C1611
20
30
C1114
L1200
25
C1122
G
R1117
R1120 13
R1113
24
R1207
L1100
C1107
R1102
R1123
R1122
R1262C1262
R1125
R1124
R1261
R1121
C1261
C1124
R1264
R1118
R1265
R1205
R1203
R1201
XL1201
C1260
R1601
C1603
L1201
R1605
C1613
R1618
C1607
C1619
F
R1266
L1202
C1265
C1113
MD MAIN PWB-E (TOP VIEW)
H
• The numbers 1 to 36 are waveform numbers shown in page 63, 64.
1
2
3
4
Figure 46 WIRING SIDE OF P.W.BOARD (9/10)
– 46 –
5
6
MD-E9000W
P39 11 - E
TO MAIN PWB
CNP451
CW1501
1
27
C1563
TP1503
FL1501
1
C1266
C1200
TP1253
TP1252
C1161
TP1118
CN1101
R1209
TP1501
65
60
20
R1101
10
R1215
IC1201
30
35
40
45
51
50
TP1205
6
22
C1715
C1706
TP1704
C1655
25
15
30
35
10
5
C1610
1
42
TP1630
11
15
TP1123
20
16
21
9
10
21
40
IC1202
20
11
8
TP1607
TP1120
TP1122
TP1121
15
MD MAIN PWB-E (BOTTOM VIEW)
25
23 24
16
22
4
: Through-hole where the top and bottom patterns are connected.
7
8
9
10
Figure 47 WIRING SIDE OF P.W.BOARD (10/10)
– 47 –
11
12
P45 9 - C
TO MD LOADING PWB
CN1401
TP1605
R1214
20
TP1119
TP1135
TP1101
18
TP1213
TP1214
1
5
32
R1217
C1208
55
TP1103
TP1112
TP1212
R1100
CK3
TP1117
TP1131
TP1105
TP1104
TP1111
TP1100
TP1102
TP1136
TP1109
TP1110
TP1106
28
75
80
10
25
TP1116
TP1203
30
TP1115
85
26
C1202
C1100
P49 9 - E
90
5
19
R1211
70
15
TP1254
MD PICKUP UNIT
95
TP1209
76
5
TP1200
TP1250
TP1251
6
TP1218
TP1215
C1205
TP1201
100
C1201
C1211
1
TP1409
TP1405
1
1
TP1204
C1207
R1430
TP1133
TP1202
TP1420
R1105
TP1404
TP1400
CK1
TP1217
CK27TP1216
50
TP1113
14
R1401
51
CK2
45
TP1206
40
TP1208
35
30
CW1931
9
9
TP1542
TP1543
TP1604
TP1207
8
60
55
TP1413
TP1423
TP1410
R1417
R1406 TP1422
R1460
5
20
25
31
TP1107
TP1108
TP1411
65
R1624
TP1600
R1623
TP1601
R1621
TP1603
R1622
TP1602
70
15
31
TP1130
TP1412
10
C1409
IC1402
C1403
13
R1463
75
IC1401
R1443
R1418
C1806
C1708
TP1801
85
5
TP1421
R1414
TP1401
R1407
C1404
4
1
R1415
12
C1524
TP1530
C1523
CK26
TP1700
IC1601
90
1
28
TP1451
7
17
TP1525
TP1519
TP1407
81
TP1706
R1446
95
5
25
80
1
IC1802
TP1703
TP1210
C1801
1
R1702
10
20
TP1408
TP1403
100
14
IC1701
R1210
TP1303 3
TP1406
C1407
R1804
15
TP1705
C1703
C1750
C1209
IC1801
R1807
TP1302
33
R1441
5
R1517
R1518
4
TP1415
1
TP1402
3
C1512
R1811
Q1804
29
C1510
R1534
C1302
TP1800
FL1523
FL1525
C1802
R1536
R1538
TP1300
2
FL1524
TP1533
C1534
C1538
28
TP1522
TP1506
TP1301
C1540
FL1520
C1340
FL1509
TP1504
R1535
TP1534
R1304
C1304
TP1524 TP1526 TP1520 TP1518
TP1515
C1536
FL1507
TP1505
TP1516
TP1510
TP1502
FL1518
TP1532
27 TP1531
R1532 R1533
TP1509
C1530
R1537
R1521
TP1511 TP1508
FL1512
TP1507
R1529
TP1330
1
3
35 36 34
CN1501
C1606
L1300
26 27 1
MD-E9000W
A
C4
56
IC401
LC75341
AUDIO PROCESSOR
C403
100/16
FM SIGNAL
C402
0.022
RECORD SIGNAL
1 DI
2 CE
R447
10K
C421
1/50
+
–
21
LIN
LSEL0
L4
RIN
AUX
L2
R2
TUNER
R1
L1
12
18
RSEL0 17
R4
16
R3
DECK
11
RB
RTRE
L3
10
22
19
LTRE
15
14
13
CD/MD
C423
1/50
C425
10/16
C
9
ROUT
20
+
–
C429
1/50
R449
2.7K
VREF
+
–
+
–
AUX SIGNAL
CCB
INTERFACE
+
–
B
R413
3.9K
VSS
LOUT
+
–
MD SIGNAL
3
C413
0.1
4
C415
0.12
5
LBASS
6
C417
0.0015(ML)
C419 7
1/50
8
+
–
C411
1/50
+
–
CD SIGNAL
24
CLK
VDD 23
C426
10/16
+B
D
R417
100
R415
3.3K
R418
100
C465
0.022
E
L452
0.22µH
C469
220P
C468
220P
R459
12K
C467
220P
R458
12K
C466
220P
R416
3.3K
+B
+B
C471
0.01
C470
33P
C463
0.022
C462
100P
R457
10K
R456
10K
C461
100P
C460
220P
C459
0.01
C458
10P
R455
100
R454
100
R453
10K
C456
100P
C457
100P
R452
10K
C464
220/10
+B
+B
C451
10/16
C427
0.022
+B
+B C455
0.022
+B
+B
5V
5V
MD K DATA
MD DSCK
H GND
MD DSTB
H VDD
27
CW1501
1
TO
MAIN POWER
TRANSFORMER
7 6 5 4 3 2 1
8
FFC703
CNP403
1 2 3 4 5 6 7
CNS402
P57 12 - C
FROM
CD SERVO PWB
CNP703
P51 12 - E
TO DISPLAY PWB
CN1501
P59 12 - G
TO MD MAIN PWB
H
1
56
CNP402
1 2 3 4 5 6 7 8
MD DATA
7 6 5 4 3 2 1
CNP401
MD ST ID
MD SERCH
MD PCNT
MD RESET
MD DSTB
MD DSCK
MD KDATA
27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8
MD DATA
G
CD DATA
BCK
LRCK
MD ST
MD SERCH
MD RESET
R IN
A GND
L IN
AVCC
(+3.2V)
R OUT
S GND
L OUT
M GND
DIG IN
D GND
D GND
PCONTO
M GND
R463
CNP451
56
56
CD+B
CD_GND
A_GND
A_+10V
FAN_CONT
MD_3.2V
MD +D5V
R461
R462
BCK
L451
10µH
CD DATA
C453
220P
D_GND
DIGITAL
OUT
CD_+5V
D_GND
LRCK
R451
100
C454
220P
C452
10/16
F
CNS9
P54 1
FROM
POWER AM
• NOTES ON SCHEMATIC DIAGRAM can be found on page 61.
1
2
3
4
Figure 48 SCHEMATIC DIAGRAM (1/12)
– 48 –
5
6
MD-E9000W
MAIN PWB-A1
R401
1K
C416
0.12
RBASS
19
+
–
+
AUX
18
RSEL0 17
R4
16
R3
DECK
R2
TUNER
R1
R414
3.9K
C418
0.0015(ML)
C420
1/50
RTRE
RIN
C414
0.1
C428
1/50
15
C422
1/50
14
1
1
1
2
2
2
3
3
3
4
4
4
5
5
5
6
6
6
C442
390P
R444
27K
R-CH
JK441
AUX INPUT
R442
8.2K
R441
8.2K
R445
L-CH
C441
390P
R443
27K
10K
R446
10K
13
CD/MD
C424
1/50
R448
2.7K
SW441
SPAN
SELECTOR
10/100 kHz
9/50 kHz
C426
10/16
+B
+B
1
T/V_DI
T/V_CLK
T/V_CE
TUN_DO
SW-5V
SPAN
FAN_CONT
P_CTRL
P_MUTE
UN_SW-5V
D_GND
+B
3
4
5
6
7
8
9
P51 12 - C
CNP702
TO DISPLAY PWB
10
11
12
CNP406
TUN_SM
1
2
12
FFC702
R460
270K
+B
+B
+B
CNP404
1 2 3 4 5 6 7 8 9
TUN_R
A GND
TUN_L
A+10V
D_GND
TUN DO
T/V_CLK
T/V_CE
T/V_DI
7 6 5 4 3 2 1
P_CONT
P_MUTE
R_CH
A_GND
L_CH
SW_5V
UNSW_5V
1 2 3 4 5 6 7 8 9 10 11 12
CD+B
CD_GND
A_GND
A_+10V
FAN_CONT
MD_3.2V
MD_+D5V
(MD)D_GND
D.GND
S.GND
M.GND
H.GND
CNP403
CNS902
P54 1 - D
FROM
POWER AMP. PWB
CNS901
P54 1 - C
FROM
POWER AMP. PWB
CNS301
P53 11 - H
FROM TUNER PWB
7
8
9
CNP405
10
Figure 49 SCHEMATIC DIAGRAM (2/12)
– 49 –
11
12
C443
0.001
+
–
+
–
20
C412
1/50
D442
DS1SS133
21
AUX INPUT PWB-A2
BI441
22
+
–
ROUT
+B
C407
22/16
CNS441
VREF
+
–
ERFACE
CNP441
R403
1K
CLK
VDD 23
+
–
CCB
R402
1K
560P
24
D441
DS1SS133
C404
560P
IC401
C405
C75341
560P
PROCESSOR
C406
MD-E9000W
A
F
C707
0.022
C706
220/6.3
C705
0.022
C703
1/50
C704
0.022
R798 47K
F
R795 47K
R794 47K
R723
C701
1/50
R799 47K
R796 47K
R797 47K
P8
P7
P6
S4
P4
P3
P2
P1
P10
P9
R792 47K
R793 47K
P14
P13
P12
P11
47K
R724 47K
R725 47K
R726 47K
R727 47K
R728 47K
R729 47K
R730 47K
B
P17
P16
P15
P18
P21
P20
P19
P23
P22
1
P26
P25
P24
2
P28
P27
53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5
P36
P35
P34
P33
P32
P31
P30
P29
62 61
G7
G6
G5
G4
G3
G2
G1
G10
G9
G8
G13
G12
G11
F
F
FL701
+B
76 SEG20
75 SEG21
80 SEG16
79 SEG17
78 SEG18
74 SEG22
72 SEG24
71 SEG25
70 SEG26
69 SEG27
68 SEG28
66 SEG30
65 SEG31
64 SEG32
63 SEG33
D
IC701
IX0395AW
SYSTEM
MICROCOMPUTER
62 SEG34
61 SEG35
60 DIG0
59 DIG1
58 DIG2
56 DIG4
55 DIG5
NO USE
NO USE
ILU-LE
54 DIG6
52 DIG8
51 DIG9
T/V_DI
T/V_CL
T/V_CE
TUN_DO
VSS
XOUT
XIN
CD_CLOSE_SW
CD_OPEN_SW
RESET
NO USE
SPAN
RX-IN
57 DIG3
53 DIG7
KEY3
INI
TUN SM
T-STBY
CD_RESET
CD_WRQ
CD_DRF
CD_CE 11
R742
CD_CL 12
R743
CD_DI 13
R744
@CD_DO 14
R745
MD_ST-ID 15
R746
MD_SERCH 16
R747
MD_PCONT 17
R748
MD_RESET 18
R749
MD_DSTB 19
R750
MD_DSCK 20
R751
MD_KDATA 21
R752
29 P-IN
MD_DATA 22
30 FAN_CONT
P_MUTE 23 R753
R754
P_CONT 24
RDS_READY 25
73 SEG23
67 SEG29
1 P_DOWN
2 KEY1
3 KEY2
RDS_RST 26
RDS_DATA 27
RDS_CL 28
R763 1K
R762 1K
R761 1K
1K
R764
XL701
8.3886 MHz
29
R759
R771
10K
1K
1K
1K
1K
1K
1K
1K
1K
1K
1K
R772
10K
1K
1K
1K
5.6K
5.6K
1K
1K
1K
5.6K
5.6K
1K
1K
1K
1K
30
C710
18P(CH)
C711
18P(CH)
R769
R768
R767
R766
R765
1K
1K
1K
1K
1K
DIG10
DIG11
DIG12
50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31
E
R731
1K
R732
R733
R734
R735
R736
R737
R738
R739
R740
10
R741
R775
820K
77 SEG19
1
2
3
4
5
6
7
8
9
RLY_CONT
78
SEG6
VCC
SEG5
SEG4
SEG3
SEG2
SEG1
SEG0
VEE
AVSS
VREF
79
SEG12
SEG11
SEG10
SEG9
SEG8
SEG7
80
C
SEG15
SEG14
SEG13
81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100
F
SW707
MD
STOP
R705
8.2K
SW706
REW/
SKIP DOWN
SW705
FF/SKIP UP
R714
18K
SW715
CD
OPEN/CLOSE
SW723
MD
REC
SW722
HIGH
R703
2.7K
SW704
CD STOP
SW703
CD PLAY
R712
4.7K
R713
8.2K
SW714
TUNER
(BAND)
R722
100K
G
R704
4.7K
SW713
AUX
R721
18K
R702
1.8K
SW702
VOLUME
UP
R711
2.7K
SW711
SW712
EQUALIZER X-BASS
R720
8.2K
SW721 SW720
NORMAL
SP
R719
4.7K
SW719
LP2
R701
680
R710
1.8K
SW710
DISPLAY
(DEMO)
R718
2.7K
R717
1.8K
SW718
LP4
SW717
MD
EJECT
SW701
VOLUME
DOWN
C716
0.001
R709
680
SW709
MEMORY/
ENTER
R791
10K
SW708
MD
PLAY/PAUSE
R706
18K
C717
0.001
R716
680
SW716
ON/STAND-BY
C718
0.001
H
• NOTES ON SCHEMATIC DIAGRAM can be found on page 61.
1
2
3
4
Figure 50 SCHEMATIC DIAGRAM (3/12)
– 50 –
5
6
R790
10K
R707
100K
MD-E9000W
BI702
DISPLAY PWB-B1
CD_WRQ
CD_DRF
CD_CE
CD_DO
CD_DI
701
/50
CD_CL
CD_RESET
CD_GND
C702
1/50
CNS702
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
DGND
ILU LED
SW_5V
CD_OPEN_SW
CD_GND
R776
47K
CNS704
1
T/V_DI
T/V_CLK
T/V_CE
TUN_DO
SW_5V
R771
10K
P_MUTE
UN_SW 5V
D_GND
+B
Q701
KRC102 M
–VP
VF1
VF2
P_IN
RLY_CONT
MD_ST-ID
MD_SERCH
MD_PCONT
MD_RESET
MD_DSTB
MD_DSCK
MD_KDATA
R775
820K
D785
DS1SS133
C712
150P
1
8
R787
470K
Q782
KRC111 M
R786
10K
3
2
R785
470K
1
9
C784
0.022
+B
D783
DS1SS133
RESET
Q781
C783
KRC107 M
10/25
3
2
1
+B
D782
DS1SS133
1
2
3
4
2
3
4
P55 7 - G
CNP871
TO POWER PWB
5
5
1
1
2
3
4
5
6
P48 4 - H
CNP401
TO MAIN PWB
7
8
8
FFC703
R782
100
R781
22K
R788
10K
3
2
1
D781
DS1SS133
BACK UP
R784
47K
12
FFC702
RX781
REMOTE
SENSOR
1 2 3
R783
100K
10
Figure 51 SCHEMATIC DIAGRAM (4/12)
– 51 –
C709
100P
+B
C782
0.022
C781
47/25
5V
D784
DS1SS133
R789
10K
R791
10K
R790
10K
L781
100µH
+B
Q783
KRC111 M
7
C715
150P
C714
150P
12
CNP703
MD_DATA
C713
150P
11
BI701
2
10
D701
DS1SS133
R773
2.2K
LED701
4204SRT7
1
CNP704
P49 11 - D
CNP406
TO MAIN PWB
6
7
8
9
CNP702
TUN_SM
SW724
OPEN/
CLOSE
1
2
3
4
5
SPAN
FAN_CONT
P_CTRL
R772
10K
3
1
2
3
1
2
3
CNS701
+B
1
2
3
4
5
6
R777
47K
C708
10/25
C707
0.022
C706
220/6.3
C705
0.022
C704
0.022
CD_CLOSE_SW
LED PWB-B2
BI704A LED DRIVER
Q702
1
1
KRC102 M
3
2
2
3
R778
LED702
56
LNG901CF
BI704
+B
P57 12 - B
CNP5
TO CD SERVO PWB
11
12
CD LID
OPEN/
CLOSE
PWB-B2
MD-E9000W
A
FM SIGNAL
AM SIGNAL
AM TRACKING fL
AM ANT.
0.022
0.001
C365
C366
SD
STEREO
FM DET
VSM
AM IF IN
AM LOW CUT
FM/AM OUT
GND
7
8
C318
100P
MO/ST
ST IND
1
4
5
6
7
10
11
1K
1K
R372
R378
R375
470
1K
C382
15P(CH)
3
R373
2
8
9
SD
IF IN
FM/AM VDD
FM IN
IF
CONT
AM IN
FM/AM
14 13 12
DO
17 16 15
CL
19 18
DI
22 21 20
L351
100µH
AIN
PD
C381
12P(CH)
+B
1K
R327
33
R379
C393 R380
1/50 1.5K
R377
47K
C380
10/50
C385
0.01
R316
4.7K
C392
0.001
2.2K
R382
150
C387
0.022
C394
47/16
C397
0.022
+B
F
C384
0.001
G
H
• NOTES ON SCHEMATIC DIAGRAM can be found on page 61.
2
3
4
Figure 52 SCHEMATIC DIAGRAM (5/12)
– 52 –
C386
330P
R376
1K
R368
22K
IC302
LC72131
PLL(TUNER)
1
CF351
AM IF
C354
C353
2
0.022
0.022
T351
R3
27
3
1
+B
+B
TP301
2
D306
DS1SS133
6
R393
1K
CF303
3
1
T302
Q302
KTC3194 Y
OSC BUFF
5
CF352
0.022
C313
22P(CH)
R322
680
X351
0.022
2.2/50
C363
C364
4
R374
C317
0.001
C315
0.0047
C350
VD303 R309
SVC211C 10K
10/50
FM BAND
COVERAGE fL
R313
33K
C316
0.022
R325
47K
20 19 18
C307
10/50
FM IF
C312
0.022
3
C367
1/50
R352
1K
C352
C310
15P
(CH)
2
1
+B
21
AM RF IN
R351
5.6K
AM OSC OUT
FM IF IN
C306
9 0.022
22
R381
10K
VD302
SVC211C
FM RF
C309
0.001
R311
100K
8
C311
18P
C320
0.001
C308
4.7P
L312
D305
DS1SS133
C314
0.0047
7
R302
10
C305
4.7P
(CH)
R314
22
E
6
0.022
5
23
C351
C304
0.01
4
X352
4.5 MHz
3
C324
3.9P(UJ)
2
FM OSC.
C303
10P(CH)
1
D
SO301
ANTENNA
TERMINAL
24
IC301
TA7358AP
FM FRONT END
1 2 3
AM
GND
FM
75OHMS
R336
10K
R323
68K
R350
2.7K
X IN X OUT
VSS
AOUT
CE
BF301
BAND
PASS FILTER
T301
C
AM BAND
COVERAGE fL
C334
18P(UJ)
D304
DS1SS133
R358
3.9K
+B
0.022
D303
DS1SS133
TP3
FM AFC
C335
560P
C361
VD301
SVC348S
REG
AM OSC.
T306
R365
10K
C342
0.022
D302
DS1SS133
3.3/50
+B
+B
C362
D301
DS1SS133
C325
220P
C332
0.022
T303
AM OSC IN
AM MIX OUT
C338
0.001
C331
0.047
C330
15P(UJ)
B
C323
0.022
5
6
7
+B
C386
330P
R395
47K
R360
4.7K
8
MPX IN
MO/ST
L-CH OUT
R-CH OUT
MPX VCO
0.001
C366
C369
27P(UJ)
C374
C368 R356
1/50 1K
X351
456 kHz
IC303
LA1832S
FM IF DET./FM MPX./AM IF
C357 R355
2.2/50 3.3K
C356
0.001
L352
100µH
+B
C395
0.022
Q360
KTA1266 GR
R385
5.6K
C396
100/16
R392
270
R391
270
R383
5.6K
9
10
Figure 53 SCHEMATIC DIAGRAM (6/12)
– 53 –
11
TUN-R
R376
1K
C358
1/50
A-GND
3
12
TUN-L
10 11
A+10V
9
Q360: CONSTANT VOLTAGE
R353
270
C391
47/16
IF OUT
PHASE
8
PHASE
(FM/AM)
VCC
7
C370
1/50
C355
22P
FM DET
6
13
D GND
11
15 14
TUN DO
10
16
C372
1/50
TV CL
14 13 12
17
R388
3.9K
STEREO
20 19 18
C398
100/16
SD
0.022
C365
C367
1/50
R384
5.6K
R387
5.6K
R393
1K
CF351
352
1K
C399
0.022
0.022
0.022
2.2/50
C364
R350
2.7K
T/V CE
9
C354
C353
VSM
AM IF IN
AM LOW CUT
FM/AM OUT
GND
0.015
R357
470K
TP302
R359
1.8K
L351
100µH
R377
47K
2
T/V DI
8
5
R368
22K
16 15
ST IND
CF352
1
SD
IF IN
C385
0.01
C387
0.022
4
MO/ST
FM IN
IF
CONT
AM IN
FM/AM
MD-E9000W
TUNER PWB-C1
C373
0.015
C371
1/50
ZD351
DZ5.1BSB
+B
+B
C388
0.001
+B
9
8
7
6
5
4
3
2
1
9
8
7
6
5
4
3
2
1
BI301
CNS301
CNP405
P49 9 - H
TO MAIN PWB
12
MD-E9000W
–
–OUT1
L
VCC1
C912
100/35
C914
100/25
PWR
GND1
14
C907
0.1(ML)
+OUT1
L
13
R911
1K
C904
2.2/50
12
R983
10K
C902
0.001
R904
2.7K
R902
15K
11
+B
R908
1K
R909
22K
+B
UN-SW_5V
1
2
3
4
5
6
7
+B
SW_5V
L-CH
A_GND
C905
47/50
R-CH
P_MUTE
P_CONT
+B
RP941
0.5
Posistor
+B
+B
R928
2.2K
VOLTAGE
C941 REGULATOR
0.022
C942
100/16
+B
+B
R941
1K
Q942
KTC3199 GR
+B
MD_+A3.1V
MD_+D5V
(MD) D_GND
D_GND
(MD)S_GND
(MD)M_GND
(MD)H_GND
ZD941
DZ6.8BSA
C947
6800/25
+B
+B
ZD951
DZ3.6BSB
BI903B
C951
0.1(ML)
C954
0.022
C955
100/10
C956
0.022
+B
R953
1.2K
C952
0.1(ML)
R955 220
E
VOLTAGE
REGULATOR
Q951
KIA7810AP +B
3
1
2
C953
47/25
+3.2V
+B
VOLTAGE
REGULATOR
Q952
R954
KTC3203 Y 220
R952
22K
5
6
7
8
9
10
11
12
+B
+B
C943
470/10
5
6
7
8
9
10
11
12
CD+B
CD_GND
A_GND
A_+10V
FAN_CONT
R942
47K
1
2
3
4
+B
VOLTAGE
REGULATOR
Q941
KTC2026
BI902
1
2
3
4
CNS902
P49 7 - H
TO MAIN PWB
CNP403
D
BI901
CNS901
P49 8 - H
TO MAIN PWB
CNP404
1
2
3
4
5
6
7
9
R914
1K
R906
Q902 2.2K
KTC3199 GR
MUTING
C
10
R913 C909
1K 0.1(ML)
8
PWR
GND2
7
–OUT2
R
6
R912 C908
1K 0.1(ML)
5
R910
3.3K
C911
100/16
R905
2.2K
C901
0.001
L
+OUT2
C987
0.001
C985
22/16
R903
2.7K
MUTING
Q901
KTC3199 GR
R
R
4
C903
2.2/50
R907
1K
R901
15K
B
L
C913
0.47/50
C910
0.1(ML)
3
C986
0.001
NOISE
PREVENT
INP2 R
GND
2
STANDBY
+5V
1
R
R
+
L
INP1 L
IC901
LA4628
POWER AMP.
–
FM SIGNAL
+
A
+B
C948
3300/25
C961
0.1(ML)
+B
+B
A_GND
+B/2
M_GND
+B UN-SW_REG
+B UN-SW_5V
SW_5V
+B
1
2
3
4
5
6
7
BI903A
D962
DS1SS133
C965
0.1(ML)
C966
47/25
F
+B
D961
DS1SS133
C963
47/25
R961
10K
C949
6800/16
+B
VOLTAGE
Q962
AN78L05 REGULATOR
3
1
2
+B
R962
10K
C962
0.1(ML)
+B
+B
VOLTAGE
REGULATOR
Q961
KIA7805AP
3
1
2
Vcc
1
Vcc
2
A_GND
3
A_GND
4
C964
0.1(ML)
+B
+B
+B
+B
P51 12 - D
TO DISPLAY PWB
G
H
• NOTES ON SCHEMATIC DIAGRAM can be found on page 61.
1
2
3
4
Figure 54 SCHEMATIC DIAGRAM (7/12).
– 54 –
5
6
MD-E9000W
POWER AMP. PWB-C3
JK981
HEADPHONES
R982
270
L981
2.2µH
C981
4.7/50
R981
270
VCC1
14
C914
100/25
3
R911
1K
L
C982
4.7/50
C925
0.1(ML)
R923
4.7
R977
10K
D973
DS1SS133
CNS971
R973
3.3K
Q972
KTA1266 GR
CNP971
R979
330
R984
47
C973
47/25
C926
0.1(ML)
R924
4.7
D972
DS1SS133
C972
47/25
C923
0.1(ML)
Q971
KTC3203 Y
R972 33K
C924
0.1(ML)
C971
4.7/50
R974
10K
R978
10K
R975
2.2
+B
2
2
1
1
+
–
M
M905
FAN
MOTOR
Q971, Q972: FAN MOTOR DRIVER
+B
+
SP-L(+)
–
SP-L(–)
SO901
SPEAKER
TERMINAL
+
–
SP-R(+)
SP-R(–)
R928
2.2K
1 POWER PWB-C2
C947
6800/25
F801
T6.3A L 250V
C802
0.047
(ML)
C804
0.047
(ML)
F802
T2.5A L 250V
T.F.
D804
RL203F
110 V
D871
DS1SS133
C871
0.0047/250V
+B
D806
DS1N404S
C806
220/50
D808
C807
DS1N404S 47/50
C809
47/50
R803
12K
C808
47/50
RL800
R804
220
BI903A
D805
RL203F
C812
0.047
127 V
F803
+B T2.5A L 250V
C803
D802
RL203F 0.047
(ML)
R801 ZD801
1K DZ30BSC
11
CNP903
11
+B
Q801
KTA1266 GR
10
Vcc
A_GND
A_GND
+B
A_GND
+B/2
M_GND
UN-SW_REG
UN-SW_5V
10
SW_5V
D803
RL203F
C810
100/35
+B
1
A_GND
2
+B/2
3
M_GND
4
+B UN-SW_REG
5
+B UN-SW_5V
6
SW_5V
7
+B
Vcc
R802
220
949
00/16
1
2
3
4
5
6
7
8
9
+B
+B
1
2
3
4
5
6
7
8
9
220 V
+B
948
00/25
Vcc
1
Vcc
2
A_GND
3
A_GND
4
SW801
VOLTAGE
SELECTOR
230-240 V
CNS903
BI903B
+B
C801
0.047
(ML)
D801
TS6B04GM
+B
D807
DS1N404S
ZD802
DZ6.2BSA
PT801
MAIN POWER
TRANSFORMER
C805
220/50
SO801
AC INPUT SOCKET
AC 110/127/220/230-240 V
50/60 Hz
ZD803
DZ12BSB
AC POWER
SUPPLY CORD
D809
DS1SS133
R805
220K
7
+B
D873~D876:
DS1N404S
+B
D877
DS1SS133
R873
1K
C875
0.022
R872
47K
+B
C874
1000/6.3
VF2
P_IN
AC_RLY
3
4
5
D872
DS1SS133
+B
R871
220
–VP
VF1
1
2
CNP871
CNS701
P51 12 - D
TO DISPLAY PWB
+B
R806
47K
+B
+B
+B
+B
+B
+B
Q871
KTC3199 GR
+B
D874
D873
D876
D875
ZD871
DZ3.0BSA
C872
0.047
(ML)
C873
1000/16
PT871
SUB POWER
TRANSFORMER
RELAY DRIVER
8
C811
0.0022
9
10
Figure 55 SCHEMATIC DIAGRAM (8/12)
– 55 –
11
12
MD-E9000W
A
CD SIGNAL
C
C
C2
PICKUP UNIT
R6
D
TR+
FO+
TR+
FO+
FO–
TR–
1
2
3
4
5
6
7
8
CNS2B
1
2
3
4
5
6
7
8
R7 C57
22K 680P
LD
1
2
3
4
5
6
7
8
8.2K
1
2
3
4
5
6
7
8
9
0.1
C3
0.01
C58
680P
80 79 78 77 76 75 7
FR
VVDD
PCKIST
VVSS
PDO2
C7
C8
C9
10P R12
330 0.0027
C54 22P
C5
0.001 +B
C53
4.7/25
10
C12
11
10/16
C10
100/16
VR
PD
FO+
TR+
TR–
FO–
CNS2A
R10
27K
C13
0.22/50
4
C14
100P
+B
2
R13
15K
1
CNP2
3.2V
IC2
LA6548D
+ –
RST
+B
REG
3
CNP4
SLDO
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
Q2
KTA1271 Y
+B
Q2: CONSTANT
VOLTAGE
G
C63
0.001
H
• NOTES ON SCHEMATIC DIAGRAM can be found on page 61.
2
3
R
4
RST
+B
1
R
C46
0.1
OUT
IN
–+
CD
GND
+ –
GND
CNS4A
–+
C48
0.1
CNS4B
SP+
SP–
SL+
SL–
PUIN
GND
FDO
6
5
4
3
2
1
VCC
REF
CNP4A
6
5
4
3
2
1
VCC
MUTE
M–
6
5
4
3
2
1
6
5
4
3
2
1
+ –
SW4
PICKUP IN
–
+
–+
M1
SLED
MOTOR
+
6
30 29 28 27 26 25 24 23 22 21 20 19 18 17 16
+ –
F
M
+B
C45
330/10
–+
M2
SPINDLE
MOTOR
18 A
19 A
20 T
+B
+B
C47
0.1
IC2
FOCUS/TRACKING/
SPIN/SLED DRIVER
1
21 22 23 24 25 26 2
+B
CD MOTOR
PWB-F
5 8
+B
TDO
E
12
13
14
15
16
17
18
19
20
SLCIST
EFMIN
RF
RFVDD
RSVSS
FIN1
FIN2
TIN1
TIN2
VREF
REFI
FE
TEC
TE
RFMON
JITTC
FDO
SPDO
SLDO
GPDAC
CONT4
CONT5
SBCK/CONT6
8.2K
8.2K
R11
0.047 10K
C6
R19
FDO 15K
SPDO
SLDO
R21
R20 8.2K
8.2K
R3
R4
8.2K
+B
TDO
R2
22K
+B
SPDO
R1
C1
0.01
+B
1
2
3
4
5
PD
6
VR 7
LD
8
LDD R14
LDS 1.2K
Q1: LASER DRIVER
C
TR–
+B
+B
R15 12K
C15 0.1
R16
680
7
6
5
4
3
2
1
R9
3.3
7
6
5
4
3
2
1
C16
+B
Q1
KTA1266 GR
7
6
5
4
3
2
1
7
6
5
4
3
2
1
VCC
E
A
B
F
C
C
CNP1
CNS1A
C2
47/16
VCC
+B
CNS1B
C2
C2
C2
R8
47
C4
47/16
B
4
Figure 56 SCHEMATIC DIAGRAM (9/12)
– 56 –
5
6
MD-E9000W
CD SERVO PWB-D
C24
0.022
+B
18
19
20
10
6
3.2V
C45
330/10
R38
100
R39
100
R40
10K
L4
2.2µH
9
8
CNS402
1
2
3
4
5
6
CORE1
+B
+B
C43
100/16
BI1
CDDATA
BCK
LRCK
DGND
+5V
DIGITAL
OUT
1
2
3
4
5
6
C62
0.001
1
2
R42
220
C32
15P
(CH)
C61
0.01
1
2
+B
CORE2
L2
0.82µH
+B
+B
R24
47K
C44
0.0015
INVERTER
+B
+B
+B
13
12
11
10
C41
100/16
9
3.2V
C42
0.022
R19
FDO 15K
SPDO
SLDO
R21
R20 8.2K
8.2K
R23
1K
1
2
3
4
5
6
7
14
11 12
0.047
IC4
74VHC08F
CNP6
1
C28
+B
1K
1K
WRQ
DRF
CE
DO
DI
CLK
CD RES
CD_GND
5V
3
5 8 7
60
59
58
57
56
55
54
53
52
51
50
49
48
47 R53
220
46
+B
45
44
43
42
41
C31
15P(CH)
BCK
LRCK
ASDFIN
ASDACK
ASLRCK
60 DATA
SLCO
16MOUT
IC1
EFLG
C2F
LC78645NE
XVSS
CD SERVO
FSX/16MIN
XIN
ADAVDD 43 LVSS
XOUT
42
LCHO
ADAVSS
41 LVDD
XVDD
TDO
RVDD
RCHO
RVSS
21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
TDO
O
SLCIST
EFMIN
RF
RFVDD
RSVSS
FIN1
FIN2
TIN1
TIN2
VREF
REFI
FE
TEC
TE
RFMON
JITTC
XL1
33.8688 MHz
FR
VVDD
PCKIST
VVSS
PDO2
PDO1
CONT1
CONT2
CONT3
VSS
VDD5
DRF
*RES
*WRQ
DO
DI
CL
CE
10
C12
11
10/16
12
13
14
15
50
16
17
18
P
19
20
S
R37
FDO
SPDO
SLDO
GPDAC
CONT4
CONT5
SBCK/CONT6
SBCK/FG
DEFECT
V/*P
FSEQ
MONI1
MONI2
MONI3
MONI4
MONI5
VSS
VDD
DOUT
TEST
C9
.0027
R13
15K
R35
R36
80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 100
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
+B
R18
6.8K
R17
680
R11
7 10K
5V
C16 2.2/50
C17
0.047
R15 12K
C15 0.1
R16
680
LDD R14
LDS 1.2K
+B
+B
CNS702
P51 12 - B
FROM DISPLAY PWB
100P
100P
100P
1K
1K
1K
1K
1K
1K
1K
CNP402
P48 5 - H
TO MAIN PWB
C21
C22
C23
R27
R28
R29
R30
R31
R32
R33
CNS6
100P
0.022
100P
CNP5
C18
C19
C20
+B
C46
0.1
5V
+B
5V
RST
LOADING MOTOR DRIVER
IC3
TA7291S
+B
RST
+B
1 2 3 4 5 6 7 8 9
OUT
IN
REG
3.2V
+B
14 15
Q2
KTA1271 Y
R54
1K
+B
Q3
KRC102 M
3
2
1
R49
5.6K
R48
2.2
C49
47/16
CD
17 16
R56
18K
1
2
C50
0.1
CNP3
R50
15K
1
2
CNS3
+
M
–
M904
CD LID
MOTOR
+B
R55
100K
: CONSTANT
VOLTAGE
• The numbers 1 to 12 are waveform numbers shown in page 62.
7
8
9
10
Figure 57 SCHEMATIC DIAGRAM (10/12)
– 57 –
11
12
TP1131
C1119
0.47
C1118
0.47
TCG
AOUT-IN
BOUT-IN
EOUT-IN
FOUT-IN
+B
10µH
3.2V
L1101
2.6V
FN
TP
FP
TN
C1161
4
0.001
CHASSIS
GND
28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
MINF
M
+
+
–
+
–
R1623
22K
C1655
0.01
21
TP1404
R1403
270
0V
3.2V
3.2V
0V
0V
0V
0V
0.7V
1.5V
2.2V
1.8V
2V
3.2V
3.2V
3.2V
0V
3.2V
0V
0V
0V
F+ F– T+ T–
C1403
0.1
REG+ 42
REGB+ 41 5V
–
1.6V
1.25V IN1+
40
VBS1
5V
39
Vm1 38 5V
TRDRR
1.6V
IN1– 37
1.6V
OUT1
36
2.5V TN
VM1–
35
TPC1602
VM1+ 34 2.5V
470P
GND 33 0V
FP (CH)
VM2+ 32 2.5V
FN R1605
VM2– 31 2.5V
1.6V
12K
OUT2
30
GND 29 0V
IN2- 28 1.6V FODRR
1.6V
C1603
IN2+ 27 3.2V
680P
MUTE1 26
3.2V
(CH)
MUTE2 25
SS.GND 24 0V
1.6V
VREF 23
1.6V
22
VREFO
C1607
VREF
R1601
12K
8 3.2V
7
3.2V R1406
6
3.2V 10K
5
R1418
1K
R1460
10K
R1463
10K
+B
+B
MINF
DTEMP
AVCK1
AVCK2
AVCK3
TP1406 TEST0
TP1407 TEST1
TP1408 TEST2
RAST
MUTE
LD–
LD+
ADMUTE
GND
Q/N
AVCC
VREF
TP1402 TEST-K2
TP1403 TESTK1
SLO
SLO
SLO
SLO
SLO
SYSD
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
R/P
INNSW
13
R1435
10K
R1430
10K
+B
1
R1624
6.8K
H
• NOTES ON SCHEMATIC DIAGRAM can be found on page 61.
1
2
3
L3CL
L3MOD
L3DAT
GN
INNE
VC
CRTRG S
TP1420 3.2V
TP1405 0V
SGAIN 0V
SYRS 0V
SYRD 3.2V
SYWR 3.2V
TP1409 3.2V
SYD7 0V
SYD6 0V
SYD5 0.1V
SYD4 0V
VCC
WP
SCL
SDA
53 SYSD1
52 SYSD2
51 SYSD3
SBO
SBCK
DISC GROOVE:0V PIT:3.2V
R/P (3.2V) 0V
FOK
FLASH L
SGAIN LOW DISC:3.2V
HIGH DISC:0V
SYRS
SYRD
SYWR
FRASH H
SYSD7
SYSD6
SYSD5
SYSD4
A0
A1
A2
VSS
DINT
SFSY
ST-ID
SERCH
MDRSW
CDB SEL
DSENSE
P-DOWN
HDON
EEPRO
28 HFON
29 EEPK
30 EEPD
FOK
0.9V
1
2
3
4
MD SYSTEM
MICROCOMPUTER
1.5V
0V
2.6V
0.8V
3.2V
R/P
+B
0V
0V
0V
0V
IX0410AW
VSS
MCCK
VCC
SBO 3.2V
SBCK 0V
DISC
TP1421
STID
SERCH
DFS
DFS
DAPO
SBS
A
LDO
LAS
PCNT
UNLOCK
80 XRST
1 4M/16M
BYTE
79 07/120
2 64M
CNVSS
78 5/3
3 LDVAR
STID OUT
SEACH OUT
IC1401
RESET
MDDATA
KDATA
DSCK
DSTB
HDON
6
ADJS
CIN
MDDATA
KDATA
DSCK
DSTB
5
C1404
0.01
HDON
R1401
2.7K
TP1303
R/P
F+ F– T+ T–
C1304
220P
(CH)
0V
1
0V
2
0V
LDVAR
3
0.4V
4
CIN 0V 5
0V 6
R1407 3.2V 7
3.3K 0V 8
0V
9
R1414 0V 10
220K
0V 11
RESET 3.2V 12
1.5V 13
0V14
1.6V 15
MCCK
3.2V 16
3.2V
17
DINT 3.2V 18
SFSY 3.2V 19
0V
20
R1408
0V 21
3.2V
3.3K
22
0V 23
DSENSE 0V 24
TP1422 2.9V 25
3.2V
26
3.2V
27
R1417
0V 28
3.2V
1K
29
3.2V 30
C1405
680P(CH)
(1.4V)
GND
VCC
IC1300
74ACT02T
HEAD DRIVER
(5V)
(2.6V)
(0.1V)
(1.4V)
(2.6V)
(0.1V)
IN4–
OUT4
7
VREF
M
M901
SPINDLE
MOTOR
–
1.6V CH3IN
1
1.6V OUT3
2
1.6V IN3–
3
5V VBS2
SPDRR
4
5V
C1610
5 Vm2
0V
4.7
6 NC
0V
7 GND
1.6V
C1619
8 IN3+
VM3–
2.5V
330P(CH)
9
2.5V
10
0V
VM3+
11
GND
2.5V
12
VM4+
2.5V
13
VM4–
2.5V
R1618
14
VM5+
2.5V
22K
15
VM51.6V
16
SLDRR 1.6V 17 IN5–OUT5
1.6V
18
1.2V IN5+
19 IN4+
1.2V 20
1.6V
M902
SLED
MOTOR
R1616
12K
R1621
6.8K
R1622
22K
M
TP1401
IC1402
58X2402T 12
EEPROM 3.2V
IC1601
M56788FP
MOTOR DRIVER
C1613
0.01
M903
LOADING
MOTOR
TP1451
17
9
+B
8
7
T+T-
MD MECHANISM
SWITCH PWB-G1
11
C1407
0.1
TP1630
F+F-
10
HDON
C1606
10
LEAD IN
C1611
0.0047
MD LOADING PWB-G2
SW1936
LEAD IN
G
CN1401
SLD+
SLD–
CHASSIS
GND
MINF
R1420
1K
100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81
1 2 3 4 5 6 7
C1563
1
TP1542 MINF
TP1543
TP1605
TP1604 GND
TP1602
TP1603
TP1400
TP1600
9
8
7
6
5
4
3
2
1
TP1601
TRY–
TRY+
SP–
SP+
TP1909
SL+
SL–
SP+
SP–
R1933
560
LEAD IN
SW1934
PLAY
CW1931
MINF TP1901
GND TP1902
LD– TP1903
LD+ TP1904
TP1905
TP1906
TP1907
TP1908
R1934
180
SW1933
RECORD
F
IC1302 R1300
CPH5608 6.8
HEAD DRIVER
R1932
470
SW1932
LOADING
R1931
1K
SW1930
WRITE PRO
(1.5V)
(2.5V)
1 D1 G1 5
(0V)
S 4
2 D2 G2 3
(2.5V)
(1.5V)
14 13 12 11 10 9 8
C1340
100P(CH)
2
29
EFMO TP1302
(2.6V)
1
D1300
SBE803
MINF
R1415
1K
C1301
(5V)
(5V)
0.022
1 D1 D2 8
(1.4V)
(1.4V)
S1 S2 7
C1300
(1.4V) 2
(1.4V)
150P
3 S1 S2 6
(2.5V)
(CH)
4 G1 G2 5
C1305
(2.5V)
68P(CH)
5 4 3
MD PICKUP UNIT(35)
R1614
L1300 33K
4.7µH
R1304
150
):REC MODE
TP1330
(2.6V)
(0.1V)
(2.6V)
(2.6V)
(0.1V)
(0V)
1
2
(
10
1
1
2
CW1903
CN1300
TP1301
E
LDOUT VCC
8
EXT.C GND
7
LDON
APC
6
LVV
5
LDVAR
R1301
10
R1612
56K
IC1301
FTD2005
HEAD DRIVER
C1302
C1303
MAGNET HEAD
(RECORD)
1
2
3
4
TP1300
T.COIL
F.COIL
I/V
I/V
I/V
I/V
28
DTEMP
+B
TP1607
16
C1616
100/10
28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
CN1101
LDVAR
LDON
TP1113
TP1115
TP1117
TP1118
TP1119
TP1120
TP1121
TP1122
TP1123
TP1107
TP1108
TP1109
TP1110
TP1111
TP1112
R1102
10K
TP1104
TP1105
TP1106
TP1103
TP1100 R1100
TP1101
27
TP1102
C1100
4.7
SW
+2.8V
B
LVVOUT
APCOUT
LDVCC
DGND
DGND
LDON
LDVAR
A
COM
RF1
F
E
RF3
RF4
VCC
AGND
MP/R
RF2
APCIN
DGND
LVVIN
FT+
F+
T-
D
R/P
R/P
C1107
R1105
0.022
1.2K
R1101
1
0V
3.2V
3.2V
0V
0V
0 1V
TP1136
L1100
0.47µH
31
26 27 28 29 30
+B
+B
30
SYRS
SYRDX
SYWRX
SYD7
SYD6
SYD5
R1207
39K
R1121
100K
R1120 C1124
560K
0.1
3 2V
0.7V
R1125
2.2K DTEMP
R1123
12K
0.7V
A3
0.7V
A2
0.7V
A1
A0 C1202 1.7V
1 1.3V
24
1.5V
AGND1
AVCC2
VREF
WBI
TCG
AIN
BIN
EIN
FIN
VBAT
VDD1
DGND
TEST2
X176KO
FODRF
FODRR
TRDRF
TRDRR
SLDRF
RAA3
RAA2
RAA1
RAA0
RAA10
VDD2
C1266
22P
(CH)
C1261
220P(CH)
C1262
220P(CH)
C1263
220P(CH)
C1264
220P(CH)
DTEMP
26
25
C1265
220P(CH)
C1122
1
2
3
0V
4
2.6V
C1211
5
1.3V
0.1
6
1.3V
WBO-I
TP1250 1.3V 87
TCG
AOUT-IN TP1251 1.3V 9
BOUT-IN TP1252 1.3V 10
EOUT-IN TP1253 1.3V 11
FOUT-IN TP1254 1.3V 12
2.6V
C1200 2.5V 13
14
1
0V
15
0V
16
1.6V
17
TP1200
1.6V
18
FODRR R1201 1.6V 19
1.6V 20
56K
TRDRR R1203 1.6V 21
1.6V
100K
22
1.6V 23
SLDRR
R1205 1.6V 24
1.6V 25
SPDRR 68K
IC1202
IX2474AF
4MBIT D-RAM
23
22
21
1.3V
1.3V
20
1.3V
BOUT
AOUT
TCGO
EOUT
FSW
FOUT
19
18
R1117
47K
R1118
330K
1.3V
FIN
1.3V
1.3V
R1116
47K
17
1.3V
1.3V
ESW
EOUT
EIN
16
15
1.3V
1.3V
RF2
RF3
RF4
RF1
14
13
R1115
330K
FIN
EIN
AIN
BIN
30
27K
27K
27K
27K
27K
27K
R1266
R1261
R1262
R1263
R1264
R1265
TCG
AOUT-IN
BOUT-IN
EOUT-IN
FOUT-IN
WBO-I
TP1135
GND2 31 0V
WBO 1.3V
SGAIN
BSW
11
R1113 1.3V BOUT
680K
EFMO-I
15
2.6V 1
VCC2 29
OPICPW 2.6V
28
SW
R1124
PIT:2.6V
DISC
DISC 27 GROOVE:0V 2.2K
MODE
LOW DISC:2.6V TP1133
HIGH DISC:0V
SGAIN
10
12
1.3V
C1201
TP1201
10
2.6V
1.3V
EFMO-I
C1125
1
BPF
BIAS
1.3V
C
DCNF
EFMO
NIN
3+4
GND1
ADIP AGC
IC1101
IR3R58M
RF SIGNAL
PROCESSOR
1.3V AIN
9
1.3V BIN
R1112
100K
C1123
0.1
1.3V
ADAGI
35
0V C1121
0.22
ADAGC 34
1.3V
ADIPNF 33
1.3V
ADIPO 32
AGC
REFI
5
100 99 98 97 96
2-1 1.3V
36
DIFF
TP1130 1.3V
6
C1111 R1110 1.3V REFO
1 680K
7 AOUT
R1111 1.3V
100K 8 ASW
B
VCC1 EFMAGC
TP1202
37
38
RF4
4
C1110
1 1.3V
39
40
14
TP1116
2.6V 0V 1.3V 1.3V
41
R1122
12K
0.7V
42
TCGI
RFADD
0.7V
0V 1.6V
43
1.3V
0.7V
PIN
R
RF2 and
2
SW
RF3
3
44
45
46
PITG
47
1+2
1234
RF1
1
R1119
220K
0V 0.7V 1.3V 0.7V 1.1V 1.3V
48
0.7V
C1117
1
C1116
1
BIAS
C1112
5P
(CH)
R1114
12K
C1114
0.1
C1115
0.1
C1113
1
A
SYRS
SYRD
SYWR
SYD7
SYD6
SYD5
MD-E9000W
4
Figure 58 SCHEMATIC DIAGRAM (11/12)
– 58 –
5
6
MD-E9000W
C1205
1
DINT
R1209 MCCK
100
CIN
DSENSE
FOK
TP1215 SFSY
TP1216 SBSY
TP1217 SBO
TP1218 SBCK
TP1207
TP1209
6
CD SIGNAL
19
0V
3.2V
3.2V
0V
0V
0.1V
0V
0V
0V
0V
0.2V
3.2V
0V
3.2V
3.2V
1.6V
0V
0V
3.2V
3.2V
3.2V
3.2V
0V
1.6V
1.6V
TP1202
SYRS
SYRDX
SYWRX
SYD7
SYD6
SYD5
SYD4
SYD3
SYD2
SYD1
SYD0
RSTX
DGND
VDD1
DINTX
MCCK
COUT
SENSE
FOK
SFSY
SBSY
SBO
SBCK
TEMON
TOTMON
R1207
39K
20
1 EFMMON
2 AVCC
3 EFMI
75 FEMON
74 DADATA
73 ADDATA
23 SLDRR
24 SPDRF
25 SPDRR
53 TEST0
52 TCRS
51 X700KO
18
DFCK
BCLK
LRCK
DGND
VDD3
DOUT
DIN
XO
XI
DGND
VDD1
VPD
VXI
CDBCLK
CDLRCK
CDDATA
DIN2
DILOCK
TEST1
21
IC1201
LR37816A
ENDEC/ATRAC
75
TP1212
0V
74
0V
73
1.6V
R1211
72
1.6V
220
71
C1206
1.6V
70
0V
0.01
69
0V
68
1.6V
67
1.6V
66
1V
R1215
65
1V C1207 1M
64
0V
1
63
2.5V
62
0V
61
3.2V
60
3.2V
59
3.2V
XL1201
58
3.2V
33.8688 MHz
57
0V
R1214
56
3.2V
10K
55
+B
0V
54
0V
53
0V
52
51
TP1214
C1208
12P(CH)
AGND1
AVCC2
VREF
WBI
TCG
AIN
BIN
EIN
FIN
VBAT
VDD1
DGND
TEST2
X176KO
FODRF
FODRR
TRDRF
TRDRR
SLDRF
32
1.6V
RAA3
RAA2
RAA1
RAA0
RAA10
VDD2
RAA4
RAA5
RAA6
RAA7
RAA8
RAOEX
DGND
RACASX
RAD2
RAD3
RAA9
RARASX
RAWEX
RAD1
RAD0
TCRS
ACRCER
PLCK
EFMO
C1265
220P(CH)
1
2
3
0V
4
2.6V
C1211
5
1.3V
0.1
6
1.3V
WBO-I
TP1250 1.3V 87
TCG
AOUT-IN TP1251 1.3V 9
BOUT-IN TP1252 1.3V 10
EOUT-IN TP1253 1.3V 11
FOUT-IN TP1254 1.3V 12
2.6V
C1200 2.5V 13
14
1
0V
15
0V
16
1.6V
17
TP1200
1.6V
18
DRR R1201 1.6V 19
1.6V 20
56K
DRR R1203 1.6V 21
100K 1.6V 22
1.6V 23
DRR
R1205 1.6V 24
1.6V 25
DRR 68K
+B
5
100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76
C1201 1.3V
10
2.6V
1.3V
MO-I
RECORD SIGNAL
TP1213
DADATA
ADDATA
DFCK
BCLK
LRCK
R1217
150
C1209
12P(CH)
SYRS
SYRD
SYWR
SYD7
SYD6
SYD5
SYD4
SYD3
SYD2
SYD1
SYD0
XRST
MD MAIN PWB-E
MD SIGNAL
1.6V
3V
2.6V
1.4V
A9
L1201
0.47µH
+B
TP1700
13
VREF3.2V
TP1411
TP1412
TP1413
DFCK
28
27
26
25
24
23
22
21
20
19
18
17
16
15
C1721
330P
(CH)
35
3
1
TP1531
STID
SERCH
R1516
220
IC1802
XC62FP26
REGULATOR
2 2
+B
REGULATOR
Q1804
R1809
2SB1205
+B
1
R1806
1
R1807
C1801
27K
10
R1804
390
2
3.2V
R1230
10K
C1230
1
R1430
10K
PCNT0
3.1V
RESET
3
Q1501
UN2214 1
TP1501
TP1503
C1524
100P(CH)
C1540
150P(CH)
FL1520
PCNT0
4
5
+B
1
FL1518
TP1534
C1510
100P(CH)
CHASSIS GND
LD+
LD–
TP1524
R1517
47
5V
DIN
0V
TP1515
FL1512
TP1507
R1521
1K
3
+B
C1802
10
KDATA
R1536
1K
DSCK
R1534
1K
DSTB
D.GND
3
TP1511
C1530
100P(CH)
TP1508
4
R1537
1K
27
27 CDDATA
26 CDBCK
25 CDLRCK
24 MD-ST
23 SERCH
22 RESET
21 R IN
20 AA.GND
19 L IN
18 AVCC
17 R OUT
27
16 C GND
15 L OUT
26
14 M.GND
R1529
220
MDDATA
R1802
56K
R1803
33K
TP1525
TP1526
R1518
47
FL1509
+B
TP1522
TP1519
C1512
100P(CH)
IC1801
XC62EP32
REGULATOR
TP1801
TP1518
TP1520
R1515
220
R1811
1
3.2V
3
2
0V
R1231
10K
R1435
10K
2
R1533
1K
R1535
1K
C1523
100P(CH)
R1532
27K
AA.GND
VREF3.2V
+B
TP1530
R1702
33K
L3CLK
L3MODE
L3DATA
TP1800
C1409
1
SYD0
SYD1
SYD2
SYD3
36
34
1
1
FL1524
FL1507
TP1505
13 DIGIN
33
12 D.GND
11 D.GND
CNP451
P48 2 - H
TO MAIN PWB
TP1420 3.2V
TP1405 0V
SGAIN 0V
SYRS 0V
SYRD 3.2V
SYWR 3.2V
TP1409 3.2V
SYD7 0V
SYD6 0V
SYD5 0.1V
SYD4 0V
FOK
3.2V
SBO 3.2V
SBCK 0V
DISC
35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
51
R1701
47K
0V
SLOT5
SLOT4
SLOT3
SLOT2
SLOT1
SYSD0
FL1525
FL1523
2.6V
SBO
SBCK
DISC GROOVE:0V PIT:3.2V
R/P (3.2V) 0V
FOK
FLASH L
SGAIN LOW DISC:3.2V
HIGH DISC:0V
SYRS
SYRD
SYWR
FRASH H
SYSD7
SYSD6
SYSD5
SYSD4
28 HFON
29 EEPK
30 EEPD
C1716
47/4
C1720
330P
(CH)
SBSY
VREF3.2V
C1806
1
L3CLK
L3MODE
L3DATA
GND
53 SYSD1
INNER
52 SYSD2
VCC
51 SYSD3
CRTRG SW
R1705
3.9
LDON
UCON3.2V
TP1415
MD SYSTEM
MICROCOMPUTER
R1703 R1704
3.9 3.9
C1700
47/4
AA.GND
R1443
1K
MINF
DTEMP
AVCK1
AVCK2
AVCK3
TP1406 TEST0
TP1407 TEST1
TP1408 TEST2
RAST
MUTE
LD–
LD+
ADMUTE
IC1401
IX0410AW
8
TP1410
T
80 XRST
79 07/120
78 5/3
DFS1
DFS0
DAPON
SBSY
A/B
LDON
LAST
PCNT0
XRST
R1446
10K
R1441
47K
TP1533
TP1404
DTEMP
0V
0V
0V
0.7V
1.5V
2.2V
1.8V
2V
3.2V
3.2V
3.2V
0V
3.2V
0V
0V
0V
GND
TP1402 TEST-K2
TP1403 TESTK1
1 4M/16M
2 64M
3 LDVAR
C1708
0.01
VREF3.2V
3.2V
80
0V
79
0V
78
0V
77
0V
76
3.2V
75
3.2V
74
0V
73
0V
72
0V
71
3.1V
70
0V
69
0V
68
3.2V
67
3.2V
66
3.2V
65
0V
64
3.2V
63
3.2V
62
0V
61
0V
60
0V
59
0V
58
0V
57
0V
56
0V
55
0.2V
54
0V
53
0V
52
0V
0V VSSA
1
3.2V VDDA
2
1.6V
3 VINL
1.6V
4 VREFA
1.6V
5 VINR
0V VADCN
C1706
6
0.01 3.2V VADCP
7
0V MC1
8
TP1704
0V
TP1706 3.2V 9 MP1
10 VDDD
0V VSSD
11
3.2V SYSCLK
C1715
12
0.1 L3MODE 3.2V 13 MP2
L3CLK 3.2V 14 MP3
IC1701
UDA1345
AD/DA CONVERTER
C1750
0.1
96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81
VREFD
VSSO
VOUTL
VDDO
VOUTR
AVDD
AVSS
MC2
MP5
DATAI
DATAO
WS
BCK
MP4
C1704
47/4
C1703
0.1
23
7
R1716
100K
1.6V
0V
1.6V
3.2V
1.6V
3.2V
0V
0V
0V
0V
0V
1.6V
0V
3.2V L3DATA
2.5V
1.8V
1.9V
0V
TP1703
TP1705
Q1807
2SD601AR
L1200
4.7µH
A9
RAS
WE
I/O2
I/O1
OE
CAS
I/O3
I/O4
GND
2.3V
C1260
0.1
DADATA
ADDATA
LRCK
BCLK
1.3V
1.3VA9
2.3V
3.1V
1.8V
3.2V
0.7V A3
0.7V A2
0.7V A1
1.7V A0
VCC
A3
A2
A1
A0
A4
A5
A6
A7
A8
16 17 18 19 20
0.7V
A4
A5
A6
A7
A8
24
5 4 3 2 1
11 12 13 14 15
1.1V
1.1V
1.1V
1.1V
IC1202
IX2474AF
4MBIT D-RAM
10 9 8 7 6
22
L1202
0.47µH
+B
TP1203
25
+B
TP1210
TP1208
TP1206
R1210
220
TP1205 1.3V
3.2V
0.7V
1.1V
1.1V
1.1V
1.1V
2.3V
0V
2.5V
1.8V
1.9V
1.3V
2.3V
3.1V
1.8V
1.3V
A4
A5
A6
A7
A8
0.7V
A3
0.7V
A2
0.7V
A1
A0 C1202 1.7V
1 1.3V
26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
+B
10 PCONT0
9 M.GND
8 MDDATA
+B TP1510
7 DVDD
TP1509
DVDD
C1538 TP1504 6
100P(CH)
5 KDATA
10 TP1502 DSCK
4
C1534
TP1516
47P(CH)
3 H.GND
R1538
9 TP1506 DSTB
1K
2
FL1501
TP1532
1 H.VDD
C1536
47P(CH)
CN1501
1
CW1501
• The numbers 1 to 10 are chart numbers shown in pag 32, 33.
• The numbers 1 to 36 are waveform numbers shown in page 63, 64.
7
8
9
10
Figure 59 SCHEMATIC DIAGRAM (12/12)
– 59 –
11
12
MD-E9000W
VOLTAGE
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
29
30
31
32
33
34
35
36
37
38
39
40
IC1
VOLTAGE PIN
NO.
1.574 V
41
42
1.012 V
43
1.578 V
44
1.604 V
45
3.251 V
46
0V
47
1.641 V
48
1.637 V
49
1.636 V
50
1.636 V
51
1.64 V
52
1.62 V
53
0V
54
1.639 V
55
1.646 V
56
0V
57
0V
58
3.252 V
59
0V
60
1.62 V
61
1.622 V
62
1.624 V
63
1.622 V
64
1.622 V
65
0.56 V
66
3.242 V
67
0V
68
0V
69
1.074 V
70
3.255 V
0V
71
3.25 V
72
3.255 V
73
0V
74
1.613 V
75
0V
76
0V
77
3.255 V
78
3.255 V
79
0V
80
VOLTAGE
5.01 V
0V
1.635 V
1.637 V
2.137 V
2.0 V
0V
0V
0V
2.192 V
2.192 V
1.637 V
1.636 V
3.258 V
4.35 V
3.242 V
3.87 V
1.635 V
1.637 V
2.18 V
2.181 V
0V
0V
0V
2.162 V
2.162 V
1.637 V
1.635 V
1.64 V
5.01 V
IC3
PIN
NO.
1
2
3
4
5
6
7
8
9
VOLTAGE
0V
5.02 V
0.369 V
0V
0V
5.02 V
0.436 V
3.32 V
0V
Q1
PIN
NO.
E
B
C
VOLTAGE
3.252 V
0V
3.239 V
VOLTAGE
3.255 V
0V
0V
0V
0V
3.255 V
3.255 V
3.255 V
0V
0V
0V
3.255 V
0V
0V
0V
0V
0V
3.255 V
3.255 V
0V
0V
0V
0V
4.74 V
4.99 V
4.09 V
0V
5V
0V
0V
0V
0V
0V
0.562 V
0V
3.252 V
3.255 V
3.255 V
0V
3.239 V
IC4
IC2
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
29
30
IC302
PIN
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
VOLTAGE
0V
3.246 V
0V
3.256 V
3.251 V
3.256 V
0V
3.256 V
3.253 V
3.252 V
3.256 V
3.253 V
3.257 V
3.257 V
Q2
PIN
NO.
E
B
C
VOLTAGE
5.011 V
4.34 V
3.255 V
Q3
PIN
NO.
E
B
C
VOLTAGE
0V
0V
1.988 V
Q360
PIN
NO.
E
B
C
VOLTAGE
9.91 V
9.91 V
0V
PIN
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
VOLTAGE
2.51 V
0V
0V
0V
0V
4.62 V
9.89 V
4.69 V
3.6 V
0V
5.14 V
0V
5.11 V
2.4 V
2.481 V
0V
5.16 V
0V
0V
9.9 V
0V
2.509 V
IC303
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
VOLTAGE
2.147 V
5.07 V
2.148 V
2.139 V
0V
5.14 V
5.14 V
3.47 V
5.06 V
4.37 V
3.87 V
3.87 V
2.265 V
1.333 V
1.323 V
2.137 V
0V
1.203 V
2.217 V
1.20 V
2.12 V
2.12 V
5.06 V
3.54 V
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
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
IC401
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
VOLTAGE
0V
0V
0V
4.94 V
4.78 V
4.78 V
4.8 V
4.94 V
4.86 V
4.86 V
4.86 V
4.86 V
4.91 V
4.92 V
4.92 V
4.92 V
4.94 V
4.92 V
4.91 V
4.91 V
4.94 V
4.94 V
9.89 V
0V
IC701
VOLTAGE PIN
NO.
51
4.76 V
52
5.0 V
53
5.0 V
54
5.0 V
55
0V
56
0V
57
0V
58
4.11 V
59
4.7 V
60
4.9 V
61
0V
62
0V
63
0V
64
4.9 V
65
0V
66
0V
67
3.201 V
68
0V
69
2.46 V
70
3.4 V
71
0V
72
3.67 V
73
3.98 V
74
4.07 V
75
0V
76
0V
77
0V
78
0V
79
3.135 V
80
0V
81
3.98 V
82
4.31 V
83
0V
84
0V
85
4.21 V
86
4.61 V
87
0V
88
1.702 V
89
1.958 V
90
0V
91
0V
92
0V
93
0V
94
0V
95
4.07 V
96
–30.52 V
97
–30.52 V
98
–28.08 V
99
–28.06 V
100
–28.06 V
VOLTAGE
0V
0V
3.17 V
Q738
PIN
NO.
E
B
C
VOLTAGE
0V
1.302 V
2.435 V
Q782
PIN
NO.
E
B
C
VOLTAGE
0V
0.4 V
3.68 V
Q781
PIN
NO.
E
C
B
VOLTAGE
0V
0V
3.99 V
Q801
PIN
NO.
E
B
C
VOLTAGE
–30.68 V
–31.31 V
–41.8 V
Q871
PIN
NO.
E
B
C
VOLTAGE
0V
0.792 V
0V
–28.07 V
–28.05 V
–28.06 V
–28.05 V
–28.05 V
–28.04 V
–27.96 V
–27.56 V
–27.52 V
–27.56 V
–17.36 V
–24.98 V
–22.41 V
–22.37 V
–12.34 V
–14.83 V
–24.98 V
–30.16 V
–30.17 V
–12.27 V
–17.37 V
–24.99 V
–24.99 V
–27.56 V
–12.27 V
–19.87 V
–27.68 V
–22.63 V
–25.19 V
–12.75 V
–25.93 V
–25.90 V
–25.51 V
–27.97 V
0V
–20.45 V
–22.94 V
–30.53 V
–30.52 V
–12.85 V
4.12 V
–23 V
–25.52 V
–20.70 V
–18.76 V
–23.32 V
–30.96 V
–30.74 V
0V
0V
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
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
PIN
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
VOLTAGE
9.14 V
0V
2.539 V
2.248 V
2.34 V
1.72 V
8.96 V
8.94 V
0V
8.98 V
0V
8.95 V
18.64 V
Q941
PIN
NO.
E
B
C
VOLTAGE
6.55 V
5.94 V
23.49 V
PIN
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
VOLTAGE
23.36 V
0V
9.91 V
Q961
PIN
NO.
1
2
3
VOLTAGE
11.57 V
0V
5.04 V
PIN
NO.
1
2
3
4
5
6
7
8
Q952
PIN
NO.
E
B
C
0.7 V
0.7 V
0.7 V
0.7 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
0.7 V
1.5 V
LOW DISC:2.6 V
HIGH DISC:0 V
PIT:2.6 V
GROO VE:0 V
2.6 V
2.6 V
1.3 V
0V
1.3 V
1.3 V
0V
1.3 V
1.3 V
1.3 V
1.3 V
0V
2.6 V
1.6 V
0V
1.3 V
1.1 V
0.7 V
1.3 V
0.7 V
0V
VOLTAGE
1.3 V
1.8 V
3.1 V
2.3 V
1.3 V
1.7 V
0.7 V
0.7 V
0.7 V
3.2 V
0.7 V
1.1 V
1.1 V
1.1 V
1.1 V
2.3 V
2.5 V
1.8 V
1.9 V
0V
IC1402
Q951
PIN
NO.
1
2
3
VOLTAGE
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
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
IC1202
IC901
Q701
PIN
NO.
E
B
C
IC1101
VOLTAGE
VOLTAGE
3.145 V
8.81 V
3.72 V
– 60 –
VOLTAGE
0V
0V
0V
0V
3.2 V
3.2 V
3.2 V
3.2 V
IC1201
PIN
NO.
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
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
98
99
100
VOLTAGE
VOLTAGE
1.3 V
2.6 V
1.3 V
0V
2.6 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
1.3 V
2.6 V
2.6 V
0V
0V
1.6 V
1.6 V
1.6 V
1.6 V
1.6 V
1.6 V
1.6 V
1.6 V
1.6 V
0.7 V
0.7 V
0.7 V
1.7 V
1.3 V
3.2 V
0.7 V
1.1 V
1.1 V
1.1 V
1.1 V
2.3 V
0V
2.5 V
1.8 V
1.9 V
1.3 V
2.3 V
3.1 V
1.8 V
1.3 V
1.3 V
3V
2.6 V
1.4 V
1.6 V
0V
0V
0V
3.2 V
0V
0V
0V
0V
3.2 V
0V
2.5 V
0V
1V
1V
1.6 V
1.6 V
0V
0V
1.6 V
1.6 V
1.6 V
0V
0V
1.6 V
1.6 V
1.6 V
0V
3.2 V
3.2 V
3.2 V
3.2 V
0V
0V
1.6 V
3.2 V
3.2 V
0V
3.2 V
0.2 V
0V
0V
0V
0V
0.1 V
0V
0V
3.2 V
3.2 V
0V
IC1701
IC1300
PIN
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
VOLTAGE
(2.6 V)
(2.6 V)
(0.1 V)
(2.6 V)
(2.6 V)
(0.1 V)
(0 V)
(1.4 V)
(0.1 V)
(2.6 V)
(1.4 V)
(0.1 V)
(2.6 V)
(5 V)
IC1301
PIN
NO.
1
2
3
4
5
6
7
8
VOLTAGE
(5 V)
(1.4 V)
(1.4 V)
(2.5 V)
(2.5 V)
(1.4 V)
(1.4 V)
(5 V)
IC1302
PIN VOLTAGE
NO.
1 (1.5 V)
2 (1.5 V)
3 (2.5 V)
4 (0 V)
5 (2.5 V)
(
): REC MODE
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
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
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
IC1401
PIN
NO.
51
0V
52
0V
53
0V
54
0.4 V
55
0V
56
0V
57
3.2 V
58
0V
59
0V
60
0V
61
0V
62
3.2 V
63
1.5 V
64
0V
65
1.6 V
66
3.2 V
67
3.2 V
68
3.2 V
69
3.2 V
70
0V
71
0V
72
3.2 V
73
0V
74
0V
75
2.9 V
76
3.2 V
77
3.2 V
78
0V
79
3.2 V
80
3.2 V
81
1.5 V
82
0V
83
2.6 V
84
0.8 V
85
3.2 V
86
3.2 V
87
0V
88
PIT:3.2 V
89
GROO VE:0 V
90
0V
91
3.2 V
92
0V
93
LOW DISC:3.2 V
94
HIGH DISC:0 V
95
0V
96
3.2 V
97
3.2 V
98
3.2 V
99
0V
100
0V
0.1 V
0V
VOLTAGE
VOLTAGE
0V
3.2 V
1.6 V
1.6 V
1.6 V
0V
3.2 V
0V
0V
3.2 V
0V
3.2 V
3.2 V
3.2 V
3.2 V
0V
1.7 V
0V
0V
0V
0V
0V
3.2 V
—
3.2 V
—
0V
1.6 V
PIN
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
IC1601
PIN
NO.
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
0V
0V
0V
0.2 V
0V
0V
0V
0V
0V
0V
0V
3.2 V
3.2 V
0V
3.2 V
3.2 V
3.2 V
0V
0V
3.1 V
0V
0V
0V
3.2 V
3.2 V
0V
0V
0V
0V
3.2 V
0V
0V
0V
3.2 V
0V
3.2 V
3.2 V
3.2 V
2V
1.8 V
2.2 V
1.5 V
0.7 V
0V
0V
0V
0V
3.2 V
3.2 V
0V
VOLTAGE
VOLTAGE
1.6 V
1.6 V
1.6 V
5V
5V
0V
0V
1.6 V
2.5 V
2.5 V
0V
2.5 V
2.5 V
2.4 V
2.5 V
1.6 V
1.6 V
1.6 V
1.2 V
1.2 V
1.6 V
1.6 V
1.6 V
0V
3.2 V
3.2 V
1.6 V
1.6 V
0V
1.6 V
2.5 V
2.5 V
0V
2.5 V
2.5 V
1.6 V
1.6 V
5V
5V
1.6 V
5V
0.9 V
IC1802
IC1801
PIN
NO.
1
2
3
4
5
VOLTAGE
VOLTAGE
0V
5V
3.2 V
3.1 V
0V
PIN
NO.
1
2
3
VOLTAGE
0V
2.6 V
3.2 V
MD-E9000W
NOTES ON SCHEMATIC DIAGRAM
• Resistor:
To differentiate the units of resistors, such symbol as K and
M are used: the symbol K means 1000 ohm and the symbol
M means 1000 kohm and the resistor without any symbol is
ohm-type resistor. Besides, the one with “Fusible” is a fuse
type.
• Capacitor:
To indicate the unit of capacitor, a symbol P is used: this
symbol P means pico-farad and the unit of the capacitor
without such a symbol is microfarad. As to electrolytic
capacitor, the expression “capacitance/withstand voltage”
is used.
(CH), (TH), (RH), (UJ): Temperature compensation
(ML): Mylar type
(P.P.): Polypropylene type
• Schematic diagram and Wiring Side of P.W.Board for this
model are subject to change for improvement without prior
notice.
REF. NO
POSITION
REF. NO
ON—OFF
SW715
CD OPEN/CLOSE
9 kHz/50 kHz—
10 kHz/100 kHz
SW716
ON/STAND-BY
ON—OFF
SW717
MD EJECT
ON—OFF
DESCRIPTION
SW4
PICKUP IN
SW441
SPAN SELECTOR
• The indicated voltage in each section is the one measured
by Digital Multimeter between such a section and the chassis with no signal given.
1. In the tuner section,
indicates AM
indicates FM stereo
2. In the main section, a tape is being played back.
3. In the deck section, a tape is being played back.
( ) indicates the record state.
4. In the power section, a tape is being played back.
5. In the CD section, the CD is stopped.
• Parts marked with “ 1 ” (
) are important for
maintaining the safety of the set. Be sure to replace these
parts with specified ones for maintaining the safety and
performance of the set.
POSITION
DESCRIPTION
ON—OFF
SW701
VOLUME DOWN
ON—OFF
SW718
LP4
ON—OFF
SW702
VOLUME UP
ON—OFF
SW719
LP2
ON—OFF
SW703
CD PLAY/PAUSE
ON—OFF
SW720
SP
ON—OFF
SW704
CD STOP
ON—OFF
SW721
NORMAL
ON—OFF
ON—OFF
SW705
FF/SKIP UP/PRESET UP
ON—OFF
SW722
HIGH
SW706
REW/SKIP DOWN/PRESET DOWN
ON—OFF
SW723
MD REC
ON—OFF
SW707
MD STOP
ON—OFF
SW724
OPEN/CLOSE
ON—OFF
SW708
MD PLAY/PAUSE
ON—OFF
SW801
VOLTAGE SELECTOR
SW709
MEMORY/ENTER
ON—OFF
SW710
DISPLAY (DEMO)
ON—OFF
SW1930
WRITE PRO
ON—OFF
SW711
X-BASS
ON—OFF
SW1932
LOADING
ON—OFF
SW712
EQUALIZER
ON—OFF
SW1933
RECORD
ON—OFF
SW713
AUX
ON—OFF
SW1934
PLAY
ON—OFF
SW714
TUNER (BAND)
ON—OFF
SW1936
LEAD IN
ON—OFF
110 V—127 V—
220 V—230-240 V
TYPES OF TRANSISTOR AND LED
TOP VIEW
FRONT
VIEW
5
B
(3)
TOP
VIEW
4
3
1:Cathode
2:Cathode
3:Anode
4:No Contact
5:Anode
C
(2)
E
(1)
E C B
(S)(G)(D)
(1)(2)(3)
1
FRONT
VIEW
2
B C E
KTA1266 GR
KTA1271 Y
KTC3194 Y
KTC3199 GR
KTC3203 Y
KRC102 M
KRC107 M
KRC111 M
TOP VIEW
2SD601 AR
UN2214
SBE803
C
TOP VIEW
AC
DS1N404S
AC
TS6B04GM
– 61 –
FRONT
VIEW
FRONT
VIEW
FRONT
VIEW
DS1SS133
KTC2026
E
B
2SB1205
4204SRT7
LNG901CF
MD-E9000W
WAVEFORMS OF CD CIRCUIT
Stopped
CH1=500 mV
DC 10:1
CH3=500 mV
DC 10:1
T
1
IC1 21
IC1 20
1999/04/07 09:51:15
500 ms/div
(500 ms/div)
NORM: 20 kS/s
CH2=500 mV
DC 10:1
FDO
T
1
TDO
2
T
Stopped
CH1=200 mV
DC 10:1
500 ms/div
(500 ms/div)
NORM: 20 kS/s
3
FDO
1
IC1 21
2
6
IC1 22
1
SPDO
CH1
v/DIV
500 mV
=Filter=
Smoothing : ON
BW : FULL
=Offset=
CH1 :
0.000 V
CH2 :
0.0 V
CH3 :
0.000 V
CH4 :
0.00 V
Stopped
CH1=500 mV
DC 10:1
CH2=10 V
DC 10:1
=Record Length=
Main :
100 K
Zoom :
2K
CH3=1 V
DC 10:1
=Filter=
Smoothing : ON
BW : FULL
=Trigger=
Mode : AUTO
Type : EDGE CH1
Delay :
0.0 ns
Hold off :
0.2 µs
Stopped
CH1=500 mV
DC 10:1
500 ms/div
(500 ms/div)
NORM: 20 kS/s
=Record Length=
Main :
100 K
Zoom :
2K
CH3=1 V
DC 10:1
=Trigger=
Mode : NORMAL
Type : EDGE CH2
Delay :
2.924 ms
Hold off :
0.2 µs
1999/04/05 17:33:17
CH4=1 V
500 ms/div
(500 ms/div)
DC 10:1
NORM: 20 kS/s
PDO1
1
IC1 21
3
IC1 67
7
FDO
1
T
2
IC1 73
PDO2
IC1 74
T
TE
IC1 15
3
4
DRF
8
4
=Offset=
CH1 :
0.000 V
CH2 :
0.000 V
CH3 :
0.00 V
CH4 :
0.00 V
3
CH Position To
-3 div
-1 div
0 div
+1 div
+3 div
=Filter=
=Offset=
=Record Length=
Smoothing : ON CH1 :
0.000 V
Main :
100 K
BW : FULL
CH2 :
0.0 V
Zoom :
2K
CH3 :
0.00 V
CH4 :
0.00 V
1
CH2
Position
0.20 div
IC1 21
FDO
1
CH1
v/DIV
500 mV
=Trigger=
Mode : AUTO
Type : EDGE CH1
Delay :
0.0 ns
Hold off :
0.2 µs
=Filter=
Smoothing : ON
BW : FULL
Stopped
CH1=2 V
DC 10:1
=Offset=
CH1 :
0.000 V
CH2 :
0.0 V
CH3 :
0.00 V
CH4 :
0.00 V
=Record Length=
Main :
100 K
Zoom :
2K
T
=Trigger=
Mode : AUTO
Type : EDGE CH2
Delay :
0.0 ns
Hold off :
0.2 µs
1999/04/07 09:25:28
500 ns/div
(500 ns/div)
NORM: 200 MS/s
T
5
9
IC1 4
IC1 39
Vp-p=1.0 V~1.3 V
0.5 mV/div,0.5 µsec/div
Stopped
CH1=10 V
DC 10:1
1
DOUT
=Filter=
Smoothing : ON
BW : FULL
=Offset=
CH1 :
0.00 V
CH2 :
0.00 V
CH3 :
0.00 V
CH4 :
0.00V
=Record Length=
Main :
1K
Zoom :
100
=Trigger=
Mode : NORMAL
Type : EDGE CH1
Delay :
2.887 ms
Hold off :
0.2 µs
T
CH2=1 V
DC 10:1
Stopped
CH1=2 V
DC 10:1
100 ms/div
(100 ms/div)
NORM: 100 kS/s
10
T
CH2=2 V
DC 10:1
CH3=2 V
DC 10:1
1999/04/05 20:50:17
5 µs/div
(5 µs/div)
NORM: 100 kS/s
IC1 58
TE
4
IC1 15
2
1
LRSY
11
IC1 59
2
3
IC1 67
T
1
DATACK
DRF
12
IC1 60
T
3
DATA
=Filter=
Smoothing : ON
BW : FULL
=Offset=
CH1 :
0.0 V
CH2 :
0.00 V
CH3 :
0.00 V
CH4 :
0.00 V
=Record Length=
Main :
100 K
Zoom :
2K
=Trigger=
Mode : NORMAL
Type : EDGE CH1
Delay :
2.924 ms
Hold off :
0.2 µs
=Filter=
Smoothing : ON
BW : FULL
– 62 –
CH3
v/DIV
2V
=Offset=
CH1 :
0.00 V
CH2 :
0.00 V
CH3 :
0.00 V
CH4 :
0.00 V
=Record Length=
Main :
5K
Zoom : 100
=Trigger=
Mode : AUTO
Type : EDGE CH3
Delay :
0.0 ns
Hold off :
0.2 µs
MD-E9000W
WAVEFORMS OF MD CIRCUIT
TOC READ (Low reflection disc)
POWER ON
1
4
TP1122
(F+)
6
TP1207
(TEMON)
TP1518
(RESET)
2
TP1800
(3.2V)
10
TP1603
(SP+)
3
TP1511
(PCONT0)
11
TP1602
(SP-)
TOC READ (High reflection disc)
TOC READ (Low reflection disc)
4
TP1122
(F+)
4
TP1122
(F+)
5
TP1212
(FEMON)
6
TP1207
(TEMON)
6
TP1207
(TEMON)
10
TP1603
(SP+)
TP1451
7 (ADJUST)
11
TP1602
(SP-)
STOP → PLAY
TOC READ (High reflection disc)
4
TP1122
(F+)
4
TP1122
(F+)
5
TP1212
(FEMON)
5
TP1212
(FEMON)
6
TP1207
(TEMON)
12 (DSENSE)
TP1422
TP1451
7 (ADJUST)
13
TP1420
(FOK)
PLAY (Low reflection disc)
TOC READ (Low reflection disc)
4
TP1122
(F+)
6
TP1207
(TEMON)
8
TP1601
(SLD+)
9
TP1600
(SLD-)
14
TP1201
(EFMMON)
PLAY (Low reflection disc)
TOC READ (High reflection disc)
4
TP1122
(F+)
6
TP1207
(TEMON)
8
TP1601
(SLD+)
9
TP1600
(SLD-)
15
– 63 –
TP1135
(ADIPO)
MD-E9000W
REC
PLAY (Low reflection disc)
14
TP1201
(EFMMON)
6
TP1207
(TEMON)
16
TP1121
(T+)
17
TP1421
(CIN)
28 (RECTP1300
HEAD)
29
TP1302
(EFMO)
30
TP1105
(LDVAL)
31
TP1113
(R/P)
PLAY (High reflection disc)
14
TP1201
(EFMMON)
6
TP1207
(TEMON)
16
TP1121
(T+)
17
TP1421
(CIN)
Analog REC
18
IC1201 72
(DFCK)
32
IC1201 73
(ADDATA)
20
IC1201 71
(BCLK)
21
IC1201 70
(LRCK)
PLAY
18
IC1201 72
(DFCK)
19
IC1201 74
(DADATA)
20
IC1201 71
(BCLK)
21
IC1201 70
(LRCK)
Digital REC
33
TP1515
(DIGIN)
Double speed REC
PLAY
22
IC1202 3
(WE)
34
TP1530
(CDLRCK)
23
IC1202 17
(CAS)
35
TP1531
(CDBCK)
24
IC1202 1
(I/01)
36
TP1533
(CDDATA)
25
IC1202 6
(A0)
PLAY (1 kHz 0 dB)
26
TP1524
(L OUT)
27
TP1526
(R OUT)
– 64 –
MD-E9000W
TROUBLESHOOTING
CD SECTION
When the CD does not function
When the CD section does not operate when the objective lens of the optical pickup is dirty, this section may not operate. Clean
the objective lens, and check the playback operation. When this section does not operate even after the above step is taken, check
the following items.
Remove the cabinet and follow the trouble shooting instructions.
"Track skipping and/or no TOC (Table Of Contents) may be caused by build up of dust other foreign matter on the laser pickup
lens. Before attempting any adjustment make certain that the lens is clean. If not, clean it as mentioned below."
Turn off the power, and wipe the lens softly using a cleaning paper moistened with commercially available cleaning solution so
as not to damage it. Be careful not to touch the lens with bare hands.
Dust gradually accumulates on the objective lens during use, and it may degrade performance. To avoid this problem, use a
cleaning disc designed for CD optical pickup lenses.
1.
CD optical pickup Lens cleaner disc
Parts code
UDSKA0004AFZZ
HOW TO USE
1. Using the brush in the cleaner cap, apply 1 or 2 drops of the cleaning fluid to the
brush on the CD cleaner disc which has the mark next to it.
2. Place the CD cleaner disc onto the CD disc tray with the brush side down,then
press the play button.
3. You will hear music for about 20 seconds and the CD player will automatically stop.
If it continuous to turn, press the stop button.
Cleaning fluid
CAUTION
The CD lens cleaner should be effective for 30-50 operations, however if the
brushes become worn out earlier then please the cleaner disc.
If the CD cleaner brushes become very wet then wipe off any excess fluid with a soft
cloth.
Do not drink the cleaner fluid or allow it to come in contact with the eyes. In the
event of this happening then drink and / or rinse with clean water and seek medical
advice.
The CD cleaner disc must not be used on car CD players or on computer CD-ROM
drives.
All rights reserved. Unauthorized duplicating, broadcasting and renting this product
is prohibited by law.
Cleaner disc
When a CD cannot be played
1. "E-CD01" is displayed.
(1) Check the power to IC1 (LC78645NE), the presence of the clock signal (33.8688 MHz) and the status of the RESET terminal
(pin 66 on IC1).
(2) Does the pickup move to the PICKUP-IN Switch (SW4) position?
If (1) and (2) are OK, check the system microcomputer (especially the communication line with the DSP).
2. Pressing the CD operation key is accepted, but playback does not occur.
(1) Focus-HF system check
(2) Tracking system check
(3) Spin system check
(4) PLL system check
(5) Others
– 65 –
MD-E9000W
(1) Focus-HF system check.
Stopped
CH1=500 mV
DC 10:1
Although a CD is inserted and the cover is closed, "NO
DISC" is displayed.
CH3=500 mV
DC 10:1
T
500 ms/div
(500 ms/div)
NORM: 20 kS/s
FDO
1
Press the OPEN/CLOSE switch (SW715) without inserting a
disc, and try starting the playback operation.
TDO
3
CH1
v/DIV
500 mV
=Filter=
Smoothing : ON
BW : FULL
=Offset=
CH1 :
0.000 V
CH2 :
0.0 V
CH3 :
0.000 V
CH4 :
0.00 V
=Record Length=
Main :
100 K
Zoom :
2K
=Trigger=
Mode : AUTO
Type : EDGE CH1
Delay :
0.0 ns
Hold off :
0.2 µs
Figure 66-1
1. Does the pickup move to the PICKUP-IN Switch (SW4)
position ?
No
Sled motor (M1).
Yes
No
2. Does the focus (lens) move up and down ?
(Waveform drawing Figure 66-1.)
Check the focus peripheral circuit.
Yes
No
3. Is the laser lit ?
Check the laser diode driver Q1 peripheral circuit.
Yes
No
4. Is the turntable rotating ?
Spindle motor (M2).
When a disc is loaded, start playback operation.
1. Is focus servo activated ? (Waveform drawing Figure 66-2.)
No
Pins 3~8 on IC1
Check the laser diode driver Q1 peripheral circuit. (IC pin 13)
Yes
No
2. Does DRF change from "L" to "H" ?
Is the disc rotating ?
No
3. Is the HF waveform normal ?
(Waveform drawing Figure 66-3.)
CH2=10 V
DC 10:1
CH3=1 V
DC 10:1
Check the spin system.
If the disc is spinning and a HF waveform is generated,
DRF will go H.
Yes
Stopped
CH1=500 mV
DC 10:1
No
If the level is not normal, check around pins 1~4.
500 ms/div
(500 ms/div)
NORM: 20 kS/s
FDO
1
T
2
DRF
TE
3
CH Position To
-3 div
-1 div
0 div
+1 div
+3 div
=Filter=
=Offset=
=Record Length=
Smoothing : ON CH1 :
0.000 V
Main :
100 K
BW : FULL
CH2 :
0.0 V
Zoom :
2K
CH3 :
0.00 V
CH4 :
0.00 V
CH2
Position
0.20 div
=Trigger=
Mode : AUTO
Type : EDGE CH1
Delay :
0.0 ns
Hold off :
0.2 µs
Vp-p=1.0 V~1.3 V
0.5 mV/div,0.5 µsec/div
Figure 66-2
Figure 66-3
– 66 –
MD-E9000W
(2) Tracking system check.
Check the TE waveform at pin 15 on IC1.
If the waveform shown in Figure 67-1 appears and soon after
NO DISC appears ?
Yes
The tracking servo is not activated.
Check the peripheral circuits at pins 9 and 10 on IC1, and circuit
around CNP2.
Yes
A normal jump operation cannot be completed or the beginning of
the track cannot be found.
Check the around pin 20 on IC1.
No
"Initialization" is possible, but play is not possible ?
No
"Initialization" is not possible.
Data cannot be read. Check the VCO-PLL system.
T
Stopped
CH1=10 V
DC 10:1
CH2=1 V
DC 10:1
100 ms/div
(100 ms/div)
NORM: 100 kS/s
TE
2
T
1
DRF
=Filter=
Smoothing : ON
BW : FULL
=Offset=
CH1 :
0.0 V
CH2 :
0.00 V
CH3 :
0.00 V
CH4 :
0.00 V
=Record Length=
Main :
100 K
Zoom :
2K
=Trigger=
Mode : NORMAL
Type : EDGE CH1
Delay :
2.924 ms
Hold off :
0.2 µs
Figure 67-1
(3) Spin system check.
Press the OPEN/CLOSE switch without inserting a disc, and
then try starting the play operation.
1. The turntable rotates a little ?
(Waveform drawing Figure 67-2.)
The spin driver circuit is OK.
Yes
No
2. The turntable doesn't rotate.
Check around pin 22 on IC1, pins 20 and 21 on IC2, and around
CNP4.
Stopped
CH1=200 mV
DC 10:1
T
1999/04/07 09:51:15
500 ms/div
(500 ms/div)
NORM: 20 kS/s
CH2=500 mV
DC 10:1
T
FDO
2
1
SPDO
=Filter=
Smoothing : ON
BW : FULL
=Offset=
CH1 :
0.000 V
CH2 :
0.000 V
CH3 :
0.00 V
CH4 :
0.00 V
=Record Length=
Main :
100 K
Zoom :
2K
Figure 67-2
– 67 –
=Trigger=
Mode : NORMAL
Type : EDGE CH2
Delay :
2.924 ms
Hold off :
0.2 µs
MD-E9000W
(4) PLL system check.
Stopped
CH1=500 mV
DC 10:1
CH3=1 V
DC 10:1
1999/04/05 17:33:17
CH4=1 V
500 ms/div
(500 ms/div)
DC 10:1
NORM: 20 kS/s
PDO1
When a disc is loaded, start play operation.
3
4
The HF waveform is normal, but the TOC data cannot be
read.
PDO2
T
FDO
1
CH1
v/DIV
500 mV
Check the PDO waveform (Figure 68-1).
=Filter=
Smoothing : ON
BW : FULL
=Offset=
CH1 :
0.000 V
CH2 :
0.0 V
CH3 :
0.00 V
CH4 :
0.00 V
=Record Length=
Main :
100 K
Zoom :
2K
=Trigger=
Mode : AUTO
Type : EDGE CH2
Delay :
0.0 ns
Hold off :
0.2 µs
Check around pins 73~78 on IC1.
Figure 68-1
(5) Others.
The HF waveform is normal and the time is displayed
normally, but no sound is produced. Or the sound
has dropouts.
No
Is pin 52 (C2F) on IC1 "L" ?
There are too many error flags on a damaged disc which
makes error correction impossible.
Yes
1. When playing at normal speed
Check the peripheral circuit at pin 39 (DOUT) on IC1 and
the waveform (Figure 68-2).
Check again using a known good disc.
Stopped
CH1=2 V
DC 10:1
T
1999/04/07 09:25:28
500 ns/div
(500 ns/div)
NORM: 200 MS/s
If OK, Check the MD unit.
T
1
DOUT
=Filter=
Smoothing : ON
BW : FULL
=Offset=
CH1 :
0.00 V
CH2 :
0.00 V
CH3 :
0.00 V
CH4 :
0.00 V
=Record Length=
Main :
1K
Zoom :
100
Figure 68-2
– 68 –
=Trigger=
Mode : NORMAL
Type : EDGE CH1
Delay :
2.887 ms
Hold off :
0.2 µs
MD-E9000W
MD SECTION
Preparations
If dusts and foreign materials are accumulated on the pickup lens, playback sounds can be skipped or the TOC (Table of Contents)
can't be displayed. Clean the object lens and check the playback. When lens are dirty, do the following.
Turn off the power and wipe lens softly with a cleaning paper and a little cleaning solution so as not to damage it.
Do not touch lens with bare hands.
If the MD unit doesn't work
If the MD unit doesn't start after cleaning the pickup objects lens, check it as follows.
Is disc loading normal ?
No
Check as stated in item "disc Loading is not normal".
Yes
Is playback state set when the MD PLAY/PAUSE button is
pressed ?
No
Check as stated in item "Playback state cannot be set".
Yes
Is audio output normal ?
No
Check as stated in item "Audio playback circuit".
Yes
Is record and playback operations normal ?
No
Check as stated in item "Record and playback operations".
• Playback state cannot be set.
Is it impossible to set both high reflection disc and low
reflection disc to playback state ?
Check as stated in item "TEST mode check".
Yes
No
No
Only the high reflection disc can be played back.
Only the low reflection disc can be played back.
Yes
Yes
Is 2.7 V to 2.8 V applied to the pin 93 of IC1401 with the high
reflection disc inserted ?
Is 2.5 V to 2.6 V (record enabled) or 2.7 V to 2.8 V (record disabled)
applied to the pin 93 of IC1401 with the low reflection disc inserted ?
Yes
No
Yes
After re adjustment check as stated in item "Normal playback".
No
Check loading motor PWB, and CW1931 and SW1932.
• Audio playback circuit
When sound is not output although the playback time display advances during playback in the normal mode.
Is audio output waveform observed on the pins 24 and 26 of
IC1701 ?
No
Check the pins 70, 71, 72 and 74 of IC1201, and the pins 12, 16,
17, and 19 of IC1701.
Yes
Is audio output waveform observed on the pins 15 and 17 of
CN1501 ?
No
Yes
Check the main PWB.
– 69 –
Check connection between IC1701 and CN1501.
MD-E9000W
• Disc loading is not normal.
Is disc loaded when it is inserted ?
Yes
No
Is +5 V to +6 V applied to the pins 6 and 7 of CN1501 ?
No
Check the power PWB, main PWB, and
CN1501.
Yes
Is pulse input in the pin 22 of CN1501 when reset power
supply is turned on ?
Check the main PWB and CN1501.
No
Yes
Is +3.2 V applied to the pin 62 of IC1401 ?
No
Check the periphery of Q1804 and
IC1401.
Yes
Is pulse of 8.4672 MHz applied to the pin 15 of IC1401 ?
Check IC1201.
No
Yes
Check IC1401.
Is pulse output from the pin 34 of IC1401 ?
No
Yes
Check CN1401, CW1931 and SW1932.
Is the pin 9 of CN1401 set to H state ?
No
Yes
Is change observed on the pin 19 or 20 of IC1601 ?
Check IC1401.
No
No
Yes
Is change observed on the pin 12 or 13 of IC1601 ?
Check CN1401, CW1931 and IC1601.
No
Yes
Check M903.
Yes
Is ejection performed when the MD eject button is pressed ?
Yes
Disc retracts soon after completion of disc ejection.
Yes
Check SW1932.
– 70 –
MD-E9000W
• Normal playback
When it has been confirmed that EEPROM value is normal in the TEST mode
Is initialization performed normally when high reflection disc is
played back ?
Does the playback time display advance ?
Yes
No
No
Check IC1201.
Does disc rotate normally?
No
Yes
Is lead-in switch turned on in the TEST mode when the pickup is on
the innermost periphery ? (Is the pin 63 of IC1401 on L level ?)
No
Check SW1936, soldered joints of mechanism switch PWB, and
periphery of pin 3 of CW1931.
Check the position as stated in item "Lead-in switch position
measurement mode".
• Record and playback operations
Insert the low reflection disc, and after verifying the audio output in the normal mode playback set the record/playback TEST mode.
Is recording performed after displaying TEST REC ?
Check whether the disc is record-prohibited.
No
Yes
Is RF waveform output to the pin 1 of IC1201 or TP1201
when playback is performed after recording ?
Yes
No
Does the level of pins 3, 26 and 39 of IC1401 in record state
differ from that in playback state ?
No
Check periphery of IC1401.
Yes
Does RF pattern appear on the pin 50 of IC1201 during
recording ?
Check for IC1201 soldering failure.
No
Yes
Check IC1300 to 1302 and periphery of CN1300.
Is output waveform given to the pins 19 and 21 of CN1501 in
AUX input record in the Normal mode ?
Check the main PWB.
No
Yes
Is input waveform given to the pins 3 and 5 of IC1701 ?
Check connection between IC1701 and CN1501.
No
Yes
Check the periphery of IC1701, and the pins 70, 71, 72, and
73 of IC1201.
– 71 –
MD-E9000W
Check in the test mode
• The spindle motor does not rotate.
Is waveform output from the pins 25 of IC1201 in the step 4 of
AUTO auxiliary adjustment mode of TEST mode ?
No
Check the pins 25 of IC1201, soldering of peripheral circuit, and
parts.
Yes
Is waveform output from the pins 9 and 10 of IC1601 and the
pins 5 and 6 of CN1401 ?
No
Check IC1601, CN1401, and soldering of mechanism switch PWB.
Yes
Replace with a spindle motor (complete).
• The sled motor does not rotate.
Do the pins 23 of IC1201 change with the
/
button ?
No
Check the waveform of pins 23 of IC1201, peripheral parts, and
soldering.
Yes
Do the pins 14 and 15 of IC1601 and the pins 1 and 2 of CN1401
change with the
/
button ?
No
Check IC1601 and soldering of CN1401.
Yes
Does voltage of the + and - terminals on the sled motor
change with the
/
button ?
No
Yes
Replace the sled motor.
– 72 –
Check the soldering connected to the sled motor and for
disconnection.
MD-E9000W
FUNCTION TABLE OF IC
IC1 VHiLC78645NE1: CD Servo (LC78645NE) (1/2)
Pin No.
Terminal Name Input/Output Setting in Reset
1
SLCO
2
Function
Output
—
Control output.
SLCIST
Input
—
3
EFMIN
Input
—
4
RF
Output
—
5
RFVDD
Input
—
RF power terminal.
6
RFVSS
—
—
RF earth terminal. To be connected to 0 V.
7
FIN1
Input
—
A+C signal input terminal.
8
FIN2
Input
—
B+D signal input terminal.
For slice level
control.
Resistor connection terminal for SLCO output current setting.
RF signal input terminal.
RF signal monitor terminal.
9
TIN1
Input
—
E signal input terminal.
10
TIN2
Input
—
F signal input terminal.
11
VREF
Output
RFVDD/2
12
REFI
Input
—
13*
FE
Output
ZHI
14
TEC
Output
—
15*
TE
Output
ZHI
TE signal monitor terminal.
16*
RFMON
Output
ZHI
RF internal signal monitor terminal.
17
JITTC
—
—
Capacitor connection terminal for jitter detection.
18
ADAVDD
Input
—
Power terminal for servo A/D, D/A.
19
ADAVSS
—
—
Earth terminal for serve A/D, D/A. To be connected to 0 V.
20
TDO
Output
ADAVDD/2
Output terminal for tracking control. D/A output.
21
FDO
Output
ADAVDD/2
Output terminal for focus control. D/A output.
22
SPDO
Output
ADAVDD/2
Output terminal for spindle control. D/A output.
23
SLDO
Output
ADAVDD/2
Output terminal for sled control. D/A output.
24*
GPDAC
Output
ADAVDD/2
25
CONT4
Input/Output
Input Mode
26
CONT5
Input/Output
Input Mode
27*
SBCK/CONT6
Input/Output
Input Mode
Servo D/A general-purpose output terminal.
Controlled by commands from the
General-purpose I/O terminal 4.
microcomputer. When not used, set
General-purpose I/O terminal 5.
them as input terminals and connect
General-purpose I/O terminal 6 or
to 0 V, or set them as output
Subcode reading clock input terminal. terminals and leave open.
28
SBCK/FG
Input
—
29*
DEFECT
Output
L
Defect terminal.
30*
V/*P
Output
H
Auto switching monitor output terminal for rough servo phase control.
“H”: rough servo, “L”: phase servo.
31*
FSEQ
Output
L
Sync signal detection output terminal.
The status changes to “H” when the sync signal detected in EFM and the
sync signal of internal generation are identified.
32*
MONI1
Output
L
Internal signal monitor terminal 1.
33*
MONI2
Output
L
Internal signal monitor terminal 2.
34*
MONI3
Output
L
Internal signal monitor terminal 3.
35*
MONI4
Output
L
Internal signal monitor terminal 4.
36*
MONI5
Output
L
Internal signal monitor terminal 5.
37
VSS
—
—
Digital system earth terminal. To be connected to 0 V.
38
VDD
Input
—
Digital system power terminal.
39
DOUT
Output
L
Digital OUT output terminal. (EIAJ format)
40
TEST
Input
L
Input terminal for test. To be connected to 0 V.
41
LVDD
Input
—
42*
LCHO
Output
LVDD/2
43
LVSS
—
—
VREF voltage output terminal.
Reference supply setting terminal.
FE signal monitor terminal.
LPF capacitor connection terminal for TE signal.
Subcode reading clock input terminal/FG signal input terminal/external
emphasis setting terminal. Terminal functions are set by commands.
When not used, connect to 0 V.
Left channel
D/A converter
Power supply for Left channel.
Left channel output.
GND for Left channel. Must be connected to 0 V.
In this unit, the terminal with asterisk mark (*) is (open) terminal which is not connected to the outside.
– 73 –
MD-E9000W
IC1 VHiLC78645NE1: CD Servo (LC78645NE) (2/2)
Pin No.
Terminal Name Input/Output Setting in Reset
44
RVSS
—
—
45*
RCHO
Output
LVDD /2
46
RVDD
Input
—
47
XVDD
Input
—
48
XOUT
49
XIN
50
FSX/16MIN
51
XVSS
52*
Function
Right channel
D/A converter
GND for Right channel. Must be connected to 0 V.
Right channel output.
Power supply for Right channel.
Power supply for crystal oscillator.
Crystal
Oscillator
Output
—
Input
—
Connected for the 33.8688 MHz crystal oscillator cement.
Input/Output
Input
—
—
C2F
Output
H
C2 FLAG monitor port.
53*
EFLG
Output
L
C1, C2 error corrected monitor port.
54*
16MOUT
Output
Clock
55
ASLRCK
Input
—
56
ASDACK
Input
—
57
ASDFIN
Input
—
58
LRCK
Output
L
59
BCK
Output
L
60
DATA
Output
L
61
CE
Input
—
62
CL
Input
—
Microcomputer
63
DI
Input
—
Interface
64
DO
Output
(H)
65
*WRQ
Output
H
Interruption signal output.
66
*RES
Input
—
Chip reset signal input port.
This port must be set LOW after first applied power on.
67
DRF
Output
L
Focus detection output port.
68
VDD5
Input
—
Power supply for Microprocessor.
69
VSS
—
—
70
CONT3
Input/Output
Input
71
CONT2
Input/Output
Input
72
CONT1
Input/Output
Input
73
PDO1
Output
—
74
PDO2
Output
Input
75
VVSS
—
—
76
PCKIST
Input
—
77
VVDD
Input
—
Power supply for internal VCO.
78
FR
Input
—
VCO frequency range adjustment port.
79
LDS
Input
—
LASER power detected signal input port.
80
LDD
Output
—
LASER power control signal output port.
7.35 kHz Synchronization signal monitor port.
or Clock input port for Digital filter & D/A
Crystal
Oscillator
GND for crystal oscillator. Must be connected to 0 V.
16.9344 MHz output port.
Word clock input port.
(If this port does not use, must be connect to 0 V.)
Anti-shock
Bit clock input port.
(If this port does not use, must be connect to 0 V.)
Left/Right channel data input port.
(If this port does not use, must be connect to 0 V.)
Word clock output port.
Digital data
Bit clock output port.
Left/Right channel data output port.
Chip enable signal input port.
Data transfer clock input port.
Data input port.
Data output port. (N-ch. open drain output.)
GND for digital circuit. Must be connected to 0 V.
General purpose port 1. Controlled with serial data command from microcomputer. When not used, General purpose input/
General purpose port 2. output terminal 7. Set it as the input terminal and open
it by connecting to 0 V, or set it as the output terminal
General purpose port 3. and open it.
Internal VCO control phase comparator output port 1.
Internal VCO control phase comparator output port 2.
PLL
GND for internal VCO. Must be connected to 0 V.
PDO output current adjustment resistor connection port.
In this unit, the terminal with asterisk mark (*) is (open) terminal which is not connected to the outside.
Be sure to supply the same potential to each power terminal. (VVDD, ADAVDD, VDD, LVDD, RVDD, XVDD)
Terminal witch is controlled by the power terminal (VDD5 V) for a microcomputer interface :
CE (61 pin), CL (62 pin), DI (63 pin), DO (64 pin), WRQ (65 pin), RES (66 pin), DRF (67 pin)
– 74 –
MD-E9000W
LDD
LDS
FR
VVDD
PCKIST
VVSS
PD02
PD01
CONT1
CONT2
CONT3
VSS
VDD5
DRF
*RES
*WRQ
DO
DI
CL
CE
IC1 VHiLC78645NE1: CD Servo (LC78645NE)
80
79
78
77
76
75 74
73
72 71
70
69 68
67
66 65
64
63 62
61
SLCO
1
60 DATA
SLCIST
2
59 BCK
EFMIN
3
58 LRCK
RF
4
57 ASDFIN
RFVDD
5
56 ASDACK
RFVSS
6
55 ASLRCK
FIN1
7
54 16MOUT
FIN2
8
53 EFLG
TIN1
9
52 C2F
TIN2 10
51 XVSS
LC78645NE
VREF 11
50 FSX/16MIN
REFI 12
49 XIN
35 36
37
FIN1
+
–
FIN2
+
–
TIN1
+
–
TIN2
MIX
MONI4
(3.3V)VSS
40
RF
EQ
RFVDD
RFVSS
PH
+
–
LPF
TBAL
+
–
AGC
38 39
TEST
34
DOUT
32 33
VDD
31
MONI5
29 30
MONI3
28
TEC
26 27
MONI2
25
TE
24
V/*P
23
FE
22
CONT5
FDO
21
MONI1
41 LVDD
FSEQ
42 LCHO
TDO 20
DEFECT
43 LVSS
ADAVSS 19
SBCK/FG
44 RVSS
ADAVDD 18
SBCK/CONT6
45 RCH0
JITTC 17
CONT4
46 RVDD
RFMON 16
GPDAC
47 XVDD
TE 15
SLDO
48 XOUT
TEC 14
SPDO
FE 13
+
BH
LPF
SW
+
–
LPF
+
–
+
–
–
TBAL
LEVEL SET
MONI
CONT
–
+
REFI
RFMON
RAM
VREF
DETECT
TRACK JUMP
ADIN
ADAVDD
ADAVSS
SERVO PROCESSOR
A/D
LDS
JITTER
DETECT
JITTC
SLCO
EFMIN
SLCIST
SW
DRF
XIN
XOUT
16MOUT
XVDD
XVSS
*RES
*WRQ
CL
CE
DI
DO
VDD5V
CONT1, 2, 3
CONT4, 5
SBCK/CONT6
VDD
RUPTURE DEFECT
PLL
VCEC
FRAME SYNC
DETECT,PROTECT INSERT,
EFN DECODE
CLV,CAV
CONTROL
SBCK/FG
FD0
TD0
SLD0
SPD0
GPDAC
D/A
S/H
SLICE LEVEL
CONTROL
PCK
PDO1
PDO2
FR
PCKIST
VVDD
VVSS
LDD
APC
AUTO ADJUST
DRF
FSEQ
V/*P
SUBCODE DECODE CRC
CLOCK
MONITOR SIGNAL SELECTOR
VDD
VSS
MONI1~5
GENERATOR
RAM
ERROR
COMMAND
CORRECTION
INTERFACE
AUDIO CD
FSK/16MIN
C2F
EFLG
AUDIO OUT
DOUT
8FS
DIGITAL FILTER
INTERPOLATION
MUTE
ATTENUATION
DEEMPHSIS
SERIAL
OUT
LRCK
BCK
DATA
1bit DAC
LPF
EXTERNAL
AUDIO IN
GENERAL-PURPOSE
PORTS
RVDD
RVSS
RCHO
LCHO
LVDD
LVSS
TEST
Figure 75 BLOCK DIAGRAM OF IC
– 75 –
ASLRCK
ASDQCK
ASDFIN
MD-E9000W
IC401 VHiLC75341/-1: Audio Processor (LC75341)
Pin No.
Terminal Name
Function
1
DI
Serial data and clock input terminal for control.
2
CE
Chip enable terminal.
When changing from "H" to "L", data is written in the internal latch and each analog switch is turned on.
Data transmission is enabled at "H" level.
3
VSS
Ground terminal.
4
LOUT
Bass band filter construction capacitor/resistor connection terminal and bass/treble output terminal.
5
LBASS
Bass band filter capacitor and resistor connection terminal.
6
LTRE
Treble band filter capacitor connection terminal.
7
LIN
L-CH signal input terminal.
8
LSEL0
Input selector output terminal.
9-12 (10*)
L4-L1
Input signal terminal.
13-16 (15*) R1-R4
Input signal terminal.
17
RSEL0
Input selector output terminal.
18
RIN
R-CH signal input terminal.
19
RTRE
Treble band filter capacitor connection terminal.
20
RBASS
Bass band filter capacitor and resistor connection terminal.
21
ROUT
Bass band filter capacitor/resistor connection terminal and bass/treble output terminal.
22
VREF
0.5 × VDD voltage generation section for analog ground. Connect a capacitor of 10 µF or more between
Vref and AVSS (VSS) as a countermeasure against the power supply ripple.
23
VDD
Power supply terminal.
24
CLK
Serial data and clock input terminal for control.
CLK
VDD
VREF
ROUT
RBASS
RTRE
RIN
RSELO
R4
R3
R2
R1
In this unit, the terminal with asterisk mark (*) is (open) terminal which is not connected to the outside.
24
23
22
21
20
19
18
17
16
15
14
13
LIN
LSEL0
L4
L3
L2
L1
LOUT
LTRE
8
7
6
5
4
L4 9
L3 10
L2 11
CONTROL
CIRCUIT
L1 12
LOGIC
CIRCUIT
R1 13
LVref
1 DI
24 CLK
CONTROL
CIRCUIT
R2 14
3 VSS
2 CE
CCB
INTERFACE
RVref
23 VDD
R3 15
R4 16
22 VREF
17
18
19
20
21
ROUT
12
LBASS
11
RBASS
10
LTRE
9
RTRE
8
LIN
7
RIN
6
LSELO
5
RSELO
4
LBASS
CE
3
VSS
2
LOUT
1
DI
LC75341
Figure 76 BLOCK DIAGRAM OF IC
– 76 –
MD-E9000W
IC701 RH-iX0395AWZZ: System Microcomputer (IX0395AW)
Port Name
Pin No.
1
P77
Terminal Name
P_DOWN
Remarks
Input/Output
Output
Power failure control.
2-4
AN6-AN4
KEY1-KEY3
Input
Key input.
5
AN3
INI
Input
Distination setting.
6
AN2
TUN SM
Input
7
P71
T-STBY
Output
Timer indicator.
8
P70
CD_RESET
Output
CD reset.
9
PB3
CD_WRQ
Input
CD sub-q transmission control.
10
PB2
CD_DRF
Input
CD focus on detection.
11
P57
CD_CE
Output
CD chip enable.
12
P56
CD_CL
Output
CD clock.
13
P55
CD_DI
Output
CD command output.
14
P54
CD_DO
Input
15
P53
MD_ST-ID
Output
16
P52
MD_SERCH
Output
17
P51
MD_PCONT
Input
18
P50
MD_RESET
Output
19
SRDY1
MD_DSTB
Input
MD strobe input.
20
SCLK1
MD_DSCK
Output
MD clock output.
21
SOUT1
MD_KDATA
Output
22
SIN1
MD_DATA
23
P63
P_MUTE
Output
System (Power IC) mute control.
24
P62
P_CONT
Output
Power IC control.
25*
P61
RDS_RDY
Input
RDS ready output.
26*
P60
RDS_RST
Output
27*
P47
RDS_DATA
28*
P46
RDS_CLK
29
INT1
P-IN
30*
P44
FAN_CONT
Output
Fan control.
31
P43
RLY_CONT
Output
AC relay out control.
32
INT2
RX-IN
Input
Remocon signal in.
33
P41
SPAN
Input
Span select input.
34
P40
No use
Input
Connect to ground.
35
RESET
RESET
Input
Reset input.
36
PB1
CD_OPEN-SW
Input
CD open sw detection.
37
PB0
CD_CLOSE-SW
Input
CD close sw detection.
38
XIN
XIN
Input
System clock input. (8.3886 MHz)
39
XOUT
XOUT
40
VSS
VSS
Input
Ground voltage.
41
P27
TUN_DO
Input
Tuner data input.
42
P26
T/V_CE
Output
43
P25
T/V_CL
Output
Tuner clock.
44
P24
T/V_DI
Output
Tuner command output.
45
P23
ILU_LED
Output
Illumination LED.
Input
Input
Output
Input
Output
Tuner signal meter input.
CD data input.
MD syncro start signal.
MD search signal output.
MD power lock output.
MD reset.
MD key data.
MD data input.
RDS RAM reset.
RDS data input.
RDS clock output. (Slave mode)
Power failure detection.
System clock output. (8.3886 MHz)
Tuner chip enable.
46*, 47* P22/DIG18, P21/DIG17
No use
Output
Open
48-54
DIG16-DIG10
DIG12-DIG6
Output
FL digit output.
55-60
D9-D4
DIG5-DIG0
Output
FL digit output.
61-64
S35-S32
SEG35-SEG32
Output
FL segment output.
Output
FL segment output.
Input
Power supply input.
Output
FL segment output.
65-90
SEG31-SEG6
SEG31-SEG6
91
VCC
VCC
92-97
SEG5-SEG0
SEG5-SEG0
98
VEE
VEE
99
AVSS
AVSS
Input
A/D ground.
100
VREF
VREF
Input
A/D voltage.
Input
Pull down power supply input.
In this unit, the terminal with asterisk mark (*) is (open) terminal which is not connected to the outside.
– 77 –
MD-E9000W
IC1101 VHiiR3R58M/-1: RF Signal Processor (IR3R58M)
Function
Pin No.
1
Terminal Name
RF1
RF signal input terminal 1. Input of RF signal output of pickup.
2
RF2
RF signal input terminal 2. Input of RF signal output of pickup.
3
RF3
RF signal input terminal 3. Input of RF signal output of pickup.
4
RF4
RF signal input terminal 4. Input of RF signal output of pickup.
5
REFI
Reference voltage amplifier input terminal.
6
REFO
Reference voltage amplifier output terminal.
7
AOUT
Output terminal 1 of signal amplifier for servo (focus servo system).
8
ASW
Output terminal 2 of signal amplifier for servo (focus servo system).
9
AIN
Reverse input terminal of signal amplifier for servo (focus servo system).
10
BIN
Reverse input terminal of signal amplifier for servo (focus servo system)
11
BSW
Output terminal 2 of signal amplifier for servo (focus servo system).
12
BOUT
Output terminal 1 of signal amplifier for servo (focus servo system).
13
EOUT
Output terminal 1 of signal amplifier for servo (tracking servo system).
14
ESW
Output terminal 2 of signal amplifier for servo (tracking servo system).
15
EIN
Reverse input terminal of signal amplifier for servo (tracking servo system).
16
FIN
Reverse input terminal of signal amplifier for servo (tracking servo system).
17
FSW
Output terminal 2 of signal amplifier for servo (tracking servo system).
18
FOUT
Output terminal 1 of signal amplifier for servo (tracking servo system).
19
EOUT
Output terminal 1 of signal amplifier for servo (tracking servo system).
20
BOUT
Output terminal 1 of signal amplifier for servo (focus servo system).
21
AOUT
Output terminal 1 of signal amplifier for servo (focus servo system).
22
TCGO
Group mode: Track cross detection signal amplifier output terminal.
23
TCGI
Group mode: Track cross detection signal amplifier input terminal.
24
RFADD
Resistance addition output terminal of RF1 - RF4.
25
DTEMP
Chip temperature detection terminal.
26
SGAIN
Switch section control terminal of amplifier for servo.
27
DISC
Pit mode, groove mode selecting control terminal.
28*
OPICPW
Power output terminal for OPIC.
29
VCC2
Power supply terminal of digital section and power section.
30*
WBO
Comparator output terminal for binary coded ADIP signal.
31
GND2
GND terminal of digital section and power section.
32
ADIPO
ADIP signal pre-amplifier output terminal.
33*
ADIPNF
ADIP signal AGC amplifier output terminal.
34
ADAGC
Smoothing capacitor connection terminal for ADIP signal AGC.
35
ADAGI
ADIP signal AGC amplifier input terminal.
36
2-1
Differential signal of RF1, RF2.
37
EFMO
RF signal AGC amplifier output terminal.
38
DCNF
Smoothing capacitor connection terminal for RF signal AGC amplifier reference voltage.
39
EFMAGC
Smoothing capacitor connection terminal for RF signal AGC.
40
VCC1
Analog section power supply terminal.
41
BIAS
Bias input terminal.
42
GND1
Analog section GND terminal.
43
NIN
RF signal AGC amplifier reverse input terminal.
44
PITG
Pit mode: Ground terminal.
45
3+4
Groove mode: Resistance addition output terminal of RF3 and RF4.
46
PIN
RF signal AGC amplifier non-reverse input terminal.
47
1+2
Groove mode: Resistance addition output terminal of RF1 and RF2.
48
1234
Pit mode: Resistance addition output terminal of RF1 - RF4.
In this unit, the terminal with asterisk mark (*) is (open) terminal which is not connected to the outside.
– 78 –
MD-E9000W
1+2
PIN
3+4
PITG
NIN
GND1
BIAS
VCC1
EFMAGC
DCNF
EFMO
48
47
46
45
44
43
42
41
40
39
38
37
36 2-1
RESISTOR & SW
RF1 1
1234
IC1101 VHiiR3R58M/-1: RF Signal Processor (IR3R58M)
RF2 2
RF3 3
RF4 4
35 ADAGI
EFM AGC
34 ADAGC
DIFF
33 ADIPNF
ADIP AGC
REFI 5
32 ADIPO
BIAS
REFO 6
31 GND2
AOUT 7
30 WBO
BPF
ASW 8
29 VCC2
AIN 9
SW
MODE
BIN 10
28 OPICPW
27 DISC
13
14
15
16
17
18
19
20
21
22
23
24
FIN
FSW
FOUT
EOUT
BOUT
AOUT
TCGO
TCGI
RFADD
25 DTEMP
EIN
BOUT 12
ESW
26 SGAIN
EOUT
BSW 11
FEMON
DADATA
ADDATA
DFCK
BCLK
LRCK
DGND
PLLBVC
DOUT
DIN
XO
XI
DGND
VDD1
VPO
VXI
CDBCLK
CDLRCK
CDDATA
DIN2
DILOCK
TEST1
TEST0
TCRS
X700KO
IC1201 VHiLR37816A-1: Endec/Atrac (LR37816A)
75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
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
EFMMON
AVCC1
EFM1
AGND1
AVCC2
VREF
WBI
TCG
AIN
BIN
EIN
FIN
VBAT
VDD1
DGND
TEST2
X176KO
FODRF
FODRR
TRDRF
TRDRR
SLDRF
SLDRR
SPDRF
SPDRR
TOTMON
TEMCN
SBCK
SBO
SBSY
SFSY
FCK
SENSE
COUT
MCCK
DINIX
VDD2
DGND
RSTX
SYD0
SYD1
SYD2
SYD3
SYD4
SYD5
SYD6
SYD7
SYWRX
SYRDX
SYRS
Figure 79 BLOCK DIAGRAM OF IC
– 79 –
EFMO
PLCK
ACRCEF
RAA11
RAD0
RAD1
RAWEX
RARASX
RAA9
RAD3
RAD2
RACASX
DGND
RACEX
RAA8
RAA7
RAA6
RAA5
RAA4
VDD2
RAA10
RAA0
RAA1
RAA2
RAA3
MD-E9000W
IC1201 VHiLR37816A-1: Endec/Atrac (LR37816A) (1/2)
Pin No.
Terminal Name Input/Output
1*
EFMMON
2
AVCC1
Input
3
EFMI
Input
4
AGND1
—
5
AVCC2
Input
Analog power supply (for servo system, ADIP system 1bit AD).
6
VREF
Input
Reference voltage input for RF amplifier.
7
WBI
Input
ADIP wobble signal.
8
TCG
Input
Track cross signal.
9
AIN
Input
Focus error signal A.
10
BIN
Input
Focus error signal B.
11
EIN
Input
Tracking error signal E.
12
FIN
Input
Tracking error signal F.
13
VBAT
Input
Power voltage detection signal for constant voltage servo.
14
VDD1
Input
15
DGND
—
16
TEST2
17*
X176KO
Output
Clock output. f=176.4 kHz (4 fs)
18*
FODRF
Output
Focus servo forward output. PWM.
19
FODRR
Output
Focus servo reverse output. PWM.
20*
TRDRF
Output
Tracking servo forward output. PWM.
21
TRDRR
Output
Tracking servo reverse output. PWM.
Output
Input
Function
EFM monitor output.
Analog power supply (for EFM system 8AD, 8DA).
EFM signal input from RF amplifier.
Analog GND.
Internal digital power supply.
Digital GND.
Input for test. Connected to GND if used normally.
22*
SLDRF
Output
Slide servo forward output. PWM.
23
SLDRR
Output
Slide servo reverse output. PWM.
24*
SPDRF
Output
Spindle servo forward output. PWM.
25
SPDRR
Output
Spindle servo reverse output.
26
RAA3
Output
Address output to external D-RAM. ADR3
27
RAA2
Output
Address output to external D-RAM. ADR2
28
RAA1
Output
Address output to external D-RAM. ADR1
29
RAA0
Output
Address output to external D-RAM. ADR0 (LSB)
30*
RAA10
Output
31
VDD2
Input
32
RAA4
Output
Address output to external D-RAM. ADR4
33
RAA5
Output
Address output to external D-RAM. ADR5
34
RAA6
Output
Address output to external D-RAM. ADR6
35
RAA7
Output
Address output to external D-RAM. ADR7
36
RAA8
Output
Address output to external D-RAM. ADR8
37
RAOEX
Output
Data output enable signal output to external D-RAM
38
DGND
39
RACASX
40
RAD2
Input/Output
Data input and output with external D-RAM. D2
41
RAD3
Input/Output
Data input and output with external D-RAM. D3 (MSB)
42
RAA9
Output
Address output to external D-RAM. ADR9
43
RARASX
Output
Low address strobe signal output to external D-RAM.
44
RAWEX
Output
Data write enable signal output to external D-RAM.
45
RAD1
Input/Output
Data input and output with external D-RAM. D1
46
RAD0
Input/Output
Data input and output with external D-RAM. D0 (LSB)
47*
RAA11
Output
Address output to external D-RAM. ADR11 (MSB 64 Mbit)
48*
ACRCER
Output
CRC error flag monitor output of ADIP.
49*
PLCK
Output
Playback mode: EFM PLL clock output.
50
EFM0
Output
Recording mode: EFM signal output. Playback mode: C1F (C1 error flag) monitor output.
51*
X700KO
Output
Clock output. f= 705.6 kHz
—
Output
Address output to external D-RAM. ADR10 (MSB)
Power supply for interface.
Digital GND.
Column address strobe signal output to external D-RAM.
In this unit, the terminal with asterisk mark (*) is (open) terminal which is not connected to the outside.
– 80 –
MD-E9000W
IC1201 VHiLR37816A-1: Endec/Atrac (LR37816A) (2/2)
Pin No.
Terminal Name Input/Output
Function
52*
TCRS
Output
53
TEST0
Input
Input for test. Connected to GND if used normally.
54
TEST1
Input
Input for test. Connected to GND if used normally.
55
DILOCK
56
DIN2
Input/Output
Digital input signal. Expansion port 0.
57
CDDATA
Input/Output
Data input for dubbing. Expansion output port 1.
58
CDLRCK
Input/Output
LR clock input for dubbing. Expansion output port 2.
59
CDBCLK
Input/Output
Bit clock input for dubbing. Expansion output port 3.
60
VXI
Input
61*
VPO
Output
62
VDD1
Input
63
DGND
—
64
XI
Input
65
XO
Output
66
DIN
Input
67*
DOUT
Output
Digital output signal.
68
PLLBVG
Output
For Internal PLL. Terminal for external capacitor.
69
DGND
—
70
LRCK
Output
L-ch, R-ch selection output of music data.
71
BCLK
Output
Shift lock of music data.
72
DFCK
Output
73
ADDATA
Input
74
DADATA
Output
Sound data output.
75*
FEMON
Output
Focus error signal monitor output. Series resistance 10 - 100 kohm built-in.
76*
TOTMON
Output
Total signal monitor output. Series resistance 10 - 100 kohm built-in.
77*
TEMON
Output
Tracking error signal monitor output. Series resistance 10 - 100 kohm built-in.
78
SBCK
79
SBO
Output
DIN subcode serial data. Expansion port 5.
80
SBSY
Output
DIN subcode block synchronous signal. Expansion port 6.
81
SFSY
Output
DIN subcode frame synchronous signal. Expansion port 7.
82
FOK
Output
Focus OK detection signal. “0”: focus OK.
83
SENSE
Output
Servo condition detection signal.
84
COUT
Output
Track cross signal output.
85
MCCK
Output
Clock output for microcomputer.
86
DINTX
Output
Interrupt request output terminal to system computer interface.
87
VDD2
Input
88
DGND
—
89
RSTX
Input
90
SYD0
Input/Output
Output
Input/Output
Track cross signal.
DIN lock detection.
PLL clock input for variable pitch.
PLL phase error output for variable pitch.
Internal digital power supply.
Digital GND.
Transmit circuit input. 33.8688 MHz
Transmit circuit input. 33.8688 MHz
Digital input signal.
Digital GND.
Clock for AD/DA converter digital filter. 256 Fs.
Sound data input.
DIN subcode read clock. Expansion port 4.
Power supply for interface.
Digital GND.
Chip reset input. Reset by L. (Note)
Data bus terminal of system computer interface. (LSB)
91-96
SYD1-SYD6
Input/Output
Data bus terminal of system computer interface.
97
SYD7
Input/Output
Data bus terminal of system computer interface. (MSB)
98
SYWRX
Input
Resister write pulse input of system computer interface.
99
SYRDX
Input
Resister read pulse input of system computer interface.
100
SYRS
Input
Resister selection input of system computer interface.
In this unit, the terminal with asterisk mark (*) is (open) terminal which is not connected to the outside.
Note: Set RSTX to L when turning on the power or after turning on the power.
– 81 –
MD-E9000W
IC1202 RH-iX2474AFZZ: 4Mbit D-RAM (IX2474AF)
Function
Pin No.
Terminal Name
1, 2
DQ0, DQ1
Data input/Data output.
3
WE
Write enable.
4
RAS
Row address strobe.
5
A9
Address input.
6-9
A0-A3
Address input.
10
VDD
Power (3.3 V)
11-15
A4-A8
Address input.
16
OE
Output enable.
17
CAS
Column address strobe.
18, 19
DQ2, DQ3
Data input/Data output.
20
VSS
Ground (0 V)
RAS 4
Write Clock
Generator
Clock Generator
CAS 17
CBR Refresh
Counter
Data Input
Buffer
SELF Refresh
Timer
MN42V4400 only
A0 5
Row Address
Buffer
Row Decoder
Word Driver
A9 15
Row Address
Buffer
Column Decoder
Sense Amp.
VSS 20
CAS 17
On ChipVBB
Generator
3 WE
1
2
DQ0-DQ3
18
19
Memory
Cell
I/O
Selection
VBB
Data Output
Buffer
16 OE
Figure 82-1 BLOCK DIAGRAM OF IC
IC1301 VHiFTD2005/-1: Head Driver (FTD2005)
G2 5
4 G1
S2 6
3 S1
S2 7
2 S1
D2 8
1 D1
IC1302 VHiCPH5608/-1: Head Driver (CPH5608)
Figure 82-2 BLOCK DIAGRAM OF IC
G1
S
G2
5
4
3
Function
Terminal Name
1-3
A0-A2
Device address.
4
VSS
Ground
5
SDA
Serial data input/output.
6
SCL
Serial clock input.
7
WP
Write protect.
8
VCC
Power supply.
2
D2
Figure 82-3 BLOCK DIAGRAM OF IC
IC1402 VHi58X2402T-1: EEPROM (58X2402T)
Pin No.
1
D1
1
A0
VCC
8
2
A1
WP
7
3
A2
SCL
6
4
VSS
SDA
5
Figure 82-4 BLOCK DIAGRAM OF IC
– 82 –
MD-E9000W
IC1401 RH-iX0410AWZZ: MD System Microcomputer (IX0410AW) (1/2)
Pin No.
Terminal Name Input/Output
1
4M/16M
Output
2
64M
Output
64M DRAM selection input.
3
LDVAR
Output
LDVAR (laser power adjustment output)
4*
ADJS
Output
ADJS (for automatic adjustment step check)
5
CIN
Input
6*
N.C.
—
7
UNLOCK
Input
ERR input. (UNLOCK of MD LSI monitor PLL)
8
BYTE
Input
GND
9
CNVSS
Input
GND
10*
STID OUT
Output
ST-ID output.
11*
SEACH OUT
Output
MD search output.
12
RESET
13*
N.C.
Function
4M/16M DRAM selection input.
CIN (track count signal input)
Not used.
Input
RESET input.
Output
Clock output.
14
VSS
15
MCCK
Input
—
EXTAL (8.4672 MHz)
16
VCC
Input
+3.15 V
17
P85
Input
Input output port P85.
18
DINT
Input
DINT (Interrupt input from MD-LSI)
19
SFSY
Input
Subcode communication frame synchro Interrupt input.
20
ST-ID
Input
ST-ID input. (MD-ON)
21
SERCH
Input
22
MDRSW
Output
23*
CDB SEL
Output
24
DSENSE
Input
DSENSE (servo sense input from MD-LSI)
25
P-DOWN
Input
P-DOWN (blackout detection)
26
HD ON
Output
HDON (magnetic head power ON/OFF output)
27
EEPRO
Output
EEPROM protect release output.
28
HFON
Output
HFON
29
EEPK
Output
EEPROM serial clock output.
30
EEPD
Input/Output
EEPROM data input output.
31
MD DATA
32
K DATA
33
DSCK
Input
34
DSTB
Output
DSTB (system computer communication possible and during communication)
35*
N.C.
Output
Not used.
36
SBO
37
SBCK
Output
Subcode communication serial clock output.
38
DISC
Output
DISC
39
R/P
Output
R/P output. (REC/PLAY selection)
40
FOK
Input
FOK (focus servo condition monitor input)
41
FLASH L
Input
Flash write selection.
42
SGAIN
Output
SGAIN
43
SYRS
Output
MD LSI resister select signal output.
44
SYRD
Output
SYRD (MD-LSI read signal output)
45
SYWR
Output
SYWR (MD-LSI write signal output)
46
FLASH H
Input
Flash write selection.
47
SYS D7
Input/Output
SYS D7 (data bus 7)
48
SYS D6
Input/Output
SYS D6 (data bus 6)
49
SYS D5
Input/Output
SYS D5 (data bus 5)
50
SYS D4
Input/Output
SYS D4 (data bus 4)
51
SYS D3
Input/Output
SYS D3 (data bus 3)
Output
Input
Input
GND
CD search input. (Synchronous REC interrupt input)
MD RSW output.
CD BLK SEL output.
MD computer data input output.
System computer data input.
System computer clock input.
Subcode serial data input.
In this unit, the terminal with asterisk mark (*) is (open) terminal which is not connected to the outside.
– 83 –
MD-E9000W
IC1401 RH-iX0410AWZZ: MD System Microcomputer (IX0410AW) (2/2)
Pin No.
Terminal Name Input/Output
52
SYS D2
Input/Output
SYS D2 (data bus 2)
53
SYS D1
Input/Output
SYS D1 (data bus 1)
54
SYS D0
Input/Output
SYS D0 (data bus 0)
55*
P37
Output
Input output port P37.
56*
P36
Output
Input/output port P36.
57*
P35
Output
Input/output port P35.
58*
P34
Output
Input/output port P34.
59*
P33
Output
Input/output port P33.
60*
P32
Output
Input/output port P32.
61
P31
Output
Input/output port P31.
62
VCC
Input
+3.15 V
63
INNSW
Input
Pick most inner periphery detection input.
—
Function
64
GND
65
L3 DATA
66
L3 MODE
Output
L3 MODE (soft serial communication, 2 mode presence, LSB first)
67
L3 CLK
Output
L3 CLK (soft serial communication, 2 mode presence, LSB first)
68*
P24
Output
Input output port P24.
69*
P23
Output
Input output port P23.
70
PCNT0
Output
PCNT0 output.
Output
GND
L3 DATA (soft serial communication, 2 mode presence, LSB first)
71*
LAST
Output
LAST
72
LD ON
Output
LDON output. (H : ON)
73
A/B
Output
ANLPTR output. ADC/DAC selection input.
74
SBSY
Output
Subcode communication block synchro input.
75*
DAP ON
Output
DAPON output. (for CK)
76*
DFS0
Output
DFS0 output.
77*
DFS1
Output
DFS1 output.
78
P12
Output
Input/output port P12.
79
P11
Output
Input/output port P11
80
XRST
Output
XRST (system reset output)
81*
AD MUTE
Output
ADMUTE output. (for CK)
82
LD+
Output
Loading motor + side control output.
83
LD-
Output
Loading motor - side control output.
84*
MUTE
Output
MUTE output.
85*
RAST
Output
RAST
86*
TEST2
Input
TEST 2
87*
TEST1
Input
TEST 1
88*
TEST0
Input
TEST 0
89
AVCK3
Input
AVCK3 (motor driver power monitor input)
90
AVCK2
Input
AVCK2 (AD/DA section 3.1 V monitor input)
91
AVCK1
Input
AVCK1 (head circuit power monitor input)
92
DTEMP
Input
DTEMP (temperature detection input)
93
MINF
Input
MINF (disc type/REC input/mecha position)
94*
TEST K1
Input
TEST K1
95*
TEST K2
Input
TEST K2
96
GND
—
GND
97*
N.C.
—
Not used.
98
VREF
Input
+3.15 V
99
AVCC
Input
+3.15 V
100
PR
Input
Playback/recording unit setting input.
In this unit, the terminal with asterisk mark (*) is (open) terminal which is not connected to the outside.
– 84 –
MD-E9000W
IC1701 VHiUDA1345/-1: AD/DA Converter (UDA1345)
Pin No.
Terminal Name
1
VSSA (ADC)
2
VDDA (ADC)
AD converter analog power.
3
VINL
AD converter input. (left)
4
VREF (A)
AD converter reference voltage.
5
VINR
AD converter input. (right)
6
VADCN
AD converter reference voltage N.
7
VADCP
AD converter reference voltage P.
8*
MC1
Mode control 1. (Pulled-down)
9*
MP1
Multipurpose pin 1.
10
VDDD
Digital power.
11
VSSD
Digital ground
12
SYSCLK
System clock 256 fs, 384 fs, 512 fs.
13
MP2
Multipurpose pin 2.
14
MP3
Multipurpose pin 3.
15
MP4
Multipurpose pin 4.
16
BCK
Bit clock input.
17
WS
Word select input.
18
DATAO
Data output.
19
DATAI
Data input
20*
MP5
Multipurpose pin 5. (Pulled-down)
21*
MC2
Mode control 2. (Pulled-down)
22
VSSA (DAC)
DA converter analog ground.
23
VDDA (ADC)
DA converter analog power.
24
VOUTR
DA converter output. (right)
25
VDDO
Opeamp power.
26
VOUTL
DA converter output. (left)
27
VSSO
Opeamp ground.
28
VREF (D)
AD converter reference voltage.
Function
AD converter analog ground.
In this unit, the terminal with asterisk mark (*) is (open) terminal which is not connected to the outside.
VDDA(ADC) VSSA(ADC) VADCP
2
VINL
3
1
7
10
VSSD
11
Vref(A)
6
4
0dB/6dB
switch
ADC
VDDD
VADCN
5
VINR
8
21
MC1
20
MP5
ADC
DECMATION FILTER
MC2
DC-CANCELLATION FILTER
DATAO
BCK
WS
DATAI
MP1
18
16
17
19
DIGITAL
INTERFACE
9
L3-BUS
INTERFACE
13
14
MP2
15
MP3
MP4
12
SYSCLK
24
VOUTR
DSP FEATURES
INTERPOLATION FILTER
NOISE SHAPER
DAC
VOUTL
DAC
26
25
VDDO
28
27
22
23
VSSO VDDA(DAC) VSSA(DAC) Vref(D)
Figure 85 BLOCK DIAGRAM OF IC
– 85 –
MD-E9000W
FL DISPLAY
FL701: VVKST48GNK/-1
1G
REC
HIGH
SLEEP
LP2 LP4
2G
Dp
3G
4G
5G
6G
7G
8G
9G
RDS
PTY
TP
TA
EON
TI
ST
10G
11G
12G
13G
TOC OVER T-EDIT
TRACK
BASS
DISC
RANDOM MEMORY
1-1
2-1
3-1
4-1
5-1
1-2
2-2
3-2
4-2
5-2
1-3
2-3
3-3
4-3
5-3
1-4
2-4
3-4
4-4
5-4
1-5
2-5
3-5
4-5
5-5
1-6
2-6
3-6
4-6
5-6
1-7
2-7
3-7
4-7
5-7
[2G~12G]
ANODE CONNECTION
P1
1G
2G
REC
Dp
P2
P3
3G
4G
5G
6G
7G
8G
RDS PTY TP TA EON TI
9G 10G 11G 12G
ST
1–1 1–1 1–1 1–1 1–1 1–1 1–1 1–1 1–1
HIGH
2–1 2–1 2–1 2–1 2–1 2–1 2–1 2–1 2–1
13G
TOC OVER T-EDIT
1–1 1–1 BASS
2–1 2–1 TRACK
3–1 3–1 DISC
P4
3–1 3–1 3–1 3–1 3–1 3–1 3–1 3–1 3–1
P5
4–1 4–1 4–1 4–1 4–1 4–1 4–1 4–1 4–1 4–1 4–1 RANDOM
P6 SLEEP 5–1 5–1 5–1 5–1 5–1 5–1 5–1 5–1 5–1 5–1 5–1 MEMORY
P7
LP2 1–2 1–2 1–2 1–2 1–2 1–2 1–2 1–2 1–2 1–2 1–2 —
P8
LP4
2–2 2–2 2–2 2–2 2–2 2–2 2–2 2–2 2–2 2–2 2–2
—
P9
—
3–2 3–2 3–2 3–2 3–2 3–2 3–2 3–2 3–2 3–2 3–2
—
P10
—
4–2 4–2 4–2 4–2 4–2 4–2 4–2 4–2 4–2 4–2 4–2
—
P11
—
5-2
5-2
—
P12
—
1–3 1–3 1–3 1–3 1–3 1–3 1–3 1–3 1–3 1–3 1–3
—
P13
—
2–3 2–3 2–3 2–3 2–3 2–3 2–3 2–3 2–3 2–3 2–3
—
P14
—
3–3 3–3 3–3 3–3 3–3 3–3 3–3 3–3 3–3 3–3 3–3
—
P15
—
4–3 4–3 4–3 4–3 4–3 4–3 4–3 4–3 4–3 4–3 4–3
—
P16
—
5–3 5–3 5–3 5–3 5–3 5–3 5–3 5–3 5–3 5–3 5–3
—
P17
—
1–4 1–4 1–4 1–4 1–4 1–4 1–4 1–4 1–4 1–4 1–4
—
P18
—
2–4 2–4 2–4 2–4 2–4 2–4 2–4 2–4 2–4 2–4 2–4
—
P19
—
3–4 3–4 3–4 3–4 3–4 3–4 3–4 3–4 3–4 3–4 3–4
—
P20
—
4–4 4–4 4–4 4–4 4–4 4–4 4–4 4–4 4–4 4–4 4–4
—
P21
—
5–4 5–4 5–4 5–4 5–4 5–4 5–4 5–4 5–4 5–4 5–4
—
P22
—
1–5 1–5 1–5 1–5 1–5 1–5 1–5 1–5 1–5 1–5 1–5
—
P23
—
2–5 2–5 2–5 2–5 2–5 2–5 2–5 2–5 2–5 2–5 2–5
—
P24
—
3–5 3–5 3–5 3–5 3–5 3–5 3–5 3–5 3–5 3–5 3–5
—
P25
—
4–5 4–5 4–5 4–5 4–5 4–5 4–5 4–5 4–5 4–5 4–5
—
P26
—
5–5 5–5 5–5 5–5 5–5 5–5 5–5 5–5 5–5 5–5 5–5
—
P27
—
1–6 1–6 1–6 1–6 1–6 1–6 1–6 1–6 1–6 1–6 1–6
—
P28
—
2–6 2–6 2–6 2–6 2–6 2–6 2–6 2–6 2–6 2–6 2–6
—
P29
—
3–6 3–6 3–6 3–6 3–6 3–6 3–6 3–6 3–6 3–6 3–6
—
P30
—
4–6 4–6 4–6 4–6 4–6 4–6 4–6 4–6 4–6 4–6 4–6
—
P31
—
5–6 5–6 5–6 5–6 5–6 5–6 5–6 5–6 5–6 5–6 5–6
—
P32
—
1–7 1–7 1–7 1–7 1–7 1–7 1–7 1–7 1–7 1–7 1–7
—
P33
—
2–7 2–7 2–7 2–7 2–7 2–7 2–7 2–7 2–7 2–7 2–7
—
P34
—
3–7 3–7 3–7 3–7 3–7 3–7 3–7 3–7 3–7 3–7 3–7
—
P35
—
4–7 4–7 4–7 4–7 4–7 4–7 4–7 4–7 4–7 4–7 4–7
—
P36
—
5–7 5–7 5–7 5–7 5–7 5–7 5–7 5–7 5–7 5–7 5–7
—
5-2
5-2
5-2
5-2
5-2
– 86 –
5-2
5-2
5-2
5-2
MD-E9000W
PARTS GUIDE
MD COMPACT COMPONENT SYSTEM
MODEL MD-E9000W
MD-E9000W MD Compact Component System consisting
of MD-E9000W (main unit) and CP-E9000H (speaker
system).
“HOW TO ORDER REPLACEMENT PARTS”
To have your order filled promptly and correctly, please furnish the
following information.
1. MODEL NUMBER
2. REF. No.
3. PART NO.
4. DESCRIPTION
For U.S.A. only
Contact your nearest SHARP Parts Distributor to order.
For location of SHARP Parts Distributor,
Please call Toll-Free;
1-800-BE-SHARP
MARK: SPARE PARTS-DELIVERY SECTION
Explanation of capacitors/resistors parts codes
Capacitors
Resistors
VCC ....................... Ceramic type
VCK ........................ Ceramic type
VCT ........................ Semiconductor type
VC • • MF ............... Cylindrical type (without lead wire)
VC • • MN ............... Cylindrical type (without lead wire)
VC • • TV ................ Square type (without lead wire)
VC • • TQ ............... Square type (without lead wire)
VC • • CY ............... Square type (without lead wire)
VC • • CZ ............... Square type (without lead wire)
VC • • • • • • • • • J .. The 13th character represents capacity difference.
("J" ±5%, "K" ±10%, "M" ±20%, "N" ±30%,
"C" ±0.25 pF, "D" ±0.5 pF, "Z" +80-20%.)
VRD ....................... Carbon-film type
VRS ........................ Carbon-film type
VRN ....................... Metal-film type
VR • • MF ............... Cylindrical type (without lead wire)
VR • • MN ............... Cylindrical type (without lead wire)
VR • • TV ................ Square type (without lead wire)
VR • • TQ ............... Square type (without lead wire)
VR • • CY ............... Square type (without lead wire)
VR • • CZ ............... Square type (without lead wire)
VR • • • • • • • • • J .. The 13th character represents error.
("J" ±5%, "F" ±1%, "D" ±0.5%.)
If there are no indications for the electrolytic capacitors, error is ±20%.
If there are no indications for other parts, the resistors are ±5%
carbon-film type.
NOTE:
Parts marked with “1” are important for maintaining the safety of the set.
Be sure to replace parts with specified ones for maintaining the safety and performance of the set.
MD-E9000W
NO.
PRICE
RANK
PARTS CODE
DESCRIPTION
INTEGRATED CIRCUITS
IC1
IC2
VHILC78645NE1
VHILA6548D/-1
J
J
IC3
IC4
IC301
IC302
IC303
VHITA7291S/-1
VHI74VHC08F-1
VHITA7358AP-1
VHILC72131/-1
VHILA1832S/-1
J
J
J
J
J
IC401
IC701
VHILC75341/-1
RH-IX0395AWZZ
J
J
IC901
IC1101
IC1201
IC1202
IC1300
IC1301
IC1302
IC1401
VHILA4628//-1
VHIIR3R58M/-1
VHILR37816A-1
RH-IX2474AFZZ
VHI74ACT02T-1
VHIFTD2005/-1
VHICPH5608/-1
RH-IX0410AWZZ
J
J
J
J
J
J
J
J
IC1402
IC1601
IC1701
IC1801
IC1802
VHI58X2402T-1
VHIM56788FP-1
VHIUDA1345/-1
VHIXC62EP32-1
VHIXC62FP26P1
J
J
J
J
J
AY CD Servo,LC78645NE
AN Focus/Tracking/Spin/Sled Driver,
LA6548D
AH Loading Motor Driver,TA7291S
AE Inverter,74VHC08F
AG FM Front End,TA7358AP
AP PLL (Tuner),LC72131
AN FM IF Det./FM Mpx./AM IF,
LA1832S
AM Audio Processor,LC75341
AY System Microcomputer,
IX0395AW
AU Power Amp.,LA4628
AM RF Signal Processor,IR3R58M
BQ Endec/Atrac,LR37816A
BF 4Mbit D-RAM,IX2474AF
AE Head Driver,74ACT02T
AG Head Driver,FTD2005
AH Head Driver,CPH5608
AY MD System Microcomputer,
IX0410AW
AF EEPROM,58X2402T
AX Motor Driver,M56788FP
AU AD/DA Converter,UDA1345
AE Regulator,XC62EP32
AG Regulator,XC62FP26P
VSKTA1266GR-1
VSKTA1271Y/-1
VSKRC102M//-1
VSKTC3194Y/-1
VSKTA1266GR-1
VSKRC102M//-1
VSKRC107M//-1
VSKRC111M//-1
VSKTA1266GR-1
VSKTC3199GR-1
VSKTC3199GR-1
VSKTC2026//-1
VSKTC3199GR-1
VHIKIA7810AP1
VSKTC3203Y/-1
VHIKIA7805AP1
VHIAN78L05/-1
VSKTC3203Y/-1
VSKTA1266GR-1
VSUN2214///-1
VS2SB1205++-1
VS2SD601AR/-1
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AB
AC
AC
AD
AB
AC
AC
AB
AB
AB
AB
AF
AB
AF
AC
AF
AE
AC
AB
AB
AF
AC
Silicon,PNP,KTA1266 GR
Silicon,PNP,KTA1271 Y
Digital,NPN,KRC102 M
Silicon,NPN,KTC3194 Y
Silicon,PNP,KTA1266 GR
Digital,NPN,KRC102 M
Digital,NPN,KRC107 M
Digital,NPN,KRC111 M
Silicon,PNP,KTA1266 GR
Silicon,NPN,KTC3199 GR
Silicon,NPN,KTC3199 GR
Silicon,NPN,KTC2026
Silicon,NPN,KTC3199 GR
Voltage Regulator,KIA7810AP
Silicon,NPN,KTC3203 Y
Voltage Regulator,KIA7805AP
Voltage Regulator,AN78L05
Silicon,NPN,KTC3203 Y
Silicon,PNP,KTA1266 GR
Digital,NPN,UN2214
Silicon,PNP,2SB1205
Silicon,NPN,2SD601 AR
VHDDS1SS133-1
VHDDS1SS133-1
VHDDS1SS133-1
VHDDS1SS133-1
VHDTS6B04GM-1
VHDRL203F//-1
VHDDS1N404S-1
VHDDS1SS133-1
VHDDS1SS133-1
VHDDS1N404S-1
VHDDS1SS133-1
VHDDS1SS133-1
VHDDS1SS133-1
VHDSBE803//-1
VHP4204SRT7-1
VHPLNG901CF-1
VHEDZ5R1BSB-1
VHEDZ300BSC-1
VHEDZ6R2BSA-1
VHEDZ120BSB-1
VHEDZ3R0BSA-1
VHEDZ6R8BSA-1
VHEDZ3R6BSB-1
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AB
AB
AB
AB
AP
AE
AB
AB
AB
AB
AB
AB
AB
AD
AD
AS
AC
AB
AB
AB
AB
AC
AB
Silicon,DS1SS133
Silicon,DS1SS133
Silicon,DS1SS133
Silicon,DS1SS133
Silicon,TS6B04GM
Silicon,RL203F
Silicon,DS1N404S
Silicon,DS1SS133
Silicon,DS1SS133
Silicon,DS1N404S
Silicon,DS1SS133
Silicon,DS1SS133
Silicon,DS1SS133
Silicon,SBE803
LED,Red,4204SRT7
LED,Blue,LNG901CF
Zener,5.1V,DZ5.1BSB
Zener,30V,DZ30BSC
Zener,6.2V,DZ6.2BSA
Zener,12V,DZ12BSB
Zener,3V,DZ3BSA
Zener,6.8V,DZ6.8BSA
Zener,3.6V,DZ3.6BSB
TRANSISTORS
DIODES
D301~306
D441,442
D701
D781~785
D801
D802~805
D806~808
D809
D871,872
D873~876
D877
D961,962
D972,973
D1300
LED701
LED702
ZD351
ZD801
ZD802
ZD803
ZD871
ZD941
ZD951
PRICE
RANK
PARTS CODE
DESCRIPTION
FILTERS
MD-E9000W
Q1
Q2
Q3
Q302
Q360
Q701,702
Q781
Q782,783
Q801
Q871
Q901,902
Q941
Q942
Q951
Q952
Q961
Q962
Q971
Q972
Q1501
Q1804
Q1807
NO.
BF301
CF303
CF351
CF352
FL1501
FL1507
FL1509
FL1512
FL1518
FL1520
FL1523~1525
RFILR0008AWZZ
RFILF0124AFZZ
RFILF0003AWZZ
RFILA0009AWZZ
RFILN0002AWZZ
RFILN0003AWZZ
RFILN0003AWZZ
RFILN0003AWZZ
RFILN0003AWZZ
RFILN0003AWZZ
RFILN0007AWZZ
J
J
J
J
J
J
J
J
J
J
J
AE
AD
AK
AE
AD
AD
AD
AD
AD
AD
AD
Band Pass Filter
FM IF,10.7 MHz
FM IF
AM IF
EMI Filter
EMI Filter
EMI Filter
EMI Filter
EMI Filter
EMI Filter
EMI Filter
RTRNP0354AWZZ
RTRNP0341AWZZ
RCILB0065AWZZ
RCILI0017AWZZ
RCILA0052AWZZ
RCILB0058AWZZ
RCILI0019AWZZ
J
J
J
J
J
J
J
BA
AM
AC
AB
AE
AC
AD
Power,Main
Power,Sub
FM OSC.
FM IF
AM Tracking
AM OSC.
AM IF
VP-XHR82K0000
VP-XH2R2K0000
RCILR0056AWZZ
VP-DH101K0000
VPADK100KR15K
VP-DHR22K0000
VP-DH101K0000
VP-DH2R2K0000
VPBNNR47K0000
VPBNN100K0000
VPBNN4R7K0000
VPBNNR47K0000
RCILC0358AFZZ
J
J
J
J
J
J
J
J
J
J
J
J
J
AC
AB
AB
AB
AE
AB
AB
AB
AC
AC
AC
AC
AC
0.82 µH,Choke
2.2 µH,Choke
FM RF
100 µH,Choke
10 µH
0.22 µH
100 µH,Choke
2.2 µH,Peaking
0.47 µH
10 µH
4.7 µH
0.47 µH
47 µH,Choke
TRANSFORMERS
1 PT801
1 PT871
T301
T302
T303
T306
T351
COILS
L2
L4
L312
L351,352
L451
L452
L781
L981
L1100
L1101
L1200
L1201,1202
L1300
VARIABLE CAPACITORS
VD301
VD302,303
VHCSVC348S/-1
VHCSVC211C/-1
J
J
AK Variable Capacitance,SVC348S
AG Variable Capacitance,SVC211C
J
J
J
J
J
AF
AF
AK
AK
AL
J
AE Posistor,0.5ohms
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AA
AB
AA
AB
AA
AA
AB
AA
AA
AC
AC
AB
AA
AB
AB
AA
AA
AA
AA
AB
AA
AA
AB
VIBRATORS
X351
X352
XL1
XL701
XL1201
92LCRSTL1425A
RCRSP0019AWZZ
RCRSP0025AWZZ
RCRSP0009AWZZ
RCRSC0001AWZZ
Crystal,456 kHz
Crystal,4.5 MHz
Crystal,33.8688 MHz
Crystal,8.3886 MHz
Crystal,33.8688 MHz
THERMISTOR
1 RP941
RH-QX0010AWZZ
CAPACITORS
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C12
C13
C14
C15
C16
C17
C18
C19
C20~23
C24
C28
C31,32
C41
–1–
VCTYMN1CY103N
VCEAZA1CW476M
VCTYMN1CY103N
VCEAZA1CW476M
VCKYMN1HB102K
VCTYPA1CX473K
VCTYPA1CX104K
VCCSPA1HL100J
VCTYMN1CX272K
VCEAZA1CW107M
VCEAZA1CW106M
VCEAZA1HW224M
VCKYMN1HB101K
VCTYPA1CX104K
VCEAZA1HW225M
VCTYPA1CX473K
VCKYMN1HB101K
VCTYMN1EF223Z
VCKYMN1HB101K
VCKYPA1HF223Z
VCTYPA1CX473K
VCCCMN1HH150J
RC-EZY107AF1C
0.01 µF,16V
47 µF,16V,Electrolytic
0.01 µF,16V
47 µF,16V,Electrolytic
0.001 µF,50V
0.047 µF,16V
0.1 µF,16V
10 pF,50V
0.0027 µF,16V
100 µF,16V,Electrolytic
10 µF,16V,Electrolytic
0.22 µF,50V,Electrolytic
100 pF,50V
0.1 µF,16V
2.2 µF,50V,Electrolytic
0.047 µF,16V
100 pF,50V
0.022 µF,25V
100 pF,50V
0.022 µF,50V
0.047 µF,16V
15 pF (CH),50V
100 µF,16V,Electrolytic
MD-E9000W
NO.
C42
C43
C44
C45
C46~48
C49
C50
C53
C54
C57,58
C61
C62,63
C303
C304
C305
C306
C307
C308
C309
C310
C311
C312
C313
C314,315
C316
C317
C318
C320
C323
C324
C325
C330
C331
C332
C334
C335
C338
C342
C350
C351
C352
C353,354
C355
C356
C357
C358
C361
C362
C363
C364
C365
C366
C367,368
C369
C370~372
C373,374
C380
C381
C382
C384
C385
C386
C387
C388
C391
C392
C393
C394
C395
C396
C397
C398
C399
C402
C403
C404~406
C407
C411,412
C413,414
C415,416
C417,418
C419~424
PRICE
RANK
PARTS CODE
VCTYMN1EF223Z
VCEAZA1CW107M
VCTYMN1CX152K
VCEAZA1AW337M
VCTYPA1CX104K
RC-EZY476AF1C
VCTYPA1CX104K
VCEAZA1EW475M
VCCSMN1HL220J
VCKYMN1HB681K
VCKYPA1HF103Z
VCKYPA1HB102K
VCCCMN1HH100J
VCTYMN1CY103N
VCCCMN1HH4R7C
VCTYMN1EF223Z
VCEAZA1HW106M
VCCSMN1HL4R7C
VCKYMN1HB102K
VCCCMN1HH150J
VCCSPA1HL180J
VCTYMN1EF223Z
VCCCMN1HH220J
VCTYMN1CX472K
VCTYMN1EF223Z
VCKYMN1HB102K
VCKYMN1HB101K
VCKYBT1HB102K
VCTYMN1EF223Z
VCCUMN1HJ3R9K
VCKYMN1HB221K
VCCUMN1HJ150J
VCKYPA1HF473Z
VCTYMN1EF223Z
VCCUMN1HJ180J
VCKYMN1HB561K
VCKYMN1HB102K
VCTYMN1EF223Z
VCTYBT1EF223Z
VCTYMN1EF223Z
VCEAZA1HW106M
VCTYMN1EF223Z
VCCSMN1HL220J
VCKYMN1HB102K
VCEAZA1HW225M
VCEAZA1HW105M
VCTYMN1EF223Z
VCEAZA1HW335M
VCTYMN1EF223Z
VCEAZA1HW225M
VCKYPA1HF223Z
VCKYMN1HB102K
VCEAZA1HW105M
VCCUMN1HJ270J
VCEAZA1HW105M
VCTYPA1CX153K
VCEAZA1HW106M
VCCCMN1HH120J
VCCCMN1HH150J
VCKYMN1HB102K
VCTYMN1CY103N
VCKYMN1HB331K
VCTYMN1EF223Z
VCKYMN1HB102K
RC-EZY476AF1C
VCKYMN1HB102K
VCEAZA1HW105M
RC-EZY476AF1C
VCTYMN1EF223Z
RC-EZY107AF1C
VCTYMN1EF223Z
VCEAZA1CW107M
VCTYMN1EF223Z
VCKYPA1HF223Z
RC-EZY107AF1C
VCKYPA1HB561K
RC-EZY226AF1C
RC-EZY105AF1H
VCFYHA1HA104J
VCFYHA1HA124J
VCQYKA1HM152K
RC-EZY105AF1H
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AA
AC
AA
AC
AB
AB
AB
AC
AA
AA
AB
AA
AA
AA
AA
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AA
AA
AA
AA
AA
AA
AA
AB
AA
AA
AA
AB
AB
AA
AB
AA
AB
AB
AA
AB
AA
AB
AA
AB
AA
AA
AA
AA
AA
AA
AA
AB
AA
AB
AB
AA
AB
AA
AC
AA
AB
AB
AA
AB
AB
AB
AB
AB
AB
DESCRIPTION
NO.
0.022 µF,25V
100 µF,16V,Electrolytic
0.0015 µF,16V
330 µF,10V,Electrolytic
0.1 µF,16V
47 µF,16V,Electrolytic
0.1 µF,16V
4.7 µF,25V,Electrolytic
22 pF,50V
680 pF,50V
0.01 µF,50V
0.001 µF,50V
10 pF (CH),50V
0.01 µF,16V
4.7 pF (CH),50V
0.022 µF,25V
10 µF,50V,Electrolytic
4.7 pF,50V
0.001 µF,50V
15 pF (CH),50V
18 pF,50V
0.022 µF,25V
22 pF (CH),50V
0.0047 µF,16V
0.022 µF,25V
0.001 µF,50V
100 pF,50V
0.001 µF,50V
0.022 µF,25V
3.9 pF (UJ),50V
220 pF,50V
15 pF (UJ),50V
0.047 µF,50V
0.022 µF,25V
18 pF (UJ),50V
560 pF,50V
0.001 µF,50V
0.022 µF,25V
0.022 µF,25V
0.022 µF,25V
10 µF,50V,Electrolytic
0.022 µF,25V
22 pF,50V
0.001 µF,50V
2.2 µF,50V,Electrolytic
1 µF,50V,Electrolytic
0.022 µF,25V
3.3 µF,50V,Electrolytic
0.022 µF,25V
2.2 µF,50V,Electrolytic
0.022 µF,50V
0.001 µF,50V
1 µF,50V,Electrolytic
27 pF (UJ),50V
1 µF,50V,Electrolytic
0.015 µF,16V
10 µF,50V,Electrolytic
12 pF (CH),50V
15 pF (CH),50V
0.001 µF,50V
0.01 µF,16V
330 pF,50V
0.022 µF,25V
0.001 µF,50V
47 µF,16V,Electrolytic
0.001 µF,50V
1 µF,50V,Electrolytic
47 µF,16V,Electrolytic
0.022 µF,25V
100 µF,16V,Electrolytic
0.022 µF,25V
100 µF,16V,Electrolytic
0.022 µF,25V
0.022 µF,50V
100 µF,16V,Electrolytic
560 pF,50V
22 µF,16V,Electrolytic
1 µF,50V,Electrolytic
0.1 µF,50V,Thin Film
0.12 µF,50V,Thin Film
0.0015 µF,50V,Mylar
1 µF,50V,Electrolytic
C425,426
C427
C428,429
C441,442
C443
C451,452
C453,454
C455
C456,457
C458
C459
C460
C461,462
C463
C464
C465
C466~469
C470
C471
C701~703
C704,705
C706
C707
C708
C709
C710,711
C712~715
C716~718
C781
C782
C783
C784
C801~804
C805,806
C807~809
C810
C811
C812
1 C871
C872
C873
C874
C875
C901,902
C903,904
C905
C907~910
C911
C912
C913
C914
C923~926
C941
C942
C943
C947
C948
C949
C951,952
C953
C954
C955
C956
C961,962
C963
C964,965
C966
C971
C972
C973
C981,982
C985
C986,987
C1100
C1107
C1110,1111
C1112
C1113
C1114,1115
C1116,1117
C1118,1119
C1121
–2–
PRICE
RANK
PARTS CODE
RC-EZY106AF1C
VCKYPA1HF223Z
RC-EZY105AF1H
VCKYPA1HB391K
VCKYPA1HB102K
RC-EZY106AF1C
VCKYPA1HB221K
VCKYPA1HF223Z
VCKYPA1HB101K
VCCSPA1HL100J
VCKYPA1HF103Z
VCKYPA1HB221K
VCKYPA1HB101K
VCKYPA1HF223Z
VCEAZA1AW227M
VCKYPA1HF223Z
VCKYPA1HB221K
VCCSPA1HL330J
VCKYPA1HF103Z
RC-EZY105AF1H
VCTYMN1EF223Z
RC-EZY227AF0J
VCTYMN1EF223Z
RC-EZY106AF1E
VCKYMN1HB101K
VCCCMN1HH180J
VCKYMN1HB151K
VCKYPA1HB102K
VCEAZA1EW476M
VCTYMN1EF223Z
RC-EZY106AF1E
VCTYMN1EF223Z
VCQYKA1HM473K
VCEAZA1HW227M
VCEAZA1HW476M
VCEAZA1VW107M
VCTYPA1EX222K
VCKYPA1HF473Z
RC-KZ002LAWZZ
VCQYKA1HM473K
VCEAZV1CW108M
VCEAZA0JW108M
VCKYPA1HF223Z
VCKYMN1HB102K
VCEAZA1HW225M
VCEAZA1HW476M
VCQYKA1HM104K
VCEAZA1CW107M
VCEAZA1VW107M
VCEAZA1HW474M
VCEAZA1EW107M
VCQYKA1HM104K
VCKYPA1HF223Z
VCEAZA1CW107M
VCEAZA1AW477M
VCEAZW1EW688M
VCEAZW1EW338M
VCEAZW1CW688M
VCQYKA1HM104K
VCEAZA1EW476M
VCKYPA1HF223Z
VCEAZA1AW107M
VCKYPA1HF223Z
VCQYKA1HM104K
VCEAZA1EW476M
VCQYKA1HM104K
VCEAZA1EW476M
VCEAZA1HW475M
VCEAZA1EW476M
RC-EZY476AF1E
VCEAZA1HW475M
VCEAZA1CW226M
VCKYPA1HB102K
RC-KZ0003AWZZ
VCKYCY1CB223K
VCKYCY1AF105Z
VCCCCY1HH5R0C
VCKYCY0JB105K
VCKYCY1CB104K
VCKYCY1AF105Z
VCKYCY1AB474K
VCKYCY1AB224K
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AB
AB
AB
AA
AA
AB
AA
AB
AA
AA
AB
AA
AA
AB
AC
AB
AA
AA
AB
AB
AA
AB
AA
AB
AA
AA
AA
AA
AB
AA
AB
AA
AB
AC
AB
AC
AA
AB
AC
AB
AD
AC
AB
AA
AB
AB
AB
AC
AC
AB
AB
AB
AB
AC
AC
AL
AG
AH
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AC
AA
AE
AA
AB
AA
AC
AB
AB
AC
AB
DESCRIPTION
10 µF,16V,Electrolytic
0.022 µF,50V
1 µF,50V,Electrolytic
390 pF,50V
0.001 µF,50V
10 µF,16V,Electrolytic
220 pF,50V
0.022 µF,50V
100 pF,50V
10 pF,50V
0.01 µF,50V
220 pF,50V
100 pF,50V
0.022 µF,50V
220 µF,10V,Electrolytic
0.022 µF,50V
220 pF,50V
33 pF,50V
0.01 µF,50V
1 µF,50V,Electrolytic
0.022 µF,25V
220 µF,6.3V,Electrolytic
0.022 µF,25V
10 µF,25V,Electrolytic
100 pF,50V
18 pF (CH),50V
150 pF,50V
0.001 µF,50V
47 µF,25V,Electrolytic
0.022 µF,25V
10 µF,25V,Electrolytic
0.022 µF,25V
0.047 µF,50V,Mylar
220 µF,50V,Electrolytic
47 µF,50V,Electrolytic
100 µF,35V,Electrolytic
0.0022 µF,25V
0.047 µF,50V
0.0047 µF,250V,Ceramic
0.047 µF,50V,Mylar
1000 µF,16V,Electrolytic
1000 µF,6.3V,Electrolytic
0.022 µF,50V
0.001 µF,50V
2.2 µF,50V,Electrolytic
47 µF,50V,Electrolytic
0.1 µF,50V,Mylar
100 µF,16V,Electrolytic
100 µF,35V,Electrolytic
0.47 µF,50V,Electrolytic
100 µF,25V,Electrolytic
0.1 µF,50V,Mylar
0.022 µF,50V
100 µF,16V,Electrolytic
470 µF,10V,Electrolytic
6800 µF,25V,Electrolytic
3300 µF,25V,Electrolytic
6800 µF,16V,Electrolytic
0.1 µF,50V,Mylar
47 µF,25V,Electrolytic
0.022 µF,50V
100 µF,10V,Electrolytic
0.022 µF,50V
0.1 µF,50V,Mylar
47 µF,25V,Electrolytic
0.1 µF,50V,Mylar
47 µF,25V,Electrolytic
4.7 µF,50V,Electrolytic
47 µF,25V,Electrolytic
47 µF,25V,Electrolytic
4.7 µF,50V,Electrolytic
22 µF,16V,Electrolytic
0.001 µF,50V
4.7 µF,10V
0.022 µF,16V
1 µF,10V
5 pF (CH),50V
1 µF,6.3V
0.1 µF,16V
1 µF,10V
0.47 µF,10V
0.22 µF,10V
MD-E9000W
NO.
PARTS CODE
C1122
C1123,1124
C1125
C1161
C1200
C1201
C1202
C1205
C1206
C1207
C1208,1209
C1211
C1230
C1260
C1261~1265
C1266
C1300
C1301
C1302
C1303
C1304
C1305
C1340
C1403
C1404
C1405
C1407
C1409
C1510
C1512
C1523,1524
C1530
C1534
C1536
C1538
C1540
C1563
C1602
C1603
C1606
C1607
C1610
C1611
C1613
C1616
C1619
C1655
C1700
C1703
C1704
C1706
C1708
C1715
C1716
C1720,1721
C1750
C1801,1802
C1806
VCKYCY1AF105Z
VCKYCY1CB104K
VCKYCY1AF105Z
VCKYCY1HB102K
VCKYCY1AF105Z
RC-KZ0002AWZZ
VCKYCY1AF105Z
VCKYCY1AF105Z
VCKYCY1CB103K
VCKYCY1AF105Z
VCCCCY1HH120J
VCKYCY1EF104Z
VCKYCY1AF105Z
VCKYCY1EF104Z
VCCCCY1HH221J
VCCCCY1HH220J
VCCCCY1HH151J
VCKYCY1CB223K
RC-KZ0002AWZZ
VCKYCY1AF105Z
VCCCCY1HH221J
VCCCCY1HH680J
VCCCCY1HH101J
VCKYCY1EF104Z
VCKYCY1CB103K
VCCCCY1HH681J
VCKYCY1EF104Z
VCKYCY1AF105Z
VCCCCY1HH101J
VCCCCY1HH101J
VCCCCY1HH101J
VCCCCY1HH101J
VCCCCY1HH470J
VCCCCY1HH470J
VCCCCY1HH101J
VCCCCY1HH151J
VCKYCY1AF105Z
VCCCCY1HH471J
VCCCCY1HH681J
RC-KZ0002AWZZ
VCKYCY1AF105Z
RC-KZ0003AWZZ
VCKYCY1HB472K
VCKYCY1CB103K
VCEAPS107AF1A
VCCCCY1HH331J
VCKYCY1HF103Z
VCEAPS476AF0G
VCKYCY1EF104Z
VCEAPS476AF0G
VCKYCY1HF103Z
VCKYCY1HF103Z
VCKYCY1EF104Z
VCEAPS476AF0G
VCCCCY1HH331J
VCKYCY1EF104Z
RC-KZ0002AWZZ
VCKYCY1AF105Z
PRICE
RANK
DESCRIPTION
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AB
AB
AB
AA
AB
AE
AB
AB
AA
AB
AA
AA
AB
AA
AA
AA
AA
AA
AE
AB
AA
AA
AA
AA
AA
AC
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AB
AA
AC
AE
AB
AE
AA
AA
AD
AA
AB
AC
AA
AC
AB
AB
AA
AC
AA
AA
AE
AB
1 µF,10V
0.1 µF,16V
1 µF,10V
0.001 µF,50V
1 µF,10V
10 µF,10V
1 µF,10V
1 µF,10V
0.01 µF,16V
1 µF,10V
12 pF (CH),50V
0.1 µF,25V
1 µF,10V
0.1 µF,25V
220 pF (CH),50V
22 pF (CH),50V
150 pF (CH),50V
0.022 µF,16V
10 µF,10V
1 µF,10V
220 pF (CH),50V
68 pF (CH),50V
100 pF (CH),50V
0.1 µF,25V
0.01 µF,16V
680 pF (CH),50V
0.1 µF,25V
1 µF,10V
100 pF (CH),50V
100 pF (CH),50V
100 pF (CH),50V
100 pF (CH),50V
47 pF (CH),50V
47 pF (CH),50V
100 pF (CH),50V
150 pF (CH),50V
1 µF,10V
470 pF (CH),50V
680 pF (CH),50V
10 µF,10V
1 µF,10V
4.7 µF,10V
0.0047 µF,50V
0.01 µF,16V
100 µF,10V,Electrolytic
330 pF (CH),50V
0.01 µF,50V
47 µF,4V,Electrolytic
0.1 µF,25V
47 µF,4V,Electrolytic
0.01 µF,50V
0.01 µF,50V
0.1 µF,25V
47 µF,4V,Electrolytic
330 pF (CH),50V
0.1 µF,25V
10 µF,10V
1 µF,10V
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
0 ohm,Jumper,ø1.4×3.5mm,Ivory
0 ohm,Jumper,0.8×1.55mm,Green
8.2 kohms,1/6W
22 kohms,1/6W
8.2 kohms,1/6W
8.2 kohms,1/6W
22 kohms,1/6W
47 ohms,1/6W
3.3 ohms,1/8W
27 kohms,1/8W
10 kohm,1/8W
330 ohms,1/8W
15 kohms,1/8W
1.2 kohms,1/8W
12 kohms,1/8W
680 ohms,1/8W
6.8 kohms,1/8W
15 kohms,1/8W
8.2 kohms,1/8W
8.2 kohms,1/6W
1 kohm,1/8W
RESISTORS
R1
R2
R3,4
R6
R7
R8
R9
R10
R11
R12
R13
R14
R15
R16,17
R18
R19
R20
R21
R23
VRD-MN2BD000C
VRS-CY1JB000J
VRD-ST2CD822J
VRD-ST2CD223J
VRD-ST2CD822J
VRD-ST2CD822J
VRD-ST2CD223J
VRD-ST2CD470J
VRD-MN2BD3R3J
VRD-MN2BD273J
VRD-MN2BD103J
VRD-MN2BD331J
VRD-MN2BD153J
VRD-MN2BD122J
VRD-MN2BD123J
VRD-MN2BD681J
VRD-MN2BD682J
VRD-MN2BD153J
VRD-MN2BD822J
VRD-ST2CD822J
VRD-MN2BD102J
NO.
R24
R27~33
R35,36
R37~39
R40
R42
R48
R49
R50
R53
R54
R55
R56
R302
R309
R311
R313
R314
R316
R322
R323
R325
R327
R336
R350
R351
R352
R353
R355
R356
R357
R358
R359
R360
R365
R368
R372~374
R375
R376
R377
R378
R379
R380
R381
R382
R383
R384
R385
R387
R388
R391,392
R393
R395
R401~403
R413,414
R415,416
R417,418
R441,442
R443,444
R445
R446,447
R448,449
R451
R452,453
R454,455
R456,457
R458,459
R460
R461~463
R701
R702
R703
R704
R705
R706
R707
R709
R710
R711
R712
R713
R714
–3–
PRICE
RANK
PARTS CODE
VRD-MN2BD473J
VRD-ST2CD102J
VRD-MN2BD102J
VRD-ST2CD101J
VRD-ST2CD103J
VRD-ST2CD221J
VRD-RT2HD2R2J
VRD-MN2BD562J
VRD-MN2BD153J
VRD-MN2BD221J
VRD-ST2CD102J
VRD-MN2BD104J
VRD-MN2BD183J
VRD-MN2BD100J
VRD-ST2CD103J
VRD-MN2BD104J
VRD-MN2BD333J
VRD-ST2CD220J
VRD-MN2BD472J
VRD-MN2BD681J
VRD-MN2BD683J
VRD-MN2BD473J
VRD-MN2BD330J
VRD-MN2BD103J
VRD-MN2BD272J
VRD-MN2BD562J
VRD-MN2BD102J
VRD-MN2BD271J
VRD-MN2BD332J
VRD-MN2BD102J
VRD-ST2CD474J
VRD-ST2CD392J
VRD-ST2CD182J
VRD-ST2CD472J
VRD-MN2BD103J
VRD-ST2CD223J
VRD-MN2BD102J
VRD-ST2CD471J
VRD-MN2BD102J
VRD-MN2BD473J
VRD-MN2BD102J
VRD-MN2BD222J
VRD-MN2BD152J
VRD-MN2BD103J
VRD-ST2EE151J
VRD-MN2BD562J
VRD-ST2CD562J
VRD-MN2BD562J
VRD-ST2CD562J
VRD-MN2BD392J
VRD-ST2EE271J
VRD-MN2BD102J
VRD-MN2BD473J
VRD-ST2CD102J
VRD-ST2CD392J
VRD-ST2CD332J
VRD-ST2CD101J
VRD-ST2CD822J
VRD-ST2CD273J
VRD-ST2CD103J
VRD-ST2CD103J
VRD-ST2CD272J
VRD-ST2CD101J
VRD-ST2CD103J
VRD-ST2CD101J
VRD-ST2CD103J
VRD-ST2CD123J
VRD-ST2CD274J
VRD-ST2CD560J
VRD-MN2BD681J
VRD-MN2BD182J
VRD-MN2BD272J
VRD-MN2BD472J
VRD-MN2BD822J
VRD-MN2BD183J
VRD-MN2BD104J
VRD-MN2BD681J
VRD-MN2BD182J
VRD-MN2BD272J
VRD-MN2BD472J
VRD-MN2BD822J
VRD-MN2BD183J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
DESCRIPTION
47 kohms,1/8W
1 kohm,1/6W
1 kohm,1/8W
100 ohm,1/6W
10 kohm,1/6W
220 ohms,1/6W
2.2 ohms,1/2W
5.6 kohms,1/8W
15 kohms,1/8W
220 ohms,1/8W
1 kohm,1/6W
100 kohm,1/8W
18 kohms,1/8W
10 ohm,1/8W
10 kohm,1/6W
100 kohm,1/8W
33 kohms,1/8W
22 ohms,1/6W
4.7 kohms,1/8W
680 ohms,1/8W
68 kohms,1/8W
47 kohms,1/8W
33 ohms,1/8W
10 kohm,1/8W
2.7 kohms,1/8W
5.6 kohms,1/8W
1 kohm,1/8W
270 ohms,1/8W
3.3 kohms,1/8W
1 kohm,1/8W
470 kohms,1/6W
3.9 kohms,1/6W
1.8 kohms,1/6W
4.7 kohms,1/6W
10 kohm,1/8W
22 kohms,1/6W
1 kohm,1/8W
470 ohms,1/6W
1 kohm,1/8W
47 kohms,1/8W
1 kohm,1/8W
2.2 kohms,1/8W
1.5 kohms,1/8W
10 kohm,1/8W
150 ohms,1/4W
5.6 kohms,1/8W
5.6 kohms,1/6W
5.6 kohms,1/8W
5.6 kohms,1/6W
3.9 kohms,1/8W
270 ohms,1/4W
1 kohm,1/8W
47 kohms,1/8W
1 kohm,1/6W
3.9 kohms,1/6W
3.3 kohms,1/6W
100 ohm,1/6W
8.2 kohms,1/6W
27 kohms,1/6W
10 kohm,1/6W
10 kohm,1/6W
2.7 kohms,1/6W
100 ohm,1/6W
10 kohm,1/6W
100 ohm,1/6W
10 kohm,1/6W
12 kohms,1/6W
270 kohms,1/6W
56 ohms,1/6W
680 ohms,1/8W
1.8 kohms,1/8W
2.7 kohms,1/8W
4.7 kohms,1/8W
8.2 kohms,1/8W
18 kohms,1/8W
100 kohm,1/8W
680 ohms,1/8W
1.8 kohms,1/8W
2.7 kohms,1/8W
4.7 kohms,1/8W
8.2 kohms,1/8W
18 kohms,1/8W
MD-E9000W
NO.
R716
R717
R718
R719
R720
R721
R722
R723~730
R731~735
R736
R737~744
R745,746
R747
R748,749
R750,751
R752~754
R759
R761,762
R763
R764
R765~769
R771,772
R773
R775
R776,777
R778
R781
R782
R783
R784
R785
R786
R787
R788
R789~791
R792~799
R801
R802
R803
R804
R805
R806
R871
R872
R873
R901
R902
R903,904
R905,906
R907,908
R909
R910
R911~914
R923,924
R928
R941
R942
R952
R953
R954,955
R961,962
R972
R973
R974
R975
R977,978
R979
R981,982
R983
R984
R1100
R1101
R1102
R1105
R1110
R1111,1112
R1113
R1114
R1115
R1116,1117
R1118
R1119
PRICE
RANK
PARTS CODE
VRD-MN2BD681J
VRD-MN2BD182J
VRD-MN2BD272J
VRD-MN2BD472J
VRD-MN2BD822J
VRD-MN2BD183J
VRD-MN2BD104J
VRD-MN2BD473J
VRD-MN2BD102J
VRD-ST2CD102J
VRD-MN2BD102J
VRD-MN2BD562J
VRD-MN2BD102J
VRD-ST2CD102J
VRD-ST2CD562J
VRD-ST2CD102J
VRD-ST2CD102J
VRD-ST2CD102J
VRD-MN2BD102J
VRD-ST2CD102J
VRD-MN2BD102J
VRD-ST2CD103J
VRD-MN2BD222J
VRD-ST2CD824J
VRD-ST2CD473J
VRD-MN2BD560J
VRD-MN2BD223J
VRD-MN2BD101J
VRD-MN2BD104J
VRD-ST2CD473J
VRD-MN2BD474J
VRD-ST2CD103J
VRD-MN2BD474J
VRD-MN2BD103J
VRD-ST2CD103J
VRD-MN2BD473J
VRD-ST2CD102J
VRD-ST2CD221J
VRD-ST2CD123J
VRD-ST2CD221J
VRD-ST2CD224J
VRD-ST2CD473J
VRD-ST2CD221J
VRD-ST2CD473J
VRD-ST2CD102J
VRD-MN2BD153J
VRD-ST2CD153J
VRD-MN2BD272J
VRD-MN2BD222J
VRD-MN2BD102J
VRD-MN2BD223J
VRD-MN2BD332J
VRD-ST2CD102J
VRD-ST2EE4R7J
VRD-RT2HD222J
VRD-ST2CD102J
VRD-ST2CD473J
VRD-ST2CD223J
VRD-ST2CD122J
VRD-ST2EE221J
VRD-ST2CD103J
VRD-ST2CD333J
VRD-ST2CD332J
VRD-ST2CD103J
VRD-ST2EE2R2J
VRD-ST2CD103J
VRD-ST2CD331J
VRD-ST2EE271J
VRD-MN2BD103J
VRD-RT2HD470J
VRS-TQ2BB270J
VRS-CY1JB1R0J
VRS-CY1JB103J
VRS-CY1JB122J
VRS-CY1JB684F
VRS-CY1JB104F
VRS-CY1JB684F
VRS-CY1JB123J
VRS-CY1JB334F
VRS-CY1JB473F
VRS-CY1JB334F
VRS-CY1JB224J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
DESCRIPTION
680 ohms,1/8W
1.8 kohms,1/8W
2.7 kohms,1/8W
4.7 kohms,1/8W
8.2 kohms,1/8W
18 kohms,1/8W
100 kohm,1/8W
47 kohms,1/8W
1 kohm,1/8W
1 kohm,1/6W
1 kohm,1/8W
5.6 kohms,1/8W
1 kohm,1/8W
1 kohm,1/6W
5.6 kohms,1/6W
1 kohm,1/6W
1 kohm,1/6W
1 kohm,1/6W
1 kohm,1/8W
1 kohm,1/6W
1 kohm,1/8W
10 kohm,1/6W
2.2 kohms,1/8W
820 kohms,1/6W
47 kohms,1/6W
56 ohms,1/8W
22 kohms,1/8W
100 ohm,1/8W
100 kohm,1/8W
47 kohms,1/6W
470 kohms,1/8W
10 kohm,1/6W
470 kohms,1/8W
10 kohm,1/8W
10 kohm,1/6W
47 kohms,1/8W
1 kohm,1/6W
220 ohms,1/6W
12 kohms,1/6W
220 ohms,1/6W
220 kohms,1/6W
47 kohms,1/6W
220 ohms,1/6W
47 kohms,1/6W
1 kohm,1/6W
15 kohms,1/8W
15 kohms,1/6W
2.7 kohms,1/8W
2.2 kohms,1/8W
1 kohm,1/8W
22 kohms,1/8W
3.3 kohms,1/8W
1 kohm,1/6W
4.7 ohms,1/4W
2.2 kohms,1/2W
1 kohm,1/6W
47 kohms,1/6W
22 kohms,1/6W
1.2 kohms,1/6W
220 ohms,1/4W
10 kohm,1/6W
33 kohms,1/6W
3.3 kohms,1/6W
10 kohm,1/6W
2.2 ohms,1/4W
10 kohm,1/6W
330 ohms,1/6W
270 ohms,1/4W
10 kohm,1/8W
47 ohms,1/2W
27 ohms,1/8W
1 ohm,1/16W
10 kohm,1/16W
1.2 kohms,1/16W
680 kohms,1/16W
100 kohm,1/16W
680 kohms,1/16W
12 kohms,1/16W
330 kohms,1/16W
47 kohms,1/16W
330 kohms,1/16W
220 kohms,1/16W
NO.
PARTS CODE
R1120
R1121
R1122,1123
R1124,1125
R1201
R1203
R1205
R1207
R1209
R1210,1211
R1214
R1215
R1217
R1230,1231
R1261~1266
R1300
R1301
R1304
R1401
R1403
R1406
R1407,1408
R1414
R1415
R1417,1418
R1420
R1430
R1435
R1441
R1443
R1446
R1460
R1463
R1515,1516
R1517,1518
R1521
R1529
R1532
R1533~1538
R1601
R1605
R1612
R1614
R1616
R1618
R1621
R1622,1623
R1624
R1701
R1702
R1703~1705
R1716
R1802
R1803
R1804
R1806
R1807
R1809
R1811
R1931
R1932
R1933
R1934
VRS-CY1JB564J
VRS-CY1JB104J
VRS-CY1JB123J
VRS-CY1JB222J
VRS-CY1JB563F
VRS-CY1JB104F
VRS-CY1JB683J
VRS-CY1JB393J
VRS-CY1JB101J
VRS-CY1JB221J
VRS-CY1JB103J
VRS-CY1JB105J
VRS-CY1JB151J
VRS-CY1JB103F
VRS-CY1JB273J
VRS-CY1JB6R8J
VRS-CY1JB100J
VRS-CY1JB151J
VRS-CY1JB272J
VRS-CY1JB271J
VRS-CY1JB103J
VRS-CY1JB332J
VRS-CY1JB224J
VRS-CY1JB102J
VRS-CY1JB102J
VRS-CY1JB102J
VRS-CY1JB103J
VRS-CY1JB103J
VRS-CY1JB473J
VRS-CY1JB102J
VRS-CY1JB103J
VRS-CY1JB103J
VRS-CY1JB103J
VRS-CY1JB221J
VRS-CY1JB470J
VRS-CY1JB102J
VRS-CY1JB221J
VRS-CY1JB273J
VRS-CY1JB102J
VRS-CY1JB123F
VRS-CY1JB123F
VRS-CY1JB563J
VRS-CY1JB333J
VRS-CY1JB123J
VRS-CY1JB223J
VRS-CY1JB682J
VRS-CY1JB223J
VRS-CY1JB682J
VRS-CY1JB473J
VRS-CY1JB333J
VRS-CY1JB3R9J
VRS-CY1JB104J
VRS-CY1JB563J
VRS-CY1JB333J
VRS-CY1JB391J
VRS-TQ2BB1R0J
VRS-CY1JB273J
VRS-TQ2BB1R0J
VRS-TQ2BB1R0J
VRS-CY1JB102J
VRS-CY1JB471J
VRS-CY1JB561J
VRS-CY1JB181J
PRICE
RANK
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
DESCRIPTION
560 kohms,1/16W
100 kohm,1/16W
12 kohms,1/16W
2.2 kohms,1/16W
56 kohms,1/16W
100 kohm,1/16W
68 kohms,1/16W
39 kohms,1/16W
100 ohm,1/16W
220 ohms,1/16W
10 kohm,1/16W
1 Mohm,1/16W
150 ohms,1/16W
10 kohm,1/16W
27 kohms,1/16W
6.8 ohms,1/16W
10 ohm,1/16W
150 ohms,1/16W
2.7 kohms,1/16W
270 ohms,1/16W
10 kohm,1/16W
3.3 kohms,1/16W
220 kohms,1/16W
1 kohm,1/16W
1 kohm,1/16W
1 kohm,1/16W
10 kohm,1/16W
10 kohm,1/16W
47 kohms,1/16W
1 kohm,1/16W
10 kohm,1/16W
10 kohm,1/16W
10 kohm,1/16W
220 ohms,1/16W
47 ohms,1/16W
1 kohm,1/16W
220 ohms,1/16W
27 kohms,1/16W
1 kohm,1/16W
12 kohms,1/16W
12 kohms,1/16W
56 kohms,1/16W
33 kohms,1/16W
12 kohms,1/16W
22 kohms,1/16W
6.8 kohms,1/16W
22 kohms,1/16W
6.8 kohms,1/16W
47 kohms,1/16W
33 kohms,1/16W
3.9 ohms,1/16W
100 kohm,1/16W
56 kohms,1/16W
33 kohms,1/16W
390 ohms,1/16W
1 ohm,1/8W
27 kohms,1/16W
1 ohm,1/8W
1 ohm,1/8W
1 kohm,1/16W
470 ohms,1/16W
560 ohms,1/16W
180 ohms,1/16W
OTHER CIRCUITRY PARTS
BI1/CNS402
BI301/CNS301
BI441/CNS441
BI701/CNS701
BI702/CNS702
BI704A/B/CNS704
BI901/CNS901
BI902/CNS902
BI903A/B/CNS903
CN1101
CN1300
CN1401
CN1501
CNP1
CNP2
CNP3
–4–
QCNWN1886AWZZ J
QCNWN1977AWZZ J
QCNWN1887AWZZ J
QCNWN1884AWZZ J
QCNWN1885AWZZ J
QCNWN1888AWZZ J
QCNWN1890AWZZ J
QCNWN1891AWZZ J
QCNWN1892AWZZ J
QCNCWXM28AFZZ J
QCNCM891BAFZZ J
QCNCWYR09AWZZ J
QCNCWYR27AWZZ J
QCNCM704GAWZZ J
QCNCM704HAWZZ J
92LCONE2P53253 J
AH Connector Ass’y,6/7Pin
AG Connector Ass’y,9/9Pin
Connector Ass’y,6/6Pin
AF Connector Ass’y,5/5Pin
AG Connector Ass’y,8/8Pin
AG Connector Ass’y,6/3/3Pin
AH Connector Ass’y,7/7Pin
AH Connector Ass’y,12/12Pin
AK Connector Ass’y,7/4/11Pin
AG Socket,28Pin
AC Plug,2Pin
AD Socket,9Pin
AE Socket,27Pin
AC Plug,7Pin
AC Plug,8Pin
AB Plug,2Pin
MD-E9000W
NO.
PRICE
RANK
PARTS CODE
CNP4
CNP4A
CNP5
CNP6
CNP401
CNP402
CNP403
CNP404
CNP405
CNP406
CNP441
CNP451
CNP702
CNP703
CNP704
CNP871
CNP903
CNP971
CNS1A/B
CNS2A/B
CNS3
CNS4A/B
CNS6
CNS971
CORE1,2
CW1501
CW1931
1 F801
1 F802,803
FFC702
FFC703
FL701
JK441
JK981
LUG901
M1
M2
M901
M902
M903
M904
M905
1 RL800
RX781
SO301
1 SO801
SO901
SW4
SW441
92LCONE6P53253 J
92LCONE6P53254 J
92LCONE8P53253 J
92LCONE6P53253 J
QCNCWZX08AWZZ J
QCNCM705GAFZZ J
92LCONECP53253 J
92LCONE7P53253 J
92LCONE9P53253 J
QCNCWZX12AWZZ J
92LCONE6P53253 J
QCNCWYP27AWZZ J
QCNCWZY12AWZZ J
QCNCWZY08AWZZ J
92LCONE3P53253 J
92LCONE5P53254 J
92LCONEBP5267X J
92LCONE2P53253 J
QCNWN1976AWZZ J
QCNWN1975AWZZ J
QCNWN1895AWZZ J
QCNWN1894AWZZ J
QCNWN2077AWZZ J
QCNWN1896AWZZ J
RCORF0015AWZZ J
QCNWN1880AWZZ J
QCNWN1742AWZZ J
QFS-D632CAWNI J
QFS-D252CAWNI J
QCNWN1889AWZZ J
QCNWN1882AWZZ J
VVKST48GNK/-1
J
QSOCJ0221AWZZ J
QJAKM0004AWZZ J
QLUGP0001AWZZ J
92LMTR1854BASY J
92LMTR3515CASY J
RMOTV0038AWZZ J
92LMTR3167BASY J
92LMTR3167AASY J
RMOTV0027AWZZ J
RMOTV0027AWZZ J
RRLYD0011AWZZ J
VHLN64H380A-1
J
QTANC0301AWZZ J
QSOCA0212AWZZ J
QTANA0416AWZZ J
QSW-F9001AW01 J
QSW-S0024AWZZ J
AC
AC
AC
AC
AC
AB
AD
AC
AC
AC
AC
AC
AB
AF
AE
AC
AC
AE
AD
AZ
AD
AK
AC
AP
BA
AT
AP
AN
AM
AM
AE
AK
AH
AD
AE
AD
AE
SW701
SW702
SW703
92LSWICH1401AT J
92LSWICH1401AT J
92LSWICH1401AT J
AC
AC
AC
SW704
SW705
92LSWICH1401AT J
92LSWICH1401AT J
AC
AC
SW706
92LSWICH1401AT J
AC
SW707
SW708
92LSWICH1401AT J
92LSWICH1401AT J
AC
AC
SW709
SW710
92LSWICH1401AT J
92LSWICH1401AT J
AC
AC
SW711
SW712
SW713
SW714
SW715
92LSWICH1401AT
92LSWICH1401AT
92LSWICH1401AT
92LSWICH1401AT
92LSWICH1401AT
J
J
J
J
J
AC
AC
AC
AC
AC
SW716
SW717
SW718
SW719
SW720
SW721
SW722
SW723
SW724
1 SW801
92LSWICH1401AT
92LSWICH1401AT
92LSWICH1401AT
92LSWICH1401AT
92LSWICH1401AT
92LSWICH1401AT
92LSWICH1401AT
92LSWICH1401AT
QSW-B0002AWZZ
QSOCE0008AWZZ
J
J
J
J
J
J
J
J
J
J
AC
AC
AC
AC
AC
AC
AC
AC
AF
AH
AC
AC
AB
AB
AC
AB
AG
AF
AC
AF
DESCRIPTION
Plug,6Pin
Plug,6Pin
Plug,8Pin
Plug,6Pin
Socket,8Pin
Plug,7Pin
Plug,12Pin
Plug,7Pin
Plug,9Pin
Socket,12Pin
Plug,6Pin
Socket,27Pin
Socket,12Pin
Socket,8Pin
Plug,3Pin
Plug,5Pin
Plug,11Pin
Plug,2Pin
Connector Ass’y,7/7Pin
Connector Ass’y,8/8Pin
Connector Ass’y,2Pin
Connector Ass’y,6/6Pin
Connector Ass’y,2Pin
Connector Ass’y,2Pin
Core
Flat Cable,27Pin
Flat Cable,9Pin
Fuse,T6.3A L 250V
Fuse,T2.5A L 250V
Flat Cable,12Pin
Flat Cable,8Pin
FL Display
Jack,AUX Input
Jack,Headphones
Lug
Motor with Gear [Sled]
Motor with Chassis [Spindle]
MD Spindle Motor Ass’y
MD Sled Motor Ass’y
MD Loading Motor Ass’y
CD Lid Motor
Motor,Air Cooling Fan
Relay
Remote Sensor,N64H380A
Terminal,Antenna
Socket,AC Input
Terminal,Speaker
Switch,Push Type [Pickup In]
Switch,Slide Type
[Span Selector]
Switch,Key Type [Volume Down]
Switch,Key Type [Volume Up]
Switch,Key Type
[CD Play/Pause]
Switch,Key Type [CD Stop]
Switch,Key Type
[FF/Skip Up/Preset Up]
Switch,Key Type
[REW/Skip Down/Preset Down]
Switch,Key Type [MD Stop]
Switch,Key Type
[MD Play/Pause]
Switch,Key Type [Memory/Enter]
Switch,Key Type
[Display (Demo)]
Switch,Key Type [X-Bass]
Switch,Key Type [Equalizer]
Switch,Key Type [Aux]
Switch,Key Type [Tuner (Band)]
Switch,Key Type
[CD Open/Close]
Switch,Key Type [On/Stand-by]
Switch,Key Type [MD Eject]
Switch,Key Type [LP4]
Switch,Key Type [LP2]
Switch,Key Type [SP]
Switch,Key Type [Normal]
Switch,Key Type [High]
Switch,Key Type [MD Rec]
Switch,Lever Type [Open/Close]
Switch,Slide Type
[Voltage Selector]
NO.
SW1930
SW1932
SW1933
SW1934
SW1936
PRICE
RANK
PARTS CODE
QSW-P0011AWZZ
QSW-M0007AWZZ
QSW-M0007AWZZ
QSW-M0007AWZZ
QSW-M0157AFZZ
DESCRIPTION
J
J
J
J
J
AD
AD
AD
AD
AD
Switch,Push Type [Write Pro]
Switch,Push Type [Loading]
Switch,Push Type [Record]
Switch,Push Type [Play]
Switch,Slide Type [Lead In]
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AH
AH
AG
AK
AE
AC
AC
AC
AB
AB
AC
AC
AB
AC
AB
AB
AC
AC
AC
AG
AC
AG
AL
AF
AC
AR
BM
AB
AB
AB
AA
AB
AB
AB
AB
AB
AB
AA
AB
AB
AT
AP
AN
AD
AD
AD
AD
AD
LD Base
MD Base
Cartridge Holder Ass’y
Slider Lever Ass’y
Arm,Holder
Plate,Switch
Lever,Shift
Lever,Cam Plate
Spring,Loading
Spring,Grip
Spring,Shaft
Spring,Loading Arm
Spring,Shift Arm
Gear,Loading (A)
Gear,Middle (A)
Gear,Middle (B)
Gear,Middle (C)
Gear,Middle (D)
Gear,Grip
Drive Shaft Ass’y
Shaft,Pickup Slide
Cover,Shield,Top
Cover,Shield,Side
Cover,Shield,Bottom
Cushion,Shield Cover
Magnetic Head
MD Optical Pickup Ass’y
Spring,Ground
Screw,ø1.4×1.5mm
Screw,ø2×2mm
Screw,ø1.4×2.5mm
Screw,ø1.7×5mm
Screw,ø1.4×3mm
Screw,ø1.7×3mm
Screw,ø1.4×4.5mm
Screw,ø2×3mm
Screw,ø1.7×3mm
Washer,ø1.4×0.5mm
Screw,ø1.7×3mm
Screw,ø1.4×5mm
MD Spindle Motor Ass’y
MD Sled Motor Ass’y
MD Loading Motor Ass’y
Switch,Push Type [Write Pro]
Switch,Push Type [Loading]
Switch,Push Type [Record]
Switch,Push Type [Play]
Switch,Slide Type [Lead In]
Gear,Middle
Gear,Drive
Rail,Guide
Shaft,Guide
Pickup Unit Ass’y
Pickup Unit
(Not Replacement Item)
Gear,Rack
Spring,Rack
Screw,ø2.6×6mm
Screw,ø2×5mm
Screw,ø2×3mm
Washer,ø1.5×ø3.8×0.25mm
Motor with Gear [Sled]
Motor with Chassis [Spindle]
Switch,Push Type [Pickup In]
MD MECHANISM PARTS
2
3
4
5
7
8
9
10
12
14
15
16
17
18
19
20
21
22
24
27
28
30
31
32
33
34
1 35
36
501
502
503
504
505
506
507
509
510
511
512
513
M901
M902
M903
SW1930
SW1932
SW1933
SW1934
SW1936
LCHSM0089AWZZ
LCHSM0090AWZZ
LHLDX3009AWM1
MLEVF0051AWM1
MLEVF0046AWFW
MLEVF0047AWFW
MLEVF0054AWFW
MLEVP0095AWZZ
MSPRD0132AWFJ
MSPRP0030AWFJ
MSPRP0031AWFJ
MSPRT0031AWFJ
MSPRT0032AWFJ
NGERH0085AWZZ
NGERH0086AWZZ
NGERH0087AWZZ
NGERH0088AWZZ
NGERH0089AWZZ
NGERR0004AWZZ
NSFTD0006AWM1
NSFTM0019AWFW
PCOVS3029AWFW
PCOVS3035AWFW
PCOVS3036AWFW
PCUSG0045AWZZ
RCILH0005AWZZ
RCTRH8198AFZZ
MSPRT0034AWFJ
LX-BZ0040AWZZ
LX-BZ0046AWZZ
LX-BZ0800AFZZ
LX-BZ0883AFZZ
LX-JZ0020AWZZ
LX-JZ0022AWZZ
LX-JZ0024AWZZ
XBPSD20P03K00
XSPSN17P03K00
XWSSD14-05000
LX-BZ0846AFZZ
LX-JZ0025AWZZ
RMOTV0038AWZZ
92LMTR3167BASY
92LMTR3167AASY
QSW-P0011AWZZ
QSW-M0007AWZZ
QSW-M0007AWZZ
QSW-M0007AWZZ
QSW-M0157AFZZ
CD MECHANISM PARTS
301
302
303
304
1 306
306- 1
NGERH0011AWZZ
NGERH0012AWZZ
MLEVP0010AWZZ
NSFTM0020AWFW
92LHPC1LXASY
————
J
J
J
J
J
AC
AC
AC
AD
BD
—
306- 2
306- 3
701
702
703
704
M1
M2
SW4
NGERR0043AFZZ
MSPRC0961AFZZ
XBSSD26P06000
XHBSD20P05000
XBBSD20P03000
LX-WZ1070AFZZ
92LMTR1854BASY
92LMTR3515CASY
QSW-F9001AW01
J
J
J
J
J
J
J
J
J
AC
AA
AA
AA
AA
AA
AP
BA
AD
J
J
J
J
AK Rear Cabinet
CD Lid Gear Unit Ass’y
AF Holder,Motor
AF Cover,Motor Holder
CABINET PARTS
202
203
203- 1
203- 2
–5–
GCABB1257AWSA
GEAR3641AASY1
LHLDZ1399AWZZ
LHLDZ1400AWZZ
MD-E9000W
NO.
203- 3
203- 4
203- 5
203- 6
204
205
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
1 241
242
243
244
245
246
247
248
249
250
251
255
256
257
258
259
260
261
PRICE
RANK
PARTS CODE
NGERW0018AWZZ
NGERH0148AWZZ
NGERH0149AWZZ
NGERW0019AWZZ
GCOVA1413AWSA
GITAR0731AWSA
GITAR0862AWSA
GITAS0093AWSA
GITAS0094AWSA
GDORF0064AWSM
GDORF0108AWSA
HPNLC1297AWSA
JKNBZ0814AWSA
JKNBZ0815AWSA
JKNBZ0816AWSA
LANGK0263AWFW
LANGK0264AWFW
LANGQ0013AWFW
LCHSM0129AWFW
LHLDZ1345AWZZ
LHLDZ1346AWZZ
LHLDZ1347AWZZ
LHLDZ1353AWZZ
LHLDZ1354AWZZ
LPLTP0012AWZZ
MLEVP0107AWSA
MLEVP0116AWSA
MSPRD0108AWFJ
MSPRT0022AWZZ
NBRGC0003AWZZ
NFANP0001AWZZ
PCOVP1001AWSA
PCUSG0022AWZZ
PCUSG0061AWZZ
PFLT-0047AWZZ
PRDAR0168AWFW
PRDAR0194AWFW
PSHEP0060AWZZ
PSHEP0065AWZZ
PSHEP0066AWZZ
PSHEP0071AWZZ
PSLDM9001AWZZ
QFSHD0001AWZZ
TCAUS0028AWZZ
92LCAUT1706A1
92LCAUT1706B
92LCSPR1431C
92LMCUSN1524A
92LNBAND1318A
PSLDC5001AWZZ
PSLDC5002AWZZ
PSLDC5003AWZZ
QCNWN2084AWZZ
PSPAZ0043AWZZ
GCOVA1393AWSA
GCOVA1398AWSA
GCOVA1399AWSA
HDECQ0729AWSA
HDECQ0752AWSA
PCOVQ1009AWZZ
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
263
263
TSPC-0957AWZZ
TSPC-0958AWZZ
J
J
601
602
603
604
605
606
607
609
610
611
612
613
614
615
616
617
618
619
LX-BZ0880AFZZ
LX-EZ0005AWFD
LX-EZ0029AWFN
LX-HZ0082AFZZ
LX-JZ0010AFFD
XBBSD20P04000
XEBSD20P14000
XEBSD26P06000
XEBSD26P08000
XEBSD26P10000
XEBSD30P10000
XEBSF26P08000
XHBSD30P06000
XJBSD30P08000
XJBSD30P10000
XJBSF30P10000
XJSSD30P10000
XWHSD26-05100
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
AE
AE
AE
AK
AF
AH
AK
AF
AD
AR
AN
AG
AG
AE
AD
AD
AP
AD
AD
AD
AC
AC
AD
AD
AC
AB
AC
AD
AE
AB
AB
AB
AF
AP
AE
AC
AB
AF
AF
AB
AB
AC
AA
AA
AD
AA
AE
AV
AL
AR
AK
AC
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
DESCRIPTION
NO.
Gear,Worm
Gear,Reduction (A)
Gear,Reduction (B)
Wheel,Worm
Cover,Bottom
Rear Panel [Except for Russian]
Rear Panel [For Russian]
Side Panel,Right
Side Panel,Left
Door,MD
Frame,MD Door
Top Cabinet
Button,Function
Button,CD/MD Function
Button,Rec
Bracket,Fan Support
Bracket,Tuner PWB
Bracket,Remote Sensor
Main Chassis
Holder,MD,Left
Holder,MD,Right
Holder,FL Display
Lid Holder,Left
Lid Holder,Right
Plate,Cam
Lever,CD Lid,A
Lever,CD Lid,B
Spring,Fan Motor
Spring,MD Lid
Bearing Metal
Rotary Fan
Cover,CD Mechanism
Cushion,Leg
Cushion,CD Lid
Felt
Heat Sink,Sub C
Heat Sink,Main
FL Filter
Sheet,Reflector,A
Sheet,Reflector,B
Sheet,Reflector,C
Plate,Shield
Holder,Fuse
Caution Label,Class 3B
Label,Class 3 Laser
Label,Laser
Spring,Ring
Cushion
Nylon Band,80mm
Copper Sheet,A
Copper Sheet,B
Copper Sheet,C
Lug Wire
PWB Insulator,A
CD Indicator,Top
CD Lid Panel
FL Panel
CD Lid
MD Decoration Panel
Shield,Terminal
[For Australia/New Zealand
Only]
Label,Specifications [For Taiwan]
Label,Specifications
[For Thailand]
Screw,ø2×2.2mm
Screw,Special
Screw,ø2.6×10mm
Screw,ø4×8mm
Screw,ø3×10mm
Screw,ø2×4mm
Screw,ø2×14mm
Screw,ø2.6×6mm
Screw,ø2.6×8mm
Screw,ø2.6×10mm
Screw,ø3×10mm
Screw,ø2.6×8mm
Screw,ø3×6mm
Screw,ø3×8mm
Screw,ø3×10mm
Screw,ø3×10mm
Screw,ø3×10mm
Washer,ø2.6×10×0.5mm
–6–
PRICE
RANK
PARTS CODE
DESCRIPTION
ACCESSORIES/PACKING PARTS
1
1
1
1
1
————
QACCB0012AW00
QACCE0007AW00
QACCJ0006AW00
QACCL0002AW00
QANTL0009AWZZ
QPLGA0004AWZZ
SPAKA0308AWZZ
SPAKA0309AWZZ
SPAKC1298AWZZ
SPAKT0027AWZZ
SPAKZ0775AWZZ
SPAKZ0777AWZZ
SPAKZ0779AWZZ
SSAKA0007AWZZ
SSAKH0063AWZZ
TCAUA0071WAZZ
TCAUZ0103AWZZ
TGANZ0028AW86
TINSZ0721AWZZ
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
J
TINSZ0722AWZZ
J
TINSZ0738AWZZ
TLABE0554AWZZ
TLABE0587AWZZ
TLABG0002AWZZ
TLABS0337AWZZ
TLABS0351AWZZ
TLABZ0976AWZZ
92LBAG1770A
J
J
J
J
J
J
J
J
—
AS
AH
AK
AN
AH
AF
AL
AL
AL
AB
AB
AD
AN
AB
AB
92LFANT1746A
J
92LGCARD1266E1 J
AD
AC
92LLABL1204C
92LLABL1507B
J
J
AA
AA
92LPANEL713A
J
RRMCG0277AWSA J
GFTAB1038AWSA J
AB
AX
Battery (Not Replacement Item)
AC Power Supply Cord
AC Power Supply Cord
AC Power Supply Cord
AC Power Supply Cord
AM Loop Antenna
AC Plug Adaptor
Packing Add.,Left
Packing Add.,Right
Packing Case
Inner Packing Case
Pad,Accessories
Sheet,Protection
Pad,Cushion
Polyethylene Bag,Accessories
Polyethylene Bag,Unit
Tag,Caution [For Taiwan Only]
Sheet,Approval
Warranty Card [For Taiwan]
Operation Manual
[For Australia/New Zealand]
Operation Manual
[Except for Australia/New
Zealand/Russian]
Operation Manual [For Russian]
Label,Bar Code
Label,Bar Code
Label,Hong Kong
Label,Safety [For Hong Kong]
Label,CPA
Label,Carton [For Taiwan]
Polyethylene Bag,AC Power
Supply Cord
FM Antenna
Warranty Card
[Except for Taiwan]
Label,MADE IN MALAYSIA
Label,Packing Case,MADE IN
MALAYSIA
Panel,MADE IN MALAYSIA
Remote Control
Battery Lid,Remote Control
P.W.B. ASSEMBLY (Not Replacement Item)
PWB-A1,2
92LPWB3641MANS J
PWB-B1~3
92LPWB3641DPLS J
1 PWB-C1~3
92LPWB3641TUNS J
PWB-D
PWB-E
PWB-F
PWB-G1,2
92LPWB3639CDUS
92LPWB3503MDS
QPWBF0027AWZZ
QPWBF0649AWZZ
J
J
J
J
—
Main/Aux Input
(Combined Ass’y)
— Display/LED/CD Lid Open/Close
(Combined Ass’y)
— Tuner/Power/Power Amp.
(Combined Ass’y)
— CD Servo
— MD Main
AD CD Motor (PWB Only)
AC MD Mechanism Switch/MD
Loading (PWB Only)
OTHER SERVICE PARTS
QCNWK0059AFZZ
QCNWK0108AFZZ
QCNWK0132AFZZ
RRCDT0101AFZZ
RRCDT0103AFZZ
J
J
J
J
J
RUNTK0581AFZZ
UDSKA0004AFZZ
88GMMD-213AS
J
J
J
88GMMD-318
J
AF
AL
AP
CB
BK
Extension Connector (2Pin)
Extension Flat Cable (28Pin)
Extension Flat Cable (9Pin)
Test Disc,High Reflection
Head Adjusting Transparend
Disc
BK Extension PWB for Service
AZ CD Pickup Lens Cleaner
BT Low Reflection Disc,PreAdjustment Mini Disc
(TEAC Test MD)
BF Low Reflection Disc,PreAdjustment Mini Disc
(TEAC Test MD)
MD-E9000W
NO.
PRICE
RANK
PARTS CODE
DESCRIPTION
CP-E9000H
SPEAKER BOX PARTS
901
902
903
905
CPNLS1030AWSA
CCAB-1196AWSA
CWAKP1048AWSA
QCNWN1930AWZZ
J
J
J
J
BB
BD
AV
AN
906
907
908
909
910
912
913
914
SP1,2
SP3,4
LHLDZ8001AWSA
PCUSG0022AWZZ
XJBSD40P12000
XJBSF30P10000
XJBSD30P10000
QTANA9007AWZZ
XJBSD40P20000
PFLT-0057AWZZ
RSPA10013AW4W
RSPA00011AW6T
J
J
J
J
J
J
J
J
J
J
AD
AB
AA
AA
AA
AF
AA
AX
AQ
Front Panel Ass’y
Speaker Box Ass’y
Net Frame Ass’y
Lead Wire Ass’y
(With Capacitor C1,2)
Catching Holder
Cushion,Leg
Screw,ø4×12mm
Screw,ø3×10mm
Screw,ø3×10mm
Terminal,Speaker
Screw,ø4×20mm
Felt
Woofer
Tweeter
ACCESSORIES/PACKING PARTS
CCNWN1938AWZZ
SPAKA0303AWZZ
SPAKA0304AWZZ
SPAKT0026AWZZ
SSAKH0055AWZZ
TSPC-0865AWZZ
J
J
J
J
J
J
Speaker Cord Ass’y
AK Packing Add.,Top
AK Packing Add.,Bottom
AL Packing Case
Miramat Bag
Label,Specifications
–7–
MD-E9000W
MD-E9000W
306-2
A
306
306-1
306-3
701
704
B
701
304
C
302
702x2
D
301
303
703x2
E
M2
F
M1
G
SW4
H
PWB-F
1
2
3
4
Figure 8 CD MECHANISM EXPLODED VIEW
–8–
5
6
MD-E9000W
MD-E9000W
A
30
509
509
7
12
16
B
512
4
509
C
21
20
5
19
33x2
36
10
18
33x2
512x2
D
8
509
E
22
2
31
M903
SW1934
SW1932 SW1933
PWB-G2
504
17
506
SW1930
F
PWB-E
9
34
510x2
27
3
28
506x2
24
SW1936
PWB-G1
G
35
506
509
M901
14
503
M902
15
501x2
511
505x3
507
507
513
502
32
H
1
2
3
4
Figure 9 MD MECHANISM EXPLODED VIEW
–9–
5
6
MD-E9000W
MD-E9000W
239
603x2
202
224
617
257
617
A
617
207
225
611x2
238
203-5
610
256
203-6
613
203-4
606x2
611
617
B
203-1
203-3
PWB-B3
237
617
203-2
259
M904
607x3
203
611
221
611
PWB-D
611
FL701
PWB-B2
258
220
RX781
C
611x3
232x2
240
610
216
222
611
617
243
223
611x2
D
211
611x10
PWB-B1
617
210
206
604x4
260
255
234
261
248x2
255
616x2
IC901
236
Silicon
Grease
613
605
230
235
213
241x6
616x2
617
E
212
208
209
CD
MECHANISM
PWB-C2
609
605
227
244
Silicon
Grease
615x2
Q951
616x3
Q961
619
246x4
602x4
Q941
263
612x2
251
615x2
617x2
615x2
CNS6
617x2
205
PWB-C3
218
614x2
PWB-A1
242
219
PWB-A2
MD MECHANISM
226
M905
214
217
614x2
G
617
617x6
F
233
228
245
250
PWB-C1
601x2
229
605
615
249
215
618x2
605
231x4
204
H
247
615
610x3
1
2
3
4
Figure 10 CABINET EXPLODED VIEW
– 10 –
5
6
MD-E9000W
CP-E9000H
913x8
BK
Tweeter
SP3 (L-CH)
SP4 (R-CH)
A
C1, 2
Capacitor (N.P.)
3.3µF, 100V
BK
909x2
902
RD
BK
BK
SPEAKER
TERMINAL
B
912
Woofer
SP1 (L-CH)
SP2 (R-CH)
C
914x2
Tweeter
SP3 (L-CH)
SP4 (R-CH)
C1, 2
Capacitor(N.P)
3.3µF, 100V
907x4
D
905
(with Capacitor C1, 2)
Woofer
SP1 (L-CH)
SP2 (R-CH)
910x2
901
E
SP3,4
908x4
906x4
F
SP1,2
903
G
H
1
2
3
4
Figure 11 SPEAKER EXPLODED VIEW
– 11 –
5
6
MD-E9000W
—MEMO—
– 12 –
MD-E9000W
COPYRIGHT
©
2001 BY SHARP CORPORATION
ALL RIGHTS RESERVED.
No part of this publication may be reproduced,
stored in a retrieval system, or transmitted in
any form or by any means, electronic, mechanical,
photocopying, recording, or otherwise, without
prior written permission of the publisher.
SHARP CORPORATION
AV Systems Group
Audio Systems Division
Higashihiroshima, Hiroshima 739-0192, Japan
Printed in Japan
A0108-1463DS•HA•M
SA • SZ • EX
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File Type : PDF File Type Extension : pdf MIME Type : application/pdf PDF Version : 1.4 Linearized : Yes Create Date : 2001:08:28 17:23:23Z Modify Date : 2003:11:26 16:28:11+01:00 Subject : Service Manual english Keywords : MD-E9000W, MD-E9000W, MD, Compact, Component, System Page Count : 100 Creation Date : 2001:08:28 17:23:23Z Producer : Acrobat Distiller 3.01 for Power Macintosh Author : SEa-Füllsack Mod Date : 2003:11:26 16:28:11+01:00 Metadata Date : 2003:11:26 16:28:11+01:00 Creator : SEa-Füllsack Title : MD-E9000W Service-Manual GB Description : Service Manual englishEXIF Metadata provided by EXIF.tools