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XM-PX50WT




SERVICE MANUAL
PORTABLE MINIDISC PLAYER


XM-PX50WT
Area Suffix
UB Hong Kong




Contents

Safety Precautions 1-2
Important for laser products 1-3
Attention when
MD pick up is exchanged 1-4
Disassembly method 1-5
Adjustment method 1-11
Maintenance of laser pickup 1-12
Replacement of laser pickup 1-12
Description of major ICs 1-13~25




No.20902
COPYRIGHT 2001 VICTOR COMPANY OF JAPAN, LTD.
Jan. 2001
XM-PX50WT



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


1. This equipment has been designed and manufactured to meet international safety standards.
2. It is the legal responsibility of the repairer to ensure that these safety standards are maintained.
3. Repairs must be made in accordance with the relevant safety standards.
4. It is essential that safety critical components are replaced by approved parts.
5. If mains voltage selector is provided, check setting for local voltage.
! Burrs formed during molding may be left over on some parts of the chassis. Therefore,
pay attention to such burrs in the case of preforming repair of this system.

1-2
XM-PX50WT


Important for laser products

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



VARNING : Osynlig laserstrålning är denna del är öppnad ADVARSEL : Usynlig laserstråling ved åbning , når
och spårren är urkopplad. Betrakta ej strålen. sikkerhedsafbrydere er ude af funktion. Undgå
VARO : Avattaessa ja suojalukitus ohitettaessa olet udsættelse for stråling.
alttiina näkymättömälle lasersäteilylle.Älä katso ADVARSEL : Usynlig laserstråling ved åpning,når
säteeseen. sikkerhetsbryteren er avslott. unngå utsettelse
for stråling.




REPRODUCTION AND POSITION OF LABELS


WARNING LABEL
DANGER : Invisibie laser radiation VARO : Avattaessa ja suojalukitus
when open and interlock or ohitettaessa olet alttiina
defeated. näkymättömälle lasersäteilylle.Älä
AVOID DIRECT EXPOSURE TO katso säteeseen. (d)
BEAM (e)

VARNING : Osynlig laserstrålning är ADVARSEL :Usynlig laserstråling
denna del är öppnad och spårren är ved åbning , når
urkopplad. Betrakta ej strålen. (s) sikkerhedsafbrydere er ude af
funktion. Undgå udsættelse for
stråling. (f)




1-3
XM-PX50WT

Attention when MD pickup is exchanged
1. About the static electricity protection measures
The laser diode in the traverse unit (optical pick up) is easy to be destroyed by clothes and the human body
to the electrified static electricity.
Please note the explosion by static electricity when repairing.

2. About the earth processing for the electrostatic destruction prevention
In the equipment which uses an optical pick up (laser diode), an optical pick up is destroyed by the static
electricity of the work environment.
Please do the earth processing and work.
1) Earth of work stand
Please pull the conductive material (conductive sheet) or the iron plate to the depository
place of the traverse unit (optical pick up), and take the earth to ground.
2) Human body earth
Please use the anti-static wrist strap to exhaust the electrified static electricity to the human body.




anti-static wrist strap


Conductive material (conductive
sheet) or the iron plate
3. Handling the optical pick up
1) Please return according to a correct procedure based on short processing after exchanging
parts.
2) Do not use a tester to check the condition of the laser diode in the optical pick up .The tester 's internal
power source can easily destroy the laser diode.
4. Attention when unit is disassembled
Please refer to "Disassembling method" for how to detach .

1) Please be sure to solder before a flexible wire is removed from connector on a main printed
circuit board as shown.
if you removes without soldering.the MD picking up assembly might destroy
2) When installing , solder in the part of short round should be removed after a flexible wire is connected with
connector.

Solder short




1-4
XM-PX50WT

MD door assembly
Disassembly method
Removing the MD door assembly
(See Fig.1 and 2)
1. Shift the door lever to open the door.

2. Remove the four screws A and detach the MD door
assembly from the main body.
A Door lever

Fig.1

Removing the holder assembly MD door assembly
(See Fig.3 and 4)
Prior to performing the following procedure, remove
the MD door assembly.

1. Turn the Holder assembly as shown in Fig.3.

2. Pull the side arm (L) marked a and remove outward.
Open the Holder assembly as shown in Fig.4. A
Door lever
3. Move the "U-shaped" notch marked b in the direction
of the arrow and release it from the shaft. Fig.2

4. Move the part c inward and pull out the Holder Holder assembly
assembly from the shaft.

ATTENTION: When reassembling, first reattach the
Part a
part c to the shaft of the Chassis
assembly. And next, fit the "U-shaped"
notch to the shaft.




Holder assembly
Side arm (L)
"U-shaped" notch
Fig.3
Holder assembly
Holder assembly

Part c Shaft


Part b




Part c




Fig.4
1-5
XM-PX50WT

Removing the chassis assembly Chassis assembly

(See Fig.5 to 7)
Side arm (R)
Prior to performing the following procedure, remove
the MD door assembly and the holder assembly.

1. Open the battery lid. Release the tab d and pull out
the battery lid.

2. Remove the screw B and pull out the side arm (R) Tab d
upward. Joint e

3. Remove the two screws C and pull out the eject unit.
Joints e
4. Remove the screw D, E, F and G attaching the B
chassis assembly respectively.
Battery lid
Fig.5
5. Disengage the three joints e of the bottom case and
the battery holder. Remove the chassis assembly
and the jack cover at once. Battery lid
Eject unit

C

C




Chassis assembly
Fig.6

D
Chassis assembly



Joint e
G




Joints e




Bottom case E F
Battery holder
Fig.7
1-6
XM-PX50WT

Removing the main board and the CN401
Battery holder
battery holder (See Fig.8 and 9) Soldering f
CN301
Prior to performing the following procedures, remove
the MD door assembly, the holder assembly and the
chassis assembly.

ATTENTION: Before disconnecting the flexible wire
extending from the pickup, make sure to
Short circuit
H
solder the short circuit round to prevent round
damage to the pickup.


1. Solder the short circuit round of the flexible wire on
the main board.
Headphone jack assembly
Disconnect the flexible wires from connector CN301 Main board Soldering f
and CN401 on the main board.
Fig.8
Remove the one screw H attaching the main board.
Remove the main board with the battery holder .
Short circuit round CN401
Unsolder the four soldered parts f retaining the main
board and the battery holder.


ATTENTION: When reassembling, connect the
flexible wire extending from the pickup
to the connector on the main board
and unsolder the short circuit round.
CN301




Fig.9


Headphone jack assembly Battery holder
CN601
Removing the headphone jack assembly
(See Fig.10)
Prior to performing the following procedures, remove
the MD door assembly, the holder assembly, chassis
assembly and the main board.

1. Disconnect the flexible wire extending from the
headphone jack from connector CN601 on the main
board.



Main board


Fig.10




1-7
XM-PX50WT

mechanism section> Worm gear J Soldering g
Prior to performing the following procedures, remove
the MD door assembly, the holder assembly, the I
chassis assembly and the main board.

Removing the spindle motor
(See Fig.11)
1. Unsolder the part g on the flexible wire extending
from the underside of the Chassis assembly to the
spindle motor.
Spindle motor
Chassis assembly Part h
ATTENTION: Do not spill flux on the gear and others. Pickup unit
Part i

Fig.11
2. Remove the three screws I attaching the spindle
motor.




Lead screw
Removing the pickup unit (See Fig.11) K

ATTENTION: When handling the Pickup unit, touch the
parts marked in Fig.13 only.


1. Remove the slit washer and the worm gear from the
Lead spring
underside of the Chassis assembly.

2. Remove the screw J attaching the shaft holder and
draw out the shaft (lead screw). Pickup

3. Pull out the Pickup unit and the lead screw while
disengaging the part h and i.
Fig.12




Removing the pickup (See Fig.12 and 13)
Touch these parts only.

ATTENTION: When handling the pickup unit, touch the
parts marked in Fig.13 only.


1. Remove the screw K and the lead spring.

2. Pull out the shaft from the pickup.




Fig.13

1-8
XM-PX50WT

Removing the feed motor (See Fig.14)
1. Peel off the adhesive tape j on the flexible wire on j L
Soldering k
the underside of the feed motor.

2. Unsolder soldering k connecting the flexible wire to
the feed motor. L
3. Remove the two screws L attaching the feed motor.

Feed motor
ATTENTION: When reassembling, reattach the
flexible wire with an adhesive tape and
solder.




Chassis assembly
Pickup unit

Fig.14




1-9
XM-PX50WT

A A
Removing the charge board
(See Fig.1 to 3)
1. Remove the four screws A on the bottom of the
body.

2. Remove the top cover upward while pushing the
front part a. Pull out the charge board from the
bottom cover.



A A
Fig.1




Top cover




Push

Part a

Fig.2




Charge board




Bottom cover


Fig.3




1-10
XM-PX50WT

Adjustment method
This model is auto adjustment by Remote Controller.
Please adjust the attached remote controller.
Equipments----- 1. Remote controller 2. DC power supply
3. Laser power meter 4. MO disc (AU-1)
5. Pre master disc (TGYS 1)

Press < PLAY MODE + DISPLAY + BASS > and < PLAY >key together more than 3sec. at power off condition.
< VOL > next item .< VOL+ >before item.
LCD indication
Test mode setting OK. Indicate at 2sec.
0. TMD-V2 When LCD indicate [NG] at another item,
Return back this item by press (STOP) key

Resume initialize
LCD Indication change :
* Initializing
* Resume

Servo initialize
LCD Indication change : [ ]
Initializing
Servo
PLAY LASER Insert the laser power meter.
Executes by < BASS > LCD Indication change :[XX:YY]
Up by < VOL+> .Down by LCD Indication change :[VW.YY]
Setting by LCD Indication change :[ OK ]
Laser power adjust 560 adjust PLAY LASER
Adjust power-supply voltage 1.5v 20mv before the laser power is adjusted and stops.

FEED
Executes by < BASS > LCD Indication change :[FwdBwd]
:Pickup is go to outside < VOL-> :Pickup is go to inside
Press < STOP > LCD Indication change :[OK ]
* FEED
MO TG Insert the Recordable disc.
5. M o T G
Executes by < BASS >
LCD Indication change : [ ]
* Adjusting
MO DISC ADJUST
Executes by < BASS >
LCD Indication change : [ ]
* Adjusting
Press < STOP >
LCD Indication change : [OK ]
7. * MO DISC ADJUST
Pre TG Insert the Pre master disc.
Executes by < BASS >
LCD Indication change : [ ]
* Adjusting
Pre DISC ADJUST
Executes by < BASS >
LCD Indication change : [ XXYYZZ ]
Press < STOP > Adjusting
*
RESET
Executes by < BASS >
LCD Indication : Left out the test mode ,power off ,and END.

1-11
XM-PX50WT


Maintenance of laser pickup Replacement of laser pickup
(1) Cleaning the pick up lens
Before you replace the pick up, please try to Turn off the power switch and,disconnect the
clean the lens with a alcohol soaked cotton power cord from the ac outlet.
swab.

(2) Life of the laser diode
When the life of the laser diode has expired,
Replace the pickup with a normal one.(Refer
the following symptoms will appear. to "Pickup Removal" on the previous page)

1. The level of RF output (EFM output:ampli
tude of eye pattern) will below.
Plug the power cord in,and turn the power on.
At this time,check that the laser emits for
Is the level of NO about 3seconds and the objective lens moves
RFOUT under Replace it. up and down.
0.35Vp-p? Note: Do not observe the laser beam directly.


YES

Play a disc.
O.K


Check the eye-pattern at TP1.



Finish.




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




1-12
XM-PX50WT


Description of major ICs
JCV8002-W (IC601) : Head phone amp
1. Pin layout
24 ~ 19
1
18




~




~
6 7 ~ 12 13

2. Block diagram
PW
SW
MT
18 MT 17 BST
16 15 14 Vref
13
BEEP GND
TC SW SW IN IN
19 PW MT BST
SW SW
BEEP Vref 12
SW
Vref

V
CC1
20
11
ADD
IN
IN B
21 BST1 10
BST
NF1
IN A
22 9
LPF2
BEEP BST2
OUT B
23 PW PW
8
A B
BST
BEEP NF2
OUTA
24 BST 7
PWR AGC BST
V CUTA OUT OUT
CC2 GND B DET
1 2 3 4 5 AGC
6
IN

3. Pin function
Pin Symbol FUNCTION
no.
1 VCC2 VCC2 (+B) in power amplifier output steps
2 OUT A Power amplifier output
3 PWR GND GND in power amplifier output steps
4 OUTB Power amplifier output
5 DET Smoothness of level detection of boost AGC
6 AGC IN BST amplifier input signal level variable control by input lever to boost AGC input terminal
7 BST OUT Output terminal of BST amplifier2
8 BST NF2 Terminal NF of BST amplifier2
9 LPF 2 Output BST amplifier1
10 BST NF1 NF of BST amplifier1
11 ADD IN ADD amplifier input
12 V ref Standard potential circuit
13 Vref IN Standard potential circuit
14 GND Power part input steps GND
15 BEEP IN Beep input terminal
16 BST SW Beep output terminal
17 MT SW Mute switch
18 PW SW Power On/OFF switch
19 MT TC Mute smoothing Power mute switch
20 VCC1 Main parts V CC
21 IN B Power amplifier input
22 IN A Power amplifier input
23 BEEP OUT B Beep output terminal
24 BEEP OUT A Beep output terminal




1-13
1-14
XM-PX50WT



1. Pin layout




2. Block diagram
RMAX CPC1 CPC2 CPC3
~
48
37


VCC VCOIN RMIN VCO CP1 CP2 CP3 CPOUT COMFUF VF WF VS



1
36




~
~




MCLOCK Timing Phase
VCO Charge Pump UIN
controllor Comparator
12
25




VIN
CXA8059Q (IC450) : Motor driver




Voltage
~
13
24




CLKSEL
1/8 Driver
WIN
S/S

COM

BRAKE Sensoeless Logic
PWM
UOUT

F/R
Controllor VOUT



VCONT WOUT
Full Wave
Rectifilter Sample
VCREF
and Hard

OSC SLOPE CLOCK RESET FG FG2 FC PGND GND CF RF
XM-PX50WT

3.Pin function

Pin Symbol Function
no.
1 PGND The GND to guard the power stage.
2 COM The terminal to detect the voltage.
3 VS The terminal to supply the voltage for the power stage.
4 CPOUT The terminal to connect the capacitor in the final charge pump.
5 CPC3 The terminal to connect the capacitor in the third charge pump.
6 CP3 The terminal to connect the capacitor in the third charge pump.
7 CPC2 The terminal to connect the capacitor in the second charge pump.
8 CP2 The terminal to connect the capacitor in the second charge pump.
9 CPC1 The terminal to connect the capacitor in the first charge pump.
10 CP1 The terminal to connect the capacitor in the first charge pump.
11 GND The GND for the part except the power section.
12 S/S The terminal for start and stop.
13 BRAKE The terminal for braking.
14 VCONT The terminal for controlling velocity.
15 VCREF The terminal as referable voltage of controlling velocity.
16 FC The terminal to compensate the frequency characteristics of the loop controlling velocity.
17 CF The terminal of sampling and holding for detecting motor current.
18 FG The terminal to output FG pulse.
19 FG2 The terminal to output FG pulse divided Pin15 signal by 2.
20 VCO The terminal to set oscillation frequency of VCO.
21 RMAX The terminal to set maximum oscillation frequency of VCO.
22 RMIN The terminal to set minimum oscillation frequency of VCO.
23 VCOIN The terminal to control oscillation frequency of VCO.
24 CLKSEL The terminal to select inside and outside clock.
25 OSC The terminal to oscillation sawtooth for PWM signal.
26 SLOPE The terminal to oscillation sawtooth for soft-switching signal.
27 CLOCK The terminal to monitor CLOCK signal.
28 GND The GND for the part except the power section.
29 WF The terminal to shape waveform of motor voltage.
30 VF The terminal to shape waveform of motor voltage.
31 UF The terminal to shape waveform of motor voltage.
32 COMF The terminal to shape waveform of motor voltage.
33 VCC The terminal to supply the voltage except the power section.
34 MCLOCK The terminal to input clock.
35 VS The terminal to supply the voltage for the power stage.
36 RESET The terminal to reset a register for checking the movement.
37 RF The terminal to monitor current.
38 NC Non connect
39 NC Non connect
40 WIN The terminal to sense the back electro magnetic force of coils.
41 WOUT The terminal to supply the motor current.
42 VIN The terminal to sense the back electro magnetic force of coils.
43 VOUT The terminal to supply the motor current.
44 UIN The terminal to sense the back electro magnetic force of coils.
45 UOUT The terminal to supply the motor current.
46 NC Non connect
47 NC Non connect
48 RF The terminal to monitor current.




1-15
XM-PX50WT

CXD2672GA(IC351):DSP
1.Pin layout

17 LDDR DTRF VSI02 ADFG ADRB AVS2 ADI0 FE PEAK FILI AVS1 ASYI DVSS1


16 APCR CKRF FOCN APC SE ADRT VC ABCD CLTV PCO BIAS ASYO XWE TST6


15 TFDR TRDR XLRF VDI02 DCHG TE AVD2 AUX1 BOTH FILO RFI AVD1 MVCI PD0 A11 XOE


14 FRDR FFDR VDC4 DVDD1 D3 VSC3


13 VSC4 SRDR FS4 VDC3 D0 D2


12 SPFD SPRD SFDR D1 XCAS IXWE


11 TEST2 TEST1 FGIN A09 XRAS IXOE


10 TST2 EFM0 TEST3 A07 A10 A08

TOP
9 VSI03 TST3 VDI03
VIEW DVI01 A00 VSI01


8 SPCU SPDW SPDV A05 A01 A06


7 TST4 SPCW SPCV A03 A04 A02


6 VSC5 SLDW SLDV F256 XBCK VSC2


5 SLCV SLCU VDC5 VDC2 DADT LRCK


4 BYPS TST5 SLCW VDI00 TST8 ADDT

VDI DA DA
3 MNT1 MNT0 VDC0 SENS XRST RPWR OSC DVDD0 VDDL VDDR VREFR TST1 VDC1 TST0 DATAI TST7

MT MT DA
2 MNT2 SWDT SRDT SQSY XINT OSCI DVSS0 AOUTL VREFL AOUTR XTSL DOUT FLGL FLGR PWMRP

VSI DA DA DA DA
1 MNT3 SCLK XLAT VSCO DQSY TX OSCO
OSC VSSL VSSR VSC1 DIN1 VSI00
PWMLP PWMLN

A B C D E F G H J K L M N P R T U
2.Pin function (1)
Pin
No. Symbol
A-1 I/O Function
A-2 NC - Open
A-3 NC - Open
B-1 MNT1 O Monitor output
B-2 NC - Open
B-3 NC - Open
C-1 MNT0 I/O Monitor in/output
C-2 MNT3 O Monitor output
C-3 MNT2 O Monitor output
D-1 NC - Open
D-2 SCLK I Micon serial bus clock input
D-3 SWDT I Micon serial bus data write input
VDC0 - Internal logic VDD(1.8V)

1-16
XM-PX50WT

2.Pin function(2)
Pin No.Symbol I/O Function
E-1 XLAT I Micon serial bus latch input
E-2 SRDT O Micon serial bus data read out output
E-3 SENS O Internal output of micon serial bus address
F-1 VSC0 - Internal logic GND
F-2 SQSY O PTGR=0 ADIPsink output / PTGR=1 DISC SUB-Q sink output
F-3 XRST I Reset input L:reset
G-1 DQSY O Ubit SUB-Q sink output from digital audio input from MD or CD
G-2 XINT O Request status output L:request status
G-3 RPWR I Laser power select input (H=rec power / L=playback power)
H-1 TX I Output permit input of recorded data
H-2 OSCI I X'tal osc circuit input
H-3 VDIOSC - OSC sel VDD (2.5V)
J-1 OSCO O X'tal osc circuit output
J-2 DVSS0 - Internal 16bit DRAM GND
J-3 DVDD0 - Internal 16bit DRAM GND
K-1 VSIOSC - OSC sel GND
K-2 AOUTL O Internal DAC Lch output
K-3 DAVDDL - Internal DAC VDD (Lch,2.5V)
L-1 DAVSSL - Internal DAC GND
L-2 VREFL O Internal DAC GND VREF(Lch)
L-3 DAVDDR - Internal DAC VDD (Rch,2.5V)
M-1 DAVSSR - Internal DAC GND (Rch)
M-2 AOUTR O Internal DAC Rch output
M-3 VREFR O Internal DAC VREF (Rch)
N-1 VSC1 - Internal logic GND
N-2 XTSL I X'tal frequency select (L=45.1584MHz/H=22.5792MHz)
N-3 TST1 I Test terminal Connect to GND
P-1 DIN1 I Digital audio input Outer I/F mode EXRQ input
P-2 DOUT O Digital audio output
P-3 VDC1 - Internal logic VDD (1.8V)
U-1 DAPWMLN O Internal DAC PWM output L-
T-1 DAPWMLP O Internal DAC PWM output L+
R-1 VSIO0 - 2.5V I/O VSS
U-2 DAPWMRP O Internal DAC PWM output R+
T-2 MTFLGR O Internal DAC zero detect flag (Rch)
R-2 MTFLGL O Internal DAC zero detect flag (Lch)
U-3 TST7 I Test terminal Connect to GND
T-3 DATAI I Serial data input
R-3 TST0 O Open
U-4 ADDT I Data input from A/D converter
T-4 TST8 I Test terminal Connect to GND
R-4 VDIO0 - 2.5V I/O VDD
U-5 LRCK O LR clock(44.1kHz) for A/D, internal DAC
T-5 DADT O Data output for internal DAC / Internal DAC PWM output R-
R-5 VDC2 - Internal logic VDD (1.8V)
U-6 VSC2 - Internal logic GND
T-6 XBCK O A/D, internal DAC bit clock (2.8224MHz)
R-6 F256 O 11.2896MHz clock output (X'tal)
U-7 A02 O External DRAM address output
T-7 A04 O External DRAM address output
R-7 A03 O External DRAM address output
U-8 A06 O External DRAM address output
T-8 A01 O External DRAM address output
R-8 A05 O External DRAM address output

1-17
XM-PX50WT

2.Pin function (3)
Pin No. Symbol I/O Function
U-9 VSIO1 - 2.5V I/O sel Vss
T-9 A00 O External DRAM address output
R-9 ADIO1 - 2.5V I/O sel VDD
U-10 A08 O External DRAM address output
T-10 A10 O External DRAM address output
R-10 A07 O External DRAM address output
U-11 IXOE O Open
T-11 XRAS O External DRAM RAS output
R-11 A09 O External DRAM address output
U-12 IXWE O Open
T-12 XCAS O External DRAM CAS output
R-12 D1 I/O External DRAM data input/output
U-13 D2 I/O External DRAM data input/output
T-13 D0 I/O External DRAM data input/output
R-13 VDC3 - Internal logic VDD
U-14 VSC3 - Internal logic GND
T-14 D3 I/O External DRAM data input/output
R-14 DVDD1 - Internal 16Mbit DRAM VDD
U-17 NC - Open
U-16 NC - Open
U-15 XOE O External DRAM output chip enable output
T-17 NC - Open
T-16 TST6 O Open
T-15 A11 O Open
R-17 DVSS1 - Internal 16Mbit DRAM GND
R-16 XWE O External DRAM write enable output
R-15 PDO O Analog PLL phase compare output
P-17 ASYI I Playback EFM comparator slice level input
P-16 ASYO O Playback EFM binarization signal output
P-15 MVCI I Clock input from external VCO
N-17 AVS1 - Analog GND
N-16 BIAS I Playback EFM comparator bias current input
N-15 AVD1 O Analog power supply (2.5V)
M-17 FILI I Filter input for playback EFM system mastering PLL
M-16 PCO I Phase comparison output for playback EFM system mastering PLL
M-15 RFI I Playback EFM RF signal input
L-17 PEAK O Peak holding input optical amount signal
L-16 CLTV I Internal VCO control voltage input for playback EFM system mastering PLL
L-15 FILO I Filter output for playback EFN system mastering PLL
K-17 FE I Focus error signal input
K-16 ABCD O Optical amount signal input
K-15 BOTOM I Bottom holding input of optical amount signal
J-17 ADIO I Open
J-16 VC - Middle point voltage input
J-15 AUX1 I Assistance A/D input
H-17 AVS2 - Analog GND
H-16 ADRT I A/D converter operation range upper bound voltage input
H-15 AVD2 - Analog power supply (2.5V)
G-17 ADRB I A/D converter operation range lower bound voltage input
G-16 SE I Sled error input
G-15 TE I Tracking error input
F-17 ADFG I ADIP binary-coded FM signal input
F-16 APC I Error signal input for laser digital APC
F-15 DCHG I Connects with an analog power supply of low impedance

1-18
XM-PX50WT

2.Pin function (4)

Pin No. Symbol I/O Function
E-17 VSIO2 - 2.5V I/O Vss
E-16 F0CN O Filter cutoff control output
E-15 VDIO2 - 2.5V I/O VDD
D-17 DTRF O Controller data output
D-16 CKRF O Controller clock output
D-15 XLRF O Controller latch output
A-17 NC - Open
B-17 NC - Open
C-17 LDDR O Laser digital APC PWM output
A-16 NC - Open
B-16 NC - Open
C-16 APCR O Laser APC reference PWM output
A-15 TFDR O Tracking servo drive PWM output (+)
B-15 TRDR O Tracking servo drive PWM output (-)
C-15 NC - Open
A-14 FRDR O Focus servo drive PWM output (-)
B-14 FFDR O Focus servo drive PWM output (+)
C-14 VDC4 - Internal logic VDD (1.8V)
A-13 VSC4 - Internal logic GND
B-13 SRDR O Sled servo drive PWM output (-)
C-13 FS4 O 176.4kHz clock output (X'tal system)
A-12 SPFD O Spindle servo drive output
B-12 SPRD O Spindle servo drive output
C-12 SFRD O Sled servo drive PWM output (+)
A-11 TEST2 I Test terminal Connect to GND
B-11 TEST1 I Test terminal Connect to GND
C-11 FGIN I Spindle CAV servo FG input
A-10 TST2 O Test terminal Open
B-10 EFMO O EFM output at recording
C-10 TEST3 I Test terminal Connect to GND
A-9 VSIO3 - 2.5V I/O Vss
B-9 TST3 O Test terminal Open
C-9 VDIO3 - 2.5V I/O VDD
A-8 SPCU I Blush less spindle motor drive comparate input (U)
B-8 SPDW O Blush less spindle motor 3 phase drive truth output (W)
C-8 SPDV O Blush less spindle motor 3 phase drive truth output (V)
A-7 TST4 O Test terminal Open
B-7 SPCW I Blush less spindle motor drive comparete input (W)
C-7 SPCV I Blush less spindle motor drive comparate input (V)
A-6 VSC5 - Internal logic GND
B-6 SLDW O Blush less sled motor 3 phase drive truth output (W)
C-6 SLDV O Blush less sled motor 3 phase drive truth output (V)
A-5 SLCV I Blush less sled motor 3 phase drive comparate input (V)
B-5 SLCU I Blush less sled motor 3 phase drive comparate input (U)
C-5 VDC5 - Internal logic VDD (1.8V)
A-4 BYPS O Open
B-4 TST5 O Test terminal Open
C-4 SLCW I/O Blush less sled motor 3 phase drive comparate input




1-19
XM-PX50WT

AK93C55BH-W (IC502) : EEPROM

1. Pin layout 2.Pin function

Pin name Fnction
CS 1 8 VCC Chip select
CS
SK Serial data clock
SK 2 7 NC
DI Serial data input
DI 3 6 PE DO Serial data output
PE Program enable
DO 4 5 GND VCC Ground
GND Power supply
NC Not connected


3. Block diagram
DO
DATA
REGISTER 16 R/W AMPS 16
AND
AUTO ERASE
DI INSTRUCTION
REGISTER
INSTRUCTION
DECODE, EEPROM
CONTROL
AND 2048bit
CLOCK ADD. DECODER
GENERATION BUFFER 128 X 16


CS

VPP SW

SK


PE VPP
VREF GENERATOR




TC75S51F-X(IC505):Ope amp
1.Pin layout/Block diagram
VDD OUT
5 4




1 2 3
IN(+) Vss IN(-)




1-20
XM-PX50WT

CXA2588R (IC300) : RF amp.




WBLADJ
ADAGC




CSLED
1. Pin layout & block diagram




BOTM




ADFM
ABCD




ADFG



ADIN
AUX




SE
FE




TE
36 35 34 33 32 31 30 29 28 27 26 25

ADIP Amp TE/SE Amp




Peak,Bottom Detector
PEAK 37 24 Vcc
RF 38 FE Amp
23 3TADJ

AGC,EQ
RFAGC 39 22 EQADJ
AGCI 40 21 VREF
NC 41 20 F0CNT
NC 42 19 XSTBY
ADDC 43