JVC XV-E100SL(MK2), XV-S30BK(MK2), XV-S40BK(MK2), XV-S42SL(MK2), XV-S45GD(MK2) Service Manual

XV-S40BK/XV-S42SL

XV-S45GD/XV-S30BK

XV-E100SL

SERVICE MANUAL

DVD VIDEO PLAYER

XV-S40BK/XV-S42SL

XV-S45GD/XV-S30BK

XV-E100SL

[ MK2 ]

OPEN

STANDBY/ON

/CLOSE

3D

PLAY

PHONIC

MODE

RETURN

CANCEL

123

4

56

89

7

0+1010

THEATER
POSITION

SUBTITLEANGLE AUDIO

ZOOM

DIGEST

S

N

U

E

IO

XT

V
E
R

P

SELECT

S
TR

R

A

OB
E
L

E

C

S

–

L
O

W

W

O

+

L

S

E
L

T

TI

C

H

O
I

CE

RM-SXVB40A REMOTE CONTROL

M

ENTER

D

STANDBY

E

NU

STANDBY ON

Y

A

L
P
IS

D I G I T A L

DOLBY

VIDEO CD

This service manual is a service manual of the
model which changes a part of specification of the
above-mentioned model which has already been
put on the market.
Please refer to the following page for details.

DVD/CD PLAYER

For only Asia

OPEN/CLOSE

SKIP

PAUSEPLAYSTOP

DVD/VIDEO CD/CD

Area Suffix

(XV-S40BK/XV-S30BK)

J -------------------- U.S.A.
C ----------------- Canada

Area Suffix (XV-S42SL)

C ----------------- Canada
A ---------------- Australia
UG -------- Turkey,Egypt,
South Africa
US ------------ Singapore
UP ------------------ Korea
UW - Brazil,Mexico,Peru

Area Suffix (XV-S45GD)

J -------------------- U.S.A.

Area Suffix (XV-E100SL)

J -------------------- U.S.A.
C ----------------- Canada
US ------------ Singapore
UP ------------------ Korea
UB ----------- Hong Kong

Contents

For this service manual ------------------ 1-2
Safety precautions ------------------------ 1-3
Preventing static electricity ------------- 1-4
Importance admistering
point on the safety ---------- 1-5
Important for laser products ------------ 1-6

This service manual is printed on 100% recycled paper.

COPYRIGHT 2001 VICTOR COMPANY OF JAPAN, LTD.

Precautions for service ----------------- 1-7
Disassembly method -------------------- 1-8
Adjustment method ---------------------- 1-17
Troubleshooting -------------------------- 1-21
Description of major ICs ---------------- 1-25

No.A0023

Nov. 2001

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

For this service manual

This service manual is a service manual of the model which changes a part of
specification of the above-mentioned model which has already been put on the market.

< When the label in figure is pasted in the main body >

The specification is different from what the label of the same model does not paste because
of the specification improvement, and refer to this service manual, please.
Please already refer to the issued service manual when the label is not pasted.

Used only service dealer

Please refer to service manual of an applicable model [MK2]

GN30044-001A

* Please refer to this service manual for the model to which this label is pasted.
* Please refer to the service manual which has already been issued for the
model to which this label is not pasted.
(one that there is no description named [MK2] in cover of service manual
and Refer to the undermentioned table. )

For instructions

* Both of the instructions are also common and refer to the service manual which has already
been issued, please.

Service manual which has already been issued

Model name Version Issue

XV-S40BK/S30BK ver.J,C A0003 2001 February

XV-S42SL ver.C A0003 2001 February

ver.A,UG,US,UP,UW A0014 2001 June

XV-S45GD ver.J A0003 2001 February

XV-E100SL ver.J,C A0010 2001 April

ver.US,UP,UB A0014 2001 June

1-2

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

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 manufacturers 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 reassembling.

5. Leakage current check (Electrical shock hazard testing)
After reassembling the product, always perform an isolation check on the exposed metal parts of the product
(antenna terminals, knobs, metal cabinet, screw heads, headphone jack, control shafts, etc.) to be sure the
product is safe to operate without danger of electrical shock.
Do not use a line isolation transformer during this check.

Plug the AC line cord directly into the AC outlet. Using a "Leakage Current Tester", measure the leakage
current from each exposed metal parts of the cabinet, particularly any exposed metal part having a return
path to the chassis, to a known good earth ground. Any leakage current must not exceed 0.5mA AC (r.m.s.).

Alternate check method
Plug the AC line cord directly into the AC outlet. Use an AC voltmeter having, 1,000 ohms per volt or more
sensitivity in the following manner. Connect a 1,500 10W resistor paralleled by a 0.15 F AC-type capacitor
between an exposed metal part and a known good earth ground.
Measure the AC voltage across the resistor with the AC
voltmeter.
Move the resistor connection to each exposed metal part,
particularly any exposed metal part having a return path to
the chassis, and measure the AC voltage across the resistor.
Now, reverse the plug in the AC outlet and repeat each
measurement. Voltage measured any must not exceed 0.75 V
AC (r.m.s.). This corresponds to 0.5 mA AC (r.m.s.).

0.15 F AC TYPE

1500 10W

Good earth ground

AC VOLTMETER
(Having 1000
ohms/volts,
or more sensitivity)

Place this
probe on
each exposed
metal part.

!

1. This equipment has been designed and manufactured to meet international safety standards.

2. It is the legal responsibility of the repairer to ensure that these safety standards are maintained.

3. Repairs must be made in accordance with the relevant safety standards.

4. It is essential that safety critical components are replaced by approved parts.

5. If mains voltage selector is provided, check setting for local voltage.

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

In regard with component parts appearing on the silk-screen printed side (parts side) of the PWB diagrams, the
parts that are printed over with black such as the resistor ( ), diode ( ) and ICP ( ) or identified by the " "
mark nearby are critical for safety.
When replacing them, be sure to use the parts of the same type and rating as specified by the manufacturer.
(Except the J and C version)

1-3

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

Preventing static electricity

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

1.1. Grounding to prevent damage by static electricity

Static electricity in the work area can destroy the optical pickup (laser diode) in devices such as DVD players.
Be careful to use proper grounding in the area where repairs are being performed.

1.1.1. Ground the workbench

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

1.1.2. Ground yourself

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

(caption)
Anti-static wrist strap

Conductive material
(conductive sheet) or iron plate

1.1.3. Handling the optical pickup

1. In order to maintain quality during transport and before installation, both sides of the laser diode on the
replacement optical pickup are shorted. After replacement, return the shorted parts to their original condition.
(Refer to the text.)

2. Do not use a tester to check the condition of the laser diode in the optical pickup. The tester's internal power
source can easily destroy the laser diode.

1.2. Handling the traverse unit (optical pickup)

1. Do not subject the traverse unit (optical pickup) to strong shocks, as it is a sensitive, complex unit.

2. Cut off the shorted part of the flexible cable using nippers, etc. after replacing the optical pickup. For specific
details, refer to the replacement procedure in the text. Remove the anti-static pin when replacing the traverse
unit. Be careful not to take too long a time when attaching it to the connector.

3. Handle the flexible cable carefully as it may break when subjected to strong force.

4. It is not possible to adjust the semi-fixed resistor that adjusts the laser power. Do not turn it

1-4

XV-S40BK/XV-S42SL/XV-S45GD

Importance admistering point on the safety

< For only version J,C >

XV-S30BK/XV-E100SL

J702

C904

P901

B7053

B7052

FC901

D901

F901

FC902

C902

L901

C907

C905

R905

R907

B7314

B7211

R906

C906

C914

R904

D908

D910

R908

PC902

PC901

R910

HS901

K902

B7054

IC901

C913

R903

B7140

D904

C918

D911

C916

B7037

B7040

D951

Q991

R960

R954

C992

B7041

D991

CP951

C960

C962

D960

L951

Q953

B7046

D950

R980

B7044

B7043

Q951

B7045

R956

R953

B5511

B7126

B7125

D31

PC30

J691

L710

B7058

B7313

R911

D903

R901

C909

B7320

D952

B7038

C963

C964

EP951

D30

B5719

CN702

Q744

L709

C737

B7124

B5512

C12

C908

C13

Q1

C984

D902

L957

T901

C982

C987

B7051

D956

D957

D954

D953

B7039

D973

C979

C965

L955

C997

L952

B7042

IC951

B7319

C966

B5701

B7049

C969

CP952

IC953

C978

B7131

B7130

B7129

B7127

B5720

B7128

B7329

B7048

C697

B7034

Q754

C738

B7036

CN555

C11

Q965

B5201

C989

L959

C15

L1

B5710

C17

D974

D972

Q966

R976

C996

C995

B5721

B7050

DI801

C821

C695

B7311

C696

B7209

B7210

Q611

B7312

R1731

Q601

D609

R606

C973

B5153

L612

L602

L611

D970

L601

L2

B7405

B7802

B5202

B7214

C16

C14

B5301

B5156

B5509

B7601

B5513

B5102

CN961

B5151

B5709

B5302

B7803

B5154

B5502

B5203

B7406

B5715

B7602

B5515

B5501

B5116

B7806

S691

B7123

B7139

C694

B7208

R616

D619

L621

B5155

B5303

B7315

RA703

B7607

B7207

B7502

B7122

B7035

R636

R650

Q621

B7033

D629

Q631

D639

L622

L632

L631

B7410

B5101

B7212

B5304

B7407

B7408

J604

B7029

B7030

B7309

B7403

B7032

B7951

B7801

B7206

B7120

,B7119

C985

B5110

B5111

B5112

B5113

B5114

B7604

B7213

B7316

RA702

B7031

B7402

B7308

B7307

B7136

B7221

B7306

B7305

B5517

B7135

B5152

R1732

B5104

CN701

B5205

B5504

B5505

B5503

B5506

B5713

B7411

B7412

B7416

B7413

B7415

B7414

B7133

B7409

B7809

B7808

B7807

B5305

B7317

RA701

J602

C609

C619

C747

C659

B7025

B7114

B7116

B7115

B7023

B7203

B7204

B7132

B7137

B7810

B7304

B7142

B7222

B7606

B7501

C745

B7401

D791

D792

B7022

C761

B7219

B7218

B5115

B7134

B7011

B7010

B7326

B7012

B7327

B7325

B7328

B7056

B7003

B7002

B7001

B7007

B7004

B7005

B7006

C728

B7217

X701

J601

C756

C649

C757

Q753

Q743

B7028

C746

B7112

B7201

B7202

B7057

B7303

B7302

B7301

B7113

C744

C749

C762

B7021

C741

C740

R745

B7016

B7009

B7008

B7141

B7013

C729

B7014

IC702

B7026

C629

C739

C755

C772

C754

C752

R755

R750

R753

R751

R752

C714

R741

C721

C742

R743

C716

R742

C715

R740

B7321

D701

C701

B7322

B7107

B7330

B7015

D709

R1730

B7111

B7324

B5707

B5708

B5704

B5703

C421

B5507

B5702

B5107

CN703

J703

C707

C1701

J603

T701

B7024

C750

C751

C730

C717

B7605

C711

B5514

B7055

B5108

B5109

D702

B7117

C1702

B7118

C771

C718

C731

K709

EP711

B7020

B7608

B5714

B7105

B7102

B7104

B7019

B7103

B7106

B5105

B7101

B7018

B5157

B7017

B5718

B5705

B5706

C422

B5508

B5106

Full Fuse Replacement Marking

Graphic symbol mark
(This symbol means fast blow type fuse.)

should be read as follows ;

FUSE CAUTION

FOR CONTINUED PROTECTION AGAINST RISK
OF FIRE, REPLACE ONLY WITH SAME TYPE
AND RATING OF FUSES ;

F901 : 1.6 A / 125 V F901 : 1.6 A / 125 V

Marquage Pour Le Remplacement
Complet De Fusible

Le symbole graphique (Ce symbole signifie
fusible de type a fusion rapide.)

doit etre interprete comme suit ;

PRECAUTIONS SUR LES FUSIBLES

POUR UNE PROTECTION CONTINUE CONTRE
DES RISQUES D'INCENDIE, REMPLACER
SEULEMENT PAR UN FUSIBLE DU MEME TYPE ;

1-5

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

Important for laser products

1.CLASS 1 LASER PRODUCT

2.DANGER : Invisible laser radiation when open and inter

lock failed or defeated. Avoid direct exposure to beam.

3.CAUTION : There are no serviceable parts inside the
Laser Unit. Do not disassemble the Laser Unit. Replace
the complete Laser Unit if it malfunctions.

4.CAUTION : The compact disc player uses invisible laser
radiation and is equipped with safety switches which
prevent emission of radiation when the drawer is open and
the safety interlocks have failed or are de
feated. It is dangerous to defeat the safety switches.

5.CAUTION : If safety switches malfunction, the laser is able

6.CAUTION : Use of controls, adjustments or performance of

< For only europe >

to function.

procedures other than those specified herein may result in
hazardous radiation exposure.

!

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

REPRODUCTION AND POSITION OF LABEL and PRINT

WARNING LABEL and PRINT

CAUTION: Invisible laser

radiation when open and
interlock failed or defeated.
AVOID DIRECT EXPOSURE
TO BEAM. (e)

VARNING: Osynlig laser­strålning när denna del är
öppnad och spärren är
urkopplad. Betrakta ej
strålen. (s)

ADVARSEL: Usynlig laser­stråling ved åbning, når
sikkerhedsafbrydere er ude
af funktion. Undgå udsæt­telse for stråling (d)

VARO: Avattaessa ja suo­jalukitus ohitettaessa olet
alttiina näkymättömälle
lasersäteilylle. Älä katso
säteeseen. (f)

CLASS 1
LASER PRODUCT

1-6

XV-S40BK/XV-S42SL/XV-S45GD

Precautions for Service

Handling of Traverse Unit and Laser Pickup

1. Do not touch any peripheral element of the pickup or the actuator.

2. The traverse unit and the pickup are precision devices and therefore must not be subjected to
strong shock.

3. Do not use a tester to examine the laser diode. (The diode can easily be destroyed by the
internal power supply of the tester.)

4. To replace the traverse unit, pull out the metal short pin for protection from charging.

5. When replacing the pickup, after mounting a new pickup, remove the solder on the short land
which is provided at the center of the flexible wire to open the circuit.

6. Half-fixed resistors for laser power adjustment are adjusted in pairs at shipment to match the
characteristics of the optical block.
Do not change the setting of these half-fixed resistors for laser power adjustment.

Destruction of Traverse Unit and Laser Pickup by Static Electricity

Laser diodes are easily destroyed by static electricity charged on clothing

or the human body. Before repairing peripheral elements of the traverse
unit or pickup, be sure to take the following electrostatic protection:

XV-S30BK/XV-E100SL

1. Wear an antistatic wrist wrap.

2. With a conductive sheet or a steel plate on the workbench on which
the traverse unit or the pick up is to be repaired, ground the sheet
or the plate.

3. After removing the flexible wire from the connector (CN101),
short-circuit the flexible wire by the metal clip.

4. Short-circuit the laser diode by soldering the land which is provided
at the center of the flexible wire for the pickup.

After completing the repair, remove the solder to open the circuit.

Please refer to "Fig.4" of "Disassembly
method" for details.

Short circuit

Servo control
board

1-7

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

Disassembly method

There is a part different from the photograph
according to the model and the destination though
explains this disassembly method by using XV-E100SL.

<Main body>

Removing the top cover (see Fig.1)

1.Remove the two screws A attaching the top cover
on both sides of the body.

2.Remove the three screws B attaching the top
cover on the back of the body.

3.Remove the top cover from the body by lifting
the rear part of the top cover.

ATTENTION: Do not break the front panel tab
fitted to the top cover.

Removing the mechanism assembly
(see Fig.2,3)

* Prior to performing the following procedure, remove
the top cover.
* There is no need to remove the front panel assembly.

1.Remove the three screws C attaching the mechanism
assembly on the bottom chassis.

2.Remove the two screws F attaching the lug wire and
main board on the bottom chassis.

A x 2

F

Lug wire

CN703

Main board

Servo control board

Fig.1

B

Mechanism assembly

C

C

C

F

Fig.2

Mechanism

assembly

B

B

CN702

3.The servo control board is removed from the
connector CN961 and CN701 connected with the
main board respectively.

4.Remove the mechanism assembly by lifting the rear
part of the mechanism assembly.

Removing the servo control board (see Fig.4)

* Prior to performing the following procedure, remove
the top cover and mechanism assembly.

1.Disconnect the card wire from connector CN201 and
CN202 on the servo control board respectively.

2.Disconnect the flexible wire from connector CN101
on the servo control board from pick-up.

< ATTENTION >
At this time, please extract the wire after short-circuited
of two places on the wire in part a with solder.
Please remove the solder two places of part a after
connecting the wire with CN101 when reassembling.

3.Two places in hook b are removed, the servo control
board is lifted, and it is removed.

Hook b

CN701

Fig.3

Fig.4

CN961

Main board

Hook b

Servo control
board

1-8

Removing the rear panel (see Fig.5)

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

*Prior to performing the following procedure, remove
the top cover.

1.Remove the eight screws D attaching the rear panel
on the back of the body.

* As for the screw D, the number and the position
are different according to the destination.

Removing the front panel assembly
(see Fig.6,7)

* Prior to performing the following procedure, remove
the top cover.
* There is no need to remove the mechanism assembly.

1.Remove the one screw E attaching the front panel
assembly on the bottom chassis.

2.Disconnect the wire from CN702 and CN703 on the
main board respectively.

D

Front panel

assembly

Hook d

Hook c

Rear panel

Fig.5

E

D

Hook d

D

Fig.6

3.Hook c and d are removed respectively, and the front
panel assembly is removed.

Removing the main board (see Fig.8)

* Prior to performing the following procedure, remove
the top cover, mechanism assembly and rear panel.

1.Disconnect the wire from CN702 and CN703 on the
main board respectively.

2.Remove the four screws F attaching the main board
on the bottom chassis.

F

Mechanism assembly

CN703

Main board

F

CN703

Fig.7

Main board

CN702

F

CN702

Fig.8

F

1-9

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

<Loading assembly section>

Removing the clamper assembly

(See Fig.1)

1.

Remove the four screws A attaching the clamper
assembly.

2.

Move the clamper in the direction of the arrow to
release the two joints a on both sides.

ATTENTION:

When reattaching, fit the clamper to
the two joints a.

Removing the tray (See Fig.2 and 3)

Prior to performing the following procedure, remove
the clamper assembly.

1.

Push b of the slide cam into the slot on the left side
of the loading base until it stops.

2.

Draw out the tray toward the front.

Joint a

A

Joint a

A

AA

Fig.1

ATTENTION:

Before reattaching the tray, slide the
part c of the slide cam to the right as
shown in Fig.3.

Clamper base

Push

Tray

b

Fig.2

Part c

Slide cam

Fig.3

1-10

Removing the traverse mechanism
assembly (See Fig.4 and 5)

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

Prior to performing the following procedure, remove
the clamper assembly and the tray.

1.

Remove the four screws B attaching the traverse
mechanism assembly.

ATTENTION:

Before reattaching the traverse
mechanism assembly, pass the card
wire extending from the spindle motor
board through the notch d of the
elevator.

Removing the elevator (See Fig.6 and 7)

Prior to performing the following procedure, remove
the clamper assembly, the tray and the traverse
mechanism assembly.

1.

Extend each bar e inside of the loading base
outward and detach the elevator shaft.

B

Traverse mechanism
assembly

B

B

BB

BB

Fig.4

Traverse mechanism assembly

BB

Elevator
Notch d

ATTENTION:

Elevator

When reattaching, first fit the two
shafts on the front of the elevator to
the slots f of the slide cam.

Shafts

Slide cam

Elevator

Fig.5

e

Elevator

Elevator

Loading base

Slots f

e

Fig.6Fig.7

1-11

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

Removing the motor assembly

(See Fig.8 and 9)

Prior to performing the following procedure, remove
the clamper assembly, the tray, the traverse
mechanism assembly and the elevator.

1.

Remove the belt from the pulley.

2.

Remove the screw C attaching the motor assembly.

3.

Turn over the body and remove the screw D
attaching the motor assembly.

4.

Release the two tabs g retaining the motor board.

Belt

C

Motor assembly

Fig.8

Tabs g

Motor assembly

D

Loading base

Fig.9

1-12

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

Pulley gear

Pulley gear bracket

Motor assembly

Pulley gear bracket

E

Idle gear

Fig.10

Idle gear

Pulley gear

Tads h

Pulley gear

Removing the Idle gear / pulley gear /
middle gear / slide cam (See Fig.10 to 12)

Prior to performing the following procedure, remove
the clamper assembly, the tray, the traverse
mechanism assembly, the elevator and the motor
assembly.

1.

Press the two tabs h inward and pull out the idle
gear.

2.

Remove the screw E attaching the pulley gear
bracket. Slide the pulley gear bracket in the direction
of the arrow and pull out the pulley gear.

3.

Slide the slide cam in the direction of the arrow to
release the two joints i and remove upward.

4.

Remove the middle gear.

Slide cam

Joint i

Slide cam

Middle gear

Joint i

Fig.11

Middle gear

Fig.12

Loading base

1-13

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

<Traverse mechanism assembly section>

Removing the feed motor assembly

(See Fig.13)

1.

Unsolder the two soldering j on the spindle motor
board.

2.

Remove the two screws F attaching the feed motor
assembly.

Removing the feed motor

(See Fig.13 to 15)

Prior to performing the following procedure, remove
the feed motor assembly.

1.

Remove the screw G attaching the thrust spring.

Feed motor assembly

F

F

Notch k

Soldering j

Spindle motor board

Pickup

Spindle motor

Fig.13

Feed gear (M)

Thrust spring

ATTENTION:

2.

Remove the feed gear (M).

3.

Pull out the feed gear (E) and the lead screw.

4.

Remove the two screws H attaching the feed motor.

ATTENTION:

When reattaching the thrust spring,
make sure that the thrust spring
presses the feed gear (M) and the feed
gear (E) reasonably.

When reattaching, pass the two cables
extending from the feed motor through
the notch k of the feed holder as
shown in Fig.13.

G

Lead screw

Feed gear (E)

Fig.14

Feed motor

1-14

Feed holder

H

Fig.15

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

Removing the pickup (See Fig.16 and 17)

1.

Remove the screw I attaching the T spring (S) and
the shaft holder. Remove also the plate.

ATTENTION:

2.

Pull out the part l of the shaft upward. Move the part
m in the direction of the arrow and detach from the
spindle base.

3.

Disengage the joint n of the pickup and the shaft in
the direction of the arrow.

4.

Pull out the shaft from the pickup.

5.

Remove the two screws J attaching the actuator.

6.

Disengage the joint of the actuator and the lead
spring. Pull out the lead spring.

When reattaching, make sure that the
T spring (S) presses the shaft.

Shaft holder

I

Plate

T spring (S)

Lead spring

Pickup

Joint n

Part m

Part l

Fig.16

Actuator

J

Actuator

Lead spring

Shaft

Spring

The spring must be under the shaft when you
install pick-up.

Removing the shaft holder / shaft

(See Fig.18)

1.

Remove the screw K attaching the shaft holder.

2.

Remove the shaft.

Pick-up

Pickup

K

Shaft

Fig.17

Shaft

Shaft holder

Fig.18

1-15

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

Removing the spindle motor assembly

(See Fig.19 to 21)

1.

Remove the three screws L attaching the spindle
motor on the bottom of the mechanism base.

ATTENTION:

2.

Remove the three screws M attaching the spindle
base.

When reattaching, pass the card wire
extending from the spindle motor
board through the notch of the spindle
base.

L

L

Spindle motor assembly

Spindle motor

Fig.19

Spindle base

M

L

Fig.20

M

Spindle base

Mechanism base

Fig.21

1-16

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

Adjustment method

(1) Initialization method

If microprocessor (IC401,IC402,IC403) or pick-up is replaces, initialize the
DVD player in the following matter

1)Take out the disc and close the tray.

2)Unplug the power plug.

3)Insert power plug into outlet while pressing both "PLAY" button and "OPEN/CLOSE" button.

4)FL Display indicate "TEST " . :Version, :Region code

5)Press "3D-PHONIC" button of remote controller. and EEPROM initialize start.

6)When indicate "DTS" on the display, initialize finishes.

7)The power is turned OFF, and Unplug the power plug.

(2) Display of "Laser current value" and "Jitter value"

"Laser current value" and "Jitter value" are displayed on the FL display by the undermentioned
method. Please refer to the failure diagnosis.

1)Take out the disc and close the tray.

2)Unplug the power plug.

3)Insert power plug into outlet while pressing both "PLAY" button and "OPEN/CLOSE" button.

4)FL Display indicate "TEST " . :Version, :Region code

5)Press the "OPEN/CLOSE" button to move the tray outward.
Put the test disc (VT-501) on the tray and press "OPEN/CLOSE" button.
The tray should move inward (Note:Don't push to close the tray directly by hand etc.)

6)Press the "PLAY" button.

7)The laser current value and the jitter value is displayed on the FL indicator as follows.

FL Display

* The test mode is canceled when

0 0 4 0 3 9 7 8

the power is turned off.

Laser current value Jitter value

For Laser current value

The laser current value becomes 40mA for the above-mentioned.
Becomes a test mode by doing above-mentioned procedure 1) - 4). Afterwards, the laser current value can
be switched by pushing the button to remote controller without turning on the disk.

Remote control "4" button --- Laser of CD
Remote control "5" button --- Laser of DVD

If the laser current value is 64mA or less, it is roughly good. There is a possibility to which pick-up is
deteriorated, and exchange pick-up, please when there are 65mA or more laser current value.

OPEN

STANDBY/ON

/CLOSE

PLAY

3D

MODE

PHONIC

123

4

7

SUBTITLEANGLE AUDIO

DIGEST

S

U

IO

V

E

R

P

R

A

E

L

C

–

W

O

L

S

E

L

T

I

T

C

H

O

I

C

E

RM-SXVB40A REMOTE CONTROL

3D PHONIC

CANCEL

RETURN

Button (Initialize start)

56

89

0+1010

5 Button

THEATER
POSITION

ZOOM

(Laser of DVD)

N

E

X

T

SELECT

S

T

R

O

B

E

S

L

O

W

+

4 Button

M

E

N

U

(Laser of CD)

ENTER

Y

A

L

P

S

I

D

DTS Display part
(Initialize complete)

POWER Button

STANDBY

STANDBY ON

D I G I T A L

DOLBY

*Returns to a usual test mode by the
thing to push the "STOP" button of
remote controller.

OPEN/CLOSE

Button(Test mode)

FL Display

DVD/CD PLAYER

OPEN/CLOSE

SKIP

PLAY Button

(Test mode & display of jitter)

DVD/VIDEO CD/CD

PAUSEPLAYSTOP

1-17

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

For Jitter value

The jitter value is displayed on the FL display referring to the previous page.
The jitter value is displayed by the hexadecimal number.
In the following cases, please "Flap adjustment of the pick-up guide shaft" referring to the following page.
Before using the TEST disc VT-501, careful check it if there is neither damage nor dirt on the read surface.

< In the following cases, please adjustment >

* When you exchange the pick-up
* When you exchange the spindle motor
* When the reading accuracy of the signal is bad (There is a block noise in the screen etc..)

OPEN

STANDBY/ON

/CLOSE

PLAY
MODE

PHONIC

123

4

7

SUBTITLEANGLE AUDIO

DIGEST

S

U

IO

V

E

R

P

R

A

E

L

C

–

W

O

L

S

E

ITL

T

C

H

O

IC

E

RM-SXVB40A REMOTE CONTROL

3D PHONIC

3D

CANCEL

RETURN

Button (Initialize start)

56

89

0+1010

5 Button

THEATER
POSITION

ZOOM

(Laser of DVD)

N

E

X

T

SELECT

S

T

R

O

B

E

S

L

O

W

+

4 Button

M

E

N

U

(Laser of CD)

ENTER

Y

LA

P

IS

D

DTS Display part
(Initialize complete)

POWER Button

STANDBY

STANDBY ON

DOLBY

D I G I T A L

FL Display

DVD/CD PLAYER

OPEN/CLOSE

Button(Test mode)

(Test mode & display of jitter)

OPEN/CLOSE

SKIP

PLAY Button

DVD/VIDEO CD/CD

PAUSEPLAYSTOP

1-18

(3) Flap adjustment of the pick-up guide shaft

<Tool list for adjustment>

* Hex wrench for adjustment

Off-the-shelf (1.3mm)

* Test disc

VT-501 or VT-502

* Stud (four pieces set)

Parts No. : JIGXVS40 (One is not used though there are four. )

* Assistance board and extension cord

Parts No. : EXTXVS40MK2CB

1

EXTXVS40MK2CB-1 MAIN CONNECT

Parts No. : EXTXVS40CB

3

2

EXTXVS40MK2CB-2 CONTROL CONNECT

XV-S40

MAIN CONNECT

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

Parts No. : EXTXV521CB

<Connection diagram>

4

5

XV-521 CN601

MAIN CONNECT

XV-521 CN503

6

CONT CONNECT

To CN701 of main board

EXTXVS40MK2CB-1 MAIN CONNECT

1

3

XV-S40 CONTROL CONNECT

CN701 XV-521

XV-521 CN502

CONT CONNECT

MAIN CONNECT

MAIN CONNECT

CN706 XV-521

CN501 XV-521

CONT CONNECT

To CN961 of main board

4

MAIN CONNECT

6

These parts are not used.

XV-521 CN601

2

EXTXVS40MK2CB-2 CONTROL CONNECT

To CN503 of servo control board

5

CONT CONNECT

XV-521 CN503

To CN502 of servo control board

1-19

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

<Adjustment preparation>

1.The mechanism assembly is made in the state from the main body from which is detached referring to the
disassembly method.

2.Three studs are installed in the mechanism assembly respectively.

3.The servo control board is removed from the mechanism assembly, and puts into the state set up as shown
in figure. (Each wire connected by the servo control board this time leaves the connection maintained.)
Between shaft and hook of mechanism assembly of figure Board is put.

4.The extension cord is inserted in the connector of the assistance board respectively.
The main board is connected with the servo control board as shown in figure.

Mechanism

assembly

Extension

cord

Stud

Main board

Servo control board

Assistance

board

Extension

cord

Shaft & hook

Stud

Assistance

board

Assistance

board

Extension

cord

Shaft & hook

Assistance

board

Servo control board

Extension

cord

Assistance

board

<Adjustment>

1.Puts into the state to display the jitter value on the FL display referring to "Display of the jitter value".

2.The adjustment screw under the traverse mechanism is turned with hex wrench, and matches so that the
jitter value displayed on the FL display may become "maximum" value.

1-20

Adjustment screw a Adjustment screw b

Adjustment
screw c

<POINT>

1.Turns in the forward or the opposite direction,
and makes to the position where the jitter value
is good the half rotation of adjustment screw a
and b(180 degrees) respectively.

2.Afterwards, adjustment screw b and c are turned
in the same way, and makes to the best position.

Troubleshooting

Servo volume

Press OPEN
/CLOSE key

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

Is tray

operation

Confirmation of tray drive circuit

N

and circuit in surrounding

correct?

Y

Is the traverse moving
along the innermost

N

perimeter for SW detection?

Y

"NO DISC" message appears

Y

immediately after vertical
movement of the pick-up lens

N

The state that DISC does not rotate continues for
several seconds, and becomes NO DISC or an
error display afterwards.
The rotation of DISC becomes high-speed and
abnormal, and becomes NO DISC or an error
display afterwards.

N

Is focus retraction OK?

FE

OFF
Even when it retracts
correctly, if it is out of focus
and makes repeated retries
with a clicking sound, it is
in error.

ON

See "(4) Focus ON error"

N

in "Check points for
individual errors"

Y

Is tracking retraction OK?

See "(3) Traverse movement error"
in "Check points for individual errors"

See "(2) Disk detection, distinction error"
in "Check points for individual errors"

Y

See "(1) Spindle startup error"
in "Check points for individual errors"

Is the inter-layer jump OK?

FE

LO LI

A

Two layers of DVD only.

N

(8) Inter-layer

jump error

Y

TE

OFF

If TE waveform reappears
or fails to converge after the
TE retraction, it is in error.

ON

Y

Is the spindle servo

locked correctly?

Is the RF OUT waveform

locked correctly?

Y

A

See "(5) Tracking ON error"

N

in "Check points for
individual errors"

See "(6) Spindle CLV error"

N

in "Check points for
individual errors"

Has the disc information

been collected?

Stop will result

Y

Is playback

N

possible?

Y

OK !

N

(7) Address read

error

Check (9),(10),(11), and
(12) items in "Check points
for individual errors"

1-21

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

Check points for each error

(1) Spindle start error

1.Defective spindle motor

*Are there several ohms resistance between each pin of CN201 "5-6","6-7","5-7"?
(The power supply is turned off and measured.)

*Is the sign wave of about 100mVp-p in the voltage had from each terminal?
[ CN201"9"(H1-),"10"(H1+),"11"(H2-),"12"(H2+),"13"(H3-),"14"(H3+) ]

2.Defective spindle motor driver (IC251)

*Has motor drive voltage of a sine wave or a rectangular wave gone out to each terminal(SM1~3)
of CN201"5,6,7" and IC251"2,4,7"?

*Is FG pulse output from the terminal of IC251"24"(FG) according to the rotation of the motor?

*Is it "L(about 0.9V)" while terminal of IC251"15"(VH) is rotating the motor?

3.Has the control signal come from servo IC or the microcomputer?

*Is it "L" while the terminal of IC251"18"(SBRK) is operating?
Is it "H" while the terminal of IC251"23"(/SPMUTE) is operating?

*Is the control signal input to the terminal of IC251"22"(EC)?
(changes from VHALF voltage while the motor is working.)

*Is the VHALF voltage input to the terminal of IC251"21"(ECR)?

4.Is the FG signal input to the servo IC?

*Is FG pulse input to the terminal of IC301"69"(FG) according to the rotation of the motor?

(2) Disc Detection, Distinction error (no disc, no RFENV)

* Laser is defective.
* Front End Processor is defective (IC101).
* APC circuit is defective. --- Q101,Q102.
* Pattern is defective. --- Lines for CN101 - All patterns which relate to pick-up and patterns between IC101
* IC101 --- For signal from IC101 to IC301, is signal output from IC101 "20" (ASOUT) and
IC101 "41"(RFENV) and IC101 "22" (FEOUT)?

1-22

(3) Traverse movement NG

1.Defective traverse driver
*Has the voltage come between terminal of CN101 "1" and "2" ?

2.Defective BTL driver (IC201)
*Has the motor drive voltage gone out to IC201"17" or "18"?

3.Has the control signal come from servo IC or the microcomputer?
*Is it "H" while the terminal of IC201"9"(STBY1) ?
*TRSDRV Is the signal input? (IC301 "67")

4.TRVSW is the signal input from microcomputer? (IC401 "46")

(4) Focus ON NG

* Is FE output ? --- Pattern, IC101
* Is FODRV signal sent ? (R209) --- Pattern, IC301 "115"
* Is driving voltage sent ?

IC201 "13", "14" --- If NG, pattern, driver, mechanical unit .

* Mechanical unit is defective.

(5) Tracking ON NG

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

* When the tracking loop cannot be drawn in, TE shape of waves does not settle.
* Mechanical unit is defective.

Because the self adjustment cannot be normally adjusted, the thing which cannot be normally
drawn in is thought.
* Periphery of driver (IC201)

Constant or IC it self is defective.
* Servo IC (IC301)

When improperly adjusted due to defective IC.

(6) Spindle CLV NG

* IC101 -- "35"(RF OUT), "30"(ARF-), "31(ARF+).
* Does not the input or the output of driver's spindle signal do the grip?
* Has the tracking been turned on?
* Spindle motor and driver is defective.
* Additionally, "IC101 and IC301" and "Mechanism is defective(jitter)", etc. are thought.

(7) Address read NG

* Besides, the undermentioned cause is thought though specific of the cause is difficult because various
factors are thought.

Mechanism is defective. (jitter)

IC301, IC401.

The disc is dirty or the wound has adhered.

(8) Between layers jump NG (double-layer disc only)

Mechanism defective
Defect of driver's IC(IC201)
Defect of servo control IC(IC301)

1-23

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

(9) Neither picture nor sound is output

1.It is not possible to search
*Has the tracking been turned on?
*To

"(5) Tracking ON NG" in "Check points for each error"

*Is the feed operation normal?
To "(3) traverse movement NG" in "Check points for each error" when it is not normal.
Are not there caught of the feeding mechanism etc?

(10) Picture is distorted or abnormal sound occurs at intervals of several seconds.

Is the feed operation normal?
Are not there caught of the feeding mechanism etc?

(11) Others

The image is sometimes blocked, and the image stops.
The image is blocked when going to outer though it is
normal in surroundings in the disk and the stopping
symptom increases.

when the tracking is not normal.

There is a possibility with bad jitter
value for such a symptom.

(12) CD During normal playback operation

a) Is TOC reading normal?
Displays total time
for CD-DA.
Shifts to double-speed
mode for V-CD.

YES

NO

b)Playback possible?

*--:-- is displayed during FL search.
According to [It is not possible to search ] for DVD(9), check the feed
and tracking systems.
*No sound is output although the time is displayed.(CA-DA)
DAC, etc, other than servo.
*The passage of time is not stable, or picture is abnormal.(V-CD)
*The wound of the disc and dirt are confirmed.

1-24

Description of major ICs

AN8703FH-V (IC101) : Frontend processor

1.Pin layout

64 49

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

1

16

17 32

2.Pin function

Pin No.

1
2
3
4
5
6
7
8
9

10

11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33

Symbol

LPC1

LPC01

LPC2

LPC02

VFOSHORT

TBAL
FBAL

POFLT

DTRD

IDGT

STANDBY

SEN
SCK
STDI

RSCL

JLINE

TEN

TEOUT

AGCBAL

ASOUT

FEN

FEOUT

AGCOFST

MON

AGCLVL

GND2

VREF2

VCC2

VHALF

DFLTON

DFLTOP

DCFLT

GND3

48

33

I/O Description

Laser input terminal (DVD)

I

O

Laser drive signal output terminal (DVD)

I

Laser input terminal (CD)

O

Laser drive signal output terminal (CD)

I

VFOSHORT control terminal

I

Tracking balance control terminal

I

Focus balance control terminal

O

Track detection threshold level terminal

I

Data slice part data read signal input terminal
(For RAM)

I

Data slice part address part gate signal input
terminal( For RAM)

I

Standby mode control terminal

I

SEN(Serial data input terminal)

I

SCK(Serial data input terminal)

I

STDI(Serial data input terminal)

I

Standard electric current terminal

I

Electric current setting terminal of JLine

I

Reversing input terminal of tracking error output AMP.

O

Tracking error signal output terminal

I

Offset adjusting terminal 1

O

Full adder signal output terminal

I

Focus error output amplifier reversing input terminal

O

Focus error signal output terminal

I

Offset adjusting terminal 2

-

Non connect

O

Output amplitude adjustment for DRC

-

Connect to GND

O

VREF2 voltage output terminal

-

Power supply terminal 5V

O

VHALF voltage output terminal

O

Reversing output terminal of filter AMP.

O

Filter AMP. output terminal

I

Capacity connection terminal for filter output

-

Connect to GND

Pin No.

Symbol I/O Description

Non connect

34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57

58

59

60

61
62
63
64

RFDIFO

RFOUT

VCC3

RFC
DCRF
OFTR

BDO

RFENV

BOTTOM

PEAK

AGCG
AGCO

TESTSG

RFINP
RFINN

VIN5
VIN6
VIN7
VIN8

VIN9
VIN10
VCC1

VREF1

VIN1

VIN2

VIN3

VIN4

GND1
VIN11
VIN12

HDTYPE

-

Connect to TP103

-

Power supply terminal 3.3V

-

Filter for RF delay correction AMP.

O

All addition amplifier capacitor terminal

O

OFTR output terminal

O

BDO output terminal

O

RF envelope output terminal

O

Bottom envelope detection filter terminal

O

Peak envelope detection filter terminal

O

AGC amplifier gain control terminal

O

AGC amplifier level control terminal

O

TEST signal input terminal

I

RF signal positive input terminal

I

RF signal negative input terminal

I

Internal four-partition (CD) RF input 1

I

Internal four-partition (CD) RF input 2

I

Internal four-partition (CD) RF input 3

-

Internal four-partition (CD) RF input 4

-

External two-partition (DVD) RF input 2

I

External two-partition (DVD) RF input 1

I

Power supply terminal 5V

-

VREF1 voltage output terminal

O

Internal four-partition (DVD) RF input 1

I

Internal four-partition (DVD) RF input 2

I

Internal four-partition (DVD) RF input 3

I

Internal four-partition (DVD) RF input 4

I

Connect to GND

-

3 beam sub input terminal 2 (CD)

I

3 beam sub input terminal 1 (CD)

I

HD Type selection

O

1-25

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

BA5983FM-X (IC201) : 4CH Driver

1.Block diagram

27

26

10k

25

20k

28

Vcc

24

23 22

10k

20k

21

STAND BY
CH4

20

Vcc

19

10k

10k

18

Level Shift

17 16

10k

10k

10k

10k

15

10k

10k

Level Shift

10k

10k

1

2

3

5

4

10k

10k

STAND BY
CH1/2/3

6

7

89

Vcc

10

10k

10k

Level Shift

11

12

10k

10k

10k

10k

2.Pin function

Pin No. Pin No.Symbol SymbolI/O I/ODescription Description

10
11
12
13
14

1
2
3
4
5
6
7
8
9

BIAS IN

OPIN1(+)

OPIN1(-)
OPOUT1

OPIN2(+)

OPIN2(-)
OPOUT2

GND

STBY1

PowVcc1

VO2(-)

VO2(+)

VO1(-)

VO1(+)

Input for Bias-amplifier

I

Non inverting input for CH1 OP-AMP

I

Inverting input for CH1 OP-AMP

I

Output for CH1 OP-AMP

O

Non inverting input for CH2 OP-AMP

I

Inverting input for CH2 OP-AMP

I

Output for CH2 OP-AMP

O

Substrate ground

­Input for CH1/2/3 stand by control

I

Vcc for CH1/2 power block

­Inverted output of CH2

O

Non inverted output of CH2

O

Inverted output of CH1

O

Non inverted output of CH1

O

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

VO4(+)

VO4(-)

VO3(+)

VO3(-)

PowVcc2

STBY2

GND

OPOUT3

OPIN3(-)
OPIN3(+)
OPOUT4

OPIN4(-)
OPIN4(+)

PreVcc

O

Non inverted output of CH4

O

Inverted output of CH4

O

Non inverted output of CH3

O

Inverted output of CH3

-

Vcc for CH3/4 power block

I

Input for Ch4 stand by control

-

Substrate ground

O

Output for CH3 OP-AMP

I

Inverting input for CH3 OP-AMP

I

Non inverting input for CH3 OP-AMP

O

Output for CH4 OP-AMP

I

Inverting input for CH4 OP-AMP

I

Non inverting input for CH4 OP-AMP

-

Vcc for pre block

Level Shift

13

10k

10k

14

74VHC00MTC-X (IC455,IC503) : 2-input nand gate

1.Pin layout 2.Truth table

1-26

1A

1B

1Y

2A

2B

2Y

GND

1

2

3

4

5

6

7

(TOP VIEW)

14

13

12

11

10

9

8

VCC

4A

4B

4Y

3A

3B

3Y

L : High impedance

A

L

L

H

H

B

L

H

L

H

Y

H

H

H

L

BA6664FM-X (IC251) : 3Phase Motor Driver

1.Pin layout

RNFVMGSW

VccFGPS

EC

ECRFRFG2SBCNFBRVH-

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

28272625242322

1234567

NCA3NCA2NC

2.Block diagram

Hall 1

Hall 2

Hall 3

NC

A1

GND

H1+

H1-

H2+

H2-

H3+

H3-

21201918171615

8

9

29 30

A3

2

A2

4

A1

7

8

9

10

11

12

13

TL

HALL AMP

+

-

+

-

+

-

+

-

+

-

+

-

14

1011121314

H1-

H1+

GND

DRIVER

GAIN

CONTROL

H2+

H2-

H3+

CURRENT

SENSE AMP

R

D Q

CK Q

H3-

TSD

+ -

SENSE AMP

SHORT BRAKE

BRAKE MODE

PS

TOROUE

VCC

Hall Bias

GAIN

SWITCH

VCC

+

-

VCC

28

27

26

25

24

23

22

21

20

19

18

17

16

15

R

NF

VM

GSW

VCC

FG

PS

EC

ECR

FR

FG2

SB

CNF

BR

VH

R

Vcc

NF

V

M

SERVO
SIGNAL

FIN

1-27

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

3.Pin function

Pin No.

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

Symbol

NC

A3

NC

A2
NC
NC

A1

GND

H1+

H1-

H2+

H2-

H3+

H3-

VH
BR

CNF

SB

FG2

FR

ECR

EC
PS
FG

VCC

GSW

VM

RNF

I/O Description

-

O

-

O

-

-

O

­I
I
I
I
I
I
I

-

­I

-

­I

I
O
O

-

O

-

O

-

-

Non connect
Output 3 for spindle motor
Non connect
Output 2 for spindle motor
Non connect
Non connect
Output 1 for spindle motor
Connect to ground
Positive input for hall input AMP 1
Negative input for hall input AMP 2
Positive input for hall input AMP 2
Negative input for hall input AMP 2
Positive input for hall input AMP 3
Negative input for hall input AMP 3
Hall bias terminal
Non connect
Capacitor connection pin for phase compensation
Short brake terminal
Non connect
Non connect
Torque control standard voltage input terminal
Torque control voltage input terminal
Start/stop switch (power save terminal)
FG signal output terminal
Power supply for signal division
Gain switch
Power supply for driver division
Resistance connection pin for output current sense
Connect to ground
Connect to ground

BA6664FM-X

74VHC08SJ-X(IC411) / 74VHCT08ASJ-X(IC412):2-input AND gate

1.Pin layout 2.Truth table

1-28

1G

1A

1Y

2G

2A

2Y

GND

1

2

3

4

5

6

7

14

13

12

11

10

9

8

VCC

4G

4A

4Y

3G

3A

3Y

G
L
L
H
H

Y

A

Z

L

Z

H

Z

L

L

H

K4S641632E-TC75 (IC504) :CMOS SDRAM

1.Pin layout

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

545352515049484746454443424140393837363534333231302928

123456789

2.Block diagram

CLK

ADD

SSQ

VSSDQ15

V

DQ14

Q

Vcc

DQ1

DQ0

Vcc

Address register

DQ13

DQ2

VccQDQ12

SSQ

V

SSQ

DQ11

V

DQ10

DQ9

VccQDQ8

VSSN.C

UDQM

CLK

CKENCA11A9A8A7A6A5A4

1011121314151617181920212223242526

DQ3

DQ4

Q

Vcc

DQ5

DQ6

SSQ

V

DQ7

Vcc

LDQM

WE

CAS

RAS

CS

Bank select

Refresh counter

Row buffer

LCBR

LRAS

Row decoder

Col. buffer

A0A1A2

BS0

BS1

A10/AP

Data input register

Column decoder

SS

V

27

A3

Vcc

1M x 16

1M x 16

1M x 16

1M x 16

I/O Control Output buffer

LWE

LDQM

Sense AMP.

DQI

3.Pin functions

Latency & Burst length

LCKE

Programming register

LRAS LCBR LWE LCAS

Timing register

CLK CKE CS RAS CAS WE L(U)DQM

Symbol

CLK

CS

CKE

A0~A11

BS0,1

RAS

CAS

WE

LDQM

DQ0~15

Vcc/Vss

Vccq/Vssq

N.C

System clock

Chip select

Clock enable

address

Bank address strobe

Row address strobe

column address strobe

Write enable

Data input/output mask

Data input/output

Power supply/ground

Data output power/ground

Non connect

Description

LWCBR

LDQM

1-29

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

MN101C35DGN(IC701):System controller

Pin function

Pin No.

1
2
3

4~7

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

49~51
52~64
65~88
89~99

100

Symbol

D DATA

DCLK

DACOCS

DI/DO/CS/SK

VDD
OSC2
OSC1

VSS

XI

XO
MMOD
VREF-

POWER SW

NTSEL

RGB/YC SW

S/COMPO

AIN0

AIN2
TEST0
TEST1

VREF+

RGBSEL

RESET

AVCO

AVCI

POWERON

TCLOSE

TOPEN
/LMMUTE
SWOPEN
SWUPDN

REMO

NC

REQ

NC
S2UDT
U2SDT

SCLK

BUSY

CPURST

NC

VS3
VS1

MUTE

STANDBYIND

NC

13G~1G

S24~S1

NC

VPP

I/O

O
O
O

-

-

O

I

-

-

-

-

­I
I
I
I
I
I

-

-

-

O

I

O

I
O
O
O
O

I

I

I

-

I

-

O

I
O
O
O

­O
O
O
O

­O
O

-

-

DAC control data
DAC control clock
DAC control chip select
Not use
Power supply +B 5V
Oscillation terminal 8MHz
Oscillation terminal 8MHz
Connect to ground
Unused, Connect with ground
Non connect
Connect to ground
Connect to ground
Key input (power)
NTSC/PAL switch input
RGB/YC Switch input
S/COMPONENT Switch input
Key input (S831~S835)
Key input (open/close)
Not used
Not used
Power supply +B 5V
RGB select control (H:RGB L:other)
Reset input
AV COMPULINK output
AV COMPULINK input
Power ON output
Tray close control output
Tray open control output
Tray muting output (L:muting)
Detection switch of tray open/close (L:open/close)
Detection switch of traverse mechanism up/down (H:UP L:DOWN)
Remote control interruption
Non connect
Communication between unit microcomputers request
Non connect
Communication between unit microcomputers DATA output
Communication between unit microcomputers DATA input
Communication between unit microcomputers CLK
Communication between unit microcomputers BUSY
Unit microcomputers reset
Non connect
S3 control (H:standby L:power ON)
S1 control
Muting output
LED control signal output (standby)
Non connect
FL grid control signal output
FL segment control signal output
Non connect

-VDISP (apply -35V)

Description

1-30

MN102L62GGY (IC401) : Unit CPU

Pin function

Pin No. Pin No.

Symbol SymbolI/O I/OFunction Function

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46

47
48
49
50

WAIT

RE

SPMUTE

WEN

HDTYPE

CS1
CS2
CS3

DRVMUTE

SBRK

LSIRST

WORD

A0
A1
A2
A3

VDD

SYSCLK

VSS

XI

XO

VDD

OSCI
OSCO
MODE

A4
A5
A6
A7
A8

A9
A10
A11

VDD

A12
A13
A14
A15
A16
A17
A18
A19
VSS
A20

TXSEL

TRVSW

HUGUP
HFMON

HAGUP

-

Micon wait signal input

I

Read enable

O

Spindle muting output to IC251

O

Write enable

O

HD Type selection

O

Chip select for ODC

O

Chip select for ZIVA

O

Chip select for outer ROM

O

Driver mute

O

Short brake terminal

O

LSI reset

O

Bus selection input

I

Address bus 0 for CPU

O

Address bus 1 for CPU

O

Address bus 2 for CPU

O

Address bus 3 for CPU

O

Power supply

­Non connect

­Ground

­Not use (Connect to vss)

­Non connect

­Power supply

­Clock signal input(13.5MHz)

I

Clock signal output(13.5MHz)

O

CPU Mode selection input

I

Address bus 4 for CPU

O

Address bus 5 for CPU

O

Address bus 6 for CPU

O

Address bus 7 for CPU

O

Address bus 8 for CPU

O

Address bus 9 for CPU

O

Address bus 10 for CPU

O

Address bus 11 for CPU

O

Power supply

­Address bus 12 for CPU

O

Address bus 13 for CPU

O

Address bus 14 for CPU

O

Address bus 15 for CPU

O

Address bus 16 for CPU

O

Address bus 17 for CPU

O

Address bus 18 for CPU

O

Address bus 19 for CPU

O

Ground

­Address bus 20 for CPU

O

TX Select

O

Detection switch of traverse

I

inside
Connect to TP408

­HFM Control output to Q103

O

Connect to pick-up

O

Connect to TP407

-

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

-

-

P85/TM5IO

VDD

-

FEPEN

SLEEP

-

BUSY

REQ
VSS

EPCS

EPSK

EPDI

EPDO

VDD
SCLKO
S2UDT
U2SDT
CPSCK

P74/SBI1

SDOUT

-

-

NMI

ADSCIRQ

ODCIRQ
DECIRQ
CSSIRQ

ODCIRQ2

ADSEP

RST

VDD

TEST1
TEST2
TEST3
TEST4
TEST5
TEST6
TEST7
TEST8

VSS

D0
D1
D2
D3
D4
D5
D6
D7

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

Connect to TP406

­Connect to TP405

­Connect to TP404

­Power supply

­Connect to TP403

­Serial enable signal for FEP

O

Standby signal for FEP

O

Connect to TP402

­Communication busy

I

Communication request

O

Ground

­EEPROM chip select

O

EEPROM clock

O

EEPROM data input

I

EEPROM data output

O

Power supply

­Communication clock

O

Communication input data

I

Communication output data

O

Clock for ADSC serial

O

Not use (Pull down)

I

ADSC serial data output

O

Not use (Pull up)

I

Not use (Pull up)

I

NMI Terminal

I

Interrupt input of ADSC

I

Interrupt input of ODC

I

Interrupt input of ZIVA

I

Not use (Pull down)

I

Interruption of system control

I

Address data selection input

I

Reset input

I

Power supply

­Test signal 1 input

I

Test signal 2 input

I

Test signal 3 input

I

Test signal 4 input

I

Test signal 5 input

I

Test signal 6 input

I

Test signal 7 input

I

Test signal 8 input

I

Ground

­Data bus 0 of CPU

I/O

Data bus 1 of CPU

I/O

Data bus 2 of CPU

I/O

Data bus 3 of CPU

I/O

Data bus 4 of CPU

I/O

Data bus 5 of CPU

I/O

Data bus 6 of CPU

I/O

Data bus 7 of CPU

I/O

1-31

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

MN103S28EGA (IC301) : Super optical disc controller

1.Terminal layout
176 133

1

132

44

45 88

2.Block diagram

89

Analog

Servo I/O

(core 1 I/O)

Servo core

(core 2)

RAM

DVD-ROM
Formatter

CGEN

MODE

CD-PRE

Instruction
memory
(40KB)

Data

memory

(6KB)

General purpose IO bus

DMA

I/F

High speed IO bus

32 bit

CPU core

ECC

Host I/F

MPEG I/F

DMA

BCU

DRAMC

ATAPI

2Mbit

DRAM

3.Pin function (1/4)

Pin No.

1,2

3
4
5
6
7
8

9~17

18
19
20
21

22~30

31
32
33
34
35

CPUADR17~9

DRAMVDD18

CPUADR8~0

DRAMVDD3

CIRC

Symbol

NINT0,1

VDD3

VSS

NINT2

WAITDOC

NMPST

DASPST

VDD18

VSS

DRAMVSS

VDD3

VSS

NCS

NWR

I/O

O

-

­O
O
O

I
I

-

-

-

-

I

-

-

-

I
I

WDT

16 bit

timer x 2

SYSTEM

Interruption of system control 0,1
Power supply terminal for I/O(3.3V)
Connect to ground
Interruption of system control 2
Wait control of system control
Reset of system control (Non connect)
Setting of initial value of DASP signal
System control address
Power supply terminal for I/O (1.8V)
Connect to ground
Power supply terminal for DRAM (1.8V)
Connect to ground for DRAM
System control address
Power supply terminal for I/O (3.3V)
Connect to ground
Power supply terminal for DRAM (3.3V)
System control chip select
Writing system control

I/F

INTC

Description

1-32

3.Pin function (MN103S28EGA : 2/4)

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

Pin No.

36

37~44

45
46
47
48
49
50
51
52

53~56

57
58
59
60

61~64

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

Symbol

NRD

CPUDT7~0

CLKOUT1

MMOD

NRST
MSTPOL
SCLOCK

S DATA

OFTR

BDO

PWM1~4

VDD3

DRAMVDD18

DRAMVSS

VSS

PWM5~8

TBAL
FBAL

TRSDRV

SPDRV

FG

TILTP

TILT

TILTN

TX

DTRD

IDGT

VDD18

VSS

VDD3

OSCI1

OSCO1

VSS

TSTSG

VFOSHORT

JLINE

AVSSD

ROUT

LOUT

AVDD

VCOF

TRCRS

CMPIN

LPFOUT

LPFIN

AVSS
HPFOUT

FPFIN

CSLFLT

RFDIF
AVDDC
PLFLT2

I/O

I

I/O

­I
I
I

-

­I
I

-

-

-

-

-

-

O
O
O
O

I

-

-

-

O

-

-

-

-

­I

O

-

O
O
O

-

-

-

­I
I

-

­I

-

­I
I

-

­I

Description

Read signal input from system controller
System control data
Non connect
Test mode switch signal
System reset
Master terminal polarity switch input
Non connect
Non connect
Off track signal input
Drop out signal input
Non connect
Power supply terminal for I/O (3.3V)
Power supply terminal for DRAM (1.8V)
Connect to ground for DRAM
Connect to ground
Non connect
Tracking balance adjustment output
Focus balance adjustment output
Traverse drive output
Spindle drive output
Motor FG input
Non connect
Non connect
Non connect
Digital output signal
Non connect
Non connect
Power supply terminal for I/O (1.8V)
Connect to ground
Power supply terminal for I/O (3.3V)
Oscillation input 16.9MHz
Oscillation output 16.9MHz
Connect to ground
Calibration signal
VFO short output
J-line setting output
Connect to ground for analog circuit
Non connect
Non connect
Power supply terminal for analog circuit (3.3V)
JFVCO control voltage
Input signal for track cross formation
Non connect
Non connect
Pull-up to VHALF
Connect to ground for analog circuit
Non connect
HPF input
Pull-up to VHALF
Non connect
Power supply terminal for analog circuit (3.3V)
Connect to capacitor 2 for PLL

1-33

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

3.Pin function (MN103S28EGA : 3/4)

Pin No.

101
102
103
104
105
106

107,108

109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135

136,137

138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154

Symbol

PLFLT1

AVSS

RVI

VREFH

PLPG

VHALF

DSLF2,1

AVDD
NARF

ARF

JITOUT

AVSS
DAC0
DAC1
AVDD

AD0
AD1
AD2
AD3
AD4
AD5
AD6

TECAPA

VDD3

VSS
MONI0
MONI1
MONI2
MONI3

NEJECT

NTRYCTL

NDASP
NCS3FX
NCS1FX

DA2

NPDIAG

DA1

NIOCS16

INTRQ

NDMACK

VDD3

VSS
IORDY
NIORD

NIOWR

DMARQ

HDD15

HDD0

HDD14

VDD18

PO

UATASEL

I/O

I

­I
I

­I
I

­I
I

O

­O
O

-

I
I
I
I
I
I
I

-

-

-

-

-

-

-

I/O
I/O
I/O

I

I
I/O
I/O
I/O

-

O

I

-

-

-

I/O

-

­I/O
I/O
I/O

-

I
I

Description

Connect to capacitor 1 for PLL
Connect to ground for analog circuit
Connect to resistor for VREF reference current source
Reference voltage input (2.2V)
Non connect
Reference voltage input (1.65V)
Connect to capacitor 2,1 for DSL
Power supply terminal for analog circuit (3.3V)
Equivalence RF­Equivalence RF+
Output for jitter signal monitor
Connect to ground for analog circuit
Tracking drive output
Focus drive output
Power supply terminal for analog circuit (3.3V)
Focus error input
Phase difference/3 beams tracking error
AS : Full adder signal
RF envelope input
DVD laser current control terminal

CD laser current control terminal
Non connect
Power supply terminal for I/O (3.3V)
Connect to ground
Connect to TP306
Connect to TP307
Connect to TP308
Connect to TP309
Eject detection
Tray close detection
ATAPI drive active / slave connect I/O
ATAPI host chip select
ATAPI host chip select
ATAPI host address 2,0
ATAPI slave master diagnosis input
ATAPI host address 1
Non connect
ATAPI host interruption output
ATAPI host DMA characteristic
Power supply terminal I/O (3.3V)
Connect to ground
NOn connect
ATAPI host read
Non connect
Non connect
ATAPI host data 15
ATAPI host data 0
ATAPI host data 14
Power supply terminal for I/O (1.8V)
Connect to ground
Connect to ground

1-34

3.Pin function (MN103S28EGA : 4/4)

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

Pin No.

155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170

171~173

174
175
176

Symbol

VSS
VDD3
HDD1

HDD13

HDD2

HDD12

HDD3
VDD3

VSS

HDD11

HDD4

HDD10

HDD5
HDD9
VDD3

VSS

HDD6~8

VDDH
NRESET
MASTER

I/O

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

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

I/O

-

Connect to ground

-

Power supply terminal for I/O (3.3V)
ATAPI host data 1
ATAPI host data 13
ATAPI host data 2
ATAPI host data 12
ATAPI host data 3

-

Power supply terminal for I/O (3.3V)

-

Connect to ground
ATAPI host data 11
ATAPI host data 4
ATAPI host data 10
ATAPI host data 5
ATAPI host data 9
Power supply terminal for I/O (3.3V)

­Connect to ground

­ATAPI host data 6~8
Reference power supply for ATAPI (5.0V)

­ATAPI host reset input

I

ATAPI master / slave select

I

Description

74VHC74MTC-X (IC454) : ZIVA Wait

1.Terminal layout

14

Vcc

13

CLR2

12

D2

11

CK2

10

PR2

9

Q2

8

Q2

Direct clear input 1

I

Data input 1

I

Clock pulse input 1

I

Direct preset input 1

I

Output

O

Output

O

Connect to ground

-

D1
CK1
PR1

Q1
Q1

1
2
3
4
5
6
7

CLR1

GND

3.Pin function

Pin No.

1
2
3
4
5
6
7

CK1 D1

PR1CLR1

Q1 Q1

CK2D2

PR2CLR2

Q2 Q2

Symbol I/O Description

CLR1

D1
CK1
PR1

Q1

Q1

GND

2.Trouth table

Input Output

CLR

PR

L

H

H

L

L

L

H

H

H

H

H

H

Pin No.

8

9
10
11
12
13
14

D

CK

X

X

X

X

X

X

L
H
X

Q

L

H

H(Note 1)

L

H

Qn

H(Note 1)

Symbol I/O Description

Q2

Q2
PR2
CK2

D2

CLR2

VCC

Output

O

Output

O

Direct preset input 2

I

Click pulse input 2

I

Data input 2

I

Clock clear input 2

I

Power supply

-

Q

H

L

H

L

Qn

Function

Clear
Preset

No change

1-35

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

CY24203SC-X (IC571) : MPEG/Audio clock generator with VCXO

1.Pin layout 2.Pin function

Pin No. DescriptionSymbol

XIN

VDD

VCXO

VSS

1
2
3
4

8

XOUT

7

27M

6

13.5M

5

16.9344M

1
2
3
4
5
6
7
8

XIN

VDD

VCXO

VSS

16.9344M

13.5
27M

XOUT

Reference crystal input
Power supply
Input analog control for VCXO
Connect to ground

16.9344 MHz clock output

13.5 MHz clock output
27 MHz clock output
Reference crystal output

GP1U271X (IC801) : Receiver for remote

+

–

Amp. Limiter

IC-PST9140-T (IC702) : System Reset IC

1.Terminal layout

Output GNDInput

2.Block diagram

B.P.F

Demodulator

Integrator Comparator

GND

VCC Vout

Input

2

1-36

CO1

OP1

1

3

Output

GND

1.Terminal layout

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

MN35505-X (IC703) : DAC

M5

DIN

LRCK

BCK

M3

DVDD2

CKO

DVSS2

M2

M1
OUT1C
AVDD1
OUT1D

AVSS1

2. Pin function

Pin No.

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28

1
2
3
4
5
6
7
8

9
10
11
12
13
14

M5

DIN

LRCK

BCK

M3

DVDD2

CKO

DVSS2

M2

M1
OUT1C
AVDD1
OUT1D

AVSS1

AVSS2
OUT2D
AVDD2
OUT2C

M9

DVSS1

XOUT

XIN

VCOF

DVDD1

M7
M8
M4
M6

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

M6
M4
M8
M7
DVDD1
VCOF
XIN
XOUT
DVSS1
M9
OUT2C
AVDD2
OUT2D
AVSS2

I/OSymbol Description

I
I
I
I
I

-

-

­I
I

O

-

O

-

-

O

-

O

I

-

-

­I

-

-

­I
I

Control signal for DAC
Digital data input
L and R clock for DAC
Bit clock for DAC
Control signal for DAC
Power supply terminal
Non connect
Connect to ground
Control signal for DAC
Control signal for DAC
Analog output 1
Power supply terminal
Analog output 1
Connect to ground
Connect to ground
Analog output 2
Power supply terminal
Analog output 2
Control signal for DAC
Connect to ground
Non connect
Non connect
VCO Frequency
Power supply D+5V
Connect to ground
Connect to ground
Control signal for DAC
Clock for control signal

1-37

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

MR27V1602E1UTPX (IC402) :P2 ROM of 1,048,576word x 16 bit / 2,097,152 word x 8 bit

1.Pin layout

WP

A20A9A10

A11

A12

A13

A14

A15

A16

A17

BYTE

VssA0D7

D14D6D13D5D12D4Vcc

444342414039383736353433323130292827262524

123456789

WE

A19

2.Block diagram

A8A7A6A5A4A3A2

A18

A0
A1
A2
A3
A4
A5
A6
A7
A8

A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20

Address Buffer

10111213141516171819202122

A1

CE

Vss

D0D8D1D9D2

OE

D10D3D11

x 8 / x 16 Output select

CE

CE

OE

OE

Memory Cell Matrix

1,048,576 x 16-Bit or 2,097,152 x 8-Bit

Row Decoder

Column Decoder

D0

D1

23

BYTE

Multiplexer

Output Buffer

D12

D11

D13

When the mode of IC outputs
eight bits, these pins are in the
state of high impedance.

D14D2D3D4D5D6D7D8D9D10

3.Pin functions

1-38

Symbol

A0 - A20

D0 - D14

CE

OE

BYTE

Vcc
Vss

WE
WP

Function

Address Input

Data Output
Chip Enable

Output Enable

Mode Switch

Power Supply

GND

Write enable

Connect to ground

NJM4580M-X (IC741,IC751) : Dual OP amplifier

Block diagram

V+ B OUT B -IN B +IN

8765

B

A

1234

V-A +INA -INA OUT

NJM78M05FA (IC953) : Regulator

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

1.Terminal layout 2.Block diagram

1.INPUT

2.GND

3.OUTPUT

1 2 3

PQ05RD21 (IC951) : Regulator

2.Block diagram1.Terminal layout

Vinput

INPUT

OUTPUT

GND

1

2

Voutput

PQ05RD21

Vin

GND

Vout

Vcontrol

3

GND

Vcontrol

4

1-39

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

S-93C66AFJ-X (IC451) : EEPROM

1.Pin layout

2.Pin function

1

PE

CS

SK

2
3
4

VCC

1.Block diagram

DI

CS

8

NC

7

GND

6

DO

5

DI

Memory

array

Data resister

Mode decode

logitech

Pin No. DescriptionSymbol

1
2
3
4
5
6
7
8

PE

VCC

CS
SK

DI

DO

GND

NC

Address

decoder

Buffer output

I/O

O

Non connect

­Power supply terminal

­Chip select input

I

Serial clock input

I

Serial data input

I

Serial data output
Connect to ground

­Non connect

-

Vcc

GND

DO

SK

Clock generation

circuit

STR-G6651 (IC901) : Switch regulator

VIN

4

START

REG

T. S. D

O.V.P

LATCH

O.S.C

Vth(2)

Comp.2

DRIVE

Comp.1

1

D

2

S

Vth(1)

5

O.C.P/F.B

3

GND

1-40

ZIVA-4.1-PA2(IC501):Back end - Digital decoder

1.Terminal layout

~

208 157

1

~

156

~

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

52

~

53 104

2.Pin function (1/5)

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

Symbol

RD
R/W
VDD

WAIT

RESET

VSS
VDD

INT

NC

NC

NC

NC
VDD
VSS

NC

NC

NC

NC
VSS
VDD

V DATA 0
V DATA 1
V DATA 2
V DATA 3
V DATA 4
V DATA 5
V DATA 6
V DATA 7

VSYNC

HSYNC

VSS
VDD

NC

NC

NC
VDD

105

I/O

O

O

O
O
O
O
O
O
O
O

I/O

I/O

Description

I
I

-

I

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

Read strobe input
Read/write strobe input
Power supply terminal 3.3V
Transfer not complete / data acknowledge.
Active LOW to indicate host initiated transfer is complete.
Active LOW : reset signal input
Connect to ground
Power supply terminal 3.3V
Host interrupt signal output
Non connect
Non connect
Non connect
Non connect
Power supply terminal 2.5V
Connect to ground
Non connect
Non connect
Non connect
Non connect
Connect to ground
Power supply 3.3V
Video data bus output. Byte serial CbYCrY data synchronous with VCLK.
Video data bus output. Byte serial CbYCrY data synchronous with VCLK.
Video data bus output. Byte serial CbYCrY data synchronous with VCLK.
Video data bus output. Byte serial CbYCrY data synchronous with VCLK.
Video data bus output. Byte serial CbYCrY data synchronous with VCLK.
Video data bus output. Byte serial CbYCrY data synchronous with VCLK.
Video data bus output. Byte serial CbYCrY data synchronous with VCLK.
Video data bus output. Byte serial CbYCrY data synchronous with VCLK.
Vertical sync. Bi-directional, the decoder output the top border of a new
field on the first HSYNC after the falling edge of VSYNC.
Horizontal sync. The decoder begins outputting pixel data for a new
horizontal line after the falling (active) edge of HSYNC.
Connect to ground
Power supply terminal 3.3V
Non connect
Non connect
Non connect
Power supply terminal 2.5V

1-41

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

2.Pin function (ZIVA-4.1-PA2 : 2/5)

Pin No.

37
38
39
40
41
42
43
44
45
46
47
48
49
50
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

Symbol

VSS

NC
NC
NC
NC
NC

PIO0

VSS

VDD
PIO1
PIO2
PIO3
PIO4
PIO5
PIO6
PIO7

M DATA 0
M DATA 1

VDD

VSS
M DATA 2
M DATA 3
M DATA 4
M DATA 5
M DATA 6
M DATA 7

MDATA15

VDD

VSS

MDATA14

VDD

VSS

MDATA13
MDATA12
MDATA11
MDATA10

M DATA 9

VDD

VSS
M DATA 8

LDQM

SD-CLK

CLKSEL
MADDR9
MADDR8

VDD

VSS

MADDR7

I/O

Connect to ground

­Non connect

­Non connect

­Non connect

­Non connect

­Non connect

­Programmable I/O terminal

I/O

Connect to ground

­Power supply terminal 3.3V

­Programmable I/O terminal

I/O

Programmable I/O terminal

I/O

Programmable I/O terminal

I/O

Programmable I/O terminal

I/O

Programmable I/O terminal

I/O

Programmable I/O terminal

I/O

Programmable I/O terminal

I/O

SDRAM data

I/O

SDRAM data

I/O

Power supply terminal 3.3V

­Connect to ground

­SDRAM data

I/O

SDRAM data

I/O

SDRAM data

I/O

SDRAM data

I/O

SDRAM data

I/O

SDRAM data

I/O

SDRAM data

I/O

Power supply terminal 3.3V

­Connect to ground

­SDRAM data

I/O

Power supply terminal 2.5

­Connect to ground

­SDRAM data

I/O

SDRAM data

I/O

SDRAM data

I/O

SDRAM data

I/O

SDRAM data

I/O

Power supply terminal 3.3V

­Connect to ground

­SDRAM data

I/O

SDRAM Lower or upper mask

O

SDRAM Clock

O

Selects SYSCLK or VCLK as clock source. Normal operation is to tie HIGH.

I

SDRAM address

O

SDRAM address

O

Power supply terminal 3.3V

­Connect to ground

­SDRAM address

O

Description

1-42

2.Pin function (ZIVA-4.1-PA2 : 3/5)

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

Pin No.

85
86
87
88
89
90
91
92
93
94
95
96
97
98

99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118

119

120

121

122
123
124
125
126
127
128

Symbol

MADDR6
MADDR5

VDD

VSS

MADDR4

MWE

SD-CAS

VDD

VSS
SD-RAS
SD-CS0

SD-CS1/MADDR11

SD-BS

MADDR10

MADDR0

VDD

VSS

MADDR1
MADDR2
MADDR3

RESERVED

NC
NC

RESERVED

NC
RESERVED
RESERVED
RESERVED

DAI-LRCK

DAI-BCK

VDD

VSS

DAI-DATA

DA-DATA3

DA-DATA2

DA-DATA1

DA-DATA0

DA-LRCK

VDD

VSS
DA-XCK
DA-BCK

DA-IEC

VDD

I/O

SDRAM address

O

SDRAM address

O

Power supply terminal 2.5V

­Connect to ground

­SDRAM address

O

SDRAM write enable

O

Active LOW SDRAM column address

O

Power supply terminal 3.3V

­Connect to ground

­Active LOW SDRAM row address

O

Active LOW SDRAM chip select 0

O

Active LOW SDRAM chip select 1 or use as MADDR11 for larger SDRAM

O

SDRAM bank select

O

SDRAM address

O

SDRAM address

O

Power supply terminal 3.3V

­Connect to ground

­SDRAM address

O

SDRAM address

O

SDRAM address

O

Tie to VSS or VDD_3.3 as specified in table1

I

Non connect

­Non connect

­Tie to VSS or VDD_3.3 as specified in table1

I

Non connect

­Tie to VSS or VDD_3.3 as specified in table1

I

Tie to VSS or VDD_3.3 as specified in table1

I

Tie to VSS or VDD_3.3 as specified in table1

I

PCM left/right clock

I

PCM input bit clock

I

Power supply 3.3V

­Connect to ground

­PCM data input

I

PCM data output. Eight channels. Serial audio samples relative to

O

DA_BCK and DA_LRCK
PCM data output. Eight channels. Serial audio samples relative to

O

DA_BCK and DA_LRCK
PCM data output. Eight channels. Serial audio samples relative to

O

DA_BCK and DA_LRCK
PCM data output. Eight channels. Serial audio samples relative to

O

DA_BCK and DA_LRCK
PCM left clock. Identifies the channel for each sample

O

Power supply terminal 3.3V

­Connect to ground

­Audio external frequency clock input or output

I/O

PCM bit clock output

O

PCM data out in IEC-958 format or compressed data out in IEC-1937 format

O

Power supply terminal 2.5V

-

Description

1-43

XV-S40BK/XV-S42SL/XV-S45GD
XV-S30BK/XV-E100SL

2.Pin function (ZIVA-4.1-PA2 : 4/5)

Pin No.

129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162

163

164

165

166
167
168

169

Symbol

VSS

NC

VSS_DAC

VSS_VIDEO

CVBS

VDD_DAC

VDD_VIDEO

NC

VSS_DAC

VSS_VIDEO

CVBS/G/Y
VDD_DAC

VDD_VIDEO

NC

VSS_DAC

VSS_VIDEO

Y/B/U

VDD_DAC

VDD_VIDEO

NC

VSS_DAC

VSS_VIDEO

C/R/V

VDD_DAC

VDD_VIDEO

VSS_RREF

RREF

VDD_RREF

A_VSS

SYSCLK

VCLK

A_VDD

DVD-DATA0/CD-DATA

DVD-DATA1/CD-LRC

DVD-DATA2/CD-BCK

DVD-DATA3/CD-C2PO

DVD-DATA4/CDGSDATA

VSS

VDD

DVD-DATA5/CDG-VFSY

DVD-DATA6/CDG-SOS1

I/O

Connect to ground

­Non connect

­Connect to ground for analog video DAC

­Connect to ground for analog video

­DAC video output format : CVBS. Macrovision encoded

O

Power supply terminal for analog video DAC

­Power supply terminal for analog video

­Non connect

­Connect to ground for analog video DAC

­Connect to ground for analog video

­DAC video output format. Macrovision encoded

O

Power supply terminal for analog video DAC

­Power supply terminal for analog video

­Non connect

­Connect to ground for analog video DAC

­Connect to ground for analog video

­DAC video output format. Macrovision encoded

O

Power supply terminal for analog video DAC

­Power supply terminal for analog video

­Non connect

­Connect to ground for analog video DAC

­Connect to ground for analog video

­DAC video output format. Macrovision encoded

O

Power supply terminal for analog video DAC

­Power supply terminal for analog video

­Connect to ground for analog video

­Reference resistor. Connecting to pin 154

O

Power supply terminal for analog video 3.3V

­Power supply terminal for analog PLL 3.3V

­Optical system clock. Tie to A_VDD through a 1K ohm resistor

I

System clock input

I

Power supply terminal for analog PLL 3.3V

­Serial CD data. This pin is shared with DVD compressed data DVD-DATA0

I

Programmable polarity 16-bit word synchronization to the decoder.

I

Description

This pin is shared with DVD compressed data DVD-DATA1
CD bit clock. Decoder accept multiple BCK rates. This pin is shared with

I

DVD compressed DVD-DATA2
Asserted HIGH indicates a corrupted byte. This pin is shared with DVD

I

compressed data DVD-DATA3
DVD parallel compressed data from DVD DSP. or CD-G data indicating

I

serial subcode data input
Connect to ground

­Power supply terminal 3.3V

­DVD parallel compressed data from DVD DSP. or CD-G frame sync

I

indicating frame-start or composite synchronization input.
DVD parallel compressed data from DVD DSP. or CD-G block sync

I

indicating block-start synchronization input

1-44

2.Pin function (ZIVA-4.1-PA2 : 5/5)
Pin No.

170

171

172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197

198
199

200

201

202

203

204
205
206

207

208

Symbol

DVD-DATA7/CDG-SCLK

VDACK

VREQUEST

VSTROBE

ERROR

VDD

RESERVED

VDD

VSS

NC

RESERVED

NC
HADDR0
HADDR1
HADDR2

RESERVED
RESERVED
RESERVED

VSS

VDD

RESERVED

VSS

VDD
RESERVED
RESERVED
RESERVED
RESERVED

H DATA 7

VSS

H DATA 6

H DATA 5

H DATA 4

H DATA 3

H DATA 2

VDD

VSS

H DATA 1

H DATA 0

CS

I/O

I

I

O

I
I

­I

-

-

­I

­I
I
I
I
I
I

-

­I

-

­I
I
I
I

I/O

-

I/O

I/O

I/O

I/O

I/O

-

-

I/O

I/O

I

XV-S40BK/XV-S42SL/XV-S45GD

XV-S30BK/XV-E100SL

Description
DVD parallel compressed data from DVD DSP. or CD-G clock indicating
sub code data clock input or output
In synchronous mode, bitstream data acknowledge. Asserted when DVD
data is valid.Polarity is programmable
Bitstream request
Bitstream strobe
Error in input data
Power supply terminal 3.3V
Tie to VSS or VDD_3.3 as specified in table 1
Power supply terminal 3.3V
Connect to ground
Non connect
Tie to VSS or VDD_3.3 as specified in table 1
Non connect

Host addressbus. 3-bit address bus selects one of eight host interface registers
Host addressbus. 3-bit address bus selects one of eight host interface registers
Host addressbus. 3-bit address bus selects one of eight host interface registers

Tie to VSS or VDD_3.3 as specified in table 1
Tie to VSS or VDD_3.3 as specified in table 1
Tie to VSS or VDD_3.3 as specified in table 1
Connect to ground
Power supply terminal 2.5V
Tie to VSS or VDD_3.3 as specified in table 1
Connect to ground
Power supply terminal 3.3V
Tie to VSS or VDD_3.3 as specified in table 1
Tie to VSS or VDD_3.3 as specified in table 1
Tie to VSS or VDD_3.3 as specified in table 1
Tie to VSS or VDD_3.3 as specified in table 1
The 8-bit bi-derectional host data through which the host writes data to
the decoder code.
Connect to ground
The 8-bit bi-derectional host data through which the host writes data to
the decoder code.
The 8-bit bi-derectional host data through which the host writes data to
the decoder code.
The 8-bit bi-derectional host data through which the host writes data to
the decoder code.
The 8-bit bi-derectional host data through which the host writes data to
the decoder code.
The 8-bit bi-derectional host data through which the host writes data to
the decoder code.
Power supply terminal 3.3V
Connect to ground
The 8-bit bi-derectional host data through which the host writes data to
the decoder code.
The 8-bit bi-derectional host data through which the host writes data to
the decoder code.
Host chip select input

1-45

XV-S40BK/XV-S42SL

XV-S45GD/XV-S30BK

XV-E100SL

VICTOR COMPANY OF JAPAN, LIMITED

PERSONAL & MOBILE NETWORK BUSINESS UNIT
1644, Shimotsuruma, Yamato, Kanagawa 242-8514, Japan

No.A0023

Printed in Japan
200111(O)